Ceramic Capacitors Standard & Custom Parts

MΩ.µF

180 µF

Product Catalogue 179

Ceramic Capacitors

A Worldwide presence

Speciﬁ cations are subject to change without notice. All statements, information and data given herein are presented without guarantee, warranty or responsib Ility of any kind, expressed or implied.

3 CERAMIC CAPACITORS TapingGeneral : dimensionsInformation

MATERIALS EXPERT ENVIRONMENT For 50 years and as a market leader, EXXELIA’s comprehensive knowledge of EXXELIA is committed to applying a robust environmental policy, from product the materials properties and performances have enabled us to design capaci- design through to shipment. To control its environmental footprint and recon- tors in Porcelain, NPO, BX, 2C1, BP, X7R and -2200ppm/° C ceramics. cile this with the company’ functional imperatives, our environmental policy provides for the reduction or elimination of hazardous substances. We also CUSTOM DESIGNS focus on compliance with European Union directives and regulations, notably REACH and RoHS. Our catalog products don’t meet your application? Based on the valuable experience accumulated over the design of 2,000+ spe- RoHS COMPLIANCY cific ceramic capacitors, you can trust EXXELIA to define a qualitative custom SMD CAPACITORS solution in a time effective manner. The capacitor terminations are generally protected by a nickel barrier formed by electrolytic deposit. This barrier gives chip capacitors leaching performance NO OBSOLESCENCE far exceeding the requirements of all applicable standards. The nickel barrier Choosing a standard or custom Exxelia product means you won’t have to worry guarantees a minimum resistance to soldering heat for a period of 1 minute at about obsolescence. 260°C in a tin-lead (60/40) or tin-lead-silver (62/36/2) bath without noticeable alteration to the solderability. It also allows repeated soldering-unsoldering TYPICAL APPLICATIONS and the longer soldering times required by reflow techniques. However nickel barrier amplifies thermal shock and is not recommended for • Aerospace & Defense: cockpit panels, flight control, radio systems, missile chip sizes equal or greater than CNC Y (30 30) - (C 282 to C 288 - CNC 80 to guidance systems… CNC 94). • Space: military and commercial satellites, launcher… • Medical: MRI, external defibrillators, implantable devices… 10 - 60 µm • Telecommunications: base stations… Metallization Silver-Palladium (or Silver) • Oil and gas: drilling tools, MWD, LWD, wellheads… ISO 9001 AND AS9100C CerUflex (polymer) Quality is at the core of Exxelia’s corporate culture. Each sites has its own cer- Nickel barrier tifications. Tinning: 2 - 3 µm Tin-Lead No RoHs CERTIFICATIONS Pure Tin RoHS (W) 3 - 8 µm Capacitors manufactured by EXXELIA comply with American and European standards and meet the requirements of many international standards. LEADED COMPONENTS For Space qualified parts (ESA QPL), please refer to our catalog «Ceramic ca- As well as for SMD products, leaded capacitors ranges can also be RoHS. These pacitors for Space applications». products, which are characterized by the suffix «W» added to the commercial type, are naturally compatible with the soldering alloys used in RoHS mounting QUALITY & RELIABILITY technology. The connections coating is generally an alloy SnAg (with a maximum of 4% Ag). However, on a few products that Exxelia will precise on request, EXXELIA is committed to design and manufacture high quality and reliability the coating is pure silver. products. The test cycles reproducing the most adverse operating conditions over extended periods (up to 10 000 hours) have logged to date well over 5.109 hours/°Component. Failure rate data can be provided upon request. CONFLICT MINERALS EXXELIA is committed to an approach based on «Conflict Minerals Compli- ance». This US SEC rule demands complete traceability and a control mech- anism for the mineral procurement chain, encouraging importers to buy only «certified» ore. We have discontinued relations with suppliers that procure from the Democrat- ic Republic of the Congo or an adjoining country.

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Coating Leads Mounting

Model Main Applications Page Size Voltage Dielectric DIL Capacitance Temperature SMD Axial Radial Ribbon Molded Uncoated Varnished Main Characteristic Main Through hole Through Self-protected Conformal coated Conformal NPO CEC / CNC SERIES 0402 BX 10V 1pF –55°C Precision, stability, Low and Medium Voltage to to to to • • 22 Chips Capacitors 2C1 decoupling 3040 X7R 1,000V 12µF +125°C

NON MAGNETIC 0603 63V 10pF –55°C CHIPS SERIES to NPO to to to Precision, stability, 26 Low and Medium Voltage X7R • • decoupling Chips Capacitors 2220 500V 1µF +125°C Precision, stability, OP SERIES 0805 NPO 10V 1pF –55°C decoupling. Open Mode Chips to to to to • • 28 Capacitors X7R Signiﬁ cantly reduce 2220 100V 4.7µF +125°C risk of short circuit

CER /CNR SERIES 0306 NPO 16V 1pF –55°C Decoupling, low ESL, Low Inductance Chips to X7R to to to • • medical embedded 30 Capacitors 0612 100V 270nF +125°C

C3N / C4N / C3E / C4E NPO 25V 4.7pF –55°C Medical embedded, SERIES - X7R to to to • • miniaturisation 32 Capacitors Arrays 200V 33nF +125°C

40V 470pF –55°C 30 S4 SERIES - NPO to to to • •• Railway 33 Safety Capacitors X7R 100V 820nF +125°C

NPO STANDARD TCE / TCX / TCN / TXR BX 25V 1pF –55°C Precision, stability, MOLDED SERIES - 2C1 to to to • •• decoupling 34 Radial Molded Capacitors X7R 500V 4.7µF +125°C

NPO 25V 1pF –55°C LA SERIES - Temp. to to to • •• Decoupling 36 Radial Molded Capacitors coeff. 63V 680nF +125°C

TCE / TCX / TCN / TXR NPO 25V 1pF –55°C Precision, stability, AXIAL SERIES - BX - 2C1 to to to • ••decoupling 38 Axial Molded Capacitors X7R 500V 3.9µF +125°C

TCE / TCX / TCN / TXR NPO 25V 1pF –55°C CONFORMAL COATED - BX - 2C1 to to to • ••Precision, stability, 40 SERIES X7R 500V 6.8µF +125°C decoupling Radial Dipped Capacitors

NON MAGNETIC 63V 180pF –55°C CONFORMAL COATED - NPO to to to • ••Precision, stability, 42 SERIES X7R 500V 1µF +125°C decoupling Radial Dipped Capacitors

25V 10pF –55°C CK SERIES - BX to to to • •• Decoupling 44 Radial Molded Capacitors 250V 1µF +125°C

C Series 1812 NPO 200V 10pF –55°C High voltage chips to C4xx to to to • • 51 Capacitors 16080 X7R 10kV 39µF +125°C

TCL / TCK Series NPO 200V 10pF –55°C High voltage Molded & - C4xx to to to 54 Varnished leaded •• •• Capacitors X7R 10kV 39µF +125°C

TCF Series NPO 200V 10pF –55°C Power supply, High voltage Conformal - C4xx to to to • •• 57 coated leaded Capacitors X7R 10kV 39µF +125°C voltage multiplier, radars. • aerospace • space TKD Series NPO 200V 10pF –55°C

HIGH VOLTAGE HIGH • defence High voltage Conformal - C4xx to to to • •• • railways 60 coated leaded Capacitors X7R 10kV 39µF +125°C

CS Series 2220 NPO 1kV 220pF –55°C High voltage Stacked to C4xx to to to •• •• •• 62 Capacitors 16080 X7R 10kV 15µF +125°C

–55°C VM Series ----to • • 65 Voltage Multipliers +125°C

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Coating Leads Mounting

Main Model Applications Page DIL Self SMD Dielectric Axial Size range Size Radial Ribbon Molded Voltage range Voltage Uncoated protected Varnished Through hole Through Capacitance range Capacitance Temperature range Temperature Main Characteristic Main Conformal coated Conformal

R SERIES (CHIPS) 2225 50V 47nF –55°C High Capacitance to X7R to to to • • 73 Chips Capacitors 45107 500V 27µF +125°C

R SERIES (LEADED) 50V 47nF –55°C Radial Leaded Conformal - X7R to to to • •• 77 Coated Capacitors 500V 27µF +125°C

TEF SERIES 63V 10nF –55°C Radial Leaded Conformal - NPO to to to • •• 80 Coated Capacitors 500V 680nF +125°C

SV / SC SERIES 2225 50V 47nF –55°C Switch Mode High Capacitance to X7R to to to •• •• •• Power Supply, 81 Stacked Capacitors 125205 500V 390µF +125°C ﬁ ltering, smoothing, decoupling. CNC3X SERIES 2220 16V 1.2µF –55°C • aerospace High Capacitance to X7R to to to 88 HIGH CAPACITANCE HIGH •• • •• • space Stacked Capacitors 4040 25V 68µF +125°C • defence

CEC5X SERIES 3033 63V 10nF –55°C High Capacitance to NPO to to to •• • •• 90 Stacked Capacitors 80150 500V 6.8µF +125°C

TEP / TEV SERIES 63V 10nF –55°C High Capacitance - NPO to to to • •• 93 Stacked Capacitors 500V 6.8µF +125°C

TCN8X SERIES 63V 0.47µF –55°C High Capacitance Molded - X7R to to to • •• 95 Stacked Capacitors 500V 120µF +125°C

16V 1pF –55°C CE / CN SERIES 0402 NPO High Temperature to to to to 100 X7R • • Chips Capacitors 3040 100V 8.2µF +250°C

SCT SERIES 2225 50V 47nF –55°C High Temperature to X7R to to to •• • •• 102 Stacked Capacitors 125205 500V 390µF +215°C

TCE / TCN MOLDED 16V 1pF –55°C Oil drilling, motor NPO SERIES HT - to to to control, braking 107 High Temperature X7R • •• • Molded Capacitors 100V 10µF +220° C systems. HIGH TEMPERATURE HIGH TCE / TCN SELF-PRO- 25V 10pF –55°C NPO TECTED SERIES - to to to 109 High Temperature X7R • •• • Self-Protected Capacitors 500V 3.9µF +250°C

200V 10pF –55°C TCH SERIES NPO High Temperature - to to to 111 X7R • •• High Voltage Capacitors 10kV 15µF +250°C

25V 10pF –55°C TBC SERIES NPO - to to to Very low ESL 115 Discoidal Capacitors X7R • • 1kV 12µF +125°C

FEED-THRU 25V 330pF –55°C BPM SERIES Very low ESL, - X7R to to to 117 Planar Array • • miniaturisation 200V 68nF +125°C

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Model Main Applications Page Dielectric Size range Size DIL Self SMD Axial Voltage range Voltage Radial Ribbon Molded Uncoated protected Varnished Capacitance range Capacitance Temperature range Temperature Main Characteristic Main Through hole Through Conformal coated Conformal

50V 0.1pF –55°C CH SERIES 0505 P100 to to to • •••• Cellular base station 129 Classic HiQ 1111 1.5kV 1nF +175°C ampliﬁ er, MRI.

0402 25V 0.2pF –55°C SH SERIES to NPO to to to • •••• 132 Super HiQ 1210 1.5kV 1nF +150°C Cellular base station 0.5pF –55°C equipment SHD / SHR SERIES 0709 NPO 500V to to Broadband Reverse Geometry 0711 • • Point to point/ 135 100pF +175°C multi-point radios RF generators HIGH Q NHB SERIES 0.3pF –55°C High Self Resonant 1111 NPO 500V to to • • 137 Frequency 100pF +175°C

200V 1pF –55°C RF power ampliﬁ er CP SERIES 2225 P100 to to to ••••••• Plasma chamber 139 High Power 4040 7kV 10nF +125°C MRI coils

2225 200V 1pF –55°C RF power ampliﬁ er CL SERIES to NPO to to to ••••••• Plasma chamber 143 High Power 7065 7kV 10nF +125°C MRI coils ADDITIONAL AVAILABLE RANGES (consult our website)

63V 0,5pF –55°C Precision, stability, TCE1X Series - NPO to to to - 100V 10nF +125°C • •• decoupling 63V 10pF –55°C TCN19 Series - 2C1 to to to - 250V 1µF +125°C • •• 50V 100pF –55°C STANDARD TCN3X Series - 2C1 to to to Decoupling - 100V 1,8µF +125°C • •• 25V 100pF –55°C LA6 Series - 2C1 to to to - 63V 1µF +125°C • ••

0805 1kV 2pF –55°C Power supply, H Series to NPO to to to voltage multiplier, - HIGH 6560 X7R 10kV 390nF +125°C •• ••• VOLTAGE radars.

3033 63V 0,1µF –55°C CNC5X Series to X7R to to to - 80150 500V 180µF +125°C ••••• 3033 63V 47nF –55°C CNC8X Series (chips) to X7R to to to • • - 33110 400V 27µF +125°C Switch Mode 3333 63V 47nF –55°C Power Supply, CNC8X Series (DIL) to X7R to to to ••••• ﬁ ltering, - 80150 400V 180µF +125°C smoothing, 3333 63V 47nF –55°C decoupling. TCP / TCV8X Series to X7R to to to • aerospace - 80150 400V 180µF +125°C • ••

HIGH CAPACITANCE HIGH • space 3033 63V 0,1µF –55°C • defence TCP / TCV5X Series to X7R to to to - 80150 500V 180µF +125°C • •• 63V 0,1µF –55°C TCF Series - X7R to to to - 500V 18µF +125°C • ••

3033 1µF –55°C Oil drilling, motor con- CNC25X Series to X7R 50V to to -

HIGH ••••• TEMP. 5550 33µF +200°C trol, braking systems.

100V 10nF –55°C CNW Series - X7R to to to - 300V 1µF +125°C • •••• Power ampliﬁ er

HIGH Q HIGH SPT519 / CAW 100V 10nF –55°C - NPO to to to - CEW Series 300V 1µF +125°C •• ••••

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MLCC STRUCTURE DIELECTRIC CHARACTERISTICS Insulation Resistance (IR) is the resistance measured under DC voltage Terminations Ceramic across the terminals of the capacitor and consists principally of the parallel resistance shown in the equivalent circuit. As capacitance values and hence the area of dielectric increases, the IR decreases and hence the product (C x IR) is often speciﬁ ed in Ω.F or MΩ.µF. Tin Tin / Lead The Equivalent Series Resistance (ESR) is the sum of the resistive terms Gold which generate heating when capacitor is used under AC voltage at a given (Solderable layer) frequency (f).

Electrodes Dissipation factor (DF) is the ration of the apparent power input will turn to heat in the capacitor: Margins DF = 2π f C ESR Silver or Silver / Palladium (electrodes contact layer) Polymer (crack protection layer) When a capacitor works under AC voltage, heat power loss (P), expressed in Nickel or Copper barrier (leaching protection layer) Watt, is equal to: P = 2π f C Vrms2 DF

EQUIVALENT CIRCUIT The series inductance (Ls) is due to the currents running through the elec- Capacitor is a complex component combining resistive, inductive and capaci- trodes. It can distort the operation of the capacitor at high frequency where the tive phenomena. A simpliﬁ ed schematic for the equivalent circuit is: impedance (Z) is given as: Z = Rs + j (Ls.q - 1⁄(C.q)) with q = 2πf When frequency rises, the capacitive component of capacitors is gradually IR canceled up to the resonance frequency, where : Z = Rs and LsC.q2 = 1 Ls Rs C Above this frequency the capacitor behaves like an inductor.

P100 NPO N2200 (C4xx) BX 2C1 X7R Magnesium titanate or Neodynium Barium zirconate Dielectric material Porcelain Baryum titanate (BaTiO ) baryum titanate titanate 3 Dielectric constant 15 – 18 20 – 85 450 2,000 – 5,000 Electrode technology PME (Precious Metal Electrodes): Ag/Pd Capacitance variation between ––55°C (–2,200±500) ±15% ±20% ±15% and +125/° C without DC voltage ppm/° C (100±30)ppm/° C (0±30)ppm/° C Capacitance variation between ––55°C Not 0 -15% 15% –25% 20% –30% and +125/° C with DC rated voltage applicable Piezo-electric effect None None Yes Dielectric absorption None Few % Few % Thermal shock sensitive + + ++

www.exxelia.com 8 [email protected] Page revised 09/17 CERAMIC CAPACITORS Ceramic General Capacitors characteristics Technology GENERAL INFORMATION GENERAL MANUFACTURING STEPS

SLIP CASTING ELECTRODE SCREEN PRINTING STACKING

A slurry, a mix of ceramic powder, binder and The electrode ink, made from a metal powder mixed The sheets with electrode printed are solvents, is poured onto conveyor belt inside a with solvents, is printed onto the ceramic sheets stacked to create a multilayer structure. drying oven, resulting in a dry ceramic sheet. using a screen printing process.

TERMINATIONS SINTERING PRESSING

Each terminal of the capacitor is dipped in the The parts are sintered in an oven with a precise Pressure is applied to the stack to fuse all the termination ink, mix of metal powder, solvents temperature proﬁ le which is very important to the separate layers, this created a monolithic and glass frit and the parts are ﬁ red in an oven. characteristics of the capacitors. structure.

TERMINATIONS PLATING FINAL TESTING PACKAGING

Stacking + leads soldering + encapsulation (see pages 10-11)

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SMD TERMINATIONS

Recommended mounting process NON RoHS RoHS Vapor Storage Code Code Magnetic Epoxy Iron Wave Infrared Wire COMPLIANT COMPLIANT phase (months)* bonding soldering soldering soldering bonding soldering Ag Q Ag QW / P No •••• 18 Ag/Pd/Pt - Ag/Pd/Pt W / A No ••• 24 Ag + Ni + dipped Sn/Pb T** - - No •••• 24 60/40 Ag/Pd/Pt Ag/Pd/Pt + dipped H HW No 24 + dipped Sn • Sn/Pb 60/40 Ag + Ni Ag + Ni + electrolytic C + electrolytic CW / S Yes •••• 18 Sn/Pb 95/5 Sn Ag + Ni + electrolytic D - - Yes •••• 18 Sn/Pb 60/40 Ag + Cu - - + electrolytic C*** No •••• 18 Sn Ag + Ni Ag + Ni + dipped E + electrolytic EW Yes •• 24 Sn/Pb 60/40 Sn Ag + Ni + Au G Ag + Ni + Au GW Yes ••••••36 Ag + Polymer Ag + Polymer + Ni + Sn/Pb YC YCW Yes 18 + Ni + Sn •••• 95/5 Ag + Polymer + Ni + Sn/Pb YD - - Yes •••• 18 60/40 Ag + Polymer Ag + Polymer YG YGW Yes 36 + Ni + Au + Ni + Au •••••• Nickel (Ni) or Copper (Cu) barriers amplify thermal shock and are not recommended for chip sizes larger than 3030. * Storage must be in a dry environment at a temperature of 20° C with a relative humidity below 50%, or preferably in a package enclosing a desiccant. ** Maintenance only. *** Non magnetic chips series only.

SMD ENVIRONMENTAL TESTS STORAGE OF CHIP CAPACITORS Ceramic chip capacitors for SMD are designed to meet test requirements of TINNED OR NON TINNED CHIP CAPACITORS CECC 32100 and NF C 93133 standards as speciﬁed below in compliance with Storage must be in a dry environment at a temperature of 20°C with a relative NF C 20700 and IEC 68 standards: humidity below 50 %, or preferably in a packaging enclosing a desiccant. STORAGE IN INDUSTRIAL ENVIRONMENT: • Solderability: NF C 20758, 260° C, bath 62/36/2. • Adherence: 5N force. • 2 years for tin dipped chip capacitors, • Vibration fatigue test: NF C 20706, 20 g, 10 Hz to 2,000 Hz, 12 cycles of • 18 months for tin electroplated chip capacitors, 20 minutes each. • 2 years for non tinned chip capacitors, • Rapid temperature change: NF C 20714, – –55°C to + 125° C, 5 cycles. • 3 years for gold plated chip capacitors. • Combined climatic test: IEC 68-2-38. STORAGE IN CONTROLLED NEUTRAL NITROGEN ENVIRONMENT: • Damp heat: NF C 20703, 93 %, H.R., 40° C. • 4 years for tin dipped or electroplated chip capacitors, • Endurance test: 1,000 hours, 1.5 U , 125° C. RC • 4 years for non tinned chip capacitors,

• 5 years for gold plated chip capacitors. Storage duration should be considered from delivery date and not from batch manufacture date. The tests carried out at ﬁnal acceptance stage (solderability, susceptibility to solder heat) enable to assess the compatibility to surface mounting of the chips.

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LEAD STYLES INFORMATION GENERAL

SURFACE MOUNTING TROUGH-HOLE MOUNTING

DIL LEADS AXIAL AND RADIAL

P style PL style Radial leads (Type 6) Radial leads (4 leads)

L style J style

Axial leads (Type 7) DIL leads: N style

RIBBON LEADS

Micro-strip (type 1) Axial (Type 2) Short Micro-strip (type 1S)

ENCAPSULATION STYLES

Ceramic encapsulation Varnish Radial (Type 3) R style (selfprotected)

RX style RJ style Conformal coating Molding

Please contact Exxelia sales for any lead conﬁ guration not shown.

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SOLDERING ADVICES FOR REFLOW SOLDERING

l2 Dimensions Reﬂow soldering Wave soldering in inches (in mm) I1 I2 I3 I1 I2 I3 0402 0.043 (1.1) 0.035 (0.9) 0.012 (0.3) 0.043 (1.1) 0.047 (1.2) 0.012 (0.3) 0403 0.055 (1.4) 0.035 (0.9) 0.012 (0.3) 0.055 (1.4) 0.047 (1.2) 0.012 (0.3) 0504 0.063 (1.6) 0.051 (1.3) 0.016 (0.4) 0.063 (1.6) 0.063 (1.6) 0.016 (0.4) 1 l 0603 0.055 (1.4) 0.059 (1.5) 0.02 (0.5) 0.055 (1.4) 0.071 (1.8) 0.02 (0.5) 0805 0.073 (1.85) 0.065 (1.65) 0.024 (0.6) 0.073 (1.85) 0.077 (1.95) 0.024 (0.6) 0907 0.094 (2.4) 0.065 (1.65) 0.035 (0.9) 0.094 (2.4) 0.077 (1.95) 0.035 (0.9) 1005 0.073 (1.85) 0.067 (1.7) 0.039 (1) 0.073 (1.85) 0.079 (2) 0.039 (1) l3 1206 0.083 (2.1) 0.067 (1.7) 0.059 (1.5) 0.083 (2.1) 0.079 (2) 0.059 (1.5) 1210 0.118 (3) 0.069 (1.75) 0.059 (1.5) 0.118 (3) 0.081 (2.05) 0.059 (1.5) 1605 0.073 (1.85) 0.071 (1.8) 0.087 (2.2) 0.073 (1.85) 0.083 (2.1) 0.087 (2.2) Large chips above size 2225 are not recommended 1806 0.087 (2.2) 0.073 (1.85) 0.102 (2.6) 0.087 (2.2) 0.085 (2.15) 0.102 (2.6) to be mounted on epoxy board due to thermal ex- 1812 0.152 (3.85) 0.073 (1.85) 0.102 (2.6) 0.152 (3.85) 0.085 (2.15) 0.102 (2.6) pansion coefﬁcient mismatch between ceramic 1825 0.281 (7.15) 0.073 (1.85) 0.102 (2.6) 0.281 (7.15) 0.085 (2.15) 0.102 (2.6) capacitor and epoxy. Where larger sizes are re- 2210 0.13 (3.3) 0.079 (2) 0.146 (3.7) 0.13 (3.3) 0.091 (2.3) 0.146 (3.7) quired, it is recommended to use components with ribbon or other adapted leads so as to absorb ther- 2220 0.228 (5.8) 0.079 (2) 0.146 (3.7) 0.228 (5.8) 0.091 (2.3) 0.146 (3.7) mo-mechanical strains. 2225 0.281 (7.15) 0.079 (2) 0.146 (3.7) 0.281 (7.15) 0.091 (2.3) 0.146 (3.7)

RECOMMENDED FOOTPRINT FOR SMD CAPACITORS Ceramic is by nature a material which is sensitive both thermally and mecha- Infrared and vapor phase reﬂow, are preferred for high reliability applications nically. Stresses caused by the physical and thermal properties of the capaci- as inherent thermo-mechanical strains are lower than those inherent to wave tors, substrates and solders are attenuated by the leads. soldering. Wave soldering is unsuitable for sizes larger than 2220 and for the higher ends Whatever the soldering process is, it is highly recommended to apply a thermal of capacitance ranges due to possible thermal shock (capacitance values gi- cycle, see hereafter our recommended soldering proﬁle: ven upon request).

RECOMMENDED VAPOR PHASE REFLOW PROFILE RECOMMENDED IR REFLOW PROFIL RECOMMENDED WAVE SOLDERING PROFILE

250°C 245°C-255°C 250 250 300 Natural 280°C 215°C 215°C-225°C cool down 250°C 250 200 200 >50°C/s Natural cool down 200 150 150 Natural cool down 150 100 100 Temperature (°C) Temperature (°C) Temperature (°C) 100 Preheat zone 50 50 RoHS 50 RoHS RoHS No RoHS 20°C No RoHS 20°C 20°C No RoHS 0 0 0 0 123 4 5 0 123 4 5 0 123 4 Time (min) Time (min) Time (min)

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SOLDERING ADVICES FOR IRON SOLDERING INFORMATION GENERAL Attachment with a soldering iron is discouraged due to ceramic brittleness and • leave the tip on the footprint for a few seconds in order to increase locally the the process control limitations. In the event that a soldering iron must be used, footprint’s temperature, the following precautions should be observed: • use a cored wire solder and put it down on the iron tip. In a preferred way use • Use a substrate with chip footprints big enough to allow putting side by side Sn/Pb/Ag 62/36/2 alloy, one end of the capacitor and the iron tip without any contact between this tip • wait until the solder fillet is formed on the capacitor’s termination, and the component, • take away iron and wire solder, • place the capacitor on this footprint, • wait a few minutes so that the substrate and capacitor come back down to • heat the substrate until the capacitor’s temperature reaches 150° C minimum the preheating temperature, (preheating step, maximum 1°C per second), • solder the second termination using the same procedure as the first, • place the hot iron tip (a flat tip is preferred) on the footprint without touching the capacitor. Use a regulated iron with a 30 watts maximum • let the soldered component cool down slowly to avoid any thermal shock. power. The recommended temperature of the iron is 270 ±10° C. The temperature gap between the capacitor and the iron tip must not exceed 120° C,

PACKAGING TAPE AND REEL TRAY PACKAGES The ﬁlms used on the reels correspond to standard IEC 60286-3. Films are delivered on reels in compliance with document IEC 286-3 dated 1991. E Minimum quantity is 250 chips. Maximum quantities per reel are as follows: • Super 8 reel - Ø 180: 2,500 chips. D • Super 8 reel - Ø 330: 10,000 chips. • Super 12 reel - Ø 180: 1,000 chips. Reel marking complies with CECC 32100 standard: E • Model. B • Rated capacitance. A D • Capacitance tolerance. • Rated voltage. Chips tray depth: C • Batch number.

DIMENSIONAL CHARACTERISTICS OF CHIPS TRAY PACKAGES

Nr. of chips/ Dimensions in inches (in mm) Sizes Oriented chips package A B C D E Ø 0.112 0.065 0.167 2 0402 100 No (Ø 3.02) (1.65) (4.24) (50.8) Ø 0.112 0.065 0.167 2 0403 100 No (Ø 3.02) (1.65) (4.24) (50.8) 0.059 0.045 0.035 0.167 2 0504 100 Yes (1.5) (1.14) (0.89) (4.24) (50.8) 0.1 0.06 0.045 0.167 2 0603 340 Yes (2.54) (1.52) (1.14) (4.24) (50.8) 0.1 0.06 0.045 0.167 2 0805 100 Yes (2.54) (1.52) (1.14) (4.24) (50.8) 0.14 0.14 0.06 0.167 2 1206 100 No (3.56) (3.56) (1.52) (4.24) (50.8) 0.14 0.14 0.06 0.167 2 1210 100 Yes (3.56) (3.56) (1.52) (4.24) (50.8) 0.25 0.25 0.13 0.345 4 100 No (6.35) (6.35) (3.3) (8.76) (101.6) 1812 0.24 0.265 0.07 0.345 2 25 Yes (6.1) (6.73) (1.78) (8.76) (50.8) 0.25 0.25 0.13 0.345 4 100 Yes (6.35) (6.35) (3.3) (8.76) (101.6) 2220 0.24 0.265 0.07 0.345 2 25 Yes (6.1) (6.73) (1.78) (8.76) (50.8)

www.exxelia.com 13 [email protected] Page revised 09/17 CERAMIC CAPACITORS TapingUser Guide : dimensions

EIA STANDARD CAPACITANCE VALUES PART MARKING VOLTAGE CODES Following EIA standard, the values and multiples that are indicated in the chart Use the following voltage code chart for part markings: below can be ordered. E48, E96 series and intermediary values are available upon request.

E6 E12 E24 Voltage (V) Code Letter code (± 20%) (± 10%) (± 5%) 10 25 250 A 10 11 40 400 B 10 12 50 500 C 12 13 63 630 D 15 100 101 E 15 16 200 201 G 15 18 250 251 H 18 20 400 401 K 22 500 501 L 22 24 1,000 102 M 22 27 2,000 202 P 27 30 3,000 302 R 33 4,000 402 S 33 36 5,000 502 T 33 39 7,500 752 U 39 43 10,000 103 W 47 47 51 47 56 56 62 68 68 75 68 82 82 91

EIA CAPACITANCE CODE PART MARKING TOLERANCE CODES The capacitance is expressed in three digit codes and in units of pico Farads (pF). Use the following tolerance code chart for part markings: The first and second digits are significant figures of the capacitance value and the third digit identifies the multiplier. Tolerance Letter code For capacitance value < 10pF, R designates a decimal point. ±0.25pF CU See examples below: ±0.5pF DU ±1pF FU ±1% F Capacitance value EIA code ±2% G in pF in nF in µF ±5% J 2R2 2.2 0.0022 0.0000022 ±10% K 6R8 6.8 0.0068 0.0000068 ±20% M 220 22 0.022 0.000022 470 47 0.047 0.000047 181 180 0.18 0.00018 221 220 0.22 0.00022 102 1,000 1 0.001 272 2,700 2.7 0.0027 123 12,000 12 0.012 683 68,000 68 0.068 124 120,000 120 0.12 564 560,000 560 0.56 335 3,300,000 3,300 3.3 825 8,200,000 8,200 8.2 156 15,000,000 15,000 15 686 68,000,000 68,000 68 107 100,000,000 100,000 100 227 220,000,000 220,000 220

www.exxelia.com 14 [email protected] Page revised 09/17 CERAMIC CAPACITORS General characteristicsUser Guide GENERAL INFORMATION GENERAL RELIABILITY LEVELS

Exxelia proposes different reliability levels for the ceramic capacitors for both NPO and X7R ceramics.

CECC ESA ESCC EXXELIA TECHNOLOGIES chips capacitors are EXXELIA TECHNOLOGIES chips capacitors are qualiﬁed (QPL) qualiﬁed according to CECC32101-801 according to ESCC n°3009 (chips) and ESCC n°3001 (leaded) ÆÆ ÆÆ Æ Æ Æ ÆÆ Æ ÆÆ ÆÆ Æ Æ Æ

T6 Standard F T5 Only for Level FM rated voltage <500V

100% electrical and visual control IN PROCESS control • Voltage proof According ESCC n°3009/3001

• Insulation Resistance Æ • Capacitance value • Dissipation factor ¬ Chart F2

¬¬¬¬¬ According ESCC n°3009/3001 Æ Rapid Change of Temperature 10 cycles –55°C +125°C

Burn-in (100% control) Chart¬ F3

¬ 168 h, 125°C, 1.5 Un According ESCC n°3009/3001 ¬ ¬¬¬ ¬¬¬ Solderability Test On 10 parts Æ

Rapid Change of Temperature Documentation: according ESCC n°3009/3001 5 cycles –55°C +125°C Damp Heat 85°C • 85 % RH 240 h • 1.5 V On 40 parts Æ Æ Æ

CoC CoC CoC CoC Standard F T5 T6

www.exxelia.com 15 [email protected] Page revised 09/17 CERAMIC CAPACITORS TapingCustom : dimensionsDesign

As the world’s leading manufacturer of specifi c passive components, we stand Where necessary, special testing is done to verify requirements, such as low apart through our ability to quickly evaluate the application specifi c engineering dielectric absorption, ultra-high insulation resistance, low dissipation factor, challenges and provide a cost-effective and effi cient solutions. stability under temperature cycling or under specifi ed environmental conditions, etc. For requirements that cannot be met by catalog products, we offer leading edge solutions in custom confi guration: custom geometries, packaging, characteristics, all is possible thanks to our extensive experience and robust development process, while maintaining the highest level of reliability.

HIGH CAPACITANCE HIGH VOLTAGE • High energy density • Up to 50 kV • Specific case sizes • Specific circular shape • Specific shape of connections (high resistance to vibrations)

HIGH TEMPERATURE OTHERS • Up to 250°C • Screen printed resistors • Specific shape of connections • Complex components • 2 000 hours life time • Full functions available • HMP soldering

www.exxelia.com 16 infoatexxelia.com Page revised 09/17 STANDARD

GENERAL INFORMATION NPO/COG ...... 18 GENERAL INFORMATION X7R ...... 20 CEC / CNC SERIES Low and Medium Voltage Chips Capacitors ...... 22 NON MAGNETIC CHIPS SERIES Low and Medium Voltage Chips Capacitors ...... 26 OP SERIES Open Mode Chips Capacitors ...... 28 CER / CNR SERIES Low inductance Chips Capacitors ...... 30 C3N / C4N / C3E / C4E SERIES Capacitors Arrays ...... 32 30 S4 SERIES Safety Capacitors ...... 33 TCE / TCX / TCN / TXR MOLDED SERIES Radial Molded Capacitors ...... 34 LA SERIES Radial Molded Capacitors ...... 36 TCE / TCX / TCN / TXR AXIAL SERIES Axial Molded Capacitors ...... 38 TCE / TCX / TCN / TXR CONFORMAL COATED SERIES Radial Dipped Capacitors...... 40 NON MAGNETIC CONFORMAL COATED SERIES Radial Dipped Capacitors...... 42 CK SERIES Radial Molded Capacitors ...... 44 CERAMIC CAPACITORS TapingGeneral : dimensionsInformation NPO/COG (Class 1)

COMPOSITION TEMPERATURE COEFFICIENT NPO capacitors are produced by using a dielectric made of titanium dioxide Temperature coefficient kV(ppm/°C) (Ti O2) modified by magnesium oxide Mg O (white ceramics) or a rare earth oxide, e.g. Nd2 O3 (other NPO ceramics). kV Tolerances Code letter + 100 ± 30 AG As a consequence, these ceramics are non ferro-electric materials with a low dielectric constant (εr ≤ 110). 0 ± 30 CG – 33 ± 30 HG Other additives are used to dope the dielectric constant up to 300. Though der- – 75 ± 30 LG ogating from CG class, doped dielectric constant features a linear temperature – 150 ± 30 PG drift and a matchless stability compared with class 2 ceramics. – 220 ± 30 RG The wide range of possible NPO dielectric compositions enables to use the ma- – 330 ± 60 SH terial best suited to the application : – 470 ± 60 TH • standard applications, • high voltage, – 750 ± 120 UJ • high temperature, – 1 000 ± 250 QK • microwave, • power capacitors. «Temperature coefficient» compositions are particularly suitable for impedance matching. These ceramics usually enable to achieve temperature coefficients from 0 to –1000 ppm/°C. For specific requirements, other coefficients can be achieved (e.g. –3300 ppm/°C). STABILITY As εr is low, these dielectrics are extremely stable with only minor changes under such stresses as : • temperature, • voltage, • frequency. In addition, they are not affected by piezo-electric phenomena and their dielectric absorption coefficients are low and even non measurable for dielectrics with the lowest constants. MECHANICAL PROPERTIES Class 1 ceramics are the perfect match for metallic electrodes made of Pd or Ag-Pd alloy and have a high hardness and mechanical toughness making them resistant to thermal shocks (wave soldering for instance) and to thermal cycling after mounting on substrates having an expansion coefficient close to the capacitor one. Ceramic chips meet CECC 32100 and NF C 93133 standards. CLIMATIC CATEGORIES Climatic categories are identified by three-digit codes as per NF C 20700 standard. Coding method is described in table 6. e.g. : – 55°C + 125°C / 56 days category is identified by code 434.

www.exxelia.com 18 [email protected] Page revised 09/17 CERAMIC CAPACITORS General InformationGeneral NPO/COG characteristics (Class 1)

IMPEDANCE VERSUS FREQUENCY DISSIPATION FACTOR VERSUS FREQUENCY

4 0pF10 10 100 nF 100 pF 1 10 nF 1 nF 0.5 103 0.2 STANDARD 102 0.1

Impedance (m Ω ) 0.05 Dissipation factor (%) 10 0.02

1 0.01 2 3 4 5 6 7 10 10 10 10 10 10 10 1 2 5 10 2 5 102 2 5 103 Frequency (kHz) Frequency (kHz)

CAPACITANCE CHANGE VERSUS TEMPERATURE IR VERSUS TEMPERATURE

4 0.5 10 Typical Standard limits 5 0.4 2 0.3 Ω ) 103 0.2 5

0.1 2 2 0 10

∆C/C (%) 5 –0.1 2 –0.2

Insulation resistance (G 10 –0.3 5

–0.4 2 1 –0.5 -55 -40 0 20 85 125 155 –55 –35 –15 5 25 45 65 85 105 125 145 Temperature (°C) Temperature (°C)

DISSIPATION FACTOR VERSUS TEMPERATURE TYPICAL FAILURE RATE VERSUS TEMPERATURE –7 0.05 10

0.04 2 10–8

5 0.03 1.5 2

l (failure/h) –9

Dissipation factor (%) 10 1 0.02 0.9 5 0.8 0.7 2 0.6 0.01 –10 0.5 –55 –40 0 20 85 125 155 10 Temperature (°C) 20 40 60 80 100 125 Temperature (°C)

www.exxelia.com 19 [email protected] Page revised 09/17 CERAMIC CAPACITORS TapingGeneral : dimensionsInformation X7R (Class 2)

COMPOSITION CAPACITANCE/TEMPERATURE RELATIONSHIP Class 2 capacitors are produced by using a dielectric made of barium titanate Capacitance variations are defined within a specified temperature range, + (Ba Ti O3). By nature, the dielectric is a ferroelectric compound with a high di- 20°C being the reference temperature. This characteristic is expressed by as- electric constant usually varying : sociating the temperature range and capacitance stability. • from 1000 to 5000 - typical of capacitors meeting 2C1 type specifications (BX, X7R), Max. capacitance variation (%) • from 5000 to 15000 - typical of capacitors meeting Z5U or Y5V type spec- Stability category with reference to capacitance at 20°C Code letter At rated DC voltage ifications. Without voltage (UDC) Depending on whether the dielectric contains a flux additive, mainly bismuth B ± 10 + 10– 15 or boron, electrodes are made of Ag-Pd alloys with high silver content or high palladium content, even pure palladium in some cases. C ± 20 + 20 – 30 STABILITY D + 20 – 30 + 20 – 40 E + 20 – 55 + 20 – 65 As the dielectric is a ferro-electric material, class 2 capacitors present significant variations under such stresses as : R + 15 – 15 Not applicable • temperature, X + 15 – 15 + 15 – 25 • voltage, • frequency. In addition, the dielectric absorption coefficient can reach a few % and Temperature category piezo-electric phenomena can affect the dielectric at critical frequencies (full Code Temperature range information and specific documents available on request). 1 – 55°C +125°C MECHANICAL PROPERTIES 2 – 55°C + 85°C Class 2 dielectrics are hard materials and are sensitive to thermo-mechanical 4 – 25°C + 85°C stress. Stress should be limited when mounting and adequate substrates with an adapted expansion coefficient used. BISMUTH OR BISMUTH FREE DIELECTRICS Class 2 capacitors are made of ceramics capable to embed a flux element (e.g. bismuth or boron salt).Their eventual use will affect the choice of electrode alloys firing temperature used. Capacitor behavior under such constraints as temperature, voltage, frequency and even reliability, in some applications (further information available on request), is also different. That is why French and European standard authorities have decided to differentiate bismuth from bismuth free ceramics by measuring tangent d at –55°C. Tangent Tg d (–55°C) 350.10–4 in flux free dielectrics. Flux free dielectrics are identified by suffix «A» after capacitor type (e.g. CAPACITANCE CHANGE VERSUS FREQUENCY CNC2A). 5

0 C/C (%) ∆ –5

– 10 5 1 2 5 10 2 5 102 2 5 103 Frequency (kHz)

www.exxelia.com 20 [email protected] Page revised 09/17 CERAMIC CAPACITORS General InformationGeneral characteristics X7R (Class 2)

IMPEDANCE VERSUS FREQUENCY DISSIPATION FACTOR VERSUS FREQUENCY

105 5 100 nF 100 pF 10 nF 1 nF

104 2 )

Ω 1 µF 1 STANDARD 103 0.5 Impedance (m Dissipation factor (%) 102 0.2

10 0.1 10 102 103 104 105 106 107 5 1 2 5 10 2 5 102 2 5 103 Frequency (kHz) Frequency (kHz)

DISSIPATION FACTOR VERSUS TEMPERATURE CAPACITANCE CHANGE VERSUS TEMPERATURE

5 Urc = 50V 0V 0 DC 2 16VDC

25VDC

1 30VDC -10

0.5 40VDC C/C (%) ∆ 50VDC Dissipation factor (%) 0.2 -20

0.1

0.05 –55 –40 0 20 85 125 155 -30 -55 -35 -15 5 25 45 65 85 105 125 Temperature (°C) Temperature (°C)

IR VERSUS TEMPERATURE TYPICAL FAILURE RATE VERSUS TEMPERATURE -6 103 10

5 5

2 2 1.5 -7 102 10 5 1 5 0.9

2 0.8 2 0.7

l (failure/h) -8 0.6 10 10 0.5

Insulation resistance (G Ω ) 5 5

2 2 -9 1 10 -55 -40 0 20 85 125 155 20 40 60 80 100 125 Temperature (°C) Temperature (°C)

www.exxelia.com 21 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingCEC / CNC : dimensions Series Low and Medium Voltage Chips Capacitors

Qualifi ed ELECTRICAL SPECIFICATIONS AvailableESA Qualified space ranges: consult our detail Description NPO specifi cations Operating temperature –55°C to +125°C Climatic category 55 / 125 / 56

Rated voltage (URC) 10VDC to 1,000VDC Maximum ∆C/°C over temperature range NA without DC voltage applied Maximum ∆C/°C over temperature range NA with rated voltage applied Temperature coefﬁ cient (0±30)ppm/°C In accordance with the speciﬁ cations of CECC 32101 and NF C 93133 standards with or without DC voltage applied

2.5 URC for URC ≤ 500VDC Dielectric withstanding voltage 1.6 URC for URC = 1,000VDC FEATURES 1.5 URC for URC = 1,000VDC at 1MHz for C ≤ 1,000pF • Case sizes: 0402 - 3040 Capacitance at 1kHz for C > 1,000pF • NPO, BX, 2C1, X7R dielectrics ≤ 0.015 (150/C + 7)% at 1MHz for C ≤ 50pF • Capacitance range: 1pF to 12µF Dissipation factor at 25°C ≤0.15% at 1MHz for 50pF < C ≤ 1,000pF • Ag/Pd/Pt, Ni barrier, epoxy terminations available ≤0.15% at 1kHz for C > 1,000pF Insulation resistance at 25°C • RoHS and Non RoHS compliant capacitors available ≥ 100,000 MΩ for C ≤ 10nF under U for U ≤ 500V • Screening in accordance with ESA speciﬁ cations available RC RC DC ≥ 1,000 MΩ.µF for C > 10nF under 500VDC for URC > 500VDC PHYSICAL CHARACTERISTICS Aging None CONSTRUCTION Description BX 2C1 X7R MLCC capacitors for surface mounting with optional Nickel Operating temperature –55°C to +125°C –55°C to +125°C –55°C to +125°C barrier Climatic category 55 / 125 / 56 55 / 125 / 56 55 / 125 / 56 Rated voltage (URC) 10VDC to 500VDC 10VDC to 500VDC 10VDC to 1,000VDC Maximum ∆C/°C over temperature range MARKING (on request) ±15% ±15% ±15% without DC voltage applied Capacitance value coded (from 0805 to 3040 sizes). Maximum ∆C/°C over temperature range +15% -25% +15% -30% NA with rated voltage applied Temperature coefﬁ cient PACKAGING (see page 13) NA NA NA with or without DC voltage applied S8* = available for 0402 to 1210 sizes. Dielectric withstanding voltage 2.5 URC 2.5 URC 2.5 URC for URC ≤ 500VDC S12* = available for 1812 to 2220 sizes. at 1MHz for C ≤ 100pF Capacitance BA* = available for 0402 to 2220 (except 0907) sizes. at 1kHz for C > 100pF ≤2.5% at 1MHz for C ≤ 100pF Dissipation factor at 25°C * not available with H, HW and E, EW terminations ≤2.5% at 1kHz for C > 100pF Insulation resistance at 25°C ≥ 100,000 MΩ for C ≤ 10nF under U for U ≤ 500V RC RC DC ≥ 1,000 MΩ.µF for C > 10nF under 500VDC for URC > 500VDC HOW TO ORDER Aging ≤ 2.5% per decade hour

CNC4 - C M F 56nF 10% 50V S8 T5 Series Bismuth Termination Marking Quality level Capacitance Tolerance Rated voltage Packaging Reliability level

CEC •• Option A W = RoHS compliant - = no marking - = standard quality Capacitance NPO: 10V - = Exxelia packaging For F parts only. NPO (= bismuth level value in clear cap. value ≤ 12pF 16V Acc. to Exxelia spec. - Ag/Pd/Pt W Ag/Pd/Pt M = Marking: S8* = available for 0402 Ceramic free ±0.25pF 25V to 1210 sizes. - dielectric) Q Ag * QW Ag capacitance F = Hi-Rel quality: 50V T5 value coded screening cap. value ≤ 8.2pF S12* = available for 1812 CNC •• available on Ag + Ni + ±0.5pF 100V T6 request. T dipped Sn/Pb - (from 0805 to 3040 in accordance with 200V to 2220 sizes. BX, 2C1, 60/40 ** ±1pF Please sizes). Exxelia speciﬁ cation 500V See page 15 2R1/X7R Ag/Pd/Pt + BA* = available for 0402 consult us. Ag/Pd/Pt cap. value > 22pF 1000V Ceramics H dipped HW + dipped Sn to 2220 (except 0907) Sn/Pb 60/40 ±1% sizes. Ag + Ni Ag + Ni Intermediary See C + electrolytic CW + electrolytic cap. value > 12pF Ratings Sn/Pb 95/5 Sn ±2% and higher * not available with H, HW and Case Ag + Ni cap. value > 8.2pF voltages and E, EW terminations D + electrolytic - available on code Sn/Pb 60/40 ±5% see page 13 table Ag + Ni Ag + Ni ±10% request. E + dipped EW + electrolytic Sn/Pb 60/40 Sn cap. value > 3.9pF G Ag + Ni + Au GW Ag + Ni + Au ±20% Ag + Polymer Ag + Polymer YC + Ni + Sn/Pb YCW + Ni + Sn BX, 2C1 and X7R: 95/5 ±5% Ag + Polymer YD + Ni + Sn/Pb - ±10% 60/40 ±20% Ag + Polymer Ag + Polymer YG + Ni + Au YGW + Ni + Au * Only 1812 to 3040 sizes ** Maintenance only

www.exxelia.com 22 [email protected] Page revised 09/17 CERAMIC CAPACITORS

Low and Medium Voltage Chips Capacitors GeneralCEC characteristics / CNC Series

DIMENSIONS in inches (mm) STANDARD STANDARD RATINGS

Series CEC/CNC 19 CEC/CNC 17 CEC/CNC 14 Size 0402 0403 0603 0.039 ± 0.004 0.039 ± 0.004 0.063 ± 0.006 L (1 ± 0.1) (1 ± 0.1) (1.6 ± 0.15) 0.02 ± 0.004 0.03 ± 0.004 0.032 ± 0.006 W (0.5 ± 0.1) (0.76 ± 0.1) (0.8 ± 0.15) 0.004 min 0.004 min 0.012 ± 0.008 a Dimensions inches (mm) inches (0.1) min (0.1) min (0.3 ± 0.2) 0.024 0.032 0.04 T max. (0.6) (0.8) (1) Dielectric NPO BX 2C1 X7R NPO BX 2C1 X7R NPO BX 2C1 X7R Min. Capa. value 1pF 10pF 1pF 10pF 1pF 10pF 10V 390pF 15nF 15nF 15nF 1.2nF 47nF 47nF 47nF 3.3nF 120nF 120nF 120nF

) 16V 270pF 12nF 12nF 15nF 820pF 39nF 39nF 47nF 2.7nF 120nF 120nF 120nF RC

25V 180pF 4.7nF 5.6nF 5.6nF 470pF 15nF 18nF 18nF 1.8nF 56nF 56nF 56nF

50V 82pF 1.2nF 2.2nF 3.9nF 330pF 3.9nF 5.6nF 12nF 820pF 12nF 18nF 33nF

Rated voltage (U voltage Rated 63V 68pF 820pF 1.2nF 3.9nF 220pF 2.2nF 3.9nF 12nF 680pF 8.2nF 12nF 33nF

100V 39pF 330pF 560pF 1.2nF 120pF 1nF 1.8nF 3.3nF 330pF 3.3nF 5.6nF 12nF

Series CEC/CNC 1 CEC/CNC 2 CEC/CNC 18 CEC/CNC 8 Size 0504 0805 0907 1005 0.049 ± 0.008 0.079 ± 0.012 0.091 ± 0.012 0.098 ± 0.012 L (1.25 ± 0.2) (2 ± 0.3) (2.3 ± 0.3) (2.5 ± 0.3) 0.039 ± 0.008 0.049 ± 0.008 0.071 ± 0.01 0.049 ± 0.008 W (1 ± 0.2) (1.25 ± 0.2) (1.8 ± 0.25) (1.25 ± 0.2) 0.004 min 0.02 ± 0.012 0.02 ± 0.012 0.024 ± 0.016 a Dimensions inches (mm) inches (0.1) min (0.5 ± 0.3) (0.5 ± 0.3) (0.6 ± 0.4) 0.04 0.052 0.06 0.052 T max. (1) (1.3) (1.5) (1.3) Dielectric NPO BX 2C1 X7R NPO NPO Ext. BX 2C1 X7R X7R Ext. NPO BX 2C1 X7R NPO BX 2C1 X7R Min. Cap. value 1pF 10pF 1pF 10pF 1pF 47pF 1pF 33pF

10V 3.3nF 120nF 120nF 120nF 12nF - 470nF 470nF 470nF - 18nF 820nF 820nF 820nF 3.3nF 100nF 100nF 100nF

16V 3.3nF 120nF 120nF 120nF 12nF - 470nF 470nF 470nF - 18nF 680nF 680nF 680nF 3.3nF 100nF 100nF 100nF

25V 1.8nF 56nF 56nF 56nF 6.8nF - 220nF 220nF 220nF - 12nF 330nF 390nF 390nF 2.2nF 68nF 68nF 68nF )

RC 50V 1.2nF 15nF 22nF 33nF 3.3nF - 56nF 82nF 120nF - 5.6nF 82nF 120nF 150nF 1.8nF 56nF 56nF 56nF

63V 820pF 8.2nF 15nF 33nF 2.7nF - 33nF 47nF 120nF - 4.7nF 56nF 82nF 120nF 1.8nF 39nF 56nF 56nF

100V 390pF 3.3nF 6.8nF 12nF 1.5nF - 12nF 27nF 39nF - 2.7nF 22nF 39nF 68nF 1nF 12nF 18nF 18nF Rated voltage (U voltage Rated

200V - - - - 390pF 820pF 3.3nF 5.6nF 10nF 22nF 680pF 4.7nF 8.2nF 12nF 390pF 3.9nF 5.6nF 6.8nF

500V - - - - 100pF 470pF - 560pF 1.2nF 5.6nF 180pF - 1nF 1.5nF 120pF - 560pF 820pF

1,000V ------

www.exxelia.com 23 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingCEC / CNC : dimensions Series Low and Medium Voltage Chips Capacitors

DIMENSIONS in inches (mm)

STANDARD RATINGS

Series CEC/CNC 12 CEC/CNC 4 CEC/CNC 9 CEC/CNC 3 Size 1206 1210 1605 1806 0.126 ± 0.01 0.126 ± 0.016 0.158 ± 0.02 0.177 ± 0.02 L (3.2 ± 0.25) (3.2 ± 0.4) (4 ± 0.5) (4.5 ± 0.5) 0.063 ± 0.006 0.098 ± 0.012 0.05 ± 0.008 0.063 ± 0.008 W (1.6 ± 0.15) (2.5 ± 0.3) (1.25 ± 0.2) (1.6 ± 0.2) 0.02 ± 0.012 0.024 ± 0.016 0.024 ± 0.016 0.024 ± 0.016 a Dimensions inches (mm) inches (0.5 ± 0.3) (0.6 ± 0.4) (0.6 ± 0.4) (0.6 ± 0.4) 0.063 0.071 0.05 0.063 T max. (1.6) (1.8) (1.25) (1.6) Dielectric NPO NPO Ext. BX 2C1 X7R X7R Ext. NPO NPO Ext. BX 2C1 X7R X7R Ext. NPO BX 2C1 X7R NPO BX 2C1 X7R Min. Cap. value 1pF 100pF 10pF 180pF 10pF 220pF 47pF 390pF 10V 22nF - 1.2µF 1.2µF 1.2µF - 56nF - 2.2µF 2.2µF 2.2µF - 6.8nF 150nF 150nF 150nF 12nF 330nF 330nF 330nF

16V 22nF - 820nF 1.2µF 1.2µF - 56nF - 2.2µF 2.2µF 2.2µF - 6.8nF 150nF 150nF 150nF 12nF 330nF 330nF 330nF

25V 15nF - 330nF 680nF 680nF - 39nF - 1µF1µF1µF - 4.7nF 100nF 100nF 100nF 8.2nF 220nF 220nF 220nF ) RC 50V 6.8nF - 150nF 220nF 270nF - 18nF - 330nF 470nF 560nF - 3.9nF 68nF 82nF 82nF 6.8nF 150nF 180nF 180nF

63V 6.8nF - 100nF 150nF 180nF - 15nF - 180nF 270nF 560nF - 3.3nF 56nF 68nF 82nF 5.6nF 100nF 150nF 180nF

100V 3.9nF - 39nF 68nF 120nF - 8.2nF - 82nF 150nF 220nF - 2.2nF 27nF 27nF 33nF 3.9nF 39nF 56nF 56nF Rated voltage (U voltage Rated 200V 1.2nF 3.3nF 8.2nF 15nF 27nF 100nF 2.2nF 5.6nF 18nF 33nF 56nF 180nF 820pF 6.8nF 10nF 12nF 1.2nF 8.2nF 12nF 18nF

500V 330pF 1.5nF 820pF 2.2nF 3.9nF 18nF 680pF 2.7nF 1.8nF 3.9nF 8.2nF 39nF 220pF - 1.2nF 1.5nF 330pF 820pF 1.8nF 2.7nF

1,000V 120pF 680pF - - 560pF 4.7nF 220pF 1nF - - 1.2nF 10nF 82pF - - - 120pF - - 560pF

Series CEC/CNC 6 CEC/CNC 70 CEC/CNC 5 CEC/CNC 7 Size 1812 1825 2210 2220 0.177 ± 0.02 0.177 ± 0.020 0.224 ± 0.02 0.224 ± 0.02 L (4.5 ± 0.5) (4.5 ± 0.5) (5.7 ± 0.5) (5.7 ± 0.5) 0.126 ± 0.016 0.250 ± 0.020 0.098 ± 0.012 0.197 ± 0.02 W (3.2 ± 0.4) (6.35 ± 0.5) (2.5 ± 0.3) (5 ± 0.5) 0.024 ± 0.016 0.024 ± 0.020 0.024 ± 0.016 0.024 ± 0.016 a Dimensions inches (mm) inches (0.6 ± 0.4) (0.6 ± 0.4) (0.6 ± 0.4) (0.6 ± 0.4) 0.071 0.071 0.067 0.071 T max. (1.8) (1.8) (1.7) (1.8) Dielectric NPO NPO Ext. BX 2C1 X7R X7R Ext. NPO BX 2C1 X7R NPO BX 2C1 X7R NPO NPO Ext. BX 2C1 X7R X7R Ext. Min. Cap. value 47pF 470pF 100pF 1nF 220pF 1nF 100pF 1.2nF 10V 82nF - 4.7µF 4.7µF 4.7µF - 150nF 4.7µF 4.7µF 4.7µF 39nF 680nF 680nF 680nF 180nF - 10µF 10µF 10µF-

16V 82nF - 3.3µF 3.3µF 4.7µF - 150nF 2.7µF 2.7µF 2.7µF 39nF 680nF 680nF 680nF 180nF - 8.2µF 8.2µF 10µF-

25V 39nF - 2.2µF 2.2µF 2.2µF - 82nF 2.2µF 2.2µF 2.2µF 22nF 470nF 470nF 470nF 82nF - 4.7µF 4.7µF 4.7µF- ) RC 50V 27nF - 560nF 820nF 1.2µF - 56nF 1.2µF 1.5µF 1.5µF 18nF 390nF 390nF 390nF 56nF - 1.2µF 2.2µF 2.7µF-

63V 22nF - 330nF 470nF 1µF - 47nF 680nF 1µF1µF 15nF 330nF 390nF 390nF 47nF - 820nF 1.5µF 2.7µF-

100V 15nF - 150nF 270nF 470nF 1µF 22nF 270nF 560nF 820nF 10nF 100nF 180nF 180nF 33nF - 270nF 680nF 1µF- Rated voltage (U voltage Rated 200V 4.7nF 12nF 27nF 47nF 68nF 330nF 8.2nF 56nF 100nF 180nF 3.9nF 27nF 47nF 68nF 10nF 27nF 56nF 120nF 220nF 820nF

500V 1.2nF 5.6nF 2.7nF 6.8nF 10nF 82nF 2.2nF 5.6nF 12nF 27nF 1nF 2.7nF 5.6nF 8.2nF 2.7nF 15nF 5.6nF 15nF 27nF 180nF

1,000V 470pF 2.7nF - - 2.2nF 22nF 820pF - - 3.9nF 470pF - - 1.8nF 1nF 6.8nF - - 3.9nF 39nF

www.exxelia.com 24 [email protected] Page revised 09/17 CERAMIC CAPACITORS

Low and Medium Voltage Chips Capacitors GeneralCEC characteristics / CNC Series

DIMENSIONS in inches (mm) STANDARD STANDARD RATINGS

Series CEC/CNC 71 CEC/CNC W CEC/CNC X CEC/CNC 72 Size 2225 2528 3030 3040 0.224 ± 0.02 0.250 ± 0.020 0.299 ± 0.02 0.299 ± 0.02 L (5.7 ± 0.5) (6.35 ± 0.5) (7.6 ± 0.5) (7.6 ± 0.5) 0.250 ± 0.020 0.276 ± 0.020 0.299 ± 0.02 0.4 ± 0.02 W (6.35 ± 0.5) (7 ± 0.5) (7.6 ± 0.5) (10.16 ± 0.5) 0.024 ± 0.020 0.024 ± 0.020 0.024 ± 0.016 0.024 ± 0.016 a Dimensions inches (mm) inches (0.6 ± 0.4) (0.6 ± 0.4) (0.6 ± 0.4) (0.6 ± 0.4) 0.079 0.079 0.079 0.079 T max. (2) (2) (2) (2) Dielectric NPO BX 2C1 X7R NPO BX 2C1 X7R NPO BX 2C1 X7R NPO BX 2C1 X7R Min. Cap. value 150pF 1.5nF 270pF 2.7nF 390pF 4.7nF 680pF 8.2nF 10V 180nF 5.6µF 5.6µF 5.6µF 220nF 6.8µF 6.8µF 6.8µF 330nF 10µF 10µF 10µF 470nF 12µF 12µF 12µF

16V 180nF 3.3µF 3.3µF 4.7µF 220nF 3.9µF 3.9µF 3.9µF 330nF 6.8µF 6.8µF 6.8µF 470nF 8.2µF 8.2µF 8.2µF

25V 100nF 2.2µF 2.2µF 3.9µF 120nF 2.7µF 2.7µF 2.7µF 180nF 3.9µF 3.9µF 3.9µF 270nF 5.6µF 5.6µF 5.6µF ) RC 50V 68nF 1.2µF 1.5µF 2.2µF 82nF 1.5µF 1.8µF 1.8µF 120nF 2.7µF 2.7µF 2.7µF 150nF 3.3µF 3.9µF 3.9µF

63V 56nF 820nF 1.2µF 1.5µF 68nF 1µF 1.5µF 1.8µF 100nF 1.5µF 2.2µF 2.2µF 120nF 2.2µF 2.7µF 3.3µF

100V 33nF 390nF 680nF 1.2µF 33nF 390nF 820nF 1.2µF 56nF 680nF 1.2µF 1.5µF 82nF 1µF 1.8µF 2.2µF Rated voltage (U voltage Rated 200V 12nF 68nF 120nF 270nF 15nF 82nF 150nF 270nF 22nF 150nF 270nF 470nF 33nF 180nF 390nF 560nF

500V 3.3nF 5.6nF 15nF 33nF 3.9nF 8.2nF 18nF 33nF 6.8nF 12nF 33nF 68nF 8.2nF 22nF 56nF 100nF

1,000V 1.2nF - - 4.7nF 1.5nF - - 5.6nF 2.7nF - - 10nF 3.3nF - - 15nF

Available capacitance values: NPO: E6, E12, E24, E48, E96 (see page 14). Speciﬁc values upon request. X7R: E6, E12, E24 (see page 14). Speciﬁc values upon request.

The above table deﬁnes the standard products, other components may be built upon request. Other temperature coefﬁcients, temperature characteristic 2B1 and Bismuth free dielectrics are available: contact your sales representative.

www.exxelia.com 25 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingNon Magnetic : dimensions Chips Series Low and Medium Voltage Chips Capacitors

FEATURES ELECTRICAL SPECIFICATIONS

• Case sizes: 0603 to 2220 Description NPO dielectric X7R dielectric • NPO and X7R dielectrics • Capacitance range: 10pF to 1µF Dielectric code N X • RoHS compliant capacitors CECC class 1B / CG 2R1 EIA class Class I Class II Temperature range –55°C to +125°C –55°C to +125°C PHYSICAL CHARACTERISTICS Temperature coefﬁ cient (0±30) ppm/°C NA Maximum ∆C/°C over temperature range MLCC capacitors with: NA ±15% • Copper barrier + pur Tin or Silver Palladium terminations without DC voltage applied

for surface mounting. Rated voltage (UR) 100VDC to 500VDC 63VDC to 500VDC Dielectric withstanding voltage 250% rated voltage 250% rated voltage

Insulation resistance (IR) 100GΩ or 1,000Ω.F 100GΩ or 1,000Ω.F PACKAGING at 25°C under UR whichever is less whichever is less Aging None ≤ 2.5% per decade hour Ag/Pd/Pt termination Cu termination Sizes (A code) (C code) Parts / reel * Parts / reel * R14 (0603) (C code)" 3,000 / 4,000 R15 (0805) Parts / reel * Parts / reel * R18 (1206) 3,000 - 4,000 3,000 S41 (1210) 2,000 - 4,000 1,000 - 2,000 - 3,000 S43 (1812) 500 - 1,000 - S47 (2220) 500 - 1,000 -

* Note: the quantity of parts in a reel depends upon their thicknesses. Please, consult us for more accurate data.

HOW TO ORDER

630 S41 N 472 J C E Exxelia Size Rated voltage Code Dielectric code Capacitance Tolerance Termination Packaging

630 = 63V R14 = 0603 N = NPO Capacitance value in code. NPO: C = Pure Tin plated Copper barrier on - = Bulk 101 = 100V R15 = 0805 X = X7R 1st two digits represent signifi cant fi gures; F = ±1% Pure Silver termination 201 = 200V R18 = 1206 last digit specifi es the number of zeros to follow. G = ±2% E = tape & reel 501 = 500V S41 = 1210 J = ±5% A = Silver Palladium Platinum (see packaging paragraph for Examples: K = ±10% S43 = 1812 termination details) 101 = 100pF M = ±20% S47 = 2220 472 = 4.7nF 683 = 68nF X7R: See page 13 K = ±10% 564 = 0.56µF M = ±20% 105 = 1µF

www.exxelia.com 26 [email protected] Page revised 09/17 CERAMIC CAPACITORS

Low and Medium Voltage Chips Capacitors NonGeneral Magnetic characteristics Chips Series

DIMENSIONS in inches (mm) STANDARD

STANDARD RATINGS

Size 0603 0805 1206 Exxelia size code R14 R15 R18 Termination code C A C A C A 0.063 ± 0.012 0.063 ± 0.012 0.079 ± 0.012 0.079 ± 0.012 0.126 ± 0.012 0.126 ± 0.012 L (1.6 ± 0.3) (1.6 ± 0.3) (2 ± 0.3) (2 ± 0.3) (3.2 ± 0.3) (3.2 ± 0.3) 0.032 ± 0.008 0.032 ± 0.008 0.049 ± 0.012 0.049 ± 0.012 0.063 ± 0.012 0.063 ± 0.012 W (0.8 ± 0.2) (0.8 ± 0.2) (1.25 ± 0.3) (1.25 ± 0.3) (1.6 ± 0.3) (1.6 ± 0.3) 0.015 0.015 0.027 0.019 0.059 0.055 B min. (0.4) (0.4) (0.7) (0.5) (1.5) (1.4) Dimensions inches (mm) inches 0.005 0.005 0.007 0.005 0.011 0.009 BW min. (0.15) (0.15) (0.2) (0.13) (0.3) (0.25) 0.038 0.038 0.058 0.058 0.071 0.071 T max. (0.95) (0.95) (1.45) (1.45) (1.80) (1.80) NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R Dielectric N X N X N X N X N X N X 470pF 4.7nF 680pF 10nF 1nF 15nF 63V ------) to 22nF to 22nF to 22nF to 47nF to 100nF to 100nF RC 47pF 47pF 220pF 100pF 220pF 100V ------to 180pF to 1nF to 1nF to 1nF to 2.2nF 10pF 330pF 10pF 1nF 200V ------to 220pF to 4.7nF to 1nF to 10nF

Rated voltage (U voltage Rated 10pF 270pF 10pF 680pF 500V ------to 180pF to 2.2nF to 470pF to 4.7nF

Size 1210 1812 2220 Exxelia size code S41 S43 S47 Termination code C A C A C A 0.126 ± 0.016 0.126 ± 0.016 0.177 ± 0.02 0.224 ± 0.02 L - - (3.2 ± 0.4) (3.2 ± 0.4) (4.5 ± 0.5) (5.7 ± 0.5) 0.098 ± 0.012 0.098 ± 0.012 0.126 ± 0.016 0.197 ± 0.02 W - - (2.5 ± 0.3) (2.5 ± 0.3) (3.2 ± 0.4) (5 ± 0.5) 0.062 0.055 0.086 0.114 B min. - - (1.6) (1.4) (2.2) (2.9) Dimensions inches (mm) inches 0.011 0.009 0.009 0.009 BW min. - - (0.3) (0.25) (0.25) (0.25) 0.103 0.099 0.119 0.119 T max. - - (2.6) (2.5) (3) (3) NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R Dielectric N X N X N X N X N X N X 3.3nF 33nF 150nF 150nF 330nF 330nF 63V ------) to 100nF to 330nF to 1µF to 1µF to 1µF to 1µF RC 100pF 470pF 1.8nF 1.8nF 6.8nF 6.8nF 100V ------to 4.7pF to 5.6nF to 5.6nF to 5.6nF to 10nF to 10nF 100pF 1.5nF 180pF 2.7nF 180pF 2.7nF 680pF 6.8nF 680pF 6.8nF 200V - - to 2.7nF to 47nF to 5.6nF to 100nF to 5.6nF to 100nF to 10nF to 220nF to 10nF to 220nF

Rated voltage (U voltage Rated 100pF 1.5nF 180pF 2.7nF 180pF 2.7nF 680pF 6.8nF 680pF 6.8nF 500V - - to 1nF to 22nF to 2.2nF to 47nF to 2.2nF to 47nF to 4.7nF to 100nF to 4.7nF to 100nF

Available capacitance values: E6, E12 (see page XX). Speciﬁc values upon request. Note: some capacitance values in these tables may not be proposed for small quantities. Please, contact us for conﬁrmation.

www.exxelia.com 27 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingOP Taping Series : :dimensions dimensions Open Mode Chips Capacitors

FEATURES ELECTRICAL SPECIFICATIONS

• Case sizes: 0805 to 2220 Description NPO X7R • NPO and X7R dielectrics • Capacitance range: 1pF to 4.7µF Operating temperature –55°C to +125°C* –55°C to +125°C* • Designed to signiﬁ cantly minimize the probability of Climatic category 55 / 125 / 56 55 / 125 / 56

short circuit or low IR failure due to board fl exion Rated voltage (URC) 10VDC to 100VDC 10VDC to 100VDC • Ag/Pd/Pt, Ni barrier, epoxy terminations available Maximum ∆C/°C over temperature range NA ±15% • RoHS and Non RoHS compliant capacitors available without DC voltage applied • Screening in accordance with ESA specifi cations available Temperature coeffi cient with (0±30)ppm/°C NA or without DC voltage applied

PHYSICAL CHARACTERISTICS Dielectric withstanding voltage 2.5 URC 2.5 URC at 1MHz for C ≤ 1,000pF at 1MHz for C ≤ 100pF CONSTRUCTION Capacitance at 1kHz for C > 1,000pF at 1kHz for C > 100pF MLCC capacitors for surface mounting with optional Nickel barrier ≤ 0.015 (150/C + 7)% at 1MHz for C ≤ 50pF ≤0.15% at 1MHz ≤2.5% at 1MHz for C ≤ 100pF Dissipation factor at 25°C MARKING (on request) for 50pF < C ≤ 1,000pF ≤2.5% at 1kHz for C > 100pF Capacitance value code ≤0.15% at 1kHz for C > 1,000pF ≥ 100,000 MΩ for C ≤ 10nF ≥ 100,000 MΩ for C ≤ 10nF Insulation resistance at 25°C under U RC ≥ 1,000 MΩ.µF for C > 10nF ≥ 1,000 MΩ.µF for C > 10nF Aging None ≤ 2.5% per decade hour

Other temperature coefﬁ cients, temperature characteristics 2B1, BX, BR and Bismuth free dielectrics are available. * Operating temperature up to 250°C available upon request. Contact your sales representative. HOW TO ORDER

OP 1210 X7R C M F 270nF 10% 50V S8 T5 Series Size Dielectric Termination Marking Quality level Capacitance Tolerance Rated voltage Packaging Reliability level

OP: 0805 NPO W = RoHS compliant - = no marking - = standard quality Capacitance NPO: 10V - = Exxelia packaging For F parts only. Open- 1206 X7R level value in clear cap. value ≤ 12pF 16V Acc. to Exxelia - Ag/Pd/Pt W Ag/Pd/Pt M = Marking: S8* = available for mode 1210 ±0.25pF 25V 0402 to 1210 sizes. spec. Ag * capacitance F = Hi-Rel quality: 1812 Q QW Ag cap. value ≤ 8.2pF 50V - value coded screening 100V S12* = available for T5 2220 Ag + Ni + ±0.5pF T dipped Sn/Pb - (from 0805 to 3040 in accordance with 1812 to 2220 sizes. T6 60/40 ** ±1pF sizes). Exxelia speciﬁ cation Intermediary BA* = available for Ag/Pd/Pt + Ag/Pd/Pt cap. value > 22pF and higher 0402 to 2220 (except See page 15 H dipped HW + dipped Sn Sn/Pb 60/40 ±1% voltages 0907) sizes. Ag + Ni Ag + Ni cap. value > 12pF available on C + electrolytic CW + electrolytic Sn/Pb 95/5 Sn ±2% request. * not available with Ag + Ni cap. value > 8.2pF H, HW and E, EW D + electrolytic - terminations Sn/Pb 60/40 ±5% Ag + Ni Ag + Ni ±10% See page 13 E + dipped EW + electrolytic Sn/Pb 60/40 Sn cap. value > 3.9pF G Ag + Ni + Au GW Ag + Ni + Au ±20% Ag + Polymer Ag + Polymer X7R: YC + Ni + Sn/Pb YCW + Ni + Sn 95/5 ±5% Ag + Polymer ±10% YD + Ni + Sn/Pb - 60/40 ±20% Ag + Polymer Ag + Polymer YG + Ni + Au YGW + Ni + Au * Only 1812 to 3040 sizes ** Maintenance only

www.exxelia.com 28 [email protected] Page revised 09/17 CERAMIC CAPACITORS

Open Mode Chips Capacitors General characteristicsOP Series

DIMENSIONS in inches (mm)

L, W, T for tinned chips (E, EW, H, HW): +0.02’’ (+0.5mm) STANDARD

STANDARD RATINGS

Size 0805 1206 1210 1812 2220 0.079 ± 0.012 0.126 ± 0.01 0.126 ± 0.016 0.177 ± 0.02 0.224 ± 0.02 L (2 ± 0.3) (3.2 ± 0.25) (3.2 ± 0.4) (4.5 ± 0.5) (5.7 ± 0.5) 0.049 ± 0.008 0.063 ± 0.006 0.098 ± 0.012 0.126 ± 0.016 0.197 ± 0.02 W (1.25 ± 0.2) (1.6 ± 0.15) (2.5 ± 0.3) (3.2 ± 0.4) (5 ± 0.5) 0.02 ± 0.012 0.02 ± 0.012 0.024 ± 0.016 0.024 ± 0.016 0.024 ± 0.016 a Dimensions inches (mm) inches (0.5 ± 0.3) (0.5 ± 0.3) (0.6 ± 0.4) (0.6 ± 0.4) (0.6 ± 0.4) 0.052 0.063 0.071 0.071 0.079 T max. (1.3) (1.6) (1.8) (1.8) (2) Dielectric NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R Min. Cap.value 1pF 10pF 1pF 100pF 10pF 180pF 47pF 470pF 100pF 1.2nF 10V 5.6nF 270nF 18nF 820nF 27nF 1.5µF 47nF 2.7µF 120nF 4.7µF

) 16V 5.6nF 220nF 18nF 680nF 27nF 1.2µF 47nF 2.2µF 120nF 3.9µF RC

25V 3.3nF 120nF 10nF 330nF 15nF 560nF 27nF 1µF 56nF 2.2µF

50V 1.8nF 68nF 4.7nF 150nF 6.8nF 330nF 12nF 680nF 27nF 1.5µF

Rated voltage (U voltage Rated 63V 1.5nF 39nF 3.9nF 82nF 5.6nF 180nF 10nF 390nF 22nF 820nF

100V 820pF 18nF 1.8nF 47nF 2.7nF 100nF 5.6nF 180nF 12nF 470nF

Available capacitance values: NPO: E6, E12, E24, E48, E96 (See page 14). Speciﬁc values upon request. X7R: E6, E12, E24 (See page 14). Speciﬁc values upon request.

www.exxelia.com 29 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingCER / CNR : dimensions Series Low Inductance Chips Capacitors

FEATURES ELECTRICAL SPECIFICATIONS

• Low inductance due to their electrodes geometry which Description NPO X7R allow an increase of the working frequency • Case sizes: 0306 to 0612 Operating temperature –55°C to +125°C –55°C to +125°C • NPO and X7R dielectrics Climatic category 55 / 125 / 56 55 / 125 / 56

• Capacitance range: 1pF to 270nF Rated voltage (URC) 16VDC to 100VDC 16VDC to 100VDC • Ag/Pd/Pt, Ni barrier, epoxy terminations available Maximum ∆C/°C over temperature range NA ±15% • RoHS and Non RoHS compliant capacitors available without DC voltage applied • Screening in accordance with ESA speciﬁ cations avail- Temperature coefﬁ cient with (0±30)ppm/°C NA able or without DC voltage applied

Dielectric withstanding voltage 2.5 URC 2.5 URC at 1MHz for C ≤ 1,000pF Capacitance at 1kHz PHYSICAL CHARACTERISTICS at 1kHz for C > 1,000pF CONSTRUCTION ≤ 0.015 (150/C + 7)% at 1MHz for C ≤ 50pF MLCC capacitors for surface mounting with optional ≤0.15% at 1MHz Dissipation factor at 25°C ≤2.5% at 1kHz Nickel barrier for 50pF < C ≤ 1,000pF ≤0.15% at 1kHz MARKING (on request) for C > 1,000pF Insulation resistance at 25°C ≥ 100,000 MΩ for C ≤ 10nF Capacitance value coded ≥ 100,000 MΩ under URC ≥ 1,000 MΩ.µF for C > 10nF Aging None ≤ 2.5% per decade hour

HOW TO ORDER

CER 2 C 560pF 10% 50V Series/Dielectric Exxelia size code Termination Capacitance Tolerance Rated voltage

CER = NPO 14 = 0306 - Ag/Pd/Pt Capacitance value in clear NPO: 16V CNR = X7R 2 = 0508 cap. value ≤ 12pF 25V 12 = 0612 W Ag/Pd/Pt (RoHS) ±0.25pF 50V cap. value ≤ 8.2pF 100V C Ag + Ni + electrolytic Sn/Pb 95/5 ±0.5pF ±1pF Intermediary CW Ag + Ni + electrolytic Sn (RoHS) and higher voltages cap. value > 22pF available on request. D Ag + Ni + electrolytic Sn/Pb 60/40 ±1% cap. value > 12pF G Ag + Ni + Au ±2% GW Ag + Ni + Au (RoHS) cap. value > 8.2pF ±5% YC Ag + Polymer + Ni + Sn/Pb 95/5 ±10%

YCW Ag + Polymer + Ni + Sn (RoHS) cap. value > 3.9pF ±20% YD Ag + Polymer + Ni + Sn/Pb 60/40 X7R: YG Ag + Polymer + Ni + Au ±5% ±10% YGW Ag + Polymer + Ni + Au (RoHS) ±20%

www.exxelia.com 30 [email protected] Page revised 09/17 CERAMIC CAPACITORS

Low Inductance Chips Capacitors GeneralCER characteristics / CNR Series

DIMENSIONS in inches (mm)

L, W, T for tinned chips (E, EW, H, HW): +0.02’’ (+0.5mm) STANDARD

STANDARD RATINGS

Size 0306 0508 0612 Exxelia size code 14 2 12 0.032 ± 0.01 0.049 ± 0.012 0.063 ± 0.01 L (0.8 ± 0.25) (1.25 ± 0.3) (1.6 ± 0.25) 0.063 ± 0.008 0.079 ± 0.012 0.126 ± 0.01 W (1.6 ± 0.2) (2 ± 0.3) (3.2 ± 0.25) 0.004 min 0.004 min 0.012 ± 0.008 a Dimensions inches (mm) inches (0.1 min) (0.1 min) (0.3 ± 0.2) 0.04 0.05 0.063 T max. (1) (1.25) (1.6) NPO X7R NPO X7R NPO X7R Dielectric CER CNR CER CNR CER CNR Min. Cap. value 1pF 100pF 1pF 100pF 1pF 470pF

) 16V 820pF 22nF 2.7nF 100nF 10nF 270nF RC

25V 680pF 15nF 2.2nF 68nF 8.2nF 180nF

50V / 63V 470pF 15nF 1.2nF 68nF 4.7nF 120nF

Rated voltage (U voltage Rated 100V 270pF 4.7nF 820pF 22nF 2.7nF 39nF

Available capacitance values: NPO: E6, E12, E24, E48, E96 (See page 14). Specific values upon request. X7R: E6, E12, E24 (See page 14). Specific values upon request. The above table defines the standard pro ducts, other components may be built upon request.

www.exxelia.com 31 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingC3N / C4N : dimensions / C3E / C4E Series Capacitors Arrays

FEATURES ELECTRICAL SPECIFICATIONS

• Space saving with multiple capacitors in the same Description NPO X7R package Operating temperature –55°C to +125°C –55°C to +125°C • NPO and X7R dielectrics • Capacitance range: 4.7pF to 3.3nF Climatic category 55 / 125 / 56 55 / 125 / 56 • Ag/Pd/Pt, Ni barrier, epoxy terminations available Rated voltage (URC) 25VDC to 200VDC 25VDC to 200VDC

• RoHS and Non RoHS compliant capacitors available Dielectric withstanding voltage at 25°C 2.5 URC 2.5 URC at 1MHz for C ≤ 1,000pF at 1MHz for C ≤ 100pF Capacitance at 1kHz for C > 1,000pF at 1kHz for C > 100pF PHYSICAL CHARACTERISTICS ≤ 0.015 (150/C + 7)% at 1MHz for C ≤ 50pF Dissipation factor at25°C ≤2.5% at 1kHz for C > 100pF MLCC capacitors for surface mounting with optional Nickel ≤0.15% at 1MHz barrier for 50pF < C ≤ 1,000pF

Insulation resistance at 25°C under URC ≥ 50,000MΩ ≥ 20,000MΩ Aging None ≤ 2.5% per decade hour

DIMENSIONS in inches (mm) STANDARD RATINGS

Dielectric NPO X7R C3 SERIES C4 SERIES Dielectric code E N Min Capacitance value 4.7pF 100pF 25V 680pF 33nF 50V 390pF 18nF Rated voltage (URC) 100V 270pF 6.8nF 200V 120pF 3.3nF

Capacitance values of each capacitor of the array are the same. They can be different upon request. Available capacitance values: Black lines: mechanical - Green lines: electrical NPO: E6, E12, E24, E48, E96 (See page 14). Specifi c values upon request. X7R: E6, E12, E24 (See page 14). Specifi c values upon request. The above table defi nes the standard products, other components may be built upon request.

HOW TO ORDER

C4 N C 1.5nF 10% 100V Series Dielectric Termination Capacitance Tolerance Rated voltage

C3 = 3 capacitors per array E = NPO Capacitance value in clear NPO: 25V - Ag/Pd/Pt C4 = 4 capacitors per array N = X7R ±0.25pF (cap. value < 15pF) 50V ±0.5pF (cap. value < 10pF) 100V W Ag/Pd/Pt (RoHS) ±1pF (cap. value < 10pF) 200V ±1% (cap. value ≥ 27pF) C Ag + Ni + electrolytic Sn/Pb 95/5 ±2% (cap. value ≥ 15pF) Intermediary ±5% (cap. value ≥ 10pF) and higher voltages available on request. CW Ag + Ni + electrolytic Sn (RoHS) ±10% (cap. value ≥ 10pF) ±20% (cap. value ≥ 10pF) D Ag + Ni + electrolytic Sn/Pb 60/40 X7R: G Ag + Ni + Au ±5% ±10% GW Ag + Ni + Au (RoHS) ±20%

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Safety Capacitors General characteristics30 S4 Series STANDARD FEATURES ELECTRICAL SPECIFICATIONS

• 4 terminals security capacitors Description NPO X7R • Detection of the open circuits Operating temperature –55°C to +125°C –55°C to +125°C • NPO and X7R dielectrics • Capacitance range: 470pF to 820nF Climatic category 55 / 125 / 56 55 / 125 / 56 • Ag/Pd/Pt, tinned terminations, ribbon connections available Rated voltage (URC) 40VDC to 100VDC 40VDC to 100VDC

• RoHS and Non RoHS compliant capacitors available Dielectric withstanding voltage at 25°C 2.5 URC 2.5 URC at 1MHz for C ≤ 1,000pF at 1MHz for C ≤ 100pF Capacitance at 1kHz for C > 1,000pF at 1kHz for C > 100pF PHYSICAL CHARACTERISTICS ≤0.15% at 1MHz for C ≤1,000pF Dissipation factor at25°C ≤2.5% at 1kHz ≤0.15% at 1kHz for C >1,000pF MLCC capacitors for surface mounting with optional Nickel ≥ 20,000MΩ for C ≤25nF barrier or ribbon connections Insulation resistance at 25°C under U ≥ 100,000MΩ RC ≥ 500MΩ.µF for C >25nF Aging None ≤ 2.5% per decade hour

DIMENSIONS in inches (mm) STANDARD RATINGS

Option E, C ) Option R Dielectric NPO X7R

±0,5 + 0.04 + 1 ±0.02 ±0,5 (1 0.204– 0,02 (5,2 – 0,5 ) 0.197 (5 ) Series 1 30 S4 2 30 S4 0.04±0.02(1±0,5) ±0.02

0.04 Min Capacitance value 470pF 3.3nF ) )

BA + 1 – 0,5 BA 40V 39nF 820nF ±0,5 ±0,4

(5,7 (6 (5,7 Rated voltage (URC) 63V 22nF 560nF + 0.04 – 0,02 ±0.016 ±0.02 ±0.02 AB AB 100V 10nF 180nF 0.236 0.224 ) 0.224

0.067 (1,7) max. (1,7) 0.067 Available capacitance values: Max. gap between NPO: E6, E12, E24, E48, E96 (See page 14). Speciﬁ c values upon request. the basis of the X7R: E6, E12, E24 (See page 14). Speciﬁ c values upon request. 4 ribbons : 0.004 (0,1)

0.13 (3,3) max. 0.13 The above table deﬁ nes the standard products, other components may be built upon request. 0.04±0.012(1±0,3) 0.04±0.012(1±0,3) Option E : L, W, T + 0.02 (0,5) 0.217±0.012(5,5±0,3)

HOW TO ORDER

130S4 C M 1.5nF 10% 63V Series/Dielectric Termination Marking Capacitance Tolerance Rated voltage

1 30 S4 = NPO For Ag/Pd/Pt, E, C Capacitance value in clear NPO: 40V - Ag/Pd/Pt 2 30 S4 = X7R terminations: ±1% 63V - = No marking W Ag/Pd/Pt (RoHS) ±2% 100V M = Marking ±5% ±10% Intermediary C Ag + Ni + electrolytic Sn/Pb 95/5 Systematic marking for ribbon ±20% and higher voltages terminations available on request. CW Ag + Ni + electrolytic Sn (RoHS) X7R: E Ag + Ni + dipped Sn/Pb 60/40 ±10% ±20% EW Ag + Ni + electrolytic Sn (RoHS)

R Solderable ribbons

RW Solderable ribbons (RoHS)

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TapingTCE / TCX : dimensions / TCN / TXR Molded Series Radial Molded Capacitors

TCN 50/60 R : Enhanced reliability types of TCN 50 A and TCN 60 A. In accordance with the speciﬁ cations of CECC 30700 and NF C 83132 standards FEATURES ELECTRICAL SPECIFICATIONS

• Radial molded capacitors Description NPO BX 2C1 X7R • NPO, BX, 2C1, X7R dielectrics • Capacitance range: 0.5pF to 4.7µF Dielectric code CE CX CN XR • RoHS and Non RoHS compliant capacitors available Operating temperature –55°C to +125°C Climatic category 55 / 125 / 56

Rated voltage (URC) 25VDC to 500VDC PHYSICAL CHARACTERISTICS Max. ∆C/°C over temperature range NA ±15% ±15% ±15% CONSTRUCTION without DC voltage applied Maximum ∆C/°C over temperature Leaded MLCC capacitors for through-hole mounting: NA +15% –25% +15% –30% NA range with rated voltage applied Epoxy molded capacitors Temperature coefﬁ cient with or (0±30)ppm/°C NA NA NA without DC voltage applied MARKING Dielectric withstanding voltage 2.5 U Capacitance, tolerance, voltage, dielectric, date code. RC at 1MHz for C ≤ 1,000pF at 1MHz for C ≤ 100pF Capacitance at 1kHz for C > 1,000pF at 1kHz for C > 100pF ≤ 0.015 (150/C + 7)% at 1MHz for C ≤ 50pF ≤2.5% at 1MHz for C ≤ 100pF Dissipation factor at 25°C ≤0.15% at 1MHz for 50pF < C ≤ 1,000pF ≤2.5% at 1kHz for C > 100pF ≤0.15% at 1kHz for C > 1,000pF ≥ 100,000 MΩ for C ≤ 10nF Insulation resistance at 25°C ≥ 1,000 MΩ.µF for C > 10nF Aging None ≤ 2.5% per decade hour

HOW TO ORDER

T CE 61 A W F 6.8nF 10% 25V B - Series Dielectric Size Bismuth RoHS compliant Quality level Capacitance Tolerance Rated voltage Packaging Reliability level

T = Radial CE = NPO 50 - = For all - = No RoHS - = standard quality Capacitance NPO: 25V - = Exxelia packaging For F parts only. models level value in clear cap. value ≤ 12pF Acc. to Exxelia leaded, CX = BX 60 W = RoHS 50V Available for quantity molded CN = 2C1 61 ±0.25pF 100V spec. A = Bismuth compliant F = Hi-Rel quality: ≥ 500: capacitor XR = X7R 61N cap. value ≤ 8.2pF 200V - free for screening in T5 62 ±0.5pF 500V B = reel 50/60 accordance with T6 62N sizes only Exxelia speciﬁ cation ±1pF Intermediary 63 (tg d at–55°C cap. value > 22pF See page 15 64 ≤350.10–4) ±1% and higher voltages available on request. cap. value > 12pF ±2% cap. value > 8.2pF ±5% ±10% cap. value > 3.9pF ±20%

Available for BX, 2C1 and X7R: ±5% ±10% ±20%

www.exxelia.com 34 [email protected] Page revised 09/17 CERAMIC CAPACITORS

Radial Molded Capacitors TCE / TCX /General TCN / TXR characteristics Molded Series

DIMENSIONS in inches (mm) Size 50 Sizes 61, 61N, 62, 62N, 63 Sizes 60, 64 STANDARD

STANDARD RATINGS

Size 61 61N 62 62N 63 64 0.138 ± 0.02 0.197 ± 0.02 0.295 ± 0.02 0.394 ± 0.02 L (3.5 ± 0.5) (5 ± 0.5) (7.5 ± 0.5) (10 ± 0.5) 0.178 max 0.237 max 0.335 max 0.434 max W (4.5 max) (6 max) (8.5 max) (11 max) 0.098 ± 0.008 0.098 0.098 0.138 T (2.5 ± 0.2) (2.5 ± 0.2) (2.5 ± 0.2) (3.5) Dimensions inches (mm) inches 0.1 ± 0.008 0.2 ± 0.008 0.1 ± 0.008 0.2 ± 0.008 0.2 ± 0.008 0.2 ± 0.008 X (2.54 ± 0.2) (5.08 ± 0.2) (2.54 ± 0.2) (5.08 ± 0.2) (5.08 ± 0.2) (5.08 ± 0.2) 0.024 0.024 0.024 0.031 Ø ± 10% (0.6) (0.6) (0.6) (0.8) Dielectric NPO BX 2C1 X7R NPO BX 2C1 X7R NPO BX 2C1 X7R NPO BX 2C1 X7R Dielectric code CE CX CN XR CE CX CN XR CE CX CN XR CE CX CN XR Min. Cap. value 1pF 27pF 1pF 33pF 4.7pF 330pF 220pF 4.7nF 25V 6.8nF 220nF 220nF 220nF 33nF 820nF 1µF1µF 68nF 1.8µF 1.8µF 1.8µF 180nF 4.7µF 4.7µF 4.7µF

) 50V 3.3nF 56nF 82nF 100nF 15nF 220nF 390nF 470nF 47nF 1µF 1.2µF 1.2µF 120nF 2.7µF 3.9µF 3.9µF RC 63V 2.7nF 33nF 47nF 68nF 12nF 150nF 220nF 330nF 39nF 560nF 1µF1µF 100nF 1.8µF 2.7µF 2.7µF 100V 1.5nF 12nF 22nF 39nF 6.8nF 56nF 120nF 180nF 18nF 220nF 470nF 680nF 56nF 680nF 1.2µF 1.8µF 200V 390pF 3.3nF 5.6nF 10nF 1.8nF 15nF 27nF 47nF 6.8nF 56nF 100nF 180nF 22nF 180nF 330nF 560nF

Rated voltage (U voltage Rated 250V 270pF 1.8nF 3.9nF 6.8nF 1.2nF 8.2nF 18nF 27nF 4.7nF 33nF 68nF 120nF 15nF 100nF 220nF 330nF 500V 100pF - 560pF 1.2nF 470pF - 3.3nF 4.7nF 2.2nF - 10nF 22nF 6.8nF - 47nF 82nF

Size 50 60 0.197 ± 0.02 0.295 ± 0.02 L (5 ± 0.5) (7.5 ± 0.5) 0.197 ± 0.008 0.295 ± 0.008 W (5 ± 0.2) (7.5 ± 0.2) 0.098 max. 0.098 max. T (2.5 max.) (2.5 max.) Dimensions

inches (mm) inches 0.2 ± 0.008 0.2 ± 0.008 X (5.08 ± 0.2) (5.08 ± 0.2) 0.024 0.024 Ø ± 10% (0.6) (0.6) Dielectric NPO BX 2C1 X7R NPO BX 2C1 X7R Dielectric code CE CX CN XR CE CX CN XR Min. Cap. value 1pF 10pF 4.7pF 330pF 25V 27nF 820nF 820nF 820nF 56nF 1.5µF 1.5µF 1.5µF

) 50V 12nF 220nF 270nF 390nF 39nF 1µF 1µF 1µF RC 63V 10nF 120nF 180nF 270nF 27nF 470nF 1µF 820nF 100V 5.6nF 47nF 100nF 150nF 15nF 180nF 390nF 560nF 200V 1.5nF 12nF 22nF 39nF 5.6nF 39nF 82nF 150nF

Rated voltage (U voltage Rated 250V 1.2nF 6.8nF 15nF 27nF 3.9nF 27nF 56nF 100nF 500V 390pF - 1.8nF 4.7nF 1.5nF - 8.2nF 15nF

Available capacitance values: NPO: E6, E12, E24, E48, E96 (see page 14). Specific values upon request. X7R: E6, E12, E24 (see page 14). Specific values upon request. The above table defines the standard products, other components may be built upon request.

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TapingLA Series : dimensions Radial Molded Capacitors

FEATURES ELECTRICAL SPECIFICATIONS • Radial molded capacitors Temperature coefﬁ cient 0±30.10–6 –750.10–6 –1500.10–6 • Temperature coefﬁ cients : 0±30.10–6 –750.10–6 Operating temperature –55°C to +125°C –1500.10–6 Climatic category 55 / 125 / 56 • Capacitance range: 1pF to 680nF Rated voltage (URC) 25VDC to 63VDC • RoHS and Non RoHS compliant capacitors available Dielectric withstanding voltage 2.5 URC Dissipation factor at 1kHz at 25°C ≤ 10.10–4 ≤ 100.10–4 ≤ 250.10–4 ≥ 50,000 MΩ for C ≤ 1nF Insulation resistance at 25°C PHYSICAL CHARACTERISTICS ≥ 50 MΩ.µF for C > 1nF CONSTRUCTION Leaded MLCC capacitors for through-hole mounting: Epoxy molded capacitors

MARKING Capacitance, tolerance, voltage, dielectric, date code.

HOW TO ORDER

LA 1 W F 10pF 10% 50V B - Series Size RoHS compliant Quality level Capacitance Tolerance Rated voltage Packaging Reliability level

LA = Radial leaded, 1 - = No RoHS - = standard quality Capacitance value 0±30.10–6: 25V - = Exxelia packaging For F parts only. level in clear cap. value ≤ 10pF Acc. to Exxelia spec. molded capacitor 2 W = RoHS 50V Available for quantity 3 ±0.25pF 63V - compliant F = Hi-Rel quality: ≥ 500: T5 4 screening in cap. value ≤ 6.8pF Intermediary B = reel T6 5A accordance with ±0.5pF and higher voltages 5B Exxelia speciﬁ cation ±1pF available on request. See page 15 5C cap. value > 22pF ±1% cap. value > 10pF ±2% cap. value > 6.8pF ±5% ±10% cap. value > 3.3pF ±20%

Available for –750.10–6 and –1500.10–6: ±10% ±20%

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Radial Molded Capacitors General characteristicsLA Series

DIMENSIONS in inches (mm) Sizes 1, 2, 3, 4, 5A, 5B, 5C STANDARD

STANDARD RATINGS

Size 1 2 3 4 0.178 0.197 0.237 0.319 L max (4.5) (5) (6) (8.1) 0.158 0.178 0.237 0.319 W max (4) (4.5) (6) (8.1) 0.107 0.119 0.119 0.119 T max (2.7) (3) (3) (3)

Dimensions X ± 0.016

inches (mm) inches 0.1 0.1 0.2 0.2 (± 0.4) (2.54) (2.54) (5.08) (5.08) 0.02 0.02 0.02 0.024 Ø ± 10% (0.5) (0.5) (0.5) (0.6) Temperature 0±30.10–6 –750.10–6 –1500.10–6 0±30.10–6 –750.10–6 –1500.10–6 0±30.10–6 –750.10–6 –1500.10–6 0±30.10–6 –750.10–6 –1500.10–6 coefﬁcient 33nF 25V ------

) to 100nF RC

(U 1pF 1nF 3.3nF 1nF 2.2nF 10nF 2.2nF 3.3nF 22nF 3.3nF 10nF 56nF 50V

Rated voltage voltage Rated to 680pF to 2.2nF to 22nF to 1.5nF to 6.8nF to 47nF to 3.3nF to 15nF to 100nF to 6.8nF to 47nF to 680nF

Size 5A 5B 5C 0.3 0.3 0.315 L max (7.6) (7.6) (8) 0.217 0.217 0.276 W max (5.5) (5.5) (7) 0.099 0.197 0.296 T max (2.5) (5) (7.5)

Dimensions X ± 0.016

inches (mm) inches 0.2 0.2 0.2 (± 0.4) (5.08) (5.08) (5.08) 0.024 0.024 0.024 Ø ± 10% (0.6) (0.6) (0.6) Temperature 0±30.10–6 0±30.10–6 0±30.10–6 coefﬁcient

25V - - 47nF to 120nF ) RC (U 63V 4.7pF to 10nF 6.8nF to 47nF - Rated voltage voltage Rated

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TapingTCE / TCX : dimensions / TCN / TXR Axial Series Axial Molded Capacitors

In accordance with the speciﬁ cations of CECC 30600 and NF C 83131 standards FEATURES ELECTRICAL SPECIFICATIONS

• Axial molded capacitors Description NPO BX 2C1 X7R • NPO, BX, 2C1, X7R dielectrics • Capacitance range: 1pF to 6.8µF Dielectric code CE CX CN XR • RoHS and Non RoHS compliant capacitors available Operating temperature –55°C to +125°C Climatic category 55 / 125 / 56

HOW TO ORDER

T CE 52 W F 3.3nF 10% 25V B Series Dielectric Size RoHS compliant Quality level Capacitance Tolerance Rated voltage Packaging

T = Axial leaded, CE = NPO 52 - = No RoHS - = standard quality Capacitance value NPO: 25V - = Exxelia packaging level in clear cap. value ≤ 12pF molded capacitor CX = BX 52R W = RoHS 50V Available for quantity CN = 2C1 53 ±0.25pF 63V compliant F = Hi-Rel quality: ≥ 500: XR = X7R 53R cap. value ≤ 8.2pF 100V screening in B = reel 54 accordance with ±0.5pF 200V 54R Exxelia speciﬁ cation ±1pF 250V 55 cap. value > 22pF 500V 55R ±1% 56R cap. value > 12pF Intermediary ±2% and higher voltages available on request. cap. value > 8.2pF ±5% ±10% cap. value > 3.9pF ±20%

Available for BX, 2C1 and X7R: ±5% ±10% ±20%

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Axial Molded Capacitors TCE / TCXGeneral / TCN / characteristicsTXR Axial Series

DIMENSIONS in inches (mm) Sizes 52R, 53R, 54R, 55R, 56R Sizes 52, 53, 54 Size 55 STANDARD

STANDARD RATINGS

Size 52 52R 53 53R 0.217 max 0.167 max 0.296 max 0.26 max L (5.5 max) (4.3 max) (7.5 max) (6.6 max) 0.099 max 0.154 max C (2.5 max) (3.9 max) - - W Dimensions

inches (mm) inches - - 0.024 0.024 Ø ± 10% (0.6) (0.6) Dielectric NPO BX 2C1 X7R NPO BX 2C1 X7R Dielectric code CE CX CN XR CE CX CN XR Min. Cap. value 1pF 10pF 1pF 10pF 25V 3.3nF 82nF 100nF 120nF 10nF 220nF 220nF 220nF 50V 1.5nF 27nF 39nF 47nF 6.8nF 56nF 82nF 100nF ) RC 63V 1.2nF 15nF 22nF 33nF 6.8nF 33nF 47nF 68nF 100V 680pF 6.8nF 12nF 18nF 2.2nF 15nF 27nF 39nF 200V 180pF 1.5nF 2.7nF 4.7nF 560pF 2.7nF 4.7nF 8.2nF

Rated voltage (U voltage Rated 250V 120pF - 1.5nF 2.7nF 390pF - 3.3nF 5.6nF 500V 39pF - - - 120pF - - -

Size 54 54R 55 0.394 max 0.433 ± 0.02 L (10 max) (11 ± 0.5) 0.154 max 0.217 ± 0.02 C (3.9 max) (5.5 ± 0.5) - 0.315 ± 0.02 W Dimensions

inches (mm) inches - (8 ± 0.5) 0.024 0.024 Ø ± 10% (0.6) (0.6) Dielectric NPO BX 2C1 X7R NPO BX 2C1 X7R Dielectric code CE CX CN XR CE CX CN XR Min. Cap. value 4.7pF 27pF 10pF 68pF 25V 27nF 820nF 1µF 1µF 150nF 3.9µF 3.9µF 3.9µF 50V 15nF 270nF 330nF 390nF 100nF 2.2µF 2.7µF 2.7µF ) RC 63V 12nF 180nF 270nF 330nF 82nF 1.2µF 1.8µF 2.2µF 100V 5.6nF 68nF 100nF 180nF 47nF 560nF 1µF 1.5µF 200V 1.8nF 15nF 22nF 39nF 18nF 120nF 220nF 390nF

Rated voltage (U voltage Rated 250V 1.2nF 8.2nF 12nF 22nF 12nF 68nF 150nF 220nF 500V 470pF - 2.7nF 4.7nF 4.7nF - 27nF 47nF

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TapingTCE / TCX : dimensions / TCN / TXR Conformal Coated Series Radial Dipped Capacitors

In accordance with the speciﬁ cations of CECC 30700 and NF C 83132 standards FEATURES ELECTRICAL SPECIFICATIONS

• Radial conformal coated capacitors Description NPO BX 2C1 X7R • NPO, BX, 2C1, X7R dielectrics • Capacitance range: 1pF to 6.8µF Dielectric code CE CX CN XR • RoHS and Non RoHS compliant capacitors available Operating temperature –55°C to +125°C Climatic category 55 / 125 / 56

HOW TO ORDER

T CE 77-1 W F 2.7nF 10% 50V B Series Dielectric Size RoHS compliant Quality level Capacitance Tolerance Rated voltage Packaging

T = Radial leaded, CE = NPO 77-1 - = No RoHS - = standard quality Capacitance value NPO: 25V - = Exxelia packaging level in clear cap. value ≤ 12pF conformal coated CX = BX 77-5 W = RoHS 50V Available for quantity capacitor CN = 2C1 78-1 ±0.25pF 63V compliant F = Hi-Rel quality: ≥ 500: XR = X7R 78-5 cap. value ≤ 8.2pF 100V screening in B = reel 79-5 accordance with ±0.5pF 200V 80-5 Exxelia speciﬁ cation ±1pF 250V 76-5 cap. value > 22pF 500V ±1% cap. value > 12pF Intermediary ±2% and higher voltages available on request. cap. value > 8.2pF ±5% ±10% cap. value > 3.9pF ±20%

Available for BX, 2C1 and X7R: ±5% ±10% ±20%

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Radial Dipped Capacitors TCE / TCX / TCN / TXR ConformalGeneral characteristics Coated Series

DIMENSIONS in inches (mm) LT W

Ø STANDARD (> 12) > 0.472 X STANDARD RATINGS

Size 77-1 77-5 78-1 78-5

L max. 0.150 0.150 0.197 0.197 (3.8) (3.8) (5) (5)

W max. 0.229 0.209 0.276 0.256 (5.8) (5.3) (7) (6.5)

T max. 0.099 0.099 0.123 0.123 (2.5) (2.5) (3.1) (3.1) Dimensions

inches (mm) inches X ± 0.008 0.2 0.1 0.2 0.1 (± 0.2) (5.08) (2.54) (5.08) (2.54)

Ø ± 10% 0.024 0.024 0.024 0.024 (0.6) (0.6) (0.6) (0.6) Dielectric NPO BX 2C1 X7R NPO BX 2C1 X7R Dielectric code CE CX CN XR CE CX CN XR Min. Cap. value 1pF 22pF 1pF 22pF 25V 5.6nF 150nF 180nF 180nF 33nF 820nF 1µF 1µF

) 50V 2.7nF 39nF 56nF 82nF 15nF 220nF 390nF 470nF RC 63V 2.2nF 27nF 39nF 56nF 12nF 150nF 220nF 330nF 100V 1.2nF 10nF 18nF 33nF 6.8nF 56nF 120nF 180nF 200V 390pF 2.2nF 3.9nF 8.2nF 2.2nF 12nF 27nF 47nF

Rated voltage (U voltage Rated 250V 220pF 1.2nF 2.8nF 4.7nF 1.2nF 8.2nF 18nF 33nF 500V 82pF - - 820pF 470pF - 2.7nF 4.7nF

Size 79-5 80-5 76-5

L max. 0.299 0.398 0.5 (7.6) (10.1) (12.7) 0.378 0.477 0.56 W max. (9.6) (12.1) (14.2) 0.15 0.15 0.197** T max. (3.8) (3.8) (5)** X ± 0.008 Dimensions 0.2 0.2 0.4 * inches (mm) inches (± 0.2) (5.08) (5.08) (10.16) * 0.024 0.024 0.024 Ø ± 10% (0.6) (0.6) (0.6) Dielectric NPO BX 2C1 X7R NPO BX 2C1 X7R NPO BX 2C1 X7R Dielectric code CE CX CN XR CE CX CN XR CE CX CN XR Min. Cap. value 1nF 4.7nF 3.9nF 12nF 8.2nF 33nF 25V 82nF 2.2µF 2.2µF 2.2µF 150nF 3.9µF 3.9µF 3.9µF 270nF 6.8µF 6.8µF 6.8µF

) 50V 56nF 1.2µF 1.5µF 1.5µF 100nF 2.7µF 2.7µF 2.7µF 180nF 4.7µF 4.7µF 4.7µF RC 63V 47nF 820nF 1µF 1.2µF 100nF 1.5µF 2.2µF 2.2µF 150nF 2.7µF 4.7µF 3.9µF 100V 27nF 270nF 560nF 820nF 56nF 560nF 1.2µF 1.2µF 100nF 1.2µF 2.2µF 2.2µF 200V 10nF 82nF 150nF 220nF 27nF 180nF 330nF 390nF 56nF 390nF 680nF 820nF

Rated voltage (U voltage Rated 250V 6..8nF 47nF 100nF 150nF 15nF 100nF 220nF 220nF 39nF 270nF 470nF 560nF 500V 3.3nF 6.8nF 18nF 33nF 6.8nF 15nF 39nF 56nF 15nF 47nF 100nF 120nF

* X = 0.2’’ (5.08mm) for Cr ≤ 1µF - 50V and Cr ≤ 680nF - 100V ** T max = 0.273’’ (6mm) for Cr ≥ 3.3µF - 50V

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TapingNon Magnetic : dimensions Conformal Coated Series Radial Dipped Capacitors

FEATURES ELECTRICAL SPECIFICATIONS

• Case sizes: 1812 to 2220 Description NPO dielectric X7R dielectric • NPO and X7R dielectrics • Capacitance range: 180pF to 1µF Dielectric code N X • RoHS compliant capacitors CECC class 1B / CG 2R1 EIA class Class I Class II Temperature range –55°C to +125°C –55°C to +125°C PHYSICAL CHARACTERISTICS Temperature coefﬁ cient (0±30) ppm/°C NA Maximum ∆C/°C over temperature range MLCC capacitors with: NA ±15% • Radial leads for through-hole mounting. without DC voltage applied

Rated voltage (UR) 100VDC to 500VDC 63VDC to 500VDC Dielectric withstanding voltage 250% rated voltage 250% rated voltage

Insulation resistance (IR) 100GΩ or 1,000Ω.F 100GΩ or 1,000Ω.F at 25°C under UR whichever is less whichever is less Aging None ≤ 2.5% per decade hour

HOW TO ORDER

630 S43 X 394 K R E Rated voltage Exxelia size code Dielectric code Capacitance Tolerance Termination Packaging

630 = 63V S43 = 1812 N = NPO Capacitance value in code. NPO: R = Radial two wires - = Bulk 101 = 100V S47 = 2220 X = X7R 1st two digits represent signifi cant fi gures; F = ±1% 201 = 200V last digit specifi es the number of zeros to follow. G = ±2% E = tape & reel 501 = 500V J = ±5% Examples: K = ±10% 101 = 100pF M = ±20% 472 = 4.7nF 683 = 68nF X7R: K = ±10% 564 = 0.56µF M = ±20% 105 = 1µF

www.exxelia.com 42 [email protected] Page revised 09/17 CERAMIC CAPACITORS

Radial Dipped Capacitors Non Magnetic ConformalGeneral characteristics Coated Series

DIMENSIONS in inches (mm) W T

TA H 103M 200V 0.1 max (2.5 max)

Ø D 0.98 min

(25 min) STANDARD

LS STANDARD RATINGS

Size 1812 2220

Exxelia size code S43 S47 0.28 max. 0.327 max. W (7.1 max.) (8.3 max.) 0.26 max. 0.335 max. H (6.6 max.) (8.5 max.) 0.2 ±0.02 0.2 ±0.02 LS (5.08 ±0.5) (5.08 ±0.5) Dimensions inches (mm) inches 0.024 0.024 D ±10% (0.6) (0.6) 0.146 0.146 T max. (3.7) (3.7) NPO X7R NPO X7R Dielectric N X N X 150nF 330nF 63V - - ) to 1µF to 1µF RC 1.8nF 6.8nF 100V - - to 5.6nF to 10nF 180pF 2.7nF 680pF 6.8nF 200V to 5.6nF to 100nF to 10nF to 220nF

Rated voltage (U voltage Rated 180pF 2.7nF 680pF 6.8nF 500V to 2.2nF to 47nF to 4.7nF to 100nF

Available capacitance values: E6, E12 (see page 14). Speciﬁc values upon request. Note: some capacitance values in these tables may not be proposed for small quantities. Please, contact us for conﬁrmation. For exact values regarding the thickness, please consult us.

www.exxelia.com 43 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingCK Series : dimensions Radial Molded Capacitors

In accordance with MIL C 11015 D CKR 05/06 : on request, High reliability types. standards FEATURES ELECTRICAL SPECIFICATIONS

• Radial molded capacitors Description BX • BX dielectric • Capacitance range: 10pF to 1µF Operating temperature –55°C to +125°C • RoHS and Non RoHS compliant capacitors available Climatic category 55 / 125 / 56

Rated voltage (URC) 25VDC to 250VDC Max. ∆C/°C over temperature range without DC voltage applied ±15% PHYSICAL CHARACTERISTICS Maximum ∆C/°C over temperature range with rated voltage applied +15% –25%

CONSTRUCTION Dielectric withstanding voltage 2.5 URC at 1MHz for C ≤ 100pF Leaded MLCC capacitors for through-hole mounting: Capacitance Epoxy molded capacitors at 1kHz for C > 100pF ≤2.5% at 1MHz for C ≤ 100pF Dissipation factor at 25°C MARKING ≤2.5% at 1kHz for C > 100pF ≥ 100,000 MΩ for C ≤ 10nF Capacitance, tolerance, voltage, dielectric, date code. Insulation resistance at 25°C ≥ 1,000 MΩ.µF for C > 10nF Aging ≤ 2.5% per decade hour

DIMENSIONS in inches (mm) STANDARD RATINGS

Size 05 06 0.189 ± 0.008 0.291 ± 0.008 L (4.8 ± 0.2) (7.4 ± 0.2) 0.189 ± 0.008 0.291 ± 0.008 W (4.8 ± 0.2) (7.4 ± 0.2) 0.091 ± 0.008 0.091 ± 0.008 T (2.3 ± 0.2) (2.3 ± 0.2) Dimensions

inches (mm) inches 0.2 ± 0.008 0.2 ± 0.008 X (5.08 ± 0.2) (5.08 ± 0.2) 0.024 0.024 Ø ± 10% (0.6) (0.6) Min. Cap. value 10pF 330pF 25V 820nF 1.5µF )

RC 50V 220nF 1µF 63V 120nF 470nF Available capacitance values: BX: E6, E12, E24 (see page 14). Speciﬁ c values upon request. 100V 47nF 180nF The above table deﬁ nes the standard products, other components may be built upon 200V 12nF 39nF request. (U voltage Rated 250V 6.8nF 27nF HOW TO ORDER

CK 05 W F 820nF 10% 25V B - Series Size RoHS compliant Quality level Capacitance Tolerance Rated voltage Packaging Reliability level

CK = Radial leaded, 05 - = No RoHS - = standard quality Capacitance value ±10% 25V 100V - = Exxelia packaging For F parts only. level in clear ±20% Acc. to Exxelia spec. molded capacitor 06 W = RoHS 50V 200V Available for quantity 63V 250V - compliant F = Hi-Rel quality: ≥ 500: T5 screening in Intermediary B = reel T6 accordance with and higher voltages Exxelia speciﬁ cation available on request See page 15

www.exxelia.com 44 [email protected] Page revised 09/17 HIGH VOLTAGE

GENERAL INFORMATION ...... 46 C SERIES High Voltage Chips Capacitors ...... 51 TCL / TCK SERIES High Voltage Molded & Varnished Leaded Caps ...... 54 TCF SERIES High Voltage Conformal Coated Leaded Caps ...... 57 TKD SERIES High Voltage Conformal Coated Leaded Caps ...... 60 CS SERIES High Voltage Stacked Capacitors ...... 62 VM SERIES Voltage Multipliers ...... 65 CERAMIC CAPACITORS TapingGeneral : dimensionsInformation

High voltage multilayer ceramic capacitors designed by EXXELIA are adapted to NPO: IMPEDANCE VS FREQUENCY applications in electronics such as high voltage power supplies and high voltage Z (mΩ) multiplier circuits. Their multilayer construction offers significant size and space 10 4 saving advantages. They are available in class 1 (NPO), class 2 (X7R) and C4xx (–2,200 ppm/°C) dielectrics versions complying with the main requirements of applicable standards. They are suited for use in commercial, industrial and 10 pF High-Rel military and space circuits. 10 3 As standard products can’t meet all the specificities of all applications, special applications may require specific features (higher voltage, burn-in, dimensions, 100 pF coating, leading, marking…) not described in this catalogue. Based on our 10 2 state-of-the-art technologies and our expertise, our Engineers may study at 1 nF your request all special components to meet your application. Please, consult us for more information. 10 nF 10 100 nF NPO, X7R, C4xx: SELF-RESONANCE FREQUENCE VS CAPACITANCE

FR (MHz) 103 1 10 10 2 10 3 10 4 10 5 10 6 10 7 5 N (kHz)

2 NPO: LOSS TANGENT VS TEMPERATURE Chips 102 Tg d (x10–4) 100 5 5 2 Molded 10 2

5 10

2 5

1 10 255 102 25103 25104 25105 2 106 2 CR (pF) 1

NPO/COG DIELECTRICS (CLASS 1) 5 Made of titanium oxide and other various selected oxides, they feature unique 2 stability of all parameters under such constraints as operating time, temperature, voltage applied. For example, the quality factor remains very high over an 0,1 extremely wide frequency range. As example, loss angle tangent value at 1 MHz –55–40 02085125 155 V(°C) is typically in the order of 3.10-4. These characteristics make them compatible with steep-edge impulse mode without noticeable temperature rise. The differ- NPO: INSULATION RESISTANCE VS TEMPERATURE ent parameters and related variations are illustrated in ﬁgures below: IR (GΩ) 10 4 NPO: RELATIVE CAPACITANCE CHANGE VS TEMPERATURE 5 ∆C/C (%) 0.4 2 10 3 0.3 5 0.2 2 Nominal 0.1 2 Limit 10 0 5

–0.1 2

–0.2 10 5 –0.3 2 –0,4 –55 –35 –15 5 25 45 65 85 105 125 1 –55–40 02085125 155 V (°C) (°C)

www.exxelia.com 46 [email protected] Page revised 09/17 CERAMIC CAPACITORS GeneralGeneral characteristics Information

X7R DIELECTRICS (CLASS 2) X7R: CAPACITANCE CHANGE VS TEMPERATURE ∆C/C (%) They are mainly made of barium titanate modified by various oxides to achieve +30 the electrical properties required. A specific ceramic dielectric is used to achieve an excellent dielectric strength. High dielectric constant enables to +20 achieve high capacitance values. For optimum use, the specific properties of barium titanate in function of the +10 different parameters must be taken into account. 0 See the variations illustrated in figures below:

–10

CHANGE VS PERCENTAGE OF RATED VOLTAGE APPLIED –20 ∆C/C (%) 0 –30

–20 –40 –55–40 02085125 155 (°C) HIGH VOLTAGE HIGH –40 X7R: CAPACITANCE CHANGE VS FREQUENCY ∆C/C (%) Standard range + 5 –60

Extended range

–80 0 20 40 60 80 100 Percentage of rated voltage (%) 0

–5

–10 55112210 5502 2 10 3 N (kHz)

X7R: INSULATION RESISTANCE VS TEMPERATURE IR (GΩ) 103

102

2 1 –55–40 02085125 155 (°C)

www.exxelia.com 47 [email protected] Page revised 09/17 CERAMIC CAPACITORS TapingGeneral : dimensionsInformation

X7R: LOSS TANGENT CHANGE VS TEMPERATURE X7R: MAXIMUM ADMISSIBLE CURRENT VS FREQUENCY

I (A) Tg d (x10–4) RMS 500 100

200 10 100 33nF 10nF 50 1 3.3nF

1nF 20 10nF 0.1 10 0.1nF

5 0.01 0.01 0.1 1 10 100 2 Frequency (MHz)

1 –5 5– 040 20 85 125155 V (°C) These typical curves are examples of admissible currents for one family of chip capacitors (size 3333). For other curves and products or for further information, please contact us.

Note: for the calculations, we have considered that the terminations are directly connected to an in- ﬁnite heat sink. In other words, the thermal resistance of the circuit itself which depends on its type and design has not been taken into account. Moreover, the ambient temperature taken is 25°C.

X7R: LOSS TANGENT CHANGE VS FREQUENCY X7R: ESR VS FREQUENCY

Tg d (x10–4) ESR (Ω) 500 10000

0.1nF 1000 0.33nF 200 1nF 100 3.3nF

10nF 100 10 33nF

1 50

0.1

0.01 20 0.01 0.1 1 10 100 Frequency (MHz)

10 5522552 2 3 1110 0 10 The ESR (Equivalent Serial Resistance) typical curves are given, here for SMD N (kHz) (chip) capacitors. Regarding the curves for the leaded capacitors, they are rather the same. Indeed, due to the resistivity of the raw material used and the wire diameters, the resistance of the wires is much lower than the ESR of the chips. So, in a ﬁrst approach, their inﬂuence can be considered as negligible.

www.exxelia.com 48 [email protected] Page revised 09/17 CERAMIC CAPACITORS GeneralGeneral characteristics Information

C4xx DIELECTRIC This ceramic is a negative temperature coefﬁcient dielectric (–2,200 ppm/°C). Its advantage is that it combines the high dielectric constant of an X7R dielectric with the stability of an NPO dielectric. As the C4xx ceramic features low dissipation factor it is recommended for AC line ﬁltering from 110 Vrms to 230 Vrms, 20 to 400 Hz, for high power RF at high voltage up to 5,000 V and for pulse applications.

C4xx: TEMPERATURE COEFFICIENT COMPARISON OF CAPACITANCE VALUE UNDER RATED VOLTAGE AT 125°C ∆C/C (%) 20 1000 15

10 C4xx X7R Nominal 5 Limit 100 0 NPO C4xx X7R –5 10 –10 NPO –15 C4xx

X7R VOLTAGE HIGH –20 1 Capacitance value (in nF) –25 NPO

–30 –55 –35 –15 5 25 45 65 85 105 125 0.1 V (°C) Size 1812 Size 4040 Size 16080

C4xx: VOLTAGE COEFFICIENT COMPARISON OF SELF-HEATING AT 400 Hz BETWEEN C4xx AND X7R DIELECTRICS

∆C/C (%) Temperature (°C) 0 20

–2 25

–4 X7R 30

–6 35 –8 40 –10

45 –12

Standard –14 50 Extended C4xx

–16 55 0 20 40 60 80 100 Un 2 Un 3 Un

Percentage of rated voltage (%) Voltage

www.exxelia.com 49 [email protected] Page revised 09/17 CERAMIC CAPACITORS TapingGeneral : dimensionsInformation

RECOMMENDED FOOTPRINTS

P* Model R Model L Model

) ) ) ±0.02 ±0.012 ±0.012 ±0.3 ±0.5 ±0.3 T 0.059 (1.5 0.098 (2.5 (1.5 0.059 T T 0.012 max. 0.012 (0.3 max.) 0.012 max. 0.012 (0.3 max.)

0.1 d b R d 0.02 0.012 max. 0.098±0.02 0.1 0.02 (2.54) C (0.5) (0.3 max.) (2.5±0.5) (2.54) (0.5) 0.1 (2.54) 0.1 (2.54)

C1 I3 C1 I3 C1 I3

I2 I2 I2 I1 I1 I I d 1 d d 1

I2 W1 I2 W1 I2 W1

DIMENSIONS in inches (mm)

Exxelia Leads Lead C max d b C W I I I size per 1 1 1 2 3 shape inches (mm) inches (mm) inches (mm) inches (mm) inches (mm) inches (mm) inches (mm) inches (mm) code side P * 0.228 (5.8) 2 0.06 ± 0.012 (1.5 ± 0.3) - - 0.268 (6.8) 0.147 (3.74) 0.047 (1.2) 0.108 (2.75) 0.098 (2.5) 90 L 0.394 (10) 2 0.098 ± 0.02 (2.5 ± 0.5) - - 0.433 (11) 0.147 (3.74) 0.047 (1.2) 0.152 (3.85) 0.130 (3.3) R 0.386 (9.8) 1 0.087 ± 0.008 (2.2 ± 0.2) 0.197 ± 0.02 (5 ± 0.5) 0.425 (10.8) 0.244 (6.2) - - 0.148 (3.75) 0.130 (3.3) P * 0.276 (7) 2 0.06 ± 0.012 (1.5 ± 0.3) - - 0.315 (8) 0.147 (3.74) 0.047 (1.2) 0.108 (2.75) 0.098 (2.5) 80 L 0.480 (12.2) 2 0.098 ± 0.02 (2.5 ± 0.5) - - 0.520 (13.2) 0.147 (3.74) 0.047 (1.2) 0.171 (4.35) 0.177 (4.5) R 0.433 (11) 1 0.087 ± 0.008 (2.2 ± 0.2) 0.197 ± 0.02 (5 ± 0.5) 0.472 (12) 0.244 (6.2) - - 0.148 (3.75) 0.177 (4.5) P * 0.276 (7) 2 0.06 ± 0.012 (1.5 ± 0.3) - - 0.315 (8) 0.147 (3.74) 0.047 (1.2) 0.108 (2.75) 0.098 (2.5) 91 L 0.480 (12.2) 2 0.098 ± 0.02 (2.5 ± 0.5) - - 0.520 (13.2) 0.147 (3.74) 0.047 (1.2) 0.171 (4.35) 0.177 (4.5) R 0.433 (11) 1 0.087 ± 0.008 (2.2 ± 0.2) 0.197 ± 0.02 (5 ± 0.5) 0.472 (12) 0.244 (6.2) - - 0.148 (3.75) 0.177 (4.5) P * 0.315 (8) 2 0.087 ± 0.012 (2.2 ± 0.3) - - 0.354 (9) 0.147 (3.74) 0.047 (1.2) 0.108 (2.75) 0.138 (3.5) 81 L 0.531 (13.5) 2 0.098 ± 0.02 (2.5 ± 0.5) - - 0.571 (14.5) 0.147 (3.74) 0.047 (1.2) 0.171 (4.35) 0.228 (5.8) R 0.484 (12.3) 1 0.087 ± 0.008 (2.2 ± 0.2) 0.197 ± 0.02 (5 ± 0.5) 0.524 (13.3) 0.244 (6.2) - - 0.148 (3.75) 0.228 (5.8) P * 0.354 (9) 3 0.087 ± 0.012 (2.2 ± 0.3) - - 0.394 (10) 0.247 (6.28) 0.047 (1.2) 0.108 (2.75) 0.177 (4.5) 82 L 0.587 (14.9) 3 0.098 ± 0.02 (2.5 ± 0.5) - - 0.626 (15.9) 0.247 (6.28) 0.047 (1.2) 0.171 (4.35) 0.283 (7.2) R 0.642 (16.3) 1 0.138 ± 0.008 (3.5 ± 0.2) 0.315 ± 0.02 (8 ± 0.5) 0.681 (17.3) 0.362 (9.2) - - 0.199 (5.05) 0.283 (7.2) P * 0.472 (12) 4 0.087 ± 0.012 (2.2 ± 0.3) - - 0.512 (13) 0.347 (8.82) 0.047 (1.2) 0.118 (3) 0.276 (7) 83 L 0.676 (17.16) 4 0.098 ± 0.02 (2.5 ± 0.5) - - 0.715 (18.16) 0.347 (8.82) 0.047 (1.2) 0.191 (4.85) 0.333 (8.46) R 0.731 (18.56) 1 0.138 ± 0.008 (3.5 ± 0.2) 0.315 ± 0.02 (8 ± 0.5) 0.770 (19.56) 0.362 (9.2) - - 0.219 (5.55) 0.333 (8.46) P * 0.610 (15.5) 4 0.087 ± 0.012 (2.2 ± 0.3) - - 0.650 (16.5) 0.347 (8.82) 0.047 (1.2) 0.128 (3.25) 0.394 (10) 84 L 0.815 (20.7) 4 0.098 ± 0.02 (2.5 ± 0.5) - - 0.854 (21.7) 0.347 (8.82) 0.047 (1.2) 0.191 (4.85) 0.472 (12) R 0.870 (22.1) 1 0.138 ± 0.008 (3.5 ± 0.2) 0.315 ± 0.02 (8 ± 0.5) 0.909 (23.1) 0.362 (9.2) - - 0.219 (5.55) 0.472 (12) P * 0.630 (16) 5 0.087 ± 0.012 (2.2 ± 0.3) - - 0.669 (17) 0.347 (8.82) 0.047 (1.2) 0.128 (3.25) 0.413 (10.5) 89 L 0.827 (21) 5 0.098 ± 0.02 (2.5 ± 0.5) - - 0.866 (22) 0.347 (8.82) 0.047 (1.2) 0.191 (4.85) 0.484 (12.3) R 0.882 (22.4) 1 0.138 ± 0.008 (3.5 ± 0.2) 0.315 ± 0.02 (8 ± 0.5) 0.921 (23.4) 0.362 (9.2) - - 0.219 (5.55) 0.484 (12.3) P * 0.728 (18.5) 6 0.087 ± 0.012 (2.2 ± 0.3) - - 0.768 (19.5) 0.547 (13.9) 0.047 (1.2) 0.128 (3.25) 0.512 (13) 85 L 0.925 (23.5) 6 0.098 ± 0.02 (2.5 ± 0.5) - - 0.965 (24.5) 0.547 (13.9) 0.047 (1.2) 0.191 (4.85) 0.583 (14.8) R 0.980 (24.9) 1 0.138 ± 0.008 (3.5 ± 0.2) 0.591 ± 0.02 (15 ± 0.5) 1.020 (25.9) 0.638 (16.2) - - 0.219 (5.55) 0.583 (14.8) P * 1.260 (32) 6 0.087 ± 0.012 (2.2 ± 0.3) - - 1.299 (33) 0.547 (13.9) 0.047 (1.2) 0.128 (3.25) 0.945 (24) 87 L 1.398 (35.5) 6 0.098 ± 0.02 (2.5 ± 0.5) - - 1.437 (36.5) 0.547 (13.9) 0.047 (1.2) 0.191 (4.85) 1.055 (26.8) R 1.453 (36.9) 1 0.138 ± 0.008 (3.5 ± 0.2) 0.591 ± 0.02 (15 ± 0.5) 1.492 (37.9) 0.638 (16.2) - - 0.219 (5.55) 1.055 (26.8) P * 1.654 (42) 6 0.087 ± 0.012 (2.2 ± 0.3) - - 1.693 (43) 0.547 (13.9) 0.047 (1.2) 0.128 (3.25) 1.378 (35) 88 L 1.831 (46.5) 6 0.098 ± 0.02 (2.5 ± 0.5) - - 1.870 (47.5) 0.547 (13.9) 0.047 (1.2) 0.191 (4.85) 1.488 (37.8) R 1.886 (47.9) 1 0.138 ± 0.008 (3.5 ± 0.2) 0.591 ± 0.02 (15 ± 0.5) 1.925 (48.9) 0.638 (16.2) - - 0.219 (5.55) 1.488 (37.8)

* For PL and PLS, add 0.098 in (2.5 mm) to d and I2 and 0.197 in (5 mm) to C1.

www.exxelia.com 50 [email protected] Page revised 09/17 CERAMIC CAPACITORS

High Voltage Chips Capacitors General characteristicsC Series

According to ELECTRICAL SPECIFICATIONS ESAAvailable Qualified space ranges: consult our detail Dielectric NPO C4xx X7R specifi cations Dielectric code 1 4 2 Maximum ∆C/°C over temperature range without NA NA ±15% voltage Temperature coeffi cient (0±30) ppm/°C (–2,200±500) ppm/°C NA Aging None None ≤ 2.5% per decade hour Operating temperature –55°C to +125°C

200 VDC to 200 VDC to 200 VDC to Rated voltage (URC) FEATURES 10,000 VDC 5,000 VDC 10,000 VDC 2.5 URC for = 200 VDC 2.5 URC for URC = 200 VDC • Multilayer chip ceramic capacitors 2.5 URC for URC ≤ 500 VDC 2 URC for URC = 500 VDC 2 URC for URC = 500 VDC 1.6 U for U ≥ 1,000 V 1.5 U for U = 1,000 V 1.5 U for U = 1,000 V • Size 1515 to 16080 Dielectric RC RC DC RC RC DC RC RC DC Extended range: 1.4 U for U > 1,000 V 1.2 U for U > 1,000 V • NPO, C4xx and X7R dielectrics withstanding voltage RC RC DC RC RC DC 2 URC for URC ≤ 500 VDC Extended range: Extended range: • Capacitance range: 10 pF to 39 µF 1.3 URC for URC ≥ 1,000 VDC 1.5 URC for URC ≤ 500 VDC 1.5 URC for URC ≤ 500 VDC • Voltage range: 200 VDC to 10,000 VDC 1.2 URC for URC ≥ 1,000 VDC 1.2 URC for URC ≥ 1,000 VDC at 1 MHz for C ≤ 1,000 pF

Capacitance at 1 kHz at 1 kHz VOLTAGE HIGH PHYSICAL CHARACTERISTICS at 1 kHz for C > 1,000 pF ≤ 0.015 (150/C + 7)% at 1 MHz CONSTRUCTION for C ≤ 50 pF • C Series: Unleaded chip capacitors for surface mounting ≤ 0.15% at 1 MHz Dissipation factor ≤ 0.10% at 1 kHz ≤ 2.5% at 1 kHz with optional tinning. for 50 pF < C ≤ 1,000 pF • P, PL, L models: DIL leaded uncoated chip capacitors ≤ 0.15% at 1 kHz for surface mounting recommended to eliminate for C > 1,000 pF thermomechanical stresses. Insulation resistance at 25°C ≥ 100,000 MΩ for C ≤ 10 nF ≥ 20,000 MΩ for C ≤ 25 nF • N, NU models: DIL leaded chip capacitors for through-hole under U for U ≤ 500V RC RC DC ≥ 1,000 MΩ.µF for C > 10 nF ≥ 500 MΩ.µF for C > 25 nF circuits (N: varnished chips, NU: uncoated chips). under 500VDC for URC > 500VDC • R, RU models: Ribbon leaded chip capacitors for surface mounting (R: varnished chips, RU: uncoated chips) recommended to eliminate thermomechanical stresses. MARKING (On request on unleaded chips) Series, capacitance value, tolerance, rated voltage clear or coded, date code.

C2 80 C P M F1µF 10% 200V S12 T5

Exxelia Termination Leads style Rated Reliability Series Dielectric + ﬁ nishing Marking Quality level Capacitance Tolerance Packaging size code (Bare chips only) (Leaded chips only) voltage level

C = High 1 = NPO 78 = 1515 W = RoHS compliant P Only for unleaded - = standard Capacitance For NPO dielectric: 200V - = Exxelia For F parts voltage 2 = X7R 79 = 1812 For all sizes PW - RoHS chips quality level value in clear ±1% 500V packaging only. chip 4 = C4xx 90 = 1825 PL (Leaded chips are ±2% 1,000V (leaded chips : Acc. to capacitor 80 = 2220 - Ag/Pd/Pt W Ag/Pd/Pt PLW - RoHS always marked). F = Hi-Rel ±5% 1,500V thermoformed Exxelia quality: 91 = 2225 Q wAg QW Ag L - = no marking ±10% 2,000V packaging) spec. 81 = 2825 LW - RoHS screening ±20% 3,000V - M = Marking: 82 = 3333 From 1812 to 3333 sizes R in accordance 4,000V Only available for T5 with unleaded chips: 83 = 4040 - Ag/Pd/Pt W Ag/Pd/Pt RW - RoHS For sizes 1515 - For C4xx dielectric: 5,000V T6 84 = 5440 RU 1825: Cap. value. Exxelia ±2% 7,500V Ag/Pd/Pt + Sizes 1515 - 2220: 89 = 5550 H dipped HW Ag/Pd/Pt RUW - RoHS For other sizes: speciﬁ cation ±5% 10,000V See + dipped Sn S12 = Super 12 reel 85 = 6560 Sn/Pb 60/40 N EFD, ±10% page 15 Ni 87 = 11283 E + dipped EW Ni NW - RoHS Series, cap. value, ±20% Intermediary Sizes 1812 and 2220 88 = 16080 Sn/Pb 60/40 + dipped Sn NU tolerance,rated and higher BA = Tray package Ni Ni NUW - RoHS voltage, For X7R dielectric: voltages (non oriented chips) C + electrolytic CW + electrolytic Sn/Pb 95/5 Sn date code. ±10% available on BAO = Tray package Ag + Ni ±20% request. (oriented chips) D + electrolytic - Sn/Pb 60/40 See page 13 Ni G + electrolytic - Gold From 1812 to 4040 sizes Ag + Polymer YC + Ni + Sn/Pb YCW Ag + Polymer 95/5 + Ni + Sn Ag + Polymer YD + Ni + Sn/Pb - 60/40 Ag + Polymer Ag + Polymer YG + Ni + Au YGW + Ni + Au

www.exxelia.com 51 [email protected] Page revised 09/17 CERAMIC CAPACITORS L W

C Model a L Model L W ) ±0.02 ±0.5 T 0.098 (2.5 0.012 max. T (0.3 max.) L. W. T for tinned chips (option E or H) : +0.02’’ (+0.5 mm) 0.098±0.02 0.1 0.02 TapingC Series : dimensions High±0.5 Voltage Chips Capacitors (2.5 ) (2.54) (0.5) L W )

)

C Model L Model ) a L W ) P ModelC Model L a W R ModelL Model L W ±0.02 ±0.012 L W ±0.02 ±0.012 ±0.5 ±0.3 ±0.5 ±0.3 T 0.098 (2.5 T T 0.059 (1.5 0.098 (2.5 T T (1.5 0.059 T 0.012 max. 0.012 max. 0.012 (0.3 max.) 0.012 max. max. 0.012 (0.3 max.) R (0.3 max.) DIMENSIONS in inches (mm) L. W. T for tinned chips (option E or H) : +0.02’’ (+0.5 mm) ±0.02 L. CW. T for tinned chips (option0.1 E or H) : +0.02’’ (+0.50.02 mm) 0.098±0.02d 0.1 b 0.02 ±0.5 (2.54) (0.5) (2.5±0.5) (2.54) (0.5)

L W )

) )

) C Model L ModelPL Model L W N Model ) P Model R Model L W ) a L ± 0.01 L W W ±0.012 ±0.012 P Model ±0.02 R Model L W L W ±0.012 ±0.012 ± 0.25 ±0.3 L W ±0.012 ±0.5 ±0.3 ±0.3 ±0.3 0.012 max. ±0.3 T T 0.071 0.071 (1.8 0.059 1.5 T 0.059 (1.5 0.098 (2.5 T T (1.5 0.059 T 0.059 (1.5 T 0.012 max. 0.012 (0.3 max.) (1.5 0.059 0.012 max. 0.012 (0.3 max.) 0.012 max. T 0.012 max. 0.012 (0.3 max.) (0.3 max.) max. 0.012 (0.3 max.) R (0.3 max.) R 0.012 max. 0.02 L. W. T for tinned chips (option E or H) : +0.02’’ (+0.5 mm) C ±0.02 0.1 0.1 0.02 0.02 d b 0.098 C 0.1 0.1 0.02 0.02 у 0.295 ( у 7.5) (0.3 max.) d b (0.5) C (2.54) (0.5) (2.5±0.5) 0.098±0.02 (2.54)(2.54) (0.5)(0.5) X 0.1 ±0.5 (2.5 ) ) (2.54) L W )

) L W

PL Model ) N Model ) L W ± 0.01 P ModelC Model R ModelL ModelPL Model L W ±0.012 N Model L W ± 0.01

L W ±0.012 ±0.012 a L L W ± 0.25

W ±0.02 ±0.012 ±0.3 ± 0.25 ±0.3 ±0.3 ±0.5 0.012 max. ±0.3 T T 0.071 0.071 (1.8 0.012 max. 0.059 1.5 T T 0.071 0.071 (1.8 0.059 1.5 0.059 (1.5 T T 0.098 (2.5 (1.5 0.059 T T 0.012 max. 0.012 (0.3 max.) 0.012 max.(0.3 max.) max. 0.012 (0.3 max.) (0.3 max.) R R (0.3 max.) R 0.012 max. 0.02 C 0.1 0.02 L. W. T for tinned chips (option0.1 E or H) : +0.02’’ (+0.50.02 mm) ±0.02C d b у 0.295 ( у 7.5) (0.3 max.) (0.5) C 0.098 (2.54)0.1 0.02(0.5) у 0.295 ( у 7.5) (0.3 max.) (0.5) (2.54) 0.098±0.02 (2.54) (0.5) X 0.1 (0.5) (2.5±0.5) 0.098 (2.54) (0.5) X 0.1 (2.5±0.5) (2.5 ) ) (2.54)

PL Model L W ) N Model L W ± 0.01 ) P Model ±0.012 R Model L W ± 0.25 ±0.012 L W ±0.012 ±0.3 ±0.3 0.012 max. ±0.3 T T 0.071 0.071 (1.8 0.059 1.5 0.059 (1.5 T (1.5 0.059 T 0.012 max. 0.012 (0.3 max.) (0.3 max.) max. 0.012 (0.3 max.) R 0.012 max. 0.02 C R 0.1 0.02 STANDARD RATINGS0.1 0.02 у 0.295 ( у 7.5) (0.3 max.) d b (0.5) C (2.54) (0.5) 0.098±0.02 (2.54) (0.5) X 0.1 (2.5±0.5) (2.54) Size 1515 1812 1825 ) 2220 2225 2825 3333 PL Model L W N Model L W ± 0.01 ±0.012 ± 0.25 Exxelia ±0.3 0.012 max. 78 79 90 80 T 91 81 82 T 0.071 0.071 (1.8 (0.3 max.) size code 0.059 1.5 R 0.012 max. 0.02 C 0.15 ±0.1 0.015 0.1770.02 ± 0.020 0.177 ± 0.020 0.224 ± 0.020 0.224 ± 0.020 0.276 ± 0.020 0.331 ± 0.020

L* у 0.295 ( у 7.5) (0.3 max.) (0.5) (3.8(2.54) ± 0.38) (4.5(0.5) ± 0.5) (4.5 ± 0.5) (5.7 ± 0.5) (5.7 ± 0.5) (7 ± 0.5) (8.4 ± 0.5) 0.098±0.02 X 0.1 (2.5±0.5) 0.15 ± 0.015 0.126 ± 0.020 0.250 ± 0.020 0.197 ± 0.020 (2.54) 0.250 ± 0.020 0.250 ± 0.020 0.331 ± 0.020 W* (3.8 ± 0.38) (3.2 ± 0.5) (6.35 ± 0.5) (5.0 ± 0.5) (6.35 ± 0.5) (6.35 ± 0.5) (8.4 ± 0.5) 0.012 min 0.024 ± 0.020 0.024 ± 0.020 0.028 ± 0.020 0.028 ± 0.020 0.039 ± 0.020 0.039 ± 0.020 a (0.3 min) (0.6 ± 0.5) (0.6 ± 0.5) (0.7 ± 0.5) (0.7 ± 0.5) (1 ± 0.5) (1 ± 0.5) - - 0.087 ± 0.008 0.087 ± 0.008 0.087 ± 0.008 0.087 ± 0.008 0.138 ± 0.008 d - - (2.2 ± 0.2) (2.2 ± 0.2) (2.2 ± 0.2) (2.2 ± 0.2) (3.5 ± 0.2) - - 0.197 ± 0.020 0.197 ± 0.020 0.197 ± 0.020 0.197 ± 0.020 0.315 ± 0.020 b - - (5 ± 0.5) (5 ± 0.5) (5 ± 0.5) (5 ± 0.5) (8 ± 0.5) - - 0.066 0.098 0.098 0.137 0.177 R min. - - (1.7) (2.5) (2.5) (3.5) (4.5) - - 0.229 0.276 0.276 0.315 0.355

Dimensions inches (mm) Dimensions inches C max. - - (5.8) (7) (7) (8) (9) - - 0.2 ± 0.020 0.248 ± 0.020 0.248 ± 0.020 0.300 ± 0.020 0.350 ± 0.020 X - - (5.08 ± 0.5) (6.3 ± 0.5) (6.3 ± 0.5) (7.62 ± 0.5) (8.9 ± 0.5) Leads per side - 2 2 2 2 3 0.2kV up to 3kV: 0.158 (4) 0.2kV up to 3kV: 0.158 (4) 0.154 0.138 0.138 0.2kV up to 3kV: 0.119 (3) 0.2kV up to 3kV: 0.158 (4) T max.* 4kV: 0.197 (5) 4kV: 0.197 (5) (3.9) (3.5) (3.5) 4kV-5kV: 0.150 (3.8) 4kV-5kV: 0.197 (5) 5kV: 0.237 (6) 5kV: 0.237 (6) Dielectric NPO X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R Exxelia ceramic code 12142142142142142142 Min. Capacitance value 12pF 120pF 10pF 27pF 100pF 10pF 33pF 150pF 10pF 33pF 150pF 15pF 47pF 150pF 18pF 56pF 150pF 33pF 82pF 330pF Standard - - 5.6nF 120nF 220nF 12nF 220nF 470nF 12nF 220nF 390nF 15nF 330nF 560nF 18nF 390nF 820nF 33nF 680nF 1.5µF 0.2kV Extended - - 18nF - 470nF 27nF - - 22nF - 1µF 39nF - - 56nF - 1.8µF 100nF - 2.7µF Standard - - 3.3nF 22nF 47nF 6.8nF 47nF 100nF 5.6nF 47nF 100nF 6.8nF 68nF 150nF 8.2nF 82nF 220nF 22nF 120nF 390nF 0.5kV Extended - - 10nF 39nF 150nF 18nF 68nF - 18nF 68nF 270nF 22nF 100nF - 27nF 120nF 560nF 68nF 220nF 1µF Standard - - 1.8nF 6.8nF 15nF 2.7nF 12nF 22nF 2.2nF 12nF 22nF 3.3nF 18nF 33nF 3.9nF 22nF 47nF 10nF 39nF 68nF 1kV Extended 820pF 12nF 5.6nF 10nF 27nF 8.2nF 15nF - 6.8nF 15nF 56nF 10nF 22nF - 12nF 27nF 120nF 33nF 56nF 220nF )

RC Standard - - 820pF 2.7nF 5.6nF 1.2nF 5.6nF 10nF 1.5nF 5.6nF 10nF 2.2nF 8.2nF 15nF 2.7nF 10nF 18nF 4.7nF 18nF 33nF 1.5kV Extended - - 1.5nF 3.9nF 12nF 2.2nF 8.2nF - 2.2nF 6.8nF 22nF 3.3nF 12nF - 4.7nF 15nF 47nF 8.2nF 27nF 82nF Standard - - 390pF 1.5nF 3.3nF 680pF 2.7nF 5.6nF 470pF 2.7nF 5.6nF 820pF 4.7nF 6.8nF 1.2nF 5.6nF 10nF 3.3nF 10nF 18nF 2kV Extended 470pF 2.7nF 820pF 2.2nF 5.6nF 1.2nF 3.9nF - 1nF 3.9nF 12nF 1.8nF 6.8nF - 2.7nF 8.2nF 27nF 6.8nF 15nF 47nF Rated voltage (U voltage Rated Standard - - 180pF 680pF 1.2nF 180pF 1.2nF 2.2nF 220pF 1.2nF 2.2nF 330pF 1.8nF 3.3nF 470pF 2.2nF 3.9nF 820pF 3.9nF 6.8nF 3kV Extended 220pF 1nF 390pF 1nF 2.7nF 680pF 1.8nF - 470pF 1.8nF 4.7nF 820pF 2.7nF - 1nF 3.3nF 12nF 1.8nF 5.6nF 22nF Standard - - 100pF 330pF 680pF 120pF 680pF 1nF 150pF 820pF 1.2nF 220pF 1.2nF 1.8nF 390pF 1.5nF 2.7nF 680pF 3.3nF 4.7nF 4kV Extended 150pF 470pF 220pF 560pF - 330pF 1nF - 330pF 1.2nF 2.2nF 680pF 1.8nF - 820pF 2.2nF 4.7nF 1.5nF 4.7nF 10nF Standard ------100pF 560pF 820pF 150pF 820pF 1nF 270pF 1nF 1.8nF 470pF 2.2nF 3.3nF 5kV Extended ------220pF 820pF 1.5nF 320pF 1.2nF - 560pF 1.5nF 3.3nF 1nF 2.7nF 6.8nF

www.exxelia.com 52 [email protected] Page revised 03/18 CERAMIC CAPACITORS

High Voltage Chips Capacitors General characteristicsC Series

STANDARD RATINGS

Size 4040 5440 5550 6560 11283 16080 Exxelia 83 84 89 85 87 88 size code 0.400 ± 0.039 0.539 ± 0.039 0.551 ± 0.039 0.650 ± 0.039 1.122 ± 0.039 1.555 ± 0.039 L* (10.16 ±1) (13.7 ± 1) (14 ± 1) (16.5 ± 1) (28.5 ± 1) (39.5 ± 1) 0.400 ± 0.039 0.400 ± 0.039 0.500 ± 0.039 0.598 ± 0.039 0.827 ± 0.039 0.756 ± 0.039 W* (10.16 ± 1) (10.16 ± 1) (12.7 ± 1) (15.2 ± 1) (21 ± 1) (19.2 ± 1) 0.059 ± 0.020 0.059 ± 0.020 0.059 ± 0.020 0.059 ± 0.020 0.059 ± 0.020 0.059 ± 0.020 a (1.5 ± 0.5) (1.5 ± 0.5) (1.5 ± 0.5) (1.5 ± 0.5) (1.5 ± 0.5) (1.5 ± 0.5) 0.138 ± 0.008 0.138 ± 0.008 0.138 ± 0.008 0.138 ± 0.008 0.138 ± 0.008 0.138 ± 0.008 d (3.5 ± 0.2) (3.5 ± 0.2) (3.5 ± 0.2) (3.5 ± 0.2) (3.5 ± 0.2) (3.5 ± 0.2) 0.315 ± 0.020 0.315 ± 0.020 0.315 ± 0.020 0.591 ± 0.020 0.591 ± 0.020 0.591 ± 0.020 b (8 ± 0.5) (8 ± 0.5) (8 ± 0.5) (15 ± 0.5) (15 ± 0.5) (15 ± 0.5) 0.275 0.393 0.393 0.511 0.984 1.377 R min. (7) (10) (10) (13) (25) (35) 0.473 0.611 0.63 0.729 1.26 1.654 C max. (12) (15.5) (16) (18.5) (32) (42) Dimensions inches (mm) Dimensions inches 0.45 ± 0.020 0.551 ± 0.020 0.563 ± 0.020 0.7 ± 0.020 1.15 ± 0.020 1.6 ± 0.020 X (11.43 ± 0.5) (14 ± 0.5) (14.3 ± 0.5) (17.78 ± 0.5) (29.21 ± 0.5) (40.64 ± 0.5)

Leads per side 4 4 5 6 6 6 VOLTAGE HIGH 0.2kV up to 3kV: 0.158 (4) 0.2kV up to 3kV: 0.158 (4) 0.2kV up to 3kV: 0.158 (4) 0.2kV up to 3kV: 0.158 (4) 0.2kV up to 3kV: 0.158 (4) 0.2kV up to 3kV: 0.158 (4) 4kV: 0.197 (5) 4kV: 0.197 (5) 4kV: 0.197 (5) 4kV: 0.197 (5) 4kV: 0.197 (5) T max.* 4kV: 0.197 (5) 5kV: 0.237 (6) 5kV: 0.236 (6) 5kV up to 10kV: 0.237 (6) 5kV up to 10kV: 0.237 (6) 5kV up to 10kV: 0.237 (6) 5kV up to 10kV: 0.237 (6) 7.5kV up to 10kV: 7.5kV up to 10kV:

0.256 (6.5) 0.256 (6.5) Dielectric NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R Exxelia ceramic code 142142142142142142 Min. Capacitance value 10pF 180pF 270pF 22pF 270pF 390pF 27pF 390pF 560pF 47pF 470pF 1nF 120pF 1nF 2.2nF 150pF 1.8nF 2.7nF Standard 56nF 1.2µF 2.7µF 82nF 1.5µF 3.9µF 100nF 1.8µF 4.7µF 180nF 2.7µF 6.8µF 330nF 6.8µF 12µF 390nF 8.2µF 15µF 0.2kV Extended 180nF - 5.6µF 270nF - 6.8µF 220nF - 8.2µF 560nF - 12µF1µF-33µF 1.2µF-39µF Standard 33nF 270nF 680nF 47nF 330nF 1µF 56nF 390nF 1.2µF 82nF 680nF 1.8µF 150nF 1.5µF 3.9µF 270nF 1.8µF 4.7µF 0.5kV Extended 100nF 390nF 1.5µF 150nF 560nF 2.2µF 150nF 680nF 2.7µF 270nF 1µF 3.9µF 470nF 2.2µF 10µF 820nF 2.7µF 12µF Standard 15nF 82nF 150nF 22nF 82nF 220nF 33nF 120nF 270nF 39nF 220nF 390nF 82nF 560nF 1µF 150nF 680nF 1.2µF 1kV Extended 47nF 120nF 390nF 68nF 120nF 560nF 82nF 220nF 560nF 120nF 330nF 1µF 270nF 680nF 2.7µF 470nF 1µF 3.3µF Standard 8.2nF 39nF 82nF 12nF 39nF 100nF 15nF 68nF 150nF 22nF 100nF 180nF 47nF 220nF 470nF 68nF 330nF 560nF 1.5kV Extended 18nF 56nF 180nF 22nF 56nF 220nF 33nF 100nF 330nF 47nF 150nF 470nF 100nF 330nF 1.2µF 150nF 470nF 1.5µF )

RC Standard 4.7nF 18nF 33nF 6.8nF 22nF 68nF 8.2nF 39nF 68nF 12nF 56nF 100nF 27nF 120nF 220nF 39nF 180nF 330nF 2kV Extended 10nF 27nF 100nF 15nF 33nF 150nF 18nF 56nF 150nF 27nF 82nF 220nF 56nF 180nF 560nF 82nF 270nF 820nF Standard 1.5nF 8.2nF 15nF 2.7nF 10nF 27nF 3.3nF 18nF 27nF 4.7nF 27nF 39nF 12nF 56nF 100nF 15nF 68nF 120nF 3kV Extended 3.3nF 12nF 39nF 5.6nF 15nF 56nF 10nF 22nF 68nF 10nF 39nF 100nF 27nF 82nF 270nF 33nF 100nF 330nF Rated voltage (U voltage Rated Standard 1.2nF 6.8nF 10nF 2.2nF 6.8nF 15nF 2.7nF 12nF 18nF 3.9nF 18nF 27nF 10nF 39nF 68nF 12nF 47nF 100nF 4kV Extended 2.7nF 10nF 18nF 4.7nF 10nF 27nF 6.8nF 18nF 39nF 8.2nF 27nF 47nF 22nF 56nF 120nF 27nF 82nF 150nF Standard 1nF 4.7nF 5.6nF 1.8nF 4.7nF 10nF 1.8nF 8.2nF 12nF 3.3nF 12nF 18nF 8.2nF 27nF 56nF 10nF 33nF 68nF 5kV Extended 2.2nF 6.8nF 15nF 3.9nF 6.8nF 22nF 4.7nF 12nF 27nF 6.8nF 18nF 39nF 15nF 39nF 82nF 18nF 47nF 100nF Standard 150pF - 1.5nF 270pF - 2.7nF 470pF - 3.3nF 560pF - 6.8nF 1.5nF - 18nF 2.2nF - 27nF 7.5kV Extended 330pF - 3.3nF 560pF - 5.6nF 1.2nF - 6.8nF 1.2nF - 12nF 3.3nF - 33nF 4.7nF - 47nF Standard 100pF - 680pF 180pF - 1.2nF 270pF - 1.5nF 390pF - 3.3nF 1nF - 8.2nF 1.5nF - 12nF 10kV Extended 220pF - 1.8nF 390pF - 3.3nF 680pF - 3.9nF 820pF - 6.8nF 2.2nF - 15nF 3.3nF - 27nF

* For E, EW, H and HW: add +0.020 inch (+0.5 mm) to L, W and T dimensions. The high voltage parts may require varnish or encapsulation to prevent surface arcing. Available capacitance values: NPO, C4xx dielectrics: E6, E12, E24 (see page 14). Specific values upon request. X7R dielectric: E6, E12 in standard (see page 14). Specific values upon request. The above table defines the standard products, other components may be built upon request.

www.exxelia.com 53 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingTCL / TCK : dimensions Series High Voltage Molded & Varnished Leaded Capacitors

According to (TCK) ELECTRICAL SPECIFICATIONS ESA Qualified Available space ranges: consult our detail DIELECTRIC NPO C4xx X7R specifi cations Dielectric code 1 4 2 Maximum ∆C/°C over temperature range without NA NA ±15% voltage Temperature coeffi cient (0±30) ppm/°C (–2,200±500) ppm/°C NA Aging None None ≤ 2.5% per decade hour Operating temperature –55°C to +125°C

200 VDC to 200 VDC to 200 VDC to Rated voltage (URC) 10,000 VDC 5,000 VDC 10,000 VDC

FEATURES 2.5 URC for URC = 200 VDC 2.5 URC for URC = 200 VDC 2.5 URC for URC ≤ 500 VDC 2 URC for URC = 500 VDC 2 URC for URC = 500 VDC • Multilayer chip ceramic capacitors 1.6 URC for URC ≥ 1,000 VDC 1.5 URC for URC = 1,000 VDC 1.5 URC for URC = 1,000 VDC Dielectric • NPO, C4xx and X7R dielectrics Extended range: 1.4 URC for URC > 1,000 VDC 1.2 URC for URC > 1,000 VDC withstanding voltage • Capacitance range: 10 pF to 39 µF 2 URC for URC ≤ 500 VDC Extended range: Extended range: 1.5 URC for URC ≤ 500 VDC 1.5 URC for URC ≤ 500 VDC • Voltage range: 200 VDC to 10,000 VDC 1.3 URC for URC ≥ 1,000 VDC 1.2 URC for URC ≥ 1,000 VDC 1.2 URC for URC ≥ 1,000 VDC at 1 MHz for C ≤ 1,000 pF Capacitance at 1 kHz at 1 kHz PHYSICAL CHARACTERISTICS at 1 kHz for C > 1,000 pF CONSTRUCTION ≤ 0.015 (150/C + 7)% at 1 MHz • TCK Series: molded (semi-hard epoxy resin) radial leaded for C ≤ 50 pF ≤ 0.15% at 1 MHz chip capacitors for through-hole circuits. Models suited for Dissipation factor ≤ 0.10% at 1 kHz ≤ 2.5% at 1 kHz harsh environmental conditions. for 50 pF < C ≤ 1,000 pF • TCL Series: varnished radial leaded chip capacitors for ≤ 0.15% at 1 kHz through-hole circuits. Models suited to applications for re- for C > 1,000 pF Insulation resistance at 25°C duced size is required with minimum exposure to external ≥ 100,000 MΩ for C ≤ 10 nF ≥ 20,000 MΩ for C ≤ 25 nF under U for U ≤ 500 V constraint, or to assemblies potted by the user. RC RC ≥ 1,000 MΩ.µF for C > 10 nF ≥ 500 MΩ.µF for C > 25 nF under 500 VDC for URC > 500 V

MARKING Voltage proof body Only for TCK Series: under URC for URC ≤ 1,250 VDC insulation under 1,300 VDC for URC > 1,250 VDC Series, capacitance value, tolerance, rated voltage clear or coded for TCK, date code.

HOW TO ORDER

TCK 1 82 UL W F 680pF 10% 4,000 V - B Dielectric Exxelia UL94VO RoHS Series Quality level Capacitance Tolerance Rated voltage Packaging Reliability level code size code compliant compliant

TCK = Molded 1 = NPO 79 Only available for - = No RoHS - = standard quality level Capacitance value NPO dielectric: 200 V Only available For F parts only. radial leaded 2 = X7R 90 TCK Series: in clear ±1% 500 V for TCK Series: Acc. to Exxelia spec. W = RoHS F = Hi-Rel quality: capacitor 4 = C4xx 80 compliant ±2% 1,000 V - 91 - = not UL screening ±5% 1,500 V B = Reel option: T5 TCL = 81 compliant in accordance with ±10% 2,000 V Contact your sales T6 Varnished 82 Exxelia speciﬁ cation ±20% 3,000 V representative. radial leaded 83 UL = UL94VO C4xx dielectric: 4,000 V See page 15 capacitor 84 compliant ±2% 5,000 V 89 ±5% 7,500 V 85 ±10% 10,000 V 87 ±20% 88 Intermediary and X7R dielectric: higher voltages ±10% avai lable: contact ±20% your sales representative.

www.exxelia.com 54 [email protected] Page revised 09/17 CERAMIC CAPACITORS

High Voltage Molded & Varnished Leaded Capacitors General TCLcharacteristics / TCK Series

DIMENSIONS in inches (mm)

L T L1 T 1 1 W W

Ø Ø (≥12) ≥0.472 (≥12) ≥ 0.472 X X TCL Series TCK Series

STANDARD RATINGS VOLTAGE HIGH

Exxelia 79 90 80 91 81 82 size code 0.237 0.237 0.276 0.276 0.355 0.394 L max. (6) (6) (7) (7) (9) (10) 0.197 0.296 0.276 0.296 0.296 0.394 W max. (5) (7.5) (7) (7.5) (7.5) (10) 0.2kV up to 3kV: 0.158 (4) 0.2kV up to 3kV: 0.158 (4) 0.2kV up to 3kV: 0.118 (3) 0.2kV up to 3kV: 0.158 (4) T max. 0.138 (3.5) 0.138 (3.5) 4kV: 0.197 (5) 4kV: 0.197 (5) 4kV-5kV: 0.150 (3.8) 4kV-5kV: 0.197 (5) 5kV: 0.237 (6) 5kV: 0.237 (6) 0.284 ± 0.020 0.284 ± 0.020 0.315 ± 0.020 0.315 ± 0.020 0.413 ± 0.020 0.512 ± 0.020 L 1 (7.2 ± 0.5) (7.2 ± 0.5) (8 ± 0.5) (8 ± 0.5) (10.5 ± 0.5) (13 ± 0.5) 0.197 ± 0.020 0.37 ± 0.020 0.315 ± 0.020 0.37 ± 0.020 0.354 ± 0.020 0.472 ± 0.020 W 1 (5 ± 0.5) (9.4 ± 0.5) (8 ± 0.5) (9.4 ± 0.5) (9 ± 0.5) (12 ± 0.5)

Dimensions inches (mm) Dimensions inches 0.2kV up to 3kV: 0.256 (6.5) 0.2kV up to 3kV: 0.256 (6.5) 0.2kV up to 3kV: 0.256 (6.5) T max. 0.197 (5) 0.197 (5) 0.197 (5) 1 4kV-5kV: 0.296 (7.5) 4kV-5kV: 0.315 (8) 4kV-5kV: 0.315 (8) 0.024 0.024 0.024 0.024 0.031 0.031 Ø ± 10% (0.6) (0.6) (0.6) (0.6) (0.8) (0.8) 0.2 ± 0.020 0.2 ± 0.020 0.2 ± 0.020 0.2 ± 0.020 0.3 ± 0.020 0.4 ± 0.020 X (5.08 ± 0.5) (5.08 ± 0.5) (5.08 ± 0.5) (5.08 ± 0.5) (7.62 ± 0.5) (10.16 ± 0.5) Dielectric NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R Exxelia ceramic code 142142142142142142 Min. Capacitance value 10pF 27pF 100pF 10pF 33pF 150pF 10pF 33pF 150pF 15pF 47pF 150pF 18pF 56pF 150pF 33pF 82pF 330pF Standard 5.6nF 120nF 220nF 12nF 220nF 470nF 12nF 220nF 390nF 15nF 330nF 560nF 18nF 390nF 820nF 33nF 680nF 1.5µF 0.2kV Extended 18nF - 470nF 27nF - - 22nF - 1µF 39nF - - 56nF - 1.8µF 100nF - 2.7µF Standard 3.3nF 22nF 47nF 6.8nF 47nF 100nF 5.6nF 47nF 100nF 6.8nF 68nF 150nF 8.2nF 82nF 220nF 22nF 120nF 390nF 0.5kV Extended 10nF 39nF 150nF 18nF 68nF - 18nF 68nF 270nF 22nF 100nF - 27nF 120nF 560nF 68nF 220nF 1µF Standard 1.8nF 6.8nF 15nF 2.7nF 12nF 24nF 2.2nF 12nF 22nF 3.3nF 18nF 33nF 3.9nF 22nF 47nF 10nF 39nF 68nF 1kV Extended 5.6nF 10nF 27nF 8.2nF 15nF - 6.8nF 15nF 56nF 10nF 22nF - 12nF 27nF 120nF 33nF 56nF 220nF )

RC Standard 820pF 2.7nF 5.6nF 1.2nF 5.6nF 10nF 1.5nF 5.6nF 10nF 2.2nF 8.2nF 15nF 2.7nF 10nF 18nF 4.7nF 18nF 33nF 1.5kV Extended 1.5nF 3.9nF 12nF 2.2nF 8.2nF - 2.2nF 6.8nF 22nF 3.3nF 12nF - 4.7nF 15nF 47nF 8.2nF 27nF 82nF Standard 390pF 1.5nF 3.3nF 680pF 2.7nF 5.6nF 470pF 2.7nF 5.6nF 820pF 4.7nF 6.8nF 1.2nF 5.6nF 10nF 3.3nF 10nF 18nF 2kV Extended 820pF 2.2nF 5.6nF 1.2nF 3.9nF - 1nF 3.9nF 12nF 1.8nF 6.8nF - 2.7nF 8.2nF 27nF 6.8nF 15nF 47nF Rated voltage (U voltage Rated Standard 180pF 680pF 1.2nF 180pF 1.2nF 2.2nF 220pF 1.2nF 2.2nF 330pF 1.8nF 3.3nF 470pF 2.2nF 3.9nF 820pF 3.9nF 6.8nF 3kV Extended 390pF 1nF 2.7nF 680pF 1.8nF - 470pF 1.8nF 4.7nF 820pF 2.7nF - 1nF 3.3nF 12nF 1.8nF 5.6nF 22nF Standard 100pF 330pF 680pF 120pF 680pF 1nF 150pF 820pF 1.2nF 220pF 1.2nF 1.8nF 390pF 1.5nF 2.7nF 680pF 3.3nF 4.7nF 4kV Extended 220pF 560pF - 330pF 1nF - 330pF 1.2nF 2.2nF 680pF 1.8nF - 820pF 2.2nF 4.7nF 1.5nF 4.7nF 10nF Standard ------100pF 560pF 820pF 150pF 820pF 1nF 270pF 1nF 1.8nF 470pF 2.2nF 3.3nF 5kV Extended ------220pF 820pF 1.5nF 320pF 1.2nF - 560pF 1.5nF 3.3nF 1nF 2.7nF 6.8nF

www.exxelia.com 55 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingTCL / TCK : dimensions Series High Voltage Molded and Varnished Leaded Capacitors

STANDARD RATINGS

Exxelia 83 84 89 85 87 88 size code 0.473 0.63 0.642 0.729 1.182 1.674 L max. (12) (16) (16.3) (18.5) (30) (42.5) 0.493 0.493 0.619 0.689 0.886 0.827 W max. (12.5) (12.5) (15.7) (17.5) (22.5) (21) 0.2kV up to 3kV: 0.158 (4) 0.2kV up to 3kV: 0.158 (4) 0.2kV up to 3kV: 0.158 (4) 0.2kV up to 3kV: 0.158 (4) 0.2kV up to 3kV: 0.158 (4) 0.2kV up to 3kV: 0.158 (4) 4kV: 0.197 (5) 4kV: 0.197 (5) T max. 4kV: 0.197 (5) 4kV: 0.197 (5) 4kV: 0.197 (5) 4kV: 0.197 (5) 5kV: 0.237 (6) 5kV: 0.237 (6) 5kV up to 10kV: 0.237 (6) 5kV up to 10kV: 0.237 (6) 5kV up to 10kV: 0.237 (6) 5kV up to 10kV: 0.237 (6) 7.5kV up to 10kV: 0.256 (6.5) 7.5kV up to 10kV: 0.256 (6.5) 0.591 ± 0.020 0.709 ± 0.020 0.732 ± 0.020 0.787 ± 0.020 1.221 ± 0.020 1.772 ± 0.020 L 1 (15 ± 0.5) (18 ± 0.5) (18.6 ± 0.5) (20 ± 0.5) (31 ± 0.5) (45 ± 0.5) 0.551 ± 0.020 0.630 ± 0.020 0.697 ± 0.020 0.748 ± 0.020 0.945 ± 0.020 0.906 ± 0.020 W 1 (14 ± 0.5) (16 ± 0.5) (17.7 ± 0.5) (19 ± 0.5) (24 ± 0.5) (23 ± 0.5)

Dimensions inches (mm) Dimensions inches 0.2kV up to 3kV: 0.256 0.2kV up to 3kV: 0.256 0.2kV up to 3kV: 0.256 0.2kV up to 3kV: 0.256 0.2kV up to 3kV: 0.256 0.2kV up to 3kV: 0.256

T1 max. (6.5) (6.5) (6.5) (6.5) (6.5) (6.5) 4kV up to 10kV: 0.315 (8) 4kV up to 10kV: 0.315 (8) 4kV up to 10kV: 0.315 (8) 4kV up to 10kV: 0.315 (8) 4kV up to 10kV: 0.315 (8) 4kV up to 10kV: 0.355 (9) 0.031 0.039 0.039 0.039 0.039 0.039 Ø ± 10% (0.8) (1) (1) (1) (1) (1) 0.5 ± 0.020 0.6 ± 0.020 0.6 ± 0.020 0.7 ± 0.020 1.1 ± 0.020 1.6 ± 0.020 X (12.7 ± 0.5) (15.24 ± 0.5) (15.24 ± 0.5) (17.8 ± 0.5) (27.94 ± 0.5) (40.64 ± 0.5) Dielectric NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R Exxelia ceramic code 1 4 2 1 4 2 1 4 2 1 4 2 1 4 2 1 4 2 Min. Capacitance value 10pF 180pF 270pF 22pF 270pF 390pF 27pF 390pF 560pF 47pF 470pF 1nF 120pF 1nF 2.2nF 150pF 1.8nF 2.7nF Standard 56nF 1.2µF 2.7µF 82nF 1.5µF 3.9µF 100nF 1.8µF 4.7µF 180nF 2.7µF 6.8µF 330nF 6.8µF 12µF 390nF 8.2µF 15µF 0.2kV Extended 180nF - 5.6µF 270nF - 6.8µF 220nF - 8.2µF 560nF - 12µF1µF-33µF 1.2µF-39µF Standard 33nF 270nF 680nF 47nF 330nF 1µF 56nF 390nF 1.2µF 82nF 680nF 1.8µF 150nF 1.5µF 3.9µF 270nF 1.8µF 4.7µF 0.5kV Extended 100nF 390nF 1.5µF 150nF 560nF 2.2µF 150nF 680nF 2.7µF 270nF 1µF 3.9µF 470nF 2.2µF 10µF 820nF 2.7µF 12µF Standard 15nF 82nF 150nF 22nF 82nF 220nF 33nF 120nF 270nF 39nF 220nF 390nF 82nF 560nF 1µF 150nF 680nF 1.2µF 1kV Extended 47nF 120nF 390nF 68nF 120nF 560nF 82nF 220nF 560nF 120nF 330nF 1µF 270nF 680nF 2.7µF 470nF 1µF 3.3µF Standard 8.2nF 39nF 82nF 12nF 39nF 100nF 15nF 68nF 150nF 22nF 100nF 180nF 47nF 220nF 470nF 68nF 330nF 560nF 1.5kV Extended 18nF 56nF 180nF 22nF 56nF 220nF 33nF 100nF 330nF 47nF 150nF 470nF 100nF 330nF 1.2µF 150nF 470nF 1.5µF )

Available capacitance values: NPO, C4xx dielectrics: E6, E12, E24 (see page 14). Specific values upon request. X7R dielectric: E6, E12 in standard (see page 14). Specific values upon request. The above table defines the standard products, other components may be built upon request.

www.exxelia.com 56 [email protected] Page revised 09/17 CERAMIC CAPACITORS

High Voltage Conformal Coated Leaded Capacitors General characteristicsTCF Series

According to ELECTRICAL SPECIFICATIONS ESA AvailableQualified space ranges: consult our detail DIELECTRIC NPO C4XX X7R specifi cations Dielectric code 1 4 2 Maximum ∆C/°C over temperature range without NA NA ±15% voltage Temperature coeffi cient (0±30) ppm/°C (–2,200±500) ppm/°C NA Aging None None ≤ 2.5% per decade hour Operating temperature –55°C to +125°C

200 VDC to 200 VDC to 200 VDC to Rated voltage (URC) FEATURES 10,000 VDC 5,000 VDC 10,000 VDC 2.5 URC for URC = 200 VDC 2.5 URC for URC = 200 VDC • Multilayer chip ceramic capacitors 2.5 URC for URC ≤ 500 VDC 2 URC for URC = 500 VDC 2 URC for URC = 500 VDC 1.6 URC for URC ≥ 1,000 VDC 1.5 URC for URC = 1,000 VDC 1.5 URC for URC = 1,000 VDC • NPO, C4xx and X7R dielectrics Dielectric 1.4 URC for URC > 1,000 VDC 1.2 URC for URC > 1,000 VDC • Capacitance range: 10 pF to 39 µF withstanding voltage Extended range: 2 URC for URC ≤ 500 VDC Extended range: Extended range: • Voltage range: 200 VDC to 10,000 VDC 1.3 URC for URC ≥ 1,000 VDC 1.5 URC for URC ≤ 500 VDC 1.5 URC for URC ≤ 500 VDC 1.2 URC for URC ≥ 1,000 VDC 1.2 URC for URC ≥ 1,000 VDC

PHYSICAL CHARACTERISTICS at 1 MHz for C ≤ 1,000 pF VOLTAGE HIGH Capacitance at 1 kHz at 1 kHz at 1 kHz for C > 1,000 pF CONSTRUCTION ≤ 0.015 (150/C + 7)% at 1 MHz Epoxy conformal coated radial leaded capacitors suited to for C ≤ 50 pF through-hole circuits. ≤ 0.15% at 1 MHz Dissipation factor ≤ 0.10% at 1 kHz ≤ 2.5% at 1 kHz MARKING for 50 pF < C ≤ 1,000 pF Series, capacitance value, tolerance, rated voltage, date code. ≤ 0.15% at 1 kHz for C > 1,000 pF Insulation resistance at 25°C ≥ 100,000 MΩ for C ≤ ≥ 20,000 MΩ for C ≤ 25 nF under U for U ≤ 500 V 10 nF RC RC ≥ 500 MΩ.µF for C > 25 nF under 500 VDC for URC > 500 V ≥ 1,000 MΩ.µF for C > 10 nF

Voltage proof body under URC for URC ≤ 1,250 VDC insulation under 1,300 VDC for URC > 1,250 VDC

HOW TO ORDER

TCF 1 82 W F 680pF 10% 4,000 V B Exxelia RoHS Series Dielectric code Quality level Capacitance Tolerance Rated voltage Reliability level size code compliant

TCF = Conformal 1 = NPO 79 - = No RoHS - = standard quality Capacitance value NPO dielectric: 200 V For F parts only. coated radial leaded 2 = X7R 90 W = RoHS level in clear ±1% 500 V Acc. to Exxelia spec. capacitor 4 = C4xx 80 compliant ±2% 1,000 V - 91 F = Hi-Rel quality: ±5% 1,500 V T5 81 screening ±10% 2,000 V T6 82 in accordance with ±20% 3,000 V Exxelia speciﬁ cation 83 C4xx dielectric: 4,000 V See page 15 84 ±2% 5,000 V 89 ±5% 7,500 V 85 ±10% 10,000 V 87 ±20% 88 Intermediary and X7R dielectric: higher voltages ±10% avai lable: contact ±20% your sales representative.

www.exxelia.com 57 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingTCF Series : dimensions High Voltage Conformal Coated Leaded Capacitors

DIMENSIONS in inches (mm) LT W

Ø > 12

STANDARD RATINGS

Exxelia 78 79 90 80 91 81 82 size code 0.249 0.256 0.256 0.315 0.319 0.394 0.414 L max. (6.3) (6.5) (6.5) (8) (8.1) (10) (10.5) 0.229 0.237 0.355 0.355 0.355 0.355 0.453 W max. (5.8) (6) (9) (9) (9) (9) (11.5) 0.2kV up to 3kV: 0.237 0.2kV up to 3kV: 0.237 0.2kV up to 3kV: 0.237 0.205 0.197 0.197 0.197 (6) (6) T max. (6) (5.2) (5) (5) (5) 4kV: 0.276 (7) 4kV: 0.276 (7) 4kV-5kV: 0.276 (7) 5kV: 0.315 (8) 5kV: 0.315 (8) 0.024 0.024 0.024 0.024 0.024 0.031 0.031 Dimensions inches (mm) Dimensions inches Ø ± 10% (0.6) (0.6) (0.6) (0.6) (0.6) (0.8) (0.8) 0.2 ± 0.02 0.2 ± 0.012 0.2 ± 0.012 0.2 ± 0.012 0.2 ± 0.012 0.3 ± 0.012 0.4 ± 0.012 X (5.08 ± 0.5) (5.08 ± 0.3) (5.08 ± 0.3) (5.08 ± 0.3) (5.08 ± 0.3) (7.62 ± 0.3) (10.16 ± 0.3) Dielectric NPO X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R Exxelia ceramic code 12142142142142142142 Min. Capacitance value 12pF 120pF 10pF 27pF 100pF 10pF 33pF 150pF 10pF 33pF 150pF 15pF 47pF 150pF 18pF 56pF 150pF 33pF 82pF 330pF Standard - - 5.6nF 120nF 220nF 12nF 220nF 470nF 12nF 220nF 390nF 15nF 330nF 560nF 18nF 390nF 820nF 33nF 680nF 1.5µF 0.2kV Extended - - 18nF - 470nF 27nF - - 22nF - 1µF 39nF - - 56nF - 1.8µF 100nF - 2.7µF Standard - - 3.3nF 22nF 47nF 6.8nF 47nF 100nF 5.6nF 47nF 100nF 6.8nF 68nF 150nF 8.2nF 82nF 220nF 22nF 120nF 390nF 0.5kV Extended - - 10nF 39nF 150nF 18nF 68nF - 18nF 68nF 270nF 22nF 100nF - 27nF 120nF 560nF 68nF 220nF 1µF Standard - - 1.8nF 6.8nF 15nF 2.7nF 12nF 24nF 2.2nF 12nF 22nF 3.3nF 18nF 33nF 3.9nF 22nF 47nF 10nF 39nF 68nF 1kV Extended 820pF 12nF 5.6nF 10nF 27nF 8.2nF 15nF - 6.8nF 15nF 56nF 10nF 22nF - 12nF 27nF 120nF 33nF 56nF 220nF )

www.exxelia.com 58 [email protected] Page revised 09/17 CERAMIC CAPACITORS

High Voltage Conformal Coated Leaded Capacitors General characteristicsTCF Series

STANDARD RATINGS

Exxelia 83 84 89 85 87 88 size code 0.552 0.689 0.701 0.788 1.221 1.772 L max. (14) (17.5) (17.8) (20) (31) (45) 0.571 0.571 0.689 0.749 0.945 0.906 W max. (14.5) (14.5) (17.5) (19) (24) (23) 0.2kV up to 3kV: 0.237 (6) 0.2kV up to 3kV: 0.237 (6) 0.2kV up to 3kV: 0.237 (6) 0.2kV up to 3kV: 0.237 (6) 0.2kV up to 3kV: 0.237 (6) 0.2kV up to 3kV: 0.237 (6) 4kV: 0.276 (7) 4kV: 0.276 (7) T max. 4kV: 0.276 (7) 4kV: 0.276 (7) 4kV: 0.276 (7) 4kV: 0.276 (7) 5kV: 0.315 (8) 5kV: 0.315 (8) 5kV up to 10kV: 0.315 (8) 5kV up to 10kV: 0.315 (8) 5kV up to 10kV: 0.315 (8) 5kV up to 10kV: 0.315 (8) 7.5kV up to 10kV: 0.335 7.5kV up to 10kV: 0.335 (8.5) (8.5)

Dimensions inches (mm) Dimensions inches 0.031 0.031 0.031 0.031 0.039 0.039 Ø ± 10% (0.8) (0.8) (0.8) (0.8) (1) (1) 0.5 ± 0.012 0.6 ± 0.012 0.6 ± 0.012 0.7 ± 0.012 1.1 ± 0.012 1.6 ± 0.012 X (12.7 ± 0.3) (15.24 ± 0.3) (15.24 ± 0.3) (17.8 ± 0.3) (27.94 ± 0.3) (40.64 ± 0.3) Dielectric NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R Exxelia ceramic code 142142142142142142 Min. Capacitance value 10pF 180pF 270pF 22pF 270pF 390pF 27pF 390pF 560pF 47pF 470pF 1nF 120pF 1nF 2.2nF 150pF 1.8nF 2.7nF HIGH VOLTAGE HIGH Standard 56nF 1.2µF 2.7µF 82nF 1.5µF 3.9µF 100nF 1.8µF 4.7µF 180nF 2.7µF 6.8µF 330nF 6.8µF 12µF 390nF 8.2µF 15µF 0.2kV Extended 180nF - 5.6µF 270nF - 6.8µF 220nF - 8.2µF 560nF - 12µF1µF-33µF 1.2µF-39µF Standard 33nF 270nF 680nF 47nF 330nF 1µF 56nF 390nF 1.2µF 82nF 680nF 1.8µF 150nF 1.5µF 3.9µF 270nF 1.8µF 4.7µF 0.5kV Extended 100nF 390nF 1.5µF 150nF 560nF 2.2µF 150nF 680nF 2.7µF 270nF 1µF 3.9µF 470nF 2.2µF 10µF 820nF 2.7µF 12µF Standard 15nF 82nF 150nF 22nF 82nF 220nF 33nF 120nF 270nF 39nF 220nF 390nF 82nF 560nF 1µF 150nF 680nF 1.2µF 1kV Extended 47nF 120nF 390nF 68nF 120nF 560nF 82nF 220nF 560nF 120nF 330nF 1µF 270nF 680nF 2.7µF 470nF 1µF 3.3µF Standard 8.2nF 39nF 82nF 12nF 39nF 100nF 15nF 68nF 150nF 22nF 100nF 180nF 47nF 220nF 470nF 68nF 330nF 560nF 1.5kV Extended 18nF 56nF 180nF 22nF 56nF 220nF 33nF 100nF 330nF 47nF 150nF 470nF 100nF 330nF 1.2µF 150nF 470nF 1.5µF )

www.exxelia.com 59 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingTKD Series : dimensions High Voltage Conformal Coated Leaded Capacitors

According to ELECTRICAL SPECIFICATIONS ESAAvailable Qualified space ranges: consult our detail DIELECTRIC NPO C4XX X7R specifi cations Dielectric code 1 4 2 Maximum ∆C/°C over temperature range without NA NA ±15% voltage Temperature coeffi cient (0±30) ppm/°C (–2,200±500) ppm/°C NA Aging None None ≤ 2.5% per decade hour Operating temperature –55°C to +125°C

250 VDC to 250 VDC to 250 VDC to Rated voltage (URC) 10,000 VDC 5,000 VDC 10,000 VDC

2.5 URC for URC = 250 VDC 2.5 URC for URC = 250 VDC FEATURES 2.5 URC for URC ≤ 500 VDC 2 URC for URC = 500 VDC 2 URC for URC = 500 VDC 1.6 URC for URC ≥ 1,000 VDC 1.5 URC for URC = 1,000 VDC 1.5 URC for URC = 1,000 VDC • Multilayer chip ceramic capacitors Dielectric Extended range: 1.4 URC for URC > 1,000 VDC 1.2 URC for URC > 1,000 VDC • NPO, C4xx and X7R dielectrics withstanding voltage 2 URC for URC ≤ 500 VDC Extended range: Extended range: • Capacitance range: 10 pF to 39 µF 1.5 U for U ≤ 500 V 1.5 U for U ≤ 500 V 1.3 URC for URC ≥ 1,000 VDC RC RC DC RC RC DC • Voltage range: 250 VDC to 10,000 VDC 1.2 URC for URC ≥ 1,000 VDC 1.2 URC for URC ≥ 1,000 VDC at 1 MHz for C ≤ 1,000 pF Capacitance at 1 kHz at 1 kHz PHYSICAL CHARACTERISTICS at 1 kHz for C > 1,000 pF ≤ 0.015 (150/C + 7)% at 1 MHz CONSTRUCTION for C ≤ 50 pF Epoxy conformal coated radial leaded capacitors suited to ≤ 0.15% at 1 MHz Dissipation factor ≤ 0.1% at 1 kHz ≤ 2.5% at 1 kHz through-hole circuits. for 50 pF < C ≤ 1,000 pF ≤ 0.15% at 1 kHz MARKING for C > 1,000 pF Series, capacitance value, tolerance, rated voltage, date code. Insulation resistance at 25°C ≥ 100,000 MΩ for C ≤ 10 nF ≥ 20,000 MΩ for C ≤ 25 nF under U for U ≤ 500 V RC RC ≥ 1,000 MΩ.µF for C > 10 nF ≥ 500 MΩ.µF for C > 25 nF under 500 VDC for URC > 500 V

DIMENSIONS in inches (mm) Voltage proof body under URC for URC ≤ 1,250 VDC LT insulation under 1,300 VDC for URC > 1,250 VDC W

Ø > 12

HOW TO ORDER

TKD 1 82 W F 680pF 10% 4,000 V B Exxelia RoHS Series Dielectric code Quality level Capacitance Tolerance Rated voltage Reliability level size code compliant

TKD = Conformal coated 1 = NPO 79 - = No RoHS - = standard quality Capacitance value NPO dielectric: 200 V For F parts only. radial leaded capacitor 2 = X7R 90 level in clear ±1% 500 V Acc. to Exxelia spec. W = RoHS 4 = C4xx 80 ±2% 1,000 V - 91 compliant F = Hi-Rel quality: ±5% 1,500 V T5 81 screening ±10% 2,000 V T6 82 in accordance with ±20% 3,000 V Exxelia speciﬁ cation 83 C4xx dielectric: 4,000 V See page 15 84 ±2% 5,000 V 89 ±5% 7,500 V 85 ±10% 10,000 V 87 ±20% Intermediary and 88 higher voltages X7R dielectric: avai lable: contact ±10% your sales ±20% representative.

www.exxelia.com 60 [email protected] Page revised 09/17 CERAMIC CAPACITORS

High Voltage Conformal Coated Leaded Capacitors General characteristicsTKD Series

STANDARD RATINGS

Exxelia 79 90 80 91 81 82 size code 0.25 0.256 0.319 0.319 0.371 0.469 L max. (6.35) (6.5) (8.1) (8.1) (9.4) (11.9) 0.221 0.355 0.296 0.355 0.327 0.414 W max. (5.6) (9) (7.5) (9) (8.3) (10.5) 0.197 0.217 0.25 0.25 0.25 0.25 T max. (5) (5.5) (6.35) (6.35) (6.35) (6.35) 0.024 0.024 0.024 0.024 0.024 0.024 Ø ± 10% (0.6) (0.6) (0.6) (0.6) (0.6) (0.6)

Dimensions inches (mm) Dimensions inches 0.169 ± 0.020 0.169 ± 0.020 0.220 ± 0.020 0.220 ± 0.020 0.276 ± 0.020 0.374 ± 0.020 X (4.3 ± 0.5) (4.3 ± 0.5) (5.6 ± 0.5) (5.6 ± 0.5) (7.0 ± 0.5) (9.5 ± 0.5) Dielectric NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R Exxelia ceramic code 142142142142142142 Min. Capacitance value 10pF 27pF 100pF 10pF 33pF 150pF 10pF 33pF 150pF 15pF 47pF 150pF 18pF 56pF 150pF 33pF 82pF 330pF Standard 5.6nF 100nF 220nF 12nF 180nF 470nF 12nF 180nF 390nF 15nF 330nF 560nF 18nF 270nF 820nF 33nF 560nF 1.5µF 0.2kV Extended 15nF - 470nF 27nF - - 22nF - 1µF 39nF - - 47nF - 1.8µF 82nF - 2.7µF Standard 3.3nF 22nF 47nF 6.8nF 47nF 100nF 5.6nF 47nF 100nF 6.8nF 68nF 150nF 8.2nF 82nF 220nF 22nF 120nF 390nF 0.5kV Extended 10nF 39nF 150nF 18nF 68nF - 18nF 68nF 270nF 22nF 100nF - 27nF 120nF 560nF 68nF 220nF 1µF Standard 1.8nF 6.8nF 15nF 2.7nF 12nF 24nF 2.2nF 12nF 22nF 3.3nF 18nF 33nF 3.9nF 22nF 47nF 10nF 39nF 68nF 1kV ) Extended 5.6nF 10nF 27nF 8.2nF 15nF - 6.8nF 15nF 56nF 10nF 22nF - 12nF 27nF 120nF 33nF 56nF 220nF RC Standard 820pF 2.7nF 5.6nF 1.2nF 5.6nF 10nF 1.5nF 5.6nF 10nF 2.2nF 8.2nF 15nF 2.7nF 10nF 18nF 4.7nF 18nF 33nF

1.5kV VOLTAGE HIGH Extended 1.5nF 3.9nF 12nF 2.2nF 8.2nF - 2.2nF 6.8nF 22nF 3.3nF 12nF - 4.7nF 15nF 47nF 8.2nF 27nF 82nF Standard 390pF 1.5nF 3.3nF 680pF 2.7nF 5.6nF 470pF 2.7nF 5.6nF 820pF 4.7nF 6.8nF 1.2nF 5.6nF 10nF 3.3nF 10nF 18nF 2kV Extended 820pF 2.2nF 5.6nF 1.2nF 3.9nF - 1nF 3.9nF 12nF 1.8nF 6.8nF - 2.7nF 8.2nF 27nF 6.8nF 15nF 47nF

Rated voltage (U voltage Rated Standard 180pF 680pF 1.2nF 180pF 1.2nF 2.2nF 220pF 1.2nF 2.2nF 330pF 1.8nF 3.3nF 470pF 2.2nF 3.9nF 820pF 3.9nF 6.8nF 3kV Extended 390pF 1nF 2.7nF 680pF 1.8nF - 470pF 1.8nF 4.7nF 820pF 2.7nF - 1nF 3.3nF 12nF 1.8nF 5.6nF 22nF Standard 100pF 330pF 680pF 120pF 680pF 1nF 150pF 820pF 1.2nF 220pF 1.2nF 1.8nF 330pF 1.5nF 2.7nF 560pF 2.7nF 4.7nF 4kV Extended 220pF 560pF - 330pF 1nF - 330pF 1.2nF 2.2nF 680pF 1.8nF - 820pF 2.2nF 4.7nF 1.5nF 3.9nF 10nF Standard ------100pF 560pF 820pF 150pF 820pF 1nF 220pF 820pF 1.5nF 390pF 1.8nF 2.7nF 5kV Extended ------220pF 820pF 1.5nF 320pF 1.2nF - 560pF 1.2nF 3.3nF 1nF 2.7nF 5.6nF

Exxelia 83 84 89 85 87 88 size code 0.569 0.67 0.701 0.77 1.221 1.772 L max. (14.45) (17) (17.8) (19.55) (31) (45) 0.504 0.552 0.689 0.749 0.945 0.906 W max. (12.8) (14) (17.5) (19) (24) (23) 0.27 0.27 0.27 0.27 0.27 0.27 T max. (6.85) (6.85) (6.85) (6.85) (6.85) (6.85) 0.024 0.024 0.024 0.024 0.024 0.024 Ø ± 10% (0.6) (0.6) (0.6) (0.6) (0.6) (0.6)

Dimensions inches (mm) Dimensions inches 0.472 ± 0.020 0.575 ± 0.020 0.575 ± 0.020 0.673 ± 0.020 1.083 ± 0.020 1.583 ± 0.020 X (12.0 ± 0.5) (14.6 ± 0.5) (14.6 ± 0.5) (17.1 ± 0.5) (27.5 ± 0.5) (40.2 ± 0.5) Dielectric NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R Exxelia ceramic code 142142142142142142 Min. Capacitance value 10pF 180pF 270pF 22pF 270pF 390pF 27pF 390pF 560pF 47pF 470pF 1nF 120pF 1nF 2.2nF 150pF 1.8nF 2.7nF Standard 56nF 1µF 2.7µF 82nF 1.2µF 3.9µF 100nF 1.5µF 4.7µF 180nF 2.7µF 6.8µF 330nF 5.6µF 12µF 390nF 8.2µF 15µF 0.2kV Extended 180nF - 5.6µF 220nF - 6.8µF 220nF - 8.2µF 470nF - 12µF1µF-33µF 1.2µF-39µF Standard 33nF 270nF 680nF 47nF 330nF 1µF 56nF 390nF 1.2µF 82nF 680nF 1.8µF 150nF 1.5µF 3.9µF 270nF 1.8µF 4.7µF 0.5kV Extended 100nF 390nF 1.5µF 150nF 560nF 2.2µF 150nF 680nF 2.7µF 270nF 1µF 3.9µF 470nF 2.2µF 10µF 820nF 2.7µF 12µF Standard 15nF 82nF 150nF 22nF 82nF 220nF 33nF 120nF 270nF 39nF 220nF 390nF 82nF 560nF 1µF 150nF 680nF 1.2µF 1kV Extended 47nF 120nF 390nF 68nF 120nF 560nF 82nF 220nF 560nF 120nF 330nF 1µF 270nF 680nF 2.7µF 470nF 1µF 3.3µF Standard 8.2nF 39nF 82nF 12nF 39nF 100nF 15nF 68nF 150nF 22nF 100nF 180nF 47nF 220nF 470nF 68nF 330nF 560nF 1.5kV ) Extended 18nF 56nF 180nF 22nF 56nF 220nF 33nF 100nF 330nF 47nF 150nF 470nF 100nF 330nF 1.2µF 150nF 470nF 1.5µF RC Standard 4.7nF 18nF 33nF 6.8nF 22nF 68nF 8.2nF 39nF 68nF 12nF 56nF 100nF 27nF 120nF 220nF 39nF 180nF 330nF 2kV Extended 10nF 27nF 100nF 15nF 33nF 150nF 18nF 56nF 150nF 27nF 82nF 220nF 56nF 180nF 560nF 82nF 270nF 820nF Standard 1.5nF 8.2nF 15nF 2.7nF 10nF 27nF 3.3nF 18nF 27nF 4.7nF 27nF 39nF 12nF 56nF 100nF 15nF 68nF 120nF 3kV Extended 3.3nF 12nF 39nF 5.6nF 15nF 56nF 10nF 22nF 68nF 10nF 39nF 100nF 27nF 82nF 270nF 33nF 100nF 330nF

Rated voltage (U voltage Rated Standard 1.2nF 5.6nF 10nF 2.2nF 6.8nF 15nF 2.7nF 12nF 18nF 3.9nF 15nF 27nF 8.2nF 39nF 68nF 12nF 47nF 100nF 4kV Extended 2.7nF 8.2nF 18nF 4.7nF 10nF 27nF 6.8nF 18nF 39nF 8.2nF 22nF 47nF 22nF 56nF 120nF 27nF 82nF 150nF Standard 1nF 3.9nF 5.6nF 1.8nF 4.7nF 10nF 1.8nF 8.2nF 12nF 3.3nF 12nF 18nF 6.8nF 22nF 56nF 6.8nF 33nF 68nF 5kV Extended 2.2nF 5.6nF 15nF 3.3nF 6.8nF 22nF 4.7nF 12nF 27nF 6.8nF 18nF 39nF 15nF 33nF 68nF 18nF 47nF 100nF Standard 150pF - 1.5nF 270pF - 2.7nF 470pF - 3.3nF 560pF - 6.8nF 1.5nF - 15nF 2.2nF - 27nF 7.5kV Extended 330pF - 3.3nF 560pF - 5.6nF 1.2nF - 6.8nF 1.2nF - 12nF 3.3nF - 33nF 4.7nF - 47nF Standard 100pF - 680pF 180pF - 1.2nF 270pF - 1.5nF 390pF - 3.3nF 1nF - 8.2nF 1.5nF - 12nF 10kV Extended 220pF - 1.8nF 390pF - 3.3nF 680pF - 3.9nF 820pF - 6.8nF 2.2nF - 15nF 3.3nF - 22nF Available capacitance values: NPO, C4xx dielectrics: E6, E12, E24 (see page 14). Specific values upon request. X7R dielectric: E6, E12 in standard (see page 14). Specific values upon request. The above table defines the standard products, other components may be built upon request.

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TapingCS Series : dimensions High Voltage Stacked Capacitors

FEATURES ELECTRICAL SPECIFICATIONS • Multilayer chip ceramic capacitors stacked DIELECTRIC NPO C4XX X7R • NPO, C4xx and X7R dielectrics • Capacitance range: 220 pF to 15 µF Dielectric code 1 4 2 • Voltage range: 1,000 VDC to 10,000 VDC Maximum ∆C/°C over temperature range without NA NA ±15% voltage PHYSICAL CHARACTERISTICS Temperature coefﬁ cient (0±30) ppm/°C (–2,200±500) ppm/°C NA Aging None None ≤ 2.5% per decade hour CONSTRUCTION Operating temperature –55°C to +125°C • P, PL, L models: DIL leaded uncoated stacked chip 1,000 VDC to 1,000 VDC to 1,000 VDC to Rated voltage (URC) capacitors for surface mounting recommended to elimi- 10,000 VDC 5,000 VDC 10,000 VDC nate thermomechanical stresses. Dielectric 1.3 URC 1.2 URC 1.2 URC • N, NU models: DIL leaded stacked chip capacitors for withstanding voltage at 1 MHz for C ≤ 1,000 pF through-hole circuits (N: varnished chips, NU: uncoated Capacitance at 1 kHz at 1 kHz chips). at 1 kHz for C > 1,000 pF ≤ 0.15% at 1 MHz • R, RU models: Ribbon leaded stacked chip capacitors for for C ≤ 1,000 pF Dissipation factor ≤ 0.10% at 1 kHz ≤ 2.5% at 1 kHz surface mounting (R: varnished chips, RU: uncoated ≤ 0.15% at 1 kHz chips) recommended to eliminate thermomechanical for C > 1,000 pF stresses. Insulation resistance at 25°C ≥ 100,000 MΩ for C ≤ 10 nF ≥ 20,000 MΩ for C ≤ 25 nF under U for U ≤ 500 V RECOMMENDED FOOTPRINT RC RC ≥ 1,000 MΩ.µF for C > 10 nF ≥ 500 MΩ.µF for C > 25 nF under 500 V for U > 500 V See general information on high voltage capacitors (see DC RC page 50). MARKING Series, capacitance value, tolerance, rated voltage, date code.

HOW TO ORDER

CS 2 84 P W F 120nF 20% 2,000 V - Dielectric Exxelia RoHS Series Leads style Quality level Capacitance Tolerance Rated voltage Reliability level code size code compliant

CS = High 1 = NPO 80 P - = No RoHS - = standard quality level Capacitance NPO dielectric: 1,000 V For F parts only. voltage 2 = X7R 81 PL value in clear ±1% 1,500 V Acc. to Exxelia spec. W = RoHS F = Hi-Rel quality: stacked 4 = C4xx 82 L compliant ±2% 2,000 V - capacitor 83 R screening ±5% 3,000 V T5 84 RU in accordance with ±10% 4,000 V T6 89 N Exxelia speciﬁ cation ±20% 5,000 V 85 NU C4xx dielectric: 7,500 V See page 15 87 ±2% 10,000 V 88 ±5% Intermediary, ±10% lower and ±20% higher voltages X7R dielectric: available: con- ±10% tact your sales ±20% representative.

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High Voltage Stacked Capacitors General characteristicsCS Series

L Model L W

DIMENSIONS in inches (mm) ) ±0.02 ±0.5 0.012 max. T 0.098 (2.5 (0.3 max.) 0.098±0.02 0.1 0.02 (2.5±0.5) (2.54) (0.5) R Model L W P Model L W

) ) ±0.012 ±0.012 ±0.3 ±0.3 T T 0.059 (1.5 0.059 (1.5 0.012 max. 0.012 (0.3 max.) 0.012 max. 0.012 (0.3 max.) R d b C 0.1 0.02 (2.54) (0.5) N Model L W PL Model L W )

) ±0.012 ± 0.01 ± 0.25 ±0.3 T 0.012 max. T 0.059 (1.5 0.071 0.071 (1.8 (0.3 max.) 0.012 max. 0.02 R C 0.1 0.02 ( у 7.5)

у 0.295 (0.3 max.) (0.5) (2.54) (0.5) X 0.1 0.098±0.02 (2.54) (2.5±0.5) STANDARD RATINGS HIGH VOLTAGE HIGH

Size 2220 2825 3333 4040 Exxelia 80 81 82 83 size code 0.224 ± 0.020 0.276 ± 0.020 0.331 ± 0.020 0.400 ± 0.039 L (5.7 ± 0.5) (7 ± 0.5) (8.4 ± 0.5) (10.16 ±1) 0.197 ± 0.020 0.250 ± 0.020 0.331 ± 0.020 0.400 ± 0.039 W (5.0 ± 0.5) (6.35 ± 0.5) (8.4 ± 0.5) (10.16 ± 1) 0.087 ± 0.008 0.087 ± 0.008 0.138 ± 0.008 0.138 ± 0.008 d (2.2 ± 0.2) (2.2 ± 0.2) (3.5 ± 0.2) (3.5 ± 0.2) 0.197 ± 0.020 0.197 ± 0.020 0.315 ± 0.020 0.315 ± 0.020 b (5 ± 0.5) (5 ± 0.5) (8 ± 0.5) (8 ± 0.5) 0.098 0.137 0.177 0.275 R min. (2.5) (3.5) (4.5) (7) C max. 0.276 0.315 0.355 0.473

Dimensions inches (mm) Dimensions inches (7) (8) (9) (12) 0.248 ± 0.020 0.300 ± 0.020 0.350 ± 0.020 0.45 ± 0.020 X (6.3 ± 0.5) (7.62 ± 0.5) (8.9 ± 0.5) (11.43 ± 0.5) Leads per side 2 2 3 4 Dielectric NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R T max. Nb. of Exxelia ceramic code 142142142142 inches (mm) chips Min. Capacitance value 220pF 820pF 1.5nF 560pF 1.5nF 3.3nF 1nF 2.7nF 6.8nF 220pF 6.8nF 1.8nF 12nF 39nF 100nF 18nF 56nF 180nF 39nF 100nF 270nF 68nF 220nF 560nF 0.394 (10) 2 18nF 68nF 150nF 27nF 82nF 270nF 56nF 150nF 390nF 100nF 330nF 1µF 0.591 (15) 3 1kV ------0.788 (20) 4 ------0.985(25)5 5.6nF 18nF 39nF 8.2nF 27nF 68nF 22nF 56nF 120nF 39nF 100nF 270nF 0.394 (10) 2 8.2nF 27nF 56nF 12nF 39nF 100nF 33nF 68nF 180nF 56nF 150nF 390nF 0.591 (15) 3 1.5kV ------0.788 (20) 4 ------0.985(25)5 3.3nF 10nF 22nF 4.7nF 18nF 39nF 8.2nF 27nF 68nF 18nF 56nF 150nF 0.394 (10) 2 4.7nF 15nF 33nF 6.8nF 27nF 68nF 12nF 39nF 120nF 27nF 82nF 220nF 0.591 (15) 3 2kV ------0.788 (20) 4 ------0.985(25)5 2.2nF 4.7nF 12nF 2.7nF 6.8nF 18nF 4.7nF 12nF 33nF 10nF 27nF 68nF 0.394 (10) 2 ) 3.3nF 6.8nF 18nF 3.9nF 10nF 27nF 6.8nF 22nF 47nF 15nF 39nF 100nF 0.591 (15) 3 RC 3kV ------0.788 (20) 4 ------0.985(25)5 1nF 2.7nF 5.6nF 1.8nF 3.3nF 12nF 3.3nF 6.8nF 22nF 5.6nF 15nF 39nF 0.394 (10) 2 1.5nF 3.9nF 8.2nF 2.7nF 4.7nF 18nF 4.7nF 10nF 33nF 8.2nF 22nF 56nF 0.591 (15) 3 4kV

Rated voltage (U voltage Rated ------0.788 (20) 4 ------0.985(25)5 560pF 1.5nF 3.9nF 1.2nF 2.2nF 8.2nF 2.2nF 3.9nF 12nF 3.9nF 8.2nF 27nF 0.394 (10) 2 820pF 2.7nF 5.6nF 1.8nF 3.3nF 12nF 3.3nF 5.6nF 18nF 5.6nF 12nF 39nF 0.591 (15) 3 5kV ------0.788 (20) 4 ------0.985(25)5 ------820pF - 8.2nF 0.394 (10) 2 ------1.2nF - 12nF 0.591 (15) 3 7.5kV ------0.788 (20) 4 ------0.985(25)5 ------560pF - 4.7nF 0.394 (10) 2 ------820pF - 6.8nF 0.591 (15) 3 10kV ------0.788 (20) 4 ------0.985(25)5

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TapingCS Series : dimensions High Voltage Stacked Capacitors

STANDARD RATINGS

Size 5440 5550 6560 11283 16080 Exxelia 84 89 85 87 88 size code 0.539 ± 0.039 0.551 ± 0.039 0.650 ± 0.039 1.122 ± 0.039 1.555 ± 0.039 L (13.7 ± 1) (14 ± 1) (16.5 ± 1) (28.5 ± 1) (39.5 ± 1) 0.400 ± 0.039 0.500 ± 0.039 0.598 ± 0.039 0.827 ± 0.039 0.756 ± 0.039 W (10.16 ± 1) (12.7 ± 1) (15.2 ± 1) (21 ± 1) (19.2 ± 1) 0.138 ± 0.008 0.138 ± 0.008 0.138 ± 0.008 0.138 ± 0.008 0.138 ± 0.008 d (3.5 ± 0.2) (3.5 ± 0.2) (3.5 ± 0.2) (3.5 ± 0.2) (3.5 ± 0.2) 0.315 ± 0.020 0.315 ± 0.020 0.591 ± 0.020 0.591 ± 0.020 0.591 ± 0.020 b (8 ± 0.5) (8 ± 0.5) (15 ± 0.5) (15 ± 0.5) (15 ± 0.5) 0.393 0.393 0.511 0.984 1.377 R min. (10) (10) (13) (25) (35)

Dimensions inches (mm) Dimensions inches 0.611 0.63 0.729 1.26 1.654 C max. (15.5) (16) (18.5) (32) (42) 0.552 ± 0.020 0.563 ± 0.020 0.7 ± 0.020 1.15 ± 0.020 1.6 ± 0.020 X (14 ± 0.5) (14.3 ± 0.5) (17.78 ± 0.5) (29.21 ± 0.5) (40.64 ± 0.5) Leads per side 4 5 6 6 6 Dielectric NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R NPO C4xx X7R T max. Nb. of Exxelia ceramic code 142142142142142 inches (mm) chips Min Capacitance value 390pF 6.8nF 3.3nF 680pF 12nF 3.9nF 820pF 18nF 6.8nF 2.2nF 39nF 15nF 3.3nF 47nF 27nF 100nF 270nF 820nF 120nF 390nF 1µF 220nF 560nF 1.8µF 470nF 1.5µF 3.9µF 560nF 1.8µF 5.6µF 0.394 (10) 2 150nF 390nF 1.2µF 180nF 560nF 1.5µF 330nF 820nF 2.7µF 680nF 2.2µF 5.6µF 820nF 2.2µF 8.2µF 0.591 (15) 3 1kV 220nF 560nF 1.8µF 270nF 820nF 2.2µF 470nF 1.2µF 3.3µF1µF 3.3µF 6.8µF 1.2µF 3.9µF 10µF 0.788 (20) 4 - - - 330nF 1µF 2.7µF 560nF 1.5µF 3.9µF 1.2µF 3.9µF 10µF 1.5µF 4.7µF 15µF 0.985 (25) 5 47nF 120nF 390nF 68nF 180nF 470nF 100nF 270nF 680nF 270nF 680nF 1.5µF 330nF 820nF 2.2µF 0.394 (10) 2 68nF 180nF 560nF 100nF 270nF 680nF 150nF 390nF 1µF 390nF 1µF 2.2µF 470nF 1.2µF 3.3µF 0.591 (15) 3 1.5kV 100nF 270nF 820nF 150nF 390nF 1µF 220nF 560nF 1.5µF 560nF 1.5µF 2.7µF 680nF 1.8µF 4.7µF 0.788 (20) 4 - - - 180nF 470nF 1.2µF 270nF 680nF 1.8µF 680nF 1.8µF 3.9µF 820nF 2.2µF 5.6µF 0.985 (25) 5 27nF 68nF 220nF 33nF 100nF 270nF 47nF 150nF 390nF 82nF 390nF 1µF 120nF 470nF 1.2µF 0.394 (10) 2 39nF 100nF 330nF 47nF 150nF 390nF 68nF 220nF 560nF 120nF 560nF 1.5µF 180nF 680nF 1.8µF 0.591 (15) 3 2kV 56nF 150nF 470nF 68nF 220nF 560nF 100nF 270nF 820nF 180nF 820nF 1.8µF 270nF 1µF 2.7µF 0.788 (20) 4 - - - 82nF 270nF 680nF 120nF 390nF 1µF 220nF 1µF 2.7µF 330nF 1.2µF 3.3µF 0.985 (25) 5 15nF 27nF 100nF 22nF 47nF 120nF 27nF 68nF 180nF 56nF 180nF 390nF 82nF 220nF 560nF 0.394 (10) 2 22nF 39nF 150nF 33nF 68nF 180nF 39nF 100nF 270nF 82nF 270nF 680nF 120nF 330nF 820nF 0.591 (15) 3 )

RC 3kV 27nF 56nF 220nF 47nF 100nF 270nF 56nF 150nF 390nF 120nF 390nF 820nF 180nF 470nF 1.2µF 0.788 (20) 4 - - - 56nF 120nF 330nF 68nF 180nF 470nF 150nF 470nF 1.2µF 220nF 560nF 1.5µF 0.985 (25) 5 8.2nF 15nF 56nF 10nF 33nF 82nF 18nF 39nF 120nF 33nF 82nF 220nF 47nF 120nF 330nF 0.394 (10) 2 12nF 22nF 82nF 15nF 47nF 120nF 27nF 56nF 180nF 47nF 120nF 330nF 68nF 180nF 470nF 0.591 (15) 3

Rated voltage (U voltage Rated 4kV 18nF 27nF 120nF 22nF 68nF 180nF 39nF 82nF 270nF 68nF 180nF 470nF 100nF 270nF 680nF 0.788 (20) 4 - - - 27nF 82nF 220nF 47nF 100nF 330nF 82nF 220nF 560nF 120nF 330nF 820nF 0.985 (25) 5 5.6nF 8.2nF 39nF 6.8nF 18nF 47nF 12nF 22nF 68nF 22nF 56nF 150nF 33nF 68nF 180nF 0.394 (10) 2 8.2nF 12nF 56nF 10nF 27nF 68nF 18nF 33nF 100nF 33nF 82nF 180nF 47nF 100nF 270nF 0.591 (15) 3 5kV 12nF 18nF 82nF 15nF 39nF 100nF 27nF 47nF 150nF 47nF 120nF 270nF 68nF 150nF 390nF 0.788 (20) 4 - - - 18nF 47nF 120nF 33nF 56nF 180nF 56nF 150nF 330nF 82nF 180nF 470nF 0.985 (25) 5 1nF - 12nF 1.5nF - 15nF 2.2nF - 22nF 5.6nF - 56nF 8.2nF - 82nF 0.394 (10) 2 1.5nF - 18nF 2.2nF - 22nF 3.3nF - 33nF 8.2nF - 82nF 12nF - 120nF 0.591 (15) 3 7.5kV 2.2nF - 27nF 2.7nF - 27nF 4.7nF - 47nF 12nF - 120nF 18nF - 180nF 0.788 (20) 4 - - - 3.9nF - 39nF 5.6nF - 56nF 15nF - 150nF 22nF - 220nF 0.985 (25) 5 680pF - 5.6nF 1nF - 6.8nF 1.5nF - 12nF 3.9nF - 27nF 5.6nF - 39nF 0.394 (10) 2 1nF - 8.2nF 1.5nF - 10nF 2.2nF - 18nF 5.6nF - 39nF 8.2nF - 56nF 0.591 (15) 3 10kV 1.5nF - 12nF 2.2nF - 15nF 2.7nF - 27nF 8.2nF - 56nF 12nF - 82nF 0.788 (20) 4 - - - 2.7nF - 18nF 3.9nF - 33nF 10nF - 68nF 15nF - 100nF 0.985 (25) 5

The high voltage parts may require varnish or encapsulation to prevent surface arcing. Available capacitance values: NPO, C4xx dielectrics: E6, E12, E24 (see page 14). Specifi c values upon request. X7R dielectric: E6, E12 in standard (see page 14). Specifi c values upon request. The above table defi nes the standard products, other components may be built upon request.

www.exxelia.com 64 [email protected] Page revised 09/17 CERAMIC CAPACITORS

Voltage Multipliers General characteristicsVM Series

FEATURES ELECTRICAL SPECIFICATIONS

• Miniaturized half wave voltage multipliers 152 VM3 302 VM4 302 VM6 602 VM6 702 VM7 • Ultra small size Part Number G2 G2 G2 G2 G2 • Highly efﬁ cient Max. AC input voltage 500 V 750 V 500 V 1,000 V 1,000 V • ITAR free PP PP PP PP PP • Uniform stress on diodes Max. DC output voltage –1,500 VDC 3,000 VDC* 3,000 VDC 6,000 VDC 7,000 VDC Typical output 0 to 100 µA 0 to 50 µA 0 to 50 µA 0 to 50 µA 0 to 25 µA current range PHYSICAL CHARACTERISTICS Typical frequency 10 to 100 kHz 10 to 100 kHz 10 to 100 kHz 10 to 100 kHz 10 to 100 kHz Number of stages 3 4 6 6 7 • Plating: Electroless nickel/immersion gold (ENIG). VOLTAGE HIGH Operating and –55°C to +125°C –55°C to +125°C –55°C to +125°C –55°C to +125°C –55°C to +125°C storage temperature Pin ﬁ nish ENIG Gold ENIG Gold ENIG Gold ENIG Gold ENIG Gold MARKING Peak wave solder Series, capacitance value. 260°C 2mn 260°C 2mn 260°C 2mn 260°C 2mn 260°C 2mn temperature

Peak reﬂ ow temp. 260°C 260°C 260°C 260°C 260°C

Floor life MSL/JDEC 2 MSL/JDEC 2 MSL/JDEC 2 MSL/JDEC 2 MSL/JDEC 2

* 6,000 VDC available by using two VM4 in series. DIMENSIONS in inches (mm) The component must be coated on the board to prevent electrical arcs.

VM3 - VM4 VM6 VM7

Ø 0.03 0.04 0.16 0.06 0.09 Ø 0.03 0.04 0.23 0.06 0.15 Ø 0.03 0.3 0.06 0.15 (Ø 0.8) (0.9) (4.06) (1.53)(2.31) General tolerance (Ø 0.8) (1.1) (5.84) (1.53) (3.81) General tolerance (Ø 0.8) (7.56) (1.53) (3.81) General tolerance ±0.01 (0.25) ±0.01 (0.25) ±0.01 (0.25) 0.02 0.02 0.02 (0.5) (0.5) (0.5) 0.06 (1.4) 0.06 0.06 (1.4) (1.4) 0.23 0.23 0.22 0.23 0.22 0.22 (5.9) (5.9) (5.9) (5.71) (5.71) (5.71)

Ø 0.03 0.04 0.16 0.06 0.09 Ø 0.03 0.04 0.23 0.06 0.15 (Ø 0.8) (0.9) (4.06) (1.53)(2.31) General tolerance (Ø 0.8) (1.1) (5.84) (1.53) (3.81) General tolerance ±0.01 (0.25) 0.05 0.05 0.05 ±0.01 (0.25) (1.27) (1.27) (1.27) 0.02 0.02 (0.5) 0.008 (0.5) 0.24 0.05 0.016 0.4 0.05 0.05 0.4 0.05 (0.2) (6.8) (1.27) (0.4) (10.12) (1.27) (1.27) (10.12) (1.27) 0.39 max. 0.13 max. 0.06 0.06 (1.4) 0.51 max. 0.13 max. (1.4) 0.6 max. 0.13 max. 0.23 0.22 0.23 0.22 (5.9)

(5.9) (9.95 max.) (3.3 max.) (5.71) (5.71) (13.55 max.) (3.3 max.) (15.25 max.) (3.3 max.) 0.05 0.05 (1.27) (1.27) Ø 0.03 0.04 0.16 0.06 0.09 0.008 0.24 0.05 0.016Ø 0.03 0.3 0.4 0.06 0.15 0.05 (Ø 0.8) (0.9) (4.06) (1.53)(2.31) General tolerance (0.2) (6.8) (1.27) (0.4)(Ø 0.8) (7.56)(10.12) (1.53) (3.81)(1.27) General tolerance ±0.01 (0.25) ±0.01 (0.25) 0.39 max. 0.13 max. 0.02

0.02 0.51 max. 0.13 max. (0.5) (0.5) (9.95 max.) (3.3 max.) (13.55 max.) (3.3 max.) 0.32 0.32 0.32 (8.1) (8.1) (8.1) 0.06 0.03 (0.8) min. 0.03 pads metallic the on free 0.03 (0.8) min. 0.03 pads metallic the on free 0.03 (0.8) min. 0.03 pads metallic the on free (1.4) 0.06 (1.4) 0.23 0.22 0.23 0.22 (5.9) (5.9) (5.71) (5.71)

VOUT AC Gnd VIN VOUT AC Gnd VIN VOUT AC Gnd VIN 0.32 0.05 0.32 0.05 (8.1) (8.1) (1.27) (1.27) 0.008 0.24 0.05 0.05 0.4 0.05 0.03 (0.8) min. 0.03 pads metallic the on free (0.2) (6.8) (1.27) (0.8) min. 0.03 pads metallic the on free (1.27) (10.12) (1.27) 0.39 max. 0.13 max. V AC Gnd V V AC0.6Gnd max. V 0.13 max. (9.95 max.) ELECTRICALAC(3.3 max.) OUT EQUIVALENTIN CIRCUITSAC AC OUT (15.25 max.) IN AC (3.3 max.)

IN AC OUT INAC IN AC OUT IN OUT OUT 0.32 0.32 (8.1) (8.1) IN OUT IN IN OUT OUT 0.03 (0.8) min. 0.03 pads metallic the on free 0.03 (0.8) min. 0.03 pads metallic the on free GND GND GND GND VM3 VM6 V AC Gnd V V AC Gnd V OUT IN GND GND GND OUT IN

AC AC AC

VIN VIN VIN IN OUT IN VIN OUT IN VIN OUT VM4 GND VM7 GND GND GND AC GND GND GND GND RL RL AC AC AC RL RL AC AC AC AC RL AC AC VOUT VOUT VOUT VOUT V OUT V VIN V VIN OUT www.exxelia.com OUT V [email protected] Page revised 09/17 65 OUT VOUT GND VOUT RL AC AC GND RL AC AC

VOUT VOUT

VOUT VOUT Ø 0.03 0.04 0.16 0.06 0.09 Ø 0.03 0.04 0.23 0.06 0.15 Ø 0.03 0.3 0.06 0.15 (Ø 0.8) (1.1) (5.84) (1.53) (3.81) General tolerance (Ø 0.8) (7.56) (1.53) (3.81) General tolerance (Ø 0.8) (0.9) (4.06) (1.53)(2.31) General tolerance ±0.01 (0.25) ±0.01 (0.25) ±0.01 (0.25) 0.02 0.02 (0.5) (0.5) 0.02 (0.5) 0.06 0.06 (1.4) (1.4) 0.06 (1.4) 0.23 0.22 0.23 0.22 (5.9) (5.9) (5.71) (5.71) 0.23 0.22 (5.9) (5.71) 0.05 0.05 (1.27) (1.27) 0.05 (1.27) 0.008 0.24 0.05 0.016 0.4 0.05 0.05 0.4 0.05 (0.2) (6.8) (1.27) (0.4) (10.12) (1.27) (1.27) (10.12) (1.27) 0.39 max. 0.13 max. 0.51 max. 0.13 max. 0.6 max. 0.13 max. (9.95 max.) (3.3 max.) (13.55 max.) (3.3 max.) (15.25 max.) (3.3 max.) 0.32

CERAMIC CAPACITORS 0.32 (8.1) (8.1) 0.32 (8.1) 0.03 (0.8) min. 0.03 pads metallic the on free 0.03 (0.8) min. 0.03 pads metallic the on free 0.03 (0.8) min. 0.03 pads metallic the on free

V AC Gnd V V AC Gnd V VOUT AC Gnd VIN OUT IN OUT IN TapingVM Series : dimensions Voltage Multipliers AC AC AC AC

TYPICALIN MULTIPLIER CIRCUITOUT IN IN OUT IN OUT OUT GND GND GND GND VM3 - VM4 VM6 VM7

V V VIN IN IN GND GND AC GND RL AC AC RL AC RL AC AC

VOUT VOUT

VOUT VOUT VOUT VOUT

2 multipliers can be mounted in series 2 multipliers can be mounted in series for a DC output up to: for a DC output up to 6000V –3000V (VM3), 6000V (VM4)

OUTPUT VOLTAGE vs INPUT VOLTAGE

VM3 VM4

–1800 –1800 1 µA –1600 10 µA 10 µA 30 µA –1600 –1400 20 µA 60 µA –1200 –1200 50 µA –1000 –1000 100 µA –800 –800 –600 –400 DC Output Voltage (V) Voltage Output DC –400 (V) Voltage Output DC –200 –200 0 0 100 200 300 400 500 600 700 100 200 300 400 500 600 700 800 900

AC Input Voltage (VPP) AC Input Voltage (VPP)

VM6 VM7

4000 8000 1 µA 0.3 µA 7000 5 µA 3 µA 3000 6000 10 µA 25 µA 25 µA 5000 2000 4000 50 µA 3000 DC Output Voltage (V) Voltage Output DC 1000 (V) Voltage Output DC 2000 1000 0 0 100 200 300 400 500 600 100 200 300 400 500 600

AC Input Voltage (VPP) AC Input Voltage (VPP)

www.exxelia.com 66 [email protected] Page revised 09/17 HIGH CAPACITANCE

GENERAL INFORMATION ...... 68 R SERIES (CHIPS) High Capacitance Chips Capacitors ...... 73 R SERIES (LEADED) Radial leaded Conformal Coated Capacitors ...... 77 TEF SERIES Radial leaded Conformal Coated Capacitors ...... 80 SC / SV SERIES High Capacitance Stacked Capacitors...... 81 CNC3X SERIES High Capacitance Stacked Capacitors...... 88 CEC5X SERIES High Capacitance Stacked Capacitors...... 90 TEP / TEV SERIES High Capacitance Stacked Capacitors...... 93 TCN8X SERIES High Capacitance Molded Stacked Capacitors ...... 95 CERAMIC CAPACITORS TapingGeneral : dimensionsInformation

These capacitors have been developed in response to demand from switched mode power supply (S.M.P.S.) and DC-DC converters manufacturers. They are particularly suitable for ﬁltering, smoothing and decoupling purpose in Hi-Rel equipments. The capacitors utilize advanced ceramic technology to achieve Hi- Rel long operating life and small size. They are designed for hybrid assemblies and low proﬁle printed circuit applications. Customized assemblies may be achieved with standard bare chip sizes mentioned in the following chapters.

TYPICAL CURVES: R Series, SC/SV Series

X DIELECTRIC: TYPICAL VOLTAGE COEFFICIENT T DIELECTRIC: TYPICAL VOLTAGE COEFFICIENT AT 25°C (FOR ALL SIZES) AT 25°C (for all sizes)

∆C/C (%) ∆C/C (%) 10 10

0 0

–10 –10

–20 –20

–30 –30

–40 –40

–50 U UR = 100V R = 200V –50 –60

–60

UR = 500V –70 U = 100V UR = 500V –70 R UR = 200V 0 50 100 150 200 250 300 350 400 450 500 –80 0 50 100 150 200 250 300 350 400 450 500 Applied voltage (VDC) Applied voltage (VDC)

X DIELECTRIC: TYPICAL TEMPERATURE T DIELECTRIC: TYPICAL TEMPERATURE COEFFICIENT WITHOUT VOLTAGE (for all sizes) COEFFICIENT WITHOUT VOLTAGE (for all sizes)

∆C/C (%) ∆C/C (%) 4 4

2 2

0 0

–2 –2

–4 –4

–6 –6

–8 –8

–10 –10 –60 –40 –20 0 20 40 60 80 100 120 –60 –40 –20 0 20 40 60 80 100 120 Temperature (°C) Temperature (°C)

UR = 100V UR = 200V UR = 500V UR = 100V UR = 200V UR = 500V

www.exxelia.com 68 [email protected] Page revised 09/17 CERAMIC CAPACITORS GeneralGeneral characteristics Information

TYPICAL CURVES: R Series, SC/SV Series

TYPICAL ESR VS FREQUENCY

ESR (ohm) 10

0.1µF 1

0.33µF

1µF 0.1

3.3µF

10µF 0.01

0.001 0.01 0.1 1 10 100 Frequency (MHz)

The ESR (Equivalent Serial Resistance) curves are given here for SMD (chips all case sizes) capacitors. Regarding the curves for the leaded capacitors, they are rather the same. ndeed, due to the resistivity of the raw material used and the wire diameters, the resistance of the wires is much lower than the ESR of the chips. So, in a ﬁrst approach, their inﬂuence can be considered as negligible.

TYPICAL ESR VS FREQUENCY F (MHz) 100

SMD 10 HIGH CAPACITANCE HIGH

Radial leaded caps

0.1 0.1 1 10 100 Capacitance (µF)

TYPICAL MAXIMUM ADMISSIBLE CURRENT VS FREQUENCY

I (ARMS) 100

10µF

3.3µF

10 1µF

0.33µF

0.1µF

1 0.10 0.1 1 10 100 Frequency (MHz)

These typical curves are an example of admissible currents for one family of chip capacitors: 501R3740X chip series. For other curves and products or for further information, please contact us. Note: for the calculations, we have considered that the terminations are directly connected to an inﬁnite heat sink. In other words, the thermal resistance of the circuit itself which depends of its type and design has not been taken into account. Moreover, the ambient temperature taken is 25°C.

www.exxelia.com 69 [email protected] Page revised 09/17 CERAMIC CAPACITORS TapingGeneral : dimensionsInformation

TYPICAL CURVES: CNC3X Series

TYPICAL TEMPERATURE COEFFICIENT MAXIMUM CURRENT VS FREQUENCY

∆C/C (%) 10 10 10 CNC 31 2,2 µF CNC 33 33 µF CNC 31 1,2 µF CNC 33 22 µF CNC 31 5,6 µF CNC 34 39 µF CNC 31 3,3 µF CNC 34 15 µF CNC 32 12 µF CNC 34 68 µF CNC 32 4,7 µF CNC 34 33 µF CNC 32 15 µF CNC 32 10 µF 5

0 5 5

–5

–10 0 5 2 2 5 3 2 0 –60 –40 –20 0 20 40 60 80 100 120 10 10 5 102 2 5 103 2 Temperature (°C) N (kHz) N (kHz)

URC = 16V DC (Typical curves for ∆θ = 20°C). URC = 25 V DC (Typical curves for ∆θ = 20°C).

TYPICAL VOLTAGE COEFFICIENT

∆C/C (%) 10 10 CNC 31 2,2 µF CNC 33 33 µF CNC 31 1,2 µF CNC 33 22 µF –5 CNC 31 5,6 µF CNC 34 39 µF CNC 31 3,3 µF CNC 34 15 µF CNC 32 12 µF CNC 34 68 µF CNC 32 4,7 µF CNC 34 33 µF CNC 32 15 µF CNC 32 10 µF

–15

5 5 –25

URC = 15V –35

URC = 25V

–45 0 2 3 0 0 5 10 5 10 15 2 20 5 10 25 2 5 102 2 5 103 2 N (kHz) Applied voltage (VDC) N (kHz) URC = 16V DC (Typical curves for ∆θ = 20°C). URC = 25 V DC (Typical curves for ∆θ = 20°C).

www.exxelia.com 70 [email protected] Page revised 09/17 CERAMIC CAPACITORS GeneralGeneral characteristics Information

I rms (A) TYPICAL CURVES: CEC5XI rms (A) Series I rms (A) 10 2 10 2 10 2 I rms (A) 5 I rms (A) 5 I rms (A) 5 NPO:10 2 CURRENT VS FREQUENCY 10 2 10 2 2 5 I rms (A) 2 5 I rms (A) 2 5 I rms (A) 2 2 2 10 10 10 10 10 10 2 2 2 5 5 5 5 5 5 10 10 10 2 2 2 2 5 2 5 2 5 10 10 10 1 1 1 2 2 2 5 5 5 5 5 5 CEC 53 CEC 515 CEC 57 CEC 54 CEC 561 CEC 58 CEC 53 CEC 551 CEC 57 68 nF 1802 nF 470 nF 100 nF 3902 nF 1 µF 47 nF 1202 nF 330 nF 2 220 nF 5605 nF 1,5 µF 2 330 nF 1,25 µF 3,3 µF 2 150 nF 4705 nF 1 µF 470 nF 1,21 µF 3,3 µFCEC 53 CEC 55 CEC 57 680 nF 2,71 µF 6,8 µFCEC 54 CEC 56 CEC 58 330 nF 1 1 F 2,2 µFCEC 53 CEC 55 CEC 57 0,1 68 nF 1800,1 nF 470 nF 100 nF 3900,1 nF 1 µF 47 nF 120 nF 330 nF 5 10 2 2 52 10 3 2 5 10 2 2 52 10 3 2 5 10 2 2 52 10 3 2 5 220 nF 560 nF 1,5 µF 5 330 nF 1,2 µF 3,3 µF 5 150 nF 470 nF 1 µF N (kHz)470 nF 1,2 µF 3,3 µF N (kHz)680 nF 2,7 µF 6,8 µF N (kHz)330 nF 1 F 2,2 µF 0,1 CEC 53 CEC 55 CEC 57 0,1 CEC 54 CEC 56 CEC 58 0,1 CEC 53 CEC 55 CEC 57 5 10 2 682 nF 1805 nF 10 3470 nF 2 5 10 2 1002 nF 3905 nF 10 3 1 µF 2 5 10 2 472 nF 1205 nF 10 3330 nF 2 URC = 63 VDC (Typical curve for ∆θ2 = 20°C). 220 nF 560 nF URC = 631,5 VNDC µF (kHz) (Typical curve for ∆θ2 = 20°C). 330 nF 1,2 µF URC = 1003,3N V µF (kHz)DC (Typical curve for ∆2θ = 20°C). 150 nF 470 nF 1N µF(kHz) 470 nF 1,2 µF 3,3 µF 680 nF 2,7 µF 6,8 µF 330 nF 1 F 2,2 µF 0,1 0,1 0,1 5 2 2 5 3 2 5 2 2 5 3 2 5 2 2 5 3 2 URC = 6310 VDC (Typical curve for ∆θ = 20°C).10 URC = 6310 VDC (Typical curve for ∆θ = 20°C).10 URC = 10010 VDC (Typical curve for ∆θ = 20°C).10 N (kHz) N (kHz) N (kHz)

URC = 63 VDC (Typical curve for ∆θ = 20°C). URC = 63 VDC (Typical curve for ∆θ = 20°C). URC = 100 VDC (Typical curve for ∆θ = 20°C). I rms (A) I rms (A) I rms (A) 10 2 10 2 10 2 I rms (A) I rms (A) I rms (A) 5 10 2 5 10 2 5 10 2 I rms (A) I rms (A) I rms (A) 5 5 5 10 2 10 2 10 2 2 2 2

5 5 5 10 2 10 2 10 2

5 102 5 102 5 102

5 5 5 CEC 54 CEC10 56 CEC 58 CEC 53 CEC10 55 CEC 57 CEC 54 CEC10 56 CEC 58 CAPACITANCE HIGH 2 2 68 nF 270 nF 0,68 µF 2 33 nF 100 nF 220 nF 47 nF 180 nF 470 nF 220 nF 820 nF 2,2 µF 120 nF 330 nF 820 nF 180 nF 680 nF 2,2 µF 470 nF 51,8 µF 4,7 µFCEC 54 CEC 56 CEC 58 220 nF 5 680 nF 1,5 µF CEC 53 CEC 55 CEC 57 330 nF 51,2 µF 3,3 µFCEC 54 CEC 56 CEC 58 1 2 1 2 1 2 5 10 2 2 5 10 3 2 68 nF 2705 nF 100,682 µF 2 5 10 3 2 33 nF 1005 nF 102202 nF 2 5 10 3 2 47 nF 180 nF 470 nF 220 nF 820 nF 2,2 µF 120 nF 330 nF 820 nF 180 nF 680 nF 2,2 µF N (kHz) N (kHz) N (kHz) CEC 47054 nF CEC 1,856 µF CEC 4,758 µF CEC 22053 nF CEC680 55 nF CEC 1,557 µF CEC 33054 nF CEC 1,256 µF CEC 3,358 µF 21 1 21 5 10 2 2 68 nF 5270 nF 10 3 0,68 µF 2 2 5 10 2 2 33 nF 5 100 nF 10 3 220 nF 2 5 10 2 2 47 nF 5180 nF 10 3 470 nF 2 URC = 100 VDC (Typical curve for ∆θ = 20°C). 220 nF 820 nF URC = 2002,2N V (kHz)DC µF (Typical curve for ∆θ = 20°C). 120 nF 330 nFURC = 200820N V (kHz)DC nF (Typical curve for ∆θ = 20°C). 180 nF 680 nF 2,2N (kHz) µF 470 nF 1,8 µF 4,7 µF 220 nF 680 nF 1,5 µF 330 nF 1,2 µF 3,3 µF 1 1 1 5 2 2 5 3 2 5 2 2 5 3 2 5 2 2 5 3 2 URC = 10010 VDC (Typical curve for ∆θ = 20°C).10 URC = 20010 VDC (Typical curve for ∆θ = 20°C).10 URC = 20010 VDC (Typical curve for ∆θ = 20°C).10 N (kHz) N (kHz) N (kHz)

URC = 100 VDC (Typical curve for ∆θ = 20°C). URC = 200 VDC (Typical curve for ∆θ = 20°C). URC = 200 VDC (Typical curve for ∆θ = 20°C). I rms (A) I rms (A) 10 2 10 2 I rms (A) I rms (A) 5 5 10 2 10 2

2 5 I rms (A) 2 5 I rms (A) 2 2 10 10 10 10 2 2 5 5 5 5 10 10 2 2 2 5 2 5 10 10 1 1 2 2 5 5 5 5 CEC 53 CEC 551 CEC 57 CEC 54 CEC 561 CEC 58 10 nF 332 nF 100 nF 18 nF 682 nF 180 nF 2 33 nF 1005 nF 270 nF 2 33 nF 2205 nF 560 nF CEC 53 CEC 55 CEC 57 CEC 54 CEC 56 CEC 58 68 nF 2201 nF 470 nF 120 nF 3901 nF 1,2 µF 0,1 10 nF 330,1 nF 100 nF 18 nF 68 nF 180 nF 5 10 2 2 52 10 3 2 5 10 2 2 52 10 3 2 5 33 nF 100 nF 270 nF 5 33 nF 220 nF 560 nF N (kHz)68 nF 220 nF 470 nF N (kHz)120 nF 390 nF 1,2 µF 0,1 CEC 53 CEC 55 CEC 57 0,1 CEC 54 CEC 56 CEC 58 5 10 2 102 nF 335 nF 10 3100 nF 2 5 10 2 182 nF 685 nF 10 3180 nF 2 2 2 URC = 500 VDC (Typical curve for ∆θ = 20°C). 33 nF 100 nF URC = 500270 NV nF DC(kHz) (Typical curve for ∆θ = 20°C). 33 nF 220 nF 560N nF (kHz) 68 nF 220 nF 470 nF 120 nF 390 nF 1,2 µF 0,1 0,1 5 U = 50010 2 V (Typical2 curve for ∆5 θ = 20°C).10 3 2 5 U = 50010 2 V (Typical2 curve for ∆5θ = 20°C).10 3 2 RC DC N (kHz) RC DC N (kHz)

URC = 500 VDC (Typical curve for ∆θ = 20°C). URC = 500 VDC (Typical curve for ∆θ = 20°C).

www.exxelia.com 71 [email protected] Page revised 09/17 8X SERIES

vs frequency

ESR (m ) 10 2 (A) 20 5 18

2 16

10 14

5 12

10 2 8 1 TCN 83 7,4 7,4 Fµ 6 5 10 µF 8X TCN 83 47 µF 4 50 V - 100 µF 2 100 µF 50 V - 47 µF 2 100 V - 10 µF 0,1 SERIES 200 V - 4,7 µF 10 2 5 10 2 2 5 10 3 2 5 10 4 0 8X 2 3 4 N (kHz) 10 2 5 10 2 5 10 2 5 10 N (kHz) SERIES vs frequency

ESR (m ) 10 2 vs (A) 20 5 frequency 18 ESR (m ) 210 2 16 (A) (A) 20 ESR (m ) 50 10 10 5 14 18 TCN 86 5 12 5 4,7 µF 2 16 10 µF 40 10 47 µF 2 10 14 100 µF 8 1 TCN 83 2 5 12 30 7,4 7,4 Fµ 6 5 10 µF 10 TCN 83 2 47 µF 4 1 50 V - 100 µF CERAMIC CAPACITORS 2 100 µF 8 50 V - 47 µF 20 1 TCN 83 2 100 V - 10 µF 5 0,1 7,4 Fµ 6 200 V - 4,7 µF 105 2 5 10 2 2 5 10 3 2 5 10 4 0 2 3 TCN 83 4 10 µF 8X 10 2 5 10 2 5 10 2 5 10 TCN 86 N (kHz) 4 10 47 µF 50 V - 1N00 (kHz) µF 50 V - 100 µF 2 50 V - 47 µF 100 µF 2 50 V - 47 µF 2 100 V - 10 µF 100 V - 10 µF TapingGeneral : dimensionsInformation 0,1 SERIES 200 V - 4,7 µF 10 2 5 10 2 2 5 10 3 2 5 10 4 0 0 200 V - 4,7 µF 0,1 2 5 2 2 5 3 2 5 4 2 5 2 2 5 3 2 5 4 10 10 2 10 3 10 4 10 10 10 10 N (kHz) 10 2 5 10 2 5 10 2 5 10 EXXELIA 8X N (kHz) N (kHz) N (kHz)

TYPICAL CURVES:vs TCN8X Series SERIES 7 frequency 7

ESR (m ) 2 (A) (A) 10 vs ESR (m ) 50 TCN83: TYPICAL EQUIVALENT SERIAL 10TCN86:20 TYPICAL EQUIVALENT SERIAL TCN87: TYPICAL EQUIVALENT SERIAL 5 RESISTANCE (ESR) VS FREQUENCY (N) RESISTANCE (ESR) VS FREQUENCYTCN 86 (N) RESISTANCE (ESR) VS FREQUENCY (N) frequency 18 5 4,7 µF 10 µF (A) (A) 2 ESR (m ) 16 40 ESR (m ) ESR (m ) 47 µF 50 2 60 10 2 10 (A) 10 TCN 87 10 20 100 µF CNC 87 P 14 TCN 86 50 V - 28 Fµ 5 2 5 CNC 87 N 100 V - 33 µF 30 TCN 87 5 125 18 4,7 µF 50 200 V - 10 µF 10 µF 40 2,2 µF 500 V - 2,2 µ 47 µF 2 2 110 16 10 µF 2 100 µF 33 µF 10 20 10 40 28 14 82 µF 1 TCN 83 30 5 5 7,4 Fµ 6 12 5 5 10 µF TCN 83 TCN 86 30 1 10 47 µF 4 10 50 V - 100 µF 50 V - 100 µF 2 20 2 2 100 µF 2 50 V - 47 µF 50 V - 47 µF 2 100 V - 10 µF 5 8 1 100 V - 10 µF 20 0,1 1 TCN 83 200 V - 4,7 µF 200 V - 4,7 µF 2 3 4 0 10 2 5 10 2 5 10 2 5 10 0 2 3 4

7,4 7,4 Fµ 8X 0,1 6 2 5 2 5 2 5 2 5 2 2 2 5 3 3 2 5 4 4 10 10 TCN 1086 10 5 1010 2 5 1010 2 5 1010 2 5 1010 10 5 EXXELIA 10N (kHz) µF TCN 83 50 V - 100 µF N (kHz) 4 N (kHz)N (kHz) 10 47 µF 2 50 V - 100 µF 50 V - 47 µF 2 100 µF 50 V - 47 µF 2 100 V - 10 µF SERIES 2 100 V - 10 µF 0 200 V - 4,7 µF 0 0,1 0,1 200 V - 4,7 µF 0,1 2 7 5 2 2 5 3 2 5 4 2 5 2 2 5 3 2 5 4 2 3 4 2 3 4 10 10 2 10 3 10 4 10 10 10 10 10 2 5 10 2 5 10 2 5 10 10 0 2 5 10 2 5 10 2 5 10 10 2 5 10 2 5 10 2 5 10 EXXELIA 10 2 5 10 2 2 5 10 3 2 5 10 4 N (kHz) N (kHz) N (kHz) 7 N (kHz) N (kHz) N (kHz) vs 7 TCN83: CURRENT (IRMS) VS FREQUENCY (N) TCN86: CURRENT7 (IRMS) VS FREQUENCY (N) TCN87: CURRENT (IRMS) VS FREQUENCY (N) frequency TYPICAL CURVES FOR ∆V≤ 20°C TYPICAL CURVES FOR ∆V≤ 20°C TYPICAL CURVES FOR ∆V≤ 20°C ESR (m ) (A) 10 2 (A) ESR (m (A)) ESR (m ) 2 60 20 1050 TCN 87 10 CNC 87 P 5 50 V - 28 Fµ 18 TCN 86 5 CNC 87 N 100 V - 33 µF 4,7 µF TCN 87 50 200 V - 10 µF 5 (A) 2 16 10 µF 40 ESR (m ) 2,2 µF 500 V - 2,2 µ 2 2 (A) 60 ESR (m ) 47 µF 10 10 µF TCN 87 10 100 µF 50 CNC33 87 µF P 14 10 10 40 50 V - 28 Fµ 5 CNC82 87 µF N 100 V - 33 µF 2 TCN 86 TCN 87 5 12 30 50 200 V - 10 µF 4,7 µF 5 2,2 µF 500 V - 2,2 µ 5 30 10 10 µF 240 10 µF 2 1 47 µF 33 µF 100 µF 210 40 8 20 82 µF 1 TCN 83 20 5 2 1 7,4 7,4 Fµ 6 530 5 30 10 µF TCN 83 5 TCN 86 4 10 47 µF 1 50 V - 100 µF 2 50 V - 100 µF 10 2 100 µF 50 V - 47 µF 50 V - 47 µF 22 2 20 100 V - 10 µF 1 100 V - 10 µF 20 0,1 200 V - 4,7 µF 2 3 4 5 200 V - 4,7 µF 0 10 2 5 10 2 5 10 2 5 10 0 0,10 2 3 4 0,1 2 5 2 2 5 3 2 5 4 2 5 2 2 2 5 33 2 5 44 10 2 5 10 2 5 10 2 5 10 10 10 2 10 3 10 4 10105 2 5 1010 2 5 1010 2 5 1010 N (kHz) 10 2 5 10 2 5 10 2 5 10 TCN 86 EXXELIA N (kHz) N (kHz) 10 NN (kHz)(kHz) 10 N (kHz) 50 V - 100 µF 2 2 50 V - 47 µF 100 V - 10 µF 0 0,1 2 5 2 2 5 3 2 5 4 100 2 7 5 10 2 2 2005 V - 10 34,7 µF2 5 10 4 10 10 10 10 0,1 2 5 2 2 5 3 2 5 4 2 3 4 10 10 10 10 N (kHz) 2 5 2 5 2 5 N (kHz) EXXELIA 10 7 10 10 10 N (kHz) N (kHz) 7 7

ESR (m(A) ) (A) ESR (m ) 50 60 10 10 2 TCN 87 CNC 87 P TCN 86 50 V - 28 Fµ 5 CNC 87 N 100 V - 33 µF TCN 87 5 4,7 µF 50 200 V - 10 µF 10 µF 40 2,2 µF 500 V - 2,2 µ 47 µF 2 ESR (m ) 10 µF (A) 60 100 µF 10 2 33 µF TCN 87 10 CNC 87 P 40 2 82 µF 50 V - 28 Fµ 30 5 CNC 87 N 100 V - 33 µF 5 TCN 87 50 200 V - 10 µF 2,2 µF 30 500 V - 2,2 µ 1 2 10 µF 20 2 33 µF 10 82 µF 40 5 1 20 5 TCN 86 10 5 30 50 V - 100 µF 10 2 2 50 V - 47 µF 2 100 V - 10 µF 0 1 200 V - 4,7 µF 0 20 0,1 2 3 4 2 3 4 0,1 2 5 2 2 5 3 2 5 4 2 5 2 5 2 5 2 3 4 10 10 10 10 10 10 10 10 10 2 5 10 2 5 10 2 5 10 10 2 5 10 2 5 10 2 5 10 EXXELIA 5 N (kHz) N (kHz) N (kHz) N (kHz) 10 2 www.exxelia.com 72 [email protected] Page revised 09/17 7 0 0,1 2 5 2 2 5 3 2 5 4 7 10 2 5 10 2 2 5 10 3 2 5 10 4 10 10 10 10 N (kHz) N (kHz)

ESR (m ) (A) 60 10 2 TCN 87 CNC 87 P 50 V - 28 Fµ 5 CNC 87 N 100 V - 33 µF TCN 87 50 200 V - 10 µF 2,2 µF 500 V - 2,2 µ 2 10 µF 33 µF 10 82 µF 40

5 30

1 20

5 10 2 0 0,1 2 5 2 2 5 3 2 5 4 10 2 5 10 2 2 5 10 3 2 5 10 4 10 10 10 10 N (kHz) N (kHz) CERAMIC CAPACITORS

High Capacitance Chips Capacitors GeneralR characteristics Series (Chips)

FEATURES ELECTRICAL SPECIFICATIONS

RE• Multilayer chip ceramicCHIPS capacitors Description «X» Series (type II) «T» Series (type II) • Dielectric type II CECC 2R1 2R1 • Capacitance range: 47 nF to 27 µF EIA X7R X7R • Voltage range: 50 VDC to 500 VDC Exxelia Temex Code X T

Operating temperature range –55°C to +125°C –55°C to +125°CCHIPS SERIES PACKAGING Storage temperature range –55°C to +125°C –55°C to +125°C Maximun ∆C/°C over Temperature ± 15% ± 15% «BLISTER» BOXES: range without voltage applied For all products, special «blister» boxes are used to optimize Ageing ≤2.5% per decade hour ≤2.5% per decade hour ERESthe protection of the parts during the carriage and the stor- Dissipation Factor (DF) ≤ 2.5% ≤ 2.5% age. Depending upon the termination (with or without con- U ≤ 200 V: 2.5 x U U ≤ 200 V: 2.5 x U nection) and the size, the number of the parts in each box Voltage proof R R R R The SMD or chips components are the basis capacitors of all the leadedUR > 200assemblies. V: 2.0 x UR GenerallyUR > 200 V: 2.0 x UR is deﬁ ned. Please, consult us for more details. not used as chips especially for the sizes aboveInsulation 2229 Resistance for soldering reasons100GΩ or 1000Ω.F (cf the soldering100GΩ or 1000Ω.F recommendation), the tables hereunder are given(IR) at for 25°C underthe Ur capacitance rangewhichever isand the less the thicknesswhichever of is the less Insulation Resistance 10GΩ or 100Ω.F 10GΩ or 100Ω.F these basis capacitors. (IR) at 125°C under Ur whichever is the less whichever is the less HIGH CAPACITANCE HIGH Measurement Conditions ≤ 100pF: 1MHz / 1Vrms (no bias) ≤ 100pF: 1MHz / 1Vrms (no bias) for C and DF at 20°C > 100pF: 1KHz / 1Vrms (no bias) > 100pF: 1KHz / 1Vrms (no bias) IESISDIMENSIONS in inches (mm) Capacitance versus applied See page 68 See page 68 Voltage and Temperature

SR RIS InsérerHOW TO ORDER

501 R 6560 X 105 K P - -RoHS Rated Exxelia Series Dielectric code Capacitance Tolerance Termination Coating RoHS compliant Hvoltage RER size code

500: 50 V R: High Capacitance 2225 X = X7R 1st two digits represent K = ±10% Not applicable - = Not RoHS compliant rer er o eto 3 How to order P Ag, non magnetic. 101: 100 V Chips 3033 T = X7R signifi cant fi gures; last M = ±20% For P termination, (RoHS) Lead status: 0% Pb. 201: 200 V 3740 digit specifi es the number only the RoHS version exists. 501: 500 V 5440 of zeros to follow. The RoHS suffi x can be added 5550 P termination with 6560 Examples: for information. T Sn/Pb/Ag solder dip- reserves the right to modify herein specifications and information at any time when necessary to provide optimum performance and cost. 6080 104: 0.1µF ping, non magnetic 8060 335: 3.3µF (not RoHS) 45107 276: 27µF Lead status: 36% Pb. EXXELIA

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TapingR Series : dimensions (Chips) High Capacitance Chips Capacitors

STANDARD RATINGS

Exxelia 2225 3033 3740 size code )

0.224 ± 0.016 0.291 ± 0.02 0.378 ± 0.02 R L (5.7 ± 0.4) (7.4 ± 0.5) (9.6 ± 0.5) 0.252 ± 0.016 0.315 ± 0.02 0.386 ± 0.02 W (6.4 ± 0.4) (8 ± 0.5) (9.8 ± 0.5)

BW min. 0.112 0.019 0.019 Dimensions inches (mm) inches (0.3) (0.5) (0.5) 0.056 0.079 0.079 BW max. (1.4) (2) (2) Capacitance value coded (C value Capacitance Ur 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V Dielectric XTXTXTXTXTXTXTXTXTXTXTXT 0.119 47 nF 473 (3) 0.119 56 563 (3) 0.119 68 683 (3) 0.119 82 823 (3) 0.071 0.119 0.091 0.099 0.103 0.119 100 104 (1.8) (3) (2.3) (2.5) (2.6) (3) 0.071 0.119 0.091 0.099 0.103 0.119 120 124 (1.8) (3) (2.3) (2.5) (2.6) (3) 0.079 0.130 0.091 0.099 0.103 0.119 150 154 (2) (3.3) (2.3) (2.5) (2.6) (3) 0.071 0.071 0.079 0.150 0.103 0.126 0.103 0.079 0.119 0.103 180 184 (1.8) (1.8) (2) (3.8) (2.6) (3.2) (2.6) (2.1) (3) (2.6) 0.071 0.071 0.099 0.177 0.111 0.126 0.103 0.079 0.119 0.103 220 224 (1.8) (1.8) (2.5) (4.5) (2.8) (3.2) (2.6) (2.1) (3) (2.6) 0.071 0.071 0.099 0.091 0.123 0.079 0.138 0.103 0.079 0.119 0.103 270 274 (1.8) (1.8) (2.5) (2.3) (3.1) (2.1) (3.5) (2.6) (2.1) (3) (2.6) 0.071 0.071 0.119 0.091 0.079 0.079 0.079 0.165 0.111 0.079 0.079 0.079 0.130 0.103 330 334 (1.8) (1.8) (3) (2.3) (2.1) (2.1) (2.1) (4.2) (2.8) (2.1) (2.1) (2.1) (3.3) (2.6) 0.071 0.071 0.119 0.091 0.079 0.079 0.079 0.123 0.079 0.079 0.079 0.138 0.103 390 394 (1.8) (1.8) (3) (2.3) (2.1) (2.1) (2.1) (3.1) (2.1) (2.1) (2.1) (3.5) (2.6) 0.071 0.071 0.130 0.091 0.079 0.079 0.079 0.091 0.138 0.079 0.079 0.079 0.158 0.103 470 474 (1.8) (1.8) (3.3) (2.3) (2.1) (2.1) (2.1) (2.3) (3.5) (2.1) (2.1) (2.1) (4) (2.6) 0.079 0.079 0.154 0.099 0.079 0.079 0.099 0.091 0.079 0.079 0.079 0.169 0.115 560 564 (2) (2) (3.9) (2.5) (2.1) (2.1) (2.5) (2.3) (2.1) (2.1) (2.1) (4.3) (2.9) 0.079 0.091 0.079 0.091 0.122 0.079 0.079 0.119 0.091 0.079 0.079 0.099 0.134 680 684 (2) (2.3) (2) (2.3) (3.1) (2.1) (2.1) (3) (2.3) (2.1) (2.1) (2.5) (3.4) 0.079 0.091 0.079 0.091 0.126 0.079 0.079 0.138 0.095 0.079 0.079 0.099 0.091 0.150 820 824 (2) (2.3) (2) (2.3) (3.2) (2.1) (2.1) (3.5) (2.4) (2.1) (2.1) (2.5) (2.3) (3.8) 0.087 0.091 0.087 0.091 0.099 0.099 0.103 0.079 0.079 0.119 0.091 1 µF 105 (2.2) (2.3) (2.2) (2.3) (2.5) (2.5) (2.6) (2.1) (2.1) (3) (2.3) 0.099 0.091 0.099 0.091 0.099 0.099 0.115 0.079 0.079 0.138 0.091 1.2 125 (2.5) (2.3) (2.5) (2.3) (2.5) (2.5) (2.9) (2.1) (2.1) (3.5) (2.3) 0.119 0.091 0.119 0.091 0.111 0.091 0.111 0.091 0.134 0.079 0.091 0.079 0.091 0.158 0.103 1.5 155 (3) (2.3) (3) (2.3) (2.8) (2.3) (2.8) (2.3) (3.4) (2.1) (2.3) (2.1) (2.3) (4) (2.6) 0.126 0.091 0.126 0.091 0.111 0.091 0.111 0.091 0.099 0.091 0.099 0.091 0.181 0.111 1.8 185 (3.2) (2.3) (3.2) (2.3) (2.8) (2.3) (2.8) (2.3) (2.5) (2.3) (2.5) (2.3) (4.6) (2.8) 0.315 0.103 0.315 0.103 0.111 0.091 0.111 0.091 0.099 0.091 0.099 0.091 0.126 2.2 225 (3.8) (2.6) (3.8) (2.6) (2.8) (2.3) (2.8) (2.3) (2.5) (2.3) (2.5) (2.3) (3.2) 0.115 0.115 0.130 0.095 0.130 0.095 0.111 0.091 0.111 0.091 0.142 2.7 275 (2.9) (2.9) (3.3) (2.4) (3.3) (2.4) (2.8) (2.3) (2.8) (2.3) (3.6) 0.126 0.126 0.150 0.099 0.150 0.099 0.111 0.091 0.111 0.091 3.3 335 (3.2) (3.2) (3.8) (2.5) (3.8) (2.5) (2.8) (2.3) (2.8) (2.3) 0.111 0.111 0.130 0.091 0.130 0.091 3.9 395 (2.8) (2.8) (3.3) (2.3) (3.3) (2.3) 0.123 0.123 0.138 0.091 0.138 0.091 4.7 475 (3.1) (3.1) (3.5) (2.3) (3.5) (2.3) 0.142 0.103 0.142 0.103 5.6 565 (3.6) (2.6) (3.6) (2.6) 0.119 0.119 6.8 685 (3) (3) 0.142 0.142 8.2 825 (3.6) (3.6) 0.150 0.150 10 106 (3.8) (3.8)

12 126

The thickness Tmax in inches (in mm) is indicated in the cells.

www.exxelia.com 74 [email protected] Page revised 09/17 CERAMIC CAPACITORS

High Capacitance Chips Capacitors GeneralR characteristics Series (Chips)

STANDARD RATINGS

Exxelia 5550 6560 6080 size code ) 0.539 ± 0.02 0.665 ± 0.032 0.591 ± 0.032 R L (13.7 ± 0.5) (16.9 ± 0.8) (15 ± 0.8) 0.484 ± 0.02 0.610 ± 0.032 0.778 ± 0.0322 W (12.3 ± 0.5) (15.5 ± 0.8) (19.8 ± 0.8)

BW min. 0.019 0.019 0.019

Dimensions (0.5) (0.5) (0.5) inches (mm) inches 0.079 0.079 0.079 BW max. (2) (2) (2) Capacitance value coded (C value Capacitance UR 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V Dielectric XTXTXTXTXTXTXTXTXTXTXTXT 0.099 0.103 0.099 0.103 270 nF 274 (2.5) (2.6) (2.5) (2.6)

0.099 0.103 0.099 0.103 330 334 (2.5) (2.6) (2.5) (2.6)

0.099 0.103 0.099 0.103 390 394 (2.5) (2.6) (2.5) (2.6)

0.119 0.103 0.099 0.103 470 474 (3) (2.6) (2.5) (2.6)

0.119 0.103 0.099 0.099 0.103 560 564 (3) (2.6) (2.5) (2.5) (2.6)

0.119 0.103 0.099 0.099 0.103 0.119 0.103 680 684 (3) (2.6) (2.5) (2.5) (2.6) (3) (2.6)

0.119 0.138 0.103 0.099 0.119 0.103 0.119 0.103 820 824 (3) (3.5) (2.6) (2.5) (3) (2.6) (3) (2.6)

0.099 0.099 0.119 0.166 0.111 0.099 0.099 0.099 0.103 0.119 0.103 0.119 0.103 1 µF 105 (2.5) (2.5) (3) (4.2) (2.8) (2.5) (2.5) (2.5) (2.6) (3) (2.6) (3) (2.6)

0.099 0.099 0.119 0.103 0.185 0.130 0.099 0.099 0.099 0.103 0.138 0.103 0.138 0.103 1.2 125 (2.5) (2.5) (3) (2.6) (4.7) (3.3) (2.5) (2.5) (2.5) (2.6) (3.5) (2.6) (3.5) (2.6)

0.099 0.099 0.119 0.103 0.142 0.099 0.099 0.099 0.103 0.158 0.119 0.119 0.158 0.103 1.5 155 (2.5) (2.5) (3) (2.6) (3.6) (2.5) (2.5) (2.5) (2.6) (4) (3) (3) (4) (2.6) HIGH CAPACITANCE HIGH 0.099 0.099 0.119 0.103 0.162 0.099 0.099 0.099 0.103 0.178 0.119 0.119 0.178 0.103 1.8 185 (2.5) (2.5) (3) (2.6) (4.1) (2.5) (2.5) (2.5) (2.6) (4.5) (3) (3) (4.5) (2.6)

0.099 0.099 0.119 0.103 0.099 0.099 0.099 0.103 0.130 0.119 0.103 0.178 0.103 2.2 225 (2.5) (2.5) (3) (2.6) (2.5) (2.5) (2.5) (2.6) (3.3) (3) (2.6) (4.5) (2.6)

0.099 0.099 0.138 0.103 0.099 0.103 0.099 0.103 0.119 0.103 0.150 0.119 0.103 0.130 2.7 275 (2.5) (2.5) (3.5) (2.6) (2.5) (2.6) (2.5) (2.6) (3) (2.6) (3.8) (3) (2.6) (3.3)

0.099 0.103 0.099 0.103 0.158 0.111 0.099 0.103 0.099 0.103 0.119 0.103 0.170 0.119 0.103 0.154 3.3 335 (2.5) (2.6) (2.5) (2.6) (4) (2.8) (2.5) (2.6) (2.5) (2.6) (3) (2.6) (4.3) (3) (2.6) (3.9)

0.099 0.103 0.099 0.103 0.123 0.099 0.103 0.099 0.103 0.138 0.103 0.119 0.119 0.138 0.103 0.174 3.9 395 (2.5) (2.6) (2.5) (2.6) (3.1) (2.5) (2.6) (2.5) (2.6) (3.5) (2.6) (3) (3) (3.5) (2.6) (4.4)

0.119 0.103 0.119 0.103 0.138 0.099 0.103 0.099 0.103 0.158 0.103 0.119 0.119 0.158 0.103 4.7 475 (3) (2.6) (3) (2.6) (3.5) (2.5) (2.6) (2.5) (2.6) (4) (2.6) (3) (3) (4) (2.6)

0.119 0.103 0.119 0.103 0.162 0.099 0.103 0.099 0.103 0.115 0.119 0.119 0.158 0.103 5.6 565 (3) (2.6) (3) (2.6) (4.1) (2.5) (2.6) (2.5) (2.6) (2.9) (3) (3) (4) (2.6)

0.119 0.103 0.119 0.103 0.099 0.103 0.099 0.103 0.130 0.119 0.103 0.119 0.103 0.178 0.119 6.8 685 (3) (2.6) (3) (2.6) (2.5) (2.6) (2.5) (2.6) (3.3) (3) (2.6) (3) (2.6) (4.5) (3)

0.138 0.103 0.138 0.103 0.119 0.103 0.119 0.103 0.150 0.119 0.103 0.119 0.103 0.142 8.2 825 (3.5) (2.6) (3.5) (2.6) (3) (2.6) (3) (2.6) (3.8) (3) (2.6) (3) (2.6) (3.6)

0.150 0.103 0.150 0.103 0.119 0.103 0.119 0.103 0.138 0.103 0.138 0.103 0.150 10 106 (3.8) (2.6) (3.8) (2.6) (3) (2.6) (3) (2.6) (3.5) (2.6) (3.5) (2.6) (3.8)

0.158 0.111 0.158 0.111 0.138 0.103 0.138 0.103 0.138 0.103 0.138 0.103 12 126 (4) (2.8) (4) (2.8) (3.5) (2.6) (3.5) (2.6) (3.5) (2.6) (3.5) (2.6)

0.126 0.126 0.158 0.103 0.158 0.103 0.138 0.103 0.138 0.103 15 156 (3.2) (3.2) (4) (2.6) (4) (2.6) (3.5) (2.6) (3.5) (2.6)

0.103 0.103 0.103 0.103 18 186 (2.6) (2.6) (2.6) (2.6)

0.119 0.119 0.111 0.111 22 226 (3) (3) (2.8) (2.8)

0.142 0.142 0.130 0.130 27 276 (3.6) (3.6) (3.3) (3.3)

The thickness Tmax in inches (in mm) is indicated in the cells.

www.exxelia.com 75 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingR Series : dimensions (Chips) High Capacitance Chips Capacitors

STANDARD RATINGS

Exxelia 8060 45107 size code ) 0.78 ± 0.032 0.425 ± 0.02 R L (19.8 ± 0.8) (10.8 ± 0.5) 0.587 ± 0.032 1.083 max W (14.9 ± 0.8) (27.5 max)

BW min. 0.019 0.019

Dimensions (0.5) (0.5) inches (mm) inches 0.079 0.079 BW max. (2) (2) Capacitance value coded (C value Capacitance UR 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V Dielectric XTXTXTXTXTXTXTXT

270 nF 274

330 334

390 394

470 474

560 564

0.119 0.103 0.138 0.123 680 684 (3) (2.6) (3.5) (3.1)

0.119 0.103 0.119 0.119 0.138 0.123 820 824 (3) (2.6) (3) (3) (3.5) (3.1)

0.119 0.103 0.119 0.119 0.119 0.119 0.150 0.123 1 µF 105 (3) (2.6) (3) (3) (3) (3) (3.8) (3.1)

0.138 0.103 0.119 0.119 0.119 0.119 0.150 0.123 1.2 125 (3.5) (2.6) (3) (3) (3) (3) (3.8) (3.1)

0.119 0.158 0.103 0.119 0.119 0.119 0.119 0.119 0.119 0.158 0.123 1.5 155 (3) (4) (2.6) (3) (3) (3) (3) (3) (3) (4) (3.1)

0.119 0.178 0.103 0.119 0.119 0.119 0.119 0.119 0.119 0.178 0.123 1.8 185 (3) (4.5) (2.6) (3) (3) (3) (3) (3) (3) (4.5) (3.1)

0.119 0.103 0.178 0.103 0.119 0.119 0.119 0.119 0.138 0.119 0.123 2.2 225 (3) (2.6) (4.5) (2.6) (3) (3) (3) (3) (3.5) (3) (3.1)

0.119 0.103 0.130 0.119 0.119 0.119 0.119 0.150 0.119 0.123 2.7 275 (3) (2.6) (3.3) (3) (3) (3) (3) (3.8) (3) (3.1)

0.119 0.103 0.154 0.119 0.119 0.119 0.119 0.158 0.119 0.158 3.3 335 (3) (2.6) (3.9) (3) (3) (3) (3) (4) (3) (4)

0.119 0.119 0.138 0.103 0.174 0.119 0.119 0.119 0.119 0.158 0.119 3.9 395 (3) (3) (3.5) (2.6) (4.4) (3) (3) (3) (3) (4) (3)

0.119 0.119 0.158 0.103 0.119 0.119 0.119 0.119 0.158 0.119 4.7 475 (3) (3) (4) (2.6) (3) (3) (3) (3) (4) (3)

0.119 0.119 0.158 0.103 0.119 0.119 0.119 0.119 0.119 5.6 565 (3) (3) (4) (2.6) (3) (3) (3) (3) (3)

0.119 0.103 0.119 0.103 0.178 0.119 0.119 0.119 0.119 0.119 0.158 6.8 685 (3) (2.6) (3) (2.6) (4.5) (3) (3) (3) (3) (3) (4)

0.119 0.103 0.119 0.103 0.142 0.119 0.119 0.119 0.119 8.2 825 (3) (2.6) (3) (2.6) (3.6) (3) (3) (3) (3)

0.138 0.103 0.138 0.103 0.150 0.138 0.119 0.138 0.119 10 106 (3.5) (2.6) (3.5) (2.6) (3.8) (3.5) (3) (3.5) (3)

0.138 0.103 0.138 0.103 0.138 0.119 0.138 0.119 12 126 (3.5) (2.6) (3.5) (2.6) (3.5) (3) (3.5) (3)

0.138 0.103 0.138 0.103 0.138 0.119 0.138 0.119 15 156 (3.5) (2.6) (3.5) (2.6) (3.5) (3) (3.5) (3)

0.103 0.103 0.119 0.119 18 186 (2.6) (2.6) (3) (3)

0.111 0.111 0.119 0.119 22 226 (2.8) (2.8) (3) (3)

0.130 0.130 27 276 (3.3) (3.3)

The thickness Tmax in inches (in mm) is indicated in the cells.

www.exxelia.com 76 [email protected] Page revised 09/17 CERAMIC CAPACITORS

Radial Leaded Conformal Coated Capacitors GeneralR Seriescharacteristics (Leaded)

RI EE CR CEFEATURES ELECTRICAL SPECIFICATIONS R

• Multilayer conformal coated radial ceramic capacitors Description «X» Series «T» Series • Dielectric type II SERIES CECC 2R1 2R1 • Capacitance range: 47 nF to 27 µF EIA X7R X7R • Voltage range: 50 VDC to 500 VDC Exxelia Temex Code X T Operating temperature range –55°C to +125°C –55°C to +125°C PACKAGING Storage temperature range –55°C to +125°C –55°C to +125°C Maximun ∆C/°C over Temperature ERES ± 15% ± 15% «BLISTER» BOXES: range without voltage applied oetedFor all products, special wre «blister» boxestee are usedooet to optimize eAgeing o oe ≤2.5% per decade hour wre ≤2.5% per decade hour tertothe protection ofe the parts duringte thert carriage eret and the stor- teDissipation to Factor (DF)de e to≤ 2.5% wttd ≤ 2.5% age. Depending upon the termination (with or without con- U ≤ 200 V: 2.5 x U U ≤ 200 V: 2.5 x U eerenection) eroet and the size, the number odto of the parts in eacho box Voltage proof rto Reo otR R R UR > 200 V: 2.0 x UR UR > 200 V: 2.0 x UR edis deﬁ ned. to Please, rotet consult uste for morert details. te rt re red Insulation Resistance 100GΩ or 1000Ω.F 100GΩ or 1000Ω.F (IR) at 25°C under Ur whichever is the less whichever is the less Insulation Resistance 10GΩ or 100Ω.F 10GΩ or 100Ω.F DIMENSIONS in inches (mm) (IR) at 125°C under Ur whichever is the less whichever is the less IESIS CAPACITANCE HIGH Measurement Conditions ≤ 100pF: 1MHz / 1Vrms (no bias) ≤ 100pF: 1MHz / 1Vrms (no bias) for C and DF at 20°C > 100pF: 1KHz / 1Vrms (no bias) > 100pF: 1KHz / 1Vrms (no bias) Capacitance versus applied See page 68 See page 68 Voltage and Temperature H MARKING Size Marking codes Example Cap code + Tolerance code 103M ≤ 2225 Rated voltage value 100 V «TA» logo TA > 2225 Cap code + Tolerance code 103M Rated voltage value 100 V

eo e Note: the marking is only available for leaded capacitors.

SRHOW TO ORDER RIS 501 R 6560 X 105 K R - -RoHS Rated Exxelia rer er oSeries eto teDielectric code CapacitancereTolerance Termination Coating RoHS compliant voltage size code

500: 50 V R: Radial leaded 2225 X = X7R 1st two digits represent K = ±10% 100% tinned copper, non Not applicable - = Not RoHS compliant 101: 100 V 2 wires, epoxy coated. 3033 T = X7R signifi cant fi gures; last M = ±20% R magnetic. RI (RoHS) Both RoHS and non-RoHS 201: 200 V 3740 digit specifi es the number Lead status: 0% Pb. versions exist. This is due to 501: 500 V 5440 of zeros to follow. the wishes of some customers 5550 Sn (70%) Pb (30%) plated who still need non-RoHS com- 6560 Examples: Copper, non magnetic. ponents in their applications. rer er o eto6080 r104: 0.1µF R (not RoHS) Lead status: Pb 30% of the This suffi x must be required 8060 335: 3.3µF for RoHS compliancy. 45107 276: 27µF plated layer H RER www.exxelia.com 77 [email protected] Page revised 09/17 rer er o eto How to order reserves the right to modify herein specifications and information at any time when necessary to provide optimum performance and cost. EXXELIA CERAMIC CAPACITORS

TapingR Series : dimensions (Leaded) Radial Leaded Conformal Coated Capacitors

STANDARD RATINGS

Exxelia 2225 3033 3740

size code ) 0.300 0.434 0.500 R W max. (7.6) (11.0) (12.7) 0.386 0.434 0.485 H max. (9.8) (11.0) (12.3)

LS 0.2 ± 0.02 0.2 ± 0.02 0.402 ± 0.02

Dimensions (5.08 ± 0.5) (5.08 ± 0.5) (10.2 ± 0.5) inches (mm) inches 0.020 0.020 0.024 D ±10% (0.5) (0.5) (0.6) Capacitance value coded (C value Capacitance UR 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V Dielectric XTXTXTXTXTXTXTXTXTXTXTXT 0.170 47 nF 473 (4.3) 0.170 56 563 (4.3) 0.170 68 683 (4.3) 0.170 82 823 (4.3) 0.123 0.170 0.142 0.15 0.154 0.17 100 104 (3.1) (4.3) (3.6) (3.8) (3.9) (4.3) 0.123 0.170 0.142 0.15 0.154 0.17 120 124 (3.1) (4.3) (3.6) (3.8) (3.9) (4.3) 0.130 0.181 0.142 0.15 0.154 0.17 150 154 (3.3) (4.6) (3.6) (3.8) (3.9) (4.3) 0.123 0.123 0.130 0.201 0.154 0.178 0.154 0.134 0.17 0.154 180 184 (3.1) (3.1) (3.3) (5.1) (3.9) (4.5) (3.9) (3.4) (4.3) (3.9) 0.123 0.123 0.150 0.229 0.162 0.178 0.154 0.134 0.17 0.154 220 224 (3.1) (3.1) (3.8) (5.8) (4.1) (4.5) (3.9) (3.4) (4.3) (3.9) 0.123 0.123 0.150 0.142 0.173 0.134 0.189 0.154 0.134 0.17 0.154 270 274 (3.1) (3.1) (3.8) (3.6) (4.4) (3.4) (4.8) (3.9) (3.4) (4.3) (3.9) 0.123 0.123 0.170 0.142 0.134 0.134 0.134 0.217 0.162 0.134 0.134 0.134 0.182 0.154 330 334 (3.1) (3.1) (4.3) (3.6) (3.4) (3.4) (3.4) (5.5) (4.1) (3.4) (3.4) (3.4) (4.6) (3.9) 0.123 0.123 0.170 0.142 0.134 0.134 0.134 0.174 0.134 0.134 0.134 0.189 0.154 390 394 (3.1) (3.1) (4.3) (3.6) (3.4) (3.4) (3.4) (4.4) (3.4) (3.4) (3.4) (4.8) (3.9) 0.123 0.123 0.181 0.142 0.134 0.134 0.134 0.142 0.189 0.134 0.134 0.134 0.209 0.154 470 474 (3.1) (3.1) (4.6) (3.6) (3.4) (3.4) (3.4) (3.6) (4.8) (3.4) (3.4) (3.4) (5.3) (3.9) 0.130 0.130 0.205 0.150 0.134 0.134 0.15 0.142 0.134 0.134 0.134 0.221 0.166 560 564 (3.3) (3.3) (5.2) (3.8) (3.4) (3.4) (3.8) (3.6) (3.4) (3.4) (3.4) (5.6) (4.2) 0.130 0.142 0.130 0.142 0.173 0.134 0.134 0.17 0.142 0.134 0.134 0.150 0.186 680 684 (3.3) (3.6) (3.3) (3.6) (4.4) (3.4) (3.4) (4.3) (3.6) (3.4) (3.4) (3.8) (4.7) 0.130 0.142 0.130 0.142 0.177 0.134 0.134 0.189 0.146 0.134 0.134 0.150 0.142 0.201 820 824 (3.3) (3.6) (3.3) (3.6) (4.5) (3.4) (3.4) (4.8) (3.7) (3.4) (3.4) (3.8) (3.6) (5.1) 0.138 0.142 0.138 0.142 0.150 0.150 0.154 0.134 0.134 0.170 0.142 1 µF 105 (3.5) (3.6) (3.5) (3.6) (3.8) (3.8) (3.9) (3.4) (3.4) (4.3) (3.6) 0.150 0.142 0.150 0.142 0.150 0.150 0.166 0.134 0.134 0.189 0.142 1.2 125 (3.8) (3.6) (3.8) (3.6) (3.8) (3.8) (4.2) (3.4) (3.4) (4.8) (3.6) 0.170 0.142 0.170 0.142 0.162 0.142 0.162 0.142 0.186 0.134 0.142 0.134 0.142 0.209 0.154 1.5 155 (4.3) (3.6) (4.3) (3.6) (4.1) (3.6) (4.1) (3.6) (4.7) (3.4) (3.6) (3.4) (3.6) (5.3) (3.9) 0.177 0.142 0.177 0.142 0.162 0.142 0.162 0.142 0.15 0.142 0.15 0.142 0.232 0.162 1.8 185 (4.5) (3.6) (4.5) (3.6) (4.1) (3.6) (4.1) (3.6) (3.8) (3.6) (3.8) (3.6) (5.9) (4.1) 0.201 0.154 0.201 0.154 0.162 0.142 0.162 0.142 0.15 0.142 0.15 0.142 0.178 2.2 225 (5.1) (3.9) (5.1) (3.9) (4.1) (3.6) (4.1) (3.6) (3.8) (3.6) (3.8) (3.6) (4.5) 0.165 0.165 0.182 0.146 0.182 0.146 0.162 0.142 0.162 0.142 0.193 2.7 275 (4.2) (4.2) (4.6) (3.7) (4.6) (3.7) (4.1) (3.6) (4.1) (3.6) (4.9) 0.177 0.177 0.201 0.150 0.201 0.150 0.162 0.142 0.162 0.142 3.3 335 (4.5) (4.5) (5.1) (3.8) (5.1) (3.8) (4.1) (3.6) (4.1) (3.6) 0.162 0.162 0.182 0.142 0.182 0.142 3.9 395 (4.1) (4.1) (4.6) (3.6) (4.6) (3.6) 0.174 0.174 0.189 0.142 0.189 0.142 4.7 475 (4.4) (4.4) (4.8) (3.6) (4.8) (3.6) 0.193 0.154 0.193 0.154 5.6 565 (4.9) (3.9) (4.9) (3.9) 0.17 0.17 6.8 685 (4.3) (4.3) 0.193 0.193 8.2 825 (4.9) (4.9) 0.201 0.201 10 106 (5.1) (5.1)

The thickness Tmax in inches (in mm) is indicated in the cells.

www.exxelia.com 78 [email protected] Page revised 09/17 CERAMIC CAPACITORS

Radial Leaded Conformal Coated Capacitors GeneralR Seriescharacteristics (Leaded)

STANDARD RATINGS

Exxelia 5550 6560 6080/8060

size code ) 0.678 0.800 0.741 / 0.930 R W max. (17.2) (20.3) (18.8) / (23.6) 0.583 0.721 0.890 / 0.697 H max. (14.8) (18.3) (22.6) / (17.7)

LS 0.598 ± 0.02 0.701 ± 0.02 0.598 ± 0.02

Dimensions (15.2 ± 0.5) (17.8 ± 0.5) (15.2 ± 0.5) / (20.3 ± 0.5) inches (mm) inches 0.035 0.035 0.035 / 0.035 D ±10% (0.9) (0.9) (0.9) / (0.9) Capacitance value coded (C value Capacitance UR 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V Dielectric XTXTXTXTXTXTXTXTXTXTXTXT 0.150 0.154 0.150 0.154 270 nF 274 (3.8) (3.9) (3.8) (3.9)

0.150 0.154 0.150 0.154 330 334 (3.8) (3.9) (3.8) (3.9)

0.150 0.154 0.150 0.154 390 394 (3.8) (3.9) (3.8) (3.9)

0.170 0.154 0.150 0.154 470 474 (4.3) (3.9) (3.8) (3.9)

0.170 0.154 0.150 0.150 0.154 560 564 (4.3) (3.9) (3.8) (3.8) (3.9)

0.170 0.154 0.150 0.150 0.154 0.170 0.154 680 684 (4.3) (3.9) (3.8) (3.8) (3.9) (4.3) (3.9)

0.170 0.189 0.154 0.150 0.170 0.154 0.170 0.154 820 824 (4.3) (4.8) (3.9) (3.8) (4.3) (3.9) (4.3) (3.9)

0.150 0.150 0.170 0.237 0.162 0.150 0.150 0.150 0.154 0.170 0.154 0.170 0.154 1 µF 105 (3.8) (3.8) (4.3) (6) (4.1) (3.8) (3.8) (3.8) (3.9) (4.3) (3.9) (4.3) (3.9)

0.150 0.150 0.170 0.154 0.182 0.150 0.150 0.150 0.154 0.189 0.154 0.189 0.154 1.2 125 (3.8) (3.8) (4.3) (3.9) (4.6) (3.8) (3.8) (3.8) (3.9) (4.8) (3.9) (4.8) (3.9)

0.150 0.150 0.170 0.154 0.193 0.150 0.150 0.150 0.154 0.209 0.17 0.170 0.209 0.154 1.5 155 (3.8) (3.8) (4.3) (3.9) (4.9) (3.8) (3.8) (3.8) (3.9) (5.3) (4.3) (4.3) (5.3) (3.9)

0.150 0.150 0.170 0.154 0.213 0.150 0.150 0.150 0.154 0.229 0.17 0.170 0.229 0.154 CAPACITANCE HIGH 1.8 185 (3.8) (3.8) (4.3) (3.9) (5.4) (3.8) (3.8) (3.8) (3.9) (5.8) (4.3) (4.3) (5.8) (3.9)

0.150 0.150 0.170 0.154 0.150 0.150 0.150 0.154 0.182 0.170 0.154 0.229 0.154 2.2 225 (3.8) (3.8) (4.3) (3.9) (3.8) (3.8) (3.8) (3.9) (4.6) (4.3) (3.9) (5.8) (3.9)

0.150 0.150 0.189 0.154 0.150 0.154 0.150 0.154 0.170 0.154 0.201 0.170 0.154 0.182 2.7 275 (3.8) (3.8) (4.8) (3.9) (3.8) (3.9) (3.8) (3.9) (4.3) (3.9) (5.1) (4.3) (3.9) (4.6)

0.150 0.154 0.150 0.154 0.209 0.162 0.150 0.154 0.150 0.154 0.170 0.154 0.221 0.170 0.154 0.205 3.3 335 (3.8) (3.9) (3.8) (3.9) (5.3) (4.1) (3.8) (3.9) (3.8) (3.9) (4.3) (3.9) (5.6) (4.3) (3.9) (5.2)

0.150 0.154 0.150 0.154 0.174 0.150 0.154 0.150 0.154 0.189 0.154 0.170 0.170 0.189 0.154 0.225 3.9 395 (3.8) (3.9) (3.8) (3.9) (4.4) (3.8) (3.9) (3.8) (3.9) (4.8) (3.9) (4.3) (4.3) (4.8) (3.9) (5.7)

0.170 0.154 0.170 0.154 0.189 0.150 0.154 0.150 0.154 0.209 0.154 0.170 0.170 0.209 0.154 4.7 475 (4.3) (3.9) (4.3) (3.9) (4.8) (3.8) (3.9) (3.8) (3.9) (5.3) (3.9) (4.3) (4.3) (5.3) (3.9)

0.170 0.154 0.170 0.154 0.213 0.150 0.154 0.150 0.154 0.166 0.170 0.170 0.209 0.154 5.6 565 (4.3) (3.9) (4.3) (3.9) (5.4) (3.8) (3.9) (3.8) (3.9) (4.2) (4.3) (4.3) (5.3) (3.9)

0.170 0.154 0.170 0.154 0.150 0.154 0.150 0.154 0.182 0.170 0.154 0.170 0.154 0.228 0.170 6.8 685 (4.3) (3.9) (4.3) (3.9) (3.8) (3.9) (3.8) (3.9) (4.6) (4.3) (3.9) (4.3) (3.9) (5.8) (4.3)

0.189 0.154 0.189 0.154 0.170 0.154 0.170 0.154 0.201 0.170 0.154 0.170 0.154 0.193 8.2 825 (4.8) (3.9) (4.8) (3.9) (4.3) (3.9) (4.3) (3.9) (5.1) (4.3) (3.9) (4.3) (3.9) (4.9)

0.201 0.154 0.201 0.154 0.170 0.154 0.170 0.154 0.189 0.154 0.189 0.154 0.201 10 106 (5.1) (3.9) (5.1) (3.9) (4.3) (3.9) (4.3) (3.9) (4.8) (3.9) (4.8) (3.9) (5.1)

0.209 0.162 0.209 0.162 0.189 0.154 0.189 0.154 0.189 0.154 0.189 0.154 12 126 (5.3) (4.1) (5.3) (4.1) (4.8) (3.9) (4.8) (3.9) (4.8) (3.9) (4.8) (3.9)

0.178 0.178 0.209 0.154 0.209 0.154 0.189 0.154 0.189 0.154 15 156 (4.5) (4.5) (5.3) (3.9) (5.3) (3.9) (4.8) (3.9) (4.8) (3.9)

0.154 0.154 0.154 0.154 18 186 (3.9) (3.9) (3.9) (3.9)

0.17 0.17 0.162 0.162 22 226 (4.3) (4.3) (4.1) (4.1)

0.193 0.193 0.182 0.182 27 276 (4.9) (4.9) (4.6) (4.6)

The thickness Tmax in inches (in mm) is indicated in the cells.

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TapingTEF Serie : dimensions Radial Leaded Conformal Coated Capacitors

DIMENSIONS in inches (mm) LT W

Ø (> 12) (> > 0.472

X FEATURES ELECTRICAL SPECIFICATIONS

• Multilayer chips ceramic capacitors DIELECTRIC NPO • NPO dielectric Maximum ∆C/°C over temp. • Capacitance range: 10nF to 680nF NA range without voltage • Voltage range : 50 VDC to 500 VDC Temperature coefﬁ cient (0±30)ppm/°C PHYSICAL CHARACTERISTICS Ageing None CONSTRUCTION Operating temperature –55°C to +125°C

Radial leaded conformal coating for throught hole circuits. Rated voltage (URC) 63 VDC to 500 VDC 2.5 U for U < 500 V Dielectric withstanding voltage RC RC DC MARKING 2 URC for URC = 500 VDC Series, Capacitance value, tolerance, rated voltage, date Capacitance at 1kHz code. Dissipation factor ≤ 0.15% at 1kHz

Insulation resistance at 25°C under URC ≥ 1,000 MΩ.µF

STANDARD RATINGS

Size 3033 3740 5550 6080 8060 Size code 53 54 55 56 65 0.400 0.500 0.689 0.760 0.985 L max. (10.16) (12.7) (17.5) (19.3) (25) 0.461 0.560 0.650 0.945 0.749 W max. (11.7) (14.2) (16.5) (24) (19) 0.197 0.197 0.197 0.197 0.197 T min. (5) (5) (5) (5) (5) 0.2 ± 0.02 0.4 ± 0.02 0.551 ± 0.02 0.6 ± 0.02 0.835 ± 0.02 X (5.08 ± 0.5) (10.16 ± 0.5) (14.7 ± 0.5) (15.24 ± 0.5) (21.2 ± 0.5)

Dimensions inches (mm) Dimensions inches 0.024 0.024 0.031 0.031 0.031 Ø ± 10% (0.6) (0.6) (0.8) (0.8) (0.8) Min. Capacitance value 10nF 18nF 33nF 68nF 68nF

) 63 V 100nF 180nF 330nF 680nF 680nF RC 100 V 82nF 120nF 220nF 470nF 470nF

Rated Rated 200 V 56nF 82nF 180nF 330nF 330nF

voltage (U voltage 500 V 18nF 27nF 56nF 100nF 100nF

Available capacitance values: NPO dielectric: E6, E12, E24 (see page 14). Speciﬁ c values upon request.The above table deﬁ nes the standard products, other components may be built upon request.

HOW TO ORDER

T EF 56 W F 68nF ±10% 200 V - Series Dielectric code Exxelia size code RoHS compliant Quality level Capacitance Tolerance Rated voltage Reliability level

T = Radial leads, EF = NPO 53 - = No RoHS - = standard quality Capacitance value NPO: 63 V For F parts only. conformal coating 54 W = RoHS level in clear ±1% 100 V Acc. to Exxelia spec. - 55 compliant F = Hi-Rel quality: ±2% 200 V 56 ±5% 500 V T5 screening in T6 65 accordance with ±10% Exxelia speciﬁ cation ±20% See page 15

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High Capacitance Stacked Capacitors General characteristicsSC / SV Series

FEATURES ELECTRICAL SPECIFICATIONS

• Multilayer stacked ceramic capacitors Description «X» Series (type II) «T» Series (type II) • Dielectric type II CECC 2R1 2R1 • Capacitance range: 47 nF to 390 µF EIA X7R X7R • Voltage range: 50 VDC to 500 VDC • SV Series: 2 wires components Exxelia Temex Code X T • SC Series: 4 wires (W4), Dual In Line (DIL) or ribbons Operating temperature range –55°C to +125°C –55°C to +125°C terminations Storage temperature range –55°C to +125°C –55°C to +125°C Maximun ∆C/°C over Temperature ± 15% ± 15% MARKING range without voltage applied Size Marking codes Example Ageing ≤2.5% per decade hour ≤2.5% per decade hour Dissipation Factor (DF) ≤ 2.5% ≤ 2.5% «TA» logo TA U ≤ 200 V: 2.5 x U U ≤ 200 V: 2.5 x U Voltage proof R R R R All sizes Cap code + Tolerance code 105M UR > 200 V: 2.0 x UR UR > 200 V: 2.0 x UR Rated voltage value 100 V Insulation Resistance 100GΩ or 1000Ω.F 100GΩ or 1000Ω.F (IR) at 25°C under Ur whichever is the less whichever is the less Insulation Resistance 10GΩ or 100Ω.F 10GΩ or 100Ω.F (IR) at 125°C under Ur whichever is the less whichever is the less PACKAGING CAPACITANCE HIGH Measurement Conditions ≤ 100pF: 1MHz / 1Vrms (no bias) ≤ 100pF: 1MHz / 1Vrms (no bias) «Blister» boxes: for C and DF at 20°C > 100pF: 1KHz / 1Vrms (no bias) > 100pF: 1KHz / 1Vrms (no bias) Capacitance versus applied For all products, special «blister» boxes are used to optimize See page 68 See page 68 Voltage and Temperature the protection of the parts during the carriage and the storage. Depending upon the termination (with or without connection) and the size, the number of the parts in each box is deﬁ ned. Please, consult us for more details.

HOW TO ORDER

201 SV 01 X 105 K R - -RoHS Rated Exxelia Dielectric RoHS Series Capacitance Tolerance Termination Coating voltage size code code Compliant

500: 50 V SC 00 (SC only) X = X7R 1st two digits represent K = ±10% SC Series - = uncoated and no - = non-RoHS compliant 101: 100 V SV 01 T = X7R signifi cant fi gures; last M = ±20% marking 201: 200 V 02 digit specifi es the num- DN DIL N type RoHS = 100% tinned phosphor bronze, non magnetic. Both RoHS and non-RoHS versions 501: 500 V 03 ber of zeros to follow. Lead status: 0% Pb. U = uncoated and exist. This is due to the wishes of 04 DJ DIL J type Non RoHS = Sn (60%) Pb (40%) plated phosphor bronze, marked some customers who still need 05 Examples: non magnetic. non-RoHS components in their 06 104: 0.1µF DL DIL L type Lead status: Pb 40% of the plated layer. C = coated and applications. This suffi x must be 07 335: 3.3µF marked required for RoHS compliancy. 10 (SC only) 156: 15µF RL Ribbon L type 11 (SC only) 107: 10µF RoHS = 100% tinned copper, non magnetic. 12 (SC only) RJ Ribbon J type Lead status: 0% Pb 18 (SC only) RoHS = 100% tinned copper, non magnetic. Lead status: 0% Pb. W4 Radial 4 wires Non RoHS = Sn (70%) Pb (30%) plated Copper, non magnetic. Lead status: Pb 30% of the plated layer.

SV Series

W2 Radial 2 wires See W4

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TapingSC / SV :Series dimensions High Capacitance Stacked Capacitors

DIMENSIONS in inches (mm)

SC SERIES SC SERIES

4 wires W4 terminations Dual In Line DIL termination “DN” Type “DJ” Type “DL” Type L W L L L H H H H E d E ≥ 0.9 (≥ 25) ≥ 0.147 (≥ 3.75) D D Ls p Ls Ls Ls

TA TA TA TA 105M 105M 105M 105M 100V 100V 100V 100V 0.01 (0.25) 0.01 (0.25) 0.01 (0.25) W W W

0.02 0.02 0.02 (0.5) (0.5) 0.1 (0.5) 0.1 0.1 (2.54) (2.54) (2.54)

Note: the marking shown here is just given as an example

Wires bending: 10° max 10 ° max

Ls E D Number of Ls ± 0.02 p ± 0.02 d H Size L max. W max. H max. Size L max. W max. ± 0.02* ± 0.012 ± 0.02 leads per (±0.5) (±0.5) ± 10% max. (±0.5)* (±0.5) (±0.5) side

0.469 0.449 0.400 0.300 0.024 0.300 0.276 0.250 0.071 0.079 SC02 SC00 3 (11.9) (11.4) (10.16) (7.62) (0.6) (7.62) (7) (6.35) (1.8) (2) 0.402 0.378 0.300 0.059 0.098 0.650 0.552 0.600 0.400 0.035 SC01 3 SC04 (10.2) (9.6) (7.62) (1.5) (2.5) (16.5) (14) (15.24) (10.16) (0.9) 0.469 0.449 0.400 0.059 0.098 SC02 4 0.788 0.654 0.701 0.400 0.035 (11.9) (11.4) (10.16) (1.5) (2.5) SC05 (20) (16.6) (17.8) (10.16) (0.9) 0.650 0.552 0.539 0.059 0.098 SC04 5 (16.5) (14) (13.7) (1.5) (2.5)

0.701 0.851 0.600 0.400 0.035 ratings standard of SC06 (17.8) (21.6) (15.24) (10.16) (0.9)

Please, consult the tables the consult Please, 0.729 0.670 0.700 0.059 0.098 SC05 6 (18.5) (17) (17.78) (1.5) (2.5) 0.894 0.654 0.800 0.400 0.035 SC07 0.701 0.851 0.600 0.059 0.098 (22.7) (16.6) (20.32) (10.16) (0.9) SC06 7 (17.8) (21.6) (15.24) (1.5) (2.5) 0.894 0.654 0.800 0.059 0.098 SC07 6 (22.7) (16.6) (20.32) (1.5) (2.5)

0.520 1.083 0.453 0.083 0.102 ratings standard of tables the consult Please, SC10 10 (13.2) (27.5) (11.5) (2.1) (2.6) 0.945 1.598 0.800 0.098 0.098 SC12 14 (24) (40.6) (20.32) (2.5) (2.5)

* Except for the SC07, tolerance = ± 0.032 in (±0.8mm).

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High Capacitance Stacked Capacitors General characteristicsSC / SV Series

DIMENSIONS in inches (mm)

SC SERIES SV SERIES

Ribbons R terminations

RJ Type (upon request) RL Type (standard) L L W T

TA 105M H H H 100V

0.098±0.02 0.098±0.02 d ) ) ±0.5 ±0.5 (≥ 25)

(2.5 ) (2.5 ) ≥ 0.984 0.012 0.012 0.3 0.3 ± ± ± ± Ls Ls Ls (1.5 (1.5 0.059 0.059

TA TA A A

105M W 105M W 100V 100V

0.012±0.002 0.012±0.002 (0.3±0.05) (0.3±0.05)

Note: the marking shown here is just given as an example. For the «RJ» version, please consult us. HIGH CAPACITANCE HIGH

A Ls LS d Size L max. W max. ± 0.008 ± 0.02 H max. Size W max. H max. ± 0.02 T max. ± 10% (±0.2) (±0.5) (±0.5) 0.402 0.378 0.315 0.415 0.402 0.378 0.400 0.024 SC01 SV01 (10.2) (9.6) (8) (10.55) (10.2) (9.6) (10.16) (0.6) 0.469 0.449 0.315 0.482 0.469 0.449 0.400 0.024 SC02 SV02 (11.9) (11.4) (8) (12.25) (11.9) (11.4) (10.16) (0.6) 0.650 0.552 0.315 0.663 0.650 0.552 0.600 0.035 SC04 SV04 (16.5) (14) (8) (16.85) (16.5) (14) (15.24) (0.9) ratings 0.729 0.670 0.591 0.742 ratings 0.788 0.654 0.701 0.035 SC05 SV05 (18.5) (17) (15) (18.85) (20) (16.6) (17.8) (0.9) 0.701 0.851 0.591 0.715 0.701 0.851 0.600 0.035 SC06 SV06 (17.8) (21.6) (15) (18.15) (17.8) (21.6) (15.24) (0.9) 0.894 0.654 0.591 0.907 0.894 0.654 0.800 0.035 Please, consult the tables of standard standard of tables the consult Please, SC07 standard of tables the consult Please, SV07 (22.7) (16.6) (15) (23.05) (22.7) (16.6) (20.32) (0.9)

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TapingSC / SV :Series dimensions High Capacitance Stacked Capacitors

STANDARD RATINGS

Exxelia 2225 3033 size code SC00 SC01 / SV01

UR 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V Dielectric code Cap. code XTXTXTXTXTXTXTXT 0.118 0.083 47 nF 473 (3) (2.1) 0.118 0.083 56 563 (3) (2.1) 0.118 0.083 68 683 (3) (2.1) 0.118 0.083 82 823 (3) (2.1) 0.039 0.118 0.079 0.083 0.098 0.102 100 104 (1.8) (3) (2.3) (2.1) (2.5) (2.6) 0.039 0.118 0.079 0.083 0.098 0.102 120 124 (1.8) (3) (2.3) (2.1) (2.5) (2.6) 0.079 0.252 0.079 0.083 0.098 0.102 150 154 (2) (6.4) (2.3) (2.1) (2.5) (2.6) 0.039 0.039 0.079 0.252 0.102 0.083 0.083 0.083 0.126 0.102 180 184 (1.8) (1.8) (2) (6.4) (2.6) (2.1) (2.1) (2.1) (3.2) (2.6) 0.039 0.039 0.098 0.252 0.110 0.083 0.083 0.083 0.126 0.102 220 224 (1.8) (1.8) (2.5) (6.4) (2.8) (2.1) (2.1) (2.1) (3.2) (2.6) 0.039 0.039 0.098 0.079 0.378 0.122 0.083 0.083 0.083 0.138 0.102 270 274 (1.8) (1.8) (2.5) (2.3) (9.6) (3.1) (2.1) (2.1) (2.1) (3.5) (2.6) 0.039 0.039 0.118 0.079 0.378 0.252 0.083 0.083 0.083 0.241 0.110 330 334 (1.8) (1.8) (3) (2.3) (9.6) (6.4) (2.1) (2.1) (2.1) (6.1) (2.8) 0.039 0.039 0.118 0.079 0.504 0.252 0.083 0.083 0.083 0.241 0.122 390 394 (1.8) (1.8) (3) (2.3) (12.8) (6.4) (2.1) (2.1) (2.1) (6.1) (3.1) 0.039 0.039 0.213 0.079 0.504 0.252 0.083 0.083 0.083 0.079 0.272 0.138 470 474 (1.8) (1.8) (5.4) (2.3) (12.8) (6.4) (2.1) (2.1) (2.1) (2.3) (6.9) (3.5) 0.079 0.079 0.232 0.098 0.551 0.252 0.083 0.083 0.098 0.079 0.414 0.237 560 564 (2) (2) (5.9) (2.5) (14) (6.4) (2.1) (2.1) (2.5) (2.3) (10.5) (6) 0.079 0.079 0.079 0.079 0.252 0.110 0.630 0.382 0.083 0.083 0.118 0.079 0.414 0.249 680 684 (2) (2.3) (2) (2.3) (6.4) (2.8) (16) (9.7) (2.1) (2.1) (3) (2.3) (10.5) (6.3) 0.079 0.079 0.079 0.079 0.319 0.197 0.709 0.382 0.083 0.083 0.138 0.094 0.548 0.260 820 824 (2) (2.3) (2) (2.3) (8.1) (5) (18) (9.7) (2.1) (2.1) (3,5) (2.4) (13.9) (6.6) 0.087 0.079 0.087 0.079 0.378 0.213 0.512 0.098 0.098 0.174 0.102 0.583 0.292 µF 105 1 (2.2) (2.3) (2.2) (2.3) (9.6) (5.4) (13) (2.5) (2.5) (4.4) (2.6) (14.8) (7.4) 0.098 0.079 0.098 0.079 0.504 0.236 0.098 0.098 0.213 0.114 0.669 0.390 1.2 125 (2.5) (2.3) (2.5) (2.3) (12.8) (6) (2.5) (2.5) (5.4) (2.9) (17.6) (9.9) 0.118 0.079 0.118 0.079 0.551 0.315 0.110 0.079 0.110 0.079 0.260 0.134 0.438 1.5 155 (3) (2.3) (3) (2.3) (14) (8.1) (2.8) (2.3) (2.8) (2.3) (6.6) (3.4) (11.1) 0.173 0.079 0.173 0.079 0.630 0.354 0.110 0.079 0.110 0.079 0.347 0.256 0.583 1.8 185 (4.4) (2.3) (4.4) (2.3) (16.4) (9) (2.8) (2.3) (2.8) (2.3) (8.8) (6.5) (14.8) 0.197 0.102 0.197 0.102 0.630 0.394 0.110 0.079 0.110 0.079 0.426 0.256 0.630 2.2 225 (5.1) (2.6) (5.1) (2.6) (16.4) (10.8) (2.8) (2.3) (2.8) (2.3) (10.8) (6.5) (16) 0.232 0.114 0.232 0.114 0.472 0.130 0.094 0.130 0.094 0.552 0.256 2.7 275 (5.9) (2.9) (5.9) (2.9) (12) (3.3) (2.4) (3.3) (2.4) (14) (6.5) 0.296 0.197 0.296 0.197 0.535 0.150 0.098 0.150 0.098 0.591 0.367 3.3 335 (7.5) (5) (7.5) (5) (13.6) (3.8) (2.5) (3.8) (2.5) (15) (9.3) 0.339 0.209 0.339 0.209 0.237 0.110 0.237 0.110 0.394 3.9 395 (8.6) (5.3) (8.6) (5.3) (6) (2.8) (6) (2.8) (10) 0.378 0.232 0.378 0.232 0.237 0.122 0.237 0.122 0.489 4.7 475 (9.6) (5.9) (9.6) (5.9) (6) (3.1) (6) (3.1) (12.4) 0.484 0.244 0.484 0.244 0.276 0.205 0.276 0.205 0.536 5.6 565 (12.3) (6.2) (12.3) (6.2) (7) (5.2) (7) (5.2) (13.6) 0.504 0.335 0.504 0.335 0.315 0.213 0.315 0.213 6.8 685 (12.8) (8.5) (12.8) (8.5) (8) (5.4) (8) (5.4) 0.630 0.343 0.630 0.343 0.434 0.237 0.434 0.237 8.2 825 (16) (8.7) (16) (8.7) (11) (6) (11) (6) 0.472 0.472 0.473 0.319 0.473 0.319 10 106 (12.2) (12.2) (12) (8.1) (12) (8.1) 0.472 0.472 0.552 0.355 0.552 0.355 12 126 (12.2) (12.2) (14) (9) (14) (9) 0.473 0.473 15 156 (12) (12) 0.520 0.520 18 186 (13.2) (13.2)

The thickness H max in inches (in mm) for the SC Series or the height T max in inches (in mm) for the SV Series is indicated in the cells.

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High Capacitance Stacked Capacitors General characteristicsSC / SV Series

STANDARD RATINGS

Exxelia 3740 5550 size code SC02 / SV02 SC04 / SV04

UR 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V

Dielectric code Cap. XTXTXTXTXTXTXTXT code 0.118 100 nF 104 (3) 0.118 120 124 (3) 0.118 150 154 (3) 0.083 0.118 0.102 180 184 (2.1) (3) (2.6) 0.083 0.118 0.102 220 224 (2.1) (3) (2.6) 0.083 0.118 0.102 270 0.098 0.102 274 (2.1) (3) (2.6) (2.5) (2.6) 0.083 0.083 0.083 0.130 0.102 330 0.098 0.102 334 (2.1) (2.1) (2.1) (3.3) (2.6) (2.5) (2.6) 0.083 0.083 0.083 0.138 0.102 390 0.098 0.102 394 (2.1) (2.1) (2.1) (3.5) (2.6) (2.5) (2.6) 0.083 0.083 0.083 0.157 0.102 470 0.118 0.102 474 (2.1) (2.1) (2.1) (4) (2.6) (3) (2.6) 0.083 0.083 0.083 0.169 0.114 560 0.118 0.102 564 (2.1) (2.1) (2.1) (4.3) (2.9) (3) (2.6) 0.083 0.083 0.098 0.276 0.134 680 0.118 0.102 684 (2.1) (2.1) (2.5) (7) (3.4) (3) (2.6) 0.083 0.083 0.098 0.079 0.390 0.150 820 0.118 0.138 0.102 824 (2.1) (2.1) (2.5) (2.3) (9.9) (3.8) (3) (3.5) (2.6) 0.083 0.083 0.118 0.079 0.406 0.245 1 µF 0.118 0.165 0.110 105 (2.1) (2.1) (3) (2.3) (10.3) (6.2) (3) (4.2) (2.8) 0.083 0.083 0.138 0.079 0.552 0.245 1.2 0.118 0.102 0.252 0.130 125 (2.1) (2.1) (3.5) (2.3) (14) (6.2) (3) (2.6) (6.4) (3.3) 0.083 0.079 0.083 0.079 0.157 0.102 0.630 0.300 1.5 0.118 0.102 0.378 0.142 155 (2.1) (2.3) (2.1) (2.3) (4) (2.6) (16) (7.6) (3) (2.6) (9.6) (3.6) 0.098 0.079 0.098 0.079 0.233 0.111 0.709 0.315 1.8 0.098 0.098 0.118 0.102 0.378 0.157 185 (2.5) (2.3) (2.5) (2.3) (5.9) (2.8) (18) (8) (2.5) (2.5) (3) (2.6) (9.6) (4.1) HIGH CAPACITANCE HIGH 0.098 0.079 0.098 0.079 0.252 0.126 0.709 0.426 2.2 0.098 0.098 0.118 0.102 0.378 0.256 225 (2.5) (2.3) (2.5) (2.3) (6.4) (3.2) (18) (10.8) (2.5) (2.5) (3) (2.6) (9.6) (6.5) 0.110 0.079 0.110 0.079 0.252 0.142 0.567 2.7 0.098 0.098 0.138 0.102 0.504 0.288 275 (2.8) (2.3) (2.8) (2.3) (6.4) (3.6) (14.4) (2.5) (2.5) (3.5) (2.6) (12.8) (7.3) 0.110 0.079 0.110 0.079 0.378 0.229 0.630 3.3 0.098 0.102 0.098 0.102 0.157 0.111 0.583 0.319 335 (2.8) (2.3) (2.8) (2.3) (9.6) (5.8) (16) (2.5) (2.6) (2.5) (2.6) (4) (2.8) (14.8) (8.1) 0.130 0.079 0.130 0.079 0.378 0.252 3.9 0.098 0.102 0.098 0.102 0.252 0.122 0.662 0.438 395 (3.3) (2.3) (3.3) (2.3) (9.6) (6.4) (2.5) (2.6) (2.5) (2.6) (6.4) (3.1) (16.8) (11.1) 0.138 0.079 0.138 0.079 0.504 0.284 4.7 0.118 0.102 0.118 0.102 0.378 0.138 0.449 475 (3.5) (2.3) (3.5) (2.3) (12.8) (7.2) (3) (2.6) (3) (2.6) (9.6) (3.5) (11.4) 0.142 0.102 0.142 0.102 0.630 0.300 5.6 0.118 0.102 0.118 0.102 0.378 0.221 0.587 565 (3.6) (2.6) (3.6) (2.6) (16) (7.6) (3) (2.6) (3) (2.6) (9.6) (5.6) (14.9) 0.185 0.118 0.185 0.118 0.709 0.418 6.8 0.118 0.102 0.118 0.102 0.434 0.237 0.658 685 (4.7) (3) (4.7) (3) (18) (10.6) (3) (2.6) (3) (2.6) (11) (6) (16.7) 0.284 0.142 0.284 0.142 0.449 8.2 0.138 0.102 0.138 0.102 0.438 0.252 825 (7.2) (3.6) (7.2) (3.6) (11.4) (3.5) (2.6) (3.5) (2.6) (11.1) (6.4) 0.292 0.197 0.292 0.197 0.583 10 0.150 0.102 0.150 0.102 0.497 0.371 106 (7.4) (5) (7.4) (5) (14.8) (3.8) (2.6) (3.8) (2.6) (12.6) (9.4) 0.414 0.221 0.414 0.221 12 0.252 0.111 0.252 0.111 0.630 0.390 126 (10.5) (5.6) (10.5) (5.6) (6.4) (2.8) (6.4) (2.8) (16) (9.9) 0.438 0.308 0.438 0.308 15 0.284 0.126 0.319 0.126 0.520 156 (11.1) (7.8) (11.1) (7.8) (7.2) (3.2) (8.1) (3.2) (13.2) 0.583 0.347 0.583 0.347 18 0.304 0.221 0.394 0.221 0.567 186 (14.8) (8.8) (14.8) (8.8) (7.7) (5.6) (10.8) (5.6) (14.4) 0.598 0.402 0.598 0.402 22 0.315 0.229 0.504 0.229 226 (15.2) (10.2) (15.2) (10.2) (8) (5.8) (12.8) (5.8) 0.441 0.441 27 0.461 0.245 0.504 0.245 276 (11.2) (11.2) (11.7) (6.2) (12.8) (6.2) 0.591 0.591 33 0.473 0.339 0.583 0.339 336 (15) (15) (12) (8.6) (14.8) (8.6) 0.630 0.630 39 0.630 0.371 0.662 0.371 396 (16) (16) (16) (9.4) (16.8) (9.4) 0.473 0.473 47 (12) (12) 476 0.536 0.536 56 (13.6) (13.6) 566

The thickness H max in inches (in mm) for the SC Series or the height T max in inches (in mm) for the SV Series is indicated in the cells.

www.exxelia.com 85 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingSC / SV :Series dimensions High Capacitance Stacked Capacitors

STANDARD RATINGS

Exxelia 6560 6080 / 8060 size code SC05 / SV05 SC06 / SC07 - SV06 / SV07

UR 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V

Dielectric code Cap. XTXTXTXTXTXTXTXT code 0.098 0.102 270 nF (2.5) (2.6) 274 0.098 0.102 330 (2.5) (2.6) 334 0.098 0.102 390 (2.5) (2.6) 394 0.098 0.102 0.118 470 (2.5) (2.6) (3) 474 0.098 0.098 0.102 0.118 560 (2.5) (2.5) (2.6) (3) 564 0.098 0.098 0.102 0.118 0.102 680 (2.5) (2.5) (2.6) (3) (2.6) 684 0.098 0.118 0.102 0.118 0.102 820 (2.5) (3) (2.6) (3) (2.6) 824 0.098 0.098 0.098 0.102 0.118 0.102 0.118 0.102 1 µF (2.5) (2.5) (2.5) (2.6) (3) (2.6) (3) (2.6) 105 0.098 0.098 0.098 0.102 0.138 0.102 0.138 0.102 1.2 (2.5) (2.5) (2.5) (2.6) (3.5) (2.6) (3.5) (2.6) 125 0.098 0.098 0.098 0.102 0.157 0.118 0.118 0.157 0.102 1.5 (2.5) (2.5) (2.5) (2.6) (4) (3) (3) (4) (2.6) 155 0.098 0.098 0.098 0.102 0.177 0.118 0.118 0.177 0.102 1.8 (2.5) (2.5) (2.5) (2.6) (4.5) (3) (3) (4.5) (2.6) 185 0.098 0.098 0.098 0.102 0.272 0.130 0.118 0.102 0.272 0.102 2.2 (2.5) (2.5) (2.5) (2.6) (6.9) (3.3) (3) (2.6) (6.9) (2.6) 225 0.098 0.102 0.098 0.102 0.118 0.102 0.312 0.150 0.118 0.102 0.378 0.130 2.7 (2.5) (2.6) (2.5) (2.6) (3) (2.6) (7.9) (3.8) (3) (2.6) (9.6) (3.3) 275 0.098 0.102 0.098 0.102 0.118 0.102 0.331 0.169 0.118 0.102 0.398 0.154 3.3 (2.5) (2.6) (2.5) (2.6) (3) (2.6) (8.4) (4.3) (3) (2.6) (10.1) (3.9) 335 0.098 0.102 0.098 0.102 0.138 0.102 0.438 0.264 0.118 0.118 0.138 0.102 0.504 0.173 3.9 (2.5) (2.6) (2.5) (2.6) (3.5) (2.6) (11.1) (6.7) (3) (3) (3.5) (2.6) (12.8) (4.4) 395 0.098 0.102 0.098 0.102 0.157 0.102 0.497 0.296 0.118 0.118 0.157 0.102 0.583 0.249 4.7 (2.5) (2.6) (2.5) (2.6) (4) (2.6) (12.6) (7.5) (3) (3) (4) (2.6) (14.8) (6.3) 475 0.098 0.102 0.098 0.102 0.233 0.114 0.662 0.335 0.118 0.118 0.252 0.102 0.583 0.276 5.6 (2.5) (2.6) (2.5) (2.6) (5.9) (2.9) (16.8) (8.5) (3) (3) (6.4) (2.6) (14.8) (7) 565 0.098 0.102 0.098 0.102 0.252 0.130 0.819 0.355 0.118 0.102 0.118 0.102 0.252 0.118 0.661 0.319 6.8 (2.5) (2.6) (2.5) (2.6) (6.4) (3.3) (20.8) (9) (3) (2.6) (3) (2.6) (6.4) (3) (16.8) (8.1) 685 0.118 0.102 0.118 0.102 0.359 0.150 0.473 0.118 0.102 0.118 0.102 0.378 0.142 0.740 0.386 8.2 (3) (2.6) (3) (2.6) (9.1) (3.8) (12) (3) (2.6) (3) (2.6) (9.6) (3.6) (18,8) (9.8) 825 0.118 0.102 0.118 0.102 0.378 0.233 0.532 0.138 0.102 0.138 0.102 0.378 0.220 0.485 10 (3) (2.6) (3) (2.6) (9.6) (5.9) (13.5) (3.5) (2.6) (3.5) (2.6) (9.6) (5.6) (12.3) 106 0.138 0.102 0.138 0.102 0.504 0.260 0.689 0.138 0.102 0.138 0.102 0.504 0.236 0.595 12 (3.5) (2.6) (3.5) (2.6) (12.8) (6.6) (17.5) (3.5) (2.6) (3.5) (2.6) (12,8) (6) (15.1) 126 0.157 0.102 0.157 0.102 0.583 0.296 0.138 0.102 0.138 0.102 0.504 0.276 0.725 15 (4) (2.6) (4) (2.6) (14.8) (7.5) (3.5) (2.6) (3.5) (2.6) (12,8) (7) (18.4) 156 0.252 0.102 0.252 0.102 0.398 0.146 0.102 0.146 0.102 0.630 0.347 18 (6.4) (2.6) (6.4) (2.6) (10.1) (3.7) (2.6) (3.7) (2.6) (16) (8.8) 186 0.252 0.118 0.252 0.118 0.434 0.252 0.110 0.291 0.110 0.740 0.362 22 (6.4) (3) (6.4) (3) (11) (6.4) (2.8) (7.4) (2.8) (18,8) (9.2) 226 0.312 0.142 0.378 0.142 0.552 0.252 0.130 0.323 0.130 0.740 0.504 27 (7.9) (3.6) (9.6) (3.6) (14) (6.4) (3.3) (8.2) (3.3) (18,8) (12.8) 276 0.331 0.220 0.378 0.220 0.630 0.280 0.220 0.413 0.220 0.598 33 (8.4) (5.6) (9.6) (5.6) (16) (7.1) (5.6) (10.5) (5.6) (15.2) 336 0.457 0.237 0.504 0.237 0.378 0.228 0.441 0.228 0.630 39 (11.6) (6) (12.8) (6) (9.6) (5.8) (11.2) (5.8) (16) 396 0.497 0.276 0.504 0.276 0.378 0.256 0.465 0.256 47 (12.6) (7) (12.8) (7) (9.6) (6.5) (11.8) (6.5) 476 0.662 0.347 0.669 0.347 0.457 0.347 0.472 0.347 56 (16.8) (8.8) (17) (8.8) (11.6) (8.8) (12) (8.8) 566 0.378 0.378 0.583 0.354 0.591 0.354 68 (9.6) (9.6) (14.8) (9) (15) (9) 686 0.504 0.504 0.465 0.465 82 (12.8) (12.8) (11.8) (11.8) 826 0.575 0.575 0.768 0.768 100 (14.6) (14.6) (19.5) (19.5) 107

The thickness H max in inches (in mm) for the SC Series or the height T max in inches (in mm) for the SV Series is indicated in the cells.

www.exxelia.com 86 [email protected] Page revised 09/17 CERAMIC CAPACITORS

High Capacitance Stacked Capacitors General characteristicsSC / SV Series

STANDARD RATINGS

Exxelia 45107 45214 80150 125205 size code SC10 SC11 SC12 SC18

UR 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V

Dielectric code Cap. XTXTXTXTXXXXXXXXXXXX code 0.138 0.122 680 nF (3.5) (3.1) 684 0.118 0.118 0.138 0.122 820 (3) (3) (3.5) (3.1) 824 0.118 0.118 0.118 0.118 0.150 0.122 1 µF (3) (3) (3) (3) (3.8) (3.1) 105 0.118 0.118 0.118 0.118 0.150 0.122 1.2 (3) (3) (3) (3) (3.8) (3.1) 125 0.118 0.118 0.118 0.118 0.118 0.118 0.252 0.122 1.5 (3) (3) (3) (3) (3) (3) (6.4) (3.1) 155 0.118 0.118 0.118 0.118 0.118 0.118 0.252 0.122 1.8 (3) (3) (3) (3) (3) (3) (6.4) (3.1) 185 0.118 0.118 0.118 0.118 0.138 0.118 0.252 0.122 2.2 (3) (3) (3) (3) (3.5) (3) (6.4) (3.1) 225 0.118 0.118 0.118 0.118 0.150 0.118 0.292 0.122 0.157 2.7 (3) (3) (3) (3) (3.8) (3) (7.4) (3.1) * (4) 275 0.118 0.118 0.118 0.118 0.157 0.118 0.378 0.331 0.157 3.3 (3) (3) (3) (3) (4) (3) (9.6) (8.4) * (4) 335 0.118 0.118 0.118 0.118 0.213 0.118 0.504 0.331 0.157 3.9 (3) (3) (3) (3) (5.4) (3) (12.8) (8.4) * (4) 395 0.118 0.118 0.118 0.118 0.233 0.118 0.583 0.331 0.157 4.7 (3) (3) (3) (3) (5.9) (3) (14.8) (8.4) * (4) 475 0.118 0.118 0.118 0.118 0.252 0.118 0.583 0.331 0.315 5.6 (3) (3) (3) (3) (6.4) (3) (14.8) (8.4) * (8) 565 0.118 0.118 0.118 0.118 0.319 0.252 0.662 0.331 0.315 6.8 (3) (3) (3) (3) (8.1) (6.4) (16.8) (8.4) * (8) 685 0.118 0.118 0.118 0.118 0.378 0.252 0.496 0.157 0.315 8.2 (3) (3) (3) (3) (9.6) (6.4) (12.6) ** (4) (8) * 825 0.138 0.118 0.138 0.118 0.378 0.252 0.496 0.157 0.315 10 (3.5) (3) (3.5) (3) (9.6) (6.4) (12.6) ** (4) (8) * 106 0.138 0.118 0.138 0.118 0.504 0.378 0.661 0.315 0.472 12 (3.5) (3) (3.5) (3) (12.8) (9.6) (16.8) *** (8) (12) * 126 HIGH CAPACITANCE HIGH 0.252 0.118 0.252 0.118 0.504 0.378 0.315 0.472 15 (6.4) (3) (6.4) (3) (12.8) (9.6) ** (8) (12) * 156 0.252 0.118 0.252 0.118 0.661 0.504 0.315 0.630 18 (6.4) (3) (6.4) (3) (16.8) (12.8) ** * (8) (16) * 186 0.378 0.118 0.378 0.118 0.504 0.315 22 (9.6) (3) (9.6) (3) (12.8) ** * (8) * **226 0.378 0.130 0.378 0.130 0.661 0.472 27 (9.6) (3.3) (9.6) (3.3) (16.8) *** * (12) * **276 0.504 0.276 0.504 0.276 0.157 0.472 33 (12.8) (7) (12.8) (7) *** (4) (12) * **336 0.504 0.276 0.504 0.276 0.157 0.157 0.630 39 (12.8) (7) (12.8) (7) ** (4) (4) (16) ***396 0.591 0.276 0.591 0.276 0.157 0.315 47 (15) (7) (15) (7) ** (4) (8) * ***476 0.591 0.433 0.591 0.433 0.315 0.315 56 (15) (11) (15) (11) ** (8) (8) * ***566 0.433 0.433 0.315 0.315 68 (11) (11) ** (8) (8) ** 686 0.591 0.591 0.315 0.315 82 (15) (15) * (8) (8) *** 826 0.315 0.472 100 * (8) (12) *** 107 0.472 0.472 120 * (12) (12) ** 127 0.472 0.630 150 (12) (16) ** 157 0.630 180 (16) ** 187

220 ** 227

270 * 277

330 * 337

390 * 397

The thickness H max in inches (in mm) for the SC Series or the height T max in inches (in mm) for the SV Series is indicated in the cells. * Consult us

www.exxelia.com 87 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingCNC3X :Series dimensions High Capacitance Stacked Capacitors

ESA Qualiﬁ ed ESA Qualiﬁed

FEATURES ELECTRICAL SPECIFICATIONS

• Multilayer chips ceramic capacitors stacked DIELECTRIC X7R • X7R dielectric (NPO available on request) Maximum ∆C/°C • Capacitance range: 1.2µF to 68µF ±15% over temperature range without voltage • Voltage range: 16 VDC to 25 VDC • Their low operating voltage give them a major advantage Ageing ≤ 2.5% per decade hour as they have much higher capacitance values in the Operating temperature –55°C +125°C

same format. These components are ideally suited to Rated voltage (URC) 16 VDC to 25 VDC advanced digital electronic applications requiring ever Dielectric withstanding voltage 2.5 URC lower operating voltages Capacitance at 1kHz 0.3Vrms PHYSICAL CHARACTERISTICS Dissipation factor ≤2.5% at 1kHz 0.3Vrms CONSTRUCTION Insulation resistance at 25°C under URC ≥ 1,000 MΩ.µF • P, PL, L models: DIL leaded uncoated stacked chips capacitors for surface mounting recommended to eliminate thermomechanical stresses. • N, NU models: DIL leaded stacked chips capacitors for through-hole circuits (N: varnished, NU: uncoated chips) • They can be supplied on request in ribbon or molded conﬁ guration

MARKING (clear or coded) Capacitance value, tolerance, rated voltage (except 16 V).

HOW TO ORDER

CNC 33 P W F 6,8µF ±10% 25 V RoHS Series Exxelia size code Model Quality level Capacitance Tolerance Rated voltage Compliant

CNC 31 P - = No RoHS - = standard quality level Capacitance value ±10% 16 V 32 PL W = RoHS F = Hi-Rel quality: in clear ±20% 25 V 33 L compliant screening in accordance 34 N with Exxelia speciﬁ cation NU

www.exxelia.com 88 [email protected] Page revised 01/18 L Model L W ) ±0.02 ±0.5 0.012 max. T CERAMIC CAPACITORS 0.098 (2.5 (0.3 max.) 0.098±0.02 0.1 0.02 (2.5±0.5) (2.54) (0.5) High Capacitance Stacked Capacitors P Model GeneralL characteristicsCNC3XW SeriesR Model L W L Model L W ) ) ±0.012 ±0.012 ) ±0.3 ±0.3 ±0.02 T T ±0.5 T 0.059 (1.5 0.059 (1.5 0.012 max. 0.012 (0.3 max.) 0.012 max. max. 0.012 (0.3 max.) 0.098 (2.5 DIMENSIONS(0.3 max.) in inches (mm) R C 0.1 0.02 d b ±0.02 L Model L 0.098 0.1 W 0.02 PL Model (2.54) (0.5) N Model (2.5±0.5) (2.54) (0.5) L W L W ) )

P Model L W ±0.02 R Model L W ) ±0.5 ±0.012 ± 0.01

T ± 0.25 ) ) ±0.3 T ±0.012 ±0.012 0.012 max. T 0.098 (2.5

±0.3 0.012 max. ±0.3 0.059 (1.5 0.071 0.071 (1.8 T (0.3 max.) T

0.059 (1.5 (0.3 max.) 0.059 (1.5 0.012 max. 0.012 (0.3 max.) R max. 0.012 (0.3 max.) ±0.02 0.012 max. 0.02 0.098 R 0.1 0.02 C 0.1 0.02 ( у 7.5)

у 0.295 (0.5) ±0.5 (2.54) (0.5) (0.3 max.) (2.5 ) C 0.1 0.02 d ±0.02 (2.54) b (0.5) P Model L W R Model 0.098 X 0.1 (2.54) (0.5) L W PL Model N Model ±0.5 L W ) L (2.5 ) W ) (2.54) ±0.012 ±0.012 ) ±0.3 ±0.3

) T T ±0.012 ± 0.01 0.059 (1.5 0.059 (1.5 ± 0.25 ±0.3 0.012 max. 0.012 (0.3 max.) 0.012 max. 0.012 (0.3 max.) T 0.012 max. T 0.059 (1.5 R 0.071 (1.8 (0.3 max.) 0.1 0.02 d b C R 0.012 max. 0.02 PL Model C (2.54) 0.1 (0.5) 0.02N Model ( у 7.5) L W у 0.295 L (0.3 max.) W (0.5)

±0.02 (2.54) (0.5) ) 0.098 X 0.1 ) ±0.012 ±0.5 ± 0.01 ± 0.25 (2.5 ) ±0.3 (2.54) T 0.012 max. T 0.059 (1.5

STANDARD RATINGS 0.071 (1.8 (0.3 max.) R 0.012 max. 0.02 C Dimensions0.1 inches (mm)0.02 Leads T max. Nb. of Rated Voltage Min. cap.

Size Series ( у 7.5)

у 0.295 (0.3 max.) (0.5) L max. W max.(2.54) R min. C max.(0.5) X per side inches (mm) chips 16 V 25 V Value 0.098±0.02 X 0.1 0.099 (2.5) 1 3.9µF 2.2µF 0.296 (2.5±0.50.237) 0.098 0.296 0.2 ± 0.020 (2.54) 2 0.197 (5) 2 6.8µF 4.7µF 1.2µF 2220 CNC31 (7.5) (6) (2.5) (7.5) (5.08 ± 0.5) 0.296 (7.5) 3 12µF 6.8µF 0.099 (2.5) 1 4.7µF 3.3µF 0.315 0.315 0.098 0.315 0.3 ± 0.020 3 0.197 (5) 2 10µF 5.6µF 1.8µF 2528 CNC32 (8) (8) (2.5) (8) (7.62 ± 0.5) 0.296 (7.5) 3 15µF 10µF 0.099 (2.5) 1 8.2µF 5.6µF 0.394 0.363 0.137 0.394 0.3 ± 0.020 0.197 (5) 2 15µF 10µF 3 3.3µF 3333 CNC33 (10) (9.2) (3.5) (10) (7.62 ± 0.5) 0.296 (7.5) 3 22µF 15µF 0.394 (10) 4 33µF 22µF 0.099 (2.5) 1 15µF 10µF 0.493 0.473 0.196 0.493 0.4 ± 0.020 0.197 (5) 2 27µF 18µF 4 5.6µF 4040 CNC34 (12.5) (12) (5) (12.5) (10.16 ± 0.5) 0.296 (7.5) 3 47µF 27µF 0.394 (10) 4 68µF 39µF

Available capacitance values: E6, E12 (see page XX). Speciﬁc values upon request. CAPACITANCE HIGH The above table deﬁnes the standard products, other components may be built upon request. RECOMMENDED FOOTPRINT ) P* Model L Model ) ±0.01 ±0.3 ±0.5 ±0.02 0.06 (1.5 0.1 (2.5 T T 0.012 max. 0.012 (0.3 max.)

0.1 R d 0.02 0.012 max. 0.1±0.02 0.1 0.02 (2.54) C (0.5) (0.3 max.) (2.5±0.5) (2.54) (0.5) 0.1 (2.54) 0.1 (2.54)

C1 I3 C1 I3

I2 I2 I1 I1 I I d 1 d 1

I2 W1 I2 W1

Exxelia Lead C max Leads per d C1 W1 I1 I2 I3 size code shape inches (mm) side inches (mm) inches (mm) inches (mm) inches (mm) inches (mm) inches (mm) P * 0.295 (7.5) 2 0.059 ±0.012 (1.5 ±0.3) 0.335 (8.5) 0.147 (3.74) 0.047 (1.2) 0.128 (3.25) 0.079 (2) 31 L 0.512 (13) 2 0.098 ±0.02 (2.5 ±0.5) 0.551 (14) 0.147 (3.74) 0.047 (1.2) 0.187 (4.75) 0.177 (4.5) P * 0.315 (8) 3 0.087 ±0.012 (2.2 ±0.3) 0.354 (9) 0.247 (6.28) 0.047 (1.2) 0.138 (3.5) 0.079 (2) 32 L 0.531 (13.5) 3 0.098 ±0.02 (2.5 ±0.5) 0.571 (14.5) 0.247 (6.28) 0.047 (1.2) 0.187 (4.75) 0.197 (5) P * 0.394 (10) 3 0.087 ±0.012 (2.2 ±0.3) 0.433 (11) 0.247 (6.28) 0.047 (1.2) 0.157 (4) 0.118 (3) 33 L 0.610 (15.5) 3 0.098 ±0.02 (2.5 ±0.5) 0.650 (16.5) 0.247 (6.28) 0.047 (1.2) 0.187 (4.75) 0.276 (7) P * 0.492 (12.5) 4 0.087 ±0.012 (2.2 ±0.3) 0.531 (13.5) 0.347 (8.82) 0.047 (1.2) 0.177 (4.5) 0.177 (4.5) 34 L 0.709 (18) 4 0.098 ±0.02 (2.5 ±0.5) 0.748 (19) 0.347 (8.82) 0.047 (1.2) 0.187 (4.75) 0.374 (9.5) * For PL : add 0.098 in (2.5 mm) to d and I2 and 0.197 in (5 mm) to C1.

www.exxelia.com 89 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingCEC5X Series: dimensions High Capacitance Stacked Capacitors

According to ESAAvailable Qualiﬁed space ranges: consult our detail speciﬁ cations

FEATURES ELECTRICAL SPECIFICATIONS

• Multilayer chips ceramic capacitors DIELECTRIC NPO • NPO dielectric • Capacitance range: 10nF to 6.8 µF Maximum ∆C/°C over temperature range without voltage NA Temperature coefﬁ cient (0±30)ppm/°C • Voltage range: 63 VDC to 500 VDC Ageing None PHYSICAL CHARACTERISTICS Operating temperature –55°C to +125°C Rated voltage (URC) 63 VDC to 500 VDC CONSTRUCTION 2.5 U for U < 500 V Dielectric withstanding voltage RC RC DC • P, PL, L models: DIL leaded uncoated stacked chips ca- 2 URC for URC = 500 VDC pacitors for surface mounting recommended to eliminate Capacitance at 1kHz thermomechanical stresses. Dissipation factor ≤ 0.15% at 1kHz • N, NU models: DIL leaded stacked chips capacitors for through-hole circuits (N: varnished, NU: uncoated chips) Insulation resistance at 25°C under URC ≥ 1,000 MΩ.µF • They can be supplied on request in ribbon connection conﬁ guration ideally suited to iron soldering

MARKING (clear or coded) Series, Capacitance value, tolerance, rated voltage, date code.

HOW TO ORDER

CEC 53 P W F 120nF ±10% 200 V RoHS Series Exxelia size code Model Quality level Capacitance Tolerance Rated voltage compliant

CEC 53 P - = No RoHS - = standard quality level Capacitance value ±1% 63V 54 PL W = RoHS F = Hi-Rel quality: in clear ±2% 100V 55 L compliant screening in accordance ±5% 200V 56 N with Exxelia speciﬁ cation ±10% 500V 57 NU ±20% 58 65

www.exxelia.com 90 [email protected] Page revised 01/18 CERAMIC CAPACITORS

High Capacitance Stacked Capacitors General characteristicsCEC5X Series

RECOMMENDED FOOTPRINT ) P* Model L Model ) ±0.01 ±0.3 ±0.5 ±0.02 0.06 (1.5 0.1 (2.5 T T 0.012 max. 0.012 (0.3 max.)

0.1 R d 0.02 0.012 max. 0.1±0.02 0.1 0.02 (2.54) C (0.5) (0.3 max.) (2.5±0.5) (2.54) (0.5) 0.1 (2.54) 0.1 (2.54)

C1 I3 C1 I3

I2 I2 I1 I1 I I d 1 d 1

I2 W1 I2 W1

Exxelia size Lead C max Leads d C1 W1 I1 I2 I3 code shape inches (mm) per side inches (mm) inches (mm) inches (mm) inches (mm) inches (mm) inches (mm) 0.087 (2.2 P * 0.354 (9) 3 0.394 (10) 0.247 (6.28) 0.047 (1.2) 0.146 (3.7) 0.102 (2.6) ± 0.012 ± 0.3) 53 0.098 (2.5 L 0.579 (14.7) 3 0.618 (15.7) 0.247 (6.28) 0.047 (1.2) 0.167 (4.25) 0.283 (7.2) ± 0.02 ± 0.5) 0.087 (2.2 P * 0.472 (12) 4 0.512 (13) 0.347 (8.82) 0.047 (1.2) 0.187 (4.75) 0.138 (3.5) ± 0.012 ± 0.3) 54 0.098 (2.5 L 0.656 (16.66) 4 0.695 (17.66) 0.347 (8.82) 0.047 (1.2) 0.167 (4.25) 0.361 (9.16) ± 0.02 ± 0.5)

0.087 (2.2 CAPACITANCE HIGH P * 0.587 (14.9) 5 0.626 (15.9) 0.447 (11.36) 0.047 (1.2) 0.175 (4.45) 0.276 (7) ± 0.012 ± 0.3) 55 0.098 (2.5 L 0.807 (20.5) 5 0.846 (21.5) 0.447 (11.36) 0.047 (1.2) 0.167 (4.25) 0.512 (13) ± 0.02 ± 0.5) 0.087 (2.2 P * 0.661 (16.8) 7 0.701 (17.8) 0.647 (16.44) 0.047 (1.2) 0.163 (4.15) 0.374 (9.5) ± 0.012 ± 0.3) 56 0.098 (2.5 L 0.856 (21.74) 7 0.895 (22.74) 0.647 (16.44) 0.047 (1.2) 0.167 (4.25) 0.561 (14.24) ± 0.02 ± 0.5) 0.087 (2.2 P * 0.472 (12) 14 0.512 (13) 1.347 (34.22) 0.047 (1.2) 0.163 (4.15) 0.185 (4.7) ± 0.012 ± 0.3) 57 0.098 (2.5 L 0.656 (16.66) 14 0.695 (17.66) 1.347 (34.22) 0.047 (1.2) 0.167 (4.25) 0.361 (9.16) ± 0.02 ± 0.5) 0.087 (2.2 P * 0.945 (24) 14 0.984 (25) 1.347 (34.22) 0.047 (1.2) 0.163 (4.15) 0.657 (16.7) ± 0.012 ± 0.3) 58 0.098 (2.5 L 1.056 (26.82) 14 1.095 (27.82) 1.347 (34.22) 0.047 (1.2) 0.167 (4.25) 0.761 (19.32) ± 0.02 ± 0.5) 0.087 (2.2 P * 0.850 (21.6) 6 0.890 (22.6) 0.547 (13.9) 0.047 (1.2) 0.163 (4.15) 0.563 (14.3) ± 0.012 ± 0.3) 65 0.098 (2.5 L 1.056 (26.82) 6 1.095 (27.82) 0.547 (13.9) 0.047 (1.2) 0.167 (4.25) 0.761 (19.32) ± 0.02 ± 0.5) * For PL : add 0.098 in (2.5 mm) to d and I2 and 0.197 in (5 mm) to C1.

www.exxelia.com 91 [email protected] Page revised 01/18 TEP Model TEV Model L Model L W L1 T L1 W1 ) ±0.02 ±0.5 T 1 T

0.012 max. W 0.098 (2.5 (0.3 max.) CERAMIC CAPACITORS Ø 0.098±0.02 0.1 0.02 Ø (≥ 15) (2.5±0.5) (2.54) (0.5) ≥ 0.59 X TEP Model TEV Model 1 X1 Y1 L T L W TapingCEC5XL Model Series: dimensionsL W P Model 1 L High Capacitance1 W Stacked1 CapacitorsR Model L W

) ) ) ±0.02 ±0.012 ±0.012 ±0.5 ±0.3 ±0.3 T 1 T T T

0.012 max. W 0.059 (1.5 0.059 (1.5 0.098 (2.5 0.012 max. 0.012 (0.3 max.) (0.3 max.) max. 0.012 (0.3 max.) DIMENSIONS in inches (mm) R Ø 0.098±0.02 0.1 0.02 C Ø 0.1 0.02 d b (≥ 15) (2.5±0.5) (2.54) (0.5) TEP≥ 0.59 Model TEV Model(2.54) (0.5) L Model L W PLL Model1 T X L1 W1 N Model 1 L X1 W Y1 L W ) )

) P Model ±0.02 R Model ±0.5

L W ±0.012 L W ± 0.01 T

± 0.25 1 T ±0.3 ) ) T T 0.012 max. W 0.098 (2.5

±0.012 0.012 max. ±0.012 0.059 (1.5 0.071 0.071 (1.8 (0.3 max.) ±0.3 ±0.3 T T (0.3 max.) Ø 0.059 (1.5 R 0.059 (1.5 0.012 max. 0.02 0.012 max. 0.012 (0.3 max.) 0.098±0.02 0.1 0.02 Ø C max. 0.012 0.1 (0.3 max.) 0.02 ( у 7.5) (≥ 15) ≥ 0.59

у 0.295 (0.3 max.) (0.5) (2.5±0.5) R (2.54) (0.5) 0.1 0.02 ±0.02d (2.54) b (0.5) C X 0.098 X 0.1 (2.54) (0.5) 1 (2.5±0.5X1 ) Y1 (2.54) P Model PL ModelL L W W R Model N ModelL W L W ) ) )

) ±0.012 ±0.012 ±0.3 ±0.3 ±0.012 ± 0.01 ± 0.25 ±0.3 T T T T 0.012 max. 0.059 (1.5 0.059 (1.5 0.012 max. 0.012 (0.3 max.) 0.012 max. 0.012 (0.3 max.) 0.059 (1.5 (0.3 max.) 0.071 (1.8 R R 0.012d max. b 0.02 C C 0.1 0.1 0.02 0.02 ( у 7.5) (2.54) (0.5) у 0.295 (0.3 max.) (0.5) ±0.02 (2.54) (0.5) PL Model 0.098 N Model X 0.1 L (2.5±0.5) W L W (2.54) )

) ±0.012 ± 0.01 ± 0.25 ±0.3 T STANDARD0.012 max. RATINGS T 0.059 (1.5 (0.3 max.) 0.071 (1.8 Size R 3033 3740 5550 6080 401400.012 max. 80150 8060 0.02 C 0.1 0.02

Exxelia ( у 7.5)

у 0.295 (0.3 max.) (0.5) 53 (2.54)54 55 (0.5) 56 57 58 65 size code 0.098±0.02 X 0.1 (2.50.355±0.5) 0.473 0.587 0.662 0.473 0.945 0.851 (2.54) L max. (9) (12) (14.9) (16.8) (12) (24) (21.6) 0.363 0.453 0.536 0.851 1.504 1.599 0.654 W max. (9.2) (11.5) (13.6) (21.6) (38.2) (40.6) (16.6) 0.122 0.204 0.295 0.393 0.204 0.649 0.582 R min. (3.1) (5.2) (7.5) (10) (5.2) (16.5) (14.8) 0.355 0.473 0.587 0.662 0.473 0.945 0.851 C max. (9) (12) (14.9) (16.8) (12) (24) (21.6)

Dimensions inches (mm) Dimensions inches 0.3 ± 0.02 0.4 ± 0.02 0.551 ± 0.02 0.6 ± 0.02 0.4 ± 0.02 0.8 ± 0.02 0.8 ± 0.02 X (7.62 ± 0.5) (10.16 ± 0.5) (14 ± 0.5) (15.24 ± 0.5) (10.16 ± 0.5) (20.32 ± 0.5) (20.32 ± 0.5) Leads per side 3 4 5 7 14 14 6 Min. Capacitance value 10nF 18nF 33nF 68nF 100nF 150nF 68nF T max. inches (mm) Nb. of chips 100nF 180nF 330nF 680nF 820nF 1.8µF 680nF 0.158 (4) 1

220nF 330nF 560nF 1.2µF 1.5µF 3.3µF 1.2µF 0.315 (8) 2 63 V 330nF 470nF 820nF 1.8µF 2.2µF 4.7µF 1.8µF 0.473 (12) 3

470nF 680nF 1.2µF 2.7µF 3.3µF 6.8µF 2.7µF 0.630 (16) 4

82nF 120nF 220nF 470nF 560nF 1.2µF 470nF 0.158 (4) 1

180nF 270nF 470nF 1µF 1.2µF 2.7µF 1µF 0.315 (8) 2 100 V )

RC 270nF 390nF 680nF 1.5µF 1.8µF 3.9µF 1.5µF 0.473 (12) 3

330nF 470nF 1µF 1.8µF 2.2µF 4.7µF 1.8µF 0.630 (16) 4

56nF 82nF 180nF 330nF 390nF 820nF 330nF 0.158 (4) 1

Rated voltage (U voltage Rated 120nF 180nF 330nF 680nF 820nF 1.5µF 680nF 0.315 (8) 2 200 V 180nF 270nF 470nF 1µF 1.2µF 2.7µF 1µF 0.473 (12) 3

220nF 330nF 680nF 1.2µF 1.5µF 3.3µF 1.2µF 0.630 (16) 4

18nF 27nF 56nF 100nF 150nF 270nF 100nF 0.158 (4) 1

33nF 56nF 120nF 220nF 270nF 560nF 220nF 0.315 (8) 2 500 V 56nF 100nF 180nF 330nF 390nF 820nF 330nF 0.473 (12) 3

68nF 120nF 220nF 390nF 470nF 1.2µF 390nF 0.630 (16) 4

Available capacitance values: NPO dielectric: E6, E12, E24 (see page 14). Speciﬁc values upon request. The above table deﬁnes the standard products, other components may be built upon request.

www.exxelia.com 92 [email protected] Page revised 01/18 CERAMIC CAPACITORS

High Capacitance Stacked Capacitors General characteristicsTEP / TEV Series

FEATURES ELECTRICAL SPECIFICATIONS

• Multilayer chips ceramic capacitors DIELECTRIC NPO • NPO dielectric • Capacitance range: 10nF to 2.7µF Maximum ∆C/°C over temperature range without voltage NA Temperature coefﬁ cient (0±30)ppm/°C • Voltage range: 63 VDC to 500 VDC Ageing None PHYSICAL CHARACTERISTICS Operating temperature –55°C to +125°C Rated voltage (URC) 63 VDC to 500 VDC CONSTRUCTION 2.5 U for U < 500 V Dielectric withstanding voltage RC RC DC Radial leaded varnished stacked chips capacitors for 2 URC for URC = 500 VDC through-hole circuits Capacitance at 1kHz Dissipation factor ≤ 0.15% at 1kHz MARKING (clear or coded) Series, Capacitance value, tolerance, rated voltage, date Insulation resistance at 25°C under URC ≥ 1,000 MΩ.µF code. HIGH CAPACITANCE HIGH

HOW TO ORDER

TEP 53 W F 120nF ±10% 200 V RoHS Series Exxelia size code Quality level Capacitance Tolerance Rated voltage compliant

TEP = 53 - = No RoHS - = standard quality level Capacitance value in clear ±1% 63V radial leads 54 W = RoHS F = Hi-Rel quality: ±2% 100V vertical stack 55 compliant screening in accordance with ±5% 200V 56 Exxelia speciﬁ cation ±10% 500V TEV = 57 ±20% radial leads 58 horizontal stack 65

www.exxelia.com 93 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TEP / TEV Series High Capacitance Stacked Capacitors

DIMENSIONS in inches (mm) TEP ModelTEP Model TEV ModelTEV Model L ModelL Model L L W W L1 L1 T T L1 L1 W1 W1 ) ) ±0.02 ±0.02 ±0.5 ±0.5 T T 1 1 T T

0.012 max.0.012 max. W W 0.098 (2.5 0.098 (2.5 (0.3 max.)(0.3 max.) Ø Ø 0.098±0.020.098±0.02 0.1 0.1 0.02 0.02 Ø Ø (≥ 15) (≥ 15) (2.5±0.5) (2.5±0.5) (2.54) (2.54) (0.5) (0.5) ≥ 0.59 ≥ 0.59 X X 1 1 X1 X1 Y1 Y1 P ModelP Model L L STANDARDW RATINGSW R ModelR Model L L W W ) ) ) )

Size 3033 ±0.012 3740±0.012 5550 6080 40140 80150 8060 ±0.012 ±0.012

Exxelia ±0.3 ±0.3 ±0.3 ±0.3 T T T T 53 54 55 56 57 58 65 size code 0.059 0.059 0.059 0.059 (1.5 (1.5 (1.5 (1.5 0.012 max. 0.012 (0.3 max.) max. 0.012 (0.3 max.) 0.418 0.493 0.623 0.701 0.556 max. 0.012 (0.3 max.) 0.894 max. 0.012 (0.3 max.) 0.894 R R L1 max. (10.6) (12.5) (15.8) (17.8) (14.1) (22.7) (22.7) 0.1 0.1 0.3630.02 0.020.473 0.536 0.851 d1.504 d 1.599 b 0.654 b C C W max. (2.54) (2.54)1 (9.2)(0.5) (0.5)(12) (13.6) (21.6) (38.2) (40.6) (16.6) 0.323 ± 0.02 0.4 ± 0.02 0.579 ± 0.02 0.6 ± 0.02 0.4 ± 0.02 0.835 ± 0.02 0.835 ± 0.02 X max. PL ModelPL Model L L 1 W (8.2W ± 0.5) (10.16 ±N 0.5) Model(14.7N Model ± 0.5) (15.24L ± 0.5) L(10.16 ± 0.5) (21.2 ± 0.5) W(21.2 ± 0.5)W 0.2 ± 0.02 0.3 ± 0.02 0.3 ± 0.02 0.6 ± 0.02 1.1 ± 0.02 1.2) ± 0.02 ) 0.4 ± 0.02 Y max. ) ) Dimensions inches (mm) Dimensions inches 1 (5.08 ± 0.5) (7.62 ± 0.5) (7.62 ± 0.5) (15.24 ± 0.5) (27.94 ± 0.5) (30.48 ± 0.5) (10.16 ± 0.5) ±0.012 ±0.012 ± 0.01 ± 0.01 ± 0.25 ± 0.25 ±0.3 ±0.3

Leads diameter Ø See table below T T T T 0.012 max.0.012 max. Min. Capacitance value 10nF 18nF 33nF 68nF 100nF 150nF 68nF T max. inches (mm) Nb. of chips 0.059 (1.5 0.059 (1.5 0.071 0.071 (1.8 0.071 (1.8 (0.3 max.)(0.3 max.) 100nF 180nF 330nF 680nF 820nF 1.8µF 680nF 0.158 (4) 1 R R 0.012 max.0.012 max. 0.02 0.02 0.1 0.1 220nF0.02 0.02 330nF 560nF 1.2µF 1.5µF 3.3µF 1.2µF 0.315 (8) 2 C C 63 V ( у 7.5) ( у 7.5)

у 0.295 у 0.295 (0.3 max.)(0.3 max.) (0.5) (0.5) (2.54) (2.54) 330nF(0.5) (0.5) 470nF 820nF 1.8µF 2.2µF 4.7µF 1.8µF 0.473 (12) 3 0.098±0.020.098±0.02 X X 0.1 0.1 470nF 680nF 1.2µF 2.7µF 3.3µF 6.8µF 2.7µF 0.630 (16) 4 (2.5±0.5) (2.5±0.5) (2.54) (2.54) 82nF 120nF 220nF 470nF 560nF 1.2µF 470nF 0.158 (4) 1

180nF 270nF 470nF 1µF 1.2µF 2.7µF1µF 0.315 (8) 2 100 V )

RC 270nF 390nF 680nF 1.5µF 1.8µF 3.9µF 1.5µF 0.473 (12) 3

330nF 470nF 1µF 1.8µF 2.2µF 4.7µF 1.8µF 0.630 (16) 4

56nF 82nF 180nF 330nF 390nF 820nF 330nF 0.158 (4) 1

Rated voltage (U voltage Rated 120nF 180nF 330nF 680nF 820nF 1.5µF 680nF 0.315 (8) 2 200 V 180nF 270nF 470nF 1µF 1.2µF 2.7µF1µF 0.473 (12) 3

220nF 330nF 680nF 1.2µF 1.5µF 3.3µF 1.2µF 0.630 (16) 4

18nF 27nF 56nF 100nF 150nF 270nF 100nF 0.158 (4) 1

33nF 56nF 120nF 220nF 270nF 560nF 220nF 0.315 (8) 2 500 V 56nF 100nF 180nF 330nF 390nF 820nF 330nF 0.473 (12) 3

68nF 120nF 220nF 390nF 470nF 1.2µF 390nF 0.630 (16) 4

Available capacitance values: NPO dielectric: E6, E12, E24 (see page 14). Speciﬁc values upon request. The above table deﬁnes the standard products, other components may be built upon request.

TEP 53 - TEP 54 - TEP 55 TEP 56 - TEP 65 TEV 53 TEV 54 - TEV 55 - TEV 56 - TEV 65 T max. Leads diameter Ø (±10%) inches (mm) 0.024 0.031 0.031 0.039 4 (0.6) (0.8) (0.8) (1) 0.024 0.031 0.031 0.039 8 (0.6) (0.8) (0.8) (1) 0.031 0.039 0.031 0.039 12 (0.8) (1) (0.8) (1) 0.031 0.039 0.031 0.039 16 (0.8) (1) (0.8) (1)

www.exxelia.com 94 [email protected] Page revised 02/18 CERAMIC CAPACITORS

High Capacitance Molded Stacked Capacitors General characteristicsTCN8X Series

FEATURES ELECTRICAL SPECIFICATIONS

• Multilayer stacked ceramic capacitors DIELECTRIC X7R • Epoxy resin molding Maximum ∆C/°C • X7R dielectric ≤ 20% over temperature range without voltage • Capacitance range: 470nF to 120µF Operating temperature –55°C +125°C • Voltage range: 50 VDC to 500 VDC

Rated voltage (URC) 50 VDC to 500 VDC PHYSICAL CHARACTERISTICS Dielectric withstanding voltage 2 URC Capacitance at 1kHz 0.3 Vrms CONSTRUCTION Dissipation factor ≤2.5% at 1kHz 0.3 Vrms • TCN83/TCN86: epoxy molded (thermal and mechanical protection) capacitors with four radial leads to guarantee Insulation resistance at 25°C under URC ≥ 500 MΩ.µF enhanced mechanical resistance after mounting • TCN87: epoxy molded (thermal and mechanical protection) capacitors with DIL leads

MARKING Series, Capacitance value, tolerance, rated voltage, date code. HIGH CAPACITANCE HIGH

HOW TO ORDER

TCN83 3 W F 10µF 10% 100 V RoHS Series Exxelia size code Quality level Capacitance Tolerance Rated voltage compliant

TCN83 Only for TCN83 and TCN86: - = No RoHS - = standard quality level Capacitance value in clear ±10% 50 V TCN86 1 W = RoHS F = Hi-Rel quality: ±20% 100 V TCN87 2 200 V 3 compliant screening in accordance with 500 V 4 Exxelia speciﬁ cation 5

www.exxelia.com 95 [email protected] Page revised 09/17 RI EE E 8X

3 rret r SERIES TCN 83 : standard version to be used 3 ree for usual applications CERAMIC CAPACITORS eet er re or rete vs LW frequency e roe e odto e e oe drete de oe dore TCN 83 High Capacitance Molded Stacked Capacitors ESR (m⍀) TapingTCN8X Series: dimensions T 102 ⌱ rms (A) TCN 86 20 5 18

> 30 Ø 2 DIMENSIONS in inches (mm) > 1.181 X Y 16 10 14 LW LW 5 12

TCN 87 5 min. 10

TCN 83 T 7. 2 0.295 min. T 8 TCN 86 0.012 max. 1 TCN 83 µF 4,7 µF 6 5 0.02 0.1 (0.3 max.) 10 µF TCN 83 > 30 Ø 47 µF 4 50 V- 100 µF

> 1.181 0.5 2.54 0.8 ± 0.02 2 100 µF 50 V- 47 µF X Y 2 100 V- 10 µF (20.32 ± 0.5) 0,1 200 V- 4,7 µF 10 225 102 5 103 25 104 0 LW 2 3 4 N (kHz) 10 225 10 5 10 25 10 N (kHz)

TCN 87 5 min. T 7. STANDARD0.295 min. RATINGS rret r TCN 86 : version featuring particular electrode 0.012 max. ree Series TCN83 TCN86 TCN83(0.3 max.) TCN86 TCN83 TCN86geometry TCN83 (crossed TCN86 electrodes) TCN83 allowing, TCN86 compared TCN87 to Case 0.02 10.1 1 2 2 3 3 TCN4 83, to achieve4 : 5 5 - re or ±0.020.5 2.540.787 0.8 0.787 ± 0.02 0.787 0.787 0.787 1.673 eet er L (±0.5) (20) (20) (20) (20) (20) (42.5) (20.32 ± 0.5) • lower series resistance RS, rete e roe e odto e e W ±0.02 0.748 0.787 0.748 0.787RI0.748 0.787 EE0.748 0.787 E0.748 0.787 0.906 (±0.5) (19) (20) (19) (20) (19) (20) (19)• higher (20)permissible(19) rms. current,(20) (23) oe drete de oe dore ±0.02 0.701 0.600 0.701 0.600 0.701 0.600 0.701• higher0.600 resonance0.701 frequency0.600 ree 8X X (±0.5) (17.8) (15.24) (17.8) (15.24) (17.8) (15.24) (17.8) (15.24) (17.8) (15.24) - ⌱ rms (A) ±0.02 0.400 0.500 0.400 0.500 0.400 0.500 0.400 0.500 0.400 0.500 ESR (m⍀) 50 Y - 10 (±0.5) (10.16) (12.7) (10.16) (12.7) (10.16) (12.7) (10.16) (12.7) (10.16) (12.7) SERIES 3 rret rTCN 86 T 0.256 max 0.315 max 0.493 max 0.788 max 1.182 max 0.492±0.02 (6.5 max) TCN 83 (8: max) standard version(12.5 to max) be used (20 max)3 (30 max) (12.5±0.5) 4,7 µF Dimensions inches (mm) Dimensions inches 5 ree 10 µF Ø ± 10% 0.039 for usual applications0.039 0.039 0.039 0.039 - 40 (1) (1) (1) (1)eet er(1) 47 µF Min. Capacitance value 0.47µF 0.56µF 1.8µF 3.3µF 5.6µF 2.2µF re or 100 µF Standard 12µF 12µF 18µF 18µF 27µF 27µF 68µF rete68µF 100 µF 100 vsµF 100µF 2 63 V 30 Extended 18µF 18µF 27µF 27µF 47µF 39µF 82µF frequency82µF 120 µF 120µF 120µF e roe e odto e e

) Standard 4.7µF 4.7µF 6.8µF 6.8µF 15µF 15µF 27µF 27µF 39µF 39µF 56µF oe1 drete de oe dore

RC 100 V Extended 15µF 5.6µF 18µF 10µF 47µF 18µF 56µF ESR (m33⍀µ)F 47µF 47µF 68µF 20 Standard 1.5µF 1.5µF 2.2µF 2.2µF 3.9µF 3.9µF 8.2µF 102 8.2µF 15µF 15µF 15µF ⌱ rms (A) 5 Rated Rated 200 V 20 Extended 3.3µF 2.7µF 6.8µF 3.9µF 12µF 6.8µF 12µF 12µF 18µF 18µF 22µF

voltage (U voltage 5 TCN 86 400V Extended 1.5µF–1.8µF–4.7µF –The 6.8 µ totalF– use of the the8.2 µF– crossed four pole design– 18 10 50 V - 100 µF Standard 0.82µF 0.82µF 1.5µF 1.5µF 2.7µF 2.7µF allows4.7µF operation4.7µF at a higher 6.8µF operating 6.8µF frequency8.2µ Fand 50 V - 47 µF 500 V 2 2 Extended 1.5µF 1.5µF 1.8µF 1.8µF 3.3µF 3.3µFreduces 5.6µF noise 5.6 dueµF to switching8.2µF (lower8.2µ selfF inductance)12µF 16 100 V - 10 µF 10 0 200 V - 4,7 µF for a given capacitance value (see figures on the right). 0,1 14 10 25 102 225 103 5 104 Available capacitance values: E6, E12 (see page XX). Specifi c values upon request. 10 25 102 225 103 5 104 EXXELIA 5 N (kHz) The above table defi nes the standard products, other components may be built upon request. 12 N (kHz) 10 RI EE E 2 rret r 8 TCN871 TCN 83 8X ree µF 4,7 µF 6 The use5 of DIL connections and the general 10 µF “line eet er TCN 83 re or 47 µF 4 50 V- 100 µF SERIES 3shape”2 ofrret the capacitor r provide for : 100 µF rete 50 V- 47 µF ELECTRICAL EQUIVALENT CIRCUITS 2 100 V- 10 µF e roe e odto e e TCN 83 : standard version to be used 3 0,1 200 V- 4,7 µF ree10 225 102 5 103 25 104 0ree • easy placement, 2 3 4 oe drete de oe dore for usual applications N (kHz) 10 225 10 5 10 25 10 eet er • very high permissible rms currents, N (kHz) ESR (m⍀) ⌱ rms (A) TCN 83 TCN 86 TCN re 87 or 60 rete vs • suppression of switching noise. 102 TCN 87 Standard version to be used for usual applications. Version featuring particular electrode geometrye roeThe use e of odtoDIL connections and e the generale «line rret r CNC 87 P 50 V 82 µF- TCNfrequency 86 : version featuring particular electrode 5 CNC 87 N 100 V - 33 µF (crossed electrodes) allowing, compared to TCNoe Figures dreteshape» on the ofright the de show capacitor oethe outstandingprovide dore for: performance ree TCN 87 50 200 V - 10 µF geometry (crossed electrodes) allowing, compared to 2,2 µF 500 V -- 2,2 µ ESR (m83,⍀) to achieve: of these• easy components placement in terms of impedance and series 2 10 µF 10TCN2 83, to achieve : ⌱ rms (A) re or 33 µF • lower series resistance RS resistance20 • very. high permissible rms currents 40 eet er 10 82 µF 5 • lower• higher series permissible resistance rms. currentRS, • suppression of switching noise 18 rete e5 roe e odto e e • higher• higher permissible resonance frequency rms. current, oe drete de oe dore 30 2 16 ree • higher resonance frequency 2 10 The total use of the the 14 ⌱ rms (A) ESR (m⍀) 150 20 10 5 crossed four pole design 12 allows operation at a TCN 86 5 10 4,7 µF 10 2 5 higher operating fre- 10 µF 240 8 47 µF 1 quencyTCN 83 and reduces 100 µF 0 0,1 2225 2 5 3 5 4 10 225 102 5 103 25 104 10 10 10 10 noise 4,7 due µF to switching 6 2 5 10 µF TCN 83 30 N (kHz) N (kHz) (lower 47 self µF inductance) 4 Figures on the right show the 50outstanding V- 100 µF perfor- 2 for a100 given µF capacitance mance of these components 50in V terms- 47 µF of imped- 2 1 100 V- 10 µF 0,1 value (see fi gures on ance and series resistance. 200 V- 4,7 µF 20 10 225 102 5 103 25 104 0 2 3 4 the right).N (kHz) 10 225 5 10 5 10 25 10 N (kHz) TCN 86 The total use of the the crossed four pole design 10 allows operation at a higher operating frequency and 50 V - 100 µF rret2 r 50 V - 47 µF TCN 86 : version featuring particular electrode reduces noise due to switching (lower self inductance) 100 V - 10 µF ree 0 200 V - 4,7 µF geometry (crossed electrodes) allowing, compared to for a given capacitance value (see figures on the right). 0,1 10 25 102 225 103 5 104 25 2 225 3 5 4 EXXELIA www.exxelia.com 96 [email protected] re10 or10 10 Page revised10 09/17 N (kHz) TCN 83, to achieve : eet er N (kHz) • lower series resistance RS, rete e roe e odto e e rret r • higher permissible rms. current, TCN87 oe drete de oe dore • higher resonance frequency ree ree ⌱ rms (A) TheESR use (m⍀ )of DIL connections and the general “line 50 eet er re or 10 shape” of the capacitor provide for : rete TCN 86 e roe e odto e e 4,7 µF 5 ree • easy placement, 10 µF 40 oe drete de oe dore • very high permissible rms 47 currents, µF 100 µF ESR (m⍀) ⌱ rms (A) 2 60 2 • suppression of switching noise. 10 TCN 87 30 CNC 87 P 50 V 82 µF- 5 CNC 87 N 100 V - 33 µF Figures show the outstanding performance TCN 87 1 on the right 50 200 V - 10 µF 2,2 µF 500 V -- 2,2 µ of these components in terms of impedance and series20 2 10 µF resistance. 33 µF 5 10 82 µF 40 TCN 86 The total use of the the crossed four pole design 10 5 50 V - 100 µF 30 allows operation at a higher operating frequency and 2 50 V - 47 µF reduces noise due to switching (lower self inductance) 2 100 V - 10 µF 0 200 V - 4,7 µF for a given capacitance value (see figures on the right). 0,1 10 25 102 225 103 5 104 20 25 2 225 3 5 4 1 EXXELIA 10 10 10 10 N (kHz) N (kHz) 5 10 2 rret r TCN87 0 ree0,1 2225 2 5 3 5 4 10 225 102 5 103 25 104 10 10 10 10 N (kHz) The use of DIL connections and the general “line eet er re or N (kHz) shape” of the capacitor provide for : rete e roe e odto e e • easy placement, ree oe drete de oe dore • very high permissible rms currents, ESR (m⍀) ⌱ rms (A) 60 • suppression of switching noise. 102 TCN 87 CNC 87 P 50 V 82 µF- 5 CNC 87 N 100 V - 33 µF Figures on the right show the outstanding performance TCN 87 50 200 V - 10 µF 2,2 µF 500 V -- 2,2 µ of these components in terms of impedance and series 2 10 µF resistance. 33 µF 10 82 µF 40

5 30

1 20

5 10 2 0 0,1 2225 2 5 3 5 4 10 225 102 5 103 25 104 10 10 10 10 N (kHz) N (kHz) HIGH TEMPERATURE

GENERAL INFORMATION ...... 98 CE / CN SERIES High Temperature Chips Capacitors ...... 100 SCT SERIES High Temperature Stacked Capacitors ...... 102 TCE / TCN MOLDED SERIES HT High Temperature Molded Capacitors ...... 107 TCE / TCN SELF-PROTECTED SERIES High Temperature Self-Protected Capacitors ...... 109 TCH SERIES High Temperature / High Voltage Capacitors ...... 111 CERAMIC CAPACITORS TapingGeneral : dimensionsInformation

High temperature capacitors are made of class 1 or class 2 ceramic dielectrics Mechanical stress is eliminated with replacement of epoxy by selfprotected featuring special compositions based upon high purity oxides to reduce ionic ceramic. This also allows the increase of the capacitance ranges and improves conduction inherent to the presence of atoms such as sodium. the reliability. In addition, all quality controls carried out at intermediate and final production • high voltage varnished capacitors (TCH 279 to 285) stages (lot acceptance test under URC and insulation resistance measurement • high capacitance value SCT Series. at operating temperature) are the assurance of enhanced reliability. They are highly recommended for operation at temperatures of up to 200°C. High temperature capacitors include : Capacitors specifically designed for higher operating temperatures (e.g. TCE / TCN 212 to 216 and TCE / TCN 263 to 266) are also available. • chip class 1 (CEC 203 to CEC 233) and class 2 (CNC 203 to 233), • encapsulated radial leads class 1 and 2 (TCE / TCN 201 to 204), High temperature capacitors are made of class 1 or class 2 ceramic dielectrics • encapsulated axial leads class 1 and 2 (TCE / TCN 252 to 254), featuring special compositions based upon high purity oxides to reduce ionic • selfprotected radial leads class 1 and 2 (TCE / TCN 212 to 216) conduction inherent to the presence of atoms such as sodium. and radial leads class 1 and 2 (TCE / TCN 263). In addition, all quality controls carried out at intermediate and final production stages (lot acceptance test under 0.5 URC and insulation resistance measurement at 200°C) are the assurance of enhanced reliability.

TYPICAL CURVES: CE / CN Series, TCE / TCN Series, TCH Series

NPO: TYPICAL CAPACITANCE VARIATION VERSUS TEMPERATURE NPO: TYPICAL INSULATION RESISTANCE VERSUS TEMPERATURE

∆C/C (%) Insulation resistance (MΩ.µF) 0.8 1000000

0.6

100000 0.4

0.2 10000

1000 –0.2

–0.4 100

–0.6

10 –0.8 –50 –20 10 40 70 100 130 160 190 220 250

Typical Limit Temperature (°C) 1 25 50 75 100 125 150 175 200 225 250 Temperature (°C)

X7R: TYPICAL CAPACITANCE VARIATION VERSUS TEMPERATURE X7R: TYPICAL INSULATION RESISTANCE VERSUS TEMPERATURE

∆C/C (%) Insulation resistance (MΩ.µF) 5 10000

–5

1000 –15

–25

100 –35

–45

–55

–65 –50 –20 10 40 70 100 130 160 190 220 250 1 25 50 75 100 125 150 175 200 225 250 Temperature coefficient without voltage Temperature coefficient at full rated voltage Temperature (°C) Temperature (°C)

www.exxelia.com 98 [email protected] Page revised 09/17 CERAMIC CAPACITORS GeneralGeneral characteristics Information

TYPICAL CURVES: SCT Series

∆C/C VERSUS APPLIED VOLTAGE AND RATED VOLTAGE (UR) CAPACITANCE VERSUS TEMPERATURE

∆C/C (%) ∆C/C (%) 20 10

10 0 0 –10 –10

–20 –20

–30 –30 –40

–50 –40

–60 –50 –70 –60 –80

–90 –70 0 50 100 150 200 250 300 350 400 450 500 –60 –40 –20 0 20 40 60 80 100 120 140 160 180 200

UR = 100V UR = 200V UR = 500V Voltage (V) Temperature (°C)

DIELECTRIC LOSSES VERSUS TEMPERATURE INSULATION RESISTANCE VERSUS TEMPERATURE

DF (%) RI (Ω.F) 3,5 100000

2.5 10000

1.5 1000

100 0.5

10 –0.5 –60 –40 –20 0 20 40 60 80 100 120 140 160 180 200 –60 –40 –20 0 20 40 60 80 100 120 140 160 180 200 Temperature (°C) Temperature (°C) HIGH TEMPERATURE HIGH

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TapingCE/CN Series: dimensions High Temperature Chips Capacitors

ELECTRICAL SPECIFICATIONS

Description NPO X7R Operating temperature –55°C to +250°C –55°C to +250°C

Rated voltage at 20° C 16 VDC to 100 VDC 16 VDC to 500 VDC 2.5 U for U < 500 V 2.5 U for U < 500 V Dielectric withstanding voltage at 20° C RC RC DC RC RC DC 1.5 URC for URC = 500 VDC 1.5 URC for URC = 500 VDC at 1MHz for C ≤ 1,000pF at 1MHz for C ≤ 100pF Capacitance at 1kHz for C > 1,000pF at 1kHz for C > 100pF ≤ 0.015 (150/C + 7)% at 1MHz for C ≤ 50pF ≤ 2.5% at 1MHz for C ≤ 100pF Dissipation factor at 20° C ≤ 0.15% at 1MHz ≤ 2.5% at 1kHz for C > 100pF for 50pF < C ≤ 1,000pF FEATURES ≤ 0.15% at 1kHz for C > 1,000pF ≤ 0.03 (150/C + 7)% at 1MHz • Multilayer Chips Ceramic Capacitors for operating for C ≤ 50pF ≤ 1.5% at 1MHz for C ≤ 100pF Dissipation factor at 200° C ≤ 0.3% at 1MHz temperature up to 250° C ≤ 1.5% at 1kHz for C > 100pF • Size 0402 to 3040 for 50pF < C ≤ 1,000pF ≤ 0.3% at 1kHz for C > 1,000pF • NPO and X7R dielectrics • Capacitance range: 1pF to 8.2µF ≤ 0.03 (150/C + 7)% at 1MHz for C ≤ 50pF ≤ 0.5% at 1MHz for C ≤ 100pF • Voltage range at 20°C: 16 VDC to 100 VDC Dissipation factor at 220° C ≤ 0.3% at 1MHz ≤ 0.5% at 1kHz for C > 100pF for 50pF < C ≤ 1,000pF ≤ 0.3% at 1kHz for C > 1,000pF ≤ 0.03 (150/C + 7)% at 1MHz PHYSICAL CHARACTERISTICS for C ≤ 50pF ≤ 0.5% at 1MHz for C ≤ 100pF Dissipation factor at 250° C ≤ 0.3% at 1MHz CONSTRUCTION ≤ 0.5% at 1kHz for C > 100pF for 50pF < C ≤ 1,000pF Bare chips capacitors for surface mounting with optional ≤ 0.3% at 1kHz for C > 1,000pF nickel barrier and tinning. Insulation resistance at 20° C ≥ 100,000MΩ or ≥ 1,000MΩ.µF ≥ 100,000MΩ or ≥ 1,000MΩ.µF under URC (whichever is less) (whichever is less) Insulation resistance at 200° C ≥ 1,000MΩ or ≥ 20MΩ.µF ≥ 1,000MΩ or ≥ 10MΩ.µF

MARKING (clear or coded) under URC (whichever is less) (whichever is less) Capacitance value (not available on sizes 0402 and 0403). Insulation resistance at 220° C ≥ 800MΩ or ≥ 8MΩ.µF ≥ 200MΩ or ≥ 4MΩ.µF

under URC (whichever is less) (whichever is less) Insulation resistance at 250° C ≥ 200MΩ or ≥ 2MΩ.µF ≥ 100MΩ or ≥ 1MΩ.µF

under URC (whichever is less) (whichever is less)

Ageing None ≤ 2.5% per decade hour

HOW TO ORDER

CNC 2 11 CN 2X 0805 C W M 47nF 10% 100 V S8 CN 5X 0805 Exxelia RoHS Rated voltage Series size code Terminations compliant Marking Capacitance Tolerance at 20° C Packaging

Operating temperature 19 = 0402 W = RoHS compliant - = No RoHS - = Capacitance NPO: 16V - = Exxelia packaging Up to 200° C 17 = 0403 no marking value in clear cap. value ≤ 12pF 25 V 14 = 0603 - Ag/Pd/Pt W Ag/Pd/Pt W = RoHS 50 V S8* = available for CEC2 = NPO ±0.25pF 0402 to 1210 sizes. CNC2 = X7R 03 = 0805 compliant M = Marking: 100 V 08 = 1206 capacitance value cap. value ≤ 8.2pF S12* = available for 11 = 1210 For working temperature up to 200°C clear or coded ±0.5pF Up to 220° C Up to size 1210 for X7R and 2220 for NPO 1812 to 2220 sizes. CE2X = NPO 20 = 1812 (not available on ±1pF 28 = 1825 Ag + Ni Ag + Ni BA* = available for CN2X = X7R E + HMP EW + electrolytic Sn sizes 0402 and cap. value > 22pF 30 = 2220 0403) 0402 to 2220 sizes. 25 = 2225 Ag + Ni ±1% Up to 250° C C + electrolytic CW Ag + Ni CE5X = NPO 33 = 3030 Sn/Pb 95/5 + electrolytic Sn cap. value > 12pF * not available with E, EW 40 = 3040 CN5X = X7R G Ag + Ni + Au GW Ag + Ni + Au ±2% terminations For 2X and 5X cap. value > 8.2pF See page 13 series, use the ±5% standard size For working temperature up to 180°C Up to size 3030 ±10% Ag + Polymer + Ni Ag + Polymer cap. value > 3.9pF YC + Sn/Pb 95/5 YCW + Ni + Sn ±20% Ag + Polymer Ag + Polymer YG + Ni + Au YGW + Ni + Au X7R: ±10% ±20%

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High Temperature Chips Capacitors General characteristicsCE/CN Series

DIMENSIONS in inches (mm) L T a W

L, W, T, for tinned chips (option E, EW, H, or HW): +0.02'' (+0,5mm)

STANDARD RATINGS

Standard size 0402 0403 0603 0805 1206 1210 Exxelia size code 19 17 14 03 08 11 0.039 ± 0.004 0.039 ± 0.004 0.063 ± 0.006 0.079 ± 0.012 0.126 ± 0.01 0.126 ± 0.016 L (1 ± 0.1) (1 ± 0.1) (1.6 ± 0.15) (2 ± 0.3) (3.2 ± 0.25) (3.2 ± 0.4) 0.02 ± 0.004 0.03 ± 0.004 0.032 ± 0.006 0.049 ± 0.008 0.063 ± 0.006 0.098 ± 0.012 W (0.5 ± 0.1) (0.76 ± 0.1) (0.8 ± 0.15) (1.25 ± 0.2) (1.6 ± 0.15) (2.5 ± 0.3) 0.004 min 0.004 min 0.012 ± 0.008 0.02 ± 0.012 0.02 ± 0.012 0.024 ± 0.016 a Dimensions inches (mm) inches (0.1) min (0.1) min (0.3 ± 0.2) (0.5 ± 0.3) (0.5 ± 0.3) (0.6 ± 0.4) 0.024 0.032 0.04 0.052 0.063 0.071 T max. (0.6) (0.8) (1) (1.3) (1.6) (1.8) Dielectric NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R Min. Capa. value 1pF 10pF 1pF 10pF 1pF 10pF 1pF 10pF 1pF 100pF 10pF 180pF 20°C 200°C 220°C 250°C )

RC 16V 8V 5V 3V 270pF 15nF 820pF 47nF 2.7nF 120nF 12nF 470nF 22nF 1.2µF 56nF 2.2µF

25V 12V 8V 5V 180pF 5.6nF 470pF 18nF 1.8nF 56nF 6.8nF 220nF 15nF 680nF 39nF 1µF

50V 25V 16V 10V 82pF 3.9nF 330pF 12nF 820pF 33nF 3.3nF 120nF 8.2nF 270nF 18nF 560nF Rated voltage (U voltage Rated 100V 50V 25V 16V 39pF 1.2nF 120pF 3.3nF 330pF 12nF 1.5nF 39nF 3.9nF 120nF 8.2nF 220nF

Standard size 1812 1825 2220 2225 3030 3040 Exxelia size code 20 28 30 25 33 40 0.177 ± 0.02 0.177 ± 0.020 0.224 ± 0.02 0.224 ± 0.02 0.299 ± 0.02 0.299 ± 0.02 L (4.5 ± 0.5) (4.5 ± 0.5) (5.7 ± 0.5) (5.7 ± 0.5) (7.6 ± 0.5) (7.6 ± 0.5) 0.126 ± 0.016 0.250 ± 0.020 0.197 ± 0.02 0.250 ± 0.020 0.299 ± 0.02 0.4 ± 0.02 W (3.2 ± 0.4) (6.35 ± 0.5) (5 ± 0.5) (6.35 ± 0.5) (7.6 ± 0.5) (10.16 ± 0.5) 0.024 ± 0.016 0.024 ± 0.020 0.024 ± 0.016 0.024 ± 0.020 0.024 ± 0.016 0.024 ± 0.016 a Dimensions inches (mm) inches (0.6 ± 0.4) (0.6 ± 0.4) (0.6 ± 0.4) (0.6 ± 0.4) (0.6 ± 0.4) (0.6 ± 0.4) 0.071 0.071 0.071 0.079 0.079 0.079 TEMPERATURE HIGH T max. (1.8) (1.8) (1.8) (2) (2) (2) Dielectric NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R Min. Capa. value 47pF 470pF 100pF 1nF 100pF 1.2nF 150pF 1.5npF 390pF 4.7nF 680pF 8.2nF 20°C 200°C 220°C 250°C )

RC 16V 8V 5V 3V 100nF 4.7µF 150nF 2.7µF 180nF 10µF 180nF 4.7µF 330nF 6.8µF 470nF 8.2µF

25V 12V 8V 5V 47nF 2.2µF 82nF 2.2µF 82nF 4.7µF 100nF 3.9µF 180nF 3.9µF 270nF 5.6µF

50V 25V 16V 10V 27nF 1.2µF 56nF 1.5µF 56nF 2.7µF 68nF 2.2µF 120nF 2.7µF 150nF 3.9µF Rated voltage (U voltage Rated 100V 50V 25V 16V 15nF 470nF 22nF 820nF 33nF 1µF 33nF 1.2µF 56nF 1.5µF 82nF 2.2µF

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TapingSCT Series : dimensions High Temperature Stacked Capacitors

FEATURES ELECTRICAL SPECIFICATIONS

• Multilayer stacked ceramic capacitors Description «X» Series (type II) • Dielectric type II CECC 2R1 • Capacitance range: 47 nF to 390 µF EIA X7R • Voltage range: 50 VDC to 500 VDC Exxelia Temex Code X TERMINATIONS Operating temperature range –55°C to +125°C • Ag 100% termination developed for high temperature up to Storage temperature range –55°C to +125°C 215°C. Less sensitive to thermal shocks and compatible Maximun ∆C/°C over Temperature range ± 15% with high melting point solder containing lead. without voltage applied • DIL type J, L or N are available. Ageing ≤2.5% per decade hour Dissipation Factor (DF) ≤ 2.5% MARKING U ≤ 200 V: 2.5 x U Voltage proof R R UR > 200 V: 2.0 x UR Size Marking codes Example Insulation Resistance (IR) at 25°C under Ur 100GΩ or 1000Ω.F whichever is the less «TA» logo TA Insulation Resistance (IR) at 125°C under Ur 10GΩ or 100Ω.F whichever is the less All sizes Cap code + Tolerance code 105M ≤ 100pF: 1MHz / 1Vrms (no bias) Measurement Conditions for C and DF at 20°C Rated voltage value 100 V > 100pF: 1KHz / 1Vrms (no bias) Capacitance versus applied Voltage and Temperature See page 99 PACKAGING

«Blister» boxes: For all products, special «blister» boxes are used to optimize the protection of the parts during the carriage and the storage. Depending upon the termination (with or without connection) and the size, the number of the parts in each box is deﬁ ned. Please, consult us for more details.

HOW TO ORDER

201 SCT 01 X 105 K R - -RoHS Rated Exxelia Dielectric RoHS Series Capacitance Tolerance Termination Coating voltage size code code Compliant

500: 50 V SCT 00 X = X7R 1st two digits represent K = ±10% - = uncoated and no Non-RoHS not available 101: 100 V 01 signifi cant fi gures; last M = ±20% DN DIL N type marking 201: 200 V 02 digit specifi es the num- 501: 500 V 04 ber of zeros to follow. U = uncoated and 05 Examples: DJ DIL J type RoHS = HMP tinned phosphor bronze, non magnetic. marked 06 104: 0.1µF 07 335: 3.3µF 10 156: 15µF DL DIL L type 12 107: 10µF

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High Temperature Stacked Capacitors General characteristicsSCT Series

DIMENSIONS in inches (mm)

SC SERIES

Dual In Line DIL termination “DN” Type “DJ” Type “DL” Type L L L

LS E D Number of Size L max. W max. ± 0.02* ± 0.012 ± 0.02 leads per H max. (±0.5)* (±0.5)** (±0.5) side H H H 0.300 0.276 0.250 0.071 0.079 SCT00 3 (7.62) (7) (6.35) (1.8) (2) E E 0.402 0.378 0.300 0.059 0.098 SCT01 3 (10.2) (9.6) (7.62) (1.5) (2.5) ≥ 0.147 (≥ 3.75) D D 0.469 0.449 0.400 0.059 0.098 Ls Ls Ls SCT02 4 (11.9) (11.4) (10.16) (1.5) (2.5) 0.650 0.552 0.539 0.059 0.098 SCT04 5 TA TA TA (16.5) (14) (13.7) (1.5) (2.5) 105M 105M 105M 100V 100V 100V 0.729 0.670 0.700 0.059 0.098 SCT05 6 (18.5) (17) (17.78) (1.5) (2.5) 0.01 (0.25) 0.01 (0.25) 0.01 (0.25) 0.701 0.851 0.600 0.059 0.098 SCT06 7 W W W (17.8) (21.6) (15.24) (1.5) (2.5) 0.894 0.654 0.800 0.059 0.098 SCT07 6 (22.7) (16.6) (20.32) (1.5) (2.5)

0.520 1.083 0.453 0.083 0.102 ratings standard of tables the consult Please, SCT10 10 (13.2) (27.5) (11.5) (2.1) (2.6) 0.945 1.598 0.800 0.098 0.098 SCT12 14 (24) (40.6) (20.32) (2.5) (2.5) 0.02 0.02 0.02 (0.5) (0.5) * Except for the SCT07, tolerance = ± 0.032 in (±0.8mm). 0.1 (0.5) 0.1 0.1 (2.54) (2.54) (2.54) ** For the SCT12, tolerance = ± 0.012 in (±0.3mm).

Note: the marking shown here is just given as an example

Wires bending: 10° max 10 ° max

DERATING RULES The given voltages in the below capacitance range are the nominal voltages at 125°C. HIGH TEMPERATURE HIGH For higher operating temperatures, the derating rules to be applied on the voltage versus temperature are deﬁned as per the following table :

125°C 200°C 215°C

500V 200V 100V

200V 100V 50V

100V 50V 25V

50V 25V 16V

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TapingSCT Series : dimensions High Temperature Stacked Capacitors

STANDARD RATINGS

Exxelia 2225 3033 3740 5550 size code SCT00 SCT01 SCT02 SCT04

UR 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V code Cap. 0.118 0.083 47 nF 473 (3) (2.1) 0.118 0.083 56 563 (3) (2.1) 0.118 0.083 68 683 (3) (2.1) 0.118 0.083 82 823 (3) (2.1) 0.039 0.118 0.083 0.098 0.118 100 104 (1.8) (3) (2.1) (2.5) (3) 0.039 0.118 0.083 0.098 0.118 120 124 (1.8) (3) (2.1) (2.5) (3) 0.079 0.252 0.083 0.098 0.118 150 154 (2) (6.4) (2.1) (2.5) (3) 0.039 0.039 0.079 0.252 0.083 0.083 0.083 0.126 0.083 0.118 180 184 (1.8) (1.8) (2) (6.4) (2.1) (2.1) (2.1) (3.2) (2.1) (3) 0.039 0.039 0.098 0.252 0.083 0.083 0.083 0.126 0.083 0.118 220 224 (1.8) (1.8) (2.5) (6.4) (2.1) (2.1) (2.1) (3.2) (2.1) (3) 0.039 0.039 0.098 0.378 0.083 0.083 0.083 0.138 0.083 0.118 270 0.098 274 (1.8) (1.8) (2.5) (9.6) (2.1) (2.1) (2.1) (3.5) (2.1) (3) (2.5) 0.039 0.039 0.118 0.378 0.083 0.083 0.083 0.241 0.083 0.083 0.083 0.130 330 0.098 334 (1.8) (1.8) (3) (9.6) (2.1) (2.1) (2.1) (6.1) (2.1) (2.1) (2.1) (3.3) (2.5) 0.039 0.039 0.118 0.504 0.083 0.083 0.083 0.241 0.083 0.083 0.083 0.138 390 0.098 394 (1.8) (1.8) (3) (12.8) (2.1) (2.1) (2.1) (6.1) (2.1) (2.1) (2.1) (3.5) (2.5) 0.039 0.039 0.213 0.504 0.083 0.083 0.083 0.272 0.083 0.083 0.083 0.157 470 0.118 474 (1.8) (1.8) (5.4) (12.8) (2.1) (2.1) (2.1) (6.9) (2.1) (2.1) (2.1) (4) (3) 0.079 0.079 0.232 0.551 0.083 0.083 0.098 0.414 0.083 0.083 0.083 0.169 560 0.118 564 (2) (2) (5.9) (14) (2.1) (2.1) (2.5) (10.5) (2.1) (2.1) (2.1) (4.3) (3) 0.079 0.079 0.252 0.630 0.083 0.083 0.118 0.414 0.083 0.083 0.098 0.276 680 0.118 684 (2) (2) (6.4) (16) (2.1) (2.1) (3) (10.5) (2.1) (2.1) (2.5) (7) (3) 0.079 0.079 0.319 0.709 0.083 0.083 0.138 0.548 0.083 0.083 0.098 0.390 820 0.118 0.138 824 (2) (2) (8.1) (18) (2.1) (2.1) (3,5) (13.9) (2.1) (2.1) (2.5) (9.9) (3) (3.5) 0.087 0.087 0.378 0.098 0.098 0.174 0.583 0.083 0.083 0.118 0.406 1 µF 0.118 0.165 105 (2.2) (2.2) (9.6) (2.5) (2.5) (4.4) (14.8) (2.1) (2.1) (3) (10.3) (3) (4.2) 0.098 0.098 0.504 0.098 0.098 0.213 0.669 0.083 0.083 0.138 0.552 1.2 0.118 0.252 125 (2.5) (2.5) (12.8) (2.5) (2.5) (5.4) (17.6) (2.1) (2.1) (3.5) (14) (3) (6.4) 0.118 0.118 0.551 0.110 0.110 0.260 0.083 0.083 0.157 0.630 1.5 0.118 0.378 155 (3) (3) (14) (2.8) (2.8) (6.6) (2.1) (2.1) (4) (16) (3) (9.6) 0.173 0.173 0.630 0.110 0.110 0.347 0.098 0.098 0.233 0.709 1.8 0.098 0.098 0.118 0.378 185 (4.4) (4.4) (16.4) (2.8) (2.8) (8.8) (2.5) (2.5) (5.9) (18) (2.5) (2.5) (3) (9.6) 0.197 0.197 0.630 0.110 0.110 0.426 0.098 0.098 0.252 0.709 2.2 0.098 0.098 0.118 0.378 225 (5.1) (5.1) (16.4) (2.8) (2.8) (10.8) (2.5) (2.5) (6.4) (18) (2.5) (2.5) (3) (9.6) 0.232 0.232 0.130 0.130 0.552 0.110 0.110 0.252 2.7 0.098 0.098 0.138 0.504 275 (5.9) (5.9) (3.3) (3.3) (14) (2.8) (2.8) (6.4) (2.5) (2.5) (3.5) (12.8) 0.296 0.296 0.150 0.150 0.591 0.110 0.110 0.378 3.3 0.098 0.098 0.157 0.583 335 (7.5) (7.5) (3.8) (3.8) (15) (2.8) (2.8) (9.6) (2.5) (2.5) (4) (14.8) 0.339 0.339 0.237 0.244 0.130 0.130 0.378 3.9 0.098 0.098 0.252 0.662 395 (8.6) (8.6) (6) (6.2) (3.3) (3.3) (9.6) (2.5) (2.5) (6.4) (16.8) 0.378 0.378 0.237 0.252 0.138 0.138 0.504 4.7 0.118 0.118 0.378 475 (9.6) (9.6) (6) (6.4) (3.5) (3.5) (12.8) (3) (3) (9.6) 0.484 0.484 0.276 0.283 0.142 0.142 0.630 5.6 0.118 0.118 0.378 565 (12.3) (12.3) (7) (7.2) (3.6) (3.6) (16) (3) (3) (9.6) 0.504 0.504 0.315 0.323 0.185 0.185 0.709 6.8 0.118 0.118 0.434 685 (12.8) (12.8) (8) (8.2) (4.7) (4.7) (18) (3) (3) (11) 0.630 0.630 0.434 0.441 0.284 0.354 8.2 0.138 0.138 0.438 825 (16) (16) (11) (11.2) (7.2) (9) (3.5) (3.5) (11.1) 0.473 0.480 0.292 0.354 10 0.150 0.150 0.497 106 (12) (12.2) (7.4) (9) (3.8) (3.8) (12.6) 0.552 0.559 0.414 0.472 12 0.252 0.252 0.630 126 (14) (14.4) (10.5) (12) (6.4) (6.4) (16) 0.438 0.492 15 0.284 0.319 156 (11.1) (12.5) (7.2) (8.1) 0.583 0.591 18 0.304 0.394 186 (14.8) (15) (7.7) (10.8) 0.598 0.598 22 0.315 0.504 226 (15.2) (15.2) (8) (12.8) 0.461 0.504 27 (11.7) (12.8) 276 0.473 0.583 33 (12) (14.8) 336 0.630 0.662 39 (16) (16.8) 396

* Consult us - The height Hmax in inches (in mm) for the SCT Series is indicated in the cells.

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High Temperature Stacked Capacitors General characteristicsSCT Series

STANDARD RATINGS

Exxelia 6560 6080 / 8060 45107 45214 size code SCT05 SCT06 / SCT07 SCT10 SCT11

UR 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V code Cap. 0.098 270 nF (2.5) 274 0.098 330 (2.5) 334 0.098 390 (2.5) 394 0.098 0.118 470 (2.5) (3) 474 0.098 0.098 0.118 560 (2.5) (2.5) (3) 564 0.098 0.098 0.118 0.138 680 (2.5) (2.5) (3) (3.5) 684 0.098 0.118 0.118 0.118 0.138 820 (2.5) (3) (3) (3) (3.5) 824 0.098 0.098 0.098 0.118 0.118 0.118 0.118 0.118 0.150 1 µF (2.5) (2.5) (2.5) (3) (3) (3) (3) (3) (3.8) 105 0.098 0.098 0.098 0.138 0.138 0.118 0.118 0.118 0.150 1.2 (2.5) (2.5) (2.5) (3.5) (3.5) (3) (3) (3) (3.8) 125 0.098 0.098 0.098 0.157 0.118 0.157 0.118 0.118 0.118 0.252 1.5 (2.5) (2.5) (2.5) (4) (3) (4) (3) (3) (3) (6.4) 155 0.098 0.098 0.098 0.177 0.118 0.177 0.118 0.118 0.118 0.252 1.8 (2.5) (2.5) (2.5) (4.5) (3) (4.5) (3) (3) (3) (6.4) 185 0.098 0.098 0.098 0.272 0.118 0.272 0.118 0.118 0.138 0.252 2.2 (2.5) (2.5) (2.5) (6.9) (3) (6.9) (3) (3) (3.5) (6.4) 225 0.098 0.098 0.118 0.312 0.118 0.378 0.118 0.118 0.150 0.292 2.7 (2.5) (2.5) (3) (7.9) (3) (9.6) (3) (3) (3.8) (7.4) * 275 0.098 0.098 0.118 0.331 0.118 0.398 0.118 0.118 0.157 0.378 3.3 (2.5) (2.5) (3) (8.4) (3) (10.1) (3) (3) (4) (9.6) * 335 0.098 0.098 0.138 0.438 0.118 0.118 0.138 0.504 0.118 0.118 0.213 0.504 3.9 (2.5) (2.5) (3.5) (11.1) (3) (3) (3.5) (12.8) (3) (3) (5.4) (12.8) * 395 0.098 0.098 0.157 0.497 0.118 0.118 0.157 0.583 0.118 0.118 0.233 0.583 4.7 (2.5) (2.5) (4) (12.6) (3) (3) (4) (14.8) (3) (3) (5.9) (14.8) * 475 0.098 0.098 0.233 0.662 0.118 0.118 0.252 0.583 0.118 0.118 0.252 0.583 5.6 (2.5) (2.5) (5.9) (16.8) (3) (3) (6.4) (14.8) (3) (3) (6.4) (14.8) * 565 0.098 0.098 0.252 0.819 0.118 0.118 0.252 0.661 0.118 0.118 0.319 0.662 6.8 (2.5) (2.5) (6.4) (20.8) (3) (3) (6.4) (16.8) (3) (3) (8.1) (16.8) * 685 0.118 0.118 0.359 0.118 0.118 0.378 0.740 0.118 0.118 0.378 8.2 (3) (3) (9.1) (3) (3) (9.6) (18,8) (3) (3) (9.6) **825 0.118 0.118 0.378 0.138 0.138 0.378 0.138 0.138 0.378 10 (3) (3) (9.6) (3.5) (3.5) (9.6) (3.5) (3.5) (9.6) **106 0.138 0.138 0.504 0.138 0.138 0.504 0.138 0.138 0.504 12 (3.5) (3.5) (12.8) (3.5) (3.5) (12,8) (3.5) (3.5) (12.8) ***126 0.157 0.157 0.583 0.138 0.138 0.504 0.252 0.252 0.504 15 (4) (4) (14.8) (3.5) (3.5) (12,8) (6.4) (6.4) (12.8) ** 156

0.252 0.252 0.146 0.146 0.630 0.252 0.252 0.661 TEMPERATURE HIGH 18 (6.4) (6.4) (3.7) (3.7) (16) (6.4) (6.4) (16.8) ** 186 0.252 0.252 0.252 0.291 0.740 0.378 0.378 22 (6.4) (6.4) (6.4) (7.4) (18,8) (9.6) (9.6) ** 226 0.312 0.378 0.252 0.323 0.740 0.378 0.378 27 (7.9) (9.6) (6.4) (8.2) (18,8) (9.6) (9.6) *** 276 0.331 0.378 0.280 0.413 0.504 0.504 33 (8.4) (9.6) (7.1) (10.5) (12.8) (12.8) *** 336 0.457 0.504 0.378 0.441 0.504 0.504 39 (11.6) (12.8) (9.6) (11.2) (12.8) (12.8) ** 396 0.497 0.504 0.378 0.465 0.591 0.591 47 (12.6) (12.8) (9.6) (11.8) (15) (15) ** 476 0.662 0.669 0.457 0.472 0.591 0.591 56 (16.8) (17) (11.6) (12) (15) (15) ** 566 0.583 0.591 68 (14.8) (15) ** 686

82 * 826

100 * 107

120 * 127

* Consult us - The height Hmax in inches (in mm) for the SCT Series is indicated in the cells.

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TapingSCT Series : dimensions High Temperature Stacked Capacitors

STANDARD RATINGS

Exxelia 80150 125205 size code SCT12 SCT18

UR 50 V 100 V 200 V 500 V 50 V 100 V 200 V 500 V code Cap. 680 nF 684

820 824

1 µF 105

1.2 125

1.5 155

1.8 185

2.2 225

0.157 2.7 (4) 275 0.157 3.3 (4) 335 0.157 3.9 (4) 395 0.157 4.7 (4) 475 0.315 5.6 (8) 565 0.315 6.8 (8) 685 0.157 0.315 8.2 (4) (8) * 825 0.157 0.315 10 (4) (8) * 106 0.315 0.472 12 (8) (12) * 126 0.315 0.472 15 (8) (12) * 156 0.315 0.630 18 * (8) (16) * 186 0.315 22 * (8) * * * 226 0.472 27 * (12) * * * 276 0.157 0.472 33 (4) (12) * * * 336 0.157 0.157 0.630 39 (4) (4) (16) * * * 396 0.157 0.315 47 (4) (8) * * * * 476 0.315 0.315 56 (8) (8) * * * * 566 0.315 0.315 68 (8) (8) * * 686 0.315 0.315 82 (8) (8) * * * 826 0.315 0.472 100 (8) (12) * * * 107 0.472 0.472 120 (12) (12) * * 127 0.472 0.630 150 (12) (16) * * 157 0.630 180 (16) * * 187

220 * * 227

270 * 277

330 * 337

390 * 397

* Consult us - The height Hmax in inches (in mm) for the SCT Series is indicated in the cells.

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High Temperature Molded Capacitors TCE General / TCN Molded characteristics Series HT

FEATURES ELECTRICAL SPECIFICATIONS

• Multilayer chips ceramic capacitors for operating Description NPO X7R temperature up to 220°C • NPO and X7R dielectrics Operating temperature –55°C to +220°C –55°C to +220°C • Capacitance range: 1pF to 10µF Rated voltage at 20° C 16 VDC to 100 VDC 16 VDC to 500 VDC • Voltage range at 20°C: 16 V to 100 V 2.5 U for U < 500 V 2.5 U for U < 500 V DC DC Dielectric withstanding voltage at 20° C RC RC DC RC RC DC 1.5 URC for URC = 500 VDC 1.5 URC for URC = 500 VDC at 1MHz for C ≤ 1,000pF at 1MHz for C ≤ 100pF Capacitance PHYSICAL CHARACTERISTICS at 1kHz for C > 1,000pF at 1kHz for C > 100pF ≤ 0.015 (150/C + 7)% at 1MHz CONSTRUCTION for C ≤ 50pF ≤2.5% at 1MHz for C ≤ 100pF Dissipation factor at 20° C ≤0.15% at 1MHz Epoxy molded radial or axial leaded chips capacitors for ≤2.5% at 1kHz for C > 100pF through-hole circuits. for 50pF < C ≤ 1,000pF ≤0.15% at 1kHz for C > 1,000pF

MARKING (clear or coded) ≤ 0.03 (150/C + 7)% at 1MHz for C ≤ 50pF ≤1.5% at 1MHz for C ≤ 100pF Series, capacitance value, tolerance, voltage, date code. Dissipation factor at 200° C ≤0.3% at 1MHz ≤1.5% at 1kHz for C > 100pF for 50pF < C ≤ 1,000pF ≤0.3% at 1kHz for C > 1,000pF ≤ 0.03 (150/C + 7)% at 1MHz for C ≤ 50pF ≤0.5% at 1MHz for C ≤ 100pF Dissipation factor at 220° C ≤0.3% at 1MHz ≤0.5% at 1kHz for C > 100pF for 50pF < C ≤ 1,000pF ≤0.3% at 1kHz for C > 1,000pF

Insulation resistance at 20° C ≥ 50,000MΩ or ≥ 1,000MΩ.µF ≥ 20,000MΩ or ≥ 500MΩ.µF under URC (whichever is less) (whichever is less) Insulation resistance at 200° C ≥ 1,000MΩ or ≥ 20MΩ.µF ≥ 200MΩ or ≥ 5MΩ.µF

under URC (whichever is less) (whichever is less) Insulation resistance at 220° C ≥ 200MΩ or ≥ 5MΩ.µF ≥ 100MΩ or ≥ 2MΩ.µF

under URC (whichever is less) (whichever is less) Ageing None ≤ 2.5% per decade hour HIGH TEMPERATURE HIGH HOW TO ORDER

TCE 2 01 - W 12nF 10% 16 V TCE 2X 01 Series Exxelia size code Terminations RoHS compliant Capacitance Tolerance Rated voltage at 20° C

Operating temperature 01 - = Tinned copper leads - = No RoHS Capacitance value in clear NPO: X7R: 16V 02 cap. value ≤ 12pF ±10% 25 V Up to 200° C W = RoHS TCE2 = NPO 03 Available on sizes ±0.25pF ±20% 50 V TCN2 = X7R 04 01, 02, 03, 04: compliant 100 V 51 D = Tinned nickel leads cap. value ≤ 8.2pF Up to 220° C 52 ±0.5pF TCE2X = NPO 53 ±1pF TCN2X = X7R 54 55 cap. value > 22pF 56 ±1% cap. value > 12pF ±2% cap. value > 8.2pF ±5% ±10% cap. value > 3.9pF ±20%

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TapingTCE / TCN : dimensions Molded Series HT High Temperature Molded Capacitors

DIMENSIONS in inches (mm) L T

W L ≥ 0.472 T

Ø (≥ 12) W 2 Ø 47 (≥ 12) ≥ 0. X TCE/TCN 201, 202, 203, 204 TCE/TCN 251, 252, 253, 254

STANDARD RATINGS

Exxelia size code 01 02 03 04 52 53 54 L ± 0.02 0.122 0.197 0.295 0.394 0.217 0.295 0.394 (± 0.5) (3.1) (5) (7.5) (10) (5.5) (7.5) (10) 0.178 0.237 0.335 0.434 0.099 0.099 0.154 W max. (4.5) (6) (8.5) (11) (2.5) (2.5) (3.9) T ± 0.008 0.098 0.098 0.098 0.138 0.098 0.098 0.154 (± 0.2) (2.5) (2.5) (2.5) (3.5) (2.5) (2.5) (3.9) X ± 0.008 0.1 0.1 0.2 0.2 (± 0.2) (2.54) (2.54) (5.08) (5.08) - - - Dimensions inches (mm) Dimensions inches 0.024 0.024 0.024 0.031 0.024 0.024 0.024 Ø ± 10% (0.6) (0.6) (0.6) (0.8) (0.6) (0.6) (0.6) Dielectric NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R

Min. capacitance value 1pF 10pF 10pF 180pF 100pF 1.2nF 390pF 4.7nF 1pF 10pF 1pF 100pF 10pF 180pF

20°C 200°C 220°C )

RC 16V 8V 5V 12nF 470nF 56nF 2.2µF 180nF 10µF 330nF 10µF 12nF 470nF 22nF 1.2µF 56nF 2.2µF

25V 12V 8V 6.8nF 220nF 39nF 1µF 82nF 4.7µF 180nF 4.7µF 6.8nF 220nF 15nF 680nF 39nF 1µF

50V 25V 16V 3.3nF 120nF 18nF 560nF 56nF 2.7µF 120nF 2.7µF 3.3nF 120nF 8.2nF 270nF 18nF 560nF Rated voltage (U voltage Rated 100V 50V 25V 1.5nF 39nF 8.2nF 220nF 33nF 1µF 56nF 1.5µF 1.5nF 39nF 3.9nF 120nF 8.2nF 220nF

Available capacitance values: NPO: E6, E12, E24 (see page 14). Specific values upon request. X7R: E6, E12 (see page 14). Specific values upon request. The above table defines the standard products, other components may be built upon request.

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High Temperature Self-Protected Capacitors TCE / TCN General Self-Protected characteristics Series

ELECTRICAL SPECIFICATIONS

Description NPO X7R Operating temperature –55°C to +250°C –55°C to +250°C

Rated voltage at 20° C 25 VDC to 00 VDC 25 VDC to 200 VDC

Dielectric withstanding voltage at 20° C 2.5 URC 2.5 URC at 1MHz for C ≤ 1,000pF at 1MHz for C ≤ 100pF Capacitance at 1kHz for C > 1,000pF at 1kHz for C > 100pF ≤ 0.015 (150/C + 7)% at 1MHz for C ≤ 50pF Dissipation factor at 20° C ≤0.15% at 1MHz ≤2.5% at 1MHz for C ≤ 100pF for 50pF < C ≤ 1,000pF ≤2.5% at 1kHz for C > 100pF ≤0.15% at 1kHz for C > 1,000pF ≤ 0.03 (150/C + 7)% at 1MHz FEATURES for C ≤ 50pF Dissipation factor at 200° C ≤0.3% at 1MHz ≤1.5% at 1MHz for C ≤ 100pF • Multilayer Chips Ceramic Capacitors for operating for 50pF < C ≤ 1,000pF ≤1.5% at 1kHz for C > 100pF temperature up to 250° C ≤0.3% at 1kHz for C > 1,000pF • NPO and X7R dielectrics ≤ 0.03 (150/C + 7)% at 1MHz • Capacitance range: 10pF to 3.3µF for C ≤ 50pF ≤0.5% at 1MHz for C ≤ 100pF Dissipation factor at 220° C ≤0.3% at 1MHz ≤0.5% at 1kHz for C > 100pF • Voltage range at 20°C: 25 VDC to 500 VDC for 50pF < C ≤ 1,000pF ≤0.3% at 1kHz for C > 1,000pF ≤ 0.03 (150/C + 7)% at 1MHz for C ≤ 50pF PHYSICAL CHARACTERISTICS Dissipation factor at 250° C ≤0.3% at 1MHz ≤0.5% at 1MHz for C ≤ 100pF for 50pF < C ≤ 1,000pF ≤0.5% at 1kHz for C > 100pF CONSTRUCTION ≤0.3% at 1kHz for C > 1,000pF Selfprotected radial or axial leaded chips capacitors for Insulation resistance at 20° C ≥ 100,000MΩ or ≥ 1,000MΩ.µF ≥ 100,000MΩ or ≥ 1,000MΩ.µF under URC (whichever is less) (whichever is less) through-hole circuits. Mechanical stress is eliminated by replacement of epoxy by selfprotected ceramic. Insulation resistance at 200° C ≥ 1,000MΩ or ≥ 20MΩ.µF ≥ 1,000MΩ or ≥ 10MΩ.µF under URC (whichever is less) (whichever is less) Insulation resistance at 220° C ≥ 800MΩ or ≥ 8MΩ.µF ≥ 200MΩ or ≥ 4MΩ.µF MARKING (clear or coded) under URC (whichever is less) (whichever is less) Series, capacitance value, tolerance, voltage, date code. Insulation resistance at 250° C ≥ 200MΩ or ≥ 5MΩ.µF ≥ 100MΩ or ≥ 2MΩ.µF under URC (whichever is less) (whichever is less) Ageing None ≤ 2.5% per decade hour

HOW TO ORDER TEMPERATURE HIGH

TCN2 64 TCN2X 64 2 W 180pF 10% 100 V TCN5X 64 Series Exxelia size code Leads spacing code RoHS compliant Capacitance Tolerance Rated voltage at20° C

Operating temperature 12 Available on sizes 62, 63, - = No RoHS Capacitance value NPO: X7R: 25 V Up to 200° C 13 64, 65, 66: in clear cap. value ≤ 12pF ±10% 50 V TCE2 = NPO 14 - Available on sizes 62, 63, ±0.25pF ±20% 100 V TCN2 = X7R 15 2 64, 65, 66: 500 V 16 3 W = RoHS compliant cap. value ≤ 8.2pF Up to 220° C 62 ±0.5pF TCE2X = NPO 63 ±1pF 64 TCN2X = X7R Lead free version available cap. value > 22pF 65 for operating temperature ±1% Up to 250° C 66 up to 175° C (contact your TCE5X = NPO sales representative) cap. value > 12pF TCN5X = X7R ±2% cap. value > 8.2pF ±5% ±10% cap. value > 3.9pF ±20%

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TapingTCE / TCN : dimensions Self-Protected Series High Temperature Self-Protected Capacitors

DIMENSIONS in inches (mm) L T L W T W 2 47

Ø 2 (≥ 12) ≥ 0.

47 Ø X (≥ 12) ≥ 0. X STANDARD RATINGS

Exxelia size code 212 213 214 215 216 263 Leads spacing code ------2 0.284 ± 0.012 0.315 ± 0.012 0.315 ± 0.012 0.559 ± 0.012 0.559 ± 0.012 0.267 max L (7.2 ± 0.3) (8 ± 0.3) (8 ± 0.3) (14.2 ± 0.3) (14.2 ± 0.3) (6.85 max) 0.244 ± 0.012 0.315 ± 0.012 0.315 ± 0.012 0.417 ± 0.012 0.417 ± 0.012 0.1 max W (6.2 ± 0.3) (8 ± 0.3) (8 ± 0.3) (10.6 ± 0.3) (10.6 ± 0.3) (2.54 max) 0.099 0.099 0.15 0.099 0.15 0.1 T max. (2.5) (2.5) (3.8) (2.5) (3.8) (2.54) Dimensions

inches (mm) inches 0.2 ± 0.008 0.2 ± 0.008 0.2 ± 0.008 0.4 ± 0.008 0.4 ± 0.008 0.5 ± 0.02 0.6 ± 0.02 X (5.08 ± 0.2) (5.08 ± 0.2) (5.08 ± 0.2) (10.16 ± 0.2) (10.16 ± 0.2) (12.7 ± 0.5) (15.24 ± 0.5) 0.024 0.024 0.031 0.039 0.039 0.024 Ø ± 10% (0.6) (0.6) (0.8) (1) (1) (0.6) Dielectric NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R Min. Capacitance value 10pF 3.3nF 270pF 6.8nF 270pF 15nF 680pF 22nF 680pF 39nF 1pF 100pF 20°C 200°C 220°C 250°C )

RC 25V 12V 8V 5V ------8.2nF180nF

50V 25V 16V 10V 6.8nF 390nF 12nF 680nF 22nF 1.2µF 33nF 1.8µF 56nF 3.9µF 4.7nF 120nF

100V 50V 25V 16V 3.9nF 180nF 6.8nF 330nF 15nF 680nF 22nF 1µF 39nF 1.8µF 3.3nF 47nF Rated voltage (U voltage Rated 500V 250V 125V 63V ------330pF-

Exxelia size code 264 265 266 Leads spacing code - 2 3 - - 2 3 0.4 max 0.517 0.717 L (10.16 max) (13.2 max) (18.2 max) 0.15 max 0.264 max 0.37 max W (3.8 max) (6.7 max) (9.4 max) 0.15 0.158 0.158 T max. (3.8) (4) (4) Dimensions

inches (mm) inches 0.6 ± 0.02 0.7 ± 0.02 1 ± 0.02 0.7 ± 0.02 0.9 ± 0.02 0.95 ± 0.02 1 ± 0.02 X (15.24 ± 0.5) (17.78 ± 0.5) (25.4 ± 0.5) (17.78 ± 0.5) (22.86 ± 0.5) (24.13 ± 0.5) (25.4 ± 0.5) Ø ± 10% 0.024 0.024 0.024 (0.6) (0.6) (0.6) Dielectric NPO X7R NPO X7R NPO X7R Min. Capacitance value 100pF 180pF 390pF 390pF 820pF 820pF

) 20°C 200°C 220°C 250°C RC 25V 12V 8V 5V 27nF 560nF 68nF 1.8µF 150nF 3.3µF

50V 25V 16V 10V 15nF 330nF 39nF 1µF 100nF 1.8µF

Rated voltage (U voltage Rated 100V 50V 25V 16V 10nF 120nF 22nF 330nF 56nF 820nF

Available capacitance values: NPO: E6, E12, E24 (see page 14). Specific values upon request. X7R: E6, E12 (see page 14). Specific values upon request. Exxelia can delivery axial leads on size code 262, 263, 264, 265, 266 to allow the customer to obtain the leads spacing needed (leads spacing code = 9). In that case we recommend to bend the connections at a distance from the ceramic body of 5mm minimum. The above table defines the standard products, other components may be built upon request.

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High Temperature / High Voltage Capacitors General characteristicsTCH Series

ELECTRICAL SPECIFICATIONS

Description NPO X7R Operating temperature –55°C to +250°C –55°C to +250°C

Rated voltage at 20°C 00 VDC to 1,000 VDC 500 VDC to 5,000 VDC

1,250 V for URC = 500 VDC 1,000V for URC = 500 VDC Dielectric withstanding voltage at 20° C 1.5URC for 500 VDC < URC < 2,000 VDC 1.5URC for 500 VDC < URC < 2,000 VDC 1.3URC for URC ≥ 2,000 VDC 1.2URC for URC ≥ 2,000 VDC at 1MHz for C ≤ 1,000pF at 1MHz for C ≤ 100pF Capacitance at 1kHz for C > 1,000pF at 1kHz for C > 100pF ≤ 0.015 (150/C + 7)% at 1MHz for C ≤ 50pF Dissipation factor at 20° C ≤0.15% at 1MHz ≤2.5% at 1MHz for C ≤ 100pF for 50pF < C ≤ 1,000pF ≤2.5% at 1kHz for C > 100pF ≤0.15% at 1kHz for C > 1,000pF ≤ 0.03 (150/C + 7)% at 1MHz FEATURES for C ≤ 50pF Dissipation factor at 200° C ≤0.3% at 1MHz ≤1.5% at 1MHz for C ≤ 100pF • Multilayer Chips Ceramic Capacitors for operating for 50pF < C ≤ 1,000pF ≤1.5% at 1kHz for C > 100pF temperature up to 250° C ≤0.3% at 1kHz for C > 1,000pF • NPO and X7R dielectrics ≤ 0.03 (150/C + 7)% at 1MHz • Capacitance range: 10pF to 15µF for C ≤ 50pF ≤0.5% at 1MHz for C ≤ 100pF Dissipation factor at 220° C ≤0.3% at 1MHz ≤0.5% at 1kHz for C > 100pF • Voltage range at 20°C: 200 VDC to 10 kVDC for 50pF < C ≤ 1,000pF ≤0.3% at 1kHz for C > 1,000pF ≤ 0.03 (150/C + 7)% at 1MHz for C ≤ 50pF PHYSICAL CHARACTERISTICS Dissipation factor at 250° C ≤0.3% at 1MHz ≤0.5% at 1MHz for C ≤ 100pF for 50pF < C ≤ 1,000pF ≤0.5% at 1kHz for C > 100pF CONSTRUCTION ≤0.3% at 1kHz for C > 1,000pF Insulation resistance at 20° C ≥ 100,000MΩ or ≥ 1,000MΩ.µF ≥ 100,000MΩ or ≥ 1,000MΩ.µF Varnished radial leaded chips capacitors for through-hole under U for U ≤ 500 V RC RC DC (whichever is less) (whichever is less) circuits. under 500 VDC for URC > 500 VDC

Insulation resistance at 200° C ≥ 1,000MΩ or ≥ 20MΩ.µF ≥ 1,000MΩ or ≥ 10MΩ.µF MARKING (clear or coded) under URC for URC ≤ 500 VDC (whichever is less) (whichever is less) under 500 VDC for URC > 500 VDC Series, capacitance value, tolerance, voltage, date code. Insulation resistance at 220° C ≥ 800MΩ or ≥ 8MΩ.µF ≥ 200MΩ or ≥ 4MΩ.µF under URC for URC ≤ 500 VDC (whichever is less) (whichever is less) under 500 VDC for URC > 500 VDC

Insulation resistance at 250° C ≥ 200MΩ or ≥ 2MΩ.µF ≥ 100MΩ or ≥ 1MΩ.µF under URC for URC ≤ 500 VDC (whichever is less) (whichever is less) under 500 VDC for URC > 500 VDC

Ageing None ≤ 2.5% per decade hour HIGH TEMPERATURE HIGH

HOW TO ORDER

TCH TCH2X 2 85 6.8nF 20% 3,000 V TCH5X Series Dielectric code Size code Capacitance Tolerance Rated voltage at 20°C

Operating temperature 1 = NPO 79 Capacitance value in clear For NPO dielectric: 200 V Up to 200° C 2 = X7R 80 ±1% 500 V TCH 81 ±2% 1 kV 82 ±5% 2 kV Up to 220° C 83 ±10% 3 kV TCH2X 84 ±20% 4 kV 89 5 kV Up to 250° C 85 For X7R dielectric: 7.5 kV TCH5X 87 ±10% 10 kV 88 ±20% Intermediary and higher voltages available: contact your sales representative.

RoHS and Lead free compliant parts are available: contact your sales representative.

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TapingTCH Series : dimensions High Temperature / High Voltage Capacitors

L T DIMENSIONS in inches (mm) W

Ø (≥ 12) ≥ 0.472 X STANDARD RATINGS (NPO)

Size 1812 2220 2825 3333 4040 5440 5550 6560 11283 16080 Exxelia size code 79 80 81 82 83 84 89 85 87 88 0.237 0.276 0.355 0.394 0.473 0.63 0.642 0.729 1.182 1.674 L max (6) (7) (9) (10) (12) (16) (16.3) (18.5) (30) (42.5) 0.197 0.276 0.296 0.394 0.493 0.493 0.619 0.689 0.886 0.827 W max (5) (7) (7.5) (10) (12.5) (12.5) (15.7) (17.5) (22.5) (21) 0.138 0.150 0.237 0.237 0.237 0.237 0.237 0.237 0.256 0.256 T max (3.5) (3.8) (6) (6) (6) (6) (6) (6) (6.5) (6.5) 0.024 0.024 0.031 0.031 0.031 0.039 0.039 0.039 0.039 0.039 Ø ± 10% (0.6) (0.6) (0.8) (0.8) (0.8) (1) (1) (1) (1) (1)

Dimensions inches (mm) Dimensions inches 0.2 ± 0.020 0.2 ± 0.020 0.3 ± 0.020 0.4 ± 0.020 0.5 ± 0.020 0.6 ± 0.020 0.6 ± 0.020 0.7 ± 0.020 1.1 ± 0.020 1.6 ± 0.020 X (5.08 ± 0.5) (5.08 ± 0.5) (7.62 ± 0.5) (10.16 ± 0.5) (12.7 ± 0.5) (15.24 ± 0.5) (15.24 ± 0.5) (17.8 ± 0.5) (27.94 ± 0.5) (40.64 ± 0.5) Min. Capacitance value 10pF 10pF 18pF 33pF 10pF 22pF 27pF 47pF 120pF 150pF 20°C 200°C 220°C 250°C 200V 130V 100V 50V 18nF 22nF 56nF 100nF 180nF 270nF 220nF 560nF 1µF 1.2µF 500V 330V 250V 125V 10nF 18nF 27nF 68nF 100nF 150nF 150nF 270nF 470nF 820nF ) RC 1kV 500V 300V 200V 5.6nF 6.8nF 12nF 33nF 47nF 68nF 82nF 120nF 270nF 470nF 2kV 1kV 650V 500V 820pF 1nF 2.7nF 6.8nF 10nF 15nF 18nF 27nF 56nF 82nF 3kV 1.5kV 1kV 600V 390pF 470pF 1nF 1.8nF 3.3nF 5.6nF 10nF 10nF 27nF 33nF 4kV 2kV 1.3kV 800V 220pF 330pF 820pF 1.5nF 2.7nF 4.7nF 6.8nF 8.2nF 22nF 27nF Rated voltage (U voltage Rated 5kV 2.5kV 1.6kV 1kV - 220pF 560pF 1nF 2.2nF 3.9nF 4.7nF 6.8nF 15nF 18nF 7.5kV 3.75kV 2.5kV 1.5kV 330pF 560pF 1.2nF 1.2nF 3.3nF 4.7nF 10kV 5kV 3kV 2kV 220pF 390pF 680pF 820pF 2.2nF 3.3nF STANDARD RATINGS (X7R)

Dimensions inches (mm) Dimensions inches 0.2 ± 0.020 0.2 ± 0.020 0.3 ± 0.020 0.4 ± 0.020 0.5 ± 0.020 0.6 ± 0.020 0.6 ± 0.020 0.7 ± 0.020 1.1 ± 0.020 1.6 ± 0.020 X (5.08 ± 0.5) (5.08 ± 0.5) (7.62 ± 0.5) (10.16 ± 0.5) (12.7 ± 0.5) (15.24 ± 0.5) (15.24 ± 0.5) (17.8 ± 0.5) (27.94 ± 0.5) (40.64 ± 0.5) Min. Capacitance value 100pF 150pF 150pF 330pF 270pF 390pF 560pF 1nF 2.2nF 2.7nF 20°C 200°C 220°C 250°C 200V 100V 60V 40V 220nF 390nF 820nF 1.5µF 2.7µF 3.9µF 4.7µF 6.8µF 12µF 15µF 500V 250V 160V 100V 47nF 100nF 220nF 390nF 680nF 1µF 1.2µF 1.8µF 3.9µF 4.7µF ) RC 1kV 500V 300V 200V 15nF 22nF 47nF 68nF 150nF 220nF 270nF 390nF 1µF 1.2µF 2kV 1kV 650V 500V 3.3nF 5.6nF 10nF 18nF 33nF 68nF 68nF 100nF 220nF 330nF 3kV 1.5kV 1kV 600V 1.2nF 2.2nF 3.9nF 6.8nF 15nF 27nF 27nF 39nF 100nF 120nF 4kV 2kV 1.3kV 800V 680pF 1.2nF 2.7nF 4.7nF 10nF 15nF 18nF 27nF 68nF 100nF Rated voltage (U voltage Rated 5kV 2.5kV 1.6kV 1kV - 820pF 1.8nF 3.3nF 5.6nF 10nF 12nF 18nF 56nF 68nF 7.5kV 3.75kV 2.5kV 1.5kV 1.5nF 2.7nF 3.3nF 6.8nF 18nF 27nF 10kV 5kV 3kV 2kV 680pF 1.2nF 1.5nF 3.3nF 8.2nF 12nF

Available capacitance values: NPO: E6, E12, E24 (see page 14). Specifi c values upon request. X7R: E6, E12 (see page 14). Specifi c values upon request. Exxelia can delivery axial leads on size code 262, 263, 264, 265, 266 to allow the customer to obtain the leads spacing needed (leads spacing code = 9). In that case we recommend to bend the connections at a distance from the ceramic body of 5mm minimum. The above table defi nes the standard products, other components may be built upon request.

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GENERAL INFORMATION ...... 114 TBC SERIES Discoidal Capacitors ...... 115 BPM SERIES Planar Arrays ...... 117 CERAMIC CAPACITORS TapingGeneral : dimensionsInformation

Discoidal capacitors with NPO, X7R ceramics (BX and BR available on request) Another version (option T) featuring central conductor confi guration (illus- feature unique frequency performance due to very low inductance inherent to trated below) enables to get rid of thermal and mechanical shocks inherent the confi guration. to lead soldering. This also eliminates the risks of plating deterioration during the soldering process. They are ideally suited to interconnect power amplifi er stages through a shielding wall (high impedance electronic circuits). At last 2 lines can be fi ltered simultaneously using the BPM 12 or BPM 22 which consists of two capacitors in the same component (4 lines with the Silver-palladium terminations can be directly mounted on the metal surface of BPM24 or BPM224). These capacitors can have the same or different values the shielding wall. (consult us). Multiple lines can be fi ltered simultaneously using the BPM Series which con- sist of multiple capacitors in the same component. These capacitors can have the same or different values. EXXELIA expertise and fl exible manufacturing Ag -Pd termination processes enable a wide range of arrays: custom confi guration or geometry. Consult our Engineering team to support your design requirements.

Ø 0,8

NPO: TYPICAL ATTENUATION CURVE VERSUS FREQUENCY X7R: TYPICAL ATTENUATION CURVE VERSUS FREQUENCY (50Ω IMPEDANCE) (50Ω IMPEDANCE)

Attenuation (dB) Attenuation (dB) 0 0

10 10

20 20

30 30

40 40

50 50

60 60

70 0.001 0.01 0.1 1 10 100 70 Frequency (GHz) 0.01 0.1 1 10 100 1000 Frequency (MHz)

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Discoidal Capacitors General characteristicsTBC Series

FEATURES ELECTRICAL SPECIFICATIONS

• Discoidal Multilayer Ceramic Capacitors Description NPO X7R • Diameters: 0.053’’ (1.35 mm)– 0.61’’ (15.5 mm) • NPO and X7R dielectrics Operating temperature –55°C to +125° C –55°C to +125° C Maximum ∆C/C over temperature • Very low ESL NA ±15% • Capacitance range: 10pF to 12µF range without DC voltage applied Temperature coefﬁ cient (0±30)ppm/°C NA • Voltage range: 25VDC to 1,000VDC Climatic category 55 / 125 / 56 55 / 125 / 56

Dielectric withstanding 2.5 URC for URC ≤ 500V 2.5 URC for URC ≤ 500V PHYSICAL CHARACTERISTICS voltage at 25° C 1.5 URC for URC >500V 1.5 URC for URC >500V at 1MHz for C ≤ 1,000pF at 1MHz for C ≤ 100pF CONSTRUCTION Capacitance at 1kHz for C > 1,000pF at 1kHz for C > 100pF Discoidal multilayer capacitors with Silver/Palladium/Plati- ≤ 0.015 (150/C + 7)% at 1MHz num terminations. for C ≤ 50pF ≤ 0.15% at 1MHz ≤ 2.5% at 1MHz for C ≤ 100pF Dissipation factor at25° C Option T: central lead enables to get rid of thermal, me- for 50pF < C ≤ 1,000pF ≤ 2.5% at 1kHz for C > 100pF chanical shocks and plating deterioration during soldering ≤ 0.15% at 1kHz process. for C > 1,000pF

Insulation resistance at 25° C ≥ 20,000MΩ for C ≤ 25nF ≥ 20,000MΩ for C ≤ 25nF MARKING (on packaging) under URC for URC ≤ 500V ≥ 500MΩ.µF for C > 25nF ≥ 500MΩ.µF for C> 25nF Series, capacitance value, tolerance, rated voltage, batch under 500V for URC > 500V number. Aging None ≤ 2.5% per decade hour

BX and BR dielectrics available on request.

HOW TO ORDER

TBC 2 81 W T 10nF 10% 100 V Exxelia RoHS Rated Series Dielectric code Central conductor Capacitance Tolerance size code compliant voltage FEED-THRU

TBC = discoidal 1 = NPO 14 - = No RoHS -: no central lead Capacitance value NPO: 25 V capacitors 2 = X7R 82 W = RoHS in clear ±1% (Cap. value ≥ 27pF) 50 V 78 compliant T = Central lead ±2% (Cap. value ≥ 15pF) 100 V 99 requested ±5% 150 V 77 ±10% 200 V 12 ±20% 250 V 13 300 V 81 X7R: 500 V ±10% 1,000 V ±20%

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TapingTBC Series : dimensions Discoidal Capacitors

DIMENSIONS in inches (mm) Discoidal capacitor Discoidal capacitor with central lead

Ø d*

T Ø D

STANDARD RATINGS

Size 14 82 78 99 77 12 13 81 0.053 ± 0.002 0.098 ± 0.008 0.138 ± 0.008 0.256 ± 0.008 0.335 ± 0.008 0.373 ± 0.005 0.502 ± 0.008 0.61 ± 0.008 D (1.35 ± 0.05) (2.5 ± 0.2) (3.5 ± 0.2) (6.5 ± 0.2) (8.5 ± 0.2) (9.47 ± 0.13) (12.75 ± 0.2) (15.5 ± 0.2) 0.022 0.04 0.04 0.048 0.063 0.063 0.079 0.079 d max. (0.55) (1) (1) (1.2) (1.6) (1.6) (2) (2) Dimensions inches (mm) inches 0.04 0.119 0.119 0.099 0.119 0.119 0.119 0.119 T max. (1) (3) (3) (2.5) (3) (3) (3) (3) Dielectric NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R NPO X7R Exxelia 1212121212121212 dielectric code Min. 10pF 100pF 10pF 100pF 15pF 100pF 18pF 100pF 47pF 100pF 56pF 150pF 82pF 390pF 100pF 820pF Capacitance value 25V 100pF 2.2nF 3.3nF 82nF 12nF 390nF 68nF 1.8µF 100nF 2.7µF 120nF 3.9µF 330nF 8.2µF 390nF 12µF

50V 100pF 1.5nF 3.3nF 68nF 12nF 330nF 68nF 1.5µF 100nF 2.2µF 120nF 3.3µF 330nF 6.8µF 390nF 10µF

100V 56pF 470pF 2.2nF 22nF 10nF 100nF 47nF 820nF 82nF 1µF 100nF 1.2µF 220nF 2.7µF 330nF 3.9µF ) rc 150V - - 1.2nF 18nF 5.6nF 82nF 22nF 470nF 47nF 820nF 56nF 1µF 120nF 2.2µF 180nF 2.7µF

200V - - 1nF 15nF 3.9nF 68nF 18nF 330nF 33nF 680nF 39nF 820nF 82nF 1.8µF 120nF 2.2µF

250V - - - - 3.3nF 47nF 12nF 220nF 22nF 390nF 33nF 560nF 68nF 1.2µF 82nF 1.5µF Rated voltage (U voltage Rated

300V - - - - 2.2nF 33nF 10nF 180nF 18nF 330nF 27nF 470nF 56nF 1µF 68nF 1.2µF

500V ------6.8nF 150nF 15nF 270nF 18nF 330nF 39nF 820nF 56nF 1µF

1,000V ------4.7nF 15nF 10nF 33nF 12nF 47nF 27nF 100nF 39nF 120nF

* Diameter d can be different: consult your sales representative

Available capacitance values: NPO: E6, E12, E24, E48, E96 (see page 14). Specific values upon request. X7R: E6, E12 (see page 14). Specific values upon request. The above table defines the standard products, other components may be built upon request.

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Planar Arrays General characteristicsBPM Series

FEATURES ELECTRICAL SPECIFICATIONS

• Planar capacitor arrays Description X7R • X7R dielectrics (NPO available on request) • Capacitance range: 330pF - 68nF Operating temperature –55°C to +125° C Maximum ∆C/C over temperature • Voltage range: 25VDC to 200VDC ±15% • Speciﬁ c conﬁ gurations available on request range without DC voltage applied Climatic category 55 / 125 / 56

Rated voltage (URC) 25VDC to 200VDC PHYSICAL CHARACTERISTICS Dielectric withstanding voltage 2.5 U at 25° C between holes and outside RC CONSTRUCTION Capacitance at 1kHz Circular or rectangular multilayer capacitor arrays with Silver Dissipation factor at25° C ≤ 2.5% at 1kHz / Palladium / Platinum terminations. Other shapes available Insulation resistance at 25° C on request. ≥ 20,000MΩ under URC MARKING (on packaging) Aging ≤ 2.5% per decade hour

Series, capacitance value, tolerance, rated voltage, batch NPO, BX and BR dielectrics available on request. number.

HOW TO ORDER FEED-THRU BPM 22 W 470nF 10% 200 V RoHS Rated Series Design code Capacitance Tolerance compliant voltage

BPM = Planar arrays 22 = 2 capacitors - discoidal - = No RoHS Capacitance value in clear ±10% 25 V shape W = RoHS ±20% 50 V 224 = 4 capacitors - discoidal compliant 100 V shape 200 V 24 = 4 capacitors - rectangular shape

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TapingBPM Series : dimensions Planar Arrays

DIMENSIONS Design code 22 Design code 224 Design code 24

T T

Ø D Ø D X

Ø 0.066 ± 0.02 Ø (1.67 ± 0.5) Ø d Ø d

Black lines: mechanical Green lines: electrical (external termination is connected to the ground)

STANDARD RATINGS

Size BPM22 BPM224 BPM24 L ±0.008 0.248 - - (±0.2) (6.3) W ±0.008 0.081 - - (± 0.2) (2.05) D±0.004 0.142 0.12 - (± 0.1) (3.6) (3.05) d ±0.002 0.022 0.019 - Dimensions inches (mm) inches (± 0.05) (0.55) (0.49) 0.048 0.05 0.048 T max. (1.2) (1.25) (1.2) X ± 0.002 0.056 0.06 - (± 0.05) (1.42) (1.52) Min. Capacitance value 330pF 330pF 330pF

25V 68nF 12nF 56nF ) rc 50V 39nF 4.7nF 27nF

100V 18nF 2.7nF 12nF Rated voltage (U voltage Rated 200V 8.2nF - 5.6nF

Available capacitance values: E6, E12 (see page 14). Speciﬁ c values upon request. For standard products capacitance value is the same for each hole, it can be different on request. The above table deﬁ nes the standard products, other components may be built upon request (NPO, BX, BR, shapes, number of holes, combination of capacitance values, etc.)

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GENERAL INFORMATION ...... 120

CH SERIES Classic HiQ ...... 129 SH SERIES Super HiQ ...... 132 SHR/SHD SERIES Reverse Geometry ...... 135 NHB SERIES High Self Resonant Frequency ...... 137 CP SERIES High Power ...... 139 CL SERIES High Power ...... 143 CERAMIC CAPACITORS TapingGeneral : dimensionsInformation

CAPACITOR TERMINATIONS AND SOLDERING condition. The vapour phase and IR reﬂow soldering are less aggressive, inducing more restricted thermal shocks. This is the reason why they are RECOMMENDATIONS preferred to the wave soldering method for reliable applications. In all cases, proper pre-heating is essential. I. TERMINATION TYPES The circuit should be pre-heated at a typical rate of 1°C/s within 65°C to 100°C of Our capacitors are delivered with one of the following terminations (for the maximum soldering temperature. While multilayer ceramic capacitors can technical reasons, only a limited number of termination types are available in withstand the peak soldering temperatures for short durations, they should be certain cases). All our terminations are backward compatible. minimized whenever possible.

Parameter Value Comment Above precaution given for SMD types are applicable for the implementation of large bare chips (1515 and above). But in general, large bare chips above A non-magnetic (silver-palladium) 2225 are not recommended to be mounted on epoxy printed board due to the Termination C non-magnetic (pure tin over copper barrier) thermal expansion mismatch between ceramic capacitor body and epoxy. This Materials S lead-free (pure tin over nickel barrier) is the reason why leaded components will be preferred especially for reliable applications.

NB: For information, the typical thermal proﬁles of these three soldering processes • terminations type C recommended for non magnetic applications. are given hereafter. These typical diagrams are only given as an aid to SMD • termination type A available for non magnetic applications (for historical users in determining speciﬁc processes linked to their instrumentations and reason, we have also another code, the code “P”, for the same type of to their own experience. termination. The parts that were designed-in before 2005 might still have NB: reference documents are IEC 61760-1, CECC30000 and IEC68 standards. a code “P” instead of “A” in the part numbering. But both codes correspond Please, refer to this standard for more information. to the same type of termination).

III.1.1. Vapour Phase Soldering II. SPECIFICATIONS 250°C Care must be taken when using particular terminations: if the terminations are 230°C 20s ... 40s heated up above a particular temperature and/or for too long a period of time, 217°C there is a risk of leaching (dissolution of the termination revealing the inner 200°C ca. 60s ... 130s electrodes). >217°C The chart below gives the resistance to soldering heat per termination type, 150°C based on a SAC387 solder bath at 260°C. Ramp down rate <6K/s 100°C Dielectric Type A C S Ramp up rate <3K/s CHA / SHA 10 ±1s (3) 120 ±5s 50°C CHB / SHB 30 ±2s 120 ±5s CPX / CLX / CPE / CLE 30 ±2s 120 ±5s 0°C 0s 20s 40s 60s 80s 100s 120s 140s 160s 180s 200s 220s 240s CLF 10 ±2s (1) On request 120 ±5s Lead free SnAgCu solders - Vapour Phase SHL 120 ±5s SHS 10 ±1s (4) 120 ±5s SHF / SHN / SHT 5 ±1s (2) 120 ±5s 250°C 20s ... 40s 210°C (1): results extrapolated from 30±2s data obtained with Sn62/Pb36/Ag2 solder bath. 200°C 180°C (2): data obtained with Sn62/Pb36/Ag2 solder bath. ca. 60s ... 150s (3): termination only available on CHA series. 150°C <180°C (4): preliminary data. Ramp down rate <6K/s 100°C

III. STANDARD SMD REQUIREMENTS Ramp up rate <3K/s III.1. Soldering Recommendations 50°C Regarding the soldering attachments, three methods are generally used: the 0°C vapor phase soldering, the infrared reﬂow soldering and the wave soldering. 0s 20s 40s 60s 80s 100s 120s 140s 160s 180s 200s 220s 240s Unless particular skill about the use of the wave soldering, this method is not recommended since the melted solder is directly in contact with the ceramic. SnPb solders – Infrared Soldering This can potentially crack the capacitor because the ceramic is sensible to the thermal shocks. Moreover, this method needs to maintain the components NB: the lines indicate the upper and lower limits of typical process (terminal with an insulating resin which increases the thermo-mechanical strains temperature). between the ceramic and the board both on soldering phase and operating

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III.1.2. Infrared Soldering III.2. Moisture Sensitivity Classification Our standard lead-free terminations - S and C types - have been fully tested 300°C and are compliant with the requirements mentioned in specification JEDEC STD 020 (level 1: not moisture sensitive). 250°C 245°C 235°C III.3. Whiskers Classification 220°C 200°C Preheating ca. 45s ... 90s Our standard lead-free terminations - S and C types - have been fully tested >220°C and are compliant with the requirements mentioned in specification JEDEC 150°C Ramp down STD 201. Our terminations exhibit a matte finish and receive a special heat rate <6K/s treatment to relieve stress inside the tin. 100°C Ramp up III.4. Pad Dimensions rate <3K/s 50°C The metallized pads on the end user’s substrate must be properly designed. Improper spacing or dimensioning of the pads may result in poor solder joints 0°C 0s 30s 60s 90s 120s 150s 180s 210s 240s 270s 300s 330s 360s or a tombstone effect. Pad designs are given below for the most common sizes of multilayer ceramic capacitors for both wave and reflow soldering. Lead free SnAgCu solders – Infrared Soldering X D X 300°C

250°C 240°C 230°C

200°C 215°C W 180°C 160°C ca. 60s >180°C 150°C Ramp down 130°C L Preheating rate <6K/s 100°C Ramp up rate <3K/s 50°C Case Size W X D L SHL (0402) 0.70mm 0.90mm 0.40mm 2.20mm 0°C 0s 20s 40s 60s 80s 100s 120s 140s 160s 180s 200s 220s 240s CHA / SHA (0505) 1.80mm 1.00mm 0.80mm 2.80mm SnPb solders – Infrared Soldering SHS (0603) 1.00mm 1.10mm 0.60mm 2.80mm SHF (0805) 1.50mm 1.30mm 0.60mm 3.20mm NB: CHB / SHB (1111) 3.00mm 1.00mm 1.90mm 3.90mm • these proﬁles are given for mid size components. CPX / CLX (2225) 6.90mm 1.00mm 5.00mm 7.00mm • continuous lines: typical process (terminal temperature). • dotted lines: process limits, bottom process limit (terminal temperature), CPE / CLE (4040) 10.20mm 1.00mm 8.30mm 10.30mm upper process limit (top surface temperature). NB: these dimensions are suggested for a reﬂow soldering process. If a wave soldering process is used, the X dimension has to be increased by 0.50mm III.1.3. Wave Soldering (0.40mm for L and A case sizes), thus leading to an increase of 1.00mm to the L dimension (0.80mm for L and A case sizes). 300°C 10s max., max. contact time 5s per wave 250°C SnPb: 235°C - 260°C SnAgCu: 250°C - 260°C

First wave Second wave 200°C Cooling Preheating ∆T<150K ca. 3.5 K/s typical 150°C 130°C ca. 2 K/s ca. 5 K/s 120°C 100°C

50°C

0°C 0s 20s 40s 60s 80s 100s 120s 140s 160s 180s 200s 220s 240s SnAgCu and SnPb solders - Double Wave Soldering NB: • continuous lines: typical process. • dotted lines: process limits. HIGH Q

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SERIAL AND PARALLEL RESONANCE FREQUEN- The lumped model shown in Fig. 1 explains only the existence of one serial self- resonant frequency and one parallel self-resonant frequency, consequently, CIES (SRF & PRF) OF CAPACITORS ON PCB the lumped model is unable to explain why real measurements exhibits a I. INTRODUCTION AND DEFINITIONS double infinity of self-resonant frequencies (see figures 4, 5 & 6). The equivalent model for a capacitor is usually defined by the figure 1 where: It is currently admitted [1] that the lumped model shown in Fig. 1 is convenient C is the capacitance of the Capacitor only for frequencies that are lower than roughly the half of the first SRF. RS is the equivalent serial resistance (ESR) For frequencies close or above the first SRF, it is mandatory to consider the L is the equivalent serial inductance (ESL) distributed model or transmission line model [1]. Cp is the parasitic parallel capacitance This distributed model can be established more easily with the equivalent Rp is the Insulation Resistance circuit of a Single Layer Capacitor (SLC) shown in Fig. 7:

Cp s21 I I I a1 b2 Rs C L DUT 1 2 s s w ZL 11 Device Under Test 22 c 2w Z ZL b a L Rp 1 2 s12

Figure 1: Equivalent Model Figure 2: S parameters I >> h Lr Lr Lr Lr The complex impedance Z is deﬁned by: Rg Rg i

Z=ESR + j X and z=Z/Z0 (1) where z is the reduced impedance, X the reactance, eg c eg vhCr Cr Cr Cr ZL Z0 the characteristic impedance (usually 50 ohm) The impedance can be determined by the S parameters (ﬁgure 2) measurement for example with a serial conﬁguration (Figure 3) Figure 7: Transmission line model of a Single Layer Capacitor

Z After examination of Fig. 7, one can see that a Single Layer Capacitor can be Z S11 = (2) modeled by a transmission line with an open termination that is currently Z + 2

50 Ω 50 Ω called an “open stub “. 2 According to classical courses relatives to transmission lines theory, it is well S21 = (3) known that the variation with frequency of the input impedance of an open Z + 2 0 Port 1 Port 2 stub is given by:

Figure 3: DUT Serial measurements 2pl 2pl Z = –jZ .cot g = –jZ .cot g ƒ (5) The variation of S11 (ﬁgure 4) and S21 (ﬁgure 5) show the different resonance e c ( l ) c ( c ) frequencies SRF (serial resonance frequency) and PRF (parallel resonance frequency)

• The SRF is deﬁned when the capacitor is a pure very small resistance: Ze 1 +jX SRF = (4a) 2p√LC Validity domain of Therefore as X=0 the impedance deﬁned in (1) is: lumped model

Z = ESR (5) 0 c c 3c c 5c f At this frequency the ESR is usually low. 4l 2l 4l l 4l For example for a 251SHF150 (size 0805 and capacitance 15 pf): SRF=2.64 GHz and the ESR at this frequency is 0.200 ohm (ﬁgure 5)

• The PRF is associated with the parasitic capacitance CP deﬁned in ﬁgure 1. Assuming that Cp<

At this frequency the impedance is a pure very high resistance. Figure 8: Plot of the theoretical expression (5) of the impedance of a Single For example for a 251SHF150: Layer Capacitor modeled by an open stub PRF=3.66 GHz and the ESR at this frequency is very high (ﬁgure 6) The PRF could be determined by the S21 measurements (ﬁgure 5)

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The plot of the theoretical expression (5) of the impedance of a Single Layer Capacitor is shown in Fig. 8. As one can see, this theoretical curve predicts S11m a double infinity of self-resonant frequencies (alternances of serial and 0.9 parallel resonances) that are identical to the ones encountered in real world 0.8 measurements. 0.7 Consequently, for predicting and understanding the behavior or a capacitor at 0.6 0.5 frequencies that are close or above the first SRF, the lumped model (shown S11m 0.4 in Fig. 1) is not applicable and must be replaced by the distributed model or 0.3 transmission line model (shown in Fig. 7). 0.2 Furthermore, according to [1], the transmission line model predicts accurately 0.1 that the serial or parallel self-resonances are doubled when a capacitor chip 0 0 (2.62, 0.00) 10 15 20 25 is mounted with its internal electrodes oriented vertically (once again, it is Frequency (GHz) impossible to predict such a phenomenon with the lumped model). If now we take a closer look at a capacitor used as a coupling capacitor in a Figure 4: S11curve for a 251SHF150 from EXXELIA ABC software wide band application, it is evident when looking at fig. 8 that the coupling function will be correctly fulfilled at frequencies close to the serial resonant frequencies, since the capacitor’s impedance is very low. S21m Conversely, the contrary will be encountered at the parallel resonant 1.2 frequencies since the capacitor’s impedance is very high and consequently 1 the coupling function is not fulfilled. 0.8 Therefore in the application we must avoid to be at PRF. The High ESR may

S21m 0.6 involve power loss and increase of internal temperature, since: 0.4

P = ESR I2 (6) 0.2 (3.64,0.26) ∆T 0 P = (stationary state) (7) 0 5 10 15 20 25 Frequency (GHz) RTH

Figure 5: S21curve for a 251SHF150 from EXXELIA ABC software The temperature increase is therefore:

2 ∆T = ESR I RTH (8) ESR 1000 Where Rth is the thermal resistance of the capacitor with the PCB. 100 (3.64, 283.79) At ﬁrst glance, equations (6), (7) & (8) conﬁrm an increase of the internal temperature, but a closer look at these equations reveals that this temperature 10 rise takes place only if the current I is constant. The problem is that in real ESR applications the power source is rarely a pure current generator. More often 1 than none, the power source is the dual of a current generator ie. a pure voltage 0.1 generator. In the case of a circuit powered by a pure voltage generator, the contrary of the preceding behavior will be encountered at PRF since, as the 0.01 0 5 10 15 20 25 capacitor’s impedance is very high, the current I is very low and consequently, Frequency (GHz) according to (6), (7) & (8) the temperature rise is not obvious or may be a temperature fall. Figure 6: ESR curve for a 251SHF150 from EXXELIA ABC software From these considerations, one can draw the conclusion that when a coupling capacitor is used at its PRF, for predicting an eventual temperature rise it is also mandatory to know for the PRF the behavior of the generator and the load between which the coupling capacitor is serially inserted. In other words, the coupling capacitor is not the only cause of a temperature rise and consequently, the characteristics of the whole circuitry must be well known and understood prior to investigate the reasons of a temperature rise. HIGH Q

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II. PARAMETERS OF SUBSTRATES AND CAPACITORS WITCH INFLUENCES THE CAPACITOR RELIABILITY DATA MIL-STD CDR PRF STYLES, RF & AMP; MICROWAVE SYSTEMS As the PRF is linked to the parasitic parallel capacitance, when the capacitor is mounted on a PCB, the main parameters witch could influence the PRF are: I. TYPICAL RELIABILITY TESTS • PCB parameters • Adhesive Strength of Termination • Capacitor parameters • Bending Strength - Capacitance value • Solderability of Termination - Geometry and size • Resistance to Soldering Heat - Electrode orientation (horizontal or vertical) • Thermal shock –55°C to +125°C - Internal design • Humidity Load (240 hours, 85% relative humidity at +85°C) • High Temperature Load (1000/2000h, 125°C, x U ) For example in the following screen plots, we can see that the first PRF is about N 1.8GHz when the capacitor is mounted horizontally and is not visible when it II. RELIABILITY DATA MONITORING is mounted vertically. II.1. General Manufacturing Process dB At each step of the manufacturing process, specific checks have been set-up to guarantee the quality level of our products. Statistical Process Controls (also 2 known as SPC) are utilized to monitor key parameters within processes. In addition to all these in-process controls, a sample of capacitors from each 0 lot is micro-sectioned to check the internal structure and the absence of voids, delaminations, cracks or other defects. When manufacturing is completed, the multilayer ceramic capacitors are fully –2 screened for Capacitance, Dissipation Factor, Dielectric Withstanding Voltage, Insulation Resistance and Visual Defects.

–4 II.2. Reliability Testing During qualification of new capacitor series or at random intervals, Temex Ceramics performs life tests – 2,000 hours, +125°C, 2 x WVDC - and uses –6 GHz 0 1 1.8 2 3 4 MIL-PRF-55681 as a guideline. The following parameters best describe our multilayer ceramic capacitors for military applications: Horizontal mounting • data from MIL-PRF- 55681 revision F; dB • capacitor, chip, multiple layer, fixed, ceramic dielectric, established reliability; 2 • rated temperature: –55°C to +125°C; • CDR11, CDR12, CDR13 and CDR14 case sizes; • Failure Rate levels C, M, P, R and S. 0 The data obtained from our continuous life test monitoring are used to calculate an equivalent part failure rate and to compare it to the Failure Rate level as defined in MIL-PRF-55681F. The methods and formulae used are based –2 on MIL-HDBK271F and MIL-STD-690D. An acceleration factor of 8:1 is used to relate life test data obtained at 200% –4 rated voltage at maximum rated temperature, to rated voltage at maximum rated temperature (125°C). The following formula is used:

–6 GHz 3 T–T0 0 1 1.8 2 3 4 V 10 AF = x 2 V Vertical mounting ( 0 )

Figure 9: Example of PRF measurement (501SHB390JS on a FR4 PCB where V0 is the rated voltage, T0 the rated temperature, V and T the life test horizontal and vertical mounting) parameters.

III. RELIABILITY DATA SUMMARY [1] Monolithic Capacitors as Transmission Lines. Marc INGALLS and Gordon As stated in MIL-STD- 690D, data are accumulated from sample units selected KENT IEE Transactions on Microwaves Theory and Techniques, Vol. MTT-35, from a production run and produced with equipment and procedures normally N°11 november1987, pp. 964-970. used in production. One of the prerequisites for valid data is that all lots produced during the production period be represented. The data are from the same product in current production, i.e. data from products of preceding designs are not acceptable.

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III.1. Failure Rate Level where:

The summary of all collected data gives the following results: • lb is the Base Failure Rate; • p is the Capacitance Factor; • cumulative unit hours in millions: 9.27; CV • p is Quality Factor; • cumulative unit hours in millions with acceleration factor: 74.16; Q • p is the Environment Factor. • number of defects: 1. E The Part Failure Rate, considering the capacitor series meet the required We consider a single sampling plan based on a 90 percent confidence level: FR level, gives the number of failures per 106 hours. In MIL-HDBK-217F, the FRSP-90. For this FR sampling plan, MIL-STD- 690D gives the following criteria: values for all these parameters are given under Capacitors, Fixed, Ceramic, Temperature Compensating and Chip paragraph. The CDR style as described Qualified FR Level Number of Failures by MIL-PRF-55681F is taken into account and corresponds to Temex Ceramics FR Level Symbol (% per 1,000 hours) Permitted CHA and CHB sizes. C non-ER N/A IV.1. Quality Factor M 1.0 1 over 0.389M hours The Quality Factor depends on the FR level. If we consider the three FR levels P 0.1 1 over 3.89M hours defined previously for Temex Ceramics multilayer capacitors, the given factors R 0.01 1 over 38.9M hours are: S 0.001 1 over 389M hours Symbol Product Level pQ EXXELIA Temex therefore complies with the requirements of C, M, P and R C non-ER 3.0 failure rate levels. M 1.0 % per 1,000 hours 1.0 S failure rate level according to European Space Agency specifications P 0.1 % per 1,000 hours 0.3 3009/035 and 3009/036. III.2. Mean Time To Failure IV.2. Environment Factor MTTF is the basic measure of reliability for non-repairable items. It is analogous All part reliability models include the effects of environmental stresses to the more familiar MTBF (Mean Time Between Failures) used for systems through the Environmental Factor. The descriptions of these environments are which can be repaired and placed back in service after failure occurs. FR levels shown below and encompass the major areas of equipment use may be converted to mean time to failure (MTTF) as follows:

Environment Description pE 100 000 MTTF = , in failure per 106 hours Non-mobile, temperature and humidity controlled envi- FR___level ronments readily accessed to maintenance; includes laboratory instruments and test equipment, medical GB : Ground, Benign electronic equipment, business and scientific comput- 1.0 III.3. Unit Hour Requirement er complexes, and missiles and support equipment in ground silos. A complete Poisson distribution table is needed to compute unit hours. To Moderately controlled environments such as installa- calculate unit hours with a given number “C” of permitted failures (we are tion in permanent racks with adequate cooling air and considering 1 permitted failure) we first have to determine the probability of GF : Ground, Fixed possible installation in unheated buildings; includes 2.0 acceptance P a by subtracting the FRSP value (0.90 as we have selected a permanent installation of air traffic control radar and confidence level of 90%) from 1. communications facilities. Equipment installed on wheeled or tracked vehicles and Example: Pa = 1 – 0.90 = 0.10 equipment manually transported; includes tactical missile ground support equipment, mobile communication From Poisson’s table and for a Failure Rate level M, we find for the parameters GM : Ground, Mobile equipment, tactical fire direction systems, handheld 10.0 “C” and Pa equal respectively to 1 and 0.10 the corresponding “m” value of communications equipment, laser designations and 3.89; this “m” value in the table is the total of failure rate l multiplied by the range finders. time (test hours).

M = l x t IV.3. Part Failure Rate Calculation The part failure rate calculated as specified in MIL-HDBK-217F provides a more unit hours = m ÷ l (1%/1,000hours as we are working with FR level M) accurate result than the standard failure rate given by a particular FR level. unit hours = 3.89 ÷ 0.00001 = 0.389 million hours (around 45 years) The two main parameters are the FR level achieved by the standard process – Values for P, R and S levels are found by multiplying the previous level by 10. Quality Factor - and the application where the part will be used – Environment Factor. Specific study could be made on request based on customer’s IV. PART FAILURE RATE requirements and equipments. The Part Failure Rate as defined by MIL-HDBK- 217F is given by the following formula:

lp = lb. pCV. pQ. pE HIGH Q

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POWER CAPACITOR ENDURANCE TESTING I.2. Test Cycle ULTRA-LOW ESR, HIGH RF POWER The complete test cycle is shown in figure 3. The test starts with a tuning procedure at low power. As soon as the matching condition is achieved the I. FOREWORDS RF power is set to the value that is necessary to heat the capacitors. During the ON time, the frequency is continuously adjusted to minimize the reflected I.1. Concept power. After 5 seconds ON, the RF is switched off for the next 5 seconds. Then Figure 1 shows the general concept. The setup contains a direct digital the RF is switched on again. Because the capacitors have cooled down during synthesizer (DDS) that generates an RF signal with a variable frequency. the OFF time, the test generator needs to re-tune. The re-tune procedure takes Its signal is amplified by a driver stage followed by a power amplifier stage. 500ms. After that, the RF is ON for the next 5 seconds. That way a complete The gain of the PA stage is controlled by varying its supply voltage. For that cycle takes 10 seconds. purpose a variable power supply is provided. The directional coupler measures the forward and the reflected power. The latter is a value that describes the quality of the matching condition. The role of the matching network is to match Pforwarded Preflected the capacitor to a 50W load. The capacitor under test is mounted on a separate printed circuit board and is encapsulated by a small cabinet. This cabinet isolates the capacitor from the ambient temperature. A temperature sensor is integrated into the cabinet to measure the capacitors temperature.

Tuning at Start 5 sec. 5 sec. 5 sec. 5 sec.

Directional Retuning Retuning DSC Coupler Capacitor Oscillator RF RF-PA Match under Resistive 20-100MHz Driver test load Figure 3

Variable Temp. Power Sensor Supply The following conditions have been used: • HiQ multilayer ceramic capacitors operated at 27MHz; Temp. Controler • 2 complete test sets are done, one for B size (1111) and another for Match Controler X size (2225); Micro Controler LC Display RS-232 • a complete test set represents 1 million cycles (4 months of Figure 1 continuous RF power).

With a microcontroller, there are two control loops realized. The temperature I.3. Data Acquisition of the capacitor is measured at the beginning of the 5 seconds off time with a temperature sensor. The sensor’s signal is used to control the variable power The test generator measures continuously: the frequency, the forward power, supply which influences the power amplifiers gain and as a consequence, the the reflected power and the three temperatures. The test generator stores output power or the current through the capacitor under test. these values always at the end of the 5 seconds ON time. The remote computer gathers the data at least once each cycle and writes these records to a log file. The ground plane improves the heat spread between the capacitors. This is Each file collects the record of one day and is automatically sent by email once further supported by a copper bar that is directly pressed on the ground plane a day. of the PC board. On the front side of the copper bar, a NTC is mounted. Tests have shown that this heat coupling is very critical for the overall performance. The NTC is screwed directly and by that the heat coupling is both tight and reliable.

Capacitors under test (x9)

Ground plane with vias PC board NTC Copper bar PTFE insulation

PC board

Figure 2

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II. RESULTS III. CONCLUSIONS All the tests have been performed by an external independent company named These tests have shown the reliability of Temex-Ceramics capacitors in Barthel HF Technik located in Aachen, Germany. operation. Each of the HiQ capacitors under test has been exposed during 4 months to their maximum RF power signal rating, heated up to 125°C II.1. HiQ Capacitors – B Size (1111) – Solderable Nickel Barrier continuously and without any failure or event to report. The CHB series RF/Microwave capacitors offer both extended operating This endurance test, along with the European Space Agency qualiﬁ cation (see temperatures up to 175°C and extended voltages up to 1 500 V . These DC ESA.pdf on our website), the regular life test performed on standard production components are based on our well-known P100 HiQ dielectric, a low loss lots (see Reliability_Data.pdf) and the MIL class R rating (see MIL.pdf) highlight, material, which is ESA and MIL qualiﬁ ed - ITAR free. the high quality and reliability associated with Temex Ceramics capacitors. On May the 9th 2011, the test set was completed without any problem to report.

II.2. HiQ Capacitors – X Size (2225) – Non Magnetic Solderable Barrier The CLX series High RF Current/Voltage capacitors offer both ultra stability over temperature and extended voltages up to 3 600 VDC. These components are based on our well-known NP0 HiQ dielectric, a low loss and ultra stable material, which is MRc e r t i ﬁ e d® and MIL qualiﬁ ed - ITAR free. On November the 9th 2011, the test set was completed without any problem to report.

! HIGH Q

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IV. APPENDIX The capacitance of the capacitor under test may vary during the temperature Both control loops are realized by a micro controller. Additionally, the micro ramp up time. Additionally it may vary if there is a beginning of destruction controller provides an RS-232 interface to set some confi guration values. A process. If the frequency was kept constant, the RF power coupled into the LC display shows warning messages also and some status information like capacitor under test will decrease. Hence the temperature control loop will temperature, RF power, etc. increase the RF power. The test generator works completely self sustained. It controls the This may lead to a situation where the temperature decreases when the temperature, RF power, frequency and all other parameters. The test generator RF power cannot be increased any more. In order to cope with this, there is takes also care that it remains itself within safe limits like maximum cool plate a second control loop that varies the frequency in order to minimize the temperature, maximum forward power, maximum reflected power, frequency refl ected power. So the RF power amplifi er stage will always be able to deliver within a given bandwidth, etc. The test generator is connected to a remote the necessary power to keep the temperature constant. computer. As PC board, a ceramic material from Rogers is used, the RO4350 material. Comparing to the standard FR4 material the ceramic board has the following advantages: improved heat conductivity; improved heat resistance and improved electrical strength. Due to the improved electrical strength, it was possible to have a ground plane on the bottom side of the board. The coupler bar rests on a PTFE insulation. It was meant to be a heat insulation. However, during pre-tests, it became apparent that the PTFE material spreads the heat more than expected. In order to improve the heat insulation towards ground and the ambient air, the complete setup is now surrounded by a layer of glass wool. All these efforts led to the following results: the temperature difference between the RF on time and the RF off time is less than 10°C and a total RF power of approximately 35 Watts is sufficient to heat the capacitors to 125°C. The capacitors under test are soldered with a non lead solder, Sn95Ag4Cu1 which has an extended temperature range also. Figure 4 shows the test setup.

Figure 4

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Classic HiQ General characteristicsCH Series

According to ESA Qualiﬁed

FEATURES ELECTRICAL AND ENVIRONMENTAL SPECIFICATIONS

• Low ESR, Ultra High-Q, High Self-Resonant Frequencies Electrical specifi cations • RF & Microwave capacitors Parameter Value • Voltage range: 50V - 1,500V Capacitance 0.1pF - 1,000pF • Capacitance range: 0.1pF - 1,000pF A, B, C, D below 10pF Tolerances • Operating temperature up to 125°C* F, G, J, K above 10pF • Porcelain Capacitors P100 Working voltage (WVDC) See capacitance range chart • Laser Marked (optional) Temperature coeffi cient (100 ± 30) ppm/°C, –55°C to +125°C 6 • RoHS compliant Insulation Resistance 10 MΩ min. 2.5 x WVDC for WVDC ≤ 500V Dielectric Withstanding 1.8 x WVDC for extended range values ≥ 820pF (test voltage applied for 5 seconds) APPLICATIONS 1.5 x WVDC for WVDC > 500V Aging none • Cellular Base Station Amplifi ers Piezo Effect none • Industrial • Medical (MRI) • Scientifi c Environmental specifi cations Parameter Value 2,000 hours, +125°C at 2 x WVDC CIRCUIT APPLICATIONS Life Test (standard WVDC range) • DC to RF Conversion And CHB up to 100pF: 1,000 hours, 175°C at 500V 240 hours, 85% relative humidity at 85°C • Matching Networks Moisture Resistance Test 1 (ESA/SCC n°3009) • Tuning, Coupling and DC Blocking 56 days, 93% relative humidity at 40°C Moisture Resistance Test 2 0V, 5V, WVDC

PHYSICAL CHARACTERISTICS NB: The temperature range for the CHB up to 100pF is upgrated from +125°C to +175°C. • Chip capacitors for surface mounting with copper (non magnetic) or nickel barrier and tinning • Ribbon leads for surface mounting

HOW TO ORDER

152 CH B 100 J S 1 L E -RoHS Voltage code Dielectric Size code Capacitance code Tolerance code Termination code Ribbon code Marking code Tape and reel

500 = 50V CH = A = 0505 Please refer to A = ±0.05pF S = Standard: -: no lead or ribbon -: no marking -: no tape and reel The RoHS tag is 101 = 100V (100±30) B = 1111 capacitance code B = ±0.1pF tin-plated nickel Available on size not part of the 201 = 200V ppm/°C given in capacitance C = ±0.25pF 1111: L = laser marking E = horizontal orientation reference 251 = 250V range chart D = ±0.5pF C = Non-magnetic: X = verticale orientation 301 = 300V F = ±1% tin-plated copper 1 = Micro-strip Tag added at the 501 = 500V G = ±2% ribbons CHA: end of P/N for 601 = 600V J = ±5% See note 2 6 = Radial leads 3,000 components per reel information 102 = 1,000V K = ±10% 0.1pF (0R1) non CHB: 152 = 1,500V See note 1 available with 1,000 components per reel these terminations. Please refer to voltage given in capacitance range chart See note 3

Note 1: For capacitance values less than 10pF, tolerances B, C and D available. Tolerance code A available for: A case for capacitance values of 0.1pF - 4.7pF. B case for capacitance values of 0.1pF - 3.3pF. For capacitance values of 10pF or higher, tolerances F, G, J and K available. Note 2: All terminations are backward compatible and lead-free. The non-magnetic terminations are all Magnetism-free Rated. Note 3: when coding ribbons for the description of the part, the termination has to be mentioned for MR certiﬁ ed types to ensure that only non-magnetic materials are used. Examples: 501 CHB 470 J1L any termination material could be used. 501 CHB 470 JC1L only non-magnetic termination materials could be used. Please consult us for speciﬁ c requirements. HIGH Q

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TapingCH Series : dimensions Classic HiQ

TYPICAL PERFORMANCE DATA CHA (0505 SIZE): TYPICAL PERFORMANCE DATA CHB (SIZE 1111): S-Parameters available with ABC software. S-Parameters available with ABC software.

ESR VERSUS FREQUENCY ESR VERSUS FREQUENCY ESR (Ω) E S R (Ω)

10pF 10 pF 56pF 27 pF 68 pF 33 pF

0.10 0.10

0.01 0.01 100 1,000 100 1,000 Frequency (MHz) Frequency (MHz)

CURRENT RATING VERSUS CAPACITANCE CURRENT RATING VERSUS CAPACITANCE RMS current (A ) RMS current (A) 10 T max = 125°C 2 GHz T amb = 25°C 1 GHz 500 MHz 10

1 1

T max = 125°C T amb = 25°C 0.1 0.1 1 10 100 1 10 100 1000 Capacitance (pF) Capacitance (pF) Q FACTOR VERSUS FREQUENCY Q FACTOR VERSUS FREQUENCY Q factor Q factor 100,000 100,000

10,000 10,000

1,000 1,000

100 100

10 10

1 1 10 100 1,000 10 100 1,000 Frequency (MHz) Frequency (MHz)

SERIES RESONANCE FREQUENCY VERSUS CAPACITANCE SERIES RESONANCE FREQUENCY VERSUS CAPACITANCE Frequency (MHz) Frequency (MHz) 10,000 10,000

1,000 1,000

100 100 1 10 100 1 10 100 1,000 Capacitance (pF) Capacitance (pF)

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Classic HiQ General characteristicsCH Series

DIMENSIONS in inches (mm) Chips Micro-strip ribbon leads (Type 1) Radial leads (Type 6)

STANDARD RATINGS

Size 0505 1111 Size 0505 1111 Size code A B Size code A B 0.055 ± 0.01 0.11 ± 0.016 0.055 ± 0.01 0.11 ± 0.016 L L (1.4 ± 0.25) (2.8 ± 0.4) (1.4 ± 0.25) (2.8 ± 0.4) 0.055 ± 0.01 0.11 ± 0.016 0.055 ± 0.01 0.11 ± 0.016 W W (1.4 ± 0.25) (2.8 ± 0.4) (1.4 ± 0.25) (2.8 ± 0.4) 0.056 max 0.103 max 0.056 max 0.103 max T T Dimensions Dimensions

inches (mm) inches (1.4 max) (2.6 max) (mm) inches (1.4 max) (2.6 max) 0.01 ± 0.006 0.016 ± 0.01 0.01 ± 0.006 0.016 ± 0.01 e e (0.25 ± 0.15) (0.4 ± 0.25) (0.25 ± 0.15) (0.4 ± 0.25) Value (pF) Cap. Code Standard Standard Extended Value (pF) Cap. Code Standard Standard Extended 0.1 0R1 51 510 0.2 0R2 0.3 0R3 56 560 0.4 0R4 62 620 0.5 0R5 68 680 0.6 0R6 200V 0.7 0R7 75 750 500V 1,500V 0.8 0R8 0.9 0R9 82 820 1.0 1R0 91 910 1.1 1R1 1.2 1R2 100 101 1.3 1R3 110 111 1.4 1R4 120 121 1.5 1R5 1.6 1R6 130 131 1.7 1R7 150 151 1.8 1R8 1.9 1R9 160 161 300V 1,000V 2.0 2R0 180 181 2.1 2R1 2.2 2R2 200 201 2.4 2R4 220 221 2.7 2R7 3.0 3R0 240 241 3.3 3R3 270 271 3.6 3R6 250V 500V 1,500V 3.9 3R9 300 301 4.3 4R3 330 331 4.7 4R7 200V 600V 5.1 5R1 360 361 5.6 5R6 390 391 6.2 6R2 6.8 6R8 430 431 7. 5 7R5 470 471 8.2 8R2 9.1 9R1 510 511 10 100 560 561 100V 11 110 12 120 620 621 13 130 680 681 15 150 300V 16 160 750 751 18 180 820 821 50V 20 200 910 911 22 220 24 240 1,000 102 27 270 30 300 33 330 Special values, tolerances, higher WVDC and matching available, please consult factory. 36 360 39 390 43 430 47 470 HIGH Q

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TapingSH Series : dimensions Super HiQ

FEATURES ELECTRICAL AND ENVIRONMENTAL SPECIFICATIONS

• Lowest ESR in class, High Self-Resonant Frequencies, RF Electrical specifi cations capacitors Parameter Value • Highest working voltage in class: 1,500V Capacitance 0.2pF - 1,000pF • Standard EIA sizes: 0402 - 1111 A, B, C, D below 10pF Tolerances • Capacitance range: 0.2pF - 1,000pF F, G, J, K above 10pF • NPO, RoHS & REACH compliant Working voltage (WVDC) See capacitance range chart 0 ±30ppm/°C, –55°C to +125°C • Operating temperature up to 125° C* Temperature coeffi cient For SHF and SHS: 0 ±30ppm/°C, –55°C to +150°C • Laser Marked (optional) Insulation Resistance 105 MΩ min. 2.5 x WVDC for WVDC ≤ 500V Dielectric Withstanding 1.8 x WVDC for extended range values ≥ 820pF APPLICATIONS (test voltage applied for 5 seconds) 1.5 x WVDC for WVDC > 500V • Cellular Base Station Equipments Aging none • Broadband Wireless Service Piezo Effect none • Point to Point / Multipoint Radios • RF Generators (NMR…) Environmental specifi cations Parameter Value CIRCUIT APPLICATIONS 2,000 hours, +125°C at 2 x WVDC (standard WVDC range) Life Test • Filter Networks And SHB up to 100pF: 1,000 hours, 175°C at 500V 240 hours, 85% relative humidity at 85°C • Matching Networks Moisture Resistance Test 1 (ESA/SCC n°3009) • Tuning, Coupling and DC Blocking 56 days, 93% relative humidity at 40°C Moisture Resistance Test 2 0V, 5V, WVDC PHYSICAL CHARACTERISTICS * The temperature range for the SHB up to 100pF is upgrated from +125°C to +175°C. • Chip capacitors for surface mounting with: The temperature withstanding for SHF and SHS is 150°C for the whole capacitance range. - Copper barrier and tinning or Silver/Palladium (non magnetic) - Nickel barrier and tinning • Ribbon leads for surface mounting

HOW TO ORDER

501 SH B 100 J S - L E -RoHS Voltage code Dielectric Size code Capacitance code Tolerance code Termination code Ribbon code Marking code Tape and reel

250 = 25V SH = L = 0402 Please refer to Cap. A = ±0.05pF S = Standard: -: no lead or ribbon -: no marking -: no tape and reel The RoHS tag is 500 = 50V NPO: S = 0603 Code given in B = ±0.1pF tin-plated nickel not part of the 101 = 100V (0±30) A = 0505 capacitance range C = ±0.25pF Available on sizes 0505, Available on size Available on sizes E = Tape and reel reference 201 = 200V ppm/°C F = 0805 chart. D = ±0.5pF 0603 and 1111: 1111: 0505 and 1111: packaging 251 = 250V N = 1206 F = ±1% C = Non-magnetic: 1 = Micro-strip L = laser marking Number of compo- Tag added at the 301 = 300V T = 1210 G = ±2% tin-plated copper ribbons nents per reel: end of P/N 501 = 500V B = 1111 J = ±5% 6 = Radial Wires SHL: 10,000 for information 601 = 600V K = ±10% Available on sizes 0505, SHA: 3,000 102 = 1,000V 0805 (from 0.5pF to 150pF, See note 3 SHS: 4,000 152 = 1,500V See note 1 consult us for higher cap. SHF: 4,000 value), 1206 and 1210: SHN: 3,000 Please refer to voltage given A = Non-magnetic: SHT: 3,000 in capacitance range chart silver/palladium SHB: 1,000 See note 2 Note 1: For capacitance values less than 10pF, tolerances B, C and D available. Tolerance code A available for: L case for capacitance values of 0.2pF - 1.9pF. A case for capacitance values of 0.2pF - 4.7pF. S case for capacitance values of 0.2pF - 9.1pF. F case for capacitance values of 0.3pF - 2.2pF. N case for capacitance values of 0.5pF - 1.8pF. B case for capacitance values of 0.2pF - 3.3pF. For capacitance values of 10pF or higher, tolerances F, G, J and K available. Note 2: All terminations are backward compatible and lead-free. The non-magnetic terminations are all Magnetism-free Rated. Note 3: When coding ribbons for the description of the part, the termination has to be mentioned for MRcertiﬁ ed types to ensure that only non-magnetic materials are used. Examples: 501 SHB 470 J1L any termination material could be used. 501 SHB 470 JC1L only non-magnetic termination materials could be used. Please consult us for speciﬁ c requirements.

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Super HiQ General characteristicsSH Series

TYPICAL PERFORMANCE DATA S-Parameters available with ABC software.

SHA (SIZE 0505): TYPICAL ESR VERSUS FREQUENCY SHB (SIZE 1111): TYPICAL ESR VERSUS FREQUENCY E S R (Ω) E S R (Ω) 10 pF 10 pF 56 pF 27 pF 68 pF 33 pF

0.10 0.10

0.01 0.01 100 1,000 100 1,000 Frequency (MHz) Frequency (MHz)

SHS (SIZE 0603): TYPICAL ESR VERSUS FREQUENCY SHS (SIZE 0603): TYPICAL Q FACTOR VERSUS FREQUENCY E S R (Ω) Q factor 10,000

1,000 0.10

100

10 3.3 pF 10 pF 47 pF 0.01 1 0 500 1,000 1,500 2,000 2,500 500 1,000 1,500 2,000 Frequency (MHz) Frequency (MHz)

SHF (SIZE 0805): TYPICAL ESR VERSUS FREQUENCY SHF (SIZE 0805): TYPICAL Q FACTOR VERSUS FREQUENCY E S R (Ω) Q factor 0.2 10,000

0.15 1,000

0.1 100

0.05 10 1 pF 10 pF 100 pF 0 1 500 1,000 1,500 2,000 500 1,000 1,500 2,000 Frequency (MHz) Frequency (MHz) DIMENSIONS in inches (mm) Chips Micro-strip ribbon leads (Type 1) Radial leads: available on all sizes (Type 6) HIGH Q

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TapingSH Series : dimensions Super HiQ

STANDARD RATINGS Size 0402 0603 0505 0805 1206 1210 1111 Size code L S A F N T B 0.039 ± 0.006 0.063 ± 0.01 0.055 ± 0.01 0.08 ± 0.01 0.125 ± 0.01 0.125 ± 0.01 0.110 ± 0.016 L (1 ± 0.15) (1.6 ± 0.25) (1.4 ± 0.25) (2.03 ± 0.25) (3.18 ± 0.25) (3.18 ± 0.25) (2.80 ± 0.40) 0.02 ± 0.006 0.032 ± 0.01 0.055 ± 0.01 0.05 ± 0.01 0.062 ± 0.01 0.095 ± 0.01 0.110 ± 0.016 W (0.5 ± 0.15) (0.8 ± 0.25) (1.4 ± 0.25) (1.27 ± 0.25) (1.58 ± 0.25) (2.41 ± 0.25) (2.80 ± 0.40) 0.02 max 0.036 max 0.056 max 0.05 max 0.05 max 0.06 max 0.103 max T Dimensions

inches (mm) inches (0.51 max) (0.9 max) (1.4 max) (1.27 max) (1.27 max) (1.52 max) (2.60 max) 0.01 ± 0.006 0.014 ± 0.008 0.01 ± 0.006 0.02 ± 0.012 0.02 ± 0.01 0.02 ± 0.01 0.016 ± 0.010 e (0.25 ± 0.15) (0.35 ± 0.2) (0.25 ± 0.15) (0.5 ± 0.3) (0.5 ± 0.25) (0.5 ± 0.25) (0.40 ± 0.25) Value (pF) Cap. Code Standard Standard Standard Standard Standard Standard Standard Extended 0.2 0R2 0.3 0R3 0.4 0R4 0.5 0R5 0.6 0R6 0.7 0R7 0.8 0R8 0.9 0R9 1.0 1R0 1.1 1R1 1.2 1R2 1.3 1R3 1.4 1R4 50 - 250V 1.5 1R5 1.6 1R6 1.7 1R7 1.8 1R8 1.9 1R9 2.0 2R0 2.1 2R1 2.2 2R2 2.4 2R4 2.7 2R7 3.0 3R0 3.3 3R3 3.6 3R6 3.9 3R9 250V 4.3 4R3 500V 4.7 4R7 5.1 5R1 5.6 5R6 250V 6.2 6R2 500V 1,500V 6.8 6R8 7. 5 7R5 8.2 8R2 250V 500V 9.1 9R1 50 - 200V 10 100 11 110 12 120 15 150 16 160 18 180 20 200 22 220 24 240 27 270 30 300 33 330 25 - 50V 36 360 39 390 43 430 47 470 51 510 56 560 62 620 68 680 75 750 200V 200V 82 820 91 910 100 101 110 111 120 121 130 131 150 151 160 161 100V 200V 300V 1,000V 180 181 200 201 220 221 240 241 270 271 300 301 330 331 360 361 200V 600V 390 391 430 431 470 471 510 511 100V 560 561 100V 620 621 680 681 750 751 300V 820 821 50V 910 911 1,000 102

Special values, tolerances, higher WVDC and matching available, please consult factory.

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Reverse Geometry GeneralSHR characteristics / SHD Series

FEATURES ELECTRICAL AND ENVIRONMENTAL SPECIFICATIONS

• Reverse-Geometry MLCC providing Ultra low ESL and very Electrical speciﬁ cations High Self Resonant Frequencies Parameter Value • High power dissipation Capacitance 0.5pF - 100pF • Lowest ESR in class, RF & Microwave capacitors A, B, C, D below 10pF Tolerances • Working voltage: 500V F, G, J, K above 10pF • Sizes: 0709 and 0711 Working voltage (WVDC) 500V • Capacitance range: 0.5pF - 100pF Temperature coefﬁ cient NPO: (0 ± 30) ppm/°C, –55°C to +175°C 5 • NPO, RoHS compliant Insulation Resistance 10 MΩ min. Dielectric Withstanding 1,250V • Operating temperature up to 175°C (test voltage applied for 5 seconds) • Laser Marked (optional) Aging none Piezo Effect none

APPLICATIONS Environmental speciﬁ cations • Cellular Base Station Equipments Parameter Value 2,000 hours, +125°C at 1,000V • Broadband Wireless Service Life Test • Point to Point / Multipoint Radios 1,000 hours, +175°C at 500V 240 hours, 85% relative humidity at 85°C • Broadcasting Equipment Moisture Resistance Test 1 (ESA/SCC n°3009) 56 days, 93% relative humidity at 40°C Moisture Resistance Test 2 0V, 5V, WVDC CIRCUIT APPLICATIONS • Impedance Matching • Bypass, Feedback • Tuning, Coupling and DC Blocking

PHYSICAL CHARACTERISTICS Chip capacitors for surface mounting with Nickel barrier and tinning.

HOW TO ORDER

501 SH R 100 J S L E -RoHS Voltage code Dielectric Size code Capacitance code Tolerance code Termination code Marking code Tape and reel

501 = 500V SH = NPO: (0±30) R = 0709 Please refer to Cap. A = ±0.05pF S = Standard: tin-plat- -: no marking -: no tape and reel The RoHS tag is not part ppm/°C D = 0711 Code given in capaci- B = ±0.1pF ed nickel E = Tape and reel of the reference tance range chart C = ±0.25pF L = laser marking packaging D = ±0.5pF All terminations are Tag added at the end of F = ±1% backward compatible Number of compo- P/N for information G = ±2% and lead-free nents J = ±5% per reel: 1,000. K = ±10% See note

Note: For capacitance values less than 3.3pF, tolerances A, B, C and D are available. For capacitance values less than 10pF, tolerances B, C and D are available. For capacitance values of 10pF or higher, tolerances F, G, J and K are available. Please consult us for speciﬁ c requirements. HIGH Q

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TapingSHR / SHD : dimensions Series Reverse Geometry

DIMENSIONS in inches (mm) STANDARD RATINGS

Size 0709 0711 Size code R D 0.07 ± 0.015 0.07 ± 0.015 L (1.78 ± 0.38) (1.78 ± 0.38) 0.09 ± 0.01 0.105 ± 0.01 W (2.29 ± 0.25) (2.67 ± 0.25) 0.106 max 0.09 max T Dimensions

inches (mm) inches (2.67 max) (2.29 max) 0.01 +0.008/-0.006 0.01 +0.008/-0.006 e (0.25 +0.2/-0.15) (0.25 +0.2/-0.15) Value (pF) Cap. Code Standard Standard 0.5 0R5 0.6 0R6 0.7 0R7 0.8 0R8 0.9 0R9 TYPICAL ESR VERSUS FREQUENCY 1.0 1R0 E S R (Ω) 1.1 1R1 1.2 1R2 1.3 1R3 1.4 1R4 1.5 1R5 0.10 1.6 1R6 1.7 1R7 1.8 1R8 1.9 1R9 2.0 2R0 2.1 2R1 2.2 2R2 15 pF 2.4 2R4 33 pF 2.7 2R7 100 pF 0.01 3.0 3R0 100 1,000 3.3 3R3 Frequency (MHz) 3.6 3R6 3.9 3R9 4.3 4R3 4.7 4R7 5.1 5R1 5.6 5R6 TYPICAL SERIES RESONANT FREQUENCY VERSUS CAPACITANCE 6.2 6R2 500V 500V 6.8 6R8 Frequency (MHz) 3,000 7. 5 7R5 8.2 8R2 9.1 9R1 10 100 2,500 11 110 12 120 15 150 2,000 16 160 18 180 20 200 1,500 22 220 24 240 27 270 30 300 1,000 33 330 10 30 50 70 90 Capacitance (pF) 36 360 39 390 43 430 47 470 51 510 56 560 62 620 68 680 75 750 82 820 91 910 100 101

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High Self Resonant Frequency General characteristicsNHB Series

FEATURES ELECTRICAL AND ENVIRONMENTAL SPECIFICATIONS

• High RF power MLCC Electrical specifi cations • Very high self resonant frequencies, lowest ESR in class, Parameter Value RF & Microwave capacitors Capacitance 0.3pF - 100pF • Working voltage: 500V A, B, C, D below 10pF Tolerances • Size: 1111 F, G, J, K above 10pF • Capacitance range: 0.3pF - 100pF Working voltage (WVDC) 500V • NPO, RoHS compliant Temperature coeffi cient NPO: (0 ± 30) ppm/°C, –55°C to +175°C 5 • Operating temperature up to 175°C Insulation Resistance 10 MΩ min. Dielectric Withstanding 1,250V • Laser Marked (optional) (test voltage applied for 5 seconds) Aging none Piezo Effect none APPLICATIONS • Cellular Base Station Equipments Environmental specifi cations • Broadband Wireless Service Parameter Value 1,000 hours, +175°C at 500V • Point to Point / Multipoint Radios Life Test • Broadcasting Equipment 2,000 hours, +125°C at 1,000V 240 hours, 85% relative humidity at 85°C Moisture Resistance Test 1 (ESA/SCC n°3009) 56 days, 93% relative humidity at 40°C Moisture Resistance Test 2 CIRCUIT APPLICATIONS 0V, 5V, WVDC • Impedance Matching • Bypass, Feedback • Tuning, Coupling and DC Blocking

PHYSICAL CHARACTERISTICS Chip capacitors for surface mounting with Nickel barrier and tinning.

HOW TO ORDER

501 NH B 100 J S L E -RoHS Voltage code Dielectric Size code Capacitance code Tolerance code Termination code Marking code Tape and reel

501 = 500V NH = NPO: (0±30) B = 1111 Please refer to Cap. A = ±0.05pF S = Standard: tin-plat- -: no marking -: no tape and reel The RoHS tag is not part ppm/°C Code given in capaci- B = ±0.1pF ed nickel of the reference tance range chart C = ±0.25pF L = laser marking E = Tape and reel D = ±0.5pF All terminations are packaging Tag added at the end of F = ±1% backward compatible P/N for information G = ±2% and lead-free Number of compo- J = ±5% nents K = ±10% per reel: 1,000. See note

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TapingNHB Series : dimensions High Self Resonant Frequency

DIMENSIONS in inches (mm) STANDARD RATINGS

Size 1111 Size code B 0.11 ± 0.016 L (2.8 ± 0.4) 0.11 ± 0.016 W (2.8 ± 0.4) 0.103 max T Dimensions inches (mm) inches (2.6 max) 0.016 ± 0.01 e (0.4 ± 0.25) Value (pF) Cap. Code Standard 0.3 0R3 0.4 0R4 0.5 0R5 0.6 0R6 TYPICAL ESR VERSUS FREQUENCY 0.7 0R7 Capacitance value = 33pF 0.8 0R8 0.9 0R9 ESR (Ω) 1.0 1R0 1.1 1R1 1.2 1R2 1.3 1R3 1.4 1R4 0.10 1.5 1R5 1.6 1R6 1.7 1R7 1.8 1R8 1.9 1R9 2.0 2R0 2.1 2R1 2.2 2R2 2.4 2R4 2.7 2R7 0.01 3.0 3R0 0 500 1,000 1,500 2,000 2,500 Frequency (MHz) 3.3 3R3 3.6 3R6 3.9 3R9 4.3 4R3 4.7 4R7 5.1 5R1 5.6 5R6 500V 6.2 6R2 6.8 6R8 7. 5 7R5 8.2 8R2 9.1 9R1 10 100 11 110 12 120 15 150 16 160 18 180 20 200 22 220 24 240 27 270 30 300 33 330 36 360 39 390 43 430 47 470 51 510 56 560 62 620 68 680 75 750 82 820 91 910 100 101

Special values, tolerances, higher WVDC and matching available, please consult factory.

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High Power General characteristics CP Series

FEATURES ELECTRICAL AND ENVIRONMENTAL SPECIFICATIONS • Low ESR/ESL, RF power capacitors • Porcelain capacitors P100, RoHS compliant Electrical specifi cations • Excellent characteristics in current, voltage and power Parameter Value with high Q factor Capacitance 1pF - 10,000pF B, C, D below 10pF • Working voltage: 200V - 7,000V Tolerances F, G, J, K above 10pF • Sizes: 2225 and 4040 Working voltage (WVDC) See capacitance range chart • Capacitance range: 1pF - 10,000pF Temperature coeffi cient (100 ± 30) ppm/°C, –55°C to +125°C • Laser Marked (optional) 105 MΩ min at 25°C at rated WVDC Insulation Resistance 104 MΩ min at 125°C at rated WVDC 2 x WVDC for WVDC ≤ 500V Dielectric Withstanding APPLICATIONS 1.5 x WVDC for 500V < WVDC ≤ 2,500V (test voltage applied for 5 seconds) • RF Power Amplifi ers 1.3 x WVDC for WVDC > 2,500V • Industrial (Plasma Chamber) Aging none • Medical (MRI Coils) Piezo Effect none

CIRCUIT APPLICATIONS Environmental speciﬁ cations • DC Blocking Parameter Value • Matching Networks 2,000 hours, +125°C • Tuning and Coupling at 1.5 x WVDC (WVDC ≤ 500V) Life Test at 1.3 x WVDC (500V < WVDC < 1,250V) at 1 x WVDC (1,250V ≤ WVDC) PHYSICAL CHARACTERISTICS 240 hours, 85% relative humidity at 85°C Moisture Resistance Test 1 • Chip capacitors for surface mounting with Nickel barrier (ESA/SCC n°3009) and tinning or Copper barrier and tinning (non magnetic) 56 days, 93% relative humidity at 40°C Moisture Resistance Test 2 • Ribbon leads for surface mounting, axial or radial leads 0V, 5V, WVDC or 500V whichever is less for through-hole circuits HOW TO ORDER

362 CP X 100 G C 1 - L E -RoHS Capacitance Termination Lead / Voltage code Dielectric Size code Tolerance code Coating code Marking code Tape and reel code code Ribbon code

201 = 200V CP = (100±30) X = 2225 Please refer to B = ±0.1pF S = Standard: -: no lead or ribbon -: no coating -: no marking -: no tape and reel The RoHS tag 301 = 300V ppm/°C E = 4040 Cap. C = ±0.25pF tin-plated nickel 1 = Micro-strip H = coating L = laser marking E = horizontal is not 501 = 500V D = ±0.5pF ribbons, RoHS requested orientation part of the 102 = 1,000V Code given in F = ±1% C = Non-magnetic: 6 = Radial leads, reference CPX: 500 compo- 122 = 1,200V capacitance range G = ±2% tin-plated copper non RoHS 152 = 1,500V chart J = ±5% nents per reel Tag added 7 = Axial leads, 162 = 1,600V K = ±10% See note 2 at the end non RoHS CPE: 500 or 700 252 = 2,500V components per of P/N for 362 = 3,600V See note 1 Available on size reel information 502 = 5,000V 4040: X = verticale 702 = 7,000V 1S = Short mi- orientation, only cro-strip ribbons, available on CPE, Please refer to RoHS 350 components voltage given in 2 = Axial ribbons, per reel capacitance range RoHS chart 3 = Radial ribbons, RoHS See note 3

Note 1: For capacitance values less than 10pF, tolerances B, C and D available. For capacitance values equal to or higher than 10pF, tolerances F, G, J and K available. Note 2: All terminations are backward compatible and lead-free. The non-magnetic terminations are all Magnetism-free Rated. Note 3: when coding ribbons or leads for the description of the part, the termination has to be mentioned for MRcertiﬁ ed types to ensure that only non-magnetic materials. Examples: 362 CPE 470 J1L any termination material could be used. 362 CPE 470 JC1L only non-magnetic termination materials could be used. Please consult us for speciﬁ c requirements.

HIGH Q

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TapingCP Series : dimensions High Power

2225: TYPICAL ESR VERSUS CAPACITANCE 4040: TYPICAL ESR VERSUS CAPACITANCE ESR (Ω) ESR (Ω) 50 50 100 MHz 40 45

30 MHz 35 40 50 MHz 35 30 30 MHz 30 25 25 20 20 15 15

10 10

5 5

0 0 1 1,000 1 100 1,000 10,000 Capacitance (pF) Capacitance (pF)

2225: TYPICAL CURRENT RATING VERSUS CAPACITANCE 4040: TYPICAL CURRENT RATING VERSUS CAPACITANCE

I max RMS (A) I max RMS (A) 100 100 30 MHz 30 MHz 100 MHz 100 MHz 500 MHz 500 MHz

10 10

1 1 1 10 100 1,000 10,000 1 10 100 1,000 10,000 Capacitance (pF) Capacitance (pF)

2225: TYPICAL SERIES RESONANT FREQUENCY VERSUS CAPACITANCE

Frequency (MHz) 10,000

1,000

100 1 10 100 1,000 Capacitance (pF)

www.exxelia.com 140 [email protected] Page revised 09/17 CERAMIC CAPACITORS

High Power General characteristics CP Series

DIMENSIONS in inches (mm)

Chips Micro-strip ribbons: available on all sizes Short Micro-strip ribbons: available on size E (4040) (Type 1) (Type 1S)

Axial ribbons: available on size E (4040) Radial ribbons: available on size E (4040) Radial leads: available on all sizes (Type 2) (Type 3) (Type 6)

Axial leads: available on sizes X (2225) and E (4040) (Type 7) HIGH Q

www.exxelia.com 141 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingCP Series : dimensions High Power

STANDARD RATINGS

Size 2225 4040 Size 2225 4040 Size code X E Size code X E 0.244 +0.012 / -0.028 0.413 +0.012 / -0.028 0.244 +0.012 / -0.028 0.413 +0.012 / -0.028 L L (6.2 +0.3 / -0.7) (10.5 +0.3 / -0.7) (6.2 +0.3 / -0.7) (10.5 +0.3 / -0.7) 0.26 ± 0.02 0.374 ± 0.02 0.26 ± 0.02 0.374 ± 0.02 W W (6.6 ± 0.5) (9.5 ± 0.5) (6.6 ± 0.5) (9.5 ± 0.5) 0.15 max 0.177 max 0.15 max 0.177 max T T (3.8 max) (4.5 max) (3.8 max) (4.5 max) 0.032 ± 0.024 0.032 ± 0.024 0.032 ± 0.024 0.032 ± 0.024 e e (0.8 ± 0.6) (0.8 ± 0.6) (0.8 ± 0.6) (0.8 ± 0.6) Dimensions Dimensions inches (mm) inches 0.472 min 0.63 min (mm) inches 0.472 min 0.63 min Lr Lr (12 min) (16 min) (12 min) (16 min) 0.213 0.35 0.213 0.35 Wr Wr (5.4) (8.9) (5.4) (8.9) 0.024 0.035 0.024 0.035 Ø Ø (0.60) (0.90) (0.60) (0.90) Value (pF) Cap. Code Standard Extended Standard Extended Value (pF) Cap. Code Standard Extended Standard Extended 1.0 1R0 56 560 1.1 1R1 62 620 1.2 1R2 68 680 1.3 1R3 75 750 3,600V 1.4 1R4 82 820 7,000V 1.5 1R5 91 910 1.6 1R6 100 101 1.7 1R7 110 111 1.8 1R8 120 121 2,500V 1.9 1R9 130 131 2.0 2R0 150 151 3,600V 2.1 2R1 160 161 2.2 2R2 180 181 2.4 2R4 200 201 2.7 2R7 220 221 5,000V 3.0 3R0 240 241 3.3 3R3 270 271 3.6 3R6 300 301 3.9 3R9 330 331 4.3 4R3 360 361 1,500V 4.7 4R7 390 391 5.1 5R1 430 431 5.6 5R6 470 471 2,500V 3,600V 3,600V 7,000V 6.2 6R2 510 511 6.8 6R8 560 561 2,500V 7. 5 7R5 620 621 8.2 8R2 680 681 9.1 9R1 750 751 1,200V 10 100 820 821 11 110 910 911 1,600V 12 120 1,000 102 13 130 1,100 112 15 150 1,200 122 16 160 1,500 152 1,000V 500V 18 180 1,800 182 20 200 2,200 222 300V 22 220 2,700 272 24 240 3,000 302 27 270 3,300 332 500V 30 300 3,900 392 33 330 4,700 472 36 360 5,100 512 39 390 5,600 562 43 430 6,800 682 200V 47 470 8,200 822 51 510 10,000 103

Special values, tolerances, higher WVDC and matching available, please consult factory. Special values, tolerances, higher WVDC and matching available, please consult factory.

www.exxelia.com 142 [email protected] Page revised 09/17 CERAMIC CAPACITORS

High Power General characteristicsCL Series

FEATURES ELECTRICAL AND ENVIRONMENTAL SPECIFICATIONS • Low ESR/ESL, RF power capacitors • NPO capacitors, ultra stability Electrical specifi cations • RoHS compliant Parameter Value • Excellent characteristics in current, voltage and power Capacitance 1pF - 10,000pF B, C, D below 10pF with high Q factor Tolerances F, G, J, K, M above 10pF • Working voltage: 200V - 7,000V Working voltage (WVDC) See capacitance range chart • Sizes: 2225, 4040 and 7065 Temperature coeffi cient NPO: (0 ± 30) ppm/°C, –55°C to +125°C • Capacitance range: 1pF - 10,000pF 105 MΩ min at 25°C at rated WVDC Insulation Resistance • Laser Marked (optional) 104 MΩ min at 125°C at rated WVDC 2 x WVDC for WVDC ≤ 500V Dielectric Withstanding 1.5 x WVDC for 500V < WVDC ≤ 2,500V (test voltage applied for 5 seconds) APPLICATIONS 1.3 x WVDC for WVDC > 2,500V • RF Power Amplifi ers Aging none • Industrial (Plasma Chamber) Piezo Effect none • Medical (MRI Coils) CIRCUIT APPLICATIONS Environmental specifi cations Parameter Value • DC Blocking 2,000 hours, +125°C • Matching Networks at 1.5 x WVDC (WVDC ≤ 500V) Life Test • Tuning and Coupling at 1.3 x WVDC (500V < WVDC < 1,250V) at 1 x WVDC (1,250V ≤ WVDC) 240 hours, 85% relative humidity at 85°C Moisture Resistance Test 1 PHYSICAL CHARACTERISTICS (ESA/SCC n°3009) • Chip capacitors for surface mounting with Nickel barrier 56 days, 93% relative humidity at 40°C Moisture Resistance Test 2 and tinning or Copper barrier and tinning (non magnetic) 0V, 5V, WVDC or 500V whichever is less • Ribbon leads for surface mounting, axial or radial leads for through-hole circuits

HOW TO ORDER

362 CL X 100 GC 1 - L - -RoHS

Case Capacitance Tolerance Termination Voltage code Dielectric Lead / Ribbon code Coating code Marking code Tape and reel size code code code

201 = 200V CL = NPO: X = 2225 Please refer B = ±0.1pF S = Standard: -: no lead or ribbon -: no coating -: no marking -: no tape and reel The RoHS tag is 301 = 300V (0±30) E = 4040 to capacitance C = ±0.25pF tin-plated nickel 1 = Micro-strip ribbons, H = coating L = laser marking Available on sizes not part of the 501 = 500V ppm/°C F = 7065 code given in D = ±0.5pF RoHS requested 2225 and 4040: reference 102 = 1,000V capacitance range F = ±1% Available on sizes E = horizontal orientation 122 = 1,200V chart G = ±2% 2225 and 4040: 6 = Radial leads, non Tag added at the RoHS CPX: 500 components per 152 = 1,500V J = ±5% C = Non-magnetic: reel end of P/N for 162 = 1,600V K = ±10% tin-plated copper information Available on size 4040: CPE: 500 or 700 components 252 = 2,500V per reel 362 = 3,600V See note 1 Available on size 1S = Short micro-strip 502 = 5,000V 7065: ribbons, RoHS. 2 = Axial ribbons, RoHS. Available on size 4040: 702 = 7,000V A = Non-magnetic: X = verticale orientation, silver-palladium 3 = Radial ribbons, RoHS. only available on CPE, 350 Please refer to components per reel voltage given in See note 2 capacitance range Available on sizes chart 2225 and 4040: 7 = Axial leads, non RoHS.

See note 3 HIGH Q

www.exxelia.com 143 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingCL Series : dimensions High Power

2225: TYPICAL ESR VERSUS CAPACITANCE 4040: TYPICAL ESR VERSUS CAPACITANCE ESR (Ω) ESR (Ω) 50 100 MHz 50 40 45

30 MHz 35 40 50 MHz 35 30 30 MHz 30 25 25 20 20 15 15

10 10

5 5

0 0 1 1,000 1 100 1,000 10,000 Capacitance (pF) Capacitance (pF)

2225: TYPICAL CURRENT RATING VERSUS CAPACITANCE 4040: TYPICAL CURRENT RATING VERSUS CAPACITANCE I max RMS (A) I max RMS (A) 100 100 30 MHz 30 MHz 100 MHz 100 MHz 500 MHz 500 MHz

10 10

1 1 1 10 100 1,000 10,000 1 10 100 1,000 10,000 Capacitance (pF) Capacitance (pF)

2225: TYPICAL SERIES RESONANCE FREQUENCY VERSUS CAPACITANCE Frequency (MHz) 10,000

1,000

100 1 10 100 1,000 Capacitance (pF)

Note 1: Note 3: when coding ribbons or leads for the description of the part, the termination has • For capacitance values less than 10pF, tolerances B, C and D available. to be mentioned for MR certiﬁed types to ensure that only non-magnetic materials are • For capacitance values equal to or higher than 10pF, tolerances F, G, J and K available. used. Note 2: Examples: 36 2 CLE 470 J1L any termination material could be used • All terminations are backward compatible and lead-free 362 CLE 470 JC1L only non-magnetic termination materials could be used • The non-magnetic terminations are all Magnetism-free Rated Please consult us for speciﬁc requirements.

www.exxelia.com 144 [email protected] Page revised 09/17 CERAMIC CAPACITORS

High Power General characteristicsCL Series

DIMENSIONS in inches (mm)

Chips Micro-strip ribbons: available on all sizes Short Micro-strip ribbons: available on size E (4040) (Type 1) (Type 1S)

Axial ribbons: available on size E (4040) Radial ribbons: available on size E (4040) Radial leads: available on all sizes (Type 2) (Type 3) (Type 6)

Axial leads: available on sizes X (2225) and E (4040) (Type 7) HIGH Q

www.exxelia.com 145 [email protected] Page revised 09/17 CERAMIC CAPACITORS

TapingCL Series : dimensions High Power

STANDARD RATINGS

Size 2225 4040 Size 2225 4040 7065 Size code X E Size code X E F 0.244 +0.012 / -0.028 0.413 +0.012 / -0.028 0.244 +0.012 / -0.028 0.413 +0.012 / -0.028 0.244 +0.012 / -0.028 L L (6.2 +0.3 / -0.7) (10.5 +0.3 / -0.7) (6.2 +0.3 / -0.7) (10.5 +0.3 / -0.7) 0.701 ± 0.02 0.26 ± 0.02 0.374 ± 0.02 0.26 ± 0.02 0.374 ± 0.02 (17.8 ± 0.5) W W (6.6 ± 0.5) (9.5 ± 0.5) (6.6 ± 0.5) (9.5 ± 0.5) 0.63 ± 0.02 0.15 max 0.177 max 0.15 max 0.177 max (16 ± 0.5) T T (3.8 max) (4.5 max) (3.8 max) (4.5 max) 0.158 max 0.032 ± 0.024 0.032 ± 0.024 0.032 ± 0.024 0.032 ± 0.024 (4 max) e e (0.8 ± 0.6) (0.8 ± 0.6) (0.8 ± 0.6) (0.8 ± 0.6) 0.032 ± 0.024 Dimensions Dimensions inches (mm) inches 0.472 min 0.63 min (mm) inches 0.472 min 0.63 min (0.8 ± 0.6) Lr Lr (12 min) (16 min) (12 min) (16 min) 0.236 min 0.213 0.35 0.213 0.35 (6 min) Wr Wr (5.4) (8.9) (5.4) (8.9) 0.591 0.024 0.035 0.024 0.035 (15) Ø Ø (0.60) (0.90) (0.60) (0.90) 0.035 Value (pF) Cap. Code Standard Extended Standard Extended Value (pF) Cap. Code Standard Extended Standard Extended Standard 1.0 1R0 56 560 1.1 1R1 62 620 1.2 1R2 68 680 1.3 1R3 75 750 3,600V 1.4 1R4 82 820 7,000V 1.5 1R5 91 910 1.6 1R6 100 101 1.7 1R7 110 111 1.8 1R8 120 121 2,500V 1.9 1R9 130 131 2.0 2R0 150 151 3,600V 2.1 2R1 160 161 2.2 2R2 180 181 2.4 2R4 200 201 2.7 2R7 220 221 5,000V 3.0 3R0 240 241 3.3 3R3 270 271 3.6 3R6 300 301 3.9 3R9 330 331 4.3 4R3 360 361 1,500V 4.7 4R7 390 391 5.1 5R1 430 431 5.6 5R6 470 471 2,500V 3,600V 3,600V 7,000V 6.2 6R2 510 511 6.8 6R8 560 561 2,500V 7. 5 7R5 620 621 8.2 8R2 680 681 9.1 9R1 750 751 1,200V 10 100 820 821 11 110 910 911 1,600V 12 120 1,000 102 13 130 1,100 112 15 150 1,200 122 16 160 1,500 152 1,000V 500V 18 180 1,800 182 20 200 2,200 222 300V 22 220 2,700 272 24 240 3,000 302 1,000V 27 270 3,300 332 500V 30 300 3,900 392 33 330 4,700 472 36 360 5,100 512 39 390 5,600 562 43 430 6,800 682 200V 47 470 8,200 822 51 510 10,000 103 500V

Special values, tolerances, higher WVDC and matching available, please consult factory. Special values, tolerances, higher WVDC and matching available, please consult factory.

www.exxelia.com 146 [email protected] Page revised 09/17 Headquarters 93, rue Oberkampf 75011 PARIS • FRANCE Tel. : +33 (0)1 49 23 10 00 [email protected] www.exxelia.com

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