Clare 2007 Short Form Product Catalog Semiconductor Products Complete data sheets are available for downloading by visiting our Web site at www.clare.com Clare, an IXYS Company, designs, manufactures, and markets high-voltage integrated circuits (ICs) and optically isolated Solid State Relays (OptoMOS®) for the communication, industrial, power, and consumer markets.

As a pioneer in the development of Solid State Relays (SSRs), Clare has become a leading supplier to the telecommunications, security, utility metering, and industrial control industries. Clare SSR solutions are rapidly replacing older electromechanical devices in many applications and enhancing overall system performance. We continue to develop leadership products that offer higher levels of integration and electrical performance.

Clare’s products enable communications by providing the critical interface between high-voltage electrical signals and the low-voltage electronics that process those signals. Leading manufacturers of communication, industrial, power, and consumer equipment around the world rely on Clare for semiconductor solutions.

With the recent introduction of xDSL DC termination ICs, power solid state relays, high-voltage analog switches, and electroluminescent display driver products, Clare has greatly expanded its product portfolio for the communication, power, medical, and display markets.

Our Short Form Catalog contains summary product information. Adobe® Acrobat® formatted versions of the complete data sheets are available for downloading on our web site. To download go to www.clare.com and select a product.

From this web page you can also execute a parametric search to select the product you need by design parameters. You can also run a competitive cross-reference search to compare Clare products with other manufacturers products. 2 Table of Contents

Clare Product Families

Communication Network ………… 4 Line Interface Products Application Notes ………… 5 Line Card Access Switch (LCAS) ………… 18 Silicon DAA, Phone Line Interface LITELINK™ ………… 20 Solid State Relays Phone Line Monitor ………… 22 Single Pole Normally Open: 1-Form-A xDSL/ISDN DC Termination ICs ………… 23 AC or DC Switching ………… 6 Cybergate (DAA) Modules ………… 24 DC Switching Only ………… 7 Voltage-Controlled Input ………… 8 Embedded Modem Modules (EMM) ………… 25 Dual Independent ………… 8 Common Input: 2-Form-A ………… 9 Tone Signaling Products Single Pole Normally Closed: 1-Form-B AC or DC Switching ………… 9 Call Progress Detectors and Generators ………… 26 Dual Independent ………… 10 DTMF Receiver ………… 26 Dual Independent Combination: Form-A & B ………… 10 MF Trunk Signaling ICs ………… 27 Common Input: 1-Form-C ………… 10 Hook Switch Status Devices ………… 27 AC Power Switches ………… 11 Power Relays: (P >1W) ………… 12 D High-Voltage Products Analog Switches ………… 28 Opto-Isolators Display Drivers ………… 28 Linear Optocouplers and Isolation Amplifiers ………… 14 Optically Isolated Error Amplifiers ………… 14 Single and Dual Optocouplers ………… 15 Power Products Optically Isolated Gate Drivers ………… 29 Multifunction Products MOSFETs, N-Channel Depletion Mode ………… 30 Combination SSRs & Optocouplers ………… 16 Telecom Series ………… 17 Solar Cell Products ………… 31

To download datasheets or to find your nearest sales representative, visit www.clare.com 3 Communication Network

The world of communication products continues to expand as we seek to improve connectivity all over the globe. Higher speed, integration of circuit-switched and packet- switched technologies, with greater channel density requirements for voice and data communication systems, fuel this demand. Semiconductor companies must continue to innovate in order to meet these demands with new silicon devices. Clare’s integrated circuit products have served this market for several decades due to its unique core competencies.

1. Analog circuit design

2. High-voltage IC design and wafer fabrication

3. High-voltage isolation barrier capability (optical, capacitive, and inductive)

4. Multi-chip packaging capability

5. Voice and data applications expertise

Clare OptoMOS Solid State Relays and

special telecom circuits are prevalent throughout the communication network offering semiconductor control, system isolation (up to 5000Vrms), and printed circuit board area savings when compared to electromechanical relays. OptoMOS products are in customer premises equipment (CPE) such as modems, base stations, fax machines, and PDAs, as well as central office (CO) equipment, remote terminal equipment (RT), and PBXs.

OptoMOS technology evolved several years ago into the single-package, silicon Data Access Arrangement (DAA) LITELINK, which offers greater channel density and board savings compared to any other DAA solution for voice and modem applications. The LITELINK 32-pin small outline package offers maximum board density for multiple channel telephony designs in IP-PBX and KTS equipment.

Clare’s Line Card Access Switch (LCAS) integrated circuit builds on the company’s many years of experience in high-voltage wafer processing. LCAS is used extensively in Central Office and Digital Loop Carrier equipment and is a key enabler for high-density line cards. As the network evolves, Clare’s high-voltage technology will be vital in offering increased integration and enhanced performance.

4 To download datasheets or to find your nearest sales representative, visit www.clare.com Application Notes

The following application notes can be downloaded from our web site at www.clare.com

General Line Interface Products • AN-131 Handling MOS Devices LCAS • AN-100 Design Surge and Power Fault Protection for Subscriber Line Interfaces Solid State Relays • AN-144 Impulse Noise Benefits of Line Card Access Switches • AN-154 LCAS Longitudinal Balance Calculator Excel Spreadsheet • AN-108 Current Limited Solid State Relays for Line Card Applications • AN-145 Advantages of Solid State Relays Over Electromechanical Relays (English, Espanol, Deutsch, Francais) LITELINK Silicon DAA • AN-102 Loop Current Detection for LITELINK • AN-140 Understanding LITELINK Opto-Isolators • AN-146 Guidelines for Effective LITELINK Designs • AN-107 LOCxx Series - Isolated Amplifier Design Principals • AN-155 Understanding LITELINK Display Feature Signal Routing • AN-109 LOC110 - Variable Speed Motor Controller Design and Applications • AN-111 Isolated 0-10V to 4-20mA Converter Application • AN-157 Increased LITELINK Transmit Power • AN-118 Detecting Line Polarity Reversal • AN-158 LITELINKIII Application Circuit Calculations

Multifunction Products Tone Signaling Products • AN-112 Ground-Start Supervision Circuit Using Clare’s IAA110 • AN-125 M-986 - Configuring the M-986 MF Trunk Signaling • AN-114 ITC117P Integrated Telecom Circuit • AN-128 M-980 - Algorithm for Call Progress Signal Detection • AN-129 M-991 - Call Progress Tone Generator • AN-130 Call Progress Tone Standards • AN-132 M-980 - Clare Components in Private Pay Stations • AN-138 M-980 - Call Progress Tone Detector Applications • AN-142 M-949 - Loop Current Sensing and Ring Chatter

To download datasheets or to find your nearest sales representative, visit www.clare.com 5 Optically Isolated Solid State Relays The OptoMOS line of Solid State Relays uses discrete semiconductor components and the patented OptoMOS architecture to deliver fast, reliable, bounce-free switching in a compact design. From the world’s smallest single pole, high-voltage, 4-pin relay to multi-pole and multifunction devices, OptoMOS products are an ideal solid state replacement for larger reed and electromechanical relays. Compared to older electromagnetic technologies, Clare OptoMOS relays offer significantly lower drive current, small package size, no susceptibility to magnetic interference, and solid state reliability. All of these are key requirements for the design of today’s complex low-power, multichannel products.

The small single pole 4-pin SOP relays combine our state-of-the-art, double-molded, vertical-construction packaging with high performance to give you a reliable product with 20% savings in board space compared to other 4-pin products.

Dual pole OptoMOS relays combine two independent relays into a single 8-pin package paving the Block Diagrams: way for designers to condense functionality using a single component. Common-input OptoMOS relays AC/DC Configuration provide a design alternative where two independent outputs are driven by the same input signal.

Features: Applications: + Control Load • Low drive current • Telecommunications/Datacommunications Do Not Use • High reliability • Instrumentation + Control Load • No EMI/RFI generation • Multiplexers – Control Load • Arc-free with no snubbing circuits • Data acquisition/Electronic switching • Machine insertable, wave solderable • I/O subsystems – Control Load DC Only Configuration • AC/DC switching • Meters (watt-hour, water, gas) • Current limiting (available) • Medical equipment (patient/equipment isolation) + Control + Load • FCC compatible • Security • Low off state leakage • Aerospace – Load • Industrial controls – Control Single Pole Normally Open: 1-Form-A Operational temperature range of -400 to 850C Part Load Load On Input Control Switching Isolation Package 1 Features Number Voltage Current Resistance Current Speeds Voltage Type

(V) (mA) (Ohms) (mA) TON/TOFF (ms) (Vrms) CPC1008N 100 150 8 2 2 / 0.5 1500 4-Pin SMT CPC1016N 100 100 16 2 2 / 0.5 1500 4-Pin SMT CPC1017N 60 100 16 1 10 / 10 1500 4-Pin SMT NEW CPC1018N 60 600 0.8 2 2 / 1 1500 4-Pin SMT CPC1025N 400 120 30 2 2 / 1 1500 4-Pin SMT CPC1030N 350 120 30 2 2 / 1 1500 4-Pin SMT CPC1035N 350 100 35 2 2 / 1 1500 4-Pin SMT CPC1230N 350 120 30 2 2 / 1 1500 4-Pin SMT Supplementary Isolation NEW CPC1330 350 120 30 2 2 / 1 5000 4-Pin SMT, TH NEW CPC1335P 350 100 35 1 10 / 10 3750 8-Pin SMT Bidirectional TVS Protection NEW CPC1390 400 140 22 2 1 / 0.5 5000 4-Pin SMT, TH NEW CPC1393 600 100 50 5 5 / 5 5000 4-Pin SMT, TH NEW CPC1510 250 200 15 5 2 / 2 3750 6-Pin SMT, TH Active Current Limit + Thermal Shutdown LCA100 350 120 25 5 5 / 5 3750 6-Pin SMT, TH LCA100L 350 120 25 5 5 / 5 3750 6-Pin SMT, TH Current Limit LCA110 350 120 35 2 3 / 3 3750 6-Pin SMT, TH LCA110L 350 120 35 2 3 / 3 3750 6-Pin SMT, TH Current Limit LCA120 250 170 20 5 5 / 5 3750 6-Pin SMT, TH LCA120L 250 150 20 5 3 / 3 3750 6-Pin SMT, TH Current Limit LCA125 350 170 16 5 5 / 5 3750 6-Pin SMT, TH LCA125L 350 170 20 5 5 / 5 3750 6-Pin SMT, TH Current Limit LCA126 250 170 15 5 5 / 5 3750 6-Pin SMT, TH 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole.

6 To download datasheets or to find your nearest sales representative, visit www.clare.com Single Pole Normally Open: 1-Form-A Continued Operational temperature range of -400 to 850C Part Load Load On Input Control Switching Isolation Package 1 Features Number Voltage Current Resistance Current Speeds Voltage Type

(V) (mA) (Ohms) (mA) TON/TOFF (ms) (Vrms) LCA127 250 200 10 5 5 / 5 3750 6-Pin SMT, TH LCA127L 250 170 15 5 5 / 5 3750 6-Pin SMT, TH Current Limit LCA129 250 170 20 2 8 / 8 3750 6-Pin SMT, TH LCA710 60 1000 0.5 10 2.5 / 0.25 3750 6-Pin SMT, TH LCA712 60 1000 0.5 10 2.5 / 0.5 3750 6-Pin SMT, TH Low Off-State Leakage 10nA LCA715 60 1800 0.25 10 5 / 2 3750 6-Pin SMT, TH High Load Current LCA182 350 120 35 0.25 3 / 3 3750 6-Pin SMT, TH Ultra Low Input Control Current OMA160 250 50 100 10 0.125 / 0.125 3750 6-Pin SMT, TH Low Off-State Leakage 25nA PLA110 400 150 22 5 1 / 0.25 3750 6-Pin SMT, TH PLA110L 400 150 25 5 1 / 0.25 3750 6-Pin SMT, TH Current Limit PLA132 60 600 1 5 5 / 2 3750 6-Pin SMT, TH PLA134 100 350 3 5 5 / 5 3750 6-Pin SMT, TH PLA140 400 250 8 5 3 / 1 3750 6-Pin SMT, TH PLA140L 400 170 13 5 5 / 3 3750 6-Pin SMT, TH Current Limit PLA143 600 100 50 2 5 / 5 4000 6-Pin SMT, TH PLA150 250 250 7 5 2.5 / 0.5 3750 6-Pin SMT, TH PLA160 300 50 100 10 0.05 / 0.05 3750 6-Pin SMT, TH Low Off-State Leakage 25nA PLA170 800 100 50 5 5 / 5 3750 6-Pin SMT, TH PLA190 400 150 22 5 1 / 0.5 5000 6-Pin SMT, TH PLA191 400 250 8 5 1.5 / 0.25 5000 6-Pin SMT, TH PLA192 600 150 22 5 5 / 5 5000 6-Pin SMT, TH PLA193 600 100 50 5 5 / 5 5000 6-Pin SMT, TH XCA170 350 100 50 5 5 / 5 3750 6-Pin SMT, TH 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole.

Single Pole Normally Open: 1-Form-A DC-Only Operational temperature range of -400 to 850C

Block Diagram:

+ Control Load +

– Control Load –

Part Load Load On Input Control Switching Isolation Package 1 Features Number Voltage Current Resistance Current Speeds Voltage Type

(V) (mA) (Ohms) (mA) TON/TOFF (ms) (Vrms) CPC1002N 60 700 0.55 2 5 / 2 1500 4-Pin SMT CPC1004N 100 300 4 2 3 / 1 1500 4-Pin SMT Operational Temperature to +110°C 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole.

To download datasheets or to find your nearest sales representative, visit www.clare.com 7 Single Pole Normally Open: 1-Form-A Voltage Controlled Block Diagram: Operational temperature range of -400 to 850C

+ –

Part Load Load On Input Control Switching Isolation Package Features Number Voltage Current Resistance Voltage Speeds Voltage Type

(V) (mA) (Ohms) (V) TON/TOFF (ms) (Vrms) NEW CPC1218Y 60 600 0.8 5-12 5 / 5 2500 4-Pin SIP Reed Relay Replacement

Dual Independent Single Pole Normally Open: Dual 1-Form-A Block Diagram: Operational temperature range of -400 to 850C + Control - Switch #1 Load - Switch #1

– Control - Switch #1 Load - Switch #1

+ Control - Switch #2 Load - Switch #2

– Control - Switch #2 Load - Switch #2

Part Load Load On Input Control Switching Isolation Package 1 Features Number Voltage Current Resistance Current Speeds Voltage Type

(V) (mA) (Ohms) (mA) TON/TOFF (ms) (Vrms) LAA100 350 120 25 5 5 / 5 3750 8-Pin SMT, TH LAA100L 350 120 25 5 5 / 5 3750 8-Pin SMT, TH Current Limit LAA110 350 120 35 5 3 / 3 3750 8-Pin SMT, TH LAA110L 350 120 35 5 3 / 3 3750 8-Pin SMT, TH Current Limit LAA120 250 170 20 5 5 / 5 3750 8-Pin SMT, TH LAA120L 250 150 25 5 5 / 5 3750 8-Pin SMT, TH Current Limit LAA125 350 170 16 5 5 / 5 3750 8-Pin SMT, TH LAA125L 350 150 20 5 5 / 5 3750 8-Pin SMT, TH Current Limit LAA126 250 170 15 5 5 / 5 3750 8-Pin SMT, TH LAA126L 250 170 20 5 5 / 5 3750 8-Pin SMT, TH Current Limit LAA127 250 200 10 5 5 / 5 3750 8-Pin SMT, TH LAA127L 250 170 15 5 5 / 5 3750 8-Pin SMT, TH Current Limit LAA710 60 1000 0.5 10 2.5 / 0.25 3750 8-Pin SMT, TH OAA160 250 50 100 3 0.125 / 0.125 3750 8-Pin SMT, TH Low Off-State Leakage 25nA PAA110 400 150 22 5 1 / 0.25 3750 8-Pin SMT, TH PAA110L 400 150 25 5 1 / 0.25 3750 8-Pin SMT, TH Current Limit PAA132 60 600 1 5 5 / 2 3750 8-Pin SMT, TH PAA140 400 250 8 5 1.5 / 0.25 3750 8-Pin SMT, TH PAA140L 400 200 13 5 5 / 3 3750 8-Pin SMT, TH Current Limit PAA150 250 250 7 5 2.5 / 0.5 3750 8-Pin SMT, TH PAA190 400 150 22 5 1 / 0.5 5000 8-Pin SMT, TH PAA191 400 250 8 5 3 / 1 5000 8-Pin SMT, TH PAA193 600 100 50 5 5 / 5 5000 8-Pin SMT, TH XAA170 350 100 50 5 5 / 5 3750 8-Pin SMT, TH 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole.

8 To download datasheets or to find your nearest sales representative, visit www.clare.com Common Input Dual Pole: 2-Form-A Operational temperature range of -400 to 850C

Block Diagram:

Output 1 Part Load Load On Input Control Switching Isolation Package Features Number Voltage Current Resistance Voltage Speeds Voltage Type + Control Output 1 – Control Output 2 (V) (mA) (Ohms) (V) TON/TOFF (ms) (Vrms) CPC1218Y 60 600 0.8 5-12 5 / 5 2500 4-Pin SIP Reed Relay Replacement Output 2

Part Load Load On Input Control Switching Isolation Package 1 Features Number Voltage Current Resistance Current Speeds Voltage Type

(V) (mA) (Ohms) (mA) TON/TOFF (ms) (Vrms) LCA210 350 85 35 8 3 / 3 3750 8-Pin SMT, TH LCA210L 350 100 35 5 4 / 4 3750 8-Pin SMT, TH Current Limit LCA211 350 85 35 8 1 / 1.2 3750 8-Pin SMT, TH LCA220 250 120 20 10 5 / 5 3750 8-Pin SMT, TH 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole.

Single Pole Normally Closed: 1-Form-B Operational temperature range of -400 to 850C

Block Diagrams: DC Only Configuration

+ Control Load Load + Load + Control + Control Do Not Use – Load – Control – Control – Control Load Load

Part Load Load On Input Control Switching Isolation Package 1 Features Number Voltage Current Resistance Current Speeds Voltage Type

(V) (mA) (Ohms) (mA) TON/TOFF (ms) (Vrms) NEW CPC1117N 60 150 16 1 1 / 2 1500 4-Pin SMT CPC1130N 350 120 30 2 2 / 2 1500 4-Pin SMT CPC1135N 350 120 35 1 2 / 2 1500 4-Pin SMT CPC1150N 350 120 50 2 1 / 2 1500 4-Pin SMT CPC1231N 350 120 30 2 2 / 2 1500 4-Pin SMT Supplementary Isolation LCB110 350 120 35 5 3 / 3 3750 6-Pin SMT, TH LCB111 350 120 35 2 5 / 5 3750 6-Pin SMT, TH LCB120 250 170 20 5 5 / 5 3750 6-Pin SMT, TH LCB126 250 170 15 5 5 / 5 3750 6-Pin SMT, TH LCB127 250 200 10 5 5 / 5 3750 6-Pin SMT, TH PLB150 250 250 7 5 1 / 2.5 3750 6-Pin SMT, TH 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole.

To download datasheets or to find your nearest sales representative, visit www.clare.com 9 Dual Independent Single Pole Normally Closed: 1-Form-B Block Diagram: Operational temperature range of -400 to 850C + Control - Switch #1 Load - Switch #1 Part Load Load On Input Control Switching Isolation Package 1 Number Voltage Current Resistance Current Speeds Voltage Type – Control - Switch #1 Load - Switch #1

(V) (mA) (Ohms) (mA) TON/TOFF (ms) (Vrms) + Control - Switch #2 Load - Switch #2 LBB110 350 120 35 5 3 / 3 3750 8-Pin SMT, TH – Control - Switch #2 Load - Switch #2 LBB120 250 170 20 5 5 / 5 3750 8-Pin SMT, TH LBB126 250 170 15 5 5 / 5 3750 8-Pin SMT, TH LBB127 250 200 10 5 5 / 5 3750 8-Pin SMT, TH PBB150 250 250 7 5 2.5 / 2.5 3750 8-Pin SMT, TH XBB170 350 100 50 5 5 / 5 3750 8-Pin SMT, TH 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole.

Block Diagram: Dual Pole Combination: Form-A & B Operational temperature range of -400 to 850C + Control - Normally Closed Normally Closed Pole – Control - Normally Closed

+ Control - Normally Open Normally Open Pole – Control - Normally Open

Part Load Load On Input Control Switching Isolation Package 1 Features Number Voltage Current Resistance Current Speeds Voltage Type

(V) (mA) (Ohms) (mA) TON/TOFF (ms) (Vrms) LBA110 350 120 35 2 3 / 3 3750 8-Pin SMT, TH LBA110L 350 120 35 5 3 / 3 3750 8-Pin SMT, TH Current Limit LBA120 250 170 20 5 5 / 5 3750 8-Pin SMT, TH LBA120L 250 150 25 5 5 / 5 3750 8-Pin SMT, TH Current Limit LBA126 250 170 15 5 5 / 5 3750 8-Pin SMT, TH LBA126L 250 150 20 5 5 / 5 3750 8-Pin SMT, TH Current Limit LBA127 250 200 10 5 5 / 5 3750 8-Pin SMT, TH LBA127L 250 150 15 5 5 / 5 3750 8-Pin SMT, TH Current Limit PBA150 250 250 7 5 2.5 / 2.5 3750 8-Pin SMT, TH XBA170 350 100 50 5 5 / 5 3750 8-Pin SMT, TH 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole.

Block Diagram: Common Input: 1-Form-C Operational temperature range of -400 to 850C Normally Closed Pole Part Load Load On Input Control Switching Isolation Package 1 + Control Number Voltage Current Resistance Current Speeds Voltage Type – Control Normally Open Pole (V) (mA) (Ohms) (mA) TON/TOFF (ms) (Vrms) LCC110 350 120 35 8 4 / 4 3750 8-Pin SMT, TH LCC120 250 170 20 10 5 / 5 3750 8-Pin SMT, TH 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole.

10 To download datasheets or to find your nearest sales representative, visit www.clare.com Optically Isolated AC Power Switches The OptoMOS line of power products use dual power SCR outputs to produce an alternative to optocoupler and Triac circuits. These AC Power Switches are robust

enough to provide a blocking voltage of up to 800VP. In addition, tightly controlled zero-cross circuitry ensures switching of AC loads without the generation of transients. The input and output circuits are optically coupled to provide 3750Vrms of isolation and noise immunity between control and load circuits. Long life and environmental integrity make these power switches ideal to control a variety of AC circuits in industrial environments where electromagnetic interference would disrupt the operation of electromechanical relays.

Features: Applications: • Load current up to 2A • Programmable controls Block Diagram: • Blocking voltage up to 800VP • Process control • 5mA sensitivity • Power control panels • Zero-crossing detection • Remote switching • DC control, AC switching • Gas pump electronics • Optically isolated I/O • Contactors ZC • TTL and CMOS compatible • Large relay control circuits • Low EMI and RFI generation • Solenoids • High noise immunity • Motor controls • VDE compatible • Heater controls • Machine insertable, wave solderable • Switching speed < 0.5 cycle

A B C D E F G Part Load Load On Input Control Switching Isolation Package 1 Features Number Voltage Current Resistance Current Speeds Voltage Type Operational temperature range of -400 to 850C (V) (mA) (Ohms) (mA) TON/TOFF (ms) (Vrms) LBA110 350 120 35 2 3 / 3 3750 8-Pin SMT, TH Part Blocking Load Input Control Operating Isolation Package Features Number Voltage Current Current Frequency Voltage Code LBA110L 350 120 35 5 3 / 3 3750 8-Pin SMT, TH Current Limit (V ) (A ) (mA) min/max (Hz) (V ) LBA120 250 170 20 5 5 / 5 3750 8-Pin SMT, TH P rms rms CPC1943G 240 0.5 5 20 / 400 3750 D, E LBA120L 250 150 25 5 5 / 5 3750 8-Pin SMT, TH Current Limit CPC1945G 400 1 5 20 / 400 3750 C LBA126 250 170 15 5 5 / 5 3750 8-Pin SMT, TH CPC1945Y 400 1 5 20 / 400 3750 A LBA126L 250 150 20 5 5 / 5 3750 8-Pin SMT, TH Current Limit NEW CPC1961G 600 0.2 5 20 / 400 3750 F, G Dual LBA127 250 200 10 5 5 / 5 3750 8-Pin SMT, TH CPC1963G 600 0.5 5 20 / 500 3750 D, E LBA127L 250 150 15 5 5 / 5 3750 8-Pin SMT, TH Current Limit CPC1965G 600 1 5 20 / 400 3750 C PBA150 250 250 7 5 2.5 / 2.5 3750 8-Pin SMT, TH CPC1965Y 600 1 5 20 / 400 3750 A XBA170 350 100 50 5 5 / 5 3750 8-Pin SMT, TH CPC1972G 800 0.25 5 20 / 500 3750 D, E NEW CPC1976Y 600 2 5 20 / 500 3750 B NEW PD1201 400 1 5 20 / 500 3750 C PD2401 500 1 5 20 / 500 3750 C PD2601 600 1 5 20 / 500 3750 C PM1204 400 0.5 5 20 / 500 3750 D, E PM1205 500 0.5 5 20 / 500 3750 D, E PM1206 600 0.5 5 20 / 500 3750 D, E PS1201 400 1 5 20 / 500 3750 A PS2401 500 1 5 20 / 500 3750 A PS2601 600 1 5 20 / 500 3750 A

To download datasheets or to find your nearest sales representative, visit www.clare.com 11 Power Solid State Relays (Power dissipation greater than 1 Watt) Power SIP, ISOPLUS™-264 and i4-PAC™ Relays Clare and IXYS have joined forces to bring OptoMos technology, reliability, and compact size to the new Power SIP, i4-PAC and ISOPLUS-264 series of power solid state relays. Development of these new products was founded on the blending of Clare’s traditional strengths in the design and manufacture of photovoltaic integrated circuits (ICs), leadframe design, and multichip packaging with IXYS’ expertise in power MOSFETs, power packages, and substrate technology.

The optically coupled MOSFET technology provides 2500Vrms of input to output isolation. Similar to Clare’s solid state relays, the optically coupled output is controlled by a GaAIAs infrared LED.

Clare Power Relays are now offered in three package types: the Power SIP, the i4-PAC, and the ISOPLUS-264. The Power SIP package offers pin-to-pin compatibility with other solid state relays providing an easy upgrade path for existing designs and compatibility for new designs.

The i4-PAC and the ISOPLUS-264 packages feature a unique assembly process whereby the silicon is soft soldered onto a Direct Copper Bond (DCB) substrate rather than traditional bonding onto an epoxy encapsulated copper frame. This structure allows for a substantially lower junction-to-case thermal impedance when compared to conventionally assembled power relays. The i4-PAC thermal resistance is 0.35°C/W while the ISOPLUS-264 has an even lower impedance of 0.30°C/W.

Although exposed on the backside of these packages, the electrically non-conductive surface of the DCB ceramic substrate provides 2500Vrms of isolation to the package’s electrically conductive power switching and control leads.

The combination of an electrically isolated non-conductive exterior and low thermal impedance makes the new i4-PAC and ISOPLUS-264 power relays an ideal solution for power applications preferring a non-biased heat sink with superior thermal management properties. Block Diagrams: Features: Applications: • Handles loads up to 9A • Low input control current • Motor controls • Industrial control

• Voltage ratings up to 1000VP • Low thermal impedances: • Robotics • Test and measurement equipment • Low On-resistance 0.30°C/W - ISOPLUS-264 • Medical equipment • Non-conductive thermal pad for heat 0.35°C/W - i4-PAC • Railroad/traffic controls sink applications 1.5°C/W - Power SIP • Consumer appliances • Industry standard 4-Pin SIP package DC Only

Specifications for: AC/DC Single Pole Power SIP, ISOPLUS-264 and i4-PAC Relays Part Blocking Load Current On Input Control Switching Isolation Package Number Voltage No Heat Sink Heat Sink Resistance Current Speeds Voltage

(VP) (Arms) (Arms) (Ohms) (mA) TON/TOFF (ms) (Vrms) CPC1906Y 60 2 0.3 10 10 / 5 2500 Power SIP CPC1908J 60 3.5 5.5 0.3 10 20 / 5 2500 i4-PAC CPC1909J 60 6.5 10 0.1 10 25 / 10 2500 ISOPLUS-264 CPC1916Y 100 2.5 0.34 10 5 / 3 2500 Power SIP CPC1918J 100 5.25 8.7 0.1 10 25 / 10 2500 ISOPLUS-264 CPC1926Y 250 0.7 1.4 10 10 / 10 2500 Power SIP CPC1967J 400 1.35 2.5 0.85 10 20 / 5 2500 i4-PAC CPC1973Y 400 0.35 5 10 5 / 3 2500 Power SIP CPC1977J 600 1.25 2.55 1 10 20 / 5 2500 i4-PAC CPC1978J 800 0.9 1.25 2.3 10 20 / 5 2500 i4-PAC CPC1979J 600 1.5 2.6 0.75 10 25 / 5 2500 ISOPLUS-264 CPC1981Y 1000 0.18 18 10 10 / 5 2500 Power SIP CPC1986J 1000 0.7 1.1 3 10 20 / 5 2500 i4-PAC CPC1988J 1000 0.9 1.5 2.5 10 20 / 5 2500 ISOPLUS-264 12 To download datasheets or to find your nearest sales representative, visit www.clare.com Specifications for: DC-only Single Pole i4-PAC Relays Part Blocking Load Current On Input Control Switching Isolation Package Number Voltage No Heat Sink Heat Sink Resistance Current Speeds Voltage

(V) (A) (A) (Ohms) (mA) TON/TOFF (ms) (Vrms) NEW CPC1708J 60 4 7.75 0.08 10 20 / 5 2500 i4-PAC NEW CPC1709J 60 9 13.75 0.05 10 20 / 5 2500 ISOPLUS-264 CPC1777J 600 1.5 3.2 0.5 10 20 / 5 2500 i4-PAC CPC1786J 1000 0.65 0.9 2 10 20 / 5 2500 i4-PAC Package Dimensions:

Power SIP

0.830 ± 0.015 (21.082 ± 0.381) i4-PAC™ 0.770 MIN - 0.799 MAX 0.660 MIN - 0.690 MAX (19.56 MIN - 20.29 MAX) (16.76 MIN - 17.53 MAX) 0.400 ± 0.005 ISOLATED HEAT SINK (10.160 ± 0.127)

PIN 1 PIN 4 0.819 MIN - 0.840 MAX 0.590 MIN - 0.620 MAX (20.80 MIN - 21.34 MAX) (14.99 MIN - 15.75 MAX)

ISOPLUS-264 0.770 MIN - 0.799 MAX 0.668 MIN - 0.690 MAX (19.56 MIN - 20.29 MAX) (16.97 MIN - 17.53 MAX) ISOLATED HEAT SINK

1.020 MIN - 1.040 MAX (25.91 MIN - 26.42 MAX) 0.801 MIN - 0.821 MAX (20.34 MIN - 20.85 MAX)

Non-conductive

1 2 3 4 thermal pad

DIMENSIONS: INCHES Dimensions: (MM) inches (mm)

To download datasheets or to find your nearest sales representative, visit www.clare.com 13 Linear Optocouplers and Isolation Amplifiers OptoMOS Linear Optocouplers feature an infrared LED optically coupled to a pair of phototransistors. One feedback (input) phototransistor is used to generate a control signal that provides a servomechanism to the LED drive current thus compensating for the LEDs nonlinear time and temperature characteristics. The output phototransistor provides an isolated output signal that is linear with respect to the servo LED current.

OptoMOS Linear Isolation Amplifiers integrate a linear optocoupler with two independent LF356 op-amps in a single 16-pin package. These amplifiers can couple both

AC and DC signals in either unipolar or bipolar modes, while providing 3750Vrms of input/output isolation. Using a servo control loop to compensate for the nonlinear time and temperature characteristics of the LED, these amplifiers distinguish themselves among conventional optocouplers by significantly improving linearity and stability. Features: Applications: • Couples analog and digital signals • Low power consumption • Modem transformer replacement with no insertion loss • 0.01% servo linearity Block Diagrams: • 3750Vrms input/output isolation • Digital telephone isolation • THD 87dB typical • Wide bandwidth (>200kHz) • Power supply feedback voltage/current LOC • High gain stability • Machine insertable, wave solderable • Medical sensor interfacing – LED • Low input/output capacitance • VDE compatible • Isolation of process control transducers + LED

+Vcc1 +Vcc2

I Operational temperature range of -400 to 850C 1 I2 1 Part Number Servo Forward Transfer Input Control Isolation Package LIA Gain Gain Gain Current Voltage Type A2 INPUT K1 K2 K3 (mA) (Vrms) A1 INPUT + + LOC110 0.004 / 0.03 0.004 / 0.03 0.55 / 1.43 2 3750 8-Pin SMT, TH LOC111 0.008 / 0.03 0.006 / 0.03 0.733 / 1.072 2 3750 8-Pin SMT, TH VEE1 VEE2

LOC112 0.004 / 0.03 0.004 / 0.03 0.55 / 1.43 2 3750 8-Pin SMT, TH VCC1 VCC2

LOC210P 0.004 / 0.03 0.004 / 0.03 0.733 / 1.072 2 3750 16-Pin SMT Comp. (to CF ) Output LOC211P 0.008 / 0.03 0.006 / 0.03 0.733 / 1.072 2 3750 16-Pin SMT LED LIA100 0.004 / 0.03 0.004 / 0.03 0.55 / 1.43 2 3750 16-Pin SMT LIA101 0.004 / 0.03 0.004 / 0.03 0.733 / 1.072 2 3750 16-Pin SMT Servo (I1) Output (I2) 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole.

Optically Isolated Error Amplifiers Optically Isolated Linear Error Amplifiers combine Clare’s optical technology with an industry standard 431-type precision programmable shunt regulator to provide linear isolated feedback for power supply designs. The LIA120 features matched photodiodes for linear high-gain response exhibiting excellent temperature stability for a total gain error of less than 2dB.

These devices are well suited for isolated high-gain feedback amplifiers that require excellent linearity and low temperature variation such Block Diagrams: as power supply feedback stages, modem and audio transformer replacements, industrial control signals, and sensor feedback. LIA120 LIA130 Features: Applications: LED (Input) LED • Fully Matched IC • Power supply feedback • 70dB Linearity (typ.) • Telecom central office supply K COMP C FB • Optocoupler, precision reference, and • Telecom bricks error amplifier in single package • Modem transformer replacement A FB E COMP • Low voltage operation 2.7V GND GND

Operational temperature range of -400 to 850C 1 Part Number Reference VREF CTR CTR CTR Matching Linearity Isolation Package Voltage Tolerance K1 K2 K3 Voltage (Vrms) Type NEW LIA120 1.24 V 2% 1 to 3% 1 to 3% 85 to 115% 70dB 3750 8-Pin SMT, TH NEW LIA130 1.24 V 2% - - - - 3750 8-Pin SMT, TH 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole.

14 To download datasheets or to find your nearest sales representative, visit www.clare.com Single and Dual Optocouplers Single and dual OptoMOS products provide an optically isolated means of current detection or control of switching circuits. Devices offer a single or dual antiparallel LED input stage for unidirectional or bidirectional signal control to the optically coupled phototransistor output. The phototransistor output can be either a single transistor or, for greater gain, a darlington transistor.

These optocouplers allow for either AC or DC input circuits and are ideal for telecom, industrial control, and instrumentation circuits where electrical isolation of control circuitry is crucial.

Features: Applications: • AC and DC compatible inputs • Telecom switching • 3750Vrms input/output isolation • Tip/ring circuits • Machine insertable, wave solderable • Modem switching (laptops, notebooks, PDAs) • Loop detection • Ringing detection • Current sensing

Block Diagrams:

A B C D E F G H

Operational temperature range of -400 to 850C Part Breakdown Nominal Saturation Input Control Isolation Package 1 Configuration Number Voltage Current Transfer Voltage Current Voltage Type

(V) Ratio (%) (V) (mA) (Vrms) LDA100 20 100 0.5 6 3750 6-Pin SMT, TH A LDA101 20 100 0.5 6 3750 6-Pin SMT, TH B LDA110 20 1000 0.8 2 3750 6-Pin SMT, TH C LDA111 20 1000 0.8 2 3750 6-Pin SMT, TH D LDA200 20 100 0.5 6 3750 8-Pin SMT, TH E LDA201 20 100 0.5 6 3750 8-Pin SMT, TH F NEW LDA202 20 100 0.5 6 3750 8-Pin SMT, TH E NEW LDA203 20 100 0.5 6 3750 8-Pin SMT, TH F LDA210 20 1000 0.8 2 3750 8-Pin SMT, TH G LDA211 20 1000 0.8 2 3750 8-Pin SMT, TH H NEW LDA212 20 1000 0.8 2 3750 8-Pin SMT, TH G NEW LDA213 20 1000 0.8 2 3750 8-Pin SMT, TH H 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole.

To download datasheets or to find your nearest sales representative, visit www.clare.com 15 Multifunction Products The OptoMOS line of Multifunction products combines optically isolated discrete component functions into a single package. These products mix and match solid state relays, optocouplers, bridge rectifiers, Darlington transistors, and zener diodes to create highly functional circuits in a single, small package. Multifunction devices allow designers to consolidate circuit functions into a single device, freeing up valuable board space and reducing component count. Designed specifically for the telecommunications industry, the Integrated Telecom Circuit (ITC) series is well suited for voice telephony and modem applications, providing most of the major functions required when designing DAA (Data Access Arrangement) or voice (FXO) line interface circuits. Features: Applications: • Security • 3750Vrms input to output isolation • Telecommunication/Datacommunication • Multiple functionality in single package • Instrumentation • Aerospace • Current limiting (part numbers with L suffix) • I/O subsystems • Industrial controls • Machine insertable, wave solderable • Electronic switching • TTL and CMOS compatible • Medical equipment (patient/equipment isolation)

Block Diagrams: XS170 and TS with Form A Relay IAA Series IAB Series IAD Series IBB Series

(Form A) (Form A) (Form A) (Form B) TS120

+ LED - Relay Load - Relay TS118 with Form B Relay – LED - Relay Load - Relay (Form A) (Form B) (Form B) Collector +/– LED

Emitter +/– LED

Combination SSR & Optocoupler Products (IAx, IBx, TS, XS) Operational temperature range of -400 to 850C Relay Parameters Optocoupler Parameters Part Load Current On Input Control Breakdown Current Saturation Input Control Isolation Package 1 Features Number Voltage Handling Resistance Current Voltage Transfer Voltage Current Voltage Type

(VP) (mA) (Ohms) (mA) (V) Ratio (%) (V) (mA) (Vrms) IAA110P 350 100 35 5 20 33 0.5 6 3750 16-Pin SMT IAA170P 350 100 50 5 20 33 0.5 6 3750 16-Pin SMT IAB110P 350 100 35 5 20 33 0.5 6 3750 16-Pin SMT IAD110P 350 100 35 5 20 33 0.5 6 3750 16-Pin SMT IAD170P 350 100 50 5 20 33 0.5 6 3750 16-Pin SMT IBB110P 350 100 35 5 20 33 0.5 6 3750 16-Pin SMT TS112N 350 120 20 2 20 100 0.5 6 1500 8-Pin SMT Narrow body TS117 350 120 35 2 20 100 0.5 6 3750 8-Pin SMT, TH TS117L 350 120 35 2 20 100 0.5 6 3750 8-Pin SMT, TH Current Limit TS118 350 120 35 5 20 100 0.5 6 3750 8-Pin SMT, TH Form B TS120 350 120 35 5 20 1000 0.8 2 3750 8-Pin SMT, TH TS120L 350 120 35 5 20 1000 0.8 2 3750 8-Pin SMT Current Limit TS122 350 170 20 5 20 100 0.5 6 3750 8-Pin SMT, TH TS190 350 150 22 5 20 100 0.5 6 3750 8-Pin SMT, TH TS190L 350 150 25 5 20 100 0.5 6 3750 8-Pin SMT Current Limit XS170 350 120 50 2 20 100 0.5 6 3750 8-Pin SMT, TH 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole. 16 To download datasheets or to find your nearest sales representative, visit www.clare.com Telecom Series (ITC)

Block Diagrams:

No zener protection Zener protection Zener protection Bidirectional opto-input Bidirectional opto-input Unidirectional opto-input

(Form A) (Form A) (Form A)

PV PV PV

ITC117 ITC137 ITC135

Operational temperature range of -400 to 850C Relay Parameters Optocoupler Parameters Part Load Load On Input Control Breakdown Current Saturation Input Control Isolation Package 1 Features Number Voltage Current Resistance Current Voltage Transfer Voltage Current Voltage Type

(V) (mA) (Ohms) (mA) (V) Ratio (%) (V) (mA) (Vrms) ITC117P 350 120 15 5 20 33 0.5 6 3750 16-Pin SMT ITC117PL 350 120 15 5 20 33 0.5 6 3750 16-Pin SMT Current Limit ITC135P 350 120 15 5 20 33 0.5 6 3750 16-Pin SMT Half-wave ringing detect ITC137P 350 120 15 5 20 33 0.5 6 3750 16-Pin SMT Full-wave ringing detect 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole.

To download datasheets or to find your nearest sales representative, visit www.clare.com 17 Line Card Access Switch (LCAS) The Line Card Access Switch (LCAS) product family is an integral part of Clare’s product portfolio for the telecommunications market. Clare’s unique high-voltage Silicon-On-Insulator (SOI) process technology, manufactured in its state-of-the-art fab in Beverly, MA, provides the foundation for a multitude of silicon solutions that enable low power, high density line cards.

The LCAS product family consists of monolithic ICs that contain high-voltage switches for tip and ring line break, power ringing, line test access, test in access, and ringing generator testing. They provide the necessary functions to replace all 2-Form-C electromechanical relays found on both traditional voice and integrated voice and data (IVD) line cards found in Central Office, Digital Loop Carriers, and Channel Banks. New features include: (1) TTL compatible inputs, (2) Smart logic for safe power up and hot plug state control, and (3) Increased dv/dt immunity. Features: Applications: • Small surface mount SOIC or Micro Leadframe Package (MLP) • VOIP gateways • Monolithic IC reliability • Central Offices (CO) • Low, matched on-resistance • Digital Loop Carriers (DLC) • Built-in zero-cross switching • Digitally Added Main Line (DAML) • Impulse noise reduction • Hybrid Fiber Coax (HFC) • Current limiting, thermal shutdown and SLIC protection • Fiber in the Loop (FITL) • Robust power cross and lightning surge performance • Pair Gain systems • Ultra-low power consumption of <10.5mW • Channel banks • Pin-to-pin compatibility to the Legerity 7581, 7582, and 7583 SOIC products • PBX systems

Switch Pairs Protection Features Part # Break Ringing Test Test Ringing Zero-Cross Diode Protection Hold Current Logic Package Number Switches Out In Test Switching Bridge SCR (mA) States Type CPC7591xA 4 • • • Half • 110 3 16 SOIC or MLP CPC7591xB 4 • • • Full 3 16 SOIC or MLP CPC7592xA 6 • • • • Half • 60 4 16 SOIC or MLP CPC7592xB 6 • • • • Full 4 16 SOIC or MLP CPC7592xC 6 • • • • Half • 110 5 16 SOIC or MLP CPC7593xA 10 • • • • • • Half • 110 7 20 or 28 SOIC or 28 MLP CPC7593xB 10 • • • • • • Full 7 20 or 28 SOIC or 28 MLP CPC7593xC 10 • • • • • • Half • 110 8 20 or 28 SOIC or 28 MLP CPC7593xD 10 • • • • • • Full 8 20 or 28 SOIC or 28 MLP CPC7594xA 6 • • • • Half • 110 4 16 SOIC or MLP CPC7594xB 6 • • • • Full 4 16 SOIC or MLP CPC7594xC 6 • • • • Half • 110 4 16 SOIC or MLP CPC7595xA 10 • • • • • • Half • 110 7 20 or 28 SOIC or 28 MLP CPC7595xB 10 • • • • • • Full 7 20 or 28 SOIC or 28 MLP CPC7595xC 10 • • • • • • Half • 110 8 20 or 28 SOIC or 28 MLP CPC7581xA 4 • • • Half • 60 3 16 SOIC or MLP CPC7581xB 4 • • • Full 3 16 SOIC or MLP CPC7581xC 4 • • • Half • 110 3 16 SOIC or MLP CPC7582xA 6 • • • • Half • 60 4 16 SOIC CPC7582xB 6 • • • • Full 4 16 SOIC CPC7582xC 6 • • • • Half • 110 5 16 SOIC CPC7583xA 10 • • • • • • Half • 100 7 20 or 28 SOIC CPC7583xB 10 • • • • • • Full 7 20 or 28 SOIC CPC7583xC 10 • • • • • • Half • 100 8 20 or 28 SOIC CPC7583xD 10 • • • • • • Full 8 20 or 28 SOIC 18 To download datasheets or to find your nearest sales representative, visit www.clare.com Line Card Access Switch (LCAS) Micro Leadframe Package (MLP) Products

With the introduction of the Micro Leadframe Package (MLP), the same functionality and performance now comes at a fraction of the size and makes 32 channel (or greater) line cards a reality. Even compared to fourth generation EMRs, these MLPs offer a dramatic area and height savings of 65% and 80% respectively. All LCAS versions listed below are available in an MLP package. The last digit in the part number indicates the logic version and is the same for both the MLP and SOIC versions.

LCAS MLP Products Part Number Package W L H Area # of EMRs Area Savings (mm) (mm) (mm) (mm2) LCAS replaces vs. EMRs CPC7591Mx 16MLP 6 7 0.9 42 1 43% CPC7592Mx 16MLP 6 7 0.9 42 2 71% CPC7593Mx 28MLP 7 11 0.9 77 3 65% CPC7594Mx 16MLP 6 7 0.9 42 2 71% CPC7595Mx 28MLP 7 11 0.9 77 3 65% Part # Break Ringing Test Test Ringing Zero-Cross Diode Protection Hold Current Logic Package Number Switches Out In Test Switching Bridge SCR (mA) States Type CPC7591xA 4 • • • Half • 110 3 16 SOIC or MLP CPC7591xB 4 • • • Full 3 16 SOIC or MLP Block Diagram: CPC7592xA 6 • • • • Half • 60 4 16 SOIC or MLP CPC7582xx/92xx CPC7581xx/91xx CPC7583xx/93xx CPC7594xx CPC7592xB 6 • • • • Full 4 16 SOIC or MLP 6 Switch - Ringing/Break 4 Switch - Ringing Break 10 Switch - Ringing/Break 6 Switch - Ringing/Break CPC7592xC 6 • • • • Half • 110 5 16 SOIC or MLP + Line Test/Test Out + Line Test/Test-Out + Channel Test/Test-In + Test-In CPC7593xA 10 • • • • • • Half • 110 7 20 or 28 SOIC or 28 MLP + Ringer Test CPC7593xB 10 • • • • • • Full 7 20 or 28 SOIC or 28 MLP CPC7593xC 10 • • • • • • Half • 110 8 20 or 28 SOIC or 28 MLP Ringing CPC7593xD 10 • • • • • • Full 8 20 or 28 SOIC or 28 MLP Test Return Optional CPC7594xA 6 • • • • Half • 110 4 16 SOIC or MLP Feature CPC7594xB 6 • • • • Full 4 16 SOIC or MLP Test Ringing Test Out Return In CPC7594xC 6 • • • • Half • 110 4 16 SOIC or MLP TIP CPC7595xA 10 • • • • • • Half • 110 7 20 or 28 SOIC or 28 MLP SCR CPC7595xB 10 • • • • • • Full 7 20 or 28 SOIC or 28 MLP and SLIC Codec PCM Trip Highway CPC7595xC 10 • • • • • • Half • 110 8 20 or 28 SOIC or 28 MLP Circuit RING Break CPC7581xA 4 • • • Half • 60 3 16 SOIC or MLP

CPC7581xB 4 • • • Full 3 16 SOIC or MLP Test Ringing Test CPC7581xC 4 • • • Half • 110 3 16 SOIC or MLP Out Access In CPC7582xA 6 • • • • Half • 60 4 16 SOIC Ringing CPC7582xB 6 • • • • Full 4 16 SOIC Test CPC7582xC 6 • • • • Half • 110 5 16 SOIC CPC7583xA 10 • • • • • • Half • 100 7 20 or 28 SOIC CPC7583xB 10 • • • • • • Full 7 20 or 28 SOIC CPC7583xC 10 • • • • • • Half • 100 8 20 or 28 SOIC CPC7583xD 10 • • • • • • Full 8 20 or 28 SOIC To download datasheets or to find your nearest sales representative, visit www.clare.com 19 LITELINK™ Silicon DAA, Phone Line Interface The LITELINK phone line interface is the industry’s only single package silicon Data Access Arrangement, featuring a 32-pin, small outline, low profile, surface mount package. It is ideal for both voice and data (V.22bis to V.90/V.92) and applications in particularly dense circuit environments. The internal optical isolation barrier eliminates high cost transformer or capacitive isolation circuits. This solution saves cost relative to competitive circuits through reduced passive component count and smaller printed circuit board space.

The 3kVrms internal isolation barrier exceeds all worldwide regulatory requirements. The optical isolation barrier yields low distortion performance necessary for high speed communications. In addition, the LITELINK application circuit is capable of surviving 6kV (10usec x 700usec) lightning surge waveforms making it the most robust silicon DAA on the market.

LITELINK offers the lowest operational phone line quiescent current. The device easily interfaces to commonly available standard single-ended or differential voice and modem codecs on the market. Contact Clare for information on codec reference designs that offer programmable AC termination impedance for global applications. LITELINK complies with international PSTN agency requirements.

The newest device is the CPC5622, which is part of the LITELINK III product family. It offers continuous Caller-ID (CID) signal reception which is ideal for telephony applications in countries where CID information is present before the ringing signal. The CPC5622 also offers both full and half wave ringing signal detection allowing the designer to choose the appropriate interface to the codec/DSP block. Features: Applications: • Voice and data applications • Computer telephony • Automated banking • Modem DAA for speeds up to V.92 • VoIP gateways • Remote metering • Half-wave or full-wave ringing detection • PBXs • Surveillance • Worldwide telephone network compatibility • Satellite set-top box • Security systems • Caller-ID reception • V.92 modems • Line side powered from telephone line • Fax machines • 3.3V to 5V power supply • Voice mail systems • Easy interface with modem ICs and voice codecs • Embedded modems • High power transmit option for voice applications (>3dBm) • Vending machines Part Number Family Isolation Voltage Power Supply MODE pin Caller ID Ringing Status

(Vrms) Detect CPC5622 LITELINK III 3000 3.3V to 5V Yes Continuous Half & Full wave Recommended for New Designs CPC5621 LITELINK III 3000 3.3V to 5V Yes Selectable Full wave Recommended for New Designs CPC5620 LITELINK III 3000 3.3V to 5V Yes Selectable Half wave Recommended for New Designs CPC5611 LITELINK II 1500 3.3V to 5V No Selectable Full wave CPC5610 LITELINK II 1500 3.3V to 5V No Selectable Half wave CPC5604 LITELINK I 1500 5V No Selectable Half wave NOTE: For the CPC5603 and CPC5602 detail, please see “FETs, N-Channel Depletion Mode” section on page 30. CPC5622 LITELINK III Block Diagram: Isolation Barrier

Tx+ Transmit Diff. TIP Tx- Amplifier Transmit Isolation Tx. MODE Amplifier Gain Trim Transconductance Stage 2-4 Wire Hybrid OH AC/DCTermination Hook Switch Rx. Gain Receive Trim Isolation Amplifier RING Rx+ Receive Diff. Rx- Amplifier Rx MUX & Ringing Detect Outputs Ringing Det. C SNOOP R Half Wave SNOOP RING Snoop C Full Wave SNOOP R RING2 Amplifier SNOOP 20 To download datasheets or to find your nearest sales representative, visit www.clare.com CPC5622 LITELINK III Reference Design Schematic

3.3 or 5V

R23 10 C1 1

C16 FB1 600 10 200 mA A U1 C9 A 0.1 R1 1 32 VDD LITELINK REFL (RTX) 80.6K BR- 2 TXSM TXF 31 C13 0.1 30 TX- 3 TX- ZTX C2 0.1 29 R5 TX+ 4 TX+ ZNT (RTXF) C10 60.4K 0.01 5 TX TXSL 28 500V R75 R13 6 27 (R ) MODE BR- BR- NTX (RNTS) 261K 1M R22 7 GND NTS 26 A (RDCS1A) R14 6.49M (R ) Q1 8 25 GAT OH OH GAT CPC5602C R12 C21 (R ) R21 47 9 24 NTF 100p RING RING NTF (R ) 5% C15 BR- (CGAT) DCS1B 499K 6.49M 0.01 10 RING2 DCS1 23 RING2 C12 500V R15 R20 C14 0.1 (RDCS2) (CDCS) BR- 11 RX- DCS2 22 (RVDDL) RX- 0.027 2 1.69M BR- C4 0.1 21 5% RX+ 12 RX+ ZDC R16 + (R ) DB1 13 SNP+ BR- 20 8.2 ZDC 19 BR- 14 R76 (RHTF) SNP- RPB 200K TIP 18 R8 221K (RHTX) - 15 RXF RXS R18 BR- 16 17 RX VDDL C18 (RZTX) SP1 15p 3.32K R2 R4 R10 BR- (R ) (RPB) (RZNT) RING RXF 301 130K 68.1 BR- BR-

C7 (CSNP-) R6 R44 220p (RSNP-2) (RSNP-1)

1.8M 1.8M R3 NOTE:Unless otherwise noted: (R ) SNPD R7 R45 Resistor values are in Ohms 1.5M All resistors are 1%. (RSNP+2) (RSNP+1) Capacitor values are in Farads. C8 1.8M 1.8M (CSNP+) 220p

To download datasheets or to find your nearest sales representative, visit www.clare.com 21 Phone Line Monitor Clare’s CPC5710N 8-pin SOIC is a versatile building block for designing telephone line monitoring circuits. High common-mode rejection ratio (>40dB) and high input impedance makes the CPC5710N an excellent choice for tip/ring voltage monitoring, battery presence detection, line-in-use detection (another-phone-off- hook), polarity reversal, display feature (Caller ID) signal reception, ringing detection, and discrete voice recording.

The CPC5710N high impedance input circuit eliminates phone line monitoring discrete components that reduce central office (CO) battery voltage to Customer Premise Equipment (CPE) equipment. This allows the CPE equipment to work properly on long phone loops and meet difficult worldwide regulatory low CO voltage conditions. The high impedance resistive barrier application circuit is fully compliant to the EN60950 safety standard and meets the ITU-T K.21 over-voltage and over-current specifications. Common applications include telephony gateways, IP-PBX, computer telephony, embedded modems, set-top boxes, voice recording applications, and point-of-sale equipment.

Features: Applications: • Excellent common-mode rejection ratio (CMRR), >40 dB In monitoring applications the CPC5710N can be used for: • Supplied application circuits meet EN60950 Safety and ITU-T K.21 specification isolation requirements • Display feature (caller ID) signal processing • High input impedance circuit eliminates line voltage drop for better performance and compliance to • Line-in-use detection (another phone-off-hook) worldwide specifications • Ringing signal level detection • Small 8-pin SOIC • Battery presence monitoring • Worldwide telephone network compatibility • Tip and ring lead voltage monitoring • Full-wave ringing level detector comparator with internal threshold, large hysteresis, and logic-level output • Line polarity • 3.3V to 5V operation • High differential input impedance, very low common mode input impedance • Fixed gain • Differential or single-ended linear output • TTL logic input • CMOS logic output (TTL compatible) • Virtually non-detectable in voice monitoring

Part Number Power Supply CPC5710N 3.3V to 5V

APOH and Polarity Detection Application Circuit +V

U1 CPC5710N R16 +V R14 10K VDD 4.7M 50k V 3 DD R13 +V V 20K DD 1 IN+ 1/4 U2 + DET_EN LM339 Polarity OUT - DET 2 VDD 1.625 V IN- +V - R17 R15 + 4.7M 10K

R12 +V R1 R2 0 V 5 20K TIP 6 IN+ OUT+ 1/4 U2 + + IN+ R5 A =6 2 V LM339 R3 R4 IN- V OUT- 4 604K - OUT - R11 RING 7 Switch shown 499K R1-4 in Linear Mode IN- 8.06M R10 1% 21K R6 1206 4.7M V SS R8 +V 20K IN+ 1/4 U2 LM339 APOH GND 8 OUT + R9 C1 499K IN- 1nF - 1.25 V GND R7 21K

Unless noted otherwise: All resistors 1%, 1/16 W. All capacitors 16 V 10%.

22 To download datasheets or to find your nearest sales representative, visit www.clare.com xDSL/ISDN DC Termination ICs The CPC1465 provides a polarity-insensitive DC termination for wetting (sealing) current on the CPE side conforming to ITU-T G.991.2 to eliminate corrosion on xDSL/ ISDN lines. The CPC1465 has excellent linearity (70dB typ.) to minimize harmonic distortion and well-controlled turn-on and turn-off characteristics to minimize injecting impulse noise with in-band signal energy into the DSL channel.

This DC termination IC, which interfaces with the tip/ring pair, is rated at 300V and is able to handle power cross and lightning transients with appropriate protection. Manufactured in Clare’s proven 320V Silicon-On-Insulator (SOI) process, the CPC1465 is packaged in a 16 pin SOIC or MLP.

Features: Applications: • Meets wetting (sealing) current requirements per ITU-T G.991.2 • ADSL2+ compatible with appropriate inductor • Integrated bridge rectifier for polarity correction • SHDSL • Uses inexpensive optocoupler for DC signaling • ISDN • Electronic inductor, breakover, and latch circuits • Router and bridge customer premises equipment • Current limiting and excess power protection circuits • Leased line equipment • ANSI SHDSL and ISDN compatible • T1/E1 network line cards and repeaters • MLT and SARTS compatible • Network Termination 1 (NT1) equipment • Excellent linearity (70dB typ.) • Mechanized Loop Test (MLT) networks • Switched Access Remote Test System (SARTS) networks

High-speed Line Interface Product Part Number Package CPC1465D 16-pin SOIC NEW CPC1465M 16-pin MLP

Block Diagram:

DC CPC1465 Blocking 1µ F Capacitor 1 PR+ TC 16 Electronic 2 NC Inductor, NC 15 Breakover, Latch, and Opto Driver 3 NC NC 14 68Ω 1% TIP 1/4W 4 TIP RS 13 Bridge Transceiver Rectifier 5 RING PD 12

6 NC NC 11 RING 7 NC NC 10 2.2kΩ 5% Current Limit 4W and Excess 8 PR- Power Protection COM 9

VCC 1 6 75kΩ 2 5 Digital Control 3 4 Circuitry

To download datasheets or to find your nearest sales representative, visit www.clare.com 23 Data Access Arrangement (DAA) Modules Cybergate Family The Cybergate family is Clare’s turnkey modular DAA solution. The V.34 family provides the circuitry required in a single, completely functional DAA circuit in a 1.07” x 1.07” x 0.4” plastic module. This plug-and-play design allows the user to choose the necessary options to minimize costs, and in turn, maximize value. Standard features include surge protection, transient protection zeners, ringing detection, hook switch circuitry, gyrator circuitry (impedance balancing), and a transformer. Caller-ID (CID) and loop current detection are also available as options. Features: Applications: • 28.8kbps (except for CYG2911 at 9.6kbps) • Modems • Optional caller ID and loop current sense • Remote data acquisition • Ringing detection • Fax machines • Low power Hook Switch • Security/metering • Surge protection • Computer telephony • Low THD • PBX • Gyrator circuitry • Voice mail systems • Meets most regulatory agency requirements Cybergate Data Access Arrangements Features Part Region Hook Switch DC Loop Return Insertion Ringing Isolation Ringing Caller ID Loop 911 2-4 Wire Number Resistance Current Loss (min.) Loss (max.) Voltage Voltage Detection Current Emergency Conversion

TX - Transmit (dB) Detection (Vrms) Full Half Detect (Ohm) (mA) (dB) RX - Receive (dB) Range (Vrms) Wave Wave CYG2000 N. America 15 20-120 18 Tx 7 20-150 1000 • Asia Rx 7 CYG2001 N. America 15 20-120 18 Tx 7 20-150 1000 • Asia Rx 7 CYG2010 N. America 15 20-120 18 Tx 7 20-150 1000 • • Asia Rx 7 CYG2011 N. America 15 20-120 18 Tx 7 20-150 1000 • • Asia Rx 7 CYG2020 N. America 15 20-120 18 Tx 7 20-150 1000 • • Asia Rx 7 CYG2021 N. America 15 20-120 18 Tx 7 20-150 1000 • • Asia Rx 7 CYG2030 N. America 15 20-120 18 Tx 7 20-150 1000 • • • Asia Rx 7 CYG2031 N. America 15 20-120 18 Tx 7 20-150 1000 • • • Asia Rx 7 CYG2100 Europe 35 5-120 14 Tx 7 29-150 1500 • Rx 7 CYG2110 France 35 5-120 14 Tx 7 29-150 1500 • Rx 7 CYG2111 CTR-21 35 5-120 14 Tx 7.5 29-150 1500 • Rx 7.5 CYG2120 Spain 35 5-120 14 Tx 7 28-150 1500 • Rx 7 CYG2217 N. America 15 20-120 39 Tx 7 20-150 1000 • • Asia Rx 1 CYG2218 N. America 15 20-120 39 Tx 1 20-150 1000 • • Asia Rx 1 CYG2300 Germany - 5-120 14 Tx 7 29 MIN 1500 • Rx 7 CYG2320 Australia - 5-120 14 Tx 7 29 MIN 1500 • Rx 7 CYG2911 N. America 15 20-120 18 Tx 9 20-150 1000 • • • Asia Rx 9 *All of the parts listed are in a DIP package, operate using a 5V power supply, have a minimum On-hook impedance of 10MΩ, Maximum Total Harmonic Distortion (THD) of 0.01%, and a tip to ring surge protection voltage of 300V. 24 To download datasheets or to find your nearest sales representative, visit www.clare.com Embedded Modem Module (EMM) The Embedded Modem Module combines a datapump and microcontroller with the Data Access Arrangement (DAA) to deliver an all- in-one solution for V.22 bis modem transaction-oriented applications. This plug-and-play module provides a total solution complete with transferable FCC registration. It supports a standard serial V.24 TTL interface to the DTE equipment. The CPC2400E features a quick handshake time of 1.6 seconds. This offers a clear advantage for short connection sessions when compared to V.34 and V.90 modems which have a data handshake period greater than 10 seconds.

Features: Applications: • Easy integration and installation • Point-of-Sale (POS) • Small footprint of 1.00” x 2.50” • Gaming equipment • Low power consumption • Utility metering • 5V Power Supply operation • Lock boxes • Supports V.22bis, V.22, V.23 • Remote monitoring • FCC part 15B compliant • Embedded applications • FCC part 68 user transferable registration • Medical appliances • UL Approved

Block Diagram +5V

LINE PARALLEL INTERFACE TIP V.22BIS DTE CONTROLLER DAA DATA PUMP V.24 RING SERIAL

AUDIO OUT

GND Pin Diagram CPC2400E BLOCK DIAGRAM

VCC J1 GND -DTR J2 N/C -DCD TIP -MUTE N/C A1 RING N/C N/C RXD TXD

To download datasheets or to find your nearest sales representative, visit www.clare.com 25 Tone Signaling Products Tone Signaling Products include Dual Tone Multi-Frequency (DTMF) Receivers, MF Trunk Signaling ICs, Call Progress Detectors and Generators, and Hook Switch Status Devices.

Call Progress Detectors and Generators Clare’s family of Call Progress Detectors and Generators provides an inexpensive method of detecting and generating common call progress tones including busy tone, dial tone, call waiting tones, and Block Diagrams: others. The family includes both an inexpensive band detector and precise call tone detectors that detect individual tones. Detectors are available in both DIP and SOIC packages, and operate on a 3V to 5V supply. The call progress generator allows for a simple method of providing dial tone, busy tone, and other call progress tones in applications where a POTS interface is required such as VoIP or other network gateways. Features: Applications: • Receive and generate common call progress tones • PBX circuits • Detectors operate with a single 3 to 5 Volt supply • Billing systems • Linear input (detectors) and output (generator) • Test equipment • Inexpensive band detector with wide dynamic range (>38dB) • Point of Sale terminals • Low power consumption • Pay telephones • Detectors available for both common call progress and SIT tones • Available in both DIP and SOIC packages M-980-02 M-991

Detection Frequencies Part Function Band Dial Tone Audible Ringing Busy Tone Special Information Package Type Number (315-640Hz) (350 + 440Hz) (440 + 480Hz) (480 + 620Hz) Tones (SIT) M-980-02 Detector • 16-Pin SMT, 8-Pin TH M-982-02 Detector • • • 20-Pin SMT, 22-Pin TH M-984-02 Detector • 16-Pin SMT, 14-Pin TH M-985-01 Detector • • • • 20-Pin SMT, 22-Pin TH M-991 Generator • • • 16-Pin SMT, 14-Pin TH

DTMF Receiver Block Diagram: DTMF signaling is used in tone dialing applications where a direct inexpensive method of receiving DTMF digits is required. The M-8870-01 device uses an inexpensive color burst crystal. Adjustable guard times -02 provide flexibility for fast operation or additional accuracy in receiving DTMF dialing tones. Features: Applications: • 5 Volt receivers • PBX and Central Office • Adjustable receiver guard time tone receivers • Central Office quality and performance • Security systems • Credit card verification • Fax machines • Pay telephones • Remote control • Remote data entry

26 To download datasheets or to find your nearest sales representative, visit www.clare.com MF Trunk Signaling ICs MF signaling ICs, available in a variety of formats, eliminate the need for additional software required to implement MF signaling protocols in trunk circuits. Used in MF trunk signaling applications, these products include a family of PCM digital MF tranceivers in a variety of formats. Signaling formats include R1 (A Law and µ Law), and R2 Specification.

The M-993 is a stand-alone generator that provides a simple, inexpensive method of generating analog R1 MF signaling tones. Already used in thousands of systems worldwide, these products give the system designer a proven method of providing MF signaling capability.

Block Diagram: Features: Applications: • Direct PCM interface to chip • Trunk Circuits requiring MF • Manual or Compelled Mode operation trunk signaling in R1 or R2 for R2 signaling signaling formats • 2.048 MHz clocking • Dual Channel • Microprocessor read/write interface • R1 and R2 formats provided

M-986-2xx

Detection Frequencies Part Number Function CCITT R1 CCITT R2 A Law µ Law PCM Analog Package PCM PCM In/Out out Type Part Function Band Dial Tone Audible Ringing Busy Tone Special Information Package Type Number (315-640Hz) (350 + 440Hz) (440 + 480Hz) (480 + 620Hz) Tones (SIT) M-986-2A1P Transceiver • • • • 44-Pin SMT, 40-Pin TH M-980-02 Detector • 16-Pin SMT, 8-Pin TH M-986-2R2P Transceiver • • • 44-Pin SMT, 40-Pin TH M-982-02 Detector • • • 20-Pin SMT, 22-Pin TH M-993 Generator • • 14-Pin TH M-984-02 Detector • 16-Pin SMT, 14-Pin TH M-985-01 Detector • • • • 20-Pin SMT, 22-Pin TH M-991 Generator • • • 16-Pin SMT, 14-Pin TH Hook Switch Status Devices M-949-01 Line Sense Relay • Senses telephone line current from 18 to 125 mA • Used by control circuitry for on-hook/off-hook monitoring, switch hook flash detection Block Diagram: and rotary dial pulse CO PBX • Provides 1500V coil-to-contact isolation Switching Equipment DC M-949 • Includes 1-Form-A relay contact Tip 2 + - 1 + • Applications Include: Central Office products, PBX and key systems, rotary dial monitoring devices

Ring 3 - 4 + - M-949-11 Balanced Dual Coil Telephone Line Current Sensing Relay 6 5 • Senses telephone line current from 15 to 200mA • Used by control circuitry for on-hook/off-hook monitoring, switch hook flash detection and LC rotary dial pulse Other Circuit DATA • Meets high isolation voltage requirement of 4000V Note: These relays are not polarity (M-959 • Meets UL and British Standard specifications sensitive. The Positive and Negative Dial Pulse Strobe • Includes 1-Form-A relay contact indicators show the series-aiding Counter) Off-hook coil configuration. M-959 Dial Pulse Counter and Hook Status Monitor • Independent hook status monitoring • Time-guarded dial pulse counting • 10 or 20 PPS dialing speeds pin selectable • Valid data output strobe To download datasheets or to find your nearest sales representative, visit www.clare.com 27 High-Voltage Products - Analog Switches and Display Drivers The high-voltage process technology used on these devices is Clare’s reliable BCDMOS on SOI (Silicon On Insulator). This process offers unique performance features such as multiple 300 Volt open drain FET devices and 200 Volt bi-directional analog switch cells with 1 Amp peak current capability.

NEW CPC7220/CPC7221 High-Voltage 8 Channel Analog Switch Block Diagram: Features: LEVEL OUTPUT V The CPC7220 and CPC7221 are low charge • DC to 10MHz analog signal frequency DD LATCHES SHIFTERS SWITCHES injection 8-channel high-voltage analog • 200 Volts peak-to-peak output switches VPP switch integrated circuits (ICs). These • Low quiescent power dissipation (< 1µA typical) D devices are capable of switching large • Output on-resistance typically 20Ω DOUT LE SW0 load voltages and have a flexible load • TTL inputs and outputs for 3.3V interface CL

voltage range, e.g. VPP/VNN : +40V/-160V or • 28-Pin SOIC Package +100V/-100V. Switch manipulation is managed by an 8 BIT SHIFT 8-bit serial to parallel shift register whose outputs are Applications: REGISTER buffered and stored by an 8-bit transparent latch. Level • Ultrasound imaging shifters buffer the latch outputs and operate the high- • Printers D D IN LE SW7 voltage switches. • Industrial controls and measurement CL CLK

CL VNN

LE

NEW CPC6530 32-Channel Serial To Parallel Converter With Open Drain Outputs Block Diagram: Polarity Features: The CPC6530 is a low-voltage serial input to high- • 300V open drain MOSFETs Blanking voltage parallel output converter with open drain • 100mA minimum current sink Latch Enable

outputs. This device consists of a 32-bit shift • 8MHz shift register HVOUT1 register, 32 latches, and control logic to perform • Polarity and Blanking inputs Data Input Latch • CMOS compatible inputs the polarity select and blanking of the outputs. The Clock HV 2 open drain N-channel MOSFETs have a 300V breakdown • 44-lead surface mount package OUT voltage rating and are capable of sinking 100mA of current. Latch 32-Bit Applications: Shift Register • EL Display Driver HVOUT31 • Inkjet and electrostatic print heads Latch • Plasma, vacuum fluorescent, and large HV 32 matrix LCDs OUT Data Out Latch

NEW CPC6826 High-Voltage EL Lamp Driver Block Diagram:

LX

Features: VDD C The CPC6826 is an electroluminescent (EL) lamp • 1.8V to 3.5V supply voltage S R driver designed for applications operating from an • DC to AC conversion SW Switch input supply voltage range of 1.8V to 3.5V. The • Adjustable output frequency Osc Q V architecture features an integrated boost switching • Adjustable switch frequency A GND supply with an H-bridge driver circuit to illuminate the • Output voltage regulation Q Vsen EL lamp. Three passive components are required • 150V H-Bridge drive output + PP C Disable Output to complete the boost switcher circuit: an inductor, • Enable/Disable function - Vref Osc a capacitor, and a diode. The internal high- • MSOP-8 Package voltage H-bridge provides a nominal ±75V output Q V between pins VA and VB. Applications: Ref B • Mobile cellular phones Q • Keypad illumination • Instrument panels 28 To download datasheets or to find your nearest sales representative, visit www.clare.com Optically Isolated Gate Driver Circuits The CPC1580 and CPC1590 are high speed Optically Isolated Gate Driver ICs. On-chip circuitry charges an external capacitor from the AC load voltage which eliminates the need for an external IC power supply. The Driver IC is ideal for low duty cycle switching applications.

Features: Applications: • Low drive power requirements (TTL/CMOS Compatible) • Instrumentation

• Fast switching TON/TOFF 20/200 µsec • Multiplexers • Load Voltages up to 200V • Electronic switching • No external IC power supply • I/O Subsystems • Meters (Watt-Hour, Water, Gas) • Medical Equipment (patient/ VCAP

VD Block Diagrams: equipment isolation) external V CAP • Security capacitor VD external • Aerospace capacitor • Industrial controls

VG VG

VS VS CPC1580 CPC1590

Operational temperature range of -400 to 850C Part Input Control Gate Voltage Load Regulated Nominal Switching Isolation Package 1

Number Current @ IF = 5mA Voltage Capacitor Voltage Speeds Voltage Type

(mA) (VG) (VD) (VCAP) TON/TOFF (ms) (Vrms) NEW CPC1580 5 7.3 to 12 50 49.9 0.04 / 0.7 3750 8-Pin SMT NEW CPC1590 5 7.2 to 9.1 200 20 0.02 / 0.2 3750 8-Pin SMT 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole.

Optically Isolated Dual MOSFET Gate Driver The FDA215 is a Dual Optically Isolated Photodiode Array. The light-activated array produces an open circuit voltage of 8 Volts. This device is suited for use in discrete solid state relay designs. Features: Applications: • Isolated 5V photovoltaic output • MOSFET Driver • May be configured for AC and DC switching • Programmable control Block Diagram: • Floating outputs for parallel or series configuration • Process control • Instrumentation + P – Input Output – V + Operational temperature range of -400 to 850C Part Input Control Open Circuit Nominal Short Switching Isolation Package 1 + P – Input Output – V + Number Current Voltage Circuit Current Speeds Voltage Type IF (mA) (VOC) ISC (µA) TON/TOFF (ms) (Vrms) FDA215 FDA215 5 5 2.5 5 / 5 3750 8-Pin SMT, TH 1 For Package Type, SMT indicates Surface Mount Technology while TH indicates Through-Hole.

To download datasheets or to find your nearest sales representative, visit www.clare.com 29 FETs, N-Channel Depletion Mode Clare’s N-channel depletion mode Field Effect Transistors (FETs) utilize a proprietary third generation vertical DMOS process. The third generation process realizes world class, high-voltage MOSFET performance in an economical silicon gate process. The vertical DMOS process yields a robust device for high power applications with high input impedance. These highly reliable FET devices have been used extensively in Clare’s solid state relays for industrial and telecommunications applications.

The normally-on MOSFETs are well suited for low cost, pre-regulator applications that are tolerant of high voltage drop and power dissipation between the power source and the output regulator stage. The pre-regulator is particularly effective as an inexpensive solution for filtering AC line voltage variations in non-isolated DC power supplies as compared to switch-mode power supplies or step-down transformers.

FETs N-Channel Depletion Mode

Part Number BVDSX RDS(ON) VGS(off) VGS(off) IDSS @ VGS = 0V Package (V) Max (Ω) Min (V) Max (V) Min (mA) CPC3703 250 4 -1.6 -3.9 300 SOT-89 CPC3710 250 10 -1.6 -3.9 220 SOT-89 CPC3714 350 14 -1.6 -3.9 240 SOT-89 CPC3720 350 22 -1.6 -3.9 130 SOT-89 CPC3730 350 30 -1.6 -3.9 140 SOT-89 CPC5602 350 14 -2.0 -3.6 130 SOT-223 CPC5603 415 14 -2.0 -3.6 130 SOT-223

Application - Pre-regulator Non-isolated Power Supply with Depletion Mode FET

Voltage V VDC AC Regulator

30 To download datasheets or to find your nearest sales representative, visit www.clare.com Solar Cell Products The Clare Solar Cell is a revolutionary new product offering that addresses the diverse needs and applications of the growing low power solar energy market. This technology development is based on Clare’s strength in photovoltaic silicon processing and IC packaging. The Solar Cell product family offers open circuit voltage levels of 4V and 8V when activated by natural or artificial light. These voltage levels correlate to common circuit board power supply voltages making the solar cell ideal for battery charging applications and trickle charge power sources. Standard JEDEC SOIC package styles make these Solar Cell products ideal for prototype and high volume production usage.

Clare’s flexible Solar Cell architecture facilitates product family growth by means of its scalable technology thus paving the way for future solar cell offerings with different voltage and current ratings. Additionally, since there is excellent isolation between the various circuit elements on the Solar Cell’s photovoltaic die, it is possible to add options such as power management or logic control circuitry with minimal incremental cost to the product.

Features: Applications: • Select from multiple voltage and current outputs • Portable Electronics • 4V & 8V output • Solar Battery Chargers • 25µA - 100µA current output • Battery Operated Equipment • Provides true wireless power • Consumer Electronics • Triggers with natural sunlight or artificial light • Off Grid Installation • Semiconductor miniature size and reliability • Wireless Sensors and Detection • Self-Powered Sunlight/ Light Detection • Self-Powered Products Part Number BVDSX RDS(ON) VGS(off) VGS(off) IDSS @ VGS = 0V Package • Remote Installation (V) Max (Ω) Min (V) Max (V) Min (mA) CPC3703 250 4 -1.6 -3.9 300 SOT-89 CPC3710 250 10 -1.6 -3.9 220 SOT-89 CPC3714 350 14 -1.6 -3.9 240 SOT-89 Product Part Number Open Circuit Voltage Short Circuit Current SOIC Package (V) (uA) CPC3720 350 22 -1.6 -3.9 130 SOT-89 CPC3730 350 30 -1.6 -3.9 140 SOT-89 CPC1822 4 50 8-Pin CPC5602 350 14 -2.0 -3.6 130 SOT-223 CPC1824 4 100 16-Pin CPC5603 415 14 -2.0 -3.6 130 SOT-223 CPC1831 8 25 8-Pin CPC1832 8 50 16-Pin

Block Diagram:

V+

V-

To download datasheets or to find your nearest sales representative, visit www.clare.com 31 Worldwide Sales Offices:

AMERICAS Asian Headquarters European Headquarters Sweden Clare Clare IXYS Semiconductor GmbH Clare Sales 78 Cherry Hill Drive Room N1016, Chia-Hsin, Edisonstr.15 • D-68623 Lampertheim Comptronic AB Beverly, MA 01915 Bldg II, Germany Box 167 Tel: 1-978-524-6700 10F, No. 96, Sec. 2 Phone: +49 (62 06) 503-0 S-16329 Spånga Fax: 1-978-524-4900 Chung Shan North Road Fax: +49 (62 06) 503 627 Sweden Toll Free: 1-800-27-CLARE Taipei, Taiwan e-mail: [email protected] Tel: 46-856-40672 Tel: 886-2-2523-6368 Fax: 46-703-8449-99 Fax: 886-2-2523-6369 France Clare France Sales United Kingdom Eurocomposant Clare UK Sales 144, Avenue Joseph Kessel 1 Marco Polo House Voisins-le-Bretonneux, France F-78960 Cook Way France Bindon Road Tel: +33-1 30 64 25 92 Taunton Fax: +33-1 03 43 68 27 Somerset United Kingdom TA2 6BJ Tel: 01823 352541 Fax: 01823 352797 Email: [email protected] Web: www.tech-rep.co.uk To download datasheets or find the nearest sales representative visit www.clare.com Copyright © 2006, Clare, Inc. All rights reserved.