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TABULATION OF PUBLISHED DATA ON SOVIET ELECTRON DEVICES THROUGH JUNE 1965
CHARLES P. MARSDEN
U. S. DEPARTMENT OF COMMERCE NATIONAL BUREAU OF STANDARDS THE NATIONAL BUREAU OF STANDARDS
National Bureau of Standards is a principal focal point in the Federal Government for as maximum application of the physical and engineering sciences to the advancement of technology in industry and commerce. Its responsibilities include development and maintenance of the national stand- ards of measurement, and the provisions of means for making measurements consistent with those standards; determination of physical constants and properties of materials; development of methods for testing materials, mechanisms, and structures, and making such tests as may be necessary, particu- larly for government agencies; cooperation in the establishment of standard practices for incorpora- tion in codes and specifications; advisory service to government agencies on scientific and technical problems; invention and development of devices to serve special needs of the Government; assistance to industry, business, and consumers in the development and acceptance of commercial standards and simplified trade practice recommendations; administration of programs in cooperation with United States business groups and standards organizations for the development of international standards of practice; and maintenance of a clearinghouse for the collection and dissemination of scientific, tech- nical, and engineering information. The scope of the Bureau's activities is suggested in the following listing of its four Institutes and their organizational units.
Institute for Basic Standards. Applied Mathematics. Electricity. Metrology. Mechanics. Heat. Atomic Physics. Physical Chemistry. Laboratory Astrophysics.* Radiation Physics. Radio Standards Laboratory:* Radio Standards Physics; Radio Standards Engineering. Office of Standard Reference Data.
Institute for Materials Research. Analytical Chemistry. Polymers. Metallurgy. Inorganic Mate- rials. Reactor Radiations. Cryogenics.* Materials Evaluation Laboratory. Office of Standard Refer- ence Materials. Institute for Applied Technology. Building Research. Information Technology. Performance Test Development. Electronic Instrumentation. Textile and Apparel Technology Center. Technical Analysis. Office of Weights and Measures. Office of Engineering Standards. Office of Invention and Innovation. Office of Technical Resources. Clearinghouse for Federal Scientific and Technical Information.** Central Radio Propagation Laboratory.* Ionospheric Telecommunications. Tropospheric Tele- communications. Space Environment Forecasting. Aeronomy.
* Located at Boulder, Colorado 80301. ** Located at 5285 Port Royal Road, Springfield, Virginia 22171. NATIONAL BUREAU OF STANDARDS Technical Note 265
ISSUED OCTOBER 1, 1965
(Supersedes Technical Note 186)
TABULATION OF PUBLISHED DATA ON SOVIET ELECTRON DEVICES THROUGH JUNE 1965
Charles P. Marsden
NBS Technical Notes are designed to supplement the Bu- reau's regular publications program. They provide a means for making available scientific data that are of transient or limited interest. Technical Notes may be listed or referred to in the open literature.
For sale by the Superintendent of Documents, Government Printing Office Washington, D.C., 20402 - Price 5Q cents
!
FOREWORD
This tabulation of published data on Soviet electron devices has been prepared as part of the National Bureau of Standards Electron Devices Data Service. Established in 1948 to provide technical data on radio tubes to members of the Bureau staff, the service has since been extended to other scientists and engineers in government and industry. In the course of the program, a large volume of information on tubes, transistors, diodes, and other electron devices has been accumulated on punched cards. To make this information more readily available, a system has been worked out for automatically tabulating the data in handbook form. Previous tabulations include Tabulation on Data on Micro- wave Tubes , NBS Handbook 70 (1961); Diode Source Book (published by Semi- conductor Products magazine, (1961); and Tabulation of Data on Receiving
Tubes , NBS Handbook 83 (1963).
The present tabulation is a revision of Technical Note 186 and is the result of compilation efforts extending over the past six years. All the included information was taken from published specifications, and every effort has been made to ensure accuracy and completeness. However, the Bureau cannot assume responsibility for omissions nor for results obtained with these data.
A. V. Astin, Director.
iii CONTENTS Page
1. Introduction 1
2. Description of the Tabulation 1
3. Organization of the Tabulation 2
4. Terminology Used in the Tabulation 3
5. Groups
I Numerical Listing . .. 8 II Receiving Tubes 23
III Power Tubes 34
IV Rectifier Tubes 40
V Voltage Regulator Tubes 41
VI Current Regulator Tubes . 41
VII Thyratrons 42
VIII Cathode Ray Tubes 43 IX Microwave Tubes 46
X Transistors 47
XI Diodes - Rectifier 55 XI-A Diodes - Switching 60 XI-B Diodes - Tunnel 60 XI-C Diodes - Switch Control 60 XI-D Diodes - Varactors 60
XII Diodes - Rectifier 61
XII-A Diodes - Silicon Controlled Rectifiers 62 XIII Diodes - Regulators 63 XIV Diodes - Mixer and Detector ..... 64 XV Diodes - Photo conductive 65 XVI Phototubes and Photo multipliers 66 XVIII Thermocouple Tubes 68 XIX Thermistors 68 XX Strobotrons 69 XXI Counter Tubes 70 XXII Discharge Tubes 72 XXIII Decatrons 72 XXIV Light Amplifiers 72 XV Basing Connections
iv Tabulation of Published Data on Soviet Electron Devices
Charles P. Marsden
This tabulation includes published data on Soviet electron devices as collected from publications, mostly handbooks published by the various ministries and institutes of the USSR. Information is given on all active de- vices ranging from receiving to microwave de- vices, semiconductor devices, and miscellaneous devices such as, for example, photographic flash tubes and thermistors.
1. Introduction
The increased circulation of published literature from the USSR and the importation of Soviet equipment has created a need for factual information on Soviet electron devices. To satisfy this need, the National 3ureau of Standards Electron Devices Data Service has prepared the present tabulation in a format that could be reproduced directly from punched cards.
This publication is a revision and expansion of Technical Mote No. 186 published in June, 1963. The format of several tabulations has been rearranged to include more information and five new semiconductor diode groups have been included. Finally, more than 400 new types have been added.
The sources of the data are the various publications produced in the USSR and include books published by the various ministries , and technical magazines. This information has been intercompared and correlated to eliminate errors and thus assure that this tabulation is as accurate as possible. Because of this intercomparison, references for the data are not given, as data for any one type of device may have been derived from several sources.
2. Description of the Tabulation
In each group the type numbers are arranged in alpha-numerical order in which the first numerical part of the type number is the prime sorting means. Alphabetical prefixes are the secondary sorting means and alphabetical postfixes are the tertiary means. For example in the numerical list, these type numbers will be found in the following order: Vl-0.1/40 SG2S VT1 T0-2 1A2P 2A1 Alphabetical sorting is performed according to the English alphabet rather than the Russian which was transliterated according to the re- commended practice of the Library of Congress as shown below:
A A K K T T B B Jl L y U B V M M & F r G H N X Kh JX D u Ts
E Ye n P 111 Sh & Zh p R 3 E H I c S
This transliteration was necessary to put the information on punched cards and it is believed that it will cause little difficulty in use.
3. Organization of the Tabulation
The tabulation is divided into 24 groups, each with a different format and different columnar headings so that the maximum pertinent data may be included.
Group I is a numerical listing of all type numbers in the complete tabulation and also includes discontinued and obsolete types. All these types are defined by the same three-letter code to indicate the kind and type of tube. Furthermore, under the heading "Group No.", Roman num- erals are used to show the group number under which the data for a type will be found. In the last column, the GOST (State National Standard) Specification Number (followed by the year of publication of the specification) is shown for the type number. These specifications in- clude the information in and follow the format of the domestic military specifications.
This group is also an interchangeability list and known similar types are shown. Further, by means of the following symbol code, the manufacturing area and the obsolescence of the type are indicated.
$ Domestic manufacture = European " + Russian " * Obsolete or inactive
The above definitions of these symbols are pertinent only to their use in Group I. Due to the limitation of available symbols on listing equipment , these same symbols are used in the other groups but are then defined as shown at the end of the definitions under the paragraph en- titled "Code" (p. 4).
The other groups have titles describing the particular class of devices listed therein. As mentioned previously, the individual type numbers are arranged in the same alpha-numerical order.
Under each heading of the group format, the unit of measurement most common for the characteristic is shown. For example under the heading of Maximum Plate Current (I the unit p ), in the heading is mA (milliamperes). However, where the data are in arrroeres , the value will be tabulated with the number followed by the letter M A", e.g., 15A. All these changes of units are included in the list of alphabetical symbols under code on pages 4 to 7.
A blank in any column indicates that no value was given in the available data.
Group XXIV, "Bases", lists the basing connections for the particular "Base No." of the previous groups by a system compatible with punched cards.
Instead of the usual base diagram or line drawing, the number of each base pin is given in the column under the symbol of the electrode. This system was developed because many of the Soviet types have base connections which do not conform to the standard base designations of the Electronic Industries Association. In those instances where an electrode is connected to more than one base pin, only the lowest num- bered pin is shown in the tabulation.
Outline drawings are shown for the semiconductor diodes and transis- tors.
4. Terminology used in the Tabulation
4.1 Column Headings
The headings used in the various formats are the standard symbols as defined by the Institute of Radio Engineers or descriptive words for the characteristics. They are not further defined due either to the difficulties of translation or lack of definite information.
4.2 Bulb Size
This column heading, which is used in the Receiving, Power, Rectifier, etc. Groups, uses a special code to describe the bulb shape and size. The numerical part of the code indicates the diameter of the glass bulb or metal anode (power tubes) in eighths of an inch according to the American Standard. The alphabetical part of the code is ex- plained on the following page. PREFIX POSTFIX A - Air-cooled anode B Button glass stem B - Bell-shape F Flat press glass stem C - Ceramic construction G - Globe-shaped bulb F - Flat top of Soviet design H - Helix-shaped flash tube M - Metal tube P - Spiral R - Ring-shaped S - ST design, i.e., the domed conical shaped glass bulb T - Cylindrical shape U - U- shape flash tube W - Water-cooled anode
For example, a "T3F" would be a cylindrical bulb with a flat Dress and having a diameter of 3/8 inch.
4.3 Special Symbols
Receiving tubes have postfixed letters with the following meaning:
"V" - Ruggedized tubes with 500 hour life "K" - Vibration tested "Ye"- 3,000 to 10,000 hour long-life tubes "I" - Intended for pulse use
Rectifier Diodes (Group XI) with postfixed letter "?" are available in reverse polarity.
4.4 Code
Due to the limitations of available columns in the Dunched card, one- to three-letter codes have been liberally developed and used in the tabulation. These have been chosen to be readily understood. The following table lists the definitions of this code for all groups in alphabetical order.
Code
A Change of unit to amperes AHN Argon-helium-neon gas-filled AAB Alpha and Beta radiation AKN Argon-krypton gas-filled AC0 Acorn tube AL Aluminum cathode; countertube AF Audio frequency ALP Alpha radiat'on Forced air cooling AMK Aluminum-Magnesium alloy AHE Argon-Helium gas-filled with ootassium surface Code Natural air cooling DBA Double anode beam pentode Argon -oxygen gas- filled DEC Decatron Argon gas -filled DET Detector ooeration
Arc rectifier - Mercury pool i Diode DI N With diode, e.g., triode diode Barium (metal) cathode DSC Disc shaoe Beta and gamma radiation DUO Double, e.g., double diode Ballast or current regulator with same cathode Barium oxide cathode Duo diode (single cathode) J Beam pentode \ With duodiode, e.g., triode With beam pentode, e.g., ^ duodiode triode beam pentode E Common emitter operation BET Beta radiation EL Electrometer tube BIS Bismuth sulphide ELM Electromagnetic focus of deflection BL Blue luminescence Circular dynode arrangement ELS Electrostatic focus or Common collector operation deflection Cold cathode F Filamentary cathode Continuous wave operation FE Iron cathode; counter tube CAM Copper-aluminum-magnesium FLS Flash tube (photographic) CDS Cadmium sulphide 9 G Giga (10 ) CDSE Cadmium selenide GAM Gamma radiation CN Converter GAN Germanium alloy, n-type / Comutator tubes COM Compensation of temperature GAP Germanium alloy, p-type \ thermistors GDN Germanium diffused junction, Control Switch n-type CON f Temperature control \ GDP Germanium diffused junction, COU Counter tube p-type
CP Cap, external in tabulation GE Germanium of bases GEA Germanium alloy junction CS Cesium photo surface GEP Germanium point-contact CSB Cesium antimony photo surface GPP Germanium point-contact, CU Copper cathode; counter tube p-type
CYL Cylindrical shape (Thermistors) I Green luminescence GR ^Graphite cathode; counter tube Code
GS Gas-filled MX > Mixer MIX GSP Germanium surface-barrier, J p-type MO Molybdenum cathode GTB Gated beam pentode * MOD Modulator Heater type cathode (10" 9 2 N Nano ) Hecto (10 ) "i NA Neon-argon gas-filled HE Helium gas-filled NE Neon gas-filled HG Mercury vapor-filled NEH Neon-helium gas-filled HH Mercury-argon-hydrogen gas-filled NI Nickel cathode HK Hydrogen-krypton gas-filled NK Neon-krypton gas-filled HY Hydrogen gas-filled NSP Nuclear Spectrometry OD Double beam oscilloscope IC Iconoscope ID Indicator tube OS Oscilloscope IF Intermediate frequency P Pulse operation IGN Ignitron tube PA Power amplifier IM Image orthicon PB Purple-blue luminescence PBS Lead sulphide J Joules
Kilo (10 3 PEN Pencil tube K ) ( Potassium PHC Photoconductive diode KLY Klystron PHM Photomultiplier KX Krypton-xenon gas-filled PHO Phototube Linear dynode arrangement L PND Pentode
LAM Light Amplifier Pentode POW i LD Lead cathode; counter tube With pentode e.g., triode, pentode LIT Lighthouse PR Projection Kinescope LO Long persistence screen 6 PTG Pentagrid f Mega (10 ) M Milli (10-3) REC Rectifier MAG Magnetron REG Regulator (voltage) MD Medium persistence screen RD Red luminescence MEA Temperature measurement RF Radio frequency MG Magnesium cathode ROC Rocket tube Code S1-S7 Spectral sensitivity of photo TWN Twin with separate cathodes, surface e.g., twin triode
S Max. dimension of cathode ray Traveling-wave tube tube face -6 Micro (10 ) U-shaped SM Secondary emission pentode Ultra high frequency SAN Silicon alloy, n-type Venetian-blind dynode SAP Silicon alloy, p-type arrangement SCC Scintillation Counters Vacuum SDN Silicon diffused junction, Violet-blue luminescence n-type Vidicon SH Short persistence screen Video detector SI Silicon Voltage regulator SIA Silicon alloy junction Change of units to watts SIN Single e.g., single triode Tungsten cathode SIP Silicon, point contact Water-cooled SI4 Silicon, 4- layer rectifier WG Wave guide coupling SM Secondary emission pentode WH White luminescence
SN Tin cathode; counter tube X Smallest dimension-rectangular photocathode SQ Self-quenching type of counter tube XE Xenon gas-filled SWI Switching diode YO Yellow-orange luminescence T Thoriated tungsten cathode 3C Three color screen for television TET Tetrode
THM Thermocouple tube '• The meaning of these symbols indicated in the column THY Thyrat ron # heading TMS Thermistor / Less than (before digits)
TRD With triple diode s'c Obsolete type TRI Triode I With triode e.g., pentode- triode TTR Triode twin TUN Tunnel diode TV Television tube GROUP I, NUMERICAL GROUP I , NUMERICAL
TABLE COST SPEC. TABLE COST SPEC. TYPE NUMBER KIND SIMILAR TYPES TYPE NUMBER KINO TYPE SIMILAR TYPES NO. •0. DO. 0.
0.24B12-18 BAL SIN VI LDl *TRI SIN 12S3S+ 0.3B17-35 BAL SIN VI LG-1 DWD SIN 12KH3S+ 0.3B65-135 BAL SIN VI LI-1 IC VIII 0.425B55-12 BAL SIN VI MMT-1 TMS XIX 0.6P2B PND SIN II CK505AX MSI TRI SIN GM-60+
0.6ZH6B PND SIN I I OG-1 DEC XXIII 0.85B55-12 BAL SIN VI P1A X FS-AG PHC XV P1B X FS-AO PHC XV P1D X FS-AV PHC XV PIG X
FS-DO PHC XV P1I X FS-KG PHC XV P1V X FS-KO PHC XV P1YE X FS-KV PHC XV P1ZH X GR-0.8/1.6 DWD SIN GR1-0.25/1.5+ RB-1 XXII
TG-O.3/0.3 TRI THY TG1-0.1/0.3+. 884$ S1A X VG0251500 DIO SIN GR1-0.25/1.5+ SIB X TG-0.5/1.3 TET THY TGVO.1/1.3*. 2050* SID X AS-1 COU XXI S1G X D1A REC XI S1V X
DIB REC XI S1YE X DID REC XI SBS-1 COU XXI DIG REC XI SG1B DIO SIN 0A2* D1V REC XI SG1P DIO SIN V 0A2* D1YE REC XI SG1P-V REG V
D1ZH REC XI SG1P-YE REG V DG-S1 MIX XIV SI-1BG COU XXI DG-TS1 REC XI D2G+ SI-1G COU XXI DK-I1 MIX XIV T-1B TRI THY TG-1B+ DK-S1 MIX XIV TG1B TRI THY VII
DK-V1 DET XIV TG1B-V TRI THY VII DL-S1 MIX TG1-01/03 TRI THY VII 884S F-l PHO XVI TG1-01/13 TET THY VII 2050S 7843-55 FD-1 PHC XV TG1-02/05 TET THY VII FOK-1 PHC XV TG1-05/12 TRI THY VII
FEU-1 PHM XVI TG1-1.0/0.8 TET THY VII FEU-IB PHM XVI TG1-1.5/2 TRI THY VII FEU-1B1V PHM XVI TG1-1.6/1.3 TRI THY VII FEU-1B2V PHM XVI TG1-2.5/3 TRI THY TGl-2.5/4*+ FEU-IS PHM XVI TG1-2.5/4 TRI THY VII TG8/3. TGl-2.5/3»+ 7952-56
FEU-1V PHM XVI TG1-2.5/10 TRI THY VII FS-A1 PHC XV TG1-3.2/1.3 TRI THY VII FS-D1 PHC XV TG1-5/3 TRI THY VII FS-K1 PHC XV TG1-6.4/1.3 TRI THY VII FT-1 PHC XV TG1-12.5/1.3 TRI THY VII
FTG-1 PHC XV TG1-25/10 TRI THY GE-1 TET SIN III GKE-100* TG1-125/1 TRI THY GR1-0.25/1.5 DWD SIN IV TGI-0.1/0.3 TRI THY GG-1 0.3/8 DIO SIN IV TGI-1B TRI THY VII GG1-0.5/5 DIO SIN IV VG1. 5/5000+ TGI-1-3/1 TET THY VII
GG-1-0.5/20 DIO SIN IV TGI-1-10/1 TRI THY VII GG-1-1/22 DIO SIN IV TGI-1-35/3 TRI THY VII GG-1-2/5 DIO SIN IV TGI-1-50/5 TRI THY VII GG-1-2/16 DIO SIN IV TGI-1-90/8 TRI THY VII MTI-4»+ GG-1. 5/15 DIO SIN GG1-0.5/5* TGI-1-130/8 TRI THY VII
GK1A TRI SIN III TGI-1-130/10 TRI THY VII GM1A TRI SIN III TGI-1-325/16 TRI THY VII MTI-5+. TGI-325/16+ GMI-1B TRI SIN III TGI-1-400/3.5TRI THY VII GR1-02/15 DIO SIN IV TGI-1-400/16 TRI THY VII GR-1-0.3/8.5 DIO SIN IV TGI-1-700/25 TRI THY VII
GR-1-25/15 DWD SIN IV TKH1 TRI THY VII GS-1B TRI SIN III TKH1B TRI THY VII GUZH-1 PND SIN G411 + TM-1 TRI SIN 6S5D+. 2C40S 1-1-70/0.8 TRI IGN IV TO-1 PND SIN 10ZH12S+ 1-1-100/1.5 TRI IGN IV TR1-5/2 TRI THY VII VT-3 7954-56
1-1-140/0.8 TRI IGN IV TR1-6/15 TRI THY VII 7955-56 1-1-350/0. 8TRI IGN IV TR1-15/1S TRI THY VII KF-1 TET TWN GU-29+. 829BS TR1-40/15 TRI THY VII 7956-56 KMT-1 TMS XIX TR1-85/15 TRI THY VII KZH1 *PND SIN G411» TR1-130/15 TRI THY VII
8 GROUP I , NUMERICAL GROUP I .NUMERICAL
TABLE COST SPEC. TA8LE COST SPEC. TYPE NUMBER KIIID TYPE SIMILAR TYPES TYPE NUMBER (mo type SIMILAR TYPES 10. DO. NO. • 0.
TSG-l PHO XVI D2B •REC XI DG-TS10»+ TSV-1 PHO XVI D2D «REC XI DG-TS2*+ TVB-1 THM xvnr D2G •REC XI DG-TS1»+ Vl-00313 DIO SIN IV V13/30+ D2I REC GEP XI Vl-02/20 DIO SIN IV D2K REC XI DG-TS6*+
Vl-03/13 010 SIN IV D2M REC XI DG-TS7«+ Vl-05/70 DIO SIN IV D2N REC XI DG-TS15«+ Vl-06/30 DIO SIN IV D2P REC XI DG-TS16** Vl-1/2.5 DIO SIN IV D2R REC XI Vl-1/30 DIO SIN IV D2V •REC XI DG-TS8+
Vl-1/40 DIO SIN IV D2YE •REC XI DG-TS*»* Vl-2/40 DIO SIN IV D2ZH •REC XI DG-TS5«+ Vl-3/16 DIO SIN IV DG-S2 MIX XIV Vl-3/70 DIO SIN IV DG-TS2 REC XI D2D+ Vl-4/40 DIO SIN IV DI-2-10 •DIO SIN 2D1S+
Vl-15/55 DIO SIN IV DK-I2 MIX XIV VD1 DIO SIN V1-1/40+ DK-S2 MIX XIV VOI-10 DIO SIN VI-1-100/50+ DK-V2 DET XIV VG1/8500 DIO SIN IV DL.-S2 MIX VG1. 5/5000 DIO SIN IV 6G2-0.5/5+ DSH2-10 •DIO SIN 2D2S*
VI-1-5/20 DIO SIN IV F-2 PHO XVI VI-1-5/30 DIO SIN IV FD-2 PHC XV VI-1-18/32 DIO SIN IV FEU-2 PHM XVI VI-1-27/35 DIO SIN IV FEU-2B PHM XVI VI-1-30/25 DIO SIN IV FEU-2B1V PHM XVI
VI-1-70/32 DIO SIN IV FEU-2M PHM XVI VI-1-100/50 DIO SIN IV FEU-2V PHM XVI VO-1 DIO SIN IV FS-B2 PHC XV VSTS-1 PHO XVI F-3+ FSHC2 PHC XV VT-1 TRI THY TG-2.5/5+ FS-2A PHC XV
1A1P PTG SIN II 1R5*. DK91. DK192 GE-2 TET SIN III GKE-150" 1A2P PTG SIN II DK96». 1R5S 6MI-2B TET SIN III 1B1P PND DIO II 1S5*« DAF91». DAF191 8006-56 GS-2B TRI SIN lit 1B2P PND DIO II DAF96-. 1S5S GU-2 BEA SIN II 1B5-9 BAL SIN VI GUZH-2 BEA SIN G807*. 807$
1B10-17 BAL SIN VI GZH2 •PND SIN G413+ 1E1P TET SIN II 1-2-50/1.5 TRI IGN IV 1E3P • TRI SIN II EM-4+ KF-2 BEA TWN GU-32+. 832-A* 1I2P PND TRI II KS-2 TRI SIN GU-4+ 1K1P PND SIN II 1T4S. DF91* 7707-55 KZH-2 BEA SIN G-807+. 807*
1K2P PND SIN II DF96-. 1T4S MTI-2 TRI THY TGI -2 00+ INI « TRI TWN 1N3S- 0G-2 DEC XXIII 1N3S TRI TWN II 1N1+. 1G6-GT* P2A X 1P2B PND SIN II CK507AX P2B X 0C821« 1P3B PND SIN II PT-2 TRI THY TG-213*
1P4B PND SIN II R-2 xxn ' 1P5B PND SIN II RB-2 XXII 1P22B PND SIN II S2A X 1P24B PND SIN II S2B X 1P32P PND SIN II S2G X
1S12P TRI SIN II DC 96- S2V X 1TS1 • DIO SIN 1TS1S+. 1VD1+ SG2P DIO SIN V 0B2S 1TS1S DIO SIN II 1TS1+. 1VD1 + SG2S DIO SIN V 0A3* 1TS7S DIO SIN II DY30=. 1B3/8016* 8359-57 SI-2B COU XXI 1TS11P DIO SIN II SI-2BG COU XXI
1TS21P DIO SIN II ST2S BAL TWN VI 1V3/8016 »DIO SIN 1TS7S+, 1B3/8016* STS-2 COU XXI 1VD1 »DI0 SIN 1TS1, 1TS1S+ STSV-2A PHO XVI F-2 + 1V02 * DIO SIN 1TS7S+. 1B3/8016* TG2-01/01 TRI THY VII 1ZH1ZH PUD SIN II TG2-0.5/12 TRI THY VII
12H2 »PND SIN 1ZH2M+ TG-2.5/5 TRI THY VII VT-1 THY 1ZH2M PND SIN II 1ZH2* TGI-2-260/12 TRI VII 12H17B PND SIN II TGI-2-32516 TRI THY VII 1ZH18B PND SIN II TGI-2-40035 TRI THY VII 1ZH24B PND SIN II TKH-2 TRI THY VII
1ZH29B PND SIN II TO-2 PND SIN 10P12S+ 12H30B PND SIN II TV-2 THM XVIII 1ZH36B PND SIN II TVB-2 THM XVII I AS-2 COU XXI VD2 DIO SIN V1-2/40+ D2A »REC XI DG-TS9»+ VI-2-27/35 DIO SIN IV GROUP I, NUMERICAL GROUP I .NUMERICAL
TABLE COST SPEC. TABLE COST SPEC. TYPE NUMBER SIMILAR TYPES TYPE NUMBER KIND TYPE SIMILAR TYPES HO. HO. no. 10.
VI-2-70/32 DIO SIM IV D3B DET XIV VI-2-100/50 DIO SIN IV DG-S3 MIX XIV 2A1 PTG SIN II S02*2«+ 2A1M DG-TS3 REC XI 2A1M *PT6 SIN 50242*+ DK-S3 MIX XIV 2A3 TRI SIN 2S4S+» 2A3S DK-V3 DET XIV
2D1L DWD SIN II DL-S3 MIX 2D1S DIO SIN II DI-2-10+ EM-3 TET SIN II 2D2S DIO SIN II DSH2-10+ F-3 PHO XVI 2D3B DIO SIN II FD-3 PHC XV 2D3S DIO SIN II FEU-3B PHM XVI
2D7S DIO SIN II FEU-3M PHM XVI 2D9S DIO SIN II FEU-R3 PHM XVI 2D21 TET THY TG3-0.1/1.3+. 2D21* FS-3A PHC XV 2E1 *TET SIN II FS-<3 PHC XV 2E2 *TET SIN II UB155+ 61-3 TRI SIN III 2C26AS
2E2P TET TWN II GI-3/100 TRI SIN GI-3+ 2F2M TRI SIN GK3A TRI SIN III TET SIN III 2J55 MAG IX GMI-3 GS-3B TET SIN III 2K1 pnd II 2K1M+ GU-3 BEA SIN II 2K1M PND SIN II 2K1»» SB2M» GUZH-3 BEA SIN G1625+. 1625S 2K2 PND SIN 2K2M* KF-3 BEA SIN GU-13+. 813S 2K2»t 2K2M PND SIN II S02*l» XZH-3 BEA SIN G-1625+. 1625* 2KH1 •DWD SIN 2KH1L+ LI-3 IC VIII 2KH1L DWD SIN II 2KH1* 2KH2 DIO SIN 2VD8A+, 2TS2S+. 2X2S LIM-3 LAM XXIII MS3 •TRI SIN GM57+, UB180=. MA57+ 2N1 TRI DUO II SB2*3t S0243. 2N1H* XXIII 2N1M •TRI DUO 2N1+. SB2*3+» S0243+ OG-3 DEC P3A X 2P1 BEA SIN II SB2*4+t S0244+ 2P1M •BEA SIN 2P1P+. SB2A4 P3B X P3V X 2PIP BEA SIN II DL94»t 2P1M 8005-56 PIM-3 VIII 2P2 •BEA SIN II IC TRI THY TG-235^+ 2P2P BEA SIN II DL96«t 3S4* PT-3 XXII 2P3 BEA SIN II SB258+. S0258+. 2P2M+ R-3 XXII 2P5B PND SIN II RB-3 S3A X 2P9 •BEA SIN 2P9M+ t 2P9S S3B X 2P9M •BEA SIN II 2P9+t 2P9S. 6AK7 S3D X 2P9S BEA SIN 2P9M+. 2P9 S3G X 2P19B PND SIN II S3V X 2P21S BEA SIN S3YE X 2P29 •PND SIN 2P29L+ SBT-3 COU XXI 2P29L PND SIN II SG3P REG V 2P29P PND SIN II SG3S DIO SIN V 0C3* 2S1 TRI SIN II UB152+ SI-3B COU XXI 2S2 TRI SIN II UB2A0+ SNM-3 COU XXI 2S3 TRI SIN 2S»S+t 2A3S ST3P DIO VI 2S3A TRI SIN SIN 2S3M. •TRI SIN 2S2+ STS-3 COU XXI 2S*S TRI SIN II 2A3* STSV-3 PHO XVI 2S14B TRI SIN II TG3-01/13 TET THY VII 2D21* 2S22 TRI SIN 6S8S+. 2C22$ TG3-2.5/10 TRI THY VII
2TM-20 TRI SIN III TKH3B TET THY VII 2TM-100 TRI TWN III TO-3 PND SIN 7ZH12S+ 2TS2S DIO SIN II 2X2* 8527-57 TSG-3 PHO XVI 2V6 DIO ARC IV TSV-3 PHO XVI 2V12 DIO ARC IV TVB-3 THM XVIII
2V20 DIO ARC IV VDI-3D DIO SIN VI-1-30/25+ 2VD8 DIO SIN II VT-3 TRI THY TRl-5/2^+ 2VN12 DIO ARC IV 3A*S PND SIN II 2VN20 DIO ARC IV 3BAS BEA SIN II 2ZH1M •PND SIN II SB245+ 3E29 BEA TWN GI-30+t 3E29*
2ZH2B PND SIN 3J21 MAG IX 22H2M PND SIN II 3L01-I VIII 2ZH* PND SIN II S0257+ 3S1 TRI SIN II T0-1M + 2ZH14B PND SIN II 3S2 TRI SIN II T0-1A2+ 2ZH15B PND SIN II 3S9 TRI SIN II
2ZH27 •PND SIN 2ZH27L+ 3TS16S DIO II 2ZH27L PND SIN II 2ZM27+ 3TS18P DIO SIN 2ZH27P PND SIN II 3V30 DIO ARC IV 2ZH28L PND SIN II 3VN30 DIO ARC IV D3A DET XI\ 3VN60 DIO ARC IV
10 I I 1
GROUP I .NUMERICAL GROUP I .NUMERICAL
TABLE COST SPEC. TABLE COST SPEC. TYPE NUMBER KIND TYPE SIMILAR TYPES TYPE NUMBER KIND TYPE SIMILAR TYPES NO. NO. NO. •0.
3VN100 DIO ARC IV 4S2 TRI SIN II UB110+ 3VP1 *0S 8L029+. 3BP1AS 4S3 TRI SIN II D6-S4 MIX XIV 4S3S TRI SIN II DG-TS4 REC XI D2YE»+ 4S4 »TRI SIN II DK-S4 MIX XIV 4S5 TRI SIN II SO-185+ DK-V4 DET XtV 4TS1M »DIO SIN 4TS6S+ DL-S4 MIX 4TS6S DIO SIN II EM-4 TRI SIN II 1E3P+ 4TS14S DIO SIN II F-4 PHO XVI 4VD1 DIO SIN II FS-A4 PHC XV 4VKH1 »DIO TWN I I V0-188»+
FS-K4 PHC XV 4VKH2 *DIO SIN II V0-188»+ GI-4A TRI SIN III 4ZH1L PND SIN II GKV-4 TRI SIN GU-4+ 4ZH1P PND SIN II GMI-4B TET SIN III 4ZH4 PND SIN S0124+ GS-4 TRI SIN III 4ZH5 »TET SIN II 4ZH5S+
GS-4 COU XXI 4ZH5S PND SIN II GS-4B TRI SIN G431A+ DG-TS5 REC XI D2ZH»+ GS4D TRI SIN III DK-S5 MIX GU4 TRI SIN III DK-V5 DET XIV GU4A TRI SIN III F-5 PHO XVI
KMT-4 TMS XIX FEU-R5 PHM XVI •CS-4 TRI SIN GU-150+ FS-K5 PHC XV LIM-4 LAM XXIII G-5 TRI SIN M39+ LP-4 COM VII G-5A TRI SIN GU5A+ MMT-4 TMS XIX G-5RA TRI SIN GU-5B+
MS-4 COU XXI GI-5B TRI SIN III MSTR-4 COU XXI GK5A TRI SIN III MTI-4 TRI THY TGI-1-90/8+ GMI-5 TET SIN III P4 X 2N68S GS-SB TRI SIN G433A+ P4A X GU5A TRI SIN III
P4B X GU5B TRI SIN III P4D X GUO-5 TRI SIN G120+ P4G X LP-5 COM VII P4L X MTI-5 »TRI THY TGI-1-32516+ P4V X OG-5 DEC XXI 1
PIM-4 IC VIII P5A X R-4 XXII P5B X 2N107S S4A X P5D X CK727S S4B X P5G X 2N65S S4G X P5V X
S4V X P5YE X SBS-4 COU XXI R-5 XXII SG4S DIO SIN V 0D3S RB-5 XXII SI-4G COU XXI RB-5A XXII STSV-4 PHO XVI SBS-5 COU XXI
TGI-4 TRI THY TGI-1-130/10+ SG5B DIO SIN V TKH-4B TET THY VII SG5B-V REG V TO-4 PND SIN 7P12S+ SGS-5 COU XXI TSG-4 PHO XVI SNM-5 COU XXI TSV-4 PHO XVI STS-5 COU XX
TV-4 THM XVIII TKH-5A TRI THY VII TVB-4 THM XVIII TV-5 THM XVIII VDI-4D OIO SIN VI-1-70/32+ TVB-5 THM XVIII VS-4 COU XX UV-5 TWT IX 4D2 *DIO SIN 4TS6S+ VG-5 POW XII
4D5S •DIO SIN II 5L01B »0S 5L038+t 2AP1S 4E1 TET SIN II 5L038I OS VIII 2AP1S 4E2 •TET SIN II 5SR1 »0S 5CP1AS 4E3 •TET SIN II 5SR7 »0S 5CP7AS 4F6S BEA SIN II 5TS3S DwD SIN II 5U4GS 8360-57
4J26-30 MAG IX 5TS4 DIO DUO 5TS4S+, 5Z4G* 4J45 MAG IX 5TS4M DIO DUO II 4J50 MAG IX 5TS4S DIO DUO II 5Z4S 8079-56 4N1 TRI DUO II SB259+1 S0259+ 5TS8S DWD SIN II 8361-57 4P1 •PND SIN II 5TS9S DWD SIN II 1502 + 8362-57
4P1L PND SIN II 5TS9SE DWD SIN II 4P2 PND SIN 5TS12P DIO SIN II 4P6L PND SIN 5VKH1 « DWD SIN 5Z4G$
4P10S PND SIN II 5VKH2 »DWD SIN I 5U4G* 4S1 TRI SIN II UB107+ 5VKH3 « DWD SIN II 5Y3GS
11 1
GROUP I , NUMERICAL GROUP I, NUMERICAL
TABLE COST SPEC. TABLE COST SPEC TYPE NUMBER KINO TYPE SIMILAR TYPES TYPE NUMBER KIIID TTPE SIMILAR TYPES HO. no. 10. 10.
D6 REG XIII 6F6S PND SIN II 6F6-GTS 0G-TS6 REC XI D2K+ 6F7 PND TRI II DK-V6 DET XIV 6G1 TRI DWD II 6SR7S F-6 PHO XVI 6G2 TRI DWD II 6S07S 8370-57 FS-A6 PHC XV 6G2P-K TRI DWD II
FS-D6 PHC XV 6G2S * TRI DWD 6SQ7G* FS-K6 PHC XV 6G3P TRI TRD II 6T8* G1-6B TRI SIN III 6G3S * TRI DWD GK6A TRI SIN III 6G7 TRI DWD II 607= GMI-6 BEA TWN III 6I1P PTG TRI II ECH81=. 6AJ8S
GS6 TRI SIN III 6I14P PTG TRI II ECH81=.6I1P+ GS-6 cou XXI 6K1B PND SIN II 5702* LD-6 TRI SIN GI-6B+ 6IC1L PND SIN II LI-6 IC VIII 6K1P PND SIN II 9003* MMT-6 TMS XIX 6K1ZH PND SIN II 956*
MS-6 COU XXI 6K2P »PND SIN 6K4P + P6A X 6PC3 PND SIN II 6SK7* 8084-56 P6B X OC821= 6K4 PND SIN II 6SG7* 8083-56 P6D X OC812* 6K4P PND SIN II EF93=, 6BA6* 8352-57 P6G X 6K4P-E DWD SIN 6K4P
P6V X 0C814* 6K6A PND SIN II R6 XXII 6K7 PND SIN II 6PC7S*. 6K7G*. 6K9S-1 SGS-6 COU XXI 6K7S »PND SIN 6K9S+, 6K7GS. 6IC7 STS-6 COU XXI 6K9S PND SIN II 6K7G*. 6SK7* STSV-6 PHO XVI F-4 + 6X.11B-K PND SIN II 6K1B+
TSV-6 PHO XVI F-5 + 6K12 PND SIN 6SG7 TVB-6 THM XVI! I 6K13P PND SIN II UV-6 TWT IX 6K15B »PND SIN 6AB7* VS-6 COU XXI 6K17B »PND SIN 6SK7* 6A1B *PTG SIN 6SA7* 6K19B *PND SIN 9003*
6A2P PTG SIN II 6BE6S, EK90= 8354-57 6K19P »PND SIN 6K1P+. 9003* 6A3P » GTB SIN II 6BN6S 6KH1ZH •DIO SIN 6D4ZH+, 9004* 6A5B * PTG SIN 6L7S 6KH2P DIO TWN II EAA91=, 6AL5* 6A6A • DIO 6KH2P-E DIO TWN 6KH2P,E7099* 6A7 PTG SIN II 6SA7S 8086-56 6KH4P DWD SIN 6TS4P+
6AS PTG SIN II 6A8B+. 6A8S 8367-57 6KH5 DWD SIN 6VKH1+, 6X5GT* 6A8B *PTG SIN 6A8S 6KH5S DWD SIN 6VKH1+, 6X5GT* 6A8M »PTG SIN 6A8S»+ 6K.H6 DIO TWN 6KH6B+, 6H6* 6A10S PTG SIN II 6SA7* 8087-56 6KH6B DIO TWN II 6H6-G* 6A15B * PTG SIN 6SA7* 6KH6M DIO TWN 6K.H6S+. 6H6G*
6AG7 » BEA SIN 6P9+« 6AG7S 6KH6S DIO TWN II 6H6-G* 8080-56 6AZH5 • PNO SIN 6AG5* EF96= 6KH7B DIO TWN II 6B1P PND DIO II 6L7 PTG SIN II 6L7* 6B2P PND DIO II L10O»+ 6LIC1B TV VIII 6B4 * TRI SIN 6A3S 6N1P TRI TWN II 6BK7*
6B8 » PND DWD 6B8S. 6B8G*. 6B8M* 6N1P-E TRI TWN 6N1P.E7100+ 6B8M • PNO DWD 6B8S+. 6B8G* 6N2P TRI TWN II ECC83=, 6AX7* 8356-57 6B8S PND DWD II 6B8GSt 6B8M* 8369-57 6N2P-E TRI TWN 6N2P.E7101+ 6BKH1 * DIO DUO 6KH5S+ 6N3P TRI TWN II ECH42=, 2C51* 8357-57 601A DIO SIN 6D6A*. 5704* 6N3P-E TRI TWN 6N3P.E7102+
6D1ZH » DIO SIN 6D4ZH*. 9004* 6N4P TRI TWN II 12AY7S 6D3D DIO SIN II 559* 6N5P TRI TWN II 6D4ZH DIO SIN II 9004* 6N5S TRI TWN II 6AS7G* 606A DIO SIN II 5704*,»6D1A+ 6N6 DIO TWN 6KH6B+, 6H6* TRI 608D DIO SIN 1 6N6P TWN II
6D10D DIO II 6N7 TRI TWN II 6N7S, 6N7S+ 6D13D DIO SIN II 6N7S TRI TWN II 6N7-GT* 8374-57 6D14P DIO SIN II 6N8 TRI TWN 6N8S+. 6SN7GT* 6D20P DIO SIN II 6N8M TRI TWN 6N8S+. 6SN7GTS 6E5P TET SIN II 6N8S TRI TWN II 6SN7-GT*
6E6P BEA SIN 6N9 TRI TWN 6N9S+. 6SL7GT* 6E6P-YE BEA SIN II E7119+ 6N9M TRI TWN 6N9S+. 6SL7GT* 6F1P PND TRI II EF80=,6U8* 6N9S TRI TWN II 6SL7GT* 6F3P TRI PND II 6N10 TRI TWN 6N10S+t 6SC7GT* 6F4P PND TRI II 6N10M TRI TWN 6N10S+. 6SC7GT*
6F5 TRI SIN 6S4B+, 6F5S 6N10S TRI TWN II 6SC7GT* 6F5B TRI SIN 6S4B+, 6F5* 6NH TRI TWN 6N5S+. 6AS7G* 6F5M »TRI II 6F5GTS, 6S4 + 8372-57 6N12S TRI TWN II 6DN7* 6F5P TRI PND II 6N13S TRI TWN II 6080* 8378-57 6F6 PND SIN 6P6B+, 6F6$ 6N14P TRI TWN II ECC84=. 6BX8*
12 GROUP I .NUMERICAL GROUP I , NUMERICAL
COST SPEC, TABLE COST SPEC. TABLE TYPE KINO TYPE SIMILAR TYPES KIND TYPE SIMILAR TYPES NUMBER NO. NO. TYPE NUMBER NO. NO.
6N15 « TRI TWN II 6J6*. 6N15P+ 6S20S TRI SIN II 6N15P TRI TWN II 6J6*. ECC91= 6S21D »TRI SIN II 6N16B TRI TWN II 6S25B TRI SIN II 6N17B TRI TWN II 6S26B TRI SIN II 6S6B+ 6N18B TRI TWN II 6S27B TRI SIN II 6S7B +
6N19P TTR OWO II 6S28B TRI SIN II 6N23P TRI TWN II 6S29B TRI SIN II 6N24P TRI DUO II 6S30B TRI SIN II 6P1P BEA SIN II El_90=t 6AQ5S 8358-57 6S33S TRI SIN II 6P2 SEA SIN 6P6S+. 6V6GTS 6S34A-V TRI SIN II
6P2P PNO SIN II 6S35A-V TRI SIN II 6P3 BEA SIN 6P3S+. 6L6GS 6S36K TRI SIN II 6P3B BEA SIN 6P3S+. 6L6G* 6S37B TRI SIN II 6P3S BEA SIN II 6L6GS 8376-57 6S39S TRI SIN II 6P3S-YE BEA SIN 6P3S.E7121+ 6SK7 PND TRI II
6P4 *PND SIN II 6G6G* 6TS4P DWD SIN II 6X4* 6P6 BEA SIN 6P6S+. 6V6GTS 6TS4S DIO SIN II 8347-57 6P6B »PND SIN II 6F6* 6TS5S DWD SIN II 6X5GT* 8528-57 6P6P « BEA SIN 6TS10P DIO SIN II 6B3* 6P6S BEA SIN II 6V6-GT* 8375-57 6TS13P DIO SIN II
6P7 * BEA SIN 6P7S*+t 6BG6GA* 6TS15S DIO TWN II 6P7S BEA SIN II 6P7*+» 6BG6GA* 6TS17S DIO SIN II 6P8P TRI SIN 6S1P+. 9002* 6V1P PtiO SIN II 6P8S #PND SIN I 6G6G* 6VKH1 DWD SIN II 6P9 BEA SIN II 6AG7S 8377-57 6YE1P TRI SIN II EM80=. 6BR5S
6P9E BEA SIN II 6YE5 *TRI SIN 6YE5S+ 6P13S BEA SIN II 6YE5S TRI SIN II 6YE5* 8379-57 6P14P BEA SIN II El_8<*=. 6BQ5S 6ZH1B PND SIN II 5702* 6P1SP BEA SIN II 6ZH1L PND SIN II 6P17S BEA SIN II 6ZH1P PND SIN II 6A(C5*.EF95=
6P18P BEA SIN II EL82= 6ZH1P-E PND SIN 6ZH1P.E7112+ 6P20S »BEA SIN II 6ZH1ZH PND SIN I I 954* 6P21S »BEA SIN II 6ZH2B PND SIN II 5784* t 5639* 6P25B PND SIN II 6ZH2M PND SIN II 1851* 6P31S BEA SIN II 6ZH2P PND SIN 6ZH2P-Ei E7113+
6P36S BEA SIN II 6ZH2P-E PND SIN 6ZH2P.E7113+ 6R1B TRI DWD 6G1+. 6SR7* 6ZH3 PND SIN II 6SH7* 8085-56 6R7 TRI DWD 6G7+t 607* 6ZH3M »PND SIN II 6AB7/1853* 6R7B TRI DWD 6G7+, 607$ 6ZH3P PND SIN II 6AG5*. EF96^ 8350-57 6R17B TRI DWD 6G2+» 6SQ7* 6ZH4 PND SIN II 6AC7* 8364-57
6S1B TRI SIN 6S6B+, 5703* 6ZH4B »Pf(D SIN 6AG7* 6S1P TRI SIN II 9002* 6ZH4E PND SIN II 6S1ZH TRI SIN II 4671* f 955S 6ZH4P PND SIN II 6AU6*. EF94= 6S2 TRI SIN 6J5-GT* 6ZH5 *TRI SIN 6J5* 6S2B TRI SIN II 6S7B+. 5744* 6ZH5A »PND SIN II
6S2P TRI SIN II 6J4* 8353-57 6ZH5B PND SIN II 6S2S TRI SIN II 6J5-GT* 8081-56 6ZH5P BEA SIN II 6AH6* 8351-57 6S3B TRI SIN II 6K4A* 6ZH6M »PND SIN 6J7* 6S3P TRI SIN II 6ZH6P »PND SIN 6J7* 6S4 »TRI SIN 6F5* 6ZH6S PND SIN II Z62 =
6S4B TRI SIN II 6F5S 6ZH7 PND SIN II 6J7 8365-57 6S4P TRI SIN II 6ZH7B »PND SIN 6W7GS 6S4S TRI SIN II 6B4-G* 8373-57 6ZH8 PND SIN II 6SJ7* 8366-57 6S5 TRI SIN II 6S5S+. 6C5GT* 6ZH8S PND SIN II 6S5B TRI SIN 6C5-GT* 6ZH9B PND SIN II
6S5D TRI SIN II TM1*+, 2C40* 6ZH9P PND SIN II 6S5S TRI SIN II 6C5-GT* 8368-57 6ZH9P-E PND SIN 6ZH9P.E7114+ 6S6B TRI SIN II 5703* 6ZH10B PND SIN II 6S7B TRI SIN II 5744* 6ZH10P PND SIN II 6S8P TRI SIN 6SlP+t 9002* 6ZH11B *PND SIN 6SH7*
6S8S TRI SIN II 2C22* 6ZH11P PND SIN II 6B05* 6S9D TRI SIN II 6ZH11P-EPND SIN 6ZH11P+. E7115+ 6S10D TRI SIN II 6ZH12B »PND SIN 6SG7* 6S110 TRI SIN II 6ZH13 PND SIN 6ZH13L+ 6S13D TRI SIN II 6ZH13L PND SIN II 6ZH13
6S15P TRI SIN II 6ZH20P BEA DIO II 6S16D TRI SIN II 6ZH21P BEA DIO II 6S17K TRI SIN II 6ZH22P DIO BEA II II 6S18S TRI SIN 6ZH23P PNO DBA I I 6S19P TRI SIN II 6ZH31BK PND SIN II EFQ5-
13 NUMERICAL GROUP NUMERICAL GROUP I , I ,
TABLE COST SPEC. TABLE COST SPEC. TYPE NUMBER KIND TYPE SIMILAR TYPES TYPE NUMBER KINO TYPE SIMILAR TYPES HO. NO. NO. NO.
6ZH32P PUD SIN II TVB-8 THM XVIII 6ZH33A PUD SIN II VS-8 COU XXI 6ZH33AV PND SIN II 8LM3V OS VIII 6ZH35BV PND SIN II 8L02B OS 8L029+1 3BP1AS D7 REG XIII 8L029I OS VIII 3BP1S
07A REC XI DG-TS21»+ 8L029M OS VIII D7B REC XI DG-TS22»+ 8LO30I OS VIII 3DP1S D70 REC XI OG-TS25*+ 8LO30M OS VIII D7G REC XI DG-TS2*»+ 8L039V OS VIII 3JP7S D7V REC XI OG-TS23*+ D9A REC XI
D7YE REC XI D9B REC XI D7ZH REC XI DG-TS27*+ 09D REC XI DG-TS7 REC XI D2M+ 09G REC XI DK-S7 MIX XIV 091 REC XI 0K-V7 DET XIV D9K REC XI
EM-7 TRI SIN II D9L REC XI FS-K7 PHC XV D9M GEP XI 6I-7B TRI SIN III 09V REC XI GMI-7 TET SIN III 09YE REC XI 6S-7 COO XXI 09ZH REC XI
GS-7 TRI SIN GK-3000+ 0G-TS9 REC XI D2A+ GS-7A TRI SIN III G-9 TRI SIN GU65+ GS-7B TRI SIN III GS-9 COU XXI KS-7 TRI SIN G-811+. 811-A* GS9B TRI SIN III LD-7 TRI SIN 6I-7B+ LD-9 TRI SIN GS-9B+
LI-7 IC VIII MMT-9 TMS XIX MS-7 COU XXI MS-9 COU xxi P7 X P9 X 2N35* R-7 XXII P9A X SAT-7 COU XXI R-9 XXII
SBM-7 COU XXI S69S DIO SIN V SBT-7 COU XXI SNM-9 COU XXI SG7S 010 SIN V STSV-9 PHO XVI F-1 + SNW-7 COU XXI T9 TMS XIX TVB-7 THM XVIII TVB-9 THM XVIII
UV-7 TWT IX VS-9 COU XXI 7L01M OS VIII 010 REC XI 7L055I OS VIII 3MP1S 010A REC XI 7P12S PUD SIN It D10B REC XI 7ZH12S PND SIN II 328AS DGTS10 REC XI D2B+
08 REG XIII G10 TRI SIN III OG-TS8 REC XI D2V+ G-10A TRI SIN GU-10A* F-8 PHO XVI G-10RA TRI SIN GU-10B* GI-8 PHD SIN III GKO-10 TRI SIN 6K-20O0+ FS-K8 PHC XV GS-10 COU XXI
GS-8 COU XXI GT-10 TRI SIN G*6+ GU8 TRI SIN III 7711-55 GU10A TRI SIN III KMT-8 TMS XIX GU10B TRI SIN III MMT-8 TMS XIX ISK10 XX MS-8 COU XXI ISP10 xx
P8 X IST10 XX P8A X KMT-10 TMS xix R-8 XXII MO-10 TRI SIN III SAT-8 COU XXI P10 X 2R35S SBM-g COU XXI P10A GAP X
SBT-8 COU XXI P10B GAP X SG8S DIO SIN V R-10 XXII SNM-8 COU XXI SBT-10 COU XXI STS-8 COU XXI SG10S REG V T8D TMS XIX TO-10 PND SIN 10P12S
T8E TMS XIX VG-10 POW XII T8M TBS XIX VG-10-30 POW XII T8R TMS XIX VG-10-45 POW XII T8S1 TMS XIX VG-10-55 POW XII T8S1M TMS XIX VG-10-80 POW XII
T8S2 TMS XIX VG-10-110 POW XII T8S2M TMS XIX VG-10-150 POW XII T8S3 TMS XIX VK-10 POW XII T8S3M TMS XIX VICU-10-0.25 SCR SI* XII-A TG8/3 TRI THY TG1-2.5/4+ VKU-10-0.5 SCR SI* XII-A
14 NUMERICAL GROUP I, NUMERICAL GROUP I ,
TABLE COST SPEC. TABLE COST SPEC. TYPE NUMBER HID TTPE SIMILAR TYPES TYPE NUMBER MHO TYPE SIMILAR TYPES 0. 0. 10. 10.
VKW-10-0.75 SCR SI* XII-A 12ZH8B »PND SIN 12SJ7S VKU-10-1.0 SCR SI* XII-A 12ZH17B M>ND SIN 12SJ7S VKU-10-1.5 SCR SI* XII-A D13 REC XI VKU-10-2.0 SCR SI* XII-A DGTS13 REC XI VKU-10-2,5 SCR SI* XII-A FEU-13 PHM XVI
VKU-10-3.0 SCR SI* XII-A G-13 TRI SIN III 10LK2B PR VIII GI-13 TRI SIN III 10LO*3I 00 VIII GI-13B TRI SIN III 10P12S PND SIN II GM13 TET SIN III 10ZH1L PND SIN II 10ZH3L+ GU13 BEA SIN III 813*
102H3L PND SIN II 10ZH1L+ LI-13 IM VIII •10ZH3P PND SIN MS-13 COU XXI 10ZHI2S PND SIN II 310AS P13 X 2N*3* Dll REC XI P13A X 2N3*S FEU-11 PHN XVI P13B X
61-118 TRI SIN III SG13P DIO SIN V GS-11 COU XXI ' V13/30 DIO SIN IV V1-003/13+ GU11A TRI SIN III VS-13 COU XXI GU11B TRI SIN III 13LK1B TV VIII 5FP** KMT-11 TMS XIX 13LK2B TV VIII
LD11 TRI SIN GI-11B+ 13LM*V OS VIII MS-11 COU XXI 13LN31N OS VIII 5FP7* Pll X 2N9*S 13LM31V OS VIII P11A GAP X 13LN56I OS VIII 5FP1S R-ll XXII 13LN57 OS VIII 5FP7S
VS-11 COO XXI 13LN57D OS VIII D12 REC XI 13LM58K OS VIII D12A REC XI 13L01B » VIII DGTS12 REC XI 13L02B VIII 5CP1-A»* FEU-12 PHM XVI 13L03I OS VIII
GI-12B TRI SIN III 131.0*1 OS VIII GS-12 - COU XXI 13L05P VIII 5CP7-AS GU12A TRI SIN III 880* 13L06P t VIII 5FP7-AJ KNT-12 TMS XIX 13L036 OS VIII 5FP7S. L0736+ LDr2 TRI SIN 6I-12BS 13L036V OS VIII
NMT-I2 TMS XIX 13L037A OS VIII MS-12 COU XXI 13L037I OS VIII 5CP1*. L0737+ OS12/500 •PND SIN G837» 13L037N OS VIII P12 X 13L04BA OD VIII 1.07*8 + P12A GAP X 13L048I OD VIII 5SP1S
R-12 XXII 13L04BM OD VIII 12B1M PND DHO II 13LOS*A OS VIII L075* 12B2M PND DND II 13L05*W OS VIII 12G1 TRI DWD II 12SR7S 13L054V OS VIII 12G2 TRI DWD II 12S07» 13L0101N VIII
12K1M PUD SIN II 13L0102N VIII 12X3 PND SIN II 12SK7S 13L010*A TV viii 12K* PND SIN II 12SG7S 13P1 »BEA SIN 13P1M+. 13P1S+ 12K12B •PND SIN 12SG7* 13P1N BEA SIN 13Pl+t 13P1S+ I2K17B •PND SIN 12SK7S 13P1S BEA SIN II 13P1+. 13P1M+
I2KH3S DWD SIN II LG1 Dl* REC XI 12H1K PND TRI II D1*A REC XI 12N1 TRI TWN 12RllS+» 12AH7GTS D6TS1* REC XI 12N4P TRI TWN II I2AY7* FEU-1* PHN XVI 12N10 TRI TWN 12N10S+t 12SC7GT* GI-14B TRI SIN III
12H10M TRI TWN 12N10S+. 12SC7GTS LI-1* IN VIII I2N10S TRI DUO II 12SC7$ MS-1* COB XXI 12*11 S TRI TWN II 12AH7GTS PI* X 2N65S 12P*S PND SIN II P1*A X I2P1*S BEA SIN II P1*B X
HPI7L PND SIN II TV-1* THN XVIII 12R1B TRI DWD 1261+ . 12SR7* VS-1* COU XXI 12R17B TRI DWD 12G2+, 12S07S D15 REC XI 12S2 •TRI SIN II DGTS15 REC XI D2N+ 12S3S •TRI SIN II LD1 + FEU-15 PHN XVI
12ZH1 •PND SIN 12ZH1L+ 6-15A TRI SIN GU-11A+ 12ZH1L PND SIN II 12ZH1 G-15RA TRI SIN GU-16B+ 12ZH1M PND SIN II GO 0-15 TRI SIN G-61 + 12ZH3L PND SIN II GUIS BEA SIN III 12ZH8 PND SIN II 12SJ7S IFK15-1 XX
15 NUMERICAL GROUP NUMERICAL GROUP I , I ,
TABLE COST SPEC. TABLE COST SPEC. TYPE NUMBER KIM) TYPE SIMILAR TYPES TYPE NUMBER KIND TYPE SIMILAR TYPES HO.' DO. no. 10.
ISSH15 XX 19LK*B TV VIII LI-15 IM VIII D20 GEP XI P15 X 2N*3S, OC60*« FEU-20 PHM XVI P15A GAP X GK20 TRI SIN III SG15P 010 SIN V 1-20/1.5 TRI IGN IV SG15P1 DIO SIN V IFK20 XX T6-15/3 TRI THY TG1-S/3+ M-20/35 TRI SIN GM-1A+ TR-15/2 TRI THY TR-1-5/2+ MO20 TRI SIN HI TV-15 THM XVIII P20 X VG15/5000 DIO SIN GG1-0.5/5+ OV20-P18 »TET SIN GNI-8*=
15A6S PND SIN II SG20G DTO SIN V D16 REC XI T-20BFL COU XXI D16A REC XI TR-20/15 TRI THY TR-1-6/15+ DGTS16 REC XI D2P+ V20/20 »DIO SIN Vl-O. 02/20+ FEU-16 PHM XVI VKU-20-0.25 SCR SI* XII-A
GI-16B TET SIN III VKU-20-0.5 SCR SI* XII-A GU16B TRI SIN III VKU-20-0.75 SCR SI* XII-A L6-16 DIO SIN 2D2S+ VKU-20-1.0 SCR SI* XII-A MS-16 COU XX! VKU-20-1.5 SCR SI* XII-A P16 X 2N55S* OC60*= VKU-20-2.0 SCR SI* XII-A
P16A X VKU-20-2.5 SCR SI* XII-A P16B X VKU-20-3.0 SCR SI* XII-A SG16P DIO SIN V 20LM1YE VIII TV-16 THM XVIII D2I REC XI VS-16 COU XXI DGTS21 REC XI D7A+
017 REC XI GI-21B TRI SIN III DGTS17 REC XI GU21B TRI SIN III FEU-17 PHM XVI P21 X FEU-17A PHM XVI P21A X G-17B TRI SIM III DGTS22 REC XI D7B+
GI-17 TRI SIN III G*80* FEU-22 PHM XVI GU-17 BEA TWN III GI-22 TRI SIN III LI-J7 IH VIII GU22A TRI SIN III MST-17 COl XXI P22 X P17 X DGTS23 REC XI D7V+
P17A X FEU-23 PHM XVI P17B X GU23A TRI SIN III SG17S 010 SIX V GU-23B TRI SIN III DIB GEP XI LI-23 VIII FEU-18 PW XVI P23 X
FEU-18A PW XVI 23LK1B TV VIII 9CP*t 6r-18B TRI sin III 23LK2B TV VIII GS-18 TRI SIX GK-2000+ 23LK7B TV VIII GU-18 BE* TVP III 23LK8B TV VIII LI-18 VI VIII 23LM3* OS VIII 9GP7S
P18 X 23LM3*V OS VIII P18A X 23L01P OS 9GP7$ P18B X 23L051A OS VIII SG18S DIC SIP V 0GTS2* REC XI D7G+ 18LK1B TV VIII FEU-2* PHM XVI
18LK2B TV VIII 7QP*S GI-24A TRI SIN III 18LK3V » VIII GU2*A III 18LK4B TV VIII DGTS25 REC XI D7D+ 18LK5B TV VIII FEU-23 PHM XVI 18LK7B TV VIII GI-25 TRI SIN III
18LK15 TV VIII GU258 TRI SIN III 18LM35 OS VIII 7BP7AS ISK25 XX 18LH35V OS VIII P25 X 18L01P » VIII 7BP7AS P25A X 18LO*0B TV VIII 7JP*$, LK7*0+ P25B X
18LOA7A OD VIII T-25BFL COU XXI 18L0*7V OD VIII VK-25 POW XII D19 GEF XI 25P1 BEA SIN II 25L6S D19A GEF XI 25P1S BEA SIN II 2SL6S D19B GEF i XI D6TS26 REC XI D7E+
FEU-19M PHM XVI FEU-26L PHM XVI GI-19B TR SIN III GU26A TRI SIN III GU-19 BEA TWN I GU26B TRI SIN III P19 X P26 X SG19S DIO SIN V P26A X
16 GROUP I, NUMERICAL GROUP I, NUMERICAL
TABLE COST SPEC. TABLE COST SPEC. TYPE NUMBER KIND TTK SIMILAR TYPES HIND SIMILAR TYPES 10. 10. TYPE NUMBER 10. 10.
P26B X FEU-40 NSP XVI DGTS27 REC XI D72H+ GU-AOB TET SIN III FEU-27 PHM XVI T-46BFL COU XXI GU27A TET SIN III V40/100 010 SIN V1-0.1/40+ 16AP4S GU27B TET SIN III 827-RS 40LK1B TV VIII
P27 X K-41 KLY IX P27A X FEU-42 NSP XVI GU28A TET SIN III K42 KLY IX GU28B TET SIN III P42A X M28 TRI SIN III P42B X
P28 X 42LM2YE VIII FEU- 29 PHM XVI FEU-43 NSP XVI 629 TRI SIN III 43LK2B TV VIII GU29 TET THN III 829-BS 43LK3B TV VIII K-29 KLY IX 43LK6B TV VIII
P29 X 43LK7B TV VIII P29A X 43LK8B TV VIII GO 0-30 TRI SIN 6S-3B+ 43LK9B TV VIII GI-30 BEA TWN III 3E29* FEU-** NSP XVI GHI-30 TRI SIN III FEU-45 NSP XVI
GS-30 COU XXI 45LM1B VIII GU30A TRI SIN III FEU-46 NSP XVI K-30 KLY IX 646 TRI SIN III Pt-30/450 TRI SIN GMI-30+ 47LK1B TV VIII P30 X FEU-47 NSP XVI
T-30BFL COO XXI 647 TRI SIN III VG-30 POM XII SB-47 PND SIN II 30LK1B TV VIII 31LK1B+ FEU-48 NSP XVI 30P1 BEA SIN 30P1S+ K48 KLY IX 30P1H •BEA SIN 30P1S* FEU-49 PHM XVI
30P1S BEA SIN II 30P1H G-49 TRI SIN 6S-4 30TS1" 010 SIN II 30VKH1+. 30TS6S+ 60-50 TRI SIN 6-46 30TS6S 010 TWN II 30VKHl+» 30TS14* 8078-56 GU50 PND SIN III LS50 30VD1 DIO SIN II 30TS1M+ 1-50/1.5 TRI I6N IV 30VKH1 010 SIN II 30TS6S+ 1-50/1500 DIO I6N IV
FEU-31 PHN XVI IFK50 XX GU31 TET SIN III LS50 »PND SIN GU50- K-31 KLY IX M50 TRI SIN III 31LK1B TV VIII T-50BFL COU XXI 31LK2B TV VIII 12LP4S V6-50 POW XII
31LM32 OS VIII 12DP7AS VK-50 POW XII 31LN32V OS VIII VKU-50-0, 75 SCR SI4 XII-A 31L01P VIII 12DP7S VKU-5C-0 5 SCR SI4 XII-A 31L033 OS VIII 12GP7S VKU-50-0 .75 SCR S14 XII-A 31L033V OS VIII VKU-50-1 .0 SCR SI4 XII-A
FEU-32 PHM XVI VKU-50-1 .5 SCR SI4 XII-A G32 TRI SIN III VKU-50-2 .0 SCR SI4 XII-A GU32 BEA TWN III 832$ VKU-50-2 .5 SCR SI4 XII-A K-32 KLY IX VKU-50-3 .0 SCR SI4 XII-A FEU-33 PHH XVI GM51A TRI SIN III
GU33B TET SIN III SB-51 PND SIN II IC-33 KLY IX STSV51 PHO XVI FEU- 3* PHH XVI FEU-52 PHM XVI GU34B TET SIN III FEU-53 PHM XVI K-34 KLY IX M53 TRI SIN III
FEU-35 PHM XVI 53LK2B TV VIII GU-35B TET SIN III 53LK3B TV VIII K-35 KLY IX 53LK4TS VIII 35LK2B TV VIII 8815-58 53LK5B TV VIII FEU-36 PHM XVI 53LK6B TV VIII
GM TRI SIN III G-54 TRI SIN GS-6+ 6K36 TRI SIN GK-20+ R-54 XXII GU-36B TET SIN III G-56 TRI SIN 629+ FEU-37 PH* XVI 6M57 TRI SIN III MS50»+. GU-37B TRI SIN III M57 TRI SIN III
FEU-38 PHK XVt S0-57 PND SIN II FEU-39 PHM XVI 6-58 TRI SIN 6K-30O0+ 6U-39A TET SIN III 59LK1B TV VIII 6U-39B TET SIN III 6M60 TRI SIN III M600»+ M39 TRI SIN III GS-tO COU XXI
17 GROUP I, NUMERICAL GROUP I , NUMERICAL
TABLE COST SPEC TABLE COST SPEC. TYPE NUMBER SIMILAR TYPES TYPE NUMBER KIND TYPE SIMILAR TYPES NO. 10. DO. 10.
T-60BFL COU XXI P101B X G61 TRI SIN III D102 REC XI G62 TRI SIN III D102A REC XI G-64 TRI SIN GS-3B+ P102 X G65 TRI SIN III D103 REC XI
G68 TRI SIN III D103A REC XI GI-70B TRI SIN III P103 X GM-70 TRI SIN III S-103 TET SIN GKE-10O0+ GM70B TRI SIN III DIO* REC XI ISP70 XX D10*A REC XI
LD70 TRI SIN GI-70B+ L-10* PND SIN 6K*P+. 6BA6S V7O/1O0O DIO SIN V1-0.3/70+ P10* X GK71 PND SIN III G*71 + D105 REC XI GU72 PND SIN III D105A REC XI M7* TRI SIN III P105 X
75S5-30 *DIO SIN SG2S+. 0A3S 105S5-30 DIO SIN SG3S+. 0C3S GI-76B TRI SIN III D106 REC XI GU80 PND SIN III OS*50«» P800*+ 0106A REC XI M80 TRI SIN III P106 X T-80BFL COU XXI S-106 TET SIN GKE-150+
GU81 PND SIN III D107 REC SIP XI GMI-83 TET SIN III OV20-P18» D107A REC SIP XI G88 TRI SIN III P107 X VO-88 DIO TWN *VKH1+ UB107 * TRI SIN *S1 + GMI-89 TET SIN III G-*89*+ D108 REC SIP XI
GU89A TRI SIN III 889AS GT108A X GU89B TRI SIN III 889R-A$ GT108B X M89 TRI SIN III GT108G X GMI-90 TET SIN III 6-490*+ GT108V X GS90B TRI SIN III D109 REC SIP XI
LD-90 TRI SIN GS-90B+ GT109A X MTKH90 TRI THY VII GT109B X RB-90 XXII GT109G X TGI-90/8 TRI THY TGI-1-90/8+ GT109V X G91 TRI SIN III S-109 TET SIN GKE-300+
G-92 TRI SIN GK-20O0+ UB110 * TRI SIN *S2 + L-99 PTG SIN 6A2P+. 6BE6S VU-111D DIO SIN IV G-lOO TRI SIN G-29+ SB-112 PND SIN II *E1 + G-IOOA TRI SIN GK-3A+ S0-118 TRI SIN *S5 + GD-lOO TRI SIN G-*7+ G120 TRI SIN III
GKEIOO «TET SIN III IFK120 XX GMIOO TRI SIN III TR-120/15 TRI THY TR-1-40/15+ 1-100/1.0 TRI IGN IV SO-122 PND SIN *P1* 1-100/5.0 TRI IGN IV SO-12* PND SIN II *ZH5* ISSH100-1 XX VO-125 DIO SIN IV
ISSH100-3 XX SK-127 XXII L100 •W1D DIO 6B2P» VG-129 DIO SIN IV VG-100 POW XII UB-132 * TRI SIN II *S3+ VK-100 POW XII P135 X VICU100-0.25 SCR SI* XII-A T0-1*1 *TRI SIN II 3S1 +
VKU100-0.5 SCR SI* XII-A TO-142 »TRI SIN II 3S2+. 3S9+ VKU100-0.75 SCR SI* XII-A SB-1*7 TET SIN *E2+ VKU100-1.0 SCR SI* XII-A S0-l*8 PND SIN II *E3+ VK.U100-1.5 SCR SI* XII-A GI-150 TRI SIN III VKU100-2.0 SCR SI* XII-A GKE1S0 • TET SIN III GE-2 =
VKU100-2.5 SCR SI* XII-A GU150 TRI SIN III 7712-55 VK.U100-3.0 SCR SI* XII-A 1-150/1.0 TRI IGN IV VKUV-100-0.25SCR SI* XII-A M150 TRI SIN III VKUV-100-0.5 SCR SI* XII-A 150S5-30 *DIO SIN SG»S+. 0D3* VKUV-100-0.75SCR SI* XII-A SB-152 TRI SIN II
VKUV-100-1.0 SCR SI* XII-A UB-152 TRI SIN II 2S1 + VKUV-100-1.5 SCR SI* XII-A UB-153 TRI SIN II VKUV-100-2.0 SCR SI* XII-A SB-15* PND SIN II 2E1 + VKUV-100-2.5 SCR SI* XII-A SB-155 BEA SIN 2P2* VK.UV-100-3.0 SCR SI* XII-A UB-155 *BEA SIN II 2E2+
D101 REC XI 2S-156A REG XIII D101A REC XI VG-161 DIO SIN IV LI-101 IC VIII VG-163 DIO SIN IV P101 X 2S-168A REG XIII P101A X VG-176 DIO SIN IV
18 1
GROUP I, NUMERICAL GROUP I, NUMERICAL
TABLE COST SPEC. TABLE COST SPEC. TYPE NUMBER KIND TYPE SIMILAR TYPES TYPE NUMBER UN TYPE SIMILAR TYPES 10. 0. 10. 10.
UB-176 TRI SIN II P215 X SO-182 PND SIN II P216 X UB-182 »TRI SIN II P216A X SO-185 TRI SIN 4S5 + 0217 KEC SIA XI U0186 *TR1 SIN II 4S4+ P217 X
US-186 TRI SIN 4S4+ P217A X VO-188 DWO SIN IV 4VKH1" P217B X S8-190 PND SIN II 0218 REC SIA XI 191P TET SIN II D219A REC SIA XI VO-196 010 SIN IV D220 REC SIA XI
VO-197 OWD SIN IV 0220A REC SIA XI GD-200 TRI SIN GS-4+ 0220B REC SIA XI 1-200/1.5 TRI IGN SK-220 XXII IFP200 XX D221 REC SIA XI IVS200/2 IGN IV D222 REC SIA XI
T6I-200 TRI THY VII MTI-2+ D223 REC SIA XI VGV200 POW X 1 D223A REC SIA XI VK-200 POW XII D223B REC SIA XI VKV200 POW XII 0224 REC SIA XI D201A REC XI D224A REC SIA XI
D201B REC XI D224B REC SIA XI D201D REC XI D225 REC SIA XI D201G REC XI 0226 REC SIA XI 0201TS REC XI D226A REC SIA XI 0201V REC XI 02260 SIA XI
D201YE REC XI D226G SIA XI D201ZH REC XI D226V SIA XI LI-201 IM VIII D226YE SIA XI P201 X SG226 DIO SIN V P201A X D227-A SWI SI4 XI-A
SG201S DIO SIN V D227-B SWI SI4 XI-A D202 REC XI D227-D SWI SI4 XI-A P202 X 2N68S D227-G SWI SI4 XI-A SG202B DIO SIN V D227-I SWI SI4 XI-A VO-202 OHO SIN IV 0227-V SWI SI4 XI-A
D203 REC XI D227YE SWI S14 XI-A LI-203 VIII 0227-ZH SWI SI4 XI-A P203 X 2N68S SG227 DIO SIN V SG203K DIO SIN V D228-A SWI SI4 XI-A D204 REC XI D228-B SWI SI4 XI-A
0205 REC XI D228-D SWI SI4 XI-A 0206 REC XI D228-G SWI SI4 XI-A D207 REC XI D228-I SWI SI4 XI-A P207 X D228rV SWI SI4 XI-A P207A X 0228YE SWI S14 XI-A
D208 REC XI D228-ZH SWI SI4 XI-A P208 X D229A SIA XI P208A X D229B SIA XI D209 REC XI D230A SIA XI P209 X D230B SIA XI
P209A X VO-230 DIO SIN IV 0210 REC XI D231 REC SIA XI P210 X D231A REC SIA XI P210A X D231B REC SIA XI 0211 REC XI D232 REC SIA XI
P211 X D232A REC SIA XI P212 X D232B REC SIA XI P212A X D233IP) SIA XI TG212M TRI THY VII D233A REC SIA XI P213 X 02336 REC SIA XI
TG-213 TRI THY VII PT-2»+ D234B REC SIA XI XI-C 0214 REC SIA XI D235A CON SI D214A REC SIA XI 0235B CON SI XI-C D214B REC XI D235G CON SI XI-C P214 X D235V CON SI XI-C
P214A X TG-235 TRI THY VII PT-3»+ P214B X VG-236 DIO SIN IV 0215 REC SIA XI VG-237 DIO SIN IV D215A REC SIA XI D238A CON SI XI-C 0215B REC SIA XI D238B CON SI XI-C
19 GROUP I, NUMERICAL GROUP I, NUMERICAL
TABLE tOST SPEC TABLE TYPE NUMBER KIND TYPE SIMILAR TYPES COST SPEC. 10. TYPE NUMBER SIMILAR TYPES •0. HO. 10.
D238D CON SI XI-C P303 x D238G CON SI XI-C P303A x 0238V CON Si xi-c SG303S DIO SIN V 9103-59 0238YE CON SI XI-C 1T303A X VO-239 010 SIN IV 1T303B X
UB-240 TRI SIN II 2S2 + 1T303D X SB241 *PND SIN 2K1», 2K1M+, S0241* 1T303G X S0241 »PND SIN 2Kl»t 2K1M+, S0241» 1T303V X 0242 REC XI 1T303YE X D242A REC XI 0304 REC XI
D242B REC XI P304 SB-242 PTG SIN 2A1 + SG304S DIO SIN V S0-242 PTG SIN II SB242 • 2A1, 2A1M D305 REC XI 0243 REC XI SG305K REG V D243A REC XI P306 X
D243B REC XI P306A X SB243 » TRI DUO 2N1», 2N1M», S0243* SG306K REG V SO-243 * TRI TWN II 2N1 + P307 X D244 REC XI P308 X D244A REC XI 1T308A X
D244B REC XI 1T308B X 1T308G SB244 » BEA SIN 2P1 + . S0244+ X SO-244 PND SIN II 2P1 + 1T308V X 0245 REC XI GT309A X D245A REC XI GT309B X
D245B REC XI GT3090 X SB245 * PND SIN 2ZH1M+ GT309G X D246 REC XI GT309V X D246B REC XI GT309YE X D247 REC XI 0310 GEA XI
D247B REC XI GT310A X LO-247 OS VIII GT310B X D24BB REC XI GT310D X LO-248 OS VIII GT310G X L0-249 OS VIII GT310V X
6X0-250 TRI SIN SK-1A* GT310YE X V6-252 310 SIN IV P314A X 6256 TRI SIN III P314B X S0257 » >N0 SIN II 2ZH4+ P314C X SB258 *BEA SIN 2P3+. 2P2M+, S0258+ P322 X TGI-325/16 SO-258 *PND SIN II 2P3 + TRI THY MTI-5+, TGI-1-325/16+ 1-1-350/0.8 SB259 » TRI DUO W + TRI THY IV S0259 # TRI DUO *N1 + R-350 XXII RB-280 ail RB-350 XXII VO-360 G-300 TR I SIN 368 010 SIN IV
GI-300 TRI SIN 3I-18B + 60-400 TRI SIN 6S-6+ GK-300 TRI SIN 3U-8+ M400 TRI SIN III 6KE300 rET SIN in TG-400/15 TRI THY TRI-130/15+ IFB300 « TGI400/3.5 TRI THY T6I-2-400/3.5+ SG301S 1 )I0 SIN / 9103-59 0401 MOD XIV
2T301 ( KTS401A REC XI 2T301A X KTS401B REC XI 2T301B X LI-401 VIII 2T301D X M401 TRI SIN III 2T301G X P401 X 2N112S
2T301V X P402 X SB-100* 2T301YE X 0403A MIX XIV 2T301ZH X D403B MIX XIV 3I-301A TUN GAS XI-B D403V MIX XIV 3I-301B TUN GAS XI-B P403 X 0C614=
3I-301G TUN GAS XI-B P403A X 0C614* 31 -301V TUN GAS XI-B 1T403A X 0302 REC XI 1T403B X P302 X 1T4030 X SG302S 010 SIN V 1T4036 X
1I-302A TUN GAS XI-B 1T403I X 1I-302B TUN GAS XI-B 1T403V X 1I-302G TUN GAS XI-B 1T403YE X 11 -302V TUN GAS XI-B 1T403ZH X 0303 REC XI P404 X
20 GROUP I .NUMERICAL GROUP NUMERICAL I ,
TABLE COST SPEC. TABLE COST SPEC. TYPE NUMBER KINO TYPE SIMILAR TYPES TYPE NUMBER (KO TYPE SIMILAR TYPES DO. 10. DO. 10.
P404A ( G472 TRI SIN Ill D405 JET (IV G480 »TRI SIN GI-17*+ M05A JET (IV G-483 TET SIN GMI-83+ D405AP JET (IV G484 TRI SIN III MOSS JET (IV G-489 »TET SIN GMI-89+
D405BP JET (IV G-490 *TET SIN GMI-90*+ P405 ( IFK500 XX P405A ( IFP500 XX P406 ( ST-60- ISSH500 XX P407 ( VGV500 POW XII
P408 X P501 X X P409 P501A X T-409 OIO IGM IV P502 X 6410 TRI SIN III P502A X P410 X P502B X
P410A X P502V X T-410 OIO IGM IV 2D503A SI XI 410R KLY IX 2D503B SI XI G411 PHD SIN III KZH1»+ P503 X P411 X AF114« P503A X
P411A X AF114- P504 X T-411 DIO IGM IV P504A X G412 PND SIN III P505 X G413 PND SIN III GZH2»+ P505A X G414 PND SIN III M600 »TRI SIN GM60+
P414 X P601 X P414A X P601A X P414B X P601B X P415 X D602A VID XIV P4I5A X D602B VID XIV
P415B X D602V DET XIV P416 X P602 X P416A X P602A X P416B X D603 VID XIV P416V X P604 X
G417 TRI SIN III P604A X P417 X P604B X P417A X P605 X G4M PHD SIN III P605A X P418 X P606 X
P41BA X P606A X P418B X P607 X P418V X P607A X P420 X P608 X P421 X P608A X
G422 PND SIN III P609 X P422 X P609A X P422A X 700AD MAG IX P423 X P701 X P423A X P701A X
G424 PND SIN III P702 X G425 PND SIN III P702A X G430 TRI SIN II! 706AU MAG IX RB-430 XXII 707A/B KLY IX G431 TRI SIN III G431A+ LO-709A OS VIII
G431A TRI SIN III G431 714AU MAG IX G-431R TRI SIN GS-4D+ LK-715 * TV 18LK15+ G433 TRI SIN III S433A+ 720AYE MAG IX 6433A TRI SIN III G433 723A/B KLY IX M435 TRI SIN III 725A MAG IX
G441 TRI SIN III LK-726 TV 18LK3B+ G-450 TRI SIN III 726 KLY IX 0S450 «PND SIN GU80t P800+* LO- 729 *OS 8L029+. 3BP1AS R-450 XXII LO-730 OS 8LO30+ M-451 TRI SIN GM-51A+ LO-731 OS 13LM31+
G-452 TRI SIN III G-431A+ LO-732 OS 31LM32+ G-454 TRI SIN III GS-3B+ LO-733 »OS 31L033+ M457 *TRI SIN II MS3»+. UB180". GM57+ LO-734 OS 23LM34+ M-470 TRI SIN GM-70+ LO-735 OS 18LM35+ 6471 »PND SIN GK71 + LO-736 »OS 13L036+
21 GROUP I , NUMERICAL GROUP I , NUMERICAL
TABLE COST SPEC. TABLE COST SPEC. TYPE NUMBER KIND TYPE SIMILAR TYPES TYPE NUMBER 1MB TTPE SIMILAR TYPES 10. •0. 10. 10.
LO-737 *0S 13L037+ VKV1000 POW XII LO-738 »0S 5L038+. 2AP1S D1001 REC XI LO-739 OS 8L039+ D1001A REC XI LK-740 *»TV 18L.040B+, 7JP4S D1002 REC XI LO-743 »OD 10L043+ D1002A REC XI
LO-747 »00 18L047+ D1003A REC XI LO-748 *0D 13L048+ D1004 SIA XI 1.0-7*9 *0S 13L049+ 01005A SIA XI GK750 TRI SIN Ill 7709-55 D1005B SIA XI L0751 OS 23L051+ D1006 SIA XI
LO-754 »0S 13L054+ 01007 SIA XI P800 »PND SIN GU80»+t OS450= D1008 SIA XI M800 TRI SIN III D1009 SIA XI G807 BEA SIN III 807* 8380-57 D1009A SIA XI 0808 REG XIII D1010 SIA XI
D809 REG XIII D1010A SIA XI 0810 REG XIII D1011A SIA XI 0811 REG XIII 811-A* TG1050 TRI THY TG2-0. 1/0.1+ G811 TRI SIN III IFP1500 XX 0813 REG XIII 1502 DIO SIN IV 5TS9S
G-813 BEA SIN GU-13+. 813* 1504 TRI SIN II D814-A REG SI XIII 1506 BEA TWN I I 0814-B REG SI XIII 1509 BEA TWN I I D814-D REG SI XIII 1511 PND SIN II D814-G REG SI XIII 1512 PND SIN II
D814-V REG SI XIII 1514 PND SIN II D815A(P) REG SI XIII 1515 BEA SIN II 6KH2P+.EAA91=.6AL5* XIII D815B1P) REG SI 1536 DIO TWN I I D815DIP) REG SI XIII 1538 BEA SIN II D815G(P> REG SI XIII 1539 TRI SIN II
D815VIPI REG SI XIII 1540 BEA SIN II D815YEIP) REG SI XIII 1550 DWD SIN II D815ZHIPI REG SI XIII 01602A REC XI D816AIP) REG SI XIII D1602B REC XI D816B(P) REG SI XIII D1602V REC XI
D816DIP) REG SI XIII G1625 BEA SIN III 1625* D816GIP) REG SI XIII GK2000 TRI SIN III D816VIP) REG SI XIII IFK2000 XX D817AIP1 REG SI XIII TG2050 TET THY TG1-0.1/1.3+. 2050* 0817BIP) REG SI XIII GK3000 TRI SIN III 7710-55 M-3000 TRI SIN GMI-1B+ D817GIP) REG SI XIII D817VIP) REG SI XIII PI-3000 < »PND SIN GI-8»+ 0818A REG SI XIII GI-3100 TRI SIN III D818B REG SI XIII IFP4000 XX D818D REG SI XIII 4671 < 'TRI SIN 6S1ZH+
D818G REG SI XIII G-5000 TRI TWN GS-3B+ 0818V REG SI XIII IFP15000 XX 0818YE REG SI XIII IFK20000 XX G-827 TET SIN GU-27B+. 827RS G40011 TRI SIN III G-829 TET TWN GU-29+, 829-BS IFK.80000 XX
G-832 BEA TWN GU-32+. 832AS G837 *PND SIN III 0512/500=. 837* G-880 TRI TWN GU-12A+, 880* G889 TRI SIN III 889-A* TG-884 TRI THY TG1-0.1/0.3+. 884»
G891 TRI SIN III 891* D901A VAR SI XI-D D901B VAR SI XI-D D9010 VAR SI XI-D D901G VAR SI XI-D
D901V VAR SI XI-D D901YE VAR SI XI-D 2S920AIPI REG SI XIII 2S930AIP) REG SI XIII 2S950AIP) REG SI XIII
2S980AIP) REG SI XIII GD1000 TRI SIN G-29+ GKE1000 TET SIN HI M-1000 TRI SIN GM-100+ VGV1000 POW XII
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O • • • • • • • • • • • • • • • • • • • • • • • • tr (M r- "D O O i-H O in co ao i-H l-H r- ^O CO CM r- m o co or- r-H r-t > < l-H r-H H i-H CO i-H >o CM i-H «c O o in o o ON in in o o O O o o CO o vO O CO o o vO co 5 U- • • • • • • • • • • • • • • • • • • • • • • • f\J f-H -O i-H 1—1 -H cm m r- i-H in m o o m CM m \0 co CM r-H cm m i-H l-H cm i-H f-H CM CM CM CM 00 co r-H H CM CM r-H a. a: G r\l CO a> m o o in m o> o-* o m o 0> r- vO O r-i co o o vO O r\j i— i-H X m o o O in O m o o o o o o o o o o O o in o in vO CM o O O O CM CM O 6 c • • • • • • E cm o o o o o o o o in c o*"2 • • • • • • • • • • «* H fc in i-H in o o o o o •& O CJ> •-H r-H r-H CM -t 00 r- CO cm r- o in mOO o < < < < < < < < o r— < i-H m o vO 00 CO O m CO CO in in -* * in o in o o o o o o m > in -3- in >3- UJ in in vO o o CO i-H i-H or: M o o o o m o o ^ in o o 9 ^ o m m in CM 1— CO r- U_l UJ o O o o CM CM (M cm i-H CM CM in O J3 i£ iZ 5-: j/ >*£ j/ n > o O o o o O O V ^ v ^ ^ ^ ^ ^ v O ^ O^ V V UJ O o o in m i-H o o in i-H .* in in vO >£> in r^ in in in CO CO O O r-i o r- oo * O CO O CM * ^3- 4- f» i— m >0 l-H H X o o o o X o O X X in v v ^ V s/ ^ m V jZ jZ I v: in X O O iZ m O X i=l CL* * >3- o o o o i-H o O -< CM r- o o o o o l-H CM o o O r-H m CM co O o in co r- m o i-H O CO o_ a: l-H CM CM -3" cm CM X i-H CM CM v£> ^ i-H CM CM X CO m ^ X CM i-H l-H 13 o < < o o o < o c_> a 4 o CM c o 0\J c i-H O QC X H E i-H oo r-H CM •« CM in ja o o o ^ O U. iZ ^ ^^^ v: V * iZ •u V o UJ > o m m i-H O i-H i-H •* cm in m in m o in o O in 4- t-t i-H i-H l-H i-H r-H r-H I-H < o o o o o o O o o < < < < < < < << < < < < < < o o o < < < o < < «•» 4 O in o CM O O m o in o CM i-H CM CM o o * l-H l-H CM l-H o o o o o o o o o o O o o o O O o oo o m in o o o CO co ^o o O o >o o o > 6.3 5.0 LLj~" vO o o o o o in m o o O CM CM (M CO cn o i-h<0 CM CM fM CM in r^ vO ONH r-H MM \Or- l-H i-H i-H CM (\J cm cm cm CM CM CM CM CO CO CM i-H i-H CM CM l-H i-H r-H l-H r-H r-H l-H i-H i-H 30 0H1V3 3 2 2 5 X =3 vO o 00 O CO O vO 3 i-H •* co .3- CO CO l-H CB X Jt 1— X 3! 2 < to UJ a. z z z z z z z z z z Z z z z z z z zz z z z z z z z z z z z x.'z.i.-z. z c 1— 10 Ui tO 10 to tO lO lO 10 «/) lO 10 «o »o to to 1/) to to <=> O. O O a o 1—1 < — o .- r- < — — — ctr cl z z z a: ct ct ct oc or CL oc CL en CL or UJ a: ce or u. uj cc or ct or •m z z z z z dcq: a z i- h- CL a. a CL t— a cl a CL »— 1— 1— t— i— 1— r-r- r- \— r- r— 1— t— CO t- CL r- i— r— CD r— 1 (- i- * ac UJ zco ^ < < O o ^^ c-H l-H c cm co >J- » 00 CM -3" in O i-H i-H CO CO m rHO CM •t CM J" o o r- i-H r~- cjv r-H o m o o o •-« 1—1 Ll_l o I-H !-H i-H »H I-H rH CM CM CM CO CO CO CO CO CO «3-m >n m r- 00 in o o i-H CO 00 «> O CM O O r-H l-H Q_ -* 38 GROUP H .RECTIFIER TUBES MAXIMUM TYPICAL o E TYPE NUMBER KIND TYPE BULB CAS »— f h E L E I, - •< bK b bk b V mA V mA V mA GG-l-0.3/8 DIO SIN T14 AR H 6.3 4A 8K 1A 30 /l GG-1-0.5/20 DIO SIN T21 AR H 6.3 5A 20K 3500 30 /l GG-1-1/22 DIO SIN T30 GS H 6.3 14A 22K 1A 30 1 GG-1.-2/5 DIO SIN T22 XE H 6.3 6500 9K 6500 16 2 GG-1-2/16 DIO SIN T30 AR H 6.3 16A 16K 7A 30 2 GR1-02/15 DIO SIN si6 HG F 5.0 3300 /2K 800 235 GR-1-0.3/8.5 DIO SIN S21 AR F 6.3 4A 8K 1A 30 /l GR-1-25/15 DWD SIN GS F 5.0 3A /2K 800 500 125 GRI-0.25/1.5 DWD SIN S17 F 5.0 3300 16H 800 235 1-1-70/0.8 TRI IGN W48 HG C 800 70A 1-1-100/1.5 TRI IGN W52 HG C 15H 3 HA 1HA 1-1-140/0.8 TRI IGN W56 HG C 800 1HA 1-1-350/0.8 TRI IGN W70 HG C 800 3HA Vl-00313 DIO SIN T10 F 2.5 4600 13K 3000 30 Vl-02/20 DIO SIN T13 VC F 2.5 3200 20K 100 20 Vl-03/13 DIO SIN T9 VC F 2.5 4650 13K 3A 30 GG1-0.5/5 DIO SIN S21 KX F 2.5 8500 5K 1500 500 Vl-05/70 DIO SIN T32 VC F 5.0 32A 70K 8A 50 Vl-06/30 DIO SIN 30K 60 Vl-1/2.5 DIO SIN W12 VC F 15.0 12A 25H 1000 Vl-1/30 DIO SIN T18 VC F 5.0 5A 30K 600 100 Vl-1/40 DIO SIN T17 VC F 5.0 6A 40K 750 100 Vl-2/40 DIO SIN 40K 200 Vl-3/16 DIO SIN A27 VC H 6.3 10A 16K 1500 300 Vl-3/70 DIO SIN 70K 300 Vl-4/40 DIO SIN G70 VC 7.5 48A 44K 2A 450 Vl-15/55 DIO SIN T31 VC F 6.3 7500 55K 700 180 VG1/8500 DIO SIN GS F 2.5 5500 8K 1A 6K 300 VI-1-5/20 DIO SIN T16 VC H 6.3 29A 20K 5000 VI-1-5/30 DIO SIN A16 VC W 6.3 95A 30K 2000 VI-1-18/32 DIO SIN A23 VC H 17.0 3700 40K 20A 500 VI-1-27/35 DIO SIN A40 VC H 9.0 145A 35K 70A VI-1-30/25 DIO SIN 10.0 6A 25K 30A 30 VI-1-70/32 DIO SIN 32K 70A VI-1-10050 DIO SIN 50K 100A VO-1 DIO SIN H 4.0 3200 850 40 1-2-50/1.5 TRI IGN W52 HG C 15H 1HA 50A VI-2-27/35 DTO SIN W20 VC H 9.0 145A 35K 70A VI-2-70/32 DIO SIN A21 VC H 12.6 5300 32K 70A 70 VI-2-100/50 DIO SIN A30 vc H 12.6 36A 50K 100A 39 SROUPIZ , RECTIFIER TUBES LU <=> MAXIMUM TYPICAL o E. TYPE NUMBER KIND TYPE BULB GAS h E E J t \ b b V RlA V mA V mA 2V6 DIO ARC HG c 400 6A 2V12 DIO ARC HG c IK 1A 2V20 DIO ARC HG c 750 20A 2VN12 DIO ARC HG c 450 12A 2VN20 DIO ARC HG c 750 20A 3V30 DIO ARC HG c 750 30A 3VN30 DIO ARC HG c 750 30A 3VN60 DIO ARC HG c 400 60A 3VN100 DIO ARC HG c 600 100A 1-20/1.5 TRI IGN W25 HG c 15H 60A 20A 1-20/1500 *DI0 IGN W19 HG c 15H 1KA 20A 1-50/1.5 TRI IGN W35 HG c 15H 1HA 50A 1-50/1500 *DI0 IGN W26 HG c 15H 2KA 50A 1-100/1.0 TRI IGN W70 HG c IK 6HA 1HA 1-100/5.0 TRI IGN 123 HG c 5K 3HA 1HA 1-100/1000 *DIO IGN W33 HG c IK 2KA 100A 1-100/5000 *DIO IGN W33 HG c 5K 300A 100A VU-111D DIO SIN S F 4, 1500 12K 400 160 80 VO-125 DIO SIN F 4« 700 250 60 VG-129 DIO SIN S20 HG F 2,,5 9A 7K 1500 500 1-150/1.0 TRI IGN W52 HG c IK 1HA 1HA VG-161 DIO SIN HG F 2,,5 6A /3K 1A /2K 300 VG-163 DIO SIN 5. 15K 50A 18 VG-176 DIO SIN G16 M 2.,5 11A 150 9A 20 VO-188 DWD SIN F 4. 2A 500 155 VO-196 DIO SIN H 4, 3A 750 250 VO-197 DWD SIN F 4. 5A 250 300 1-200/1.5 TRI IGN W65 HG C 15H 6HA 2HA IVS200/2 IGN W HG C /3K 450A 16 150 VO-202 DWD SIN F 4. 700 250 60 VO-230 DIO SIN F 4,.0 700 350 50 VG-236 DIO SIN 2..5 7K 4A 16 VG-237 DIO SIN G32 F 5, 22A 10K 10A 3500 VO-239 DIO SIN F 4,,0 2A 850 180 VG-252 DIO SIN 2.,5 300 30 A 15 1-1-350/0.8 TRI IGN IV VO-360 DIO SIN F 4..0 1A 500 100 T-409 *DIO IGN G14 HG C 3K 200A T-410 i*DI0 IGN G17 HG C 14K 20A T-411 *DI0 IGN G17 HG c 19K 100A 1502 DIO SIN F13 H 5,.0 3000 /2K 1200 ^00 400 40 i GROUP I, VOLTAGE REGULATOR TUBES GAS CATH VOLT. RAN6E CUR. RAN6E DIMEN MHO flND PRES MA 11 MAX Mil MAX OIA TYPE NUMBER NIK LTH BASE mm V V i A — mm SG1P 1 REG t \HE 190 145 30 5 22 65 7PN SG1P-V 1 REG 170 145 30 5 22 65 7DN SG1P-YE 1 REG 170 143 30 5 22 65 7DN SG2P 1 REG / MCN 150 104 30 5 22 65 7DN SG2S 1 REG 1 4A 30 110 70 40 5 32 75 4AJ SG3P 1REG i*he 170 144 40 5 22 65 SG3S 1REG t\HN 30 133 105 40 5 32 75 4AJ SG4S 1 REG /*he 30 vi 180 145 30 5 32 75 4AJ SG5B 1REG /\HE 190 142 10 5 10 36 SG5B-V 1 REG 170 142 10 5 10 36 SG7S 1REG 480 390 0.1 0.003 SG8S REG 970 880 0.1 0.003 10 SG9S REG 13H 12H 0.1 0.01 10 SG10S REG ^K 150 86 15 4 32 40 SG13P REG *HN 55 ni 180 143 30 5 19 55 7DN SG15P REG *HN 54 MO 150 104 30 5 19 55 7DN SG15P1 REG 160 103 30 5 19 60 SG16P REG SA 40 MO 130 80 30 5 19 55 7DN SG17S REG NEH 1350 850 60 10 38 189 SG18S REG NEH 1500 950 60 10 38 189 SG19S REG NEH 1650 1050 60 10 38 189 SG20G REG 135 85 15 4 10 45 SG201S REG NK 50 MO 150 86 15 4 32 40 7DN SG202B REG NA 35 MO 140 81 5 1.5 10 40 SG203K REG 150 79 10 i 12 20 SG226 REG NE 95 70 40 8 50 130 SG227 REG NE 95 70 60 10 65 135 SG301S REG HY 16 NI 439 380 0.1 0.003 12 55 SG302S REG HY 82 NI 970 880 0.1 0.003 12 55 SG303S REG HY 143 NI 1350 1220 0.1 0.01 12 55 SG304S REG HY 4200 3800 1 0.05 25 129 SG305K REG 10K 9K 1.5 0.05 33 180 SG306K REG 26K 24K 1.5 0.05 48 245 GROUPIE, :urr ENT REGULATO R TUBES VOLT.RANGE CURJ ANGE TYPE NUMBER KIND TYPE BULB MAX 1 NIN MAX NIN BASE V 1 V mm mA 024B12-18 BAL SIN T10 18 12 255 03B17-35 BAL SIN T14 35 17 300 8ES 03B65-135 BAL SIN T14 135 65 300 8ES 0425B55-12 BAL SIN 12 /6 460 425 8ES 085B55-12 BAL SIN T9 12 /6 920 780 8ES 1B5-9 BAL SIN T14 9 5 1000 DS7 1B10-17 BAL SIN T14 17 10 1000 DS7 ST2S BAL TWN 17 6 2000 DSA ST3P BAL SIN T6 6 4 880 720 41 GROUP in, THYRATRONS BULB CATHODE MAXIMUM ANODE AVG MAXIMUM GRID UJ LTH DIAM GAS E WARM- PIV E, FIRING TUBE PULSE BIAS INPUT PULSE TYPE NUMBER KIND f If BASE ar UP DROP RES ppt lb 1 MIN. lb IGN. TIME f r «/> M mm mm V fflA HlA 1 S V V V V mA V »a V 1 MS nS KJ* TG1B TRI T 36 10 KX H 6.3 225 10 240 240 30 20 120 20 100 1M 100 30 10 TG1B-V TRI T 36 10 KX H 6.3 225 240 16 120 20 28 TGl-O.02/0.5 TET T 38 19 XE H 6.3 150 10 500 500 30 16 120 20 15 10M 15 8T1 TG1-0.1/0.3 TRI 97 35 AR H 6.3 660 30 300 300 20 300 75 80 500 80 20 8T3 TG1-0.1/1.3 TET T 105 39 KX H 6.3 600 10 1300 650 25 11 500 100 100 10M 100 5 60 10 8T2 TG1-0.5/12 TRI T 225 62 AR H 6.3 5A 120 12K 500 27 3A 500 70 100 TGl-l.O/0.8 TET T 130 61 KX H 6.3 300 60 800 420 50 15 600 1A 15 1M 15 10T TG1-1.5/2 TRI T 160 68T XE H 6.3 7500 2K 16 5A 15H 15 TG1-1.6/1.3 TRI 201 66 XE H 5.0 6A 90 1300 IK 20 10A /2A 100 100 100 TG1-2.5/4 TRI S 255 85 KX F 5.0 12A 60 4000 3K 140 20 8A /3A 100 100 10U 4T2 TG1-2.5/10 TET T 285 90 XE H 5.0 15A 10K 16 8A 25H 50 TG1-3.2/1.3 TRI 222 66 XE H 5.0 8A 90 1300 IK 20 20A. 3A 100 100 100 TG1-5-3 TRI T 350 110 KX F 5.0 21A 3K 22 15A 5A 20 TG1-6.4/1.3 TRI 242 66 XE H 5.0 13A 120 1300 IK 20 40A 6A 100 100 100 TG1-12.5/1 TRI T 292 90 XE H 5.0 16A 13H 20 80A 12A 20 TGI-1B TRI T 40 10 XE H 3.1 1500 500 20A TGI-1-3/1 TET T 67 19 AR H 6.3 1A 90 1000 IK 35 3A 6 40 12 300 5 TGI-1-10/1 TRI T 80 32 HY H 6.3 2600 60 1000 2K 20A 50 100 15 6 150 40 TGI-1-35/3 TRI T 135 38 HY H 6.3 2500 180 1500 3K 140 35A 45 100 6 500 TGI-1-50/5 TRI T 160 45 HY H 6.3 3600 180 5K 5K 160 50A 50 /l 4 TGI-1-90/8 TRI T 60 HY H 6.3 7000 8K 90A 100 /l 2 TGI-1-130/8 TRI T 180 64 HY H 6.3 500 3K 1HA 150 /l 2 TGI-1-130/10 TRI T 205 62 HY H 6.3 5A 240 10K 10K 150 1HA 250 4 TGI-1-325/16 TRI T 230 66 HY H 6.3 8500 16K 150 3 HA 2 00 2 00 /l 1 TGI-1-400/3.5 TRI S 280 85 HY H 5.0 18A 180 3500 IK 4HA 300 2 20 TGI-1-400/16 TRI T 268 78 HY H 6.3 10A 16K 170 4 HA 500 200 /l TGI-1-700/25 TRI T 450 135 HY H 6.3 20A 20K 200 7HA 1A 700 /l /l TKH-1 TRI 85 34 NE C 150 60 100 30 TKH1B TRI C 160 85 30 10 10M 85 TR1-5/2 TRI T 275 90 HG H 5.0 15A 2K 15 15A 500 24 TR1-6/15 TRI T 350 90 HG H 5.0 23A 900 15K 18 20A 6A 100 5 TR1-15/15 TRI T 490 95 HG H 5.0 40A 15K 20 47A 15A 100 TR1-40/15 TRI G 700 245 HG H 5.0 68A 3K 15K 20 1HA 40A 100 5 TR1-85/15 TRI T 760 270 HG H 5.0 130A 15K 20 3HA 85A 100 TR1-130/15 TRI T 220 HG H 5.0 130A 15K 3 HA 85A TG2-0. 1/0.1 TRI T 105 40 XE H 6.3 600 10 100 100 11 300 100 2 5M TG2-0.5/12 TRI T 225 62 HY H 6.3 7A 12K 70 /4A 500 100 TG2.5/5 TRI F 5.0 13A 3K 8A 2A 18 TGI-2-260/12 TRI T 285 90 HY H 6.3 12A 12K 400 2 00 /5 TGI-2-325/16 TRI HY F 6.3 8500 16K 3 HA 2 00 TGI-2-400/35 TRI HY F 5.0 18A 3500 4HA 300 TKH-2 TRI 50 19 HE C 350 80 100 12 TG3-0.1/1.3 TET T 57 19 KX H 6.3 600 1300 650 30 11 500 100 100 10M 100 10 60 10 7EM TG3-2.5/10 TRI T 290 90 KX H 5.0 20A 10K 25 8A /3A 30 TKH3B TET T 40 10 NA c 190 110 5 2 20M 67 15 1 LP-4 COM H 4.0 270 260 1 70 TKH4B TET 40 10 NA C 225 115 7 3 99M 92 10 LP-5 COM H 4.0 370 2 00 100 40 TKH-5A TRI 25 7 NA C 270 110 /l /l MTKH90 TRI 30 12 NE C 160 50 20 20M 85 TGI-200 TRI S 280 85 KX F 5.0 15A 60 3500 20 2HA 18 200 TG212M TRI T 105 35 AR H 4.0 950 30 300 300 27 500 125 7 100 TG-213 TRI F 2.5 9A 1A 5 00 15 TG-235 TRI F 5.0 12A 6A 1A 16 42 — ii l ii 1 i 1 "> ~) ~> UJ -* DEFL ANGLE degree A Q Q Q Q x x a O Q X Q X O Q X O O QC LU UJ CD CO X X X X X X to m X _l X to x m _J X X X to _l _l Ll_l a. or > > or q: CL 0L or _i ICO J X QC CO QC CO X X QC X X X o CO ld o U L0 o co 3t 0- ro Jt L3 0- U3 0. 3 3 O X 3t 2 >- 00 rH CM 00 o ^~> r-t r-i rH r-i r-H t-H CM CM u. X > Z uj uj e • • • • • • • • Z csco £ © o o o o o o o X O o o o o o o rH o o O X o «<: ¥ < in m m in m in m m vO © -1 o Z M 4 CM CM CM i-H rH rH rH rH CO CM _ o o o o in m in m O m in O vO o O O © o O vO vO o m m in in o o O vO in o o .° > in in in in ro CO CO CO 00 CM m rH m m m vO vO >o r~ r- in -* -a- * -* nO cm o r- CM m r^ UJ i— i-i r-H <*5 UJ * UJ •a: ac o a- 0> CJN O O 00 o O in m in m o in o o • • • • • • • • • • • • * • • • U_l J"> • —j < £ o o o o r-< m CM CM <* r-H r-H r-t r-H CM Q_ CM o O O CO CO vO no CO CM U O O o o in o in m O O O X O CM O O O O O in o o o o o o O o o — if > O m in m eo r- co co O O O in r- rH O O m o o CO CO o m in o o O in m 4- o 00 00 CM CM CM CM >o CO CO r-i CM rH r-< CO CM r-H CO CO m CM > UJ O o o o o o O o o o O o o o o o O X o o o o o o o o o o o m o o o o o Q_ rH o o o o O O in o O o o m o o O <-< o o O O O o o o o o O CO O m o o o Hi in xs OB co CO (O nO nO vO •* >o ro nO vO -d- r- r~ r- cm nO vO O vO vO vO vO vO nO nO vO \ vO m m vO nO UJ —*~~ r- CO or: o nO 300H1VD X X X X X X X X X X X X XXX X X X X X X X X X X X X UJ u u u u u U X X X X u X to i/5 10 to to or to to to tO to to m tO QC Q > > to to > " O o o o o 0- o o o o o o o O 0. 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CL Q_ CL Q- CL a a. a. a. a. a a o. cv a do. n an CL Q_ a Cl a cl a. a. a. cl 53 ( >o in tn co ^o m MAX MHz fa z »f z z JZ o o o o o o o c o c o o CO -3- CO fM .-1 ^- cm in cm m NO rH z -I o c o CM ^ CM 20 20 25 10 z 60 20 60 X JZ — a: 10 jf'cS CO o c c O 1A 1A H 1 o c c 100 100 100 100 100 O CO in in in, c_> o a. 10 10 10 10 10 10 10 CO >- >°> i— or N0NN03 l_) U LJ u C C C C C u C C in m m o o o o o o m o 150 150 150 H--c° CO co co in in in r- r-- r- co in H o o o o o Q_ CO CO CO c o 100 35 35 E m C=> 3 3 3 O O O 3 3 3 O O 3 10W rH rH CO CO co 1500 1500 1500 1500 1500 0- o c O c o o 4000 4000 E 4- in in rH O O o o CM CM CM o CD < X o co CM o o 100 z i— O rH z=3 2000 2000 2000 2000 2000 CM 5000 2500 UJ < X 7H X M E r- < < < o o o o o o x o o 2A 2A 500 l-t E rH -> o c o o c c m o o CM CM cm in in m i-h cm in 200 200 200 200 200 O m in in in in in in in in o UI > O >° CM CO CM -* >* 3- CO CO CO CM -3- O HHu\m in ^ V "V i-l rH 1 1 1 1 1 60 3 3 o m in in in in CD o o 15 15 15 15 m > CO CO CM CO C^ CM CO 15 60 60 lX cl a a a cl a cl a cl P P P P P CL Z Q q a O < SAN SAN SAN IS ld o o o U O O <£ O G G G G G O LO oe UJ CB CO < < CD < < < CM CM •* -» Jif> lO »0 vO ON rH O o o o o o o c o c P607A P608A O C P701A P702A UJ iO nC vC vD nO o so r~- Po08 a. CL cl cl a a a a a a q. P607 P609 a a. P702 54 GROUP n DIODES-RECTIFIERS MAXIMUM MAXI HUM 6> 25 °C MAXIMUM TYPE T*C *Mox FIC TYPE NUMBER TOpr Ef If #>25C PIV » MIN #25 EFP mA •c A V MHz mA 1 •c V Mma Mv 1 D1A GEP 16 70 20 1.0 2 250 10 20 150 1 DIB GEP 16 70 30 1.0 1 250 25 20 150 1 DID GEP 16 70 75 1.0 2 250 75 20 150 1 DIG GEP 16 70 50 1.0 5 250 50 20 150 1 D1V GEP 25 70 30 1.0 8 250 25 20 150 1 D1YE GEP 12 70 100 1.0 1 250 100 20 150 1 D1ZH GEP 12 70 100 1.0 5 250 100 20 150 1 DG-TS1 * GEP 16 70 /l 50 #1*0 2 1000 50 20 6 D2A GEP 50 70 7 1.0 50 250 7 20 150 6 D2B GEP 16 70 10 1.0 10 250 10 20 150 6 D2D GEP 16 70 50 1.0 10 250 50 20 150 6 D2G GEP 16 70 50 1.0 5 250 50 20 150 6 D2I GEP 16 70 150 *1.0 2 250 150 20 150 4 D2K * GEP 16 70 100 1.0 5 800 100 20 4 D2M * GEP 16 70 100 1.0 5 250 100 20 4 D2N * GEP 16 70 150 1.0 5 800 150 20 4 D2P * GEP 16 70 150 1.0 5 250 150 20 4 42R * GEP 16 70 200 1.0 5 250 200 20 4 D2V GEP 25 70 30 1.0 10 250 30 20 150 4 D2YE GEP 16 70 100 1.0 10 250 100 20 150 4 D2ZH GEP 8 70 150 1.0 10 250 150 20 150 4 DG-TS2 * GEP 16 70 /l 75 *1.0 4 500 50 20 6 DG-TS3 * GEP 25 50 1.0 2 100 50 20 6 DG-TS4 * GEP 16 70 /l 100 *1.0 2 800 75 20 6 DG-TS5 * GEP 16 70 /l 100 #1*0 1 250 75 20 6 DG-TS6 * GEP 16 70 /l 125 *1.0 1 800 100 20 6 D7A GEP 300 70 50 0.5 300 100 50 20 11 D7B GEP 300 70 100 0.5 300 100 100 20 50K 11 D7D GEP 300 70 300 0.5 300 100 300 20 50K 11 D7G GEP 300 70 200 0.5 300 100 200 20 50K 11 D7V GEP 300 70 150 0.5 300 100 150 20 50K 11 D7YE GEP 300 70 350 0.5 300 100 350 20 50K ri D7ZH GEP 300 70 400 0.5 300 100 400 20 50K n ] DG-TS7 * GEP 16 70 /l 125 *1.0 1 250 100 20 6 DG-TS8 * GEP 25 70 /l 50 *1.0 10 500 30 20 6 D9A GEP 25 70 10 1.0 10 250 10 20 40 1 D9B GEP 40 70 10 1.0 90 250 10 20 40 1 D9D GEP 30 70 30 1.0 60 250 30 20 40 1 D9G GEP 25 70 30 1.0 30 250 30 20 40 1 D9I GEP 30 70 30 1.0 30 120 30 20 40 1 55 GROUP n DIODES-RECTIFIERS MAXIMU M MAXIMUM 6>25 °C MAXIMUM TYPE NUMBER TYPE If T Ef If i,. T*C Max FIG Opr PIV c 025 £>25C » NIN E hP mA •c A V V mA MA v •c MHz | M1 D9K GEP 30 70 30 1.0 60 60 30 20 40 X D9L GEP 15 70 100 1.0 30 250 100 20 40 1 D9M GEP 30 70 30 1.0 60 250 50 20 1 D9V GEP 20 70 30 1.0 10 250 30 20 40 1 D9YE GEP 20 70 50 1.0 30 250 50 20 40 1 D9ZH GEP 15 70 100 1.0 10 250 100 20 40 1 DG-TS9 GEP 50 70 /l 45 *1.0 10 100 10 20 6 D10 GEP 50 70 20 1.5 3 100 10 20 150 4 D10A GEP 50 70 20 1.5 5 200 10 20 150 4 D10B GFP 50 70 20 1.5 8 200 10 20 150 4 DGTS10 GEP 50 70 /l 45 *1.0 5 60 10 20 150 6 Dll GEP 60 70 30 1.0 100 250 30 20 150 4 D12 GEP 60 70 50 1.0 100 250 50 20 150 4 D12A GEP 70 70 50 1.0 100 250 50 20 150 4 DGTS12 GEP 16 70 30 1.0 150 6 013 GEP 60 70 75 1.0 100 250 75 20 150 4 DGTS13 GEP 16 70 ^0 1.0 6 D14 GFP 60 70 100 1.0 100 250 100 20 150 4 D14A GFP 60 70 100 1.0 100 250 100 20 150 4 DGTS14 GEP 16 70 50 1.0 6 D15 GEP 30 1.0 15 300 30 300 DGTS15 GFP 50 70 150 1.0 1 800 150 20 6 D16 GEP 50 1.0 5 500 50 300 D16A GEP 50 1.0 10 500 50 300 DGTS16 GEP 50 70 150 1.0 1 250 150 20 6 D17 GEP IOC 1.0 4 400 100 300 DGTS17 * GFP 50 70 200 *1 .0 1 800 200 20 6 018 GEP 20 70 20 1.0 20 50 20 20 2 019 GFP 45 70 40 1.0 45 100 40 50 1 D19A GFP 60 70 20 1.0 60 100 20 50 1 019B GEP 45 70 20 1.0 45 100 20 50 1 D20 GEP 20 70 10 1.0 10 50 10 20 2 D21 GEP 16 70 150 1.0 5 250 100 20 150 4 DGTS21 GEA 300 70 50 0.5 300 300 50 20 50K 3 DGTS22 GEA 300 70 100 0.5 300 300 100 20 50K 3 DGTS23 GEA 300 70 150 0.5 300 300 150 20 50K 3 0GT524 GFA 300 70 200 0.5 300 300 200 20 50K 3 DGT525 GEA mo 70 300 0.3 100 300 300 20 50K 3 0GTS26 GFA 100 70 350 0.3 100 300 350 20 50< 3 DGTS27 GEA 100 70 400 0.3 100 300 400 20 50K 3 56 GROUP n DIODES-RECTIFIERS MAXIMUM MAXIMUM 6>25 °C MAXIMUM TYPE I E T*C Max FIG TYPE NUMBER TOpr PIV If F * @ 025C » MIN E 025 F mA •c A V V mA MA v 1 •c MHz 1 1 DlOl SIP 50 150 /l 100 2.0 2 100 75 125 600 2 D101A SIP 75 150 /l 100 1.0 1 75 75 125 600 2 D102 SIP 50 150 /l 75 2.0 2 100 50 125 600 2 D102A SIP 75 150 /l 75 1.0 1 100 50 125 600 2 D103 SIP 50 150 /l 30 2.0 2 100 30 125 600 2 D103A SIP 75 150 /l 30 1.0 1 100 30 125 600 2 D104 SIP 30 150 /l 100 2.0 2 150 75 125 600 2 D104A SIP 30 150 /l 100 1.0 1 150 75 125 600 2 D105 SIP 30 150 /l 75 2.0 2 100 50 125 600 2 DIG 5 A SIP 30 150 /l 75 1.0 1 100 50 125 600 2 D106 SIP 30 150 /l 30 2.0 2 100 30 125 600 2 D106A SIP 30 150 /l 30 1.0 1 50 30 125 600 2 D107 SIP 10 125 10 1.0 10 /l 10 50 2 D107A SIP 10 125 10 1.0 10 10 10 125 2 D108 SIP 10 125 30 1.0 10 35 30 25 2 D109 SIP 10 125 50 1.0 10 20 30 25 2 D201A SI 200 125 25 1.5 D201B SI 200 125 50 1.5 D201D SI 400 125 100 2.0 D201G SI 200 125 100 1.5 D201TS SI 400 125 200 2.0 D201V SI 400 125 50 2.0 D201YE SI 200 125 200 2.0 D201ZH SI 400 125 200 2.0 400 500 200 D202 SIA 400 125 100 1.0 400 500 100 125 0.1 13 D203 SIA 400 125 200 1.0 400 500 200 125 0.1 13 D204 SIA 400 125 300 1.0 400 500 300 125 0.1 13 D205 SIA 400 125 400 1.0 400 500 400 125 0.1 13 D206 SIA 100 125 100 1.0 100 100 100 125 0.1 10 D207 SIA 100 125 200 1.0 100 100 200 125 0.1 10 D208 SIA 100 125 300 1.0 100 100 300 125 0.1 10 D209 SIA 100 125 400 1.0 100 100 400 125 0.1 10 D210 SIA 100 125 500 1.0 100 100 500 125 0.1 10 D211 SIA 100 125 600 1.0 100 100 600 125 0.1 10 D214 SIA 5A 125 100 1.0 5A 3000 100 125 16 D214A SIA 10A 125 100 1.0 10A 3000 100 125 16 D214B SIA 2A 125 100 1.0 2000 3000 100 20 IK 16 D215 SIA 5A 125 200 1.0 5A 3000 200 125 16 D215A SIA 10A 125 200 1.0 10A 3000 200 125 16 D215B SIA ?A 125 200 1.0 2000 3000 200 20 IK 16 57 ) GROUP n DIODES-RECTIFIERS MAXIMUM MAXIMUM €> 25 °C MAXIMUM TYPE NUMBER TYPE If T Ef If I 6> E @T*C Max FIG Opr PIV c F r C » MIN E 025 025 Fr I 1 . mA •c A V V mA *A 1 v 1 c MHz D217 5IA 100 125 800 0.5 100 50 800 20 IK 9 D218 SIA 100 125 1000 0.5 100 50 1000 20 IK 9 D219A SIA 50 125 /l 70 1.0 50 30 70 100 2 D220 SIA 50 125 /I 50 1.5 50 20 50 100 2 D220A SIA 50 125 /l 70 1.5 50 30 70 100 2 D220R SIA 50 125 /l 100 1.5 50 4 100 100 2 D221 SIA 400 125 400 1 .0 400 500 AGO 125 3K 13 D222 SIA 400 125 600 1.0 400 500 600 125 3K 13 D223 SIA 50 125 /l 50 1.0 50 50 50 125 2 D223A SIA 50 125 /l IOC 1.0 50 50 100 125 2 D223B SIA 50 125 /l 150 1.0 50 50 150 125 2 D224 SIA 5A 125 50 1.0 5000 3000 50 20 14 D224A SIA 10A 125 50 1.0 10A 3000 50 20 14 D224B SIA 2A 125 50 1.0 2000 3000 50 20 14 D225 SIA 30 125 5 1.0 30 5 20 8 D226 SIA 300 125 400 1.0 300 30 400 20 9 D226A SIA 300 125 300 1.0 300 30 300 20 9 D226D SIA 300 125 100 1.0 300 300 100 80 9 D226G SIA 300 125 200 1.0 300 300 200 80 9 D226V SIA 300 125 ^00 1.0 300 300 300 80 9 D226YF SIA 300 125 400 1 .n 300 300 400 80 9 D229A SIA 400 125 200 1.0 400 50 200 20 15 D229B SIA 400 125 400 1.0 400 50 400 20 15 D230A SIA 300 125 200 1 .0 300 50 200 20 9 D230B SIA 300 125 400 1.0 300 50 400 20 9 D231 (P) SIA 10A 130 300 1.0 10A 3000 300 130 14 D231A(P) SIA 10A 130 300 1.0 10A 3000 300 130 14 D231B(P) SIA 10A 130 300 1.0 10A 3000 300 130 14 D232 (P SIA 10A 130 400 1.0 10A 3000 400 130 14 D?32A(P) SIA 10A 1 30 ^00 1.0 10A 3000 400 130 14 D232B(P) SIA 10A 130 400 1.0 10A 3000 400 130 14 D233(P) SIA 10 A 1 30 500 1.0 10A 3000 500 130 14 D233A SIA 10A 125 500 1.5 10A 3000 500 20 14 D233B(P) SIA 10A 130 500 1.0 10A 3000 500 130 14 D234B(P) SIA 10A 130 600 1.0 10A 3000 600 130 14 D242(P) SI 10A 130 100 1.25 3M 100 130 K1.0 14 D242A(P) SI 10A 130 100 1.0 3M 100 130 K1.0 14 D242B(P) SI 5A 130 100 1.5 3M 100 130 K1.0 14 D243(P) SI 10A 130 2 00 1.25 3M 200 130 K1.0 14 D243A(P) SI 10A 130 200 1.0 3M 200 130 K1.0 14 58 GROUP IT, DIODES-RECTIFIERS MAXIMUM MAXIMUM & 25 °C MAXIMUM TYPE NUMBER TYPE If T Ef If i E g>rc Mox TIC Opr PIV c F e r #>25 MIN E »25C P i . mA •c A V v mA MA v MHz 1 X _ D243B(P) SI 5A 130 200 1.5 3M 200 130 K1.0 14 D244 (P) SI 10A 130 50 1.25 3M 50 130 K1.0 14 D244A(P) SI lOA 130 50 1.0 3M 50 130 K1.0 14 D244B(P) SI 5A 130 50 1.5 3M 50 130 K1.0 14 D245 SI lOA 130 -300 1.25 3M 300 130 K1.0 14 D245A SI lOA 130 300 1.0 3M 300 130 K1.0 14 D245B SI 5A 130 300 1.5 3M 300 130 K1.0 14 D246 SI lOA 130 400 1.25 3M 400 130 K1.0 14 D246B SI 5A 130 400 1.5 3M 400 130 K1.0 14 D247 SI lOA 130 500 1.25 3M 500 130 K1.0 14 0247B SI 5A 130 500 1.5 3M 500 130 K1.0 14 D248B SI 5A 130 600 1.5 3M 600 130 K1.0 14 D302 GEA 1A 70 200 0.25 1A 1000 200 20 50K 16 D303 GEA 3A 70 150 0.3 3A 1000 150 20 50K 16 D304 GEA 5A 70 100 0.3 5A 3000 100 20 50K 16 D305 GEA lOA 70 50 0.35 10A 3000 50 20 50K 16 D310 GEA 500 70 20 100 20 70 7 KTS401A SI 400 70 5A 500 2.5 300 100 500 25 '21 KTS401B SI 500 70 5A 500 2.5 400 100 500 25 22 2D503A SI 20 120 30 1.0 4 30 1 2D503B SI 20 120 30 1.2 4 30 1 D1001 GE 100 80 2000 6.5 100 150 2000 /O.l 17 D1001A GE 100 80 1000 3.5 100 150 1000 /O.l 17 D1002 GE 300 80 2000 7.5 300 300 2000 /O.l 17 D1002A GE 300 80 10O0 4.0 300 300 1000 /O.l 17 D1003A GE 300 80 500 2.0 300 300 500 /O.l 17 D1004 SIA 100 125 2000 4.0 100 100 2000 20 20A D1005A SIA 50 125 4000 4.0 50 100 4000 20 20A D1005B SIA 100 125 4000 6.0 100 100 4000 20 20B D1006 SIA 100 125 6000 6.0 100 100 6000 20 20B D1007 SIA 75 125 8000 6.0 100 100 8000 20 20B I D1008 SIA 50 125 10K 6.0 100 100 10K 20 20B D1009 SIA 100 125 2000 7.0 100 100 2000 20 18A D1009A SIA 100 125 1000 3.5 300 ion 1000 20 19 D1010 SIA 300 125 2000 1.1 300 100 2000 20 18B D1O10A SIA 300 125 1000 5.5 300 1 00 1000 Zn 19 D1011A SIA 300 125 500 2.5 300 100 500 20 19 D1602A GE 300 70 200 1.0 300 1 200 D1602B GE 300 70 300 1.0 300 1 300 D1602V GE 300 70 400 1.0 300 1 4Q0 I 1 GROUP IT-A, DIODES -SWITCHING SWITCH RANGE MAXIMUM CURRENT SWITCH Tl : CAPACITY TYPE NUMBER KIND TYPE SWITCH FIC MAX KIN REVRS. LEAKAGE OFF ON OFF 1 0» V V mA 1 mA mA MA M» /" pF D227-A SWI SI4 10 20 15 5 100 10 0.5 100 13 D227-B SWI SI4 14 28 15 5 100 10 0.5 100 13 D227-D SWI SI4 40 80 15 5 100 10 0.5 100 13 D227-G SWI SI4 28 56 15 5 100 10 0.5 100 13 D227-I SWI SI4 100 200 15 5 100 10 0.5 100 j 13 D227-V SWI SI4 20 40 15 5 100 10 0.5 100 13 D227YE SWI S14 56 112 15 5 100 10 0.5 100 13 D227-ZH SWI SI4 80 160 15 5 100 10 0.5 100 13 D228-A SWI SI4 10 20 15 60 5 0.1 80 9 D228-B SWI SI4 14 28 15 60 5 0.1 80 9 D228-D SWI SI4 40 80 15 60 5 0.1 80 9 D228-G SWI SI4 28 56 15 60 5 0.1 80 9 D228-I SWI SI4 100 200 15 60 5 0.1 80 9 D228-V SWI SI4 20 40 15 60 5 0.1 80 9 D228YE SWI S14 56 112 15 60 5 0.1 80 9 D228-2H SWI SI4 80 160 15 60 5 0.1 80 9 GROUP IT-B, DIODES -TUNNEL MAXIMUM MIN V -M TYPE NUMBER KIND TYPE V CAP FIC *P Vl P MAX MIN mA v mV mV mV pF 3I-301A TUN GAS 2 8 180 650 12 23 3I-301B TUN GAS 5 8 180 850 1150 25 23 31-3016 TUN GAS 10 8 180 800 50 23 3I-301V TUN GAS 5 8 180 1000 1300 25 23 1 I-302A TUN GE 2.3 4.5 60 400 80 23 1I-302B TUN GE 5.8 4.5 60 400 150 23 1I-302G TUN GE 17 4.5 60 400 200 23 1I-302V TUN GE 11.5 4.5 60 400 180 23 GROUP H- C, DIODES-SWITCH CONTROL VOLTAGE MAXIMUM CURRENTS POWER TIME H. TEMP TYPE NUMBER KIND TYPE SWITCH RES. COKT. SWITCH- LEAK MAX K MAX MIN FIC ON OFF ON MAX MIN MAX OFF e V V mA mA A mA W n>W/"C M« M» HM (+I*C D235A CON SI 40 2 20 100 2 1 4 120 5 35 60 125 15 D235B CON SI 100 2 20 100 2 1 4 120 5 35 60 125 15 D235G CON SI 100 2 20 100 2 1 4 120 5 35 60 125 15 D235V CON SI 40 2 20 100 2 1 4 120 5 35 60 125 15 D238A CON SI 50 2 10 20 330 10 35 50 100 32 D238B CON SI 100 2 10 20 330 10 35 50 100 32 D238D CON SI 100 2 > 10 20 330 10 35 50 100 32 D238G CON SI 50 2 10 20 330 10 35 50 100 32 D238V CON SI 150 2 10 20 330 10 35 50 100 32 D238YE CON SI 150 2 10 20 330 10 35 50 100 32 GRO JP H-D, DIODES -VARACTORS CAPACITY «> TEMP MAXIMUM 4V POWER TYPE NUMBER KIND TYPE VOLTS *R MIN MAX TC EXP Q MAX MIN MAX FIC V MA pF pF H AlW H«C (+)«C D901A VAR SI 80 1 22 32 5 4 25 250 60 125 7 0901B VAR SI 45 1 22 32 5 4 30 250 60 125 7 D901D VAR SI 80 1 34 44 5 4 25 250 60 125 7 D901G VAR SI 45 1 28 38 5 4 30 250 60 125 7 D901V VAR SI 80 1 28 38 5 4 25 250 60 125 7 D901YE VAR SI 45 1 34 44 5 4 30 250 60 125 7 60 GROUP IE, DIODES- POWER RECTIFIERS MAXI MUM MAXIMUM E IN R VOLTS COOL TYPE NUMBER KINO TYPE OPR E KIND RATE If f AVAILABLE FOR FOLLOWING SUBCLASSES TEMP Amp V mA 15 30 45 50 55 TO 80 100 110 150 2H 3H 4H 5H 6H TH 8H DC VG-5 POW GE 75 5 0.5 X X X X X X X AN VG-5 POW GE 7.5 10 0.5 X X X X X AF 10M VG-10 POW GE 75 10 0.5 X AN VG-10-30 POW GE 75 20 0.5 10 X AF 10M VG-10-45 POW GE 75 20 0.5 8 X AF 10M VG-10-55 POW GE 75 20 0.5 6 X AF 10M VG-10-80 POW GE 75 20 0.5 5 X AF 10M VG-10-110 POW GE 75 20 0.5 h X AF 10M VG-10-150 POW GE 75 20 0.5 3 X AF 10M VG-30 POW GE 75 30 0.5 X X X X X AF 10M VG-50 POW GE 75 50 0.5 40 X X AF 10M VG-50 POW GE 75 50 0.5 30 X X AF 10M VG-50 POW GE 75 50 0.5 20 X X X AF 10M VG-100 POW GE 75 100 0.5 X X X X X AF 10M VGV200 POW GE 75 200 0.6 100 X X X X X X X W 4L VGV500 POW GE 75 500 0.6 X X X X w 4L VGV1000 POW GE 75 1000 0.8 X X X X w 4L VK-lO POW SI 200 10 0.9 X X X X X X X XXX AN VK-10 POW SI 200 20 0.9 X X X X X X X X AF 15M VK-25 POW SI 200 25 0.9 X X X X X X X X AF 5M VK-25 POW SI 2 00 50 0.9 X X X X X X X X AF 15M X VK-50 POW SI 200 50 0.9 X X X X X X X X AF 5M VK-50 POW SI 2 00 100 0.9 X X X X X X X X AF 15M X VK-100 POW SI 200 100 0.9 X X X X X X X X AF 10M VK-100 POW SI 200 150 0.9 X X X X X X X X AF 15M X VK-200 POW SI 200 200 0.9 X X X X X X X AF 15M X VKV200 POW SI 200 200 0.9 X X X X X X X W 4L X VKV200 POW SI 200 500 0.9 X X X X X W 4L X VKVIOOO POW SI 200 1000 0.9 X X X X W 4L X 61 GROUP HI -A , SILICON CONTROLLED RECTIFIERS MAX. MAXIMUM AIR -COOL WATER-COOL MwEft TYPE NUMBER KIND TYPE NONE JATJ Ir FIG WITH PIV FORCED 1 CATE WIDTH RAO AIR RAO 2L/m A /*• mi 5L/m V w w V I VKU-10-0.25 SCR SI4 1 5 10 50 20 1.25 20 1.0 20 20 24 VKU-lO-0.5 SCR SI4 1 5 10 100 20 1.25 20 1.0 20 20 24 VKU-10-0.75 SCR SI 4. 1 5 10 150 20 1.25 20 1.0 20 20 24 VKU-10-1.0 SCR SI4 1 5 10 200 20 1.25 20 1.0 20 20 24 VKU-10-1.5 SCR SI4 1 5 10 250 20 1.25 20 1.0 20 20 24 VKU-10-2.0 SCR SI4 1 5 10 400 20 1.25 20 1.0 20 20 24 VKU-10-2.5 SCR SI4 1 5 10 500 20 1.25 20 1.0 20 20 24 VKU-10-3.0 SCR SI4 1 5 10 600 20 1.25 20 1.0 20 20 24 VKU-20-0.25 SCR SI4 3 10 20 50 20 1.25 20 1.0 20 20 25 VKU-20-0.5 SCR SI4 3 10 20 100 20 1.25 20 1.0 20 20 25 VKU-20-0.75 SCR SI4 3 10 20 150 20 1.25 20 1.0 20 20 25 VKU-20-1.0 SCR SI4 3 10 20 200 20 1.25 20 1.0 20 20 25 VKU-20-1.5 SCR SI4 3 10 20 250 20 1.25 20 1.0 20 20 25 VKU-20-2.0 SCR SI4 3 10 20 400 20 1.25 20 1.0 20 20 25 VKU-20-2.5 SCR SI4 3 10 20 500 20 1.25 20 1.0 20 20 25 VKU-20-3.0 SCR SI4 3 10 20 600 20 1.25 20 1.0 20 20 25 VKU-50-0.25 SCR SI4 15 32 50 50 30 1.87 20 1.5 20 20 25 VKU-50-0.5 SCR SI4 15 32 50 100 30 1.87 20 1.5 20 20 25 VKU-50-0.75 SCR SI4 15 32 50 150 30 1.87 20 1.5 20 20 25 VKU-50-1.0 SCR SI4 15 32 50 200 30 1.87 20 1.5 20 20 25 VKU-50-1.5 SCR SI4 15 32 50 250 30 1.87 20 1.5 20 20 25 VKU-50-2.0 SCR SI4 15 32 50 400 30 1.87 20 1.5 20 20 25 VKU-50-2.5 SCR SI4 15 32 50 500 30 1.87 20 1.5 20 20 25 VKU-50-3.0 SCR SI4 15 32 50 600 30 1.87 20 1.5 20 20 25 VKUlOO-0.25 SCR SI4 22 100 50 40 2.5 20 2.0 20 20 26 VKUlOO-0,5 SCR SI4 22 100 100 40 2.5 20 2.0 20 20 26 VKUlOO-0.75 SCR SI4 22 100 150 40 2.5 20 2.0 20 20 26 VKUlOO-1.0 SCR SI4 22 100 200 40 2.5 20 2.0 20 20 26 VKU100-1.5 SCR SI4 22 100 250 40 2.5 20 2.0 20 20 26 VKU100-2.0 SCR SI4 22 100 400 40 2.5 20 2.0 20 20 26 VKUlOO-2.5 SCR SI4 22 100 500 40 2.5 20 2.0 20 20 26 VKU100-3.0 SCR SI4 22 100 600 40 2.5 20 2.0 20 20 26 VKUV-100-0.25 SCR SI4 15 60 100 50 40 2.5 20 2.0 20 20 27 VKUV-100-0.5 SCR SI4 15 60 100 100 40 2.5 20 2.0 20 20 27 VKUV-100-0.75 SCR SI4 15 60 100 150 40 2.5 20 2.0 20 20 27 VKUV-100-1.0 SCR SI4 15 60 100 200 40 2.5 20 2.0 20 20 27 VKUV-100-1.5 SCR SI4 15 60 100 250 40 2.5 20 2.0 20 20 27 VKUV-100-2.0 SCR SI4 15 60 100 400 40 2.5 20 2.0 20 20 27 VKUV-100-2.5 SCR SI4 15 60 100 500 40 2.5 20 2.0 20 20 27 VKUV-100-3.0 SCR SI4 15 60 100 600 40 2.5 20 2.0 20 20 27 62 GROUP](IN DIODES- REGULATORS MAXIMUM TYPICAL MAX KIND TYPE TC K TYPE NUMBER p E AE z * FIG *z Opr z 2 2 h mA C mW V % mA ii %/°c mW/ D808 REG SI 33 125 280 7.7 10 5.0 6 .07 3 17 D809 REG SI 29 125 280 8.7 10 5.0 10 .08 3 17 D810 REG SI 26 125 280 9.7 10 5.0 12 .09 3 17 D811 REG SI 23 125 280 11.0 10 5.0 15 .095 3 17 D813 REG SI 20 125 280 12.7 10 5.0 18 .095 3 17 D814-A REG SI 40 125 340 7.8 10 5.0 6 .07 5 D814-B REG SI 36 125 340 8.8 10 5.0 10 .08 5 D814-D REG SI 24 125 340 12.8 10 5.0 18 .095 5 D814-G REG SI 29 125 340 11.0 10 5.0 15 .095 5 D814-V REG SI 32 125 340 9.8 10 5.0 12 .09 5 D815A(P) REG SI 125 8W 5.6 10 A1.4 /l .045 13 D815B(P) REG SI 125 8W 6.8 10 Al.l /l .05 13 D815D(P) REG SI 125 8W 12.0 10 650 2 .09 13 D815G(P) REG SI 125 8W 10.0 10 8 00 2 .08 13 D815V(P) REG SI 125 8W 8.2 10 950 1 .07 13 D815YE(P) REG SI 125 8W 15.0 10 550 3 .10 13 D815ZH(P) REG SI 125 8W 18.0 10 450 3 .11 13 D816A(P) REG SI 125 5W 22 10 230 7 .12 13 D816B(P) REG SI 125 5W 27 10 180 8 .12 13 D816D(P) REG SI 125 5W 47 10 110 15 • 12 13 D816G(P) REG SI 125 5W 39 10 130 12 .12 13 D816V(P) REG SI 125 5W 33 10 150 10 .12 13 D817A(P) REG SI 125 5W 56 10 90 35 .14 13 D817B(P) REG SI 125 5W 68 10 75 40 .14 13 D817G(P) REG SI 125 5W 100 10 50 50 • 14 13 D817V(P) REG SI 125 5W 82 10 60 45 .14 13 D818A REG SI 33 120 300 9.0 11.0 18 .02 70 8 D818B REG SI 33 120 300 9.0 11.0 18 .02 70 8 D818D REG SI 33 120 300 9.0 11.0 18 • 002 70 8 D818G REG SI 33 120 300 9.0 11.0 18 • 005 70 8 D818V REG SI 33 120 300 9.0 11.0 18 .01 70 8 D818YE REG SI 33 120 300 9.0 11.0 18 .001 70 8 2S920A(P) REG SI 42 130 5W 120 100 • 16 13 2S930A(P) REG SI 38 130 5W 130 120 • 16 13 2S950A(P) REG SI 33 130 5W 150 170 .16 13 2S980A(P) REG SI 28 130 5W 180 220 .16 13 63 GROUP HE, DIODES -MIXERS AND DETECTORS TYPICAL MAXIMUM NIN OPR"rEMP WAVE- CUR TYPE NUMBER KIND TYPE RES LC NF VSVR PULSE PWR PULSE ENERGY MIN MAX FIC LENGTH SENS CONT PEAK CONT PEAK ft cm db mW I mW •rg •rg A/W (-)*C (+)*C DG-Sl MIX GE 9.8 400 8.5 3.0 3.0 80 250 0.1 3 .0 60 70 28 DK-I1 DET SI 9.8 2 00 0.5 50 70 30 DK-51 MIX SI 9.8 400 8.5 2.7 3.5 80 200 0.1 2 .0 60 70 30 DK-V1 VID SI 9.8 15K 50 200 0.8 50 70 20 DG-S2 MIX GE 9.8 400 6.5 3.0 3.0 80 250 0.1 3 .0 60 70 28 DK-I2 DET SI 3.2 200 0.2 50 70 30 DK-S2 MIX SI 9.8 400 6.5 2.0 3.0 50 100 0.06 2 .0 60 70 30 DK-V2 VID SI 9.8 10K 50 100 1.2 50 70 20 D3A VID SI 3.2 950 2.5 50 300 60 70 20 D3B VID SI 9.8 950 2.5 50 3 00 60 70 20 DG-S3 MIX GE 3.2 400 8.5 3.0 3.5 80 250 0.1 3 .0 60 70 28 DK-S3 MIX SI 3.2 400 8.5 2.7 3.0 50 200 0.06 .6 60 70 30 DK-V3 VID SI 3.2 15K 50 200 0.4 50 70 20 DG-S4 MIX GE 3.2 400 6.5 3.0 3.0 50 250 0.1 3 .0 60 70 28 DK-S4 MIX SI 3.2 400 6.5 2.7 2.5 30 100 0.06 .3 60 70 30 DK-V4 VID SI 3.2 10K 50 100 0.8 50 70 20 DK-V5 VID SI 9.8 10K 50 200 0.8 50 70 30 DK-V6 VID SI 9.8 25K 50 200 0.8 50 70 30 DK-S7 MIX SI 3.2 900 7.0 2.0 2.0 50 0.15 60 80 28 DK-V7 VID SI 3.2 10K 50 200 0.4 50 70 30 D401 MIX GE 8.5 IK 13.0 15 5 50 29 D403A MIX GE 9.8 700 9.0 3.0 3.0 150 0.15 60 100 20 D403B MIX GE 9.8 600 8.5 3.0 3.5 150 0.15 '60 100 20 D403V MIX GE 9.8 600 9.0 13.0 2.8 150 0.15 60 100 20 D405 MIX SI 400 7.0 2.0 80 0.6 60 100 31 D405A MIX SI 350 6.0 1.7 80 1.0 60 100 31 D405AP MIX SI 350 6.0 1.7 80 1.0 60 100 31 D405B MIX SI 330 8.0 1.4 80 1.0 60 100 31 D405BP MIX SI 330 8.0 1.4 80 1.0 60 100 31 D602A VID GE 3.2 600 3.2 50 1.5 60 85 28 D602B VID GE 3.2 900 3.2 50 1.5 60 85 28 D602V VID GE 3.2 900 3.2 50 4.0 60 85 28 D603 VID si 9.8 900 2.0 200 4.0 60 100 30 64 I 1 ( 1 CM - E -d" -a vo ir\ m m o o -* in in 1-1 4- O rH in O CM in •* -* r^ m m m in *: £ E CM r\j O CM f\j CM m CM CM CM CM <-< CM CM in CM CM CM r-t i-i r-H O <-< ^ rH rH rH rH CM i— CM in CM 3E o O O CM CO C9 E • • • • • • UJ * I-H O Oi-i O X o •< o o o o o o o o O O O O m O OOO c 0000 Q_ + \D vO *0 •* 00 oo co -* co vo -a- in -* .4- UJ u> h— IE o o o o o o o o in OOO 00000 0000 -* * T •O O >D \0 *o •0*0 •0 MO •* vO \0 -0 >© *o >o *o *o vO •£> O vO uj tr o O 2ES £ t-H i-H O rH rH h- UJ m in r^l N o E i-H in r-t Q_ a: a_ O ac ae < or CO in s- z m o o O O m in O C co in I O O LO O O in OOOO jj > t-H <-H o o O O rH CM rH O O I-H CO rH in O rH i-H O rH O O CO OOOO § rH (M CO CM CM «* CO CO CO CO CM CO rH CO LU Lu z CO to 1/5 CO to tO to CO cO CO CO CO CO CO cO cO tO tO CO cO CO CO CO CD CD CD Q Q O O LU —1 CD O O LU UJ LU CD — O LU CO co 0. a cd ~ a a o. a Q. U U u u CO D. LJ UOOO O. CO U O 0- u a cj v o. CO u u u U-l CD ^E ^O "^ < < o o > o o O > >-l r-l 1— i-i i-H i-H r-l CM CM CM CM CO CO co «s- ^- m so •O vO r^ eo U_l << 65 GROUP HE, PHOTO AND PHOTOMULTIPLIER TUBES BULB DIMEN CATHODE MAXIMUM OUTPUT SENS DYNODE! i KINO TYPE OIAM LGTH AREA SURF SENS DARK I Mil OPR MAN. NO TYPE NUMBER Q_ C9 (-) UJ CO mm mm cm f-xm V Amp |Exp Amp/L F-l PHO vc T 39 104 S2 30 5 11 FEU-1 PHO G 40 124 S2 400 250 1 7 1 220 FEU-IB PHM B 80 285 44 S13 90 2000 300 1 7 3 L AMK 11 6 FEU-1B1V PHM T 80 225 44 S13 90 2500 1M 1 7 30 C AMK 10 7 FEU-1B2V PHM T 80 225 44 S13 30 2500 1 7 300 C AMK 12 7 FEU-IS PHM T 48 205 12 S13 90 1950 300 1 7 3 L AMK 11 6 FEU-1V PHM T 48 166 12 S13 90 2500 1M 1 7 30 C AMK 10 7 TSG-1 PHO GS G 56 131 SI 75 240 1 7 1 TSV-1 PHM VC G 56 131 SI 20 240 1 7 1 F-2 PHO vc T 20 67 S2 5 2 1 8 1 FEU-2 PHM G 31 71 S2 400 250 1 7 1 220 FEU-2B PHM 150 295 155 S13 90 2000 300 1 7 3 L AMK 11 6 FEU-2B1V PHM B 80 225 44 S13 90 2500 1 7 C 12 7 FEU-2M PHM T 34 130 5 S13 90 1600 300 1 7 3 L AMK 13 5 FEU-2V PHM T 50 170 12 sio 90 2500 1M 1 7 300 C AMK 12 7 STSV-2A F-3 PHM VC G 92 163 40 50 FEU-3B PHM B 200 295 227 S13 90 2000 300 1 7 3 L AMK 11 6 FEU-3M PHM T 19 75 /2 S13 90 1500 100 5 8 1 L AMK 8 5 FEU-R3 PHM T 47 109 2 S13 90 1400 1 10 C 10 STSV-3 PHO VC G 27 62 S2 80 240 1 8 1 TSG-3 PHO GS G 27 62 SI 100 240 1 7 1 TSV-3 PHO VC G 27 62 SI 20 240 1 7 1 F-4 PHO VC T 39 104 S2 70 80 1 14 STSV-4 PHO VC G 39 129 S2 80 240 1 7 1 TSG-4 PHO GS G 39 129 SI 100 240 1 7 1 TSV-4 PHO VC G 39 129 SI 20 240 1 7 1 F-5 PHO T 42 104 SI 100 8 11 FEU-R5 PHM T 47 109 2 S13 90 1400 1 7 1 C 10 F-6 PHO G 33 76 S7 40 100 1 11 STSV-6 PHO VC T 27 104 SI 30 5 11 TSV-6 PHO VC T 27 104 SI 30 5 11 F-8 PHO G 27 62 S2 80 150 1 8 FEU-11 PHM T 52 235 16 S5 80 2500 8 7 5 V CAM 12 7 FEU-12 PHM T 52 235 16 sio 80 2500 8 7 5 V CAM 12 7 66 GROUP HE, PHOTO AND PHOTOWULTIPLIER ruB ES BULB D MEN CATHODE MAXIMUM OUTPUT SENS DYNODES KIND TYPE LU 01AM L6TH AREA SURF SENS DARK I NIN OPR NO TYPE NUMBER Q. E MAfL u_ <« MA. b V —1 l(-) CO UJ mm mm cm Xm V Amp| Exp Amp/L ea •< FEU-13 PHM T 52 162 17 S13 50 2200 4 7 6 2200 L CAM 12 FEU-14 PHM T 52 162 17 S10 40 2200 4 7 6 2200 L CAM 12 FEU-15 SCC T 31 115 3 S10 25 2200 4 7 6 1700 L CAM 12 FEU-16 SCC T 31 115 12 S13 25 2200 4 7 6 1700 L CAM 12 FEU-17 PHM T 48 181 /l S13 20 1400 100 3 7 10 900 L 13 FEU-17A PHM T 48 181 /l S13 20 1400 100 3 7 10 900 L 13 FEU-18 PHM T 48 181 /l S3 20 1400 100 3 7 10 900 L 13 FEU-18A PHM T 48 181 /l S3 20 1400 3 7 10 900 L 13 FEU-19M PHM T 48 195 9 S10 35 2600 200 1 5 1000 2600 L 13 7 FEU-20 PHM T 34 95 5 S13 20 1400 100 8 9 1 900 L 8 FEU-22 PHM T 48 181 /l SI 25 2000 300 2 8 1 1400 L 13 FEU-23 PHM 305 450 700 S10 20 2400 10 10 L AMK 11 5 FEU-24 SCC T 80 230 44 S13 25 2000 100 3 7 10 1600 L 13 6 FEU-25 PHM T 34 109 5 S13 20 1700 100 5 8 1 1250 L 9 6 FEU-26L PHM T 22 70 /l S13 20 900 2 8 10 2000 7 FEU-27 PHM T 30 108 5 S17 30 2000 5 9 1 FEU-29 SCC T 48 195 9 S13 30 2300 200 3 8 10 1400 L CAM 13 7 FEU-31 PHM T 22 79 10 S13 20 1400 750 5 7 10 1300 L 8 FEU-32 PHM T 34 123 5 S10 25 1800 2 00 1 8 1 L AMK 11 6 FEU-33 SCC T 48 195 9 S13 30 2900 1 6 100 2100 L 13 7 FEU-34 PHM 9 S13 30 2700 1 5 1000 L 13 FEU-35 SCC T 31 113 5 S13 30 1750 4 9 10 1400 L 8 FEU-36 PHM 48 195 12 S13 30 2900 1M 2 5 2900 L 13 FEU-37 PHM 48 178 9 S13 30 1800 200 3 6 1800 L 11 FEU-38 PHM 9 S20 90 2 000 1 7 100 L 13 FEU-39 PHM 9 S13 25 1700 6 9 10 L 11 FEU-40 NSP T 20 91 S13 30 1900 5 7 1 8 FEU-42 NSP T 48 205 S13 30 2200 1 7 1 1800 11 FEU-43 NSP T 80 290 S13 30 2200 1 7 1 1800 11 FEU-44 NSP B 150 310 S13 30 2200 1 7 1 1800 11 FEU-45 NSP B 200 340 S13 30 2200 1 7 1 1800 11 FEU-46 NSP T 48 130 S13 30 1800 1 10 1 1800 10 FEU-47 NSP T 48 169 S13 30 2500 1 7 1 2300 10 FEU-48 NSP T 80 230 S13 30 2500 1 7 1 2300 10 FEU-49 PHM B 170 220 95 S20 80 3500 1 8 10 1800 12 5TSV51 PHO VC G 30 63 S2 80 240 1 8 FEU-52 PHM B 80 125 45 S20 80 3000 5 8 8 1700 V CAM 12 7 FEU-53 PHM T 51 117 16 S9 40 2500 10M 4 7 40 1700 V CAM 14 7 67 GROU D "mTT T HERMOCOUPLE UJ DIMENSIONS TYPICAL TYPE NUMBER KIND THERMO *mo» DIAN LENGTH Ih ELEC. 2 - mm ] join mA mV J I J MHz. TVB-l THM 20 30 1 /3 40 200 TV-2 THM 13 23 100 30 35 5 TVB-2 THM ' 20 30 3 5 40 200 TVB-3 THM 20 30 5 10 40 200 TV-4 THM 13 23 50 30 35 5 TVB-4 THM 20 30 10 12 40 200 TV-5 THM 13 23 75 30 35 5 TVB-5 THM 20 30 30 12 40 200 TVB-6 THM 20 30 30 12 40 200 TVB-7 THM 20 30 100 12 40 200 TVB-8 THM 20 30 300 12 40 200 TVB-9 THM 20 30 500 12 40 2 00 TV-14 THM 13 23 250 30 15 5 TV-15 THM 15 20 500 30 35 5 TV-16 THM 15 20 1000 30 35 5 GROUP 131, THERMISTORS OIMEN RESISTAN(;e TEMP. POWER TYPE NUMBER KIND USE DIAN LTH SHAPE NIN MAX T.C. NIN NAX NIN NAX SENS am — a a % H°C M°C mW mW mW KMT-l TMS MEA 13 /4 CYL 20K 1M 5.1 20 180 8H MMT-1 TMS MEA 13 /4 CYL 1 200 2.9 70 120 4H KMT-4 TMS MEA 24 7 CYL 20K 1M 5.1 20 180 8H MMT-4 TMS MEA 24 7 CYL 1 200 2.9 70 120 MMT-6 TMS 10 1000 2.9 70 120 50 KMT-8 TMS 100 10K. 4.6 40 60 MMT-8 TMS COM 22 23 DSC 1 1000 2.9 40 60 10 T8D TMS POW 8 3 CYL 150 10 15 20 T8E TMS POW 8 3 CYL 150 7 10 30 T8M TMS POW 8 3 CYL 200 9 11 66 T8R TMS POW 8 3 CYL 125 7 12 10 T8S1 TMS POW 8 3 CYL 120 9.5 24 10 T8S1M TMS POW 8 3 CYL 120 9.5 24 10 T8S2 TMS POW 8 3 CYL 150 8 19 12 T8S2M TMS POW 8 3 CYL 150 6 19 12 T8S3 TMS POW 8 3 CYL 150 7 23 10 T8S3M TMS POW 8 3 CYL 150 7 23 10 MMT-9 TMS COM /3 19 DSC 10 5000 2.9 60 120 10 T9 TMS POW 8 3 CYL 125 7 19 10 KMT10 TMS CON 30 6 CYL 100K 3M 5.1 120 2H KMT-11 TMS CON /4 /l CYL 100K 3M 5.1 120 2H KMT-12 TMS 100 10K 4.6 40 120 MMT-12 TMS 5 5K 2.9 40 120 3 68 —c — i 1 1 i1i1I I — i t •A v: CM m r-H AC o o o O O in Oin in co c UJ .—I u- "*- i ^ -H V iZ r-H v: iZ ^ V ^ r-H V ^. ^ ^ ^ ^ gi CM O O o o o o O O o o o r-- m i-H i— I—1 i—1 i-H r-H r-H r-H >f r-H i-H o ^ ^ v: ^ v v: ^ ^ s: v: ^ ^ i^ ^ ^ 51 V V ^ s: s: s: -< XI o co o o o o o o vO m o o o o o O rH O O O rH O \CI i LH -^ CO 00 o m in vo co ~ht in in rH ro CO Z3 a. O O o Q_ CO rH i-H \£) CM CM i-H rH ^ i—I rH CM «j> vO CO UJ O O O o O O O O o O O O O o m x o ^ v v v: *v i—1 CO rH cm cm in m CM O O O o m o .-< s- O C O CO cm o m o O CM I O O m o o o o o x v: 1 1 1 O 1 1 r-H ac Q_ — — — cm r- in CM <)- CO vo o o o r- in in co 2 » r-H in rH en cm CM in rH cr> rH «j> c c o o O O V o o ^ ^ v: o o v^ V V V V V. i^ ^ * coo o O O i-H o o v£) r-H CM O O co in <} cm in m o o «k -* O O O CM r- o o m in m rH CM CM <— r— i-H r-H u. r—1 m 1 CO CO CO UJ e r> O O O O O o o o o o o o o o o O V ^ o o o V ^ «rc c c o o o CO o o o o o o o o o O O rH CM O O vO -c (— £ > CI OM CI o r-H CO CM CM O in co in co m m co j- O CM O O CM O O O O CM in o O in m O CO o o o o co S f co vO co vo i-h cm cm r- ci o oo a 3dVHS ^ i- x> i- h- 1— ID 1— 1— 1 r- Dr-aQ. (— r- i— r> r- r- O O ce <— CO U-l 1 1 CO o o o m m o m o o o o o o o o o o o O O o o o •— 3E 1 rH i—1 rH i— cm cm in r- o O CM O O O o o o o o o o o =3 v a i— v x y wo. h r-H i-H CM C*\ in in in m o o o o o 3E <-0 to tO ll. i/) Ll- CO Ll- tO X X \C Q_ CD ^i. a iHnj 1 ~ »—« *—* •—' 69 GROUP in, COUNTERS UJ DIMENSIONS PLATEAU MAXIMUM TE MP NIN TYPE NUMBER KIND DIAN LENGTH NIN MAX RATE PLATEAU NIN MAX CAP FIC < UJ IIDTH 1 wore ! 10/nin (+)*C mm mm V V V 1 Hie PF L — AS-1 COU BAG 132 18 ;830 940 80 0.2 35 SBS-1 COU BAG 125 800 1200 150 0.03 50 50 SI-1BG COU BAG SQ NI 60 15 375 410 40 50 5 /i 11 SI-1G COU BET SO FE 94 16 280 320 60 80 1.25 40 50 10 5 8 AS-2 COU BAG AL 160 25 750 860 100 0.15 35 SI-2B COU BET SO SN 90 70 1350 1750 8 150 0.5 30 50 10 7 13 SI-2B6 COU BAG so NI 60 15 375 410 40 50 5 3 12 STS-2 COU BET SQ FE 180 24 285 335 40 80 1.25 40 50 10 5 9 SBT-3 COU AAB 93 50 1800 2100 150 30 50 SI-3B COU BET SQ CU 90 40 1650 10 150 0.3 20 40 10 7 6 SNM-3 COU 135 18 700 1000 100 0.05 30 STS-3 COU BET SQ FE 265 23 285 335 30 80 1.25 40 50 10 5 8 GS-4 COU GAM SQ GR 180 23 1100 1300 200 1.0 25 8 3 MS-4 COU GAM SQ CU 180 23 720 780 25 200 1.0 40 50 25 8 4 STR-4 COU BET SQ CU 180 40 1200 1350 25 2 00 0.5 5 35 25 8 7 MSBS-4 COU BET GR 362 23 50 SI-4G COU GAM SQ W 367 33 720 800 25 200 1.0 40 150 25 8 1 VS-4 COU GAM SQ w 180 23 720 800 25 2 00 0.75 40 50 25 8 1 SBS-5 COU BET GR 255 23 50 SGS-5 COU GAM 60 8 340 440 80 0.20 50 50 SNM-5 COU 300 35 1200 1800 100 0.05 20 30 STS-5 COU BET SQ FE 113 12 280 330 100 80 1.25 40 50 10 5 9 GS-6 COU GAM SQ GR 266 23 1100 1300 200 1.0 25 8 3 MS-6 COU GAM SQ CU 266 23 720 780 25 200 1.0 40 50 25 8 4 SGS-6 COU GAM 90 8 340 440 80 0.15 40 80 STS-6 COU BET SQ FE 200 22 285 335 60 80 1.25 40 50 10 5 10 VS-6 COU GAM SO W 266 23 720 800 25 200 0.75 40 50 25 8 1 GS-7 COU GAM SQ GR 145 16 1100. 1300 150 1.0 25 30 3 MS-7 COU GAM SQ CU 145 16 720 780 25 100 1.5 25 50 25 30 4 SAT-7 COU ALP 70 25 330 400 60 0.12 40 50 SBM-7 COU BET 335 26 50 SBT-7 COU BET 72 20 340 380 80 0.12 40 50 SNM-7 COU 650 35 1800 2500 100 0.05 30 GS-8 COU GAM SQ GR 185 16 1100 1300 150 1.0 25 30 3 MS-8 COU GAM SQ CU 185 16 720 780 25 100 1.5 25 50 25 30 4 70 GROUP HI, COUNTERS UJ DIMENSIONS PLATEAU MAXIMUM TEMP MIN s R| TYPE NUMBER UNO | ac OIAM LENGTH NIN MAX RATE PLATEAU NIN MAX CAP FIG 1 UJ « •I0TH 1 ac .J score o mm V V 10/tnin (-)'C mm v 1 %v W'C PF Mfi SAT-8 cou AAB 4 500 1000 300 0.03 40 50 SBM-8 cou BET 335 26 50 SBT-8 cou AAB 75 20 1100 1700 150 30 30 SNM-8 cou 16H 35 1300 1700 150 0.05 30 STS-8 cou BET SQ FE 220 23 285 335 40 80 1.25 40 50 10 5 8 VS-8 cou GAM SQ W 185 16 720 800 25 150 1.0 40 50 25 30 1 GS-9 cou GAM so GR 367 33 1100 1300 250 1.0 25 8 3 MS-9 cou GAM SQ CU 367 33 720 780 25 250 1.0 40 50 25 8 4 SNM-9 cou 133 20 1000 1600 400 0.05 30 VS-9 cou GAM SQ W 367 33 720 800 25 250 0.75 40 50 25 8 1 GS-10 cou GAM SQ GR 225 16 1100 1300 150 1.0 25 30 3 SBT-10 cou AAB LD 51 340 460 80 60 60 GS-11 cou GAM SQ GR 185 33 1100 1300 2 00 1.0 25 8 3 MS-11 cou GAM SQ CU 185 33 720 780 25 200 1.0 40 50 25 8 4 VS-11 cou GAM SQ W 185 33 720 800 25 200 0.75 40 50 25 8 1 GS-12 cou GAM SQ GR 145 16 1100 1300 150 1.0 25 30 3 MS-12 cou GAM SQ CU 145 16 720 780 25 100 1.5 25 50 25 30 4 MS-13 cou GAM SQ CU 100 23 720 780 25 2 00 1.5 40 50 25 8 5 VS-13 cou GAM SQ w 100 23 720 800 25 150 1.0 40 50 25 8 2 MS-14 cou GAM SQ CU 160 23 720 780 25 200 1.0 40 50 25 8 5 VS-14 cou GAM SO w 160 23 720 800 25 200 0.75 40 50 25 8 2 MS-16 cou GAM SQ CU 250 23 720 780 25 200 1.0 40 50 25 8 5 VS-16 cou GAM SQ w 250 23 720 800 25 200 0.75 40 50 25 8 2 MST-17 cou BET SQ CU 100 40 1600 10 150 0.5 30 50 10 7 6 T20BFL cou AAB 7 20 1200 1300 300 0.01 20 40 T25BFL cou AAB 7 25 1300 1400 300 0.01 20 40 GS-30 cou GAM SQ GR 662 33 1100 1300 150 1.0 25 8 3 T30BFL cou AAB 7 30 1400 1500 300 0.01 20 40 T40BFL cou AAB 7 40 1500 1600 300 0.01 20 40 T50BFL cou AAB 7 50 1500 1600 300 0.01 20 40 GS-60 cou GAM SQ GR 667 63 1100 1300 150 1.0 25 8 3 T60BFL cou AAB 7 60 1900 2000 3 00 0.01 20 40 T80BFL cou AAB 80 90 2000 2100 300 0.01 20 40 71 GROU p XXii DISCHARGE DIODES DIME CATH FIR N6 PULSE MIN MAX AHB.TE- LTH DIAN CAS UJ KINO MIN MAX I-omp TINE OPERATINC INTER CAP HIN MAX TYPE NUMBER O- >- J-Joult FREQUENCY RES *" mm mm V V • pp» ua PF (-)*C (+)"C RB-l 52 19 C BA 150 190 400 R-2 17 16.5 C 1300 2K 600 20 50 80 RB-2 25 19 C BA 220 50 15U 50 100 /l 60 70 R-3 70 21.5 C BAO 600 140 12U 300 100 1 60 70 RB-3 41 22 C BA 220 235 30 1HU 7 100 60 70 R-4 C BAO 75 R-5 41 22 C BAO 160 250 100 RB-5 60 16 C BA 340 460 10J 1 200 60 70 RB-5A 60 16 C BA 370 510 /U 8 60 50 R-6 110 55 800 200 M 100 R-7 45 18 HK C BAO 270 330 2 20 10 60 100 R-8 50 20 HK C BAO 450 550 2 20 10 60 100 R-9 55 20 HK C BAO 900 1100 2 20 10 60 100 R-10 55 20 HK C BAO 1375 1725 2 20 40 60 100 R-ll 132 35 C NI 2250 2750 2HU R-12 30 12 AR C K 145 175 20 1U 1000 R-54 7200 9800 RB-90 62 17.5 NA C BA 80 100 30M 2 0, 005 100 100 60 70 SK-127 37 20 NA MG 72 1 20 1 SK-220 37 20 HE 140 /l 20 1 RB-280 210 95 AR C BA 250 310 30 10 0. 002 40 20 60 70 R-350 62 20 AR C BA 310 390 3 2 0. 002 5K 10 50 50 RB-350 210 95 AR C BA 310 390 30 10 0, 002 40 20 60 70 RB-430 210 95 AR C BA 390 470 30 10 0. 002 40 20 60 70 R-450 62 20 AR C BA 440 480 3 2 0. 002 5K 10 50 50 GROUP Um DECATRONS VOLTAGES TYP PULSE DIM EN TYPE NUMBER KIND MAXIMUM TYPICAL h TYP MAX LTH DIA IFIRIMCI BIAS ORP OPER IK.K, TIME RATE Eh | v 1 v' mA MS KHz mm OG-l DEC 450 300 150 15 150 50 1.3 40 8 77 34 OG-2 DEC 450 300 150 15 150 50 1.3 60 3 77 34 OG-3 DEC 460 420 120 15 190 40 0.7 18 20 83 34 OG-5 DEC 400 350 120 20 175 60 1.3 35 10 74 34 GROJH , LIGH SCRN MAX RESOL AMP TYP COLOR SCREEN TYPE NUMBER KIND K K LINE H- Eb PER 10* mm mm | mm V mm LIM-3 LAM CSB VB 15 65 20 2 18 8 70 LIM-4 LAM CSB VB 15 135 40 4 18 9 70 72 CM O 18 an 8 <9 LU Q 9 LVJ 17 C=» b~ r- 21 — CP CP 11 CP O IO O 4 8 1— a CP CP CP Ed CM O n CP CP 5 CP u_ o LU 10 a~ CP CP CP . < 20 CP CP LU CO * IO CL CP CP CP < <-» co a •* in in cm < u CP CP CP CP CP CO 11 LU IO CO «t 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