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本文(JEDEC JESD66-1999 Transient Voltage Suppressor Standard for Thyristor Surge Protective Device Rating Verification and Characteristic Testing《半导体闸流管电涌保护设备分级认证和特征测试的瞬时电压抑止器标准》.pdf)为本站会员(fuellot230)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

JEDEC JESD66-1999 Transient Voltage Suppressor Standard for Thyristor Surge Protective Device Rating Verification and Characteristic Testing《半导体闸流管电涌保护设备分级认证和特征测试的瞬时电压抑止器标准》.pdf

1、JEDEC STANDARD Transient Voltage Suppressor Standard for Thyristor Surge Protective Device Rating Verification and Characteristic Testing JESD66 NOVEMBER 1999 (Reaffirmed: NOVEMBER 2006) ELECTRONIC INDUSTRIES ALLIANCE JEDEC Solid State Technology Association NOTICE This JEDEC standard is considered

2、to have international standardization implications, but the International Electrotechnical Commission or the International Organization for Standardization activity has not progressed to the point where a valid comparison between the JEDEC standard and the IEC or the ISO document can be made. JEDEC

3、standards and publications contain material that has been prepared, reviewed, and approved through the JEDEC Board of Directors level and subsequently reviewed and approved by the EIA General Counsel. JEDEC standards and publications are designed to serve the public interest through eliminating misu

4、nderstandings between manufacturers and purchasers, facilitating interchangeability and improvement of products, and assisting the purchaser in selecting and obtaining with minimum delay the proper product for use by those other than JEDEC members, whether the standard is to be used either domestica

5、lly or internationally. JEDEC standards and publications are adopted without regard to whether or not their adoption may involve patents or articles, materials, or processes. By such action JEDEC does not assume any liability to any patent owner, nor does it assume any obligation whatever to parties

6、 adopting the JEDEC standards or publications. The information included in JEDEC standards and publications represents a sound approach to product specification and application, principally from the solid state device manufacturer viewpoint. Within the JEDEC organization there are procedures whereby

7、 an JEDEC standard or publication may be further processed and ultimately become an ANSI/EIA standard. No claims to be in conformance with this standard may be made unless all requirements stated in the standard are met. Inquiries, comments, and suggestions relative to the content of this JEDEC stan

8、dard or publication should be addressed to JEDEC Solid State Technology Association, 2500 Wilson Boulevard, Arlington, VA 22201-3834, (703)907-7560/7559 or www.jedec.org Published by JEDEC Solid State Technology Association 2006 2500 Wilson Boulevard Arlington, VA 22201-3834 This document may be dow

9、nloaded free of charge, however EIA retains the copyright on this material. By downloading this file the individual agrees not to charge or resell the resulting material. Printed in the U.S.A. All rights reserved PLEASE! DON”T VIOLATE THE LAW! This document is copyrighted by the JEDEC Solid State Te

10、chnology Association and may not be reproduced without permission. Organizations may obtain permission to reproduce a limited number of copies through entering into a license agreement. For information, contact: JEDEC Solid State Technology Association 2500 Wilson Boulevard Arlington, Virginia 22201

11、-3834 or call (703) 907-7559 JEDEC Standard No. 66- i-TRANSIENT VOLTAGE SUPPRESSOR STANDARD FOR THYRISTOR SURGEPROTECTIVE DEVICE RATING VERIFICATION AND CHARACTERISTIC TESTINGCONTENTSPageForeword v1 Introduction 12 Scope 13 Device definition 13.1 Thyristor surge protective device (TSPD) 13.1.1 Off s

12、tate of a TSPD 13.1.2 Breakdown region of a TSPD 23.1.3 On state of a TSPD 23.2 Classes of thyristor surge protective devices 33.2.1 Forward-conducting diode TSPD 33.2.2 Forward-conducting triode TSPD 43.2.3 Reverse-blocking diode TSPD 43.2.4 Reverse-blocking triode TSPD 53.2.5 Bidirectional TSPD 53

13、.2.6 Unidirectional TSPD 53.2.7 Negative-breakdown-resistance TSPD 53.2.8 Positive-breakdown-resistance TSPD 63.3 Definitions of characteristics, rating, and parameter 63.3.1 Characteristic 63.3.2 Rating 63.3.3 Parameter 73.4 Thyristor surge protective device parameters 73.4.1 Electrical parameters

14、applicable to all device types 83.4.2 Thermal parameters applicable to all device types 103.4.3 Additional electrical parameters for positive-breakdown-resistance types 123.4.4 Additional parameters for negative-breakdown-resistance types 133.4.5 Additional parameters for reverse-blocking types 153.

15、4.6 Additional parameters for forward-conducting types 153.4.7 Additional parameters for triode, gate accessible device types 163.4.8 Common telecommunications impulse waveform definitions 184 Rating verification tests 194.1 Maximum repetitive off-state voltage (V DR M ) 194.1.1 Introduction (V DRM

16、) 194.1.2 Test method (V DRM ) 194.2 Nonrepetitive on-state surge current (I TSM ) 21JEDEC Standard No. 66-ii-TRANSIENT VOLTAGE SUPPRESSOR STANDARD FOR THYRISTOR SURGEPROTECTIVE DEVICE RATING VERIFICATION AND CHARACTERISTIC TESTINGCONTENTS (continued)page4.2.1 Introduction (I TSM ) 214.2.2 Test meth

17、od for I TSM 224.3 Nonrepetitive peak impulse current (I PPS ) 234.3.1 Introduction (I PPS ) 234.3.2 Test method for I PPS testing 235 Characteristic tests 265.1 Off-state current (I D ) testing 265.1.1 I D test method 265.1.2 Reverse gate current test, adjacent terminal open (triodes), I GAO , I GK

18、O 275.1.3 Reverse gate current test, adjacent terminal shorted (triodes), I GAS , I GKS 285.1.4 On-state reverse gate current test (triodes), I GAT , I GKT 295.1.5 Forward-conducting state reverse gate current test, (triodes), I GAF , I GKF 305.1.6 Peak off-state gate current test for triode devices

19、 (I GDM ) 315.2 Breakover voltage V (BO) testing 325.2.1 AC V (BO) test method (all device types) 325.2.2 Impulse V (BO) test method (all device types) 355.3 Breakover current (I (BO) ) testing 375.3.1 AC I (BO) test method (positive resistance types) 375.3.2 Impulse I (BO) test method (all device t

20、ypes) 395.4 Gate switching current (I GSM ) and charge (Q GS ) testing 405.4.1 Gate switching current (I GSM ) test method, triode types 405.4.2 Gate switching current (Q GS ) test method, triode types 425.5 Holding current (I H ) testing 435.5.1 I H test circuit (impulse method) 455.5.2 I H test ci

21、rcuit (ramp method) 465.6 On-state voltage (V T ) testing 475.6.1 Pulsed dc on-state voltage (V T ) test method 485.6.2 Impulse on-state voltage (V T ) test method 495.6.3 AC on-state voltage (V T ) test method 505.7 Off-state capacitance (C O ) testing 525.7.1 Two terminal TSPD capacitance (C O ) t

22、est method 535.7.2 DC voltage-biased multi-terminal TSPD capacitance (C O ) test method 555.8 Critical rate of rise of off-state voltage ( dv/ dt) test 565.8.1 Description ( dv/ dt) 565.8.2 Test method ( dv/ dt) 595.9 Critical rate of rise of on-state current ( di/ dt) 605.9.1 Description ( di/ dt)

23、605.9.2 Test method ( di/ dt) 615.10 Peak forward recovery voltage (V FRM ) test 63JEDEC Standard No. 66-iii-TRANSIENT VOLTAGE SUPPRESSOR STANDARD FOR THYRISTOR SURGEPROTECTIVE DEVICE RATING VERIFICATION AND CHARACTERISTIC TESTINGCONTENTS (continued)page5.10.1 Description (V FRM ) 635.10.2 Test meth

24、od (V FRM ) 65Figures1 Symbols and terms for a forward-conducting positive-breakdown-resistance TSPD 22 Symbols and terms for a forward-conducting negative-breakdown-resistance TSPD 33 Symbols and terms for a gated TSPD 44 Symbols and terms for a reverse-blocking negative-breakdown-resistance TSPD 5

25、5 Symbols and terms for a reverse-blocking positive-breakdown-resistance TSPD 66 Bidirectional negative-breakdown-resistance TSPD 77 Symbols and terms for a bidirectional positive-breakdown-resistance TSPD 88 Maximum repetitive off-state voltage (V DRM ) test circuit 109 Example of current wave, I T

26、SM test 1210 Nonrepetitive peak on-state surge current (I TSM ) test 1311 Definition of double exponential impulse current waveform 1412 Definition of double exponential impulse voltage waveform 1413 Measurement of impulse V (BO) , I (BO) , and I PPS : Example of a pulse forming network 1614 Off-sta

27、te current test circuit 1815 P-gate reverse current, cathode terminal open test circuit 2516 N-gate reverse current, anode terminal open test circuit 2817 P-gate reverse current, cathode terminal shorted test circuit 2918 N-gate reverse current, cathode terminal shorted test circuit 3019 P-gate reve

28、rse current, on-state test circuit 3120 N-gate reverse current, on-state test circuit 3221 P-gate reverse current, forward-conducting state test circuit 3422 N-gate reverse current, forward-conducting state test circuit 3923 P-gate-to-cathode terminal peak off-state voltage test, peak off-state p-ga

29、te current test circuit 4224 N-gate-to-anode terminal peak off-state voltage test, peak off-state n-gate current test circuit 4425 AC V (BO) test circuit 4626 Impulse V (BO) , I (BO) test waveform 4827 P-gate switching Q, I, and gate-to-cathode breakover voltage test circuit 4928 N-gate switching Q,

30、 I, and gate-to-anode breakover voltage test 5029 Impulse method test circuit for I H verification 5130 Test circuit for ramp down method of I H measurement 5231 I H versus turn-off load line 5432 Pulsed on-state voltage test 5433 Impulse on-state voltage measurement 5634 Single power source on-stat

31、e voltage test 5735 AC on-state voltage measurement 5736 Capacitance measurement circuit 5837 Capacitance measurement with external dc voltage bias 58JEDEC Standard No. 66-iv-TRANSIENT VOLTAGE SUPPRESSOR STANDARD FOR THYRISTOR SURGEPROTECTIVE DEVICE RATING VERIFICATION AND CHARACTERISTIC TESTINGCONT

32、ENTS (continued)pageFigures ( continued )38 Multi-terminal device capacitance measurement circuit 5939 dv/ dt test voltage waveform (exponential waveform) 6240 dv/ dt test voltage waveform (linear waveform) 6341 Simplified exponential dv/ dt test circuit 6442 Simplified linear dv/ dt test circuit 64

33、43 di/ dt test circuit 6644 Surge generator for di/ dt test 6645 di/ dt test waveforms 6746 Peak forward recovery voltage (V FRM ) waveforms 67Tables1 Electrical parameters applicable to TSPDs 92 TSPD thermal parameters 113 Electrical parameters for positive-breakdown-resistance TSPDs 124 Electrical

34、 parameters for negative-breakdown-resistance TSPDs 135 Reverse-blocking TSPD parameters 156 Parameters for forward-conducting TSPDs 157 Additional parameters for gated TSPDs 178 Common impulse waveshape definitions 18JEDEC Standard No. 66-v-ForewordThis standard was prepared by JEDEC JC-22.5 Commit

35、tee on Transient Voltage Suppressors. Theintended users of this standard are those interested in Thyristor Surge Protective Device characterizationand rating verification. These devices are used primarily by the telecommunications industry to protectcircuits from harmful overvoltages.Major contribut

36、ions to the content of this standard come from recent work by the ANSI/IEEE inPC62.37, 1996 Standard Test Specification For Thyristor Diode Surge-Protective Devices, and from theJC-10 Committee in-process work on revisions to Standard No. 77, Terms, Definitions, and LetterSymbols for Discrete Semico

37、nductor and Optoelectronic Devices, Section 7 - Transient VoltageSuppressors; Surge Protective Devices. Similar standards are presently being developed by the IEC.This standard conforms with the work of other groups. However, work on this standard, and the othersin-process has not progressed to the

38、point where an exact and complete comparison of documents can bemade.JEDEC Standard No. 66Page 1TRANSIENT VOLTAGE SUPPRESSOR STANDARD FOR THYRISTOR SURGEPROTECTIVE DEVICE RATING VERIFICATION AND CHARACTERISTIC TESTING(From JEDEC Board Ballot JCB-97-81, formulated under the cognizance of the JC-22.5

39、Committee onTransient Voltage Suppressors.)1 IntroductionThe Thyristor Surge Protective Device (TSPD) is a semiconductor device that is recently findingwidespread application in the telecommunications industry. The intent of this standard is to provideinformation on test methods that will reduce the

40、 possibility of disagreement and misunderstandingbetween TSPD vendors and users, and facilitate the determination of device interchangability. Thispublication is not intended to preclude or discourage other approaches that similarly represent goodengineering practice, or that may be acceptable to, o

41、r have been accepted by, appropriate bodies. Partieswho wish to bring other approaches to the attention of the formulating committee to be considered forinclusion in future revisions of this publication are encouraged to do so. It is the intention of theformulating committee to revise and update thi

42、s publication from time to time as may be occasioned bychanges in technology, industry practice, or government regulations, or for other appropriate reasons.2 ScopeThis standard is applicable to Thyristor Surge Protective Devices. It describes terms and definitions andexplains methods for verifying

43、device ratings and measuring device characteristics.3 Device definitions3.1 Thyristor surge protective device (TSPD)A thyristor, designed for transient voltage suppression in telecommunication, data line, and similarapplications. They limit voltage transients by conducting surge currents. It returns

44、 to a blocking statewhen the current decays below a critical value.NOTE The device is also known as a thyristor surge suppressor (TSS).3.1.1 Off state of a TSPDThe state of a TSPD, in a quadrant in which switching can occur, that corresponds to the high dynamic-resistance portion of the characterist

45、ic between the origin and the beginning of the breakdown region.JEDEC Standard No. 66Page 23.1 Thyristor surge protective device (TSPD) ( contd)3.1.2 Breakdown region of a TSPDThe portion of the characteristic that starts with the transition from the high dynamic resistance off stateto a substantial

46、ly lower dynamic resistance and extends to the switching point.Figure 1 Symbols and terms for a forward-conducting positive-breakdown-resistanceTSPD3.1.3 On state of a TSPDThe condition of the TSPD corresponding to the low-resistance low-voltage portion of the principalvoltage-current characteristic

47、 in the switching quadrant(s).Quadrant IIIQuadrant IForwardConductionCharacteristic-v +v+i-iSwitchingCharacteristicIPPSIFSMIFRMIF VFIDVDVDRMIDRMI(BR)I(BO) ISV(BR)V(BO) VS ITVTIHITRMITSMIPPSJEDEC Standard No. 66Page 33.2 Classes of thyristor surge protective devices3.2.1 Forward-conducting diode TSPD

48、A two-terminal internally triggered TSPD that switches only for negative cathode voltage and conductslarge currents at positive cathode voltages comparable in magnitude to the on-state voltage (see figures 1and 2).NOTES1 In conventional SCR thyristor terminology, where the voltage is applied to the

49、anode, this devicewould be called a reverse-conducting diode thyristor.2 When the TSPD cathode is positive, the device characteristics are similar to those of a forward-biased diode.3 When the TSPD cathode is negative, the device characteristics are similar to those of a breakover-triggeredSCR thyristor.Figure 2 Symbols and terms for a forward-conducting negative-breakdown-resistanceTSPD-v +v+i-iQuadrant IForwardConductionCharacteristicIPPSIFSMIFRMIF VFITVTIHITRMITSMIPPSIDVDVDRMIDRMI(BO)ISV(BO)VSQuadrant IIISwitchingCharacteristicJEDEC Standard No. 66Page 43.2 Classes of thyristor

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