BTA208X-600C中文资料

Philips Semiconductors Product specificationRectifier diodeBYC8-600ultrafast, low switching lossFEATURESSYMBOL QUICK REFERENCE DATA• Extremely fast switching• Low reverse recovery current • Low thermal resistance• Reduces switching losses in associated MOSFETAPPLICATIONSPINNINGSOD59 (TO220AC)• Active power factor correction PIN DESCRIPTION • Half-bridge lighting ballasts• Half-bridge/ full-bridge switched 1cathode mode power supplies.2anode The BYC8-600 is supplied in the SOD59 (TO220AC) conventional tabcathodeleaded package.LIMITING VALUESLimiting values in accordance with the Absolute Maximum System (IEC 134).SYMBOL PARAMETERCONDITIONSMIN.MAX.UNIT V RRM Peak repetitive reverse voltage -600V V RWM Crest working reverse voltage -600V V R Continuous reverse voltage T mb ≤ 110 ˚C-500V I F(AV)Average forward currentδ = 0.5; with reapplied V RRM(max);-8A T mb ≤ 82 ˚CI FRM Repetitive peak forward current δ = 0.5; with reapplied V RRM(max);-16A T mb ≤ 82 ˚CI FSMNon-repetitive peak forward t = 10 ms -55A current.t = 8.3 ms-60A sinusoidal; T j = 150˚C prior to surge with reapplied V RWM(max)T stg Storage temperature-40150˚C T jOperating junction temperature-150˚CTHERMAL RESISTANCESSYMBOL PARAMETERCONDITIONS MIN.TYP.MAX.UNIT R th j-mb Thermal resistance junction to -- 2.2K/W mounting baseR th j-aThermal resistance junction to in free air.-60-K/Wambient1tab2Philips Semiconductors Product specificationRectifier diodeBYC8-600ultrafast, low switching lossELECTRICAL CHARACTERISTICST j = 25 ˚C unless otherwise stated SYMBOL PARAMETER CONDITIONSMIN.TYP.MAX.UNIT V F Forward voltage I F = 8 A; T j = 150˚C - 1.4 1.85V I F = 16 A; T j = 150˚C - 1.7 2.3V I F = 8 A;- 2.0 2.8V I R Reverse current V R = 600 V-9150µA V R = 500 V; T j = 100 ˚C- 1.1 3.0mA t rr Reverse recovery time I F = 1 A; V R = 30 V; dI F /dt = 50 A/µs -3052ns t rr Reverse recovery time I F = 8 A; V R = 400 V;-19-ns dI F /dt = 500 A/µs t rr Reverse recovery time I F = 8 A; V R = 400 V;-3240ns dI F /dt = 500 A/µs; T j = 125˚C I rrm Peak reverse recovery current I F = 8 A; V R = 400 V;- 1.5 5.5A dI F /dt = 50 A/µs; T j = 125˚C I rrm Peak reverse recovery current I F = 8 A; V R = 400 V;-9.512A dI F /dt = 500 A/µs; T j = 125˚C V frForward recovery voltageI F = 10 A; dI F /dt = 100 A/µs-810VPhilips Semiconductors Product specificationRectifier diodeBYC8-600ultrafast, low switching lossPhilips Semiconductors Product specificationRectifier diodeBYC8-600ultrafast, low switching lossPhilips Semiconductors Product specificationRectifier diodeBYC8-600ultrafast, low switching lossMECHANICAL DATANotes1. Refer to mounting instructions for TO220 envelopes.2. Epoxy meets UL94 V0 at 1/8".Philips Semiconductors Product specification Rectifier diode BYC8-600 ultrafast, low switching lossDEFINITIONSData sheet statusObjective specification This data sheet contains target or goal specifications for product development. Preliminary specification This data sheet contains preliminary data; supplementary data may be published later. Product specification This data sheet contains final product specifications.Limiting valuesLimiting values are given in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections ofthis specification is not implied. Exposure to limiting values for extended periods may affect device reliability. Application informationWhere application information is given, it is advisory and does not form part of the specification.© Philips Electronics N.V. 1999All rights are reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright owner.The information presented in this document does not form part of any quotation or contract, it is believed to be accurate and reliable and may be changed without notice. No liability will be accepted by the publisher for any consequence of its use. Publication thereof does not convey nor imply any license under patent or other industrial or intellectual property rights.LIFE SUPPORT APPLICATIONSThese products are not designed for use in life support appliances, devices or systems where malfunction of these products can be reasonably expected to result in personal injury. Philips customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such improper use or sale.。

技术参数光学参数*?? 95%能量时，CF=近焦，SF=标准焦距??? 最小焦距时的最小光点尺寸*? 最小的光点尺寸直径=最小焦距/最小的D:S 一般参数电气参数仪器特点Marathon FA?红外测温仪技术参数：1、温度测量范围: 250℃到 3000℃(482°F to 5432°F)2、光学分辨率最高可达 100:13、特别适用于现场安装空间狭小的安装条件4、精度高，测量值的± 0.3%5、更快速响应时间 10 毫秒，可选到10秒6、提供模拟量和数字量输出技术参数Marathon FA 红外测温仪介绍雷泰马拉松 FA 系列红外测温仪使用光纤技术可克服测量过程中各种极端的环境条件。

FA 系列红外测温仪由电子盒和光纤探头、光缆组成，探测器和信号处理部分集成在一电子盒中，此电子盒可远距离放置，光纤探头和光缆可安装在强电磁场中的环境中，并且可耐的最高环温达200℃。

雷泰马拉松 FA 系列光纤测温仪的测温范围为250℃到3000℃(482°F to 5432°F) ，FA 光纤探头由耐用光缆将光学探头连接到电路盒上，电路盒包括：探测器、电子线路、内置用户接口、LED 显示及连接电缆的接线端子。

FA1 和FA2 系列尤其适用于目标不能接近的、恶劣的工业环境，安装空间狭小的现场测温应用。

雷泰 FA 系列单色光纤式测温仪的固定焦距的光学探头包括一个小的不锈钢圆柱形外壳和透镜，其可承受的环境温度高达200℃，并且符合NEMA-4的标准。

雷泰 FA 系列的光纤探头可装一空气吹扫器以防止透镜被污染，光缆由金属套保护，并由VITON 保护套所密封，以防止水和油的流入，这种装配可使光缆以很小的半径弯曲以便其方便地穿过狭小的空间。

雷泰 FA 系列单色光纤式测温仪还提供可在PC 上使用的WINDOWS下的马拉松软件，以实现远程进行参数设置、数据读取、数据的图形显示及RS485的多点网络配置。

QJZ系列煤矿风机用隔爆兼本质安全型双电源真空电磁起动器使用说明书德力西集团防爆电器有限公司目录1用途、特点及使用条件...................................... 错误！未定义书签。

1.1用途 .......................................................... 错误！未定义书签。

1.2特点 .......................................................... 错误！未定义书签。

1.3使用环境条件........................................... 错误！未定义书签。

1.4产品执行标准........................................... 错误！未定义书签。

1.5 防爆形式：矿用隔爆兼本质安全型；... 错误！未定义书签。

2型号含义 ............................................................. 错误！未定义书签。

3主要技术性能指标 ............................................. 错误！未定义书签。

3.1整机技术性能指标................................... 错误！未定义书签。

3.2 ................................................................... 错误！未定义书签。

3.3起动器具有远控功能，远控电路为本安电路。

错误！未定义书签。

4主要结构和功能 ................................................. 错误！未定义书签。

4.1 起动器主要由隔爆外壳和本体两部分组成。

BTA系列产品型号电流电压触发电流封装形式BTA06-400B 6A 400V 35~50mA TO-220ABBTA06-400BW 6A 400V 50mA TO-220ABBTA06-400C 6A 400V 25mA TO-220ABBTA06-400CW 6A 400V 35mA TO-220ABBTA06-400TW 6A 400V 5mA TO-220ABBTA06-400E 6A 400V 5~10mA TO-220ABBTA06-400D 6A 400V 1~5mA TO-220ABBTA06-400SAP 6A 400V 5~10mA TO-220BTA06-600B 6A 600V 35~50mA TO-220ABBTA06-600BW 6A 600V 50mA TO-220ABBTA06-600C 6A 600V 25mA TO-220ABBTA06-600CW 6A 600V 35mA TO-220ABTA06-600SW 6A 600V 10mA TO-220ABBTA06-600TW 6A 600V 5mA TO-220ABBTA06-600E 6A 600V 5~10mA TO-220ABBTA06-600D 6A 600V 1~5mA TO-220ABBTA06-600SAP 6A 600V 5~10mA TO-220ABBTA06-700B 6A 700V 35~50mA TO-220ABBTA06-700BW 6A 700V 50mA TO-220ABBTA06-700C 6A 700V 25mA TO-220ABBTA06-700CW 6A 700V 35mA TO-220ABBTA06-700SW 6A 700V 10mA TO-220ABBTA06-700TW 6A 700V 5mA TO-220ABBTA06-700E 6A 700V 5~10mA TO-220ABBTA06-700D 6A 700V 1~5mA TO-220ABBTA06-700SAP 6A 700V 5~10mA TO-220ABBTA06-800B 6A 800V 35~50mA TO-220ABBTA06-800BW 6A 800V 50mA TO-220ABBTA06-800C 6A 800V 25mA TO-220ABBTA06-800CW 6A 800V 35mA TO-220ABBTA06-800SW 6A 800V 10mA TO-220ABBTA06-800TW 6A 800V 5mA TO-220ABBTA06-800E 6A 800V 5~10mA TO-220ABBTA06-800D 6A 800V 1~5mA TO-220ABBTA06-800SAP 6A 800V 5~10mA TO-220ABBTA08-400B 8A 400V 35~50mA TO-220ABBTA08-400BW 8A 400V 50mA TO-220ABBTA08-400C 8A 400V 25mA TO-220ABBTA08-400CW 8A 400V 35mA TO-220ABBTA08-400SW 8A 400V 10mA TO-220ABBTA08-400TW 8A 400V 5mA TO-220ABBTA08-400E 8A 400V 5~10mA TO-220AB BTA08-400D 8A 400V 1~5mA TO-220ABBTA08-400SAP 8A 400V 5~10mA TO-220AB BTA08-600B 8A 600V 35~50mA TO-220AB BTA08-600BW 8A 600V 50mA TO-220AB BTA08-600C 8A 600V 25mA TO-220ABBTA08-600CW 8A 600V 35mA TO-220AB BTA08-600SW 8A 600V 10mA TO-220AB BTA08-600TW 8A 600V 5mA TO-220ABBTA08-600E 8A 600V 5~10mA TO-220AB BTA08-600D 8A 600V 1~5mA TO-220ABBTA08-600SAP 8A 600V 5~10mA TO-220AB BTA08-700B 8A 700V 35~50mA TO-220AB BTA08-700BW 8A 700V 50mA TO-220AB BTA08-700C 8A 700V 25mA TO-220ABBTA08-700CW 8A 700V 35mA TO-220AB BTA08-700SW 8A 700V 10mA TO-220AB BTA08-700TW 8A 700V 5mA TO-220ABBTA08-700E 8A 700V 5~10mA TO-220AB BTA08-700D 8A 700V 1~5mA TO-220ABBTA08-700SAP 8A 700V 5~10mA TO-220AB BTA08-800B 8A 800V 35~50mA TO-220AB BTA08-800BW 8A 800V 50mA TO-220AB BTA08-800C 8A 800V 25mA TO-220ABBTA08-800CW 8A 800V 35mA TO-220AB BTA08-800SW 8A 800V 10mA TO-220AB BTA08-800TW 8A 800V 5mA TO-220ABBTA08-800E 8A 800V 5~10mA TO-220AB BTA08-800D 8A 800V 1~5mA TO-220ABBTA08-800SAP 8A 800V 5~10mA TO-220A BTA08-1000B 8A 1000V 35~50mA TO-220AB BTA08-1000BW 8A 1000V 50mA TO-220AB BTA08-1000C 8A 1000V 25mA TO-220AB BTA08-1000CW 8A 1000V 35mA TO-220AB BTA08-1000SW 8A 1000V 10mA TO-220AB BTA08-1000TW 8A 1000V 5mA TO-220AB BTA08-1000E 8A 1000V 5~10mA TO-220AB BTA08-1000D 8A 1000V 1~5mA TO-220AB BTA08-1000SAP 8A 1000V 5~10mA TO-220ABBTA10-400B 10A 400V 35~50mA TO-220AB BTA12-400B 12A 400V 35~50mA TO-220AB BTA16-400B 16A 400V 35~50mA TO-220ABBTA24-600B 25A 600V 35~50mA TO-220ABBTA25-600B 25A 600V 35~50mA TO-220AB BTA25-600BW 25A 600V 50mA TO-220AB BTA26-600B 25A 600V 35~50mA TO-220AB BTA40-600B 40A 600V 35~50mA BTW67 BTA40-600BW 40A 600V 50mA BTW67BTA41-600B 40A 600V 35~50mA BTW67 BTA41-600BW 40A 600V 50mA BTW67BTA140-600 25A 600V 35mA TO-220ABBTA140-800 25A 800V 35mA TO-220ABBTA140B-500 25A 500V 35mA SOT-404BTA140B-600 25A 600V 35mA SOT-404BTA140B-800 25A 800V 35mA SOT-404BTA151-650R 12A 650V 4mA SOT82BTA204-600D 4A 600V 5mA TO-220ABBTA204-600E 4A 600V 10mA TO-220ABBTA204-600F 4A 600V 25mA TO-220ABBTA204-800E 4A 800V 10mA TO-220ABBTA204-600B 4A 600V 50mA TO-220AB BTA204-600C 4A 600V 35mA TO-220AB BTA204S-600B 4A 600V 50mA TO-252/D-PAK BTA204S-600C 4A 600V 35mA TO-252/D-PAK BTA204S-600D 4A 600V 5mA TO-252/D-PAK BTA204S-600E 4A 600V 10mA TO-252/D-PAK BTA204S-600F 4A 600V 25mA TO-252/D-PAK BTA204W-600D 1A 600V 5mA SOT223BTA204W-600E 1A 600V 10mA SOT223BTA204W-600F 1A 600V 25mA SOT223BTA204W-600B 1A 600V 50mA SOT223BTA204W-600C 1A 600V 35mA SOT223BTA204X-600D 4A 600V 5mA TO-220FP BTA204X-600E 4A 600V 10mA TO-220FP BTA204X-600F 4A 600V 25mA TO-220FP BTA208X-600D 8A 600V 5mA TO-220FP BTA208X-600E 8A 600V 10mA TO-220FP BTA208X-600F 8A 600V 25mA TO-220FP BTA208X-800E 8A 800V 10mA TO-220FP BTA208-600D 8A 600V 5mA TO-220ABBTA208-600E 8A 600V 10mA TO-220ABBTA208-600B 8A 600V 50mA TO-220ABBTA208-800B 8A 800V 50mA TO-220ABBTA208S-600B 8A 600V 50mA TO-252/D-PAK BTA208S-800B 8A 800V 50mA TO-252/D-PAK BTA208S-600D 8A 600V 5mA TO-252/D-PAK BTA208S-600E 8A 600V 10mA TO-252/D-PAK BTA208S-600F 8A 600V 25mA TO-252/D-PAK BTA208B-500B 8A 500V 50mA SOT-404BTA208B-600B 8A 600V 50mA SOT-404BTA208B-800B 8A 800V 50mA SOT-404BTA212X-600B 12A 600V 50mA TO-220FPBTA212X-800B 12A 800V 50mA TO-220FPBTA212X-600D 12A 600V 5mA TO-220FPBTA212X-600E 12A 600V 10mA TO-220FPBTA212X-600F 12A 600V 25mA TO-220FPBTA212X-800E 12A 800V 10mA TO-220FPBTA212X-600B 12A 600V 50mA TO-220FPBTA212X-800B 12A 800V 50mA TO-220FPBTA216X-600B 16A 600V 50mA TO-220FPBTA216X-800B 16A 800V 50mA TO-220FPBTA216X-600D 16A 600V 5mA TO-220FPBTA216X-600E 16A 600V 10mA TO-220FPBTA216X-600F 16A 600V 25mA TO-220FPBTA216-600B 16A 600V 50mA TO-220ABBTA216-800B 16A 800V 50mA TO-220ABBTA216-600D 16A 600V 5mA TO-220ABBTA216-600E 16A 600V 10mA TO-220ABBTA216-600F 16A 600V 25mA TO-220ABBTA225-600B 25A 600V 50mA TO-220ABBTA225-800B 25A 800V 50mA TO-220ABBTA225B-600B 25A 600V 50mA TO-263/D2-PAK BTA225B-800B 25A 800V 50mA TO-263/D2-PAKBTA04-400B 4A 400V 35~50mA TO-220BTA04-400BW 4A 400V 50mA TO-220BTA04-400C 4A 400V 25mA TO-220BTA04-400CW 4A 400V 35mA TO-220BTA04-400SW 4A 400V 10mA TO-220BTA04-400TW 4A 400V 5mA TO-220BTA04-400E 4A 400V 5~10mA TO-220BTA04-400D 4A 400V 1~5mA TO-220BTA04-400SAP 4A 400V 5~10mA TO-220BTA04-600B 4A 600V 35~50mA TO-220BTA04-600C 4A 600V 25mA TO-220AB BTA04-600CW 4A 600V 35mA TO-220AB BTA04-600SW 4A 600V 10mA TO-220AB BTA04-600TW 4A 600V 5mA TO-220AB BTA04-600E 4A 600V 5~10mA TO-220AB BTA04-600D 4A 600V 1~5mA TO-220AB BTA04-600SAP 4A 600V 5~10mA TO-220AB BTA04-700B 4A 700V 35~50mA TO-220AB BTA04-700BW 4A 700V 50mA TO-220AB BTA04-700C 4A 700V 25mA TO-220AB BTA04-700CW 4A 700V 35mA TO-220AB BTA04-700SW 4A 700V 10mA TO-220AB BTA04-700TW 4A 700V 5mA TO-220AB BTA04-700E 4A 700V 5~10mA TO-220AB BTA04-700D 4A 700V 1~5mA TO-220AB BTA04-700SAP 4A 700V 5~10mA TO-220AB BTA04-800B 4A 800V 35~50mA TO-220AB BTA04-800BW 4A 800V 50mA TO-220AB BTA04-800C 4A 800V 25mA TO-220AB BTA04-800CW 4A 800V 35mA TO-220AB BTA04-800SW 4A 800V 10mA TO-220AB BTA04-800TW 4A 800V 5mA TO-220AB BTA04-800E 4A 800V 5~10mA TO-220AB BTA04-800D 4A 800V 1~5mA TO-220AB BTA04-800SAP 4A 800V 5~10mA TO-220AB。

1/6®BTA/BTB06 SeriesSNUBBERLESS ™, LOGIC LEVEL & STANDARD6A TRIAC SApril 2002 - Ed: 5AMAIN FEATURES:DESCRIPTIONSuitable for AC switching operations, the BTA/BTB06 series can be used as an ON/OFF function in applications such as static relays, heating regulation, induction motor starting circuits... or for phase control in light dimmers, motor speed controllers,...The snubberless and logic level versions (BTA/BTB...W) are specially recommended for use on inductive loads, thanks to their high commutation performances. By using an internal ceramic pad,the BTA series provides voltage insulated tab (rated at 2500V RMS) complying with UL standards (File ref.: E81734)Symbol Value Unit I T(RMS)6A V DRM /V RRM600 and 800VI G (Q 1)5 to 50mAABSOLUTE MAXIMUM RATINGSSymbol ParameterValueUnit I T(RMS)RMS on-state current (full sine wave)TO-220ABTc = 110°C 6ATO-220AB Ins.Tc = 105°C I TSM Non repetitive surge peak on-state current (full cycle, Tj initial = 25°C) F = 50 Hz t = 20 ms 60AF = 60 Hzt = 16.7 ms63I ²t I ²t Value for fusingtp = 10 ms21A ²s dI/dt Critical rate of rise of on-state current I G = 2 x I GT , tr ≤ 100 ns F = 120 Hz Tj = 125°C 50A/µs I GM Peak gate currenttp = 20 µsTj = 125°C 4A P G(AV)Average gate power dissipation Tj = 125°C1W T stg T jStorage junction temperature range Operating junction temperature range- 40 to + 150- 40 to + 125°CBTA/BTB06 Series2/6ELECTRICAL CHARACTERISTICS (Tj = 25°C, unless otherwise specified)sSNUBBERLESS™ and LOGIC LEVEL (3 Quadrants)sSTANDARD (4 Quadrants)STATIC CHARACTERISTICSNote 1: minimum IGT is guaranted at 5% of IGT max.Note 2: for both polarities of A2 referenced to A1Symbol Test ConditionsQuadrantBTA/BTB06UnitTWSW CW BW I GT (1)V D = 12 V R L = 30 ΩI - II - III MAX.5103550mA V GT I - II - III MAX. 1.3V V GD V D = V DRM R L = 3.3 k ΩTj = 125°C I - II - IIIMIN.0.2V I H (2)I T = 100 mA MAX.10153550mA I L I G = 1.2 I GTI - III MAX.10255070mA II15306080dV/dt (2)V D = 67 %V DRM gate open Tj = 125°CMIN.20404001000V/µs (dI/dt)c (2)(dV/dt)c = 0.1 V/µs Tj = 125°C MIN.2.73.5--A/ms(dV/dt)c = 10 V/µs Tj = 125°C 1.2 2.4--Without snubber Tj = 125°C-- 3.55.3Symbol Test ConditionsQuadrant BTA/BTB06UnitCB I G (1)V D = 12 V R L = 30 ΩI - II - III IV MAX.255050100mA V GT ALL MAX. 1.3V V GD V D = V DRM R L = 3.3 k Ω Tj = 125°C ALLMIN.0.2V I H (2)I T = 500 mA MAX.2550mA I L I G = 1.2 I GTI - III - IVMAX.4050mA II80100dV/dt (2)V D = 67 %V DRM gate open Tj = 125°CMIN.200400V/µs (dV/dt)c (2)(dI/dt)c = 2.7 A/ms Tj = 125°CMIN.510V/µsSymbol Test ConditionsValue Unit V T (2)I TM = 5.5 A tp = 380 µs Tj = 25°C MAX. 1.55V V to (2)Threshold voltage Tj = 125°C MAX.0.85V R d (2)Dynamic resistance Tj = 125°C MAX.60m ΩI DRM I RRMV DRM = V RRMTj = 25°C MAX.5µA Tj = 125°C1mABTA/BTB06 Series3/6THERMAL RESISTANCESPRODUCT SELECTORBTB: non insulated TO-220AB packageORDERING INFORMATIONOTHER INFORMATIONNote: xxx = voltage, y = sensitivity, z = typeSymbol ParameterValue Unit R th(j-c)Junction to case (AC)TO-220AB 1.8°C/WTO-220AB Insulated 2.7R th(j-a)Junction to ambientTO-220ABTO-220AB Insulated60°C/W Part NumberVoltage (xxx)SensitivityType Package 600 V800 V BTA/BTB06-xxxB X X 50 mA Standard TO-220AB BTA/BTB06-xxxBW X X 50 mA Snubberless TO-220AB BTA/BTB06-xxxC X X 25 mA Standard TO-220AB BTA/BTB06-xxxCW X X 35 mA Snubberless TO-220AB BTA/BTB06-xxxSW X X 10 mA Logic level TO-220AB BTA/BTB06-xxxTWXX5 mALogic levelTO-220ABPart NumberMarkingWeight Base quantity Packing mode BTA/BTB06-xxxyz BTA/BTB06-xxxyz 2.3 g 250Bulk BTA/BTB06-xxxyzRGBTA/BTB06-xxxyz2.3 g50TubeBTA/BTB06 Series4/6Fig. 1: Maximum power dissipation versus RMS on-state current (full cycle).Fig. 2: RMS on-state current versus case temperature (full cycle).Fig. 3: Relative variation of thermal impedance versus pulse duration.Fig. 4: On-state characteristics (maximum values).Fig. 5: Surge peak on-state current versus number of cycles.Fig. 6: Non-repetitive surge peak on-state current for a sinusoidal pulse with width tp <10ms, and corresponding value of I²t.BTA/BTB06 Series5/6Fig. 7: Relative variation of gate trigger current,holding current and latching current versus junction temperature (typical values).Fig. 8-1: Relative variation of critical rate of decrease of main current versus (dV/dt)c (typical values). Snubberless & Logic Level T ypesFig. 8-2: Relative variation of critical rate of decrease of main current versus (dV/dt)c (typical values). Standard T ypesFig. 9: Relative variation of critical rate of decrease of main current versus junction temperature.BTA/BTB06 SeriesPACKAGE MECHANICAL DATAInformation furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.© The ST logo is a registered trademark of STMicroelectronics© 2002 STMicroelectronics - Printed in Italy - All Rights ReservedSTMicroelectronics GROUP OF COMPANIESAustralia - Brazil - Canada - China - Finland - France - GermanyHong Kong - India - Isreal - Italy - Japan - Malaysia - Malta - Morocco - SingaporeSpain - Sweden - Switzerland - United Kingdom - United States.6/6。

bta08-600c可控硅参数一、 bta08-600c可控硅的基本介绍bta08-600c是一种常用的可控硅器件，具有可控硅的常见特性，比如需要一定的触发电流和触发电压才能导通。

它广泛应用于各种电子设备和电路中，因此对其参数的深入了解和掌握对于电子工程师来说是非常重要的。

二、 bta08-600c可控硅的关键参数1. 触发电流和触发电压bta08-600c可控硅的触发电流和触发电压是其最基本的参数。

触发电流是指当外加触发电流大于该数值时，可控硅才能导通；而触发电压则是指当外加触发电压大于该数值时，可控硅才能导通。

这两个参数的大小直接影响到可控硅的导通性能，因此在实际电路设计中需要特别注意。

2. 典型电参数除了触发电流和触发电压外，bta08-600c可控硅的典型电参数还包括最大导通电流、最大反向电压、保持电流等。

这些参数的大小不仅影响了可控硅的工作性能，也直接关系到了其在电路中的安全性和稳定性。

3. 动态特性可控硅的动态特性是指其在导通和关断过程中的响应速度、响应时间等参数。

对于一些高频、高速电路来说，可控硅的动态特性显得尤为重要。

了解bta08-600c可控硅的动态特性，对于一些特定的电路设计来说具有重要的意义。

三、 bta08-600c可控硅的应用领域1. 电源电路在各种电源电路中，bta08-600c可控硅广泛应用于电压调节、开关控制等方面。

通过合理选择和使用可控硅，可以有效地提高电源电路的性能指标。

2. 照明电路在各种照明电路中，bta08-600c可控硅也扮演着重要的角色。

通过可控硅的控制，可以实现灯光的亮度调节、开关控制等功能。

3. 马达控制在各种马达控制电路中，bta08-600c可控硅同样发挥着重要的作用。

通过可控硅的控制，可以实现对马达的启动、停止、调速等功能。

四、 bta08-600c可控硅的个人观点和理解作为一种常见的可控硅器件，bta08-600c在电子领域有着广泛的应用。

CESSNA150 A thru M O-200 CH48108-1 CFO-100-1F150 F thru M O-200 CH48108-1 CFO-100-1A150L O-200 CH48108-1 CFO-100-1FA150 O-200 CH48108-1 CFO-100-1152 O-235-L2C, H2C CH48110-1 –162 0-200-D CH48108-1 –C-172172 A thru H O-300 CH48108-1 CFO-100-1172 I thru M O-320 CH48110-1 CFO-100-1172N O-320-H2AD CH48103-1 –172P O-320-D2J CH48111-1 CFO-101-1F172 D thru H O-300 CH48108-1 CFO-100-1FR172 E thru K IO-360 CH48108-1 CFO-100-1R172K IO-360-K CH48108-1 –172R and S IO-360-L2A CH48110-1 –172RG O-360-F1A6 CH48110-1 CFO-100-1172S IO-360-L2A CH48110-1 –177 O-320 CH48110-1 CFO-100-1177A, B O-360-A1F6D CH48103-1 CFO-100-1177RG IO-360-A1B6D CH48103-1 CFO-100-1180 A thru J O-470 CH48108-1 CFO-100-1180Q O-470-U++ CH48108-1 CFO-100-1180-S/N 53087 & Up 1111O-470-U++ CH48108-1 –C-182182 A Thru P O-470 CH48108-1 CFO-100-1182Q, R O-470-U++ CH48108-1 CFO-100-1182S IO-540-AB1A5 CH48110-1 –A182 K thru N O-470 CH48108-1 CFO-100-1182-S/N 67042 & Up O-470-U++ CH48108-1 –F182-S/N 00130 & Up O-470-U++ CH48108-1 –R182 O-540-J3C5D CH48103-1 CFO-100-1T182 O-540-L3C5D CH48103-1 CFO-100-1TR182, FTR182 O-540-L3C5D CH48103-1 CFO-100-1185 A thru D IO-470, IO-520 CH48108-1 CFO-100-1A185E, F IO-470, IO-520 CH48108-1 CFO-100-1185-S/N 03852 & Up IO-520 CH48108-1 –188 O-470, IO-520 CH48108-1 CFO-100-1188-S/N 03474 & Up IO-520D CH48109-1 –T188-S/N 03474 & Up TSIO-520 CH48109-1 –205A IO-470 CH48108-1 CFO-100-1C-206 IO-540 CH48110-1 CFO-100-1206 A thru G IO-520 CH48108-1 CFO-100-1206H IO-540-AC1A5 CH48110-1 –206-S/N 05030 & Up IO-520 CH48109-1 –206-S/N 05030 & Up TSIO-520 CH48109-1 –U206 IO-520 CH48108-1 CFO-100-1T-206H TI0540-AJ1A CH48110-1 –TU-206 TSIO-520 CH48108-1 CFO-100-1P206 IO-520 CH48108-1 CFO-100-1TP206 TSIO-520 CH48108-1 CFO-100-1207 IO-520 CH48108-1 CFO-100-1207-S/N 05227 & Up IO-520 CH48109-1 –T207-S/N 05227 & Up TSIO-520 CH48109-1 –T207 TSIO-520 CH48108-1 CFO-100-1210 IO-470, IO-520 CH48108-1 CFO-100-1210-S/N 63373-63375 & Up IO-520 CH48109-1 –T210-S/N 63373-63375 & Up TSIO-520 CH48108-1 –P210-S/N 278 &Up TSIO-520 CH48108-1 –T210, P210-S/N 1-277 TSIO-520++ CH48108-1 CFO-100-1 32Aircraft engines not listed, but equipped with oil fi lters at overhaul, may accept Champion fi lters. Write Aviation Service Deptment for further information. Please include description of your engine. ++ Reference page 25-26 for other TCM application data. * Requires Lyco (54E23093) AEROSPATIABLE (SocataTB9 Tampico O-320-D2A CH48110-1 CFO-100-1TB10 Tobago O-360-A1AD CH48110-1 CFO-100-1TB20 Trinidad IO-540-C4D5D CH48103-1 CFO-100-1TB21 Trinidad TC TIO-540-AB1AD CH48103-1 CFO-100-1TB30 AEIO-540-L1B5D CH48103-1 CFO-100-1AEROSTAR (See Piper)BEECHBONANZAE33A, F33A, F33B, F33C IO-520 – CFO-100-1E33A, F33A, F33B, F33C IO-520B CH48109-1 –G-33 IO-470N CH48108-1H-35 O-470 CH48108-1 –J, K, M-35 IO 470-C CH48108-1N, P-35 IO-470-N CH48108-1S35, V35, V35A, V35B IO-520 – CFO-100-1S35 IO-520B CH48109-1 –V35TC, V35A-TC, V35B-TC TSIO-520 – CFO-100-1V35TC, V35A-TC, -V35B-TC TSIO-520D CH48109-1 –V35, V35A, V35B IO-520B CH48109-1 –36, A36 IO-520B CH48109-1 –A36TC, B36TC TSIO-520-UB CH48109-1 –B36-550 IO-550 CH48109-1 –DEBONAIR/BONANZAC33A, E33A, E33C IO-520 – CFO-100-1C33A, E33A, F33C IO-520B CH48109-1 –MUSKETEERSport III O-320 CH48110-1 CFO-100-123 O-320 CH48110-1 CFO-100-1A23-19, 19A, B19 Sport O-320 CH48110-1 CFO-100-1A23, 23, A23A IO-346 – CFO-100-1A23, A23A IO-346A CH48109-1 –B23, C23 Sundowner O-360 CH48110-1 CFO-100-1B23 O-360A4JD CH48103-1 CFO-100-1SIERRA24, A-24, A-24R, B-24R, C-24R IO-360, -L2A CH48110-1 CFO-100-1SKIPPER77 O-235-L2C CH48110-1 –BEECHBARONC55, D55, E55, 58 IO-520 – CFO-100-1C55, D55, E55, 58 IO-520C CH48109-1 –56TC, A56TC TIO-541-E CH48104-1 CFO-101-1Baron 58P TSIO-520-L++ – CFO-100-1Baron 58P, 58TC TSIO-520-L, -W, -B CH48108-1 –Baron 58C, 550 IO-550 CH48109-1 –DUKE60, A60, B60 TIO-541 CH48104-1 CFO-101-1QUEEN AIR65, 70 IGSO-480 CH48111-1 CFO-101-180, 88, B80 IGSO-540 CH48111-1 CFO-101-1TRAVEL AIR95, B95 O-360 CH48110-1 CFO-100-1B95A, D95A, E95 IO-360, L2A CH48110-1 CFO-100-1DUCHESS LO-360-A1G6D &76 O-360-A1G6D CH48103-1BELLANCA17-31A, 17-31ATC IO-540-K CH48110-1 CFO-100-117-31A Viking IO-540-K CH48110-1 CFO-100-117-31A Viking IO-520-D – CFO-100-117-31ATC Turbo TIO-540 CH48110-1 CFO-100-1ChampionEngine Spin-On ChampionModel Model Filter ElementChampionEngine Spin-On ChampionModel Model Filter ElementNOTE: A ll Cessna aircraft modifi ed under Cessna Service BulletinSEB-93-1 or MEB 93-1, require Champion Oil Filter CH48108-1.The CH48109-1 may also be used if clearance permits installation.Aircraft Engine ApplicationsCESSNA T303 LTSIO-520-AE &TSIO-520-AE CH48109-1 –310 C thru Q IO-470 CH48108-1 CFO-100-1310 RIO-520-M CH48108-1 –T310P, Q, R TSIO-520-B CH48108-1 CFO-100-1320-A TSIO-470 CH48104-1 –320-B, C TSIO-470 CH48109-1 CFO-101-1320-D TSIO-520 – CFO-100-1320-D, E, F TSIO-520-B CH48108-1 –335 TSIO-520-EB CH48109-1 –336 IO-360 CH48108-1 CFO-100-1337 IO-360 CH48108-1 CFO-100-1P337, P337H TSIO-360 CH48108-1 CFO-100-1T337H TSIO-360-H CH48108-1 CFO-100-1340 TSIO-520-K CH48108-1 –340A TSIO-520-N, -NB CH48109-1 CFO-100-1401/402TSIO-520-E CH48108-1 CFO-100-1402C TSIO-520-VB CH48109-1 CFO-100-1404GTSIO-520-M CH48111-1 CFO-101-1411-S/N 000 thru 0126 GTSIO-520-C CH48104-1 –411-S/N 0127 and up GTSIO-520-C CH48111-1 CFO-101-1414, 414A TSIO-520-J, -N CH48108-1 –421A, BGTSIO-520-D, -H, CH48111-1 CFO-101-1421C-S/N 1017 thru 1404 -L, -N, ++ CH48111-1 CFO-101-1CIRRUS AIRCRAFT SRV, SR20I0-360ES CH48108-1SR22I0-550N CH48109-1COLUMBIA/LANCAIR COLUMBIA 300, 350 I0-550N CH48109-1 CFO-100-1COLUMBIA 400 TS10-550 CH48109-1 CFO-100-1DIAMOND AIRCRAFT DA20-1C I0-240 CH48108-1 CFO-100-1DA40-180I0-360 CH48110-1 CFO-100-1GULFSTREAM AMERICAN (Single Engine Models)AA-1, 1A, 1B, 1B Trainer, TR 2/Lyco O-235 CH48110-1 CFO-100-1A1C Lynx, T-Cat Lyco O-235-L CH48110-1 CFO-100-1AA-5 Traveler Lyco O-320-E CH48110-1 CFO-100-1AA-5A Cheetah Lyco O-320-E CH48110-1 CFO-100-1AA-5B Tiger Lyco O-360-A4K CH48110-1 CFO-100-1Cougar 2/Lyco O-320-D CH48110-1 CFO-100-1COMMANDER 112, 112A IO-360-C, -L2A CH48110-1 CFO-100-1112TC TO-360-C1A6D CH48103-1 CFO-100-1114IO-540-T4A5D CH48103-1 CFO-100-1500B, 500U IO-540 CH48110-1 CFO-100-1700TIO-540-R2AD CH48103-1 CFO-100-1 33Aircraft engines not listed, but equipped with oil fi lters at overhaul, may accept Champion fi lters. Write Aviation Service Deptment for further information. Please include description of your engine. ++ Reference page 25-26 for other TCM application data. * Requires Lyco (54E23093)MAULEM5-180C, MX7-180 O-360-C, -C1F CH48110-1 M5-210C IO-360D, -L2A M5-210TCTO-360-C1A6D CH48103-1 M5-235C, M6-235, M7-235 O-540-J1A5D CH48103-1 MX-7-235O-540-W1A5D CH48103-1MOONEY AIRCRAFTM20A, B, Mark21O-360 CH48110-1M20D MasterO-360 CH48110-1 CFO-100-1 M20C RangerO-360 CH48110-1M20G StatesmanO-360CH48110-1 CFO-100-1 M20E ChaparralIO-360, -L2A CH48110-1 CFO-100-1 M20F Executive IO-360, -L2ACH48110-1 CFO-100-1 M20J-201 IO-360-A3B6D, -L2A CH48103-1 – M20K-231 TSIO-360-G, LB CH48108-1 M20M-TLS TIO-540-AFIA, B CH48110-1M20RIO-550 CH48108-1 –M22 Mustang TIO-541CH48110-1 CFO-100-1 M20K-252 TSE TSIO-360-MB1CH48108-1 –PIPER CUBPA-18 “150” O-320 CH48110-1 CFO-100-1 TRI-PACERPA-22 “150”O-320 CH48110-1 CFO-100-1 PA-22 “160”O-320CH48110-1 CFO-100-1 COMANCHEPA-24 “180” O-360CH48110-1 CFO-100-1 PA-24 “250”O-540 or IO-540 CH48110-1 CFO-100-1 PA-24B, PA-24C “260”O-540 or IO-540 CH48110-1 CFO-100-1 PA-24 Turbo “260”IO-540 CH48110-1 CFO-100-1 PAWNEEPA-25 “150” O-320 CH48110-1 CFO-100-1 A25 “260”O-540 CH48110-1 CFO-100-1 PA-36 Brave6-285B CH48109-1 –PA-36-375 Brave IO-720-D1C CH48110-1 CFO-100-1 PA-36-400 BraveIO-720D1CD CH48104-1 CFO-101-1 CHEROKEE, CADET PA-28 “140”O-320 CH48110-1 CFO-100-1 PA-28 “150”O-320 CH48110-1 CFO-100-1 PA-28 “160”, “161” O-320 CH48110-1 CFO-100-1 PA-28 “180”O-360CH48110-1 CFO-100-1 PA-28 “180”, “181”O-360-A4M CH48110-1 CFO-100-1 PA-28 “235”O-540 CH48110-1 CFO-100-1 PA-28 “151”O-320CH48110-1 CFO-100-1 ARROWPA-28R “180”IO-360, L2ACH48110-1 CFO-100-1 PA-28R “180 IO-360-C1CD, L2A CH48103-1 CFO-100-1 PA-28R “200” Arrow II IO-360, L2A CH48110-1 CFO-100-1 PA-284 “200” Turbo Arrow IIITSIO-360 CH48108-1 – PA-28-R-201TTSIO-360-F1CH48108-1Champion Engine Spin-On Champion Model ModelFilter ElementChampionEngine Spin-On Champion Model ModelFilter Element Aircraft Engine Applications34TWIN COMMANCHEPA-30 “160” Turbo IO-320 CH48110-1 CFO-100-1PA-39 “160” IO-320 CH48110-1CFO-100-1LIO-320 CH48110-1 CFO-100-1PA-39 “160” Turbo IO-320 CH48110-1 CFO-100-1LIO-320 CH48110-1 CFO-100-1NAVAJOPA-31 “300” IO-540 CH48110-1 CFO-100-1PA-31 “310” Turbo TIO-540 CH48110-1 CFO-100-1PA-31 “325” IO-540-F2BD CH48103-1 CFO-100-1LTIO-540-F2BD CH48103-1 CFO-100-1PA-31 “350” Chieftain TIO-540-J2BD CH48103-1 CFO-100-1LTIO-540-J2BD CH48103-1 CFO-100-1PA-31P “425” TIGO-541 CH48104-1 CFO-101-1PA-31P “350” Mojave TIO/LIO-540-V2AD CH48104-1SENECAPA-34 IO-360C CH48110-1 CFO-100-1LIO-360C CH48110-1 CFO-100-1PA-34 IO-360-C1E6D CH48103-1 CFO-100-1LIO-360-C1E6D CH48103-1 CFO-100-1Seneca II LTSIO-360-E CH48108-1 –TSIO-360-E CH48108-1 –Seneca III TSIO-360-KB CH48108-1PA-34-220T LTSIO-360-KB CH48108-1PIPER AEROSTARPA-60-600, -600A IO-540-G, -K CH48110-1 CFO-100-1PA-60-604, -601B IO-540-P, -S CH48110-1 CFO-100-1PA-60-601P IO-540-S CH48110-1 CFO-100-1PA-60-602P IO-540-AA1A5 CH48110-1 CFO-100-1SEMINOLEPA-44-180 O-360-E1AD CH48103-1* CFO-100-1PA-44-180T TO-360-E1A6DLTO-360-E1A6D CH48103-1* CFO-100-1 ChampionEngine Spin-On ChampionModel Model Filter ElementChampionEngine Spin-On Champion Model Model Filter ElementDAKOTAPA-28-235 O-540-J3A5D CH48103-1* CFO-100-1PA-28-201T TSIO-360-FB CH48108-1 –CHEROKEE SIXPA-32 “260” O-540 CH48110-1 CFO-100-1PA-32 “300” IO-540 CH48110-1 CFO-100-1PA-32R “300” IO-540-K1AD CH48103-1* CFO-100-1PA-32R “300” TIO-540-S1AD CH48103-1* CFO-100-1PA-32RT-300T TIO-540-S1AD CH48103-1* CFO-100-1PA-32-301 IO-540-K1G5D CH48103-1* CFO-100-1PA-32-301 TIO-540-S1AD CH48103-1* CFO-100-1PA-32R-301 IO-540-K1G5D CH48103-1* CFO-100-1PA-32R-301 TIO-540-S1AD CH48103-1* CFO-100-1TOMAHAWKTrainer PA-38-112 O-235-L2C CH48103-1* CFO-100-1MALIBUPA-46-301P Cont TSIO-520-BE CH48109-1MALIBU MIRAGEPA-46-350-P Lyco TIO-540-AE2A CH48103-1APACHEPA-23 “150” O-320 CH48110-1 CFO-100-1PA-23 “160” O-320 CH48110-1 CFO-100-1PA-23 “235” O-540 CH48110-1 CFO-100-1AZTECPA-23 “250” O-540 CH48110-1 CFO-100-1“C” PA-23 IO-540 CH48110-1 CFO-100-1PA-23 Turbo “250” IO-540 CH48110-1 CFO-100-1“C”, “D”, “E”, “F”PA-23 Turbo “250” TIO-540 CH48110-1 CFO-100-1Dimensional DataChampion Thread Dry WeightPart No. A B C D (SAE) Lbs./Kg.CH48103-1 4.48” (11.4 cm) 0.43” (1.09 cm) 1.00” Hex (2.54 cm) 3.71” (9.4 cm) 13/16-16-UNS-2B 1.32lbs. (0.59kg) CH48104-1 5.73” (14.6 cm) 0.43” (1.09 cm) 1.00” Hex (2.54 cm) 3.71” (9.4 cm) 13/16-16-UNS-2B 1.41lbs. (0.64kg) CH48108-1 4.48” (11.4 cm) 0.43” (1.09 cm) 1.00” Hex (2.54 cm) 3.71” (9.4 cm) 3/4-16-UNF-2B 1.40lbs. (0.64kg) CH48109-1 5.73” (14.6 cm) 0.43” (1.09 cm) 1.00” Hex (2.54 cm) 3.71” (9.4 cm) 3/4-16-UNF-2B 1.51lbs. (0.68kg) CH48110-1 4.48” (11.4 cm) 0.43” (1.09 cm) 1.00” Hex (2.54 cm) 3.71” (9.4 cm) 3/4-16-UNF-2A 1.38lbs. (0.63kg) CH48111-1 5.73” (14.6 cm) 0.43” (1.09 cm) 1.00” Hex (2.54 cm) 3.71” (9.4 cm) 3/4-16-UNF-2A 1.47lbs. (0.67kg)Popular spin-on oil fi ltersAircraft engines not listed, but equipped with oil fi lters at overhaul, may accept Champion fi lters. Write Aviation Service Department for furtherinformation. Please include description of your engine. * Requires Lyco (54E23093)Aircraft Engine Applications。

September2001-Ed:1A SNUBBERLESS TRIACSSymbol Parameter Value Unit I T(RMS)RMS on-state current(360°conduction angle)BTA Tc=70°C20ABTB Tc=90°CI TSM Non repetitive surge peak on-state current(Tj initial=25°C)tp=8.3ms210A tp=10ms200I2t I2t value tp=10ms200A2sdI/dt Critical rate of rise of on-state currentGate supply:I G=500mA dI G/dt=1A/µsRepetitiveF=50Hz20A/µs Non repetitive100Tstg Tj Storage and operating junction temperature range-40to+150-40to+125°CTl Maximum lead soldering temperature during10s at4.5mm from case260°C ABSOLUTE RATINGS(limiting values)Symbol Parameter BTA/BTB20-...BW/CWUnit 600700V DRMV RRMRepetitive peak off-state voltage Tj=125°C600700V1/6BTA20 BW/CW BTB20 BW/CW2/6Symbol Parameter Value Unit Rth(j-a)Junction to ambient60°C/WRth(j-c)DC Junction to case for DC BTA 2.8°C/WBTB 1.7Rth(j-c)AC Junction to case for360°conduction angle(F=50Hz)BTA 2.1°C/WBTB 1.3GATE CHARACTERISTICS(maximum values)P G(AV)=1W P GM=10W(tp=20µs)I GM=4A(tp=20µs)V GM=16V(tp=20µs)THERMAL RESISTANCESymbol Test conditions QuadrantBTA/BTB20Unit BW CWI GT V D=12V(DC)R L=33ΩTj=25°C I-II-III MIN.21mAMAX.5035V GT V D=12V(DC)R L=33ΩTj=25°C I-II-III MAX. 1.5V V GD V D=V DRM R L=3.3kΩTj=125°C I-II-III MIN.0.2V tgt V D=V DRM I G=500mAdI G/dt=3A/µsTj=25°C I-II-III TYP.2µs I L I G=1.2I GT Tj=25°C I-III TYP.50-mAII90-I-II-III MAX.-80I H*I T=500mA Gate open Tj=25°C MAX.7550mA V TM*I TM=28A tp=380µs Tj=25°C MAX. 1.70VI DRM I RRM V DRM ratedV RRM ratedTj=25°C MAX.0.01mATj=125°C MAX.3dV/dt*Linear slope up toV D=67%V DRM gate openTj=125°C TYP.750500V/µsMIN.500250(dI/dt)c*Without snubber Tj=125°C TYP.3622A/msMIN.1811*For either polarity of electrode A2voltage with reference to electrode A1ELECTRICAL CHARACTERISTICSBTA20 BW/CW BTB20 BW/CW3/6Package I T(RMS)V DRM /V RRMSensitivity SpecificationA V BW CW BTA(Insulated)20600X X 700XX BTB(Uninsulated)600XPRODUCT INFORMATIONORDERING INFORMATIONBTA20 BW/CW BTB20 BW/CW4/6Fig.3:Correlation between maximum RMS power dissipation and maximum allowable temperatures (Tamb and Tcase)for different thermal resistances heatsink +contact(BTB).Fig.4:RMS on-state current versus case temper-ature.1E-31E-21E-11E+01E+11E+25E+2Zth/Rth Fig.5:Relative variation of thermal impedance versus pulseduration.Fig.6:Relative variation of gate trigger current and holding current versus junctiontemperature.Fig.1:Maximum RMS power dissipation versus RMS on-state current (F =50Hz).(Curves are cut off by (dI/dt)climitation)Fig.2:Correlation between maximum RMS power dissipation and maximum allowable temperatures (Tamb and Tcase)for different thermal resistances heatsink +contact (BTA).BTA20 BW/CW BTB20 BW/CW5/6Fig.9:On-state characteristics (maximumvalues).Fig.7:Non repetitive surge peak on-state current versus number ofcycles.Fig.8:Non repetitive surge peak on-state current for a sinusoidal pulse with width:t ≤10ms,and cor-responding value of I 2t.BTA20 BW/CW BTB20 BW/CW6/6Information furnished is believed to be accurate and reliable.However,STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use.No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics.Specifications mentioned in this publication are subject to change without notice.This publication supersedes and replaces all information previously supplied.STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written ap-proval of STMicroelectronics.The ST logo is a registered trademark of STMicroelectronics ©2001STMicroelectronics -Printed in Italy -All rights reserved.STMicroelectronics GROUP OF COMPANIESAustralia -Brazil -China -Finland -France -Germany -Hong Kong -India -Italy -Japan -MalaysiaMalta -Morocco -Singapore -Spain -Sweden -Switzerland -United Kingdom -U.S.A.Ordering type Marking Package Weight Base qty Delivery modeBTA/BTB20-xxxyzBTA/BTB20-xxxyzTO-220AB2.3g250Bulks Epoxy meets UL94,V0s Cooling method:Cs Recommended torque value:0.8m.N.sMaximum torque value:1m.N.OTHER INFORMATIONPACKAGE MECHANICAL DATA。

北京宝云兴业科贸有限公司成立于1998 年，自成立伊始，就秉持着“诚信、执着、创新、快速”的经营理念。

公司以国家相关标准为依据，引进国际先进仪器，以个性化配置方案与完善的服务体系为特色，先后成为国家卫生健康委员会、中国各省市疾控中心、卫生监督所等企事业单位的优质合作伙伴。

连续多年被推举为中国卫生监督协会环境卫生与健康专业委员会副主任委员单位，以及北京教育装备行业协会会员单位。

典型用户：国家卫生健康委员会、浙江省、福建省、安徽省、广西壮族自治区、江西省、辽宁省、河北省卫生厅、中国疾控中心、北京市疾控中心以及各省市卫生监督所、大专院校等单位。

美国TSI 公司成立于1961年，它是全球精密测量仪器设计和生产的行业领导者，出品的室内空气质量检测仪、颗粒物检测仪等都在国际上享有盛誉。

Sun Nuclear 成立于1984年，由一支经验丰富的辐射检测科学家和工程师队伍组成。

公司旨在为社会提供了一种新的测量辐射的方法，在提高了测量质量的同时也简化程序。

Mesalabs 股份有限公司是一家研发、制造及销售为一体的综合型企业，总部位于美国科罗拉多州的丹佛市。

公司主要产品包括监测仪器，数据采集仪器，气体流量校准仪器，环境监测仪及耗材等，仪器广泛应用于工业、实验室及环保等相关领域。

公司简介成功案例合作伙伴COMPANY PROFILESUCCESSFUL CASESPARTNERS美国SKC 公司是世界上最大的空气采样器制造商，是世界空气采样技术的领跑者，距今已有近60年的发展历史。

它向全球用户提供600种以上专业的空气采样产品。

日本理研计器株式会社成立于1939年，是日本知名的上市公司，也是日本首屈一指的气体测试仪器生产商，产品畅销于全球五大洲。

其生产的 FP-30MK2(C)甲醛检测仪，检测方法已被列为中国国标检测方法。

手动采样泵&检气管风速/新风量检测仪甲醛检测仪大气压力表射线检测仪水质检测套装空气采样泵流量校准器温湿度计振动测试仪细菌/病毒微生物采样系统差压计气体检测仪集中空调采样设备便携式B超检测仪在线监测系统采样附件颗粒物检测仪照度计热辐射检测仪撞击式空气微生物采样器室内空气质量检测仪测氡仪噪声检测仪水质检测仪061317263549 01082532 061520273655 05092633 0716252937产品手册 目录THE WHOLE INDUSTRYPRODUCT MANUALS01便携式采样泵（5-5000mL/min）产品特点AirChek Connect 型AirChek Connect 型便携式采样泵可通过蓝牙和USB 两种方式连接手机和电脑的低噪声采样泵。

March 2010Doc ID 7472 Rev 71/12BTA08, BTB08T810, T835Snubberless™, logic level and standard 8 A TriacsFeatures■On-state rms current, I T(RMS) 8 A■Repetitive peak off-state voltage, V DRM /V RRM 600 to 800 V■Triggering gate current, I GT (Q1) 5 to 50 mADescriptionAvailable either in through-hole or surface-mount packages, the BTA08, BTB08 and T8 triac series is suitable for general purpose AC switching. They can be used as an ON/OFF function in applications such as static relays, heatingregulation, induction motor starting circuits... or for phase control operation in light dimmers, motor speed controllers,...The snubberless versions (BT A/BTB...W and T8 series) are specially recommended for use on inductive loads, thanks to their high commutation performances.Logic level versions are designed to interface directly with low power drivers such as microcontrollers.By using an internal ceramic pad, the BTA series provides voltage insulated tab (rated at 2500 V RMS ) complying with UL standards (file ref.: E81734).Characteristics BTA08, BTB08 and T8 Series2/12Doc ID 7472 Rev 71 CharacteristicsTable 1.Absolute maximum ratingsSymbolParameterValueUnitI T(RMS)On-state rms current (full sine wave)IP AK/D 2P AK/DP AK/TO-220AB T c = 110 °C8ATO-220AB Ins.T c = 100 °C I TSM Non repetitive surge peak on-state current (full cycle, T j initial = 25 °C) F = 50 Hz t = 20 ms 80A F = 60 Hz t = 16.7 ms84I ²t I ²t value for fusingt p = 10 ms36A ²s dI/dt Critical rate of rise of on-state current I G = 2x I GT ,t r ≤ 100 ns F = 120 Hz T j = 125 °C 50A/µs I GM Peak gate currentt p = 20 µsT j = 125 °C 4A P G(AV)Average gate power dissipation T j = 125 °C1W T stg T jStorage junction temperature range Operating junction temperature range- 40 to + 150- 40 to + 125°CTable 2.Electrical characteristics (T j = 25 °C, unless otherwise specified)Snubberless and logic level (3 quadrants)Symbol Test conditionsQuadrant T8BTA08 / BTB08UnitT810T835TW SW CW BW I GT (1)V D = 12 V R L = 30 ΩI - II - III MAX.10355103550mA V GT I - II - III MAX. 1.3V V GD V D = V DRM R L = 3.3 k ΩT j = 125 °C I - II - IIIMIN.0.2V I H (2)I T = 100 mA MAX.153510153550mA I L I G = 1.2 I GTI - III MAX.255010255070mA II306015306080dV/dt (2)V D = 67 %V DRM gate open T j = 125 °CMIN.4040020404001000V/µs(dI/dt)c(2)(dV/dt)c = 0.1 V/µs T j = 125 °CMIN.5.4- 3.5 5.4--A/ms(dV/dt)c = 10 V/µs T j = 125 °C 2.8- 1.5 2.98--Without snubber T j = 125 °C- 4.5-- 4.57BTA08, BTB08 and T8 Series CharacteristicsDoc ID 7472 Rev 73/12S = Copper surface under tab.Table 3.Standard (4 quadrants)SymbolTest conditionsQuadrantBTA08 / BTB08UnitCB I GT (1)V D = 12 V , R L = 33 ΩI - II - III IV MAX.255050100mA V GT ALLMAX. 1.3V V GD V D = V DRM , R L = 3.3 k Ω, T j = 125 °C ALLMIN.0.2V I H (2)I T = 500 mA MAX.2550mA I LI G = 1.2 I GTI - III - IVMAX.4050mA II 80100dV/dt (2)V D = 67 %V DRM gate open T j = 125 °C MIN.200400V/µs (dV/dt)c(2)(dI/dt)c = 5.3 A/msT j = 125 °CMIN.510V/µsTable 4.Static characteristicsSymbol Test conditionsValue Unit V TM (1)I TM = 11 A, t p = 380 µs T j = 25 °C MAX. 1.55V V t0 (2)Threshold voltage T j = 125 °C MAX.0.85V R d (2)Dynamic resistance T j = 125 °C MAX.50m ΩI DRM I RRMV DRM = V RRMT j = 25 °C MAX.5µA T j = 125 °C1mA1.minimum I GT is guaranted at 5% of I GT max.2.for both polarities of A2 referenced to A1.Table 5.Thermal resistanceSymbol ParameterValue Unit R th(j-c)Junction to case (AC)IP AK / D 2P AK / DP AK / TO-220AB 1.6°C/WTO-220AB Insulated 2.5R th(j-a)Junction to ambientS = 1 cm ²D 2P AK 45°C/W S = 0.5 cm ²DP AK70TO-220AB / TO-220AB Insulated 60IP AK100Characteristics BTA08, BTB08 and T8 Series Figure 1.Maximum power dissipation versus Figure 2.On-state rms current versus case4/12Doc ID 7472 Rev 7BTA08, BTB08 and T8 SeriesCharacteristicsDoc ID 7472 Rev 75/12Figure 7.Non-repetitive surge peak on-stateFigure 8.Relative variation of gate triggerFigure 9.Relative variation of critical rate of decrease of main current versus Figure 10.Relative variation of critical rate of decrease of main current versusFigure 11.Relative variation of critical rate of decrease of main current versus junction temperature Figure 12.DPAK and D 2P AK thermal resistance junction to ambient versus copper surface under tabPackage information BTA08, BTB08 and T8 Series6/12Doc ID 7472 Rev 72 Package information●Epoxy meets UL94, V0●Lead-free packagesIn order to meet environmental requirements, ST offers these devices in different grades ofECOPACK ® packages, depending on their level of environmental compliance. ECOPACK ® specifications, grade definitions and product status are available at: . ECOPACK ® is an ST trademark.2BTA08, BTB08 and T8 Series Package informationDoc ID 7472 Rev 77/12Package information BTA08, BTB08 and T8 Series8/12Doc ID 7472 Rev 7BTA08, BTB08 and T8 Series Package informationDoc ID 7472 Rev 79/12Ordering information BTA08, BTB08 and T8 Series10/12Doc ID 7472 Rev 73 Ordering informationBTB: non insulated TO-220AB packageTable 9.Product SelectorPart NumberVoltage (xxx)SensitivityTypePackage600 V800 V BT A/BTB08-xxxB X X 50 mA Standard TO-220AB BT A/BTB08-xxxBW X X 50 mA Snubberless TO-220AB BT A/BTB08-xxxC X X 25 mA Standard TO-220AB BT A/BTB08-xxxCW X X 35 mA Snubberless TO-220AB BT A/BTB08-xxxSW X X 10 mA Logic level TO-220AB BT A/BTB08-xxxTW X X 5 mA Logic Level TO-220AB T810-xxxG X X 10 mA Logic Level D 2P AK T810-xxxH X X 10 mA Logic Level IP AK T835-xxxB X X 35 mA Snubberless DP AK T835-xxxG X X 35 mA Snubberless D 2P AK T835-xxxHXX35 mASnubberlessIP AKBTA08, BTB08 and T8 Series Ordering informationDoc ID 7472 Rev 711/124 Ordering informationxxx = voltage, yy = sensitivity, z = type5 Revision historyTable 10.Ordering informationOrder code Marking Package Weight Base qty Delivery modeBTA/BTB08-xxxyzRGBTA/BTB08-xxxyzTO-220AB 2.3 g 50Tube T8yy-xxxG T8yyxx D2P AK1.5 g50Tube T8yy-xxxG-TR T8yyxx 1000T ape and reelT8yy-xxxB T8yyxx DP AK 0.3 g 75Tube T8yy-xxxB-TR T8yyxx 2500T ape and reelT8yy-xxxHT8yyxxIP AK0.4 g75TubeTable 11.Document revision historyDate Revision ChangesApr-20025A Last update.13-Feb-20066TO-220AB delivery mode changed from bulk to tube.ECOP ACK statement added.10-Mar-20107Updated ECOP ACK statement and Figure 16.BTA08, BTB08 and T8 SeriesPlease Read Carefully:Information in this document is provided solely in connection with ST products. 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All other names are the property of their respective owners.© 2010 STMicroelectronics - All rights reservedSTMicroelectronics group of companiesAustralia - Belgium - Brazil - Canada - China - Czech Republic - Finland - France - Germany - Hong Kong - India - Israel - Italy - Japan - Malaysia - Malta - Morocco - Philippines - Singapore - Spain - Sweden - Switzerland - United Kingdom - United States of America12/12Doc ID 7472 Rev 7。

序号产品型号电流电压触发电流封装形式1 BTA02-600 2A 600V TO-922 BTA03-600 2A 600V TO-126/ML3 BTN03-600 2A 600V TO-126/ML4 BTA16600B 16A 600V 35~50mA TO-220AB/FP5 BTF06-800 6A 800V 5~10mA TO-220AB/FP6 MCR100-6 1A 600V 10~30uA TO-927 MCR100-8 1A 800V 10~30uA TO-928 2P4M 2A 400V 10~30uA TO-2029 2P6M 2A 600V 10~30uA TO-20210 JCT05 5A 600V 5~10mA TO-202AB11 BT151 8A 600V 5~10mA TO-220AB12 BT169 1A 600V 10~50uA TO-9213 CT10 10A 600V 8~15mA TO-220AB/FP14 CT12 12A 600V 8~15mA TO-220AB/FP15 CT16 16A 600V 8~15mA TO-220AB/FP16 CT20 20A 600V 10~20mA TO-220AB/FP17 MAC97A6 1A 400V 1~5mA TO-9218 MAC97A8 1A 600V 1~5mA TO-9219 MAC223A6 1A 400V 50mA TO-220AB20 MAC223A8 1A 600V 50mA TO-220AB21 MAC223A8X 1A 600V 50mA SOT186A22 BT131-400D 1A 400V 1~5mA TO-9223 BT131-400E 1A 400V 5~10mA TO-9224 BT131-600D 1A 600V 1~5mA TO-9225 BT131-600E 1A 400V 5~10mA TO-9226 BT132-400D 1A 400V 1~5mA TO-9227 BT132-400E 1A 400V 5~10mA TO-92序号产品型号电流电压触发电流封装形式28 BT132-600D 1A 600V 1~5mA TO-9229 BT132-600E 1A 400V 5~10mA TO-9230 BT134-400D 4A 400V 1~5mA TO-126ML31 BT134-400E 4A 600V 5~10mA TO-126ML32 BT134-600D 4A 600V 1~5mA TO-126ML33 BT134-600E 4A 600V 5~10mA TO-126ML34 BT134-600D 4A 600V 1~5mA SOT8235 BT134-600E 4A 600V 5~10mA SOT8236 BT134-800D 4A 800V 1~5mA SOT8237 BT134-800E 4A 800V 5~10mA SOT8238 BT136-400D 4A 400V 1~5mA TO-220AB39 BT136-400E 4A 400V 5~10mA TO-220AB40 BT136-600D 4A 600V 1~5mA TO-220AB41 BT136-600E 4A 600V 5~10mA TO-220AB42 BT136-800D 4A 800V 1~5mA TO-220AB43 BT136-800E 4A 800V 5~10mA TO-220AB44 BT137-400D 8A 400V 1~5mA TO-220AB45 BT137-400E 8A 400V 5~10mA TO-220AB46 BT137-600D 8A 600V 1~5mA TO-220AB47 BT137-600E 8A 600V 5~10mA TO-220AB48 BT137-800D 8A 800V 1~5mA TO-220AB49 BT137-800E 8A 800V 5~10mA TO-220AB50 BT137X-600 8A 600V 35mA TO-220FP51 BT137X-600D 8A 600V 5mA TO-220FP52 BT137X-600F 8A 600V 25mA TO-220FP53 BT137X-800 8A 800V 35mA TO-220FP54 BT137X-600E 8A 600V 10mA TO-220FP序号产品型号电流电压触发电流封装形式55 BT137X-800E 8A 600V 10mA TO-220FP56 BT137-600F 8A 600V 25mA TO-220AB57 BT137-600D 8A 600V 5mA TO-220AB58 BT137-600E 8A 600V 10mA TO-220AB59 BT137-800E 8A 600V 10mA TO-220AB60 BT137-600F 8A 600V 25mA TO-220AB61 BT138-400D 12A 400V 1~5mA TO-220AB62 BT138-400E 12A 400V 5~10mA TO-220AB63 BT138-600D 12A 600V 1~5mA TO-220AB64 BT138-600E 12A 600V 5~10mA TO-220AB65 BT138-600F 12A 600V 25mA TO-220AB66 BT138-800D 12A 800V 1~5mA TO-220AB67 BT138-800E 12A 800V 5~10mA TO-220AB68 BT138-800F 12A 800V 25mA TO-220AB69 BT138X-600 12A 600V 35mA TO-220FP70 BT138X-600F 12A 600V 25mA TO-220FP71 BT138X-800 12A 800V 35mA TO-220FP72 BT138X-800F 12A 800V 25mA TO-220FP73 BT139X-600 16A 600V 35mA TO-220FP74 BT139X-600F 16A 600V 25mA TO-220FP75 BT139X-800 16A 800V 35mA TO-220FP76 BT139-600 16A 600V 35mA TO-220AB77 BT139-600F 16A 600V 25mA TO-220AB78 BT139-800 16A 800V 35mA TO-220AB79 BT139-800F 16A 800V 25mA TO-220AB80 BT139-800G 16A 800V 50m TO-220AB81 BT139-600F 16A 600V 25mA TO-220AB序号产品型号电流电压触发电流封装形式82 BT139-600G 16A 600V 50m TO-220AB83 BT139-600D 16A 600V 1~5mA TO-220AB84 BT139-600E 16A 600V 5~10mA TO-220AB85 BT139-800D 16A 800V 1~5mA TO-220AB86 BT139-800E 16A 800V 5~10mA TO-220AB87 BT139-800F 16A 800V 25mA TO-220AB88 BT139-800G 16A 800V 50m TO-220AB89 BT151-500R 12A 500V 2~15mA TO-220AB90 BT151-650R 12A 650V 2~15mA TO-220AB91 BT151-800R 12A 800V 2~15mA TO-220AB92 BT152 20A 800V 32mA TO-220AB93 BTA140-600 25A 600V 35mA TO-220AB94 BTA140-800 25A 800V 35mA TO-220AB95 BTA140B-500 25A 500V 35mA SOT-40496 BTA140B-600 25A 600V 35mA SOT-40497 BTA140B-800 25A 800V 35mA SOT-40498 BT145-800R 25A 800V 35mA TO-220AB99 BT148W-600R 1A 600V 0.2mA SOT223 100 BT148-400R 4A 400V 0.2mA SOT82 101 BT148-500R 4A 500V 0.2mA SOT82 102 BT148-600R 4A 600V 0.2mA SOT82 103 BT150-500R 4A 500V 0.2mA TO-220AB 104 BT150S-600R 4A 600V 0.2mA TO-252/D-PAK 105 BTA151-650R 12A 650V 4mA SOT82 106 BT151-500R 12A 500V 15mA TO-220AB 107 BT151-650R 12A 650V 15mA TO-220AB 108 BT151-800R 9A 800V 15mA TO-220AB序号产品型号电流电压触发电流封装形式109 BT151X-500R 12A 500V 15mA TO-220FP 110 BT151X-650R 12A 650V 15mA TO-220FP 111 BT151X-800R 12A 800V 15mA TO-220FP 112 BT151S-500R 12A 500V 15mA TO-252/D-PAK 113 BT151S-650R 12A 650V 15mA TO-252/D-PAK 114 BT151S-800R 12A 800V 15mA TO-252/D-PAK 115 BT151B-500R 12A 500V 15mA TO-263/D2-PAK 116 BT151B-650R 12A 650V 15mA TO-263/D2-PAK 117 BT151B-800R 12A 800V 15mA TO-263/D2-PAK 118 BT151F-500R 9A 500V 15mA SOT-186 119 BT152-400R 20A 400V 32mA TO-220AB 120 BT152-600R 20A 600V 32mA TO-220AB 121 BT152-800R 20A 800V 32mA TO-220AB 122 BT152X-400R 20A 400V 32mA TO-220FP 123 BT152X-600R 20A 600V 32mA TO-220FP 124 BT152X-800R 20A 800V 32mA TO-220FP 125 BT152B-400R 20A 400V 32mA TO-263/D2-PAK 126 BT152B-600R 20A 600V 32mA TO-263/D2-PAK 127 BT152B-800R 20A 800V 32mA TO-263/D2-PAK 128 BTA204-600D 4A 600V 5mA TO-220AB 129 BTA204-600E 4A 600V 10mA TO-220AB 130 BTA204-600F 4A 600V 25mA TO-220AB 131 BTA204-800E 4A 800V 10mA TO-220AB 132 BTA204-600B 4A 600V 50mA TO-220AB 133 BTA204-600C 4A 600V 35mA TO-220AB 134 BTA204S-600B 4A 600V 50mA TO-252/D-PAK 135 BTA204S-600C 4A 600V 35mA TO-252/D-PAK序号产品型号电流电压触发电流封装形式136 BTA204S-600D 4A 600V 5mA TO-252/D-PAK 137 BTA204S-600E 4A 600V 10mA TO-252/D-PAK 138 BTA204S-600F 4A 600V 25mA TO-252/D-PAK 139 BTA204W-600D 1A 600V 5mA SOT223 140 BTA204W-600E 1A 600V 10mA SOT223 141 BTA204W-600F 1A 600V 25mA SOT223 142 BTA204W-600B 1A 600V 50mA SOT223 143 BTA204W-600C 1A 600V 35mA SOT223 144 BTA204X-600D 4A 600V 5mA TO-220FP 145 BTA204X-600E 4A 600V 10mA TO-220FP 146 BTA204X-600F 4A 600V 25mA TO-220FP 147 BTA208X-600D 8A 600V 5mA TO-220FP 148 BTA208X-600E 8A 600V 10mA TO-220FP 149 BTA208X-600F 8A 600V 25mA TO-220FP 150 BTA208X-800E 8A 800V 10mA TO-220FP 151 BTA208-600D 8A 600V 5mA TO-220AB 152 BTA208-600E 8A 600V 10mA TO-220AB 153 BTA208-600F 8A 600V 25mA TO-220AB 154 BTA208-600B 8A 600V 50mA TO-220AB 155 BTA208-800B 8A 800V 50mA TO-220AB 156 BTA208S-600B 8A 600V 50mA TO-252/D-PAK 157 BTA208S-800B 8A 800V 50mA TO-252/D-PAK 158 BTA208S-600D 8A 600V 5mA TO-252/D-PAK 159 BTA208S-600E 8A 600V 10mA TO-252/D-PAK 160 BTA208S-600F 8A 600V 25mA TO-252/D-PAK 161 BTA208B-500B 8A 500V 50mA SOT-404 162 BTA208B-600B 8A 600V 50mA SOT-404序号产品型号电流电压触发电流封装形式163 BTA208B-800B 8A 800V 50mA SOT-404 164 BTA212X-600B 12A 600V 50mA TO-220FP 165 BTA212X-800B 12A 800V 50mA TO-220FP 166 BTA212X-600D 12A 600V 5mA TO-220FP 167 BTA212X-600E 12A 600V 10mA TO-220FP 168 BTA212X-600F 12A 600V 25mA TO-220FP 169 BTA212X-800E 12A 800V 10mA TO-220FP 170 BTA212X-600B 12A 600V 50mA TO-220FP 171 BTA212X-800B 12A 800V 50mA TO-220FP 172 BTA216X-600B 16A 600V 50mA TO-220FP 173 BTA216X-800B 16A 800V 50mA TO-220FP 174 BTA216X-600D 16A 600V 5mA TO-220FP 175 BTA216X-600E 16A 600V 10mA TO-220FP 176 BTA216X-600F 16A 600V 25mA TO-220FP 177 BTA216-600B 16A 600V 50mA TO-220AB 178 BTA216-800B 16A 800V 50mA TO-220AB 179 BTA216-600D 16A 600V 5mA TO-220AB 180 BTA216-600E 16A 600V 10mA TO-220AB 181 BTA216-600F 16A 600V 25mA TO-220AB 182 BTA225-600B 25A 600V 50mA TO-220AB 183 BTA225-800B 25A 800V 50mA TO-220AB 184 BTA225B-600B 25A 600V 50mA TO-263/D2-PAK 185 BTA225B-800B 25A 800V 50mA TO-263/D2-PAK 186 BT258U-600R 8A 600V 0.2mA SOT533/(I-PAK) 187 BT300-600R 8A 600V 15mA TO-220AB 188 BT300S-600R 8A 600V 15mA TO-252/D-PAK 189 BTA04-400B 4A 400V 35~50mA TO-220序号产品型号电流电压触发电流封装形式190 BTA04-400BW 4A 400V 50mA TO-220 191 BTA04-400C 4A 400V 25mA TO-220 192 BTA04-400CW 4A 400V 35mA TO-220 193 BTA04-400SW 4A 400V 10mA TO-220 194 BTA04-400TW 4A 400V 5mA TO-220 195 BTA04-400E 4A 400V 5~10mA TO-220 196 BTA04-400D 4A 400V 1~5mA TO-220 197 BTA04-400SAP 4A 400V 5~10mA TO-220 198 BTA04-600B 4A 600V 35~50mA TO-220 199 BTA04-600BW 4A 600V 50mA TO-220AB 200 BTA04-600C 4A 600V 25mA TO-220AB 201 BTA04-600CW 4A 600V 35mA TO-220AB 202 BTA04-600SW 4A 600V 10mA TO-220AB 203 BTA04-600TW 4A 600V 5mA TO-220AB 204 BTA04-600E 4A 600V 5~10mA TO-220AB 205 BTA04-600D 4A 600V 1~5mA TO-220AB 206 BTA04-600SAP 4A 600V 5~10mA TO-220AB 207 BTA04-700B 4A 700V 35~50mA TO-220AB 208 BTA04-700BW 4A 700V 50mA TO-220AB 209 BTA04-700C 4A 700V 25mA TO-220AB 210 BTA04-700CW 4A 700V 35mA TO-220AB 211 BTA04-700SW 4A 700V 10mA TO-220AB 212 BTA04-700TW 4A 700V 5mA TO-220AB 213 BTA04-700E 4A 700V 5~10mA TO-220AB 214 BTA04-700D 4A 700V 1~5mA TO-220AB 215 BTA04-700SAP 4A 700V 5~10mA TO-220AB 216 BTA04-800B 4A 800V 35~50mA TO-220AB序号产品型号电流电压触发电流封装形式217 BTA04-800BW 4A 800V 50mA TO-220AB 218 BTA04-800C 4A 800V 25mA TO-220AB 219 BTA04-800CW 4A 800V 35mA TO-220AB 220 BTA04-800SW 4A 800V 10mA TO-220AB 221 BTA04-800TW 4A 800V 5mA TO-220AB 222 BTA04-800E 4A 800V 5~10mA TO-220AB 223 BTA04-800D 4A 800V 1~5mA TO-220AB 224 BTA04-800SAP 4A 800V 5~10mA TO-220AB 225 BTB04-400B 4A 400V 35~50mA TO-220AB 226 BTB04-400BW 4A 400V 50mA TO-220AB 227 BTB04-400C 4A 400V 25mA TO-220AB 228 BTB04-400CW 4A 400V 35mA TO-220AB 229 BTB04-400SW 4A 400V 10mA TO-220AB 230 BTB04-400TW 4A 400V 5mA TO-220AB 231 BTB04-400E 4A 400V 5~10mA TO-220AB 232 BTB04-400D 4A 400V 1~5mA TO-220AB 233 BTB04-400SAP 4A 400V 5~10mA TO-220AB 234 BTB04-600B 4A 600V 35~50mA TO-220AB 235 BTB04-600BW 4A 600V 50mA TO-220AB 236 BTB04-600C 4A 600V 25mA TO-220AB 237 BTB04-600CW 4A 600V 35mA TO-220AB 238 BTB04-600SW 4A 600V 10mA TO-220AB 239 BTB04-600TW 4A 600V 5mA TO-220AB 240 BTB04-600E 4A 600V 5~10mA TO-220AB 241 BTB04-600D 4A 600V 1~5mA TO-220AB 242 BTB04-600SAP 4A 600V 5~10mA TO-220AB 243 BTB04-700B 4A 700V 35~50mA TO-220AB序号产品型号电流电压触发电流封装形式244 BTB04-700BW 4A 700V 50mA TO-220AB 245 BTB04-700C 4A 700V 25mA TO-220AB 246 BTB04-700CW 4A 700V 35mA TO-220AB 247 BTB04-700SW 4A 700V 10mA TO-220AB 248 BTB04-700TW 4A 700V 5mA TO-220AB 249 BTB04-700E 4A 700V 5~10mA TO-220AB 250 BTB04-700D 4A 700V 1~5mA TO-220AB 251 BTB04-700SAP 4A 700V 5~10mA TO-220AB 252 BTB04-800B 4A 800V 35~50mA TO-220AB 253 BTB04-800BW 4A 800V 50mA TO-220AB 254 BTB04-800C 4A 800V 25mA TO-220AB 255 BTB04-800CW 4A 800V 35mA TO-220AB 256 BTB04-800SW 4A 800V 10mA TO-220AB 257 BTB04-800TW 4A 800V 5mA TO-220AB 258 BTB04-800E 4A 800V 5~10mA TO-220AB 259 BTB04-800D 4A 800V 1~5mA TO-220AB 260 BTB04-800SAP 4A 800V 5~10mA TO-220 261 BTA06-400B 6A 400V 35~50mA TO-220AB 262 BTA06-400BW 6A 400V 50mA TO-220AB 263 BTA06-400C 6A 400V 25mA TO-220AB 264 BTA06-400CW 6A 400V 35mA TO-220AB 265 BTA06-400TW 6A 400V 5mA TO-220AB 266 BTA06-400E 6A 400V 5~10mA TO-220AB 267 BTA06-400D 6A 400V 1~5mA TO-220AB 268 BTA06-400SAP 6A 400V 5~10mA TO-220 269 BTA06-600B 6A 600V 35~50mA TO-220AB 270 BTA06-600BW 6A 600V 50mA TO-220AB序号产品型号电流电压触发电流封装形式271 BTA06-600C 6A 600V 25mA TO-220AB 272 BTA06-600CW 6A 600V 35mA TO-220A 273 BTA06-600SW 6A 600V 10mA TO-220AB 274 BTA06-600TW 6A 600V 5mA TO-220AB 275 BTA06-600E 6A 600V 5~10mA TO-220AB 276 BTA06-600D 6A 600V 1~5mA TO-220AB 277 BTA06-600SAP 6A 600V 5~10mA TO-220AB 278 BTA06-700B 6A 700V 35~50mA TO-220AB 279 BTA06-700BW 6A 700V 50mA TO-220AB 280 BTA06-700C 6A 700V 25mA TO-220AB 281 BTA06-700CW 6A 700V 35mA TO-220AB 282 BTA06-700SW 6A 700V 10mA TO-220AB 283 BTA06-700TW 6A 700V 5mA TO-220AB 284 BTA06-700E 6A 700V 5~10mA TO-220AB 285 BTA06-700D 6A 700V 1~5mA TO-220AB 286 BTA06-700SAP 6A 700V 5~10mA TO-220AB 287 BTA06-800B 6A 800V 35~50mA TO-220AB 288 BTA06-800BW 6A 800V 50mA TO-220AB 289 BTA06-800C 6A 800V 25mA TO-220AB 290 BTA06-800CW 6A 800V 35mA TO-220AB 291 BTA06-800SW 6A 800V 10mA TO-220AB 292 BTA06-800TW 6A 800V 5mA TO-220AB 293 BTA06-800E 6A 800V 5~10mA TO-220AB 294 BTA06-800D 6A 800V 1~5mA TO-220AB 295 BTA06-800SAP 6A 800V 5~10mA TO-220AB 296 BTB06-400B 6A 400V 35~50mA TO-220A 297 BTB06-400BW 6A 400V 50mA TO-220AB序号产品型号电流电压触发电流封装形式298 BTB06-400C 6A 400V 25mA TO-220AB 299 BTB06-400CW 6A 400V 35mA TO-220AB 300 BTB06-400SW 6A 400V 10mA TO-220AB 301 BTB06-400TW 6A 400V 5mA TO-220AB 302 BTB06-400E 6A 400V 5~10mA TO-220AB 303 BTB06-400D 6A 400V 1~5mA TO-220AB 304 BTB06-400SAP 6A 400V 5~10mA TO-220AB 305 BTB06-600B 6A 600V 35~50mA TO-220A 306 BTB06-600BW 6A 600V 50mA TO-220AB 307 BTB06-600C 6A 600V 25mA TO-220AB 308 BTB06-600CW 6A 600V 35mA TO-220AB 309 BTB06-600SW 6A 600V 10mA TO-220AB 310 BTB06-600TW 6A 600V 5mA TO-220AB 311 BTB06-600E 6A 600V 5~10mA TO-220 312 BTB06-600D 6A 600V 1~5mA TO-220AB 313 BTB06-600SAP 6A 600V 5~10mA TO-220AB 314 BTB06-700B 6A 700V 35~50mA TO-220AB 315 BTB06-700BW 6A 700V 50mA TO-220AB 316 BTB06-700C 6A 700V 25mA TO-220AB 317 BTB06-700CW 6A 700V 35mA TO-220AB 318 BTB06-700SW 6A 700V 10mA TO-220AB 319 BTB06-700TW 6A 700V 5mA TO-220AB 320 BTB06-700E 6A 700V 5~10mA TO-220AB 321 BTB06-700D 6A 700V 1~5mA TO-220AB 322 BTB06-700SAP 6A 700V 5~10mA TO-220AB 323 BTB06-800B 6A 800V 35~50mA TO-220AB 324 BTB06-800BW 6A 800V 50mA TO-220AB序号产品型号电流电压触发电流封装形式325 BTB06-800C 6A 800V 25mA TO-220AB 326 BTB06-800CW 6A 800V 35mA TO-220AB 327 BTB06-800SW 6A 800V 10mA TO-220AB 328 BTB06-800TW 6A 800V 5mA TO-220AB 329 BTB06-800E 6A 800V 5~10mA TO-220AB 330 BTB06-800D 6A 800V 1~5mA TO-220AB 331 BTB06-800SAP 6A 800V 5~10mA TO-220AB 332 BTA08-400B 8A 400V 35~50mA TO-220AB 333 BTA08-400BW 8A 400V 50mA TO-220AB 334 BTA08-400C 8A 400V 25mA TO-220AB 335 BTA08-400CW 8A 400V 35mA TO-220AB 336 BTA08-400SW 8A 400V 10mA TO-220AB 337 BTA08-400TW 8A 400V 5mA TO-220AB 338 BTA08-400E 8A 400V 5~10mA TO-220AB 339 BTA08-400D 8A 400V 1~5mA TO-220AB 340 BTA08-400SAP 8A 400V 5~10mA TO-220AB 341 BTA08-600B 8A 600V 35~50mA TO-220AB 342 BTA08-600BW 8A 600V 50mA TO-220AB 343 BTA08-600C 8A 600V 25mA TO-220AB 344 BTA08-600CW 8A 600V 35mA TO-220AB 345 BTA08-600SW 8A 600V 10mA TO-220AB 346 BTA08-600TW 8A 600V 5mA TO-220AB 347 BTA08-600E 8A 600V 5~10mA TO-220AB 348 BTA08-600D 8A 600V 1~5mA TO-220AB 349 BTA08-600SAP 8A 600V 5~10mA TO-220AB 350 BTA08-700B 8A 700V 35~50mA TO-220AB 351 BTA08-700BW 8A 700V 50mA TO-220AB序号产品型号电流电压触发电流封装形式352 BTA08-700C 8A 700V 25mA TO-220AB 353 BTA08-700CW 8A 700V 35mA TO-220AB 354BTA08-700SW8A700V10mA TO-220AB 355BTA08-700TW8A700V5mA TO-220AB 356BTA08-700E8A700V5~10mA TO-220AB 357BTA08-700D8A700V1~5mA TO-220AB 358BTA08-700SAP8A700V5~10mA TO-220AB 359BTA08-800B8A800V35~50mA TO-220AB 360BTA08-800BW8A800V50mA TO-220AB 361BTA08-800C8A800V25mA TO-220AB 362BTA08-800CW8A800V35mA TO-220AB 363BTA08-800SW8A800V10mA TO-220AB 364BTA08-800TW8A800V5mA TO-220AB 365BTA08-800E8A800V5~10mA TO-220AB 366BTA08-800D8A800V1~5mA TO-220AB 367BTA08-800SAP8A800V5~10mA TO-220A 368BTA08-1000B8A1000V35~50mA TO-220AB 369BTA08-1000BW8A1000V50mA TO-220AB 370BTA08-1000C8A1000V25mA TO-220AB 371BTA08-1000CW8A1000V35mA TO-220AB 372BTA08-1000SW8A1000V10mA TO-220AB 373BTA08-1000TW8A1000V5mA TO-220AB 374BTA08-1000E8A1000V5~10mA TO-220AB 375BTA08-1000D8A1000V1~5mA TO-220AB 376BTA08-1000SAP8A1000V5~10mA TO-220AB 377BTB08-400B8A400V35~50mA TO-220AB 378BTB08-400BW8A400V50mA TO-220AB序号产品型号电流电压触发电流封装形式379BTB08-400C8A400V25mA TO-220AB 380BTB08-400CW8A400V35mA TO-220AB 381BTB08-400SW8A400V10mA TO-220AB 382BTB08-400TW8A400V5mA TO-220AB 383BTB08-400E8A400V5~10mA TO-220A 384BTB08-400D8A400V1~5mA TO-220AB 385BTB08-400SAP8A400V5~10mA TO-220AB 386BTB08-600B8A600V35~50mA TO-220A 387BTB08-600BW8A600V50mA TO-220AB 388BTB08-600C8A600V25mA TO-220AB 389BTB08-600CW8A600V35mA TO-220AB 390BTB08-600SW8A600V10mA TO-220AB 391BTB08-600TW8A600V5mA TO-220AB 392BTB08-600E8A600V5~10mA TO-220AB 393BTB08-600D8A600V1~5mA TO-220AB 394BTB08-600SAP8A600V5~10mA TO-220AB 395BTA10-400B10A400V35~50mA TO-220AB 396BTA12-400B12A400V35~50mA TO-220AB 397BTA16-400B16A400V35~50mA TO-220AB 398BTA20-400B20A400V35~50mA TO-220AB 399BTA24-600B25A600V35~50mA TO-220AB 400BTA25-600B25A600V35~50mA TO-220AB 401BTA25-600BW25A600V50mA TO-220AB 402BTA26-600B25A600V35~50mA TO-220AB 403BTA40-600B40A600V35~50mA BTW67 404BTA40-600BW40A600V50mA BTW67 405BTA41-600B40A600V35~50mA BTW67序号产品型号电流电压触发电流封装形式406BTA41-600BW40A600V50mA BTW67 407HBT131A1A600V3~7mA TO-92 408HBT131CA1A600V3~5mA TO-92 409HBT131GA1A800V3~5mA TO-92 410HBT134CI4A600V5~10mA TO-251 411HBT134DI4A600V5~10mA TO-251 412HBT134GI4A800V5~10mA TO-251 413HBT134HI4A600V5~10mA TO-251 414HBT134NE4A600V10~25mA SOT-82 415HBT134I4A600V10~25mA TO-251 416HBT134CNE4A600V5~10mA SOT-82 417HBT134DNE4A600V5~10mA SOT-82 418HBT134GNE4A800V5~10mA SOT-82 419HBT134HNE4A800V5~10mA SOT-82 420HBT136AE4A600V10mA TO-220AB 421HBT204I4A600V10mA TO-251 422HBT204E4A600V15mA TO-220AB 423HBT136AE4A600V10~25mA TO-220AB 424HBT136AHE4A600V5~10mA TO-220AB 425HBT136BE6A600V10~25mA TO-220AB 426HBT137E8A600V10~25mA TO-220AB 427HBT137DE8A600V25mA TO-220AB 428HBT138E8A600V10~25mA TO-220AB 429HBT15220A800V32mA TO-220AB 430HBT1690.8A400V200uA TO-92 431HBT169M0.8A400V200uA SOT-89。

1/6®BTA/BTB06 SeriesSNUBBERLESS ™, LOGIC LEVEL & STANDARD6A TRIAC SApril 2002 - Ed: 5AMAIN FEATURES:DESCRIPTIONSuitable for AC switching operations, the BTA/BTB06 series can be used as an ON/OFF function in applications such as static relays, heating regulation, induction motor starting circuits... or for phase control in light dimmers, motor speed controllers,...The snubberless and logic level versions (BTA/BTB...W) are specially recommended for use on inductive loads, thanks to their high commutation performances. By using an internal ceramic pad,the BTA series provides voltage insulated tab (rated at 2500V RMS) complying with UL standards (File ref.: E81734)Symbol Value Unit I T(RMS)6A V DRM /V RRM600 and 800VI G (Q 1)5 to 50mAABSOLUTE MAXIMUM RATINGSSymbol ParameterValueUnit I T(RMS)RMS on-state current (full sine wave)TO-220ABTc = 110°C 6ATO-220AB Ins.Tc = 105°C I TSM Non repetitive surge peak on-state current (full cycle, Tj initial = 25°C) F = 50 Hz t = 20 ms 60AF = 60 Hzt = 16.7 ms63I ²t I ²t Value for fusingtp = 10 ms21A ²s dI/dt Critical rate of rise of on-state current I G = 2 x I GT , tr ≤ 100 ns F = 120 Hz Tj = 125°C 50A/µs I GM Peak gate currenttp = 20 µsTj = 125°C 4A P G(AV)Average gate power dissipation Tj = 125°C1W T stg T jStorage junction temperature range Operating junction temperature range- 40 to + 150- 40 to + 125°CBTA/BTB06 Series2/6ELECTRICAL CHARACTERISTICS (Tj = 25°C, unless otherwise specified)sSNUBBERLESS™ and LOGIC LEVEL (3 Quadrants)sSTANDARD (4 Quadrants)STATIC CHARACTERISTICSNote 1: minimum IGT is guaranted at 5% of IGT max.Note 2: for both polarities of A2 referenced to A1Symbol Test ConditionsQuadrantBTA/BTB06UnitTWSW CW BW I GT (1)V D = 12 V R L = 30 ΩI - II - III MAX.5103550mA V GT I - II - III MAX. 1.3V V GD V D = V DRM R L = 3.3 k ΩTj = 125°C I - II - IIIMIN.0.2V I H (2)I T = 100 mA MAX.10153550mA I L I G = 1.2 I GTI - III MAX.10255070mA II15306080dV/dt (2)V D = 67 %V DRM gate open Tj = 125°CMIN.20404001000V/µs (dI/dt)c (2)(dV/dt)c = 0.1 V/µs Tj = 125°C MIN.2.73.5--A/ms(dV/dt)c = 10 V/µs Tj = 125°C 1.2 2.4--Without snubber Tj = 125°C-- 3.55.3Symbol Test ConditionsQuadrant BTA/BTB06UnitCB I G (1)V D = 12 V R L = 30 ΩI - II - III IV MAX.255050100mA V GT ALL MAX. 1.3V V GD V D = V DRM R L = 3.3 k Ω Tj = 125°C ALLMIN.0.2V I H (2)I T = 500 mA MAX.2550mA I L I G = 1.2 I GTI - III - IVMAX.4050mA II80100dV/dt (2)V D = 67 %V DRM gate open Tj = 125°CMIN.200400V/µs (dV/dt)c (2)(dI/dt)c = 2.7 A/ms Tj = 125°CMIN.510V/µsSymbol Test ConditionsValue Unit V T (2)I TM = 5.5 A tp = 380 µs Tj = 25°C MAX. 1.55V V to (2)Threshold voltage Tj = 125°C MAX.0.85V R d (2)Dynamic resistance Tj = 125°C MAX.60m ΩI DRM I RRMV DRM = V RRMTj = 25°C MAX.5µA Tj = 125°C1mABTA/BTB06 Series3/6THERMAL RESISTANCESPRODUCT SELECTORBTB: non insulated TO-220AB packageORDERING INFORMATIONOTHER INFORMATIONNote: xxx = voltage, y = sensitivity, z = typeSymbol ParameterValue Unit R th(j-c)Junction to case (AC)TO-220AB 1.8°C/WTO-220AB Insulated 2.7R th(j-a)Junction to ambientTO-220ABTO-220AB Insulated60°C/W Part NumberVoltage (xxx)SensitivityType Package 600 V800 V BTA/BTB06-xxxB X X 50 mA Standard TO-220AB BTA/BTB06-xxxBW X X 50 mA Snubberless TO-220AB BTA/BTB06-xxxC X X 25 mA Standard TO-220AB BTA/BTB06-xxxCW X X 35 mA Snubberless TO-220AB BTA/BTB06-xxxSW X X 10 mA Logic level TO-220AB BTA/BTB06-xxxTWXX5 mALogic levelTO-220ABPart NumberMarkingWeight Base quantity Packing mode BTA/BTB06-xxxyz BTA/BTB06-xxxyz 2.3 g 250Bulk BTA/BTB06-xxxyzRGBTA/BTB06-xxxyz2.3 g50TubeBTA/BTB06 Series4/6Fig. 1: Maximum power dissipation versus RMS on-state current (full cycle).Fig. 2: RMS on-state current versus case temperature (full cycle).Fig. 3: Relative variation of thermal impedance versus pulse duration.Fig. 4: On-state characteristics (maximum values).Fig. 5: Surge peak on-state current versus number of cycles.Fig. 6: Non-repetitive surge peak on-state current for a sinusoidal pulse with width tp <10ms, and corresponding value of I²t.BTA/BTB06 Series5/6Fig. 7: Relative variation of gate trigger current,holding current and latching current versus junction temperature (typical values).Fig. 8-1: Relative variation of critical rate of decrease of main current versus (dV/dt)c (typical values). Snubberless & Logic Level T ypesFig. 8-2: Relative variation of critical rate of decrease of main current versus (dV/dt)c (typical values). Standard T ypesFig. 9: Relative variation of critical rate of decrease of main current versus junction temperature.BTA/BTB06 SeriesPACKAGE MECHANICAL DATAInformation furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.© The ST logo is a registered trademark of STMicroelectronics© 2002 STMicroelectronics - Printed in Italy - All Rights ReservedSTMicroelectronics GROUP OF COMPANIESAustralia - Brazil - Canada - China - Finland - France - GermanyHong Kong - India - Isreal - Italy - Japan - Malaysia - Malta - Morocco - SingaporeSpain - Sweden - Switzerland - United Kingdom - United States.6/6。

BTA08-600C中⽂资料1/10BTA/BTB08 and T8 SeriesSNUBBERLESS ?, LOGIC LEVEL & STANDARD8A TRIAC SApril 2002 - Ed: 5AMAIN FEATURES:DESCRIPTIONAvailable either in through-hole or surface-mount packages, the BTA/BTB08 and T8 triac series is suitable for general purpose AC switching. They can be used as an ON/OFF function in applications such as static relays, heating regulation, induction motor starting circuits... or for phase control operation in light dimmers, motor speed controllers,...The snubberless versions (BTA/BTB...W and T8series) are specially recommended for use on inductive loads, thanks to their high commutation performances. By using an internal ceramic pad,the BTA series provides voltage insulated tab (rated at 2500V RMS) complying with UL standards (File ref.: E81734)Symbol Value Unit I T(RMS)8A V DRM /V RRM 600 and 800V I GT (Q 1)5 to 50mAABSOLUTE MAXIMUM RATINGSSymbol ParameterValueUnitI T(RMS)RMS on-state current (full sine wave)DP AK / D 2PAK IPAK / TO-220AB Tc = 110°C 8A TO-220AB Ins.Tc = 100°C I TSM Non repetitive surge peak on-state current (full cycle, Tj initial = 25°C) F = 50 Hz t = 20 ms 80AF = 60 Hzt = 16.7 ms84I 2t I 2t Value for fusingtp = 10 ms36A 2s dI/dt Critical rate of rise of on-state current I G = 2 x I GT , tr ≤ 100 ns F = 120 Hz Tj = 125°C 50A/µs I GM Peak gate currenttp = 20 µsTj = 125°C 4A P G(AV)Average gate power dissipation Tj = 125°C1W T stg T jStorage junction temperature range Operating junction temperature range- 40 to + 150- 40 to + 125°CBTA/BTB08 and T8 Series2/10ELECTRICAL CHARACTERISTICS (Tj = 25°C, unless otherwise specified)sSNUBBERLESS? and LOGIC LEVEL (3 Quadrants)sSTANDARD (4 Quadrants)STATIC CHARACTERISTICSNote 1: minimum IGT is guaranted at 5% of IGT max.Note 2: for both polarities of A2 referenced to A1 Symbol Test ConditionsQuadrantT8BTA/BTB08UnitT810T835TW SW CW BW I GT (1)V D = 12 V R L = 30 ?I - II - III MAX.10355103550mA V GT I - II - III MAX. 1.3V V GD V D = V DRM R L = 3.3 k ?Tj = 125°C I - II - IIIMIN.0.2V I H (2)I T = 100 mA MAX.153510153550mA I L I G = 1.2 I GTI - III MAX.255010255070mA II306015306080dV/dt (2)V D = 67 %V DRM gate open Tj = 125°CMIN.4040020404001000V/µs (dI/dt)c (2)(dV/dt)c = 0.1 V/µs Tj = 125°C MIN.5.4- 3.5 5.4--A/ms(dV/dt)c = 10 V/µs Tj = 125°C 2.8- 1.5 2.8--Without snubber Tj = 125°C- 4.5-- 4.57Symbol Test ConditionsQuadrant BTA/BTB08UnitCB I GT (1)V D = 12 V R L = 30 ?I - II - III IV MAX.255050100mA V GT ALL MAX. 1.3V V GD V D = V DRM R L = 3.3 k ?Tj = 125°C ALLMIN.0.2V I H (2)I T = 500 mA MAX.2550mA I L I G = 1.2 I GTI - III - IVMAX.4050mA II80100dV/dt (2)V D = 67 %V DRM gate open Tj = 125°CMIN.200400V/µs (dV/dt)c (2)(dI/dt)c = 3.5 A/ms Tj = 125°CMIN.510V/µsSymbol Test ConditionsValue Unit V TM (2)I TM = 11 A tp = 380 µs Tj = 25°C MAX. 1.55V V to (2)Threshold voltage Tj = 125°C MAX.0.85V R d (2)Dynamic resistance Tj = 125°C MAX.50m ?I DRM I RRMV DRM = V RRMTj = 25°C MAX.5µA Tj = 125°C1mABTA/BTB08 and T8 Series3/10THERMAL RESISTANCESS = Copper surface under tabPRODUCT SELECTORBTB: non insulated TO-220AB packageSymbol ParameterValue Unit R th(j-c)Junction to case (AC)DPAK / D 2PAK IPAK / TO-220AB 1.6°C/WTO-220AB Insulated2.5R th(j-a)Junction to ambientS = 1 cm 2D 2PAK 45°C/WS = 0.5 cm 2DPAK70TO-220ABTO-220AB Insulated60IPAK100Part NumberVoltage (xxx)Sensitivity Type Package 600 V 800 V BTA/BTB08-xxxB X X 50 mA Standard TO-220AB BTA/BTB108-xxxBW X X 50 mA Snubberless TO-220AB BTA/BTB08-xxxC X X 25 mA Standard TO-220AB BTA/BTB08-xxxCW X X 35 mA Snubberless TO-220AB BTA/BTB08-xxxSW X X 10 mA Logic level TO-220AB BTA/BTB08-xxxTW X X 5 mA Logic level TO-220AB T810-xxxB X X 10 mA Logic level DP AK T810-xxxH X X 10 mA Logic level IP AK T835-xxxB X X 35mA Snubberless DP AK T835-xxxG X X 35 mA Snubberless D 2PAK T835-xxxHXX35 mASnubberlessIP AKBTA/BTB08 and T8 Series4/10ORDERING INFORMATIONOTHER INFORMATIONNote: xxx = voltage, yy = sensitivity, z = typePart NumberMarkingWeight Base quantity Packing mode BTA/BTB08-xxxyz BTA/BTB08xxxyz 2.3 g 250Bulk BTA/BTB08-xxxyzRG BTA/BTB08-xxxyz 2.3 g 50Tube T8yy-xxxB T8yyxxx 0.3 g 75Tube T8yy-xxxB-TR T8yyxxx 0.3 g 2500Tape & reel T8yy-xxxH T8yyxxx 0.4 g 75Tube T8yy-xxxG T8yyxxx 1.5 g 50Tube T8yy-xxxG-TRT8yyxxx1.5 g1000Tape & reelBTA/BTB08 and T8 Series5/10Fig. 1: Maximum power dissipation versus RMS on-state current (full cycle).Fig. 2-1: RMS on-state current versus case temperature (full cycle).Fig. 2-2: RMS on-state current versus ambient temperature (printed circuit board FR4, copper thickness: 35µm),full cycle. Fig. 3: Relative variation of thermal impedance versus pulse duration.Fig. 4: On-state characteristics (maximum values).Fig. 5: Surge peak on-state current versus number of cycles. BTA/BTB08 and T8 Series6/10Fig. 6: Non-repetitive surge peak on-state current for a sinusoidal pulse with width tp <10ms, and corresponding value of I2t. Fig. 7: Relative variation of gate trigger current,holding current and latching current versus junction temperature (typical values).Fig. 8-1: Relative variation of critical rate of decrease of main current versus (dV/dt)c (typical values). Snubberless & Logic Level TypesFig. 8-2: Relative variation of critical rate of decrease of main current versus (dV/dt)c (typical values). Standard Types Fig. 9: Relative variation of critical rate of decrease of main current versus junction temperature.Fig. 10: DP AK and D 2PAK Thermal resistance junction to ambient versus copper surface under tab (printed circuit board FR4, copper thickness:35µm).BTA/BTB08 and T8 Series PACKAGE MECHANICAL DATAFOOTPRINT DIMENSIONS (in millimeters)7/10BTA/BTB08 and T8 Series PACKAGE MECHANICAL DATAFOOTPRINT DIMENSIONS (in millimeters)8/10BTA/BTB08 and T8 Series PACKAGE MECHANICAL DATA9/10BTA/BTB08 and T8 SeriesPACKAGE MECHANICAL DATAInformation furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.The ST logo is a registered trademark of STMicroelectronics2002 STMicroelectronics - Printed in Italy - All Rights ReservedSTMicroelectronics GROUP OF COMPANIESAustralia - Brazil - Canada - China - Finland - France - GermanyHong Kong - India - Isreal - Italy - Japan - Malaysia - Malta - Morocco - Singapore Spain - Sweden - Switzerland - United Kingdom - United States./doc/9577c19bdaef5ef7ba0d3c89.html10/10。

1/6®BTA/BTB06 SeriesSNUBBERLESS ™, LOGIC LEVEL & STANDARD6A TRIAC SApril 2002 - Ed: 5AMAIN FEATURES:DESCRIPTIONSuitable for AC switching operations, the BTA/BTB06 series can be used as an ON/OFF function in applications such as static relays, heating regulation, induction motor starting circuits... or for phase control in light dimmers, motor speed controllers,...The snubberless and logic level versions (BTA/BTB...W) are specially recommended for use on inductive loads, thanks to their high commutation performances. By using an internal ceramic pad,the BTA series provides voltage insulated tab (rated at 2500V RMS) complying with UL standards (File ref.: E81734)Symbol Value Unit I T(RMS)6A V DRM /V RRM600 and 800VI G (Q 1)5 to 50mAABSOLUTE MAXIMUM RATINGSSymbol ParameterValueUnit I T(RMS)RMS on-state current (full sine wave)TO-220ABTc = 110°C 6ATO-220AB Ins.Tc = 105°C I TSM Non repetitive surge peak on-state current (full cycle, Tj initial = 25°C) F = 50 Hz t = 20 ms 60AF = 60 Hzt = 16.7 ms63I ²t I ²t Value for fusingtp = 10 ms21A ²s dI/dt Critical rate of rise of on-state current I G = 2 x I GT , tr ≤ 100 ns F = 120 Hz Tj = 125°C 50A/µs I GM Peak gate currenttp = 20 µsTj = 125°C 4A P G(AV)Average gate power dissipation Tj = 125°C1W T stg T jStorage junction temperature range Operating junction temperature range- 40 to + 150- 40 to + 125°CBTA/BTB06 Series2/6ELECTRICAL CHARACTERISTICS (Tj = 25°C, unless otherwise specified)sSNUBBERLESS™ and LOGIC LEVEL (3 Quadrants)sSTANDARD (4 Quadrants)STATIC CHARACTERISTICSNote 1: minimum IGT is guaranted at 5% of IGT max.Note 2: for both polarities of A2 referenced to A1Symbol Test ConditionsQuadrantBTA/BTB06UnitTWSW CW BW I GT (1)V D = 12 V R L = 30 ΩI - II - III MAX.5103550mA V GT I - II - III MAX. 1.3V V GD V D = V DRM R L = 3.3 k ΩTj = 125°C I - II - IIIMIN.0.2V I H (2)I T = 100 mA MAX.10153550mA I L I G = 1.2 I GTI - III MAX.10255070mA II15306080dV/dt (2)V D = 67 %V DRM gate open Tj = 125°CMIN.20404001000V/µs (dI/dt)c (2)(dV/dt)c = 0.1 V/µs Tj = 125°C MIN.2.73.5--A/ms(dV/dt)c = 10 V/µs Tj = 125°C 1.2 2.4--Without snubber Tj = 125°C-- 3.55.3Symbol Test ConditionsQuadrant BTA/BTB06UnitCB I G (1)V D = 12 V R L = 30 ΩI - II - III IV MAX.255050100mA V GT ALL MAX. 1.3V V GD V D = V DRM R L = 3.3 k Ω Tj = 125°C ALLMIN.0.2V I H (2)I T = 500 mA MAX.2550mA I L I G = 1.2 I GTI - III - IVMAX.4050mA II80100dV/dt (2)V D = 67 %V DRM gate open Tj = 125°CMIN.200400V/µs (dV/dt)c (2)(dI/dt)c = 2.7 A/ms Tj = 125°CMIN.510V/µsSymbol Test ConditionsValue Unit V T (2)I TM = 5.5 A tp = 380 µs Tj = 25°C MAX. 1.55V V to (2)Threshold voltage Tj = 125°C MAX.0.85V R d (2)Dynamic resistance Tj = 125°C MAX.60m ΩI DRM I RRMV DRM = V RRMTj = 25°C MAX.5µA Tj = 125°C1mABTA/BTB06 Series3/6THERMAL RESISTANCESPRODUCT SELECTORBTB: non insulated TO-220AB packageORDERING INFORMATIONOTHER INFORMATIONNote: xxx = voltage, y = sensitivity, z = typeSymbol ParameterValue Unit R th(j-c)Junction to case (AC)TO-220AB 1.8°C/WTO-220AB Insulated 2.7R th(j-a)Junction to ambientTO-220ABTO-220AB Insulated60°C/W Part NumberVoltage (xxx)SensitivityType Package 600 V800 V BTA/BTB06-xxxB X X 50 mA Standard TO-220AB BTA/BTB06-xxxBW X X 50 mA Snubberless TO-220AB BTA/BTB06-xxxC X X 25 mA Standard TO-220AB BTA/BTB06-xxxCW X X 35 mA Snubberless TO-220AB BTA/BTB06-xxxSW X X 10 mA Logic level TO-220AB BTA/BTB06-xxxTWXX5 mALogic levelTO-220ABPart NumberMarkingWeight Base quantity Packing mode BTA/BTB06-xxxyz BTA/BTB06-xxxyz 2.3 g 250Bulk BTA/BTB06-xxxyzRGBTA/BTB06-xxxyz2.3 g50TubeBTA/BTB06 Series4/6Fig. 1: Maximum power dissipation versus RMS on-state current (full cycle).Fig. 2: RMS on-state current versus case temperature (full cycle).Fig. 3: Relative variation of thermal impedance versus pulse duration.Fig. 4: On-state characteristics (maximum values).Fig. 5: Surge peak on-state current versus number of cycles.Fig. 6: Non-repetitive surge peak on-state current for a sinusoidal pulse with width tp <10ms, and corresponding value of I²t.BTA/BTB06 Series5/6Fig. 7: Relative variation of gate trigger current,holding current and latching current versus junction temperature (typical values).Fig. 8-1: Relative variation of critical rate of decrease of main current versus (dV/dt)c (typical values). Snubberless & Logic Level T ypesFig. 8-2: Relative variation of critical rate of decrease of main current versus (dV/dt)c (typical values). Standard T ypesFig. 9: Relative variation of critical rate of decrease of main current versus junction temperature.BTA/BTB06 SeriesPACKAGE MECHANICAL DATAInformation furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.© The ST logo is a registered trademark of STMicroelectronics© 2002 STMicroelectronics - Printed in Italy - All Rights ReservedSTMicroelectronics GROUP OF COMPANIESAustralia - Brazil - Canada - China - Finland - France - GermanyHong Kong - India - Isreal - Italy - Japan - Malaysia - Malta - Morocco - SingaporeSpain - Sweden - Switzerland - United Kingdom - United States.6/6。

TOC620C电子版说明书ＭＯＤＥＬＴＯＣ－620Ｃ操作说明书2020年4月北京中环大地环境科技■前言感谢您使用本公司生产的在线TOC ，离线TC ，离线TOC(选装)自动分析仪器「TOC-620C 」。

「TOC-620C 」是一种在线或者离线测量水中的碳含量，从而快速，准确地自动测量水质污染状况的分析仪器。

开始使用仪器之前，请第一阅读本操作手册，在把握了仪器知识，安全信息和注意事项的基础上，正确使用仪器。

■本公司的期望● 假如贵公司有本操作说明书的电子版，本公司不能保证其内容的正确性。

● 严禁关于仪器内部安装的软件进行读出，修改，写入，监视，排错等操作。

● 严禁未经承诺复制，转载本操作说明书或其中的任何部分。

● 本公司可能在未经事先通知的情形下，对本操作说明书的内容进行变更。

● 请务必把本操作说明书交给使用仪器的人员。

● 爱护，排除故障时需用到本操作说明书。

请随时带在周围。

● 关于操作说明书的内容，本公司尽力做到完整和正确。

万一显现错误或者遗漏，请尽快告知本公司。

● 关于客户运用的结果，本公司不能负担全部责任，敬请谅解。

● 废弃仪器以及消耗品时，请托付专门的废弃物处理公司按照「废弃物处理以及清扫的相关法律法规」来进行处理。

■关于警告标示● 与本仪器有关的所有警告标签都表示了潜在的危险内容。

请在充分明白得警告标签的内容后再操作仪器。

● 请不要剥除，弄破警告标签。

也不要在警告标签前面放置物品，造成标签无法被看到。

● 假如标签颜色褪掉无法看清或者剥落，请尽快更换新的标签。

关于有潜在危险的部位不做任何警示，放置不管的做法是专门危险的。

● 注意高温部位(电炉) 接触到以后会有烫伤的危险。

运行中绝对不能触摸仪器内的高温部位。

爱护作业必须在切断电源、确认温度差不多下降后才能够进行。

● 注意高电压(除湿器电源・开关电源) 高压触电后有死亡或者重伤的危险。

运行当中，绝对不能触摸仪器内部的高电压部分。