COSMO光耦品牌型号替换表

Quick Guide to Direct UpgradesHCNW family offers highest available working voltage ratings with regulatory approval per VDE 0884 of 1414 V peak.Improved Isolation/Insulation Ability to protect surrounding circuitry against physical damages resulting from differential voltages.High CMRCommon-mode transient rejection or signal isolation of data through suppression of noise transients.Drive Current, IƒLow Drive Current, LED or light-emitting diode drive current.Agilent offers the lowest Iƒ(up to 40 µA) devices in the market and broadest HCMOS compatibility.Agilent offers guaranteed CMR performance up to 15 kv/µs (30 kv/µs typical)which is the highest available in the market.Meets international safety regulations and standards.Provide better isolation and overall safety performance.Improves system perfor-mance, and reliability. More robust systems and better data integrity meet EMI and ESD requirements.Eliminates additional LED drive circuitry. Improves system efficiency andreduces power consumption and LED degradation.FeatureBenefitUpgrade PartPropagation Delay, Tp It is a figure of merit todescribe how quickly a logic signal can propagate through the system.High Speed digitaloptocouplers to meet wide range of applications with Tp as low as 40 ns.Increase switchingefficiency and better speed performance.Surface Mount DeviceSMD permits more component density than DIP.Smaller package to deliver the same functionality as standard DIP. True surface mount technology and standard footprint.Lower assembly cost, easier and faster handling as well as better solderability.Energy SavingThe new 3.3V family of LV Compatible optocouplers to meet the industry standard.Low Power Consumption and High Speed. Meets JEDEC low voltage requirements.More than 50% power saving. Better Pulse Width Distortion and CMR performance.Shaded Text–RECOMMENDED FOR NEW DESIGNSNOTE: All SMD (S08) parts are prefix with “0”.Shaded Text –RECOMMENDED FOR NEW DESIGNSNOTE: All HCNW have better safety regulatory specification.For product information and a complete list of Agilent contacts and distributors, please go to our web site./semiconductorsE-mail: SemiconductorSupport@ Data subject to change.Copyright © 2001 Agilent Technologies, Inc.November 9, 20015988-4588EN。

光耦替换S : Similar, D : Different, Blank : Direct Replacement Infineon . SHARP . Electrical Mechanical SHARP Recommended 4N25 PC713V0NSZX S PC817X4N26 PC713V0NSZX S PC817X4N27 PC713V0NSZX S PC817X4N28 PC713V0NSZX S PC817X4N32 PC715V0NSZX S D PC8154N33 PC715V0NSZX S D PC8154N35 PC713V3NSZX S PC817X74N36 PC713V3NSZX S PC817X74N37 PC713V3NSZX S PC817X74N38 PC713V0NSZX S PC817X4N39 S12MD1V S6N135 PC6N135X6N136 PC6N136X6N138 PC6N138X6N139 PC6N139XCNY17-1 PC702V1NSZX PC817X1CNY17-2 PC702V2NSZX PC817X1CNY17-3 PC702V3NSZX PC817X2CNY17-4 PC702V4NSZX PC817X2CNY17F-1 PC714V1NSZX S PC817X1CNY17F-2 PC714V1NSZX S PC817X1CNY17F-3 PC714V2NSZX S PC817X2CNY17F-4 PC714V3NSZX S PC817X2H11A1 PC713V0NSZX S PC817XH11A2 PC713V0NSZX S PC817XH11A3 PC713V0NSZX S PC817XH11A4 PC713V0NSZX S PC817XH11A5 PC713V0NSZX S PC817XH11AA1 PC733 S PC814XH11B1 PC715V0NSZX S D PC815H11B2 PC715V0NSZX S D PC815H11B3 PC715V0NSZX S D PC815H11C4 S12MD1V SH11C5 S12MD1V SH11C6 S12MD1V SH11D1 No Cross PC851XH11D2 No Cross PC851XH11D3 No Cross PC851XH11D4 No Cross PC851XIL1 PC702V0SZX S PC817XIL2 PC702V4SZX S PC817X3IL201 PC702V2SZX S PC817X1IL202 PC702V3SZX S PC817X2IL203 PC702V4SZX S PC817X3IL205A No Cross PC356N1T,PC3H7A IL206A No Cross PC356N1T,PC3H7A IL207A No Cross PC356N1T,PC3H7A IL208A No Cross PC356N1T,PC3H7B IL211A No Cross PC357NT,PC3H7IL212A No Cross PC357N9T,PC3H7BD IL213A No Cross PC357N7T,PC3H7CD IL215A No Cross PC357N9T,PC3H7A IL216A No Cross PC357N7T,PC3H7BD IL217A No Cross PC357N4T,PC3H7D IL221A No Cross PC355NTIL222A No Cross PC355NTIL223A No Cross PC355NTIL250 No Cross PC354N1T,PC3H4AIL251 No Cross PC354NT,PC3H4IL252 No Cross PC354N1T,PC3H4AIL255 PC733H S PC814XIL255-1 PC733H S PC814XIL255-2 PC733H S PC814XIL256A No Cross PC354NT,PC3H4IL30 PC715V0NSZX S D PC815IL300 No CrossIL31 PC715V0NSZX S D PC815IL329 No CrossIL350 No CrossIL351 No CrossIL352 No Cross PC357NT,PC3H7DIL356 No Cross PC7F401iIL358 No CrossIL359 No CrossIL388 No CrossIL400 S12MD1V SIL410 PC3SD21NTZC SIL4108 S21ME8 SIL4116 S21ME8 SIL4117 S21ME8 SIL4118 S21ME8 SIL420 PC3SD11NTZD SIL4208 PC4SD11NTZD SIL4216 PC3SD11NTZDIL4217 PC4SD11NTZDIL4218 PC4SD11NTZDIL440-1 PC3SD12NTZAIL440-2 PC3SD12NTZAIL440-3 PC3SD11NTZCIL440-4 PC2SD11NTZAIL440-5 PC2SD11NTZAIL440-6 PC3SD11NTZBIL485 No Cross PC923XIL5 PC702V3NSZX S PC817X2 IL55 PC715V0NSZX S D PC815IL55B PC715V0NSZX S PC815IL56B PC716V0NSZX PC815IL66-1 PC725V0NSZX S PC865IL66-2 PC725V0NSZX S PC865IL66-3 PC725V0NSZX S PC865IL66-4 PC725V0NSZX S PC865IL66B-1 PC725V0NSZX S D PC865 IL66B-2 PC725V0NSZX S D PC865 IL74 PC713V0NSZX S PC817X IL755-1 No Cross PC815IL755-2 No Cross PC815IL755B-1 No Cross PC815IL755B-2 No Cross PC815IL766-1 No Cross PC865IL766-2 No Cross PC865IL766B-1 No Cross PC865IL766B-2 No Cross PC865ILCT6 PC829 SILD1 PC829 SILD2 PC829 SILD205 No Cross PC3H7A x2pcs ILD206 No Cross PC3H7A x2pcs ILD207 No Cross PC3H7B x2pcs ILD211 No Cross PC3H7 x2pcs ILD213 No Cross PC3H7CD x2pcs ILD217 No Cross PC3H7D x2pcs ILD223 No Cross PC3D15ILD250 No Cross PC3H4A x2pcs ILD251 No Cross PC3H4 x2pcs ILD252 No Cross PC3H4A x2pcs ILD255 No Cross PC3H4 x2pcs ILD256 No Cross PC3H4 x2pcs ILD3 PC829 SILD30 No Cross PC825 ILD31 No Cross PC825 ILD32 No Cross PC825 ILD5 PC829 SILD55 No Cross PC825 ILD610-1 No Cross PC826AB ILD610-2 No Cross PC826AB ILD610-3 No Cross PC826AB ILD610-4 No Cross PC826BC ILD615-1 PC827AB SILD615-2 PC827AB SILD615-3 PC827AB SILD615-4 PC827BC SILD620 PC824 SILD620GB PC824A SILD621 PC827ILD621GB PC827BDILD66-1 No Cross PC875 ILD66-2 No Cross PC875 ILD66-3 No Cross PC875 ILD66-4 No Cross PC875 ILD74 No Cross PC827 ILD755-1 No Cross PC825 ILD755-2 No Cross PC825 ILD766-1 No Cross PC875 ILD766-2 No Cross PC875 ILH100 No CrossILH200 No CrossILQ1 PC849 SILQ2 PC849 SILQ3 PC849 SILQ3 PC849ILQ30 No Cross PC845 ILQ31 No Cross PC845 ILQ32 No Cross PC845 ILQ5 PC849 SILQ55 No Cross PC845 ILQ615-1 PC847X5 SILQ615-2 PC847X5 SILQ615-3 PC847X5 SILQ615-4 PC847X6 SILQ620 PC844X SILQ620GB PC844X1 SILQ621GB PC847X9ILQ66-1 No Cross PC895ILQ66-2 No Cross PC895ILQ66-3 No Cross PC895ILQ66-4 No Cross PC895ILQ74 No Cross PC847XIRMS5000 GP2W0004YP S SLH1056 PC7F400 SLH1298 PC7F400 SLH1529 No CrossLH1540 PC7F401 SLH1550 PC7F401 SMCA230 PC715V0NSZX S PC815 MCA231 PC715V0NSZX S PC815 MCA255 PC715V0NSZX S PC815 MCT2 PC713V0NSZX S PC817X MCT270 PC713V0NSZX S PC817X MCT271 PC702V1NSZX S PC817X1 MCT272 PC702V3NSZX S PC817X2 MCT274 PC702V4NSZX S PC817X3 MCT275 PC702V3NSZX S PC817X1 MCT276 PC702V1NSZX S PC817X1 MCT277 PC702V4NSZX S PC817X7 MCT2E PC713V0NSZX S PC817X MCT5210 PC702V4NSZX S PC866 MCT5211 PC702V4NSZX S PC866 MCT6 PC829 SMOC8050 PC715V0NSZX S PC815 MOC8101 PC714V1NSZX SMOC8102 PC714V1NSZX SMOC8103 PC714V1NSZX SMOC8104 PC714V2NSZX SMOC8105 PC714V1NSZX SMOC8111 PC714V0NSZX S PC817X MOC8112 PC714V0NSZX SSFH600-0 PC702V1NSZX PC817X1 SFH600-1 PC702V2NSZX PC817X1 SFH600-2 PC702V3NSZX PC817X2 SFH600-3 PC702V4NSZX PC817X2 SFH601-1 PC702V1NSZX S PC817X1 SFH601-2 PC702V2NSZX S PC817X1 SFH601-3 PC702V3NSZX S PC817X2 SFH601-4 PC702V4NSZX S PC817X2SFH608-2 PC702V3NSZX S PC866SFH608-3 PC702V4NSZX S PC866SFH608-4 PC702V4NSZX S PC866SFH608-5 PC702V4NSZX S PC866SFH6106-1 No Cross PC817Xi1,PC3H7A SFH6106-2 No Cross PC817Xi1,PC3H7B SFH6106-3 No Cross PC817Xi2,PC3H7C SFH6106-4 No Cross PC817Xi2,PC3H7D SFH610A-1 No Cross PC817X1SFH610A-2 No Cross PC817X1SFH610A-3 No Cross PC817X2SFH610A-4 No Cross PC817X2SFH6116-1 No Cross PC817Xi1,PC3H7A SFH6116-2 No Cross PC817Xi1,PC3H7B SFH6116-3 No Cross PC817Xi2,PC3H7C SFH6116-4 No Cross PC817Xi2,PC3H7D SFH611A-1 No Cross PC817X1SFH611A-2 No Cross PC817X1SFH611A-3 No Cross PC817X2SFH611A-4 No Cross PC817X2SFH612A PC815 SSFH6135 PC6N135X SSFH6136 PC6N136X SSFH6138 PC6N138X SSFH6139 PC6N139X SSFH614A PC851XSFH6156-1 PC817Xi1 S PC3H7ASFH6156-2 PC817Xi1 S PC3H7BSFH6156-3 PC817Xi2 S PC3H7CSFH6156-4 PC817Xi2 S PC3H7DSFH615A-1 PC817X1 SSFH615A-2 PC817X1 SSFH615A-3 PC817X2 SSFH615A-4 PC817X2 SSFH615AA PC817XSFH615ABL PC817X7SFH615ABM PC817X3SFH615AGB PC817X9SFH615AGR PC817X2 SSFH615AY PC817X1 SSFH617A-1 PC817X1 SSFH617A-2 PC817X1 SSFH617A-3 PC817X2 SSFH617A-4 PC817X2 SSFH617G-2 PC123F1 SSFH617G-3 PC123F2 SSFH617G-4 PC123F2 SSFH618-2 PC866 SSFH618-3 PC866 SSFH618-4 PC866 SSFH618-5 PC866 SSFH6186-2 PC866i PC3H7A SFH6186-3 PC866i PC3H7B SFH6186-4 PC866i PC3H7C SFH6186-5 PC866i PC3H7D SFH618A-2 PC866 SSFH618A-3 PC866 SSFH618A-4 PC866 SSFH618A-5 PC866 SSFH619A PC853XSFH620-1 PC814X SSFH620-2 PC814X SSFH620-3 PC814X SSFH6206-1 PC814Xi S PC3H4 SFH6206-2 PC814Xi S PC3H4 SFH6206-3 PC814Xi S PC3H4 SFH620A-1 PC814X SSFH620A-2 PC814X SSFH620A-3 PC814X SSFH620AA PC814X SSFH620AGB PC814X S SFH628-2 PC814X SSFH628-3 PC814XSFH628-4 PC814X SSFH6286-2 PC814Xi S PC3H4 SFH6286-3 PC814Xi S PC3H4 SFH6286-4 PC814Xi S PC3H4 SFH628A-2 PC814X SSFH628A-3 PC814X SSFH628A-4 PC814X SSFH6315 No Cross PC417 SFH6316 No Cross PC417 SFH6318 No CrossSFH6319 No CrossSFH6325 PC9D17 SSFH6326 PC9D17SFH6343 No Cross PC417SFH636 No Cross PC917XSFH640-1 PC702V1NSZX S PC817X1 SFH640-2 PC702V2NSZX S PC817X1 SFH640-3 PC702V3NSZX S PC817X2 SFH655A PC815SFH6700 PC911 SSFH6701 No CrossSFH6702 No CrossSFH6705 No CrossSFH6711 No CrossSFH6712 No CrossSFH6719 PC911 SSFH6720 PC410L0NiP S DSFH6721 PC410L0NiP S DSFH6731 No Cross PC9D10SFH6732 No Cross PC9D10SFH690ABT PC357N5SFH690AT PC357N1 SSFH690BT PC357N2SFH6916 PC3Q67SFH691AT No Cross PC364SFH692AT PC452SFH6941-3 No Cross PC3Q62SFH6941-4 No Cross PC3Q62SFH6941-5 No Cross PC3Q62SFH6943-2 No Cross PC3Q67SFH6943-3 No Cross PC3Q67SFH6943-4 No Cross PC3Q67SFH9300 No Cross D GP1S59SFH9301 GP1S54 S D GP1S59SFH9302 GP1S50, GP1L50 S D GP1S51V SFH9303 GP1S54 S D GP1S59SFH9304 GP1S54 S D GP1S59SFH9305 GP1S51V S DSFH9306 GP1S54 S D GP1S560SFH9310 GP1S58V S DSFH9330 GP1L52V S DSFH9340SFH9341SFH9500 S D GP1S092HCPi。

常用光电耦合器代换大全常用光电耦合器代换大全时间: 2012-05-19 18:15:51 来源: 山阳维修网光电耦合器结构及代换型号时间: 2010-10-25 03:22:21 来源: 山阳维修网光电耦合器在彩电控制电路中应用比较广泛，维修人员也常接触到光电耦合器。

笔者依据光电耦合器的特性，设计了一个方便的测试光电耦合器好坏的电路，如图1所示。

该电路简单、准确，使用方便。

电路原理当接通电源后，LED不发光，按下S2，LED会发光。

调Rp，LED的发光强度会发生变化，说明光电耦合器是好的。

实际制作时，可用面包板安装元器件和焊接。

另外，若S2用轻触常开开关，S1用钮子开关，电池用纽扣电池AG3等，再加上集成块座可把该测试电路安装在一个小印板上，整个装置只相当于1/2火柴盒大小。

附：常见光电耦合器结构及代换型号见图2。

光耦合器(opticalcoupler，英文缩写为OC)亦称光电隔离器或光电耦合器，简称光耦。

它是以光为媒介来传输电信号的器件，通常把发光器(红外线发光二极管LED)与受光器(光敏半导体管)封装在同一管壳。

当输入端加电信号时发光器发出光线，受光器接受光线之后就产生光电流，从输出端流出，从而实现了“电—光—电”转换。

以光为媒介把输入端信号耦合到输出端的光电耦合器，由于它具有体积小、寿命长、无触点，抗干扰能力强，输出和输入之间绝缘，单向传输信号等优点，在数字电路上获得广泛的应用。

各品牌光耦替代型号FairchildNECPart NnmberTOSHIBA Par NumberLvPartNnmberTOSHIBA Par Number LvH11A617TLP421BPS2501-1TLP421AH11A817TLP421APS2561-1 TLP421AH11AA814 TLP620BTLP2571-1 TLP421AH11B815 TLP627ATLP2581L1 TLP421F AHMA121 TLP181APS2505-1 TLP620BHMA124 TLP124APS2565-1 TLP620BHMA2701 TLP181APS2502-1 TLP627AHMHA2801 TLP281APS2562-1 TLP627AHMHA281TLP281APS2532-1 TLP627AHMAA2705 TLP180APS2533-1 TLP627HMHAA280 TLP280APS2521-1 TLP629BH11A1 TLP631ATLP2525-1 TLP320BH11AA1 TLP630APS2701-1 TLP181AH11AG1TLP331 APS2761-1 TLP181 AH11B1 TLP571 APS2705-1 TLP180 AH11C1 TLP541G APS2765-1 TLP180 AH11D1 TLP371 CPS2702-1TLP127AH11G1TLP371APS2801-1 TLP281AMOC3021-M TLP3021(S)APS2801-4 TLP281-4AMOC3022-M TLP3022(S) APS2861-1 TLP281AMOC3023-M TLP3023(S) APS2805-1 TLP280AMOC3041-M TLP3041(S) APS2805-4TLP280-4AMOC3042-M TLP3042(S) APS2865-1 TLP280AMOC3043-M TLP3043(S)APS2811-1 TLP283BMOC3051-M TLP3051(S) APS2811-4 TLP283-4BMOC3052-M TLP3052(S) APS8601 TLP759BMOC3061-M TLP3061(S) APS8602 TLP759AMOC3062-M TLP3062(S) APS9613 TLP759(IGM) AMOC3063-M TLP3063(S) APS8701TLP114ABVishayPS8101TLP114ABPart Nnmber TOSHIBA Par Number LvPS9713TLP114A(IGM) BK817PTLP421APS9113TLP114A(IGM) BSFH610ATLP421 APS9601 TLP554 ASFH614A TLP628 APS9614 TLP554SFH615A TLP421 APS9714 TLP115A BSFH617A TLP421 APS9114 TLP115A BSFH618A TLP624 BPS9715 TLP115A BTCET1100TLP421APS9115 TLP115A BSFH690XT TLP181APS9701 TLP115A ATCMT1100 TLP281APS7141-1A TLP597GA ATCMT4100 TLP281-4 APS7141-2ATLP227GA-2 ASFH628A TLP620BPS7141-1B TLP4597G BK815PTLP627APS7141-2B TLP4227G-2 BSFH612A TLP627APS7141-1C TLP4006G BSFH619A TLP627APS7341C-1A TLP594GBSFH655A TLP627APS7141C-2A TLP224G-2BSFH692AT TLP127APS7241-1A TLP176GA ATCED1100 TLP627APS7241-2A TLP206GA AIL66TLP371APS7241-1B TLP4176G BIL66BTLP372APS7241-2B TLP4206G B。

常用光耦简介及常见型号光电耦合器（简称光耦）是开关电源电路中常用的器件。

光电耦合器分为两种：一种为非线性光耦，另一种为线性光耦。

常用的4N系列光耦属于非线性光耦常用的线性光耦是PC817A—C系列。

非线性光耦的电流传输特性曲线是非线性的，这类光耦适合于弄开关信号的传输，不适合于传输模拟量。

线性光耦的电流传输手特性曲线接进直线，并且小信号时性能较好，能以线性特性进行隔离控制。

开关电源中常用的光耦是线性光耦。

如果使用非线性光耦，有可能使振荡波形变坏，严重时出现寄生振荡，使数千赫的振荡频率被数十到数百赫的低频振荡依次为号调制。

由此产生的后果是对彩电，彩显，VCD，DCD等等，将在图像画面上产生干扰。

同时电源带负载能力下降。

在彩电，显示器等开关电源维修中如果光耦损坏，一定要用线性光耦代换。

常用的4脚线性光耦有PC817A----C。

PC111 TLP521等常用的六脚线性光耦有：TLP632 TLP532 PC614 PC714 PS2031等。

常用的4N25 4N26 4N35 4N36是不适合用于开关电源中的，因为这4种光耦均属于非线性光耦。

经查大量资料后，以下是目前市场上常见的高速光藕型号：100K bit/S:6N138、6N139、PS87031M bit/S:6N135、6N136、CNW135、CNW136、PS8601、PS8602、PS8701、PS9613、PS9713、CNW4502、HCPL-2503、HCPL-4502、HCPL-2530（双路）、HCPL-2531（双路）10M bit/S:6N137、PS9614、PS9714、PS9611、PS9715、HCPL-2601、HCPL-2611、HCPL-2630（双路）、HCPL－2631（双路）光耦合器的增益被称为晶体管输出器件的电流传输比(CTR)，其定义是光电晶体管集电极电流与LED正向电流的比率(ICE/IF)。

光电晶体管集电极电流与VCE有关，即集电极和发射极之间的电压。

Quick Guide to Direct UpgradesHCNW family offers highest available working voltage ratings with regulatory approval per VDE 0884 of 1414 V peak.Improved Isolation/Insulation Ability to protect surrounding circuitry against physical damages resulting from differential voltages.High CMRCommon-mode transient rejection or signal isolation of data through suppression of noise transients.Drive Current, IƒLow Drive Current, LED or light-emitting diode drive current.Agilent offers the lowest Iƒ(up to 40 µA) devices in the market and broadest HCMOS compatibility.Agilent offers guaranteed CMR performance up to 15 kv/µs (30 kv/µs typical)which is the highest available in the market.Meets international safety regulations and standards.Provide better isolation and overall safety performance.Improves system perfor-mance, and reliability. More robust systems and better data integrity meet EMI and ESD requirements.Eliminates additional LED drive circuitry. Improves system efficiency andreduces power consumption and LED degradation.FeatureBenefitUpgrade PartPropagation Delay, Tp It is a figure of merit todescribe how quickly a logic signal can propagate through the system.High Speed digitaloptocouplers to meet wide range of applications with Tp as low as 40 ns.Increase switchingefficiency and better speed performance.Surface Mount DeviceSMD permits more component density than DIP.Smaller package to deliver the same functionality as standard DIP. True surface mount technology and standard footprint.Lower assembly cost, easier and faster handling as well as better solderability.Energy SavingThe new 3.3V family of LV Compatible optocouplers to meet the industry standard.Low Power Consumption and High Speed. Meets JEDEC low voltage requirements.More than 50% power saving. Better Pulse Width Distortion and CMR performance.Shaded Text–RECOMMENDED FOR NEW DESIGNSNOTE: All SMD (S08) parts are prefix with “0”.Shaded Text –RECOMMENDED FOR NEW DESIGNSNOTE: All HCNW have better safety regulatory specification.For product information and a complete list of Agilent contacts and distributors, please go to our web site./semiconductorsE-mail: SemiconductorSupport@ Data subject to change.Copyright © 2001 Agilent Technologies, Inc.November 9, 20015988-4588EN。

常用光耦型号（转）默认分类2009-05-04 09:02:16 阅读527 评论0 字号：大中小100K bit/S:6N138、6N139、PS87031M bit/S:6N135、6N136、CNW135、CNW136、PS8601、PS8602、PS8701、PS9613、PS9713、CNW4502、HCPL-2503、HCPL-4502、HCPL-2530（双路）、HCPL-2531（双路）10M bit/S:6N137、PS9614、PS9714、PS9611、PS9715、HCPL-2601、HCPL-2611、HCPL-2630（双路）、HCPL－2631（双路）另外，台湾COSMO公司的KP7010在RL选值为300欧左右时，我根据其数据手册所载数值计算，速率可达100Kbit/S，且为6脚封装，比同级的6N138、6N139小巧，价格也较低。

CTR的定义光耦合器的增益被称为晶体管输出器件的电流传输比(CTR)，其定义是光电晶体管集电极电流与LED正向电流的比率(ICE/IF)。

光电晶体管集电极电流与VCE有关，即集电极和发射极之间的电压。

可控硅型光耦还有一种光耦是可控硅型光耦。

例如：moc3063、IL420；它们的主要指标是负载能力；例如：moc3063的负载能力是100mA；IL420是300mA；光耦的部分型号产品名称型号规格性能说明光电耦合4N25 晶体管输出4N25MC 晶体管输出4N26 晶体管输出4N27 晶体管输出4N28 晶体管输出4N29 达林顿输出4N30 达林顿输出4N31 达林顿输出4N32 达林顿输出4N33 达林顿输出4N33MC 达林顿输出4N35 达林顿输出4N36 晶体管输出4N37 晶体管输出4N38 晶体管输出4N39 可控硅输出6N135 高速光耦晶体管输出6N136 高速光耦晶体管输出6N137 高速光耦晶体管输出6N138 达林顿输出6N139 达林顿输出MOC3020 可控硅驱动输出MOC3021 可控硅驱动输出MOC3023 可控硅驱动输出MOC3030 可控硅驱动输出MOC3040 过零触发可控硅输出MOC3041 过零触发可控硅输出MOC3061 过零触发可控硅输出MOC3081 过零触发可控硅输出TLP521-1 单光耦TLP521-2 双光耦TLP521-4 四光耦TLP621 四光耦TIL113 达林顿输出TIL117 TTL逻辑输出PC814 单光耦PC817 单光耦H11A2 晶体管输出H11D1 高压晶体管输出H11G2 电阻达林顿输。

经查大量资料后，总结出目前市场上常见之高速光藕型号供大家选择：100Kbit/S:6N138、6N139、PS87031Mbit/S:6N135、6N136、CNW135、CNW136、PS8601、PS8602、PS8701、PS9613、PS9713、CNW4502、HCPL-2503、HCPL-4502、HCPL-2530（双路）、HCPL-2531（双路）10Mbit/S:6N137、PS9614、PS9714、PS9611、PS9715、HCPL-2601、HCPL-2611、HCPL-2630（双路）、HCPL－2631（双路）另外，台湾COSMO公司的KP7010在RL选值为300欧左右时，我根据其数据手册所载数值计算，速率可达100Kbit/S，且为6脚封装，比同级的6N138、6N139小巧，价格也较低。

CTR的定义光耦合器的增益被称为晶体管输出器件的电流传输比(CTR)，其定义是光电晶体管集电极电流与LED正向电流的比率(ICE/IF)。

光电晶体管集电极电流与VCE有关，即集电极和发射极之间的电压。

可控硅型光耦还有一种光耦是可控硅型光耦。

例如：moc3063、IL420；它们的主要指标是负载能力；例如：moc3063的负载能力是100mA；IL420是300mA；光耦的部分型号型号规格性能说明4N25晶体管输出4N25MC晶体管输出4N26晶体管输出4N27晶体管输出4N28晶体管输出4N29达林顿输出4N30达林顿输出4N31达林顿输出4N32达林顿输出4N33达林顿输出4N33MC达林顿输出4N35达林顿输出4N36晶体管输出4N37晶体管输出4N38晶体管输出4N39可控硅输出6N135高速光耦晶体管输出6N136高速光耦晶体管输出6N137高速光耦晶体管输出6N138达林顿输出6N139达林顿输出MOC3020可控硅驱动输出MOC3021可控硅驱动输出MOC3023可控硅驱动输出MOC3030可控硅驱动输出MOC3040过零触发可控硅输出MOC3041过零触发可控硅输出MOC3061过零触发可控硅输出MOC3081过零触发可控硅输出TLP521-1单光耦TLP521-2双光耦TLP521-4四光耦TLP621四光耦TIL113达林顿输出TIL117TTL逻辑输出PC814单光耦PC817单光耦H11A2晶体管输出H11D1高压晶体管输出H11G2电阻达林顿输出。