贴片稳压二极管 BZX584C4V3 SOD-523

BZX584C-02V SeriesDocument Number 85793Rev. 1.5, 27-Aug-07Vishay Semiconductors1Small Signal Zener DiodesFeatures•With the BZX584C..-02V series vishay offers a Z-Diode in the tiny SOD523plastic package. Made for space sensitive applications the BZX584C..-02V series has a zener voltage tolerance of ± 5 %. •Lead (Pb)-free component•Component in accordance to RoHS 2002/95/EC and WEEE 2002/96/ECMechanical DataCase: SOD523 Plastic case Weight: approx. 1.6 mgPackaging Codes/Options:GS08/3 k per 7" reel (8 mm tape), 15 k/boxAbsolute Maximum RatingsT amb = 25°C, unless otherwise specifiedNote:1) Device on fiberglass substrateThermal CharacteristicsT amb = 25°C, unless otherwise specifiedNote:1)Device on fiberglass substrateParameterT est conditionSymbol Value Unit Power dissipationP tot200 1)mWParameterTest conditionSymbol Value Unit Thermal resistance junction to ambient air R thJA 680 1)K/W Thermal resistance junction to soldering pointR thJS 100K/W Junction temperature T j 150°C Storage temperature range T stg- 65 to + 150°C 2Document Number 85793Rev. 1.5, 27-Aug-07BZX584C-02V SeriesVishay Semiconductors Electrical CharacteristicsPartnumberMarking CodeZener Voltage Range Dynamic Resistance T est Current Temp. Coefficient of Zener Voltage T est Current Reverse Leakage Current V Z at 5 mAr zj at I ZT1r zj at I ZT2I ZT1αVZ at 5 mA I ZT2I R at V R V ΩmA10-4/°C mAµAVmin max min max BZX584C2V4-02V 2 2.2 2.670 (≤ 100)275 (≤ 600)5- 9.0- 4.01501BZX584C2V7-02V 3 2.5 2.975 (≤ 100)300 (≤ 600)5- 9.0- 4.01201BZX584C3V0-02V 42.83.280 (≤ 95)325 (≤ 600)5- 9.0- 3.01101BZX584C3V3-02V 5 3.1 3.585 (≤ 95)350 (≤ 600)5- 8.0- 3.0151BZX584C3V6-02V 63.4 3.885 (≤ 90)375 (≤ 600)5- 8.0- 3.0151BZX584C3V9-02V 7 3.74.185 (≤ 90)400 (≤ 600)5- 7.0- 3.0131BZX584C4V3-02V 84 4.680 (≤ 90)410 (≤ 600)5- 6.0- 1.0131BZX584C4V7-02V 9 4.4550 (≤ 80)425 (≤ 500)5-5.0+ 2.0132BZX584C5V1-02V 1 4.8 5.440 (≤ 60)400 (≤ 480)5- 3.0+ 4.0122BZX584C5V6-02V 0 5.2615 (≤ 40)80 (≤ 400)5- 2.0+6.0112BZX584C6V2-02V 1 5.8 6.6 6.0 (≤ 10)40 (≤ 150)5- 1.0+ 7.0134BZX584C6V8-02V 2 6.47.2 6.0 (≤ 15)30 (≤ 80)5+ 2.0+ 7.0124BZX584C7V5-02V 377.9 6.0 (≤ 15)30 (≤ 80)5+ 3.0+ 7.0115BZX584C8V2-02V T7.78.7 6.0 (≤ 15)40 (≤ 80)5+ 4.0+ 7.010.75BZX584C9V1-02V S 8.59.6 6.0 (≤ 15)40 (≤ 100)5+ 5.0+ 8.010.56BZX584C10-02V R9.410.68.0 (≤ 20)50 (≤ 150)5+ 5.0+ 8.010.27BZX584C11-02V P 10.411.610 (≤ 20)50 (≤ 150)5+ 5.0+ 9.010.18BZX584C12-02V 711.412.710 (≤ 25)50 (≤ 150)5+ 6.0+ 9.010.18BZX584C13-02V 512.414.110 (≤ 30)50 (≤ 170)5+ 7.0+ 9.010.18BZX584C15-02V 413.815.610 (≤ 30)50 (≤ 200)5+ 7.0+ 9.010.18BZX584C16-02V 15.317.110 (≤ 40)50 (≤ 200)5+ 8.0+ 9.510.050.7 V Znom BZX584C18-02V 16.819.110 (≤ 45)50 (≤ 225)5+ 8.0+ 9.510.050.7 V Znom BZX584C20-02V 18.821.215 (≤ 55)60 (≤ 225)5+ 8.0+ 1010.050.7 V Znom BZX584C22-02V 20.823.320 (≤ 55)60 (≤ 250)5+ 8.0+ 1010.050.7 V Znom BZX584C24-02V 22.825.625 (≤ 70)60 (≤ 250)5+ 8.0+ 1010.050.7 V Znom BZX584C27-02V 25.128.925 (≤ 80)65 (≤ 300)2+ 8.0+ 100.50.050.7 V Znom BZX584C30-02V K283230 (≤ 80)70 (≤ 300)2+ 8.0+ 100.50.050.7 V Znom BZX584C33-02V 313535 (≤ 80)75 (≤ 325)2+ 8.0+ 100.50.050.7 V Znom BZX584C36-02V 343835 (≤ 90)80 (≤ 350)2+ 8.0+ 100.50.050.7 V Znom BZX584C39-02V 374140 (≤ 130)80 (≤ 350)2+ 10+ 120.50.050.7 V Znom BZX584C43-02V 404645 (≤ 150)85 (≤ 375)2+ 10+ 120.50.050.7 V Znom BZX584C47-02V L 445050 (≤ 170)85 (≤ 375)2+ 10+ 120.50.050.7 V Znom BZX584C51-02VM485460 (≤ 180)85 (≤ 400)2+ 10+ 120.50.050.7 V Znom1241579P R1BZX584C-02V SeriesDocument Number 85793Rev. 1.5, 27-Aug-07Vishay Semiconductors3Package Dimensions in millimeters (inches): SOD523 4Document Number 85793Rev. 1.5, 27-Aug-07BZX584C-02V SeriesVishay SemiconductorsOzone Depleting Substances Policy StatementIt is the policy of Vishay Semiconductor GmbH to1.Meet all present and future national and international statutory requirements.2.Regularly and continuously improve the performance of our products, processes, distribution and operatingsystems with respect to their impact on the health and safety of our employees and the public, as well as their impact on the environment.It is particular concern to control or eliminate releases of those substances into the atmosphere which are known as ozone depleting substances (ODSs).The Montreal Protocol (1987) and its London Amendments (1990) intend to severely restrict the use of ODSs and forbid their use within the next ten years. Various national and international initiatives are pressing for an earlier ban on these substances.Vishay Semiconductor GmbH has been able to use its policy of continuous improvements to eliminate the use of ODSs listed in the following documents.1.Annex A, B and list of transitional substances of the Montreal Protocol and the London Amendmentsrespectively2.Class I and II ozone depleting substances in the Clean Air Act Amendments of 1990 by the EnvironmentalProtection Agency (EPA) in the USA3.Council Decision 88/540/EEC and 91/690/EEC Annex A, B and C (transitional substances) respectively. Vishay Semiconductor GmbH can certify that our semiconductors are not manufactured with ozone depleting substances and do not contain such substances.We reserve the right to make changes to improve technical designand may do so without further notice.Parameters can vary in different applications. All operating parameters must be validated for each customer application by the customer. Should the buyer use Vishay Semiconductors products for any unintended or unauthorized application, the buyer shall indemnify Vishay Semiconductors against all claims, costs, damages, and expenses, arising out of, directly or indirectly, any claim of personal damage, injury or death associatedwith such unintended or unauthorized use.Vishay Semiconductor GmbH, P.O.B. 3535, D-74025 Heilbronn, GermanyDocument Number: 91000Revision: 18-Jul-081DisclaimerLegal Disclaimer NoticeVishayAll product specifications and data are subject to change without notice.Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively, “Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained herein or in any other disclosure relating to any product.Vishay disclaims any and all liability arising out of the use or application of any product described herein or of any information provided herein to the maximum extent permitted by law. The product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein, which apply to these products.No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay.The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications unless otherwise expressly indicated. Customers using or selling Vishay products not expressly indicated for use in such applications do so entirely at their own risk and agree to fully indemnify Vishay for any damages arising or resulting from such use or sale. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications.Product names and markings noted herein may be trademarks of their respective owners.元器件交易网。

BZT52C2V4S-BZT52C39SZENER DIODECase : Molded plastic bodyTerminals : Plated leads solderable per MIL-STD-750, Method 2026Polarity : Polarity symbols marked on caseFEATURESMECHANICAL DATAPlanar die constructionUltra-Small surface mount packageIdeally suited for automated assembly processesSTAR SEA0.9200625-65 to +150Maximum ratings (Tamb=25C unless otherwise specified)SYMBOLSUNITS V F P d T J ,T STGV mW C/W CLimits PARAMETERR ΘJA Forward voltage (Note 2) @I F =10mA Power dissipation (Note1)Thermal resistance, Junction to ambient air (Note1)Operating and storage temperature rangeNOTES: 1.Valid provided that device terminals are kept at ambient temperature. 2.Short duration test pulse used in minimize self-heating effect. 3.f=1KHz.SOD-323Dimensions in millimeters and (inches)【领先的片式无源器件整合供应商 — 南京南山半导体有限公司 】ELECTRICAL CHARACTERISTICS (@ TA=25C unless otherwise specified)Note:1.Valid prvided device terminals are kept at ambient temperatrue2.Test with pluses, period=5ms,pluse width=300u s.3.f=1KHzRATINGS AND CHARACTERISTIC CURVES BZT52C2V4S-BZT52C39S0 1 2 3 4 5 6 7 8 9 10V Z,ZENER VOLTAGE (V)FIG. 2-ZENER BREAKDOWN CHARACTERISTICSFIG. 1- POWER DERATING CURVEP d , P O W E R D I S S P A T I O N (m W )I z , Z E N E R C U R R E N T (m A )0 100 200T A, AMBIENT TEMPERATURE( C )500400300200100V z , NOMINAL ZENER VOLTAGE(V)FIG. 4-JUNCTION CAPACITANCE VS NOMINALZENER VOLTAGEV z , Z E N E R C U R R E N T (m A )0 10 20 30 40FIG. 3-ZENER BREAKDOWN CHARACTERISTICSC J , J U N C T I O N C A P A C I T A N C E (p F )0 10 100100010010See Note1V Z,ZENER VOLTAGE (V)【领先的片式无源器件整合供应商—南京南山半导体有限公司】 |样品申请单模板。

稳压二极管BZT52C参数引言稳压二极管是一种常见的电子元件，用于稳定电压并限制电压波动。

BZT52C是一种常见的稳压二极管型号，本文将对其参数进行全面详细地介绍。

BZT52C概述BZT52C是一种低功耗表面贴装稳压二极管。

它采用了硅材料制造，具有快速响应和高稳定性的特点。

该二极管适用于各种电子设备，如电源、稳压器、逆变器等。

参数一：额定反向电压（Vr）BZT52C的额定反向电压是指二极管能够承受的最大反向电压。

对于BZT52C，其额定反向电压一般为5V。

当反向电压超过额定值时，二极管会发生击穿，可能导致损坏。

参数二：额定电流（If）BZT52C的额定电流是指二极管在正向导通时的最大电流。

对于BZT52C，其额定电流一般为200mA。

当正向电流超过额定值时，二极管可能会过热，导致损坏。

参数三：导通电压（Vf）BZT52C的导通电压是指二极管在正向导通时的电压降。

对于BZT52C，其导通电压一般为0.7V。

当正向电压超过导通电压时，二极管开始导通。

参数四：温度系数（TC）BZT52C的温度系数是指二极管在不同温度下反向电压的变化率。

对于BZT52C，其温度系数一般为-2mV/℃。

温度系数越小，二极管的稳定性越好。

参数五：封装类型BZT52C有多种封装类型可供选择，常见的封装类型有SOD-123、SOD-323、SOT-23等。

不同封装类型适用于不同的应用场景，用户可以根据自己的需求选择合适的封装类型。

参数六：工作温度范围BZT52C的工作温度范围是指二极管能够正常工作的温度范围。

对于BZT52C，其工作温度范围一般为-55℃至+150℃。

超出工作温度范围的温度可能导致二极管性能下降或损坏。

参数七：功耗BZT52C的功耗是指二极管在正常工作时消耗的功率。

功耗可以通过正向电流和导通电压计算得出。

对于BZT52C，其功耗一般较低，适用于低功耗应用。

参数八：响应时间BZT52C的响应时间是指二极管从关闭到完全导通所需的时间。

Z字头-贴片稳压二极管标示1 2 3 4 5 6 7 8 9 0A B C D E F G H I J K L M N O P Q R S T U V W X Y Z贴片元件标示代码表示查询DuQ838电子-技术资料-电子元件-电路图-技术应用网站-基本知识-原理-维修-作用-参数-电子元器件符号表示符号实际元件生产厂结构封装类型参数及代换型号Z0 SST310 Tem F SOT23 J310 n-ch jfetZ0 PDZ2.4B Phi I SOD323 2.4V 0.4W zenerZ08 SST308 Sil F SOT23 J308 n-ch jfetZ09 SST309 Sil F SOT23 J309 n-ch jfetZ10 SST310 Sil F SOT23 J310 n-ch jfetZ1 BZX84-C4V7 Phi C SOT23 0.3W zener 4.7VZ1 SSTJ211 Sil F SOT23 J211 n-ch jfetZ1 PDZ2.7B Phi I SOD323 2.7V 0.4W zenerZ1 IMZ1A Roh DE 2SC2414 npn,2SA1037AK pnpZ1 BZV49C4V7 Zet O SOT89 1W ±5% zener 4.7VZ2 BZX84-C5V1 Phi C SOT23 0.3W zener 4.7VZ2 SSTJ212 Sil F SOT23 J212 n-ch jfetZ2 IMZ2A Roh DF 2SC2414 npn,2SA1037AK pnpZ2 PDZ3.0B Phi I SOD323 3.0V 0.4W zenerZ2 BZV49C5V1 Zet O SOT89 1W ±5% zener 5.1VZ2U FMMTA63 Zet N SOT23 MPSA63Z2V FMMTA64 Zet N SOT23 MPSA64Z3 BZX84-C5V6 Phi C SOT23 0.3W zener 5.6VZ3 PDZ3.3B Phi I SOD323 3.3V 0.4W zenerZ3 2SK1078 Tos T SOT89 n-ch mosfet 60V 0.8AZ3 BZV49C5V6 Zet O SOT89 1W ±5% zener 5.6VZ4 BZX84-C6V2 Phi C SOT23 0.3W zener 6.2VZ4 PDZ3.6B Phi I SOD323 3.6V 0.4W zenerZ4 2SK1079 Tos T SOT89 n-ch mosfet 100V 0.6AZ4 BZV49C6V2 Zet O SOT89 1W ±5% zener 6.2VZ5 BZX84-C6V8 Phi C SOT23 0.3W zener 6.8VZ5 PDZ3.9B Phi I SOD323 3.9V 0.4W zenerZ5 2SK1717 Tos T SOT89 n-ch mosfet 60V 2AZ5 BZV49C6V8 Zet O SOT89 1W ±5% zener 6.8VZ6 BZX84-C7V5 Phi C SOT23 0.3W zener 7.5VZ6 PDZ4.3B Phi I SOD323 4.3V 0.4W zenerZ6 2SJ238 Tos T SOT89 p-ch mosfet 60V 1AZ6 BZV49C7V5 Zet O SOT89 1W ±5% zener 7.5VZ7 BZX84-C8V2 Phi C SOT23 0.3W zener 8.2VZ7 PDZ4.7B Phi I SOD323 4.7V 0.4W zenerZ7 BZV49C8V2 Zet O SOT89 1W ±5% zener 8.2VZ8 BZX84-C9V1 Phi C SOT23 0.3W zener 9.1VZ8 PDZ5.1B Phi I SOD323 5.1V 0.4W zenerZ8 BZV49C9V1 Zet O SOT89 1W ±5% zener 9.1VZ9 BZX84-C10 Phi C SOT23 0.3W zener 10VZ9 PDZ5.6B Phi I SOD323 5.6V 0.4W zenerZ1 BZV49C10 Zet O SOT89 1W ±5% zener 10VZ10 SST310 Sil F SOT23 J310 n-ch jfetZ11 BZX84-C2V4 Phi C SOT23 0.3W zener 2.4V ±5%Z12 BZX84-C2V7 Phi C SOT23 0.3W zener 2.7V ±5%Z13 BZX84-C3V0 Phi C SOT23 0.3W zener 3.0V ±5%Z14 BZX84-C3V3 Phi C SOT23 0.3W zener 3.3V ±5%Z15 BZX84-C3V6 Phi C SOT23 0.3W zener 3.6V ±5%Z16 BZX84-C3V9 Phi C SOT23 0.3W zener 3.9V ±5%Z17 BZX84-C4V3 Phi C SOT23 0.3W zener 4.3V ±5%Z21 DTC113ZE Rho N EMT3 npn dtr 1k0 + 10k 50V 100mA Z21 DTC113ZUA Rho N SC70 npn dtr 1k0 + 10k 50V 100mA Z21 DTC113ZKA Rho N SC59 npn dtr 1k0 + 10k 50V 100mA Z50 BZX84-B2V4 Phi C SOT23 0.3W zener 2.4V ±2%Z51 BZX84-B2V7 Phi C SOT23 0.3W zener 2.7V ±2%Z52 BZX84-B3V0 Phi C SOT23 0.3W zener 3.0V ±2%Z53 BZX84-B3V3 Phi C SOT23 0.3W zener 3.3V ±2%Z54 BZX84-B3V6 Phi C SOT23 0.3W zener 3.6V ±2%Z55 BZX84-B3V9 Phi C SOT23 0.3W zener 3.9V ±2%Z56 BZX84-B4V3 Phi C SOT23 0.3W zener 4.3V ±2%Z57 BZX84-B4V7 Phi C SOT23 0.3W zener 4.7V ±2%Z58 BZX84-B5V1 Phi C SOT23 0.3W zener 5.1V ±2%Z59 BZX84-B5V6 Phi C SOT23 0.3W zener 5.6V ±2%Z60 BZX84-B6V2 Phi C SOT23 0.3W zener 6.2V ±2%Z61 BZX84-B6V8 Phi C SOT23 0.3W zener 6.8V ±2%Z62 BZX84-B7V5 Phi C SOT23 0.3W zener 7.5V ±2%Z63 BZX84-B8V2 Phi C SOT23 0.3W zener 8.2V ±2%Z64 BZX84-B9V1 Phi C SOT23 0.3W zener 9.1V ±2%Z65 BZX84-B10 Phi C SOT23 0.3W zener 10V ±2%Z66 BZX84-B11 Phi C SOT23 0.3W zener 11V ±2%Z67 BZX84-B12 Phi C SOT23 0.3W zener 12V ±2%Z68 BZX84-B13 Phi C SOT23 0.3W zener 13V ±2%Z69 BZX84-B15 Phi C SOT23 0.3W zener 15V ±2%Z70 BZX84-B16 Phi C SOT23 0.3W zener 16V ±2%Z71 BZX84-B18 Phi C SOT23 0.3W zener 18V ±2%Z72 BZX84-B20 Phi C SOT23 0.3W zener 20V ±2%Z73 BZX84-B22 Phi C SOT23 0.3W zener 22V ±2%Z74 BZX84-B24 Phi C SOT23 0.3W zener 24V ±2%Z75 BZX84-B27 Phi C SOT23 0.3W zener 27V ±2%Z76 BZX84-B30 Phi C SOT23 0.3W zener 30V ±2%Z77 BZX84-B33 Phi C SOT23 0.3W zener 33V ±2%Z78 BZX84-B36 Phi C SOT23 0.3W zener 36V ±2%Z79 BZX84-B39 Phi C SOT23 0.3W zener 39V ±2%Z80 BZX84-B43 Phi C SOT23 0.3W zener 43V ±2%Z81 BZX84-B47 Phi C SOT23 0.3W zener 47V ±2%Z82 BZX84-B51 Phi C SOT23 0.3W zener 51V ±2%Z83 BZX84-B56 Phi C SOT23 0.3W zener 56V ±2%Z84 BZX84-B62 Phi C SOT23 0.3W zener 62V ±2%Z85 BZX84-B68 Phi C SOT23 0.3W zener 68V ±2%Z86 BZX84-B75 Phi C SOT23 0.3W zener 75V ±2% ZA BZX284-C7V5 Phi I SOD110 0.4W zener 7.5V ±5% ZA PDZ6.2B Phi I SOD323 6.2V 0.4W zenerZB FMMT4123 Zet N SOT23 2N4123ZB PDZ6.8B Phi I SOD323 6.8V 0.4W zenerZB BZX284-C8V2 Phi I SOD110 0.4W zener 8.2V ±5% ZC FMMT4124 Zet N SOT23 2N4124ZC BZX284-C9V1 Phi I SOD110 0.4W zener 9.1V ±5% ZC PDZ7.5B Phi I SOD323 7.5V 0.4W zenerZD FMMT4125 Zet N SOT23 2N4125ZD MMBT4125 Mot N SOT23 2N4125ZD BZX284-C10 Phi I SOD110 0.4W zener 10V ±5% ZD PDZ8.2B Phi I SOD323 8.2V 0.4W zenerZE FMMT4126 Zet N SOT23 2N4126ZE MMBT4123 Nat N SOT23 2N4123ZE BZX284-C11 Phi I SOD110 0.4W zener 11V ±5% ZE PDZ9.1B Phi I SOD323 9.1V 0.4W zenerZF BZX284-C12 Phi I SOD110 0.4W zener 12V ±5% ZF PDZ10B Phi I SOD323 10V 0.4W zenerZG BZX284-C13 Phi I SOD110 0.4W zener 13V ±5% ZG PDZ11B Phi I SOD323 11V 0.4W zenerZH BZX284-C15 Phi I SOD110 0.4W zener 15V ±5% ZH PDZ12B Phi I SOD323 12V 0.4W zenerZHK SM2Z5V1 STM I 2W SMD 5.1V 2W zenerZHL SM2Z5V6 STM I 2W SMD 5.6V 2W zener ZHW SM2Z12 STM I 2W SMD 12V 2W zenerZI BZX284-C16 Phi I SOD110 0.4W zener 16V ±5% ZJ BZX284-C18 Phi I SOD110 0.4W zener 18V ±5% ZJ PDZ13B Phi I SOD323 13V 0.4W zenerZJF SM2Z18 STM I 2W SMD 18V 2W zenerZJQ SM2Z30 STM I 2W SMD 30V 2W zenerZK BZX284-C20 Phi I SOD110 0.4W zener 20V ±5% ZK PDZ15B Phi I SOD323 15V 0.4W zenerZKR SM2Z150 STM I 2W SMD 150V 2W zenerZL BZX284-C22 Phi I SOD110 0.4W zener 22V ±5% ZL PDZ16B Phi I SOD323 16V 0.4W zenerZM BZX284-C24 Phi I SOD110 0.4W zener 24V ±5% ZM PDZ18B Phi I SOD323 18V 0.4W zenerZN BZX284-C27 Phi I SOD110 0.4W zener 27V ±5% ZN PDZ20B Phi I SOD323 20V 0.4W zenerZO BZX284-C30 Phi I SOD110 0.4W zener 30V ±5% ZP BZX284-C33 Phi I SOD100 0.4W zener 33V ±5% ZP PDZ22B Phi I SOD323 22V 0.4W zenerZQ BZX284-C36 Phi I SOD110 0.4W zener 36V ±5% ZQ PDZ24B Phi I SOD323 24V 0.4W zenerZ-Q 2PC4081Q Phi N SOT323 gp npn hfe 120-270 ZtQ 2PC4081Q Phi N SOT323 gp npn hfe 120-270 ZR MSD1819A Mot N SOT323 npn gp 50VZR BZX284-C39 Phi I SOD110 0.4W zener 39V ±5% ZR PDZ27B Phi I SOD323 27V 0.4W zenerZ-R 2PC4081R Phi N SOT323 gp npn hfe 180-390 ZtR 2PC4081R Phi N SOT323 gp npn hfe 180-390ZS BZX284-C43 Phi I SOD110 0.4W zener 43V ±5% ZS PDZ30B Phi I SOD323 30V 0.4W zenerZS1 ZHCS1000 Zet E SOT23 30V 1A schottky diode ZS5 ZHCS500 Zet E SOT23 40V 0.5A schottky diode ZS7 ZHCS750 Zet E SOT23 30V 0.75A schottky diode Z-S 2PC4081S Phi N SOT323 gp npn hfe 270-560 ZtS 2PC4081S Phi N SOT323 gp npn hfe 270-560ZT BZX284-C47 Phi I SOD110 0.4W zener 47V ±5% ZT PDZ33B Phi I SOD323 33V 0.4W zenerZU BZX284-C51 Phi I SOD110 0.4W zener 51V ±5% ZU PDZ36B Phi I SOD323 36V 0.4W zenerZV BZX284-C56 Phi I SOD110 0.4W zener 56V ±5% ZW BZX284-C62 Phi I SOD110 0.4W zener 62V ±5% ZX BZX284-C68 Phi I SOD110 0.4W zener 68V ±5% ZY BZX284-C75 Phi I SOD110 0.4W zener 75V ±5%ZS1 ZHCS1000 Zet C SOT23 schottky 1A 30VZS7 ZHCS750 Zet C SOT23 schottky 0.75A 30VDuQ838电子-技术资料-电子元件-电路图-技术应用网站-基本知识-原理-维修-作用-参数-电子元器件符号补充：DuQ838电子-技术资料-电子元件-电路图-技术应用网站-基本知识-原理-维修-作用-参数-电子元器件符号元器件标示代号封装形式实际元件型号制造工厂替换型号Z 2 SOD-523 BB145B PH6 SOT-363 HSMP-389T A VZ–Q 3 SOT-323 2PC4081Q PHZ–R 3 SOT-323 2PC4081R PHZ–S 3 SOT-323 2PC4081S PHZ0 3 SOT-23 SST310 SIL J3106 SOT-457 BZA420A PHZ08 3 SOT-23 SST308 SIL J308Z09 3 SOT-23 SST309 SIL J309Z0D 4 SOT-223 Z0110DN STZ0M 4 SOT-223 Z0110MN STZ0N 4 SOT-223 Z0110NN STZ0S 4 SOT-223 Z0110SN STZ1 2 SOD-723 BB145B-01 PH3 SOT-23 稳压二极管BZX84C4V7 NS SM ZE BZX79C4V73 SOT-89 BZV49C4V7 ZE BZV85C4V75 SOT-353 BZA856A PH5 SOT-665 BZA956A PHZ1** 3 SOT-23 TC1274-5ENB MIZ10 3 SOT-23 SST310 SIL J310Z11 3 SOT-23 稳压二极管BZX84C2V4 V AL BZX79C2V4Z12 3 SOT-23 稳压二极管BZX84C2V7 V AL BZX79C2V7Z13 3 SOT-23 稳压二极管BZX84C3V0 V AL BZX79C3V0Z14 3 SOT-23 稳压二极管BZX84C3V3 V AL BZX79C3V3Z15 3 SOT-23 稳压二极管BZX84C3V6 V AL BZX79C3V6Z16 3 SOT-23 稳压二极管BZX84C3V9 V AL BZX79C3V9Z17 3 SOT-23 稳压二极管BZX84C4V3 V AL BZX79C4V3Z1p 3 SOT-23 稳压二极管BZX84C4V7 PH BZX79C4V7Z1t 3 SOT-23 稳压二极管BZX84-C4V7 PHZ1W 3 SOT-23 稳压二极管BZX84-C4V7 PHZ2 3 SOT-23 稳压二极管BZX84C5V1 NS SM ZE BZX79C5V13 SOT-89 BZV49C5V1 ZE BZV85C5V15 SOT-353 BZA862A PH5 SOT-665 BZA962A PHZ2** 3 SOT-23 TC1274-10ENB MIZ2p 3 SOT-23 稳压二极管BZX84C5V1 PH BZX79C5V1Z2t 3 SOT-23 稳压二极管BZX84-C5V1 PH6 SOT-457 BZA462A PHZ2U 3 SOT-23 FMMTA63 ZE MPSA63Z2V 3 SOT-23 FMMTA64 ZE MPSA64Z2W 3 SOT-23 稳压二极管BZX84-C5V1 PHZ3 3 SOT-23 稳压二极管BZX84C5V6 NS SM ZE BZX79C5V6 3 SOT-89 2SK1078 TO3 SOT-89 BZV49C5V6 ZE BZV85C5V65 SOT-353 BZA868A PH5 SOT-665 BZA968A PHZ3** 3 SOT-23 TC1274-15ENB MIZ3D 4 SOT-223 Z0103DN STZ3M 4 SOT-223 Z0103MN STZ3N 4 SOT-223 Z0103NN STZ3p 3 SOT-23 稳压二极管BZX84C5V6 PH BZX79C5V6Z3t 3 SOT-23 稳压二极管BZX84-C5V6 PHZ3S 4 SOT-223 Z0103SN STZ3W 3 SOT-23 稳压二极管BZX84-C5V6 PHZ4 3 SC-75 KA4F4Z NE3 SOT-23 稳压二极管BZX84C6V2 NS SM ZE BZX79C6V23 SOT-89 2SK1079 TO3 SOT-89 BZV49C6V2 ZE BZV85C6V25 SOT-353 BZA820A PHZ4p 3 SOT-23 稳压二极管BZX84C6V2 PH BZX79C6V2Z4t 3 SOT-23 稳压二极管BZX84-C6V2 PHZ4W 3 SOT-23 稳压二极管BZX84-C6V2 PHZ5 3 SOT-23 稳压二极管BZX84C6V8 NS SM ZE BZX79C6V8 3 SOT-89 2SK1717 TO3 SOT-89 BZV49C6V8 ZE BZV85C6V8Z50 3 SOT-23 稳压二极管BZX84B2V4 V AL BZX79B2V4Z51 3 SOT-23 稳压二极管BZX84B2V7 V AL BZX79B2V7Z52 3 SOT-23 稳压二极管BZX84B3V0 V AL BZX79B3V0Z53 3 SOT-23 稳压二极管BZX84B3V3 V AL BZX79B3V3Z54 3 SOT-23 稳压二极管BZX84B3V6 V AL BZX79B3V6Z55 3 SOT-23 稳压二极管BZX84B3V9 V AL BZX79B3V9Z56 3 SOT-23 稳压二极管BZX84B4V3 V AL BZX79B4V3Z57 3 SOT-23 稳压二极管BZX84B4V7 V AL BZX79B4V7Z58 3 SOT-23 稳压二极管BZX84B5V1 V AL BZX79B5V1Z59 3 SOT-23 稳压二极管BZX84B5V6 V AL BZX79B5V6Z5p 3 SOT-23 稳压二极管BZX84C6V8 PH BZX79C6V8Z5t 3 SOT-23 稳压二极管BZX84-C6V8 PHZ5W 3 SOT-23 稳压二极管BZX84-C6V8 PHZ6 3 SOT-23 稳压二极管BZX84C7V5 NS SM ZE BZX79C7V53 SOT-89 2SJ238 TO3 SOT-89 BZV49C7V5 ZE BZV85C7V56 SOT-457 BZA456A PHZ60 3 SOT-23 稳压二极管BZX84B6V2 V AL BZX79B6V2Z61 3 SOT-23 稳压二极管BZX84B6V8 V AL BZX79B6V8Z62 3 SOT-23 稳压二极管BZX84B7V5 V AL BZX79B7V5Z63 3 SOT-23 稳压二极管BZX84B8V2 V AL BZX79B8V2Z64 3 SOT-23 稳压二极管BZX84B9V1 V AL BZX79B9V1Z65 3 SOT-23 稳压二极管BZX84B10 V AL BZX79B10Z66 3 SOT-23 稳压二极管BZX84B11 V AL BZX79B11Z67 3 SOT-23 稳压二极管BZX84B12 V AL BZX79B12Z68 3 SOT-23 稳压二极管BZX84B13 V AL BZX79B13Z69 3 SOT-23 稳压二极管BZX84B15 V AL BZX79B15Z6p 3 SOT-23 稳压二极管BZX84C7V5 PH BZX79C7V5Z6t 3 SOT-23 稳压二极管BZX84-C7V5 PHZ6W 3 SOT-23 稳压二极管BZX84-C7V5 PHZ7 3 SC-75 KN4F4Z NE3 SOT-23 稳压二极管BZX84C8V2 NS SM ZE BZX79C8V23 SOT-89 BZV49C8V2 ZE BZV85C8V2Z70 3 SOT-23 稳压二极管BZX84B16 V AL BZX79B16Z71 3 SOT-23 稳压二极管BZX84B18 V AL BZX79B18Z72 3 SOT-23 稳压二极管BZX84B20 V AL BZX79B20Z73 3 SOT-23 稳压二极管BZX84B22 V AL BZX79B22Z74 3 SOT-23 稳压二极管BZX84B24 V AL BZX79B24Z75 3 SOT-23 稳压二极管BZX84B27 V AL BZX79B27Z76 3 SOT-23 稳压二极管BZX84B30 V AL BZX79B30Z77 3 SOT-23 稳压二极管BZX84B33 V AL BZX79B33Z78 3 SOT-23 稳压二极管BZX84B36 V AL BZX79B36Z79 3 SOT-23 稳压二极管BZX84B39 V AL BZX79B39Z7D 4 SOT-223 Z0107DN STZ7M 4 SOT-223 Z0107MN STZ7N 4 SOT-223 Z0107NN STZ7p 3 SOT-23 稳压二极管BZX84C8V2 PH BZX79C8V2Z7S 4 SOT-223 Z0107SN STZ7t 3 SOT-23 稳压二极管BZX84-C8V2 PHZ7W 3 SOT-23 稳压二极管BZX84-C8V2 PHZ8 3 SOT-23 稳压二极管BZX84C9V1 NS SM ZE BZX79C9V1 3 SOT-23 SST308 SIL J3083 SOT-89 BZV49C9V1 ZE BZV85C9V16 SOT-457 BZA408B PHZ80 3 SOT-23 稳压二极管BZX84B43 V AL BZX79B43Z81 3 SOT-23 稳压二极管BZX84B47 V AL BZX79B47Z82 3 SOT-23 稳压二极管BZX84B51 V AL BZX79B51Z83 3 SOT-23 稳压二极管BZX84B56 V AL BZX79B56Z84 3 SOT-23 稳压二极管BZX84B62 V AL BZX79B62Z85 3 SOT-23 稳压二极管BZX84B68 V AL BZX79B68Z86 3 SOT-23 稳压二极管BZX84B75 V AL BZX79B75Z8p 3 SOT-23 稳压二极管BZX84C9V1 PH BZX79C9V1Z8t 3 SOT-23 稳压二极管BZX84-C9V1 PHZ8W 3 SOT-23 稳压二极管BZX84-C9V1 PHZ9 3 SOT-23 稳压二极管BZX84C10 NS SM ZE BZX79C10 3 SOT-23 SST309 SIL J3093 SOT-89 BZV49C10 ZE BZV85C10Z9D 4 SOT-223 Z0109DN STZ9M 4 SOT-223 Z0109MN STZ9N 4 SOT-223 Z0109NN STZ9p 3 SOT-23 稳压二极管BZX84C10 PH BZX79C10Z9S 4 SOT-223 Z0109SN STZ9t 3 SOT-23 稳压二极管BZX84-C10 PHZ9W 3 SOT-23 稳压二极管BZX84-C10 PHZA 2 SOD-110 稳压二极管BZX284-C7V5 PH3 SOT-23 BCW60RA TFK BC548A5 SC-95/5 µPA507TE NEZA509TS 20 SSOP-20 BZA509TS PHZB 2 SOD-110 稳压二极管BZX284-C8V2 PH3 SOT-23 BCW60RB TFK BC548B3 SOT-23 FMMT4123 FER ZE 2N41235 SC-95/5 µPA508TE NEZC 2 SOD-110 稳压二极管BZX284-C9V1 PH3 SOT-23 BCW60RC TFK BC548B3 SOT-23 FMMT4124 FER ZE 2N41243 SOT-23 MMBT4124 NS 2N4124ZD 2 SOD-110 稳压二极管BZX284-C10 PH3 SOT-23 BCW60RD TFK BC548C3 SOT-23 FMMT4125 FER ZE 2N41253 SOT-23 MMBT4125 NS 2N4125ZE 2 SOD-110 稳压二极管BZX284-C11 PH3 SOT-23 FMMT4126 FER ZE 2N41263 SOT-23 MMBT4123 NS 2N4123ZF 2 SOD-110 稳压二极管BZX284-C12 PH3 SOT-23 MMBT4126 NS 2N4126ZFD 3 SOT-23 BCV26 ZE BC516ZFE 3 SOT-23 BCV46 ZEZFF 3 SOT-23 BCV27 ZE BC517ZFG 3 SOT-23 BCV47 ZEZG 2 SOD-110 稳压二极管BZX284-C13 PH3 SC-59 2SA1182GR TO3 SC-70 2SA1588GR TO3 SOT-23 BCX70RG TFK BC547AZH 2 SOD-110 稳压二极管BZX284-C15 PH 3 SOT-23 BCX70RH TFK BC547BZHK 2 DO-214AC SM2Z5V1 STZHL 2 DO-214AC SM2Z5V6 STZHN 2 DO-214AC SM2Z6V2 STZHQ 2 DO-214AC SM2Z7V5 STZHU 2 DO-214AC SM2Z10 STZHW 2 DO-214AC SM2Z12 STZHZ 2 DO-214AC SM2Z15 STZI 2 SOD-110 稳压二极管BZX284-C16 PH ZJ 2 SOD-110 稳压二极管BZX284-C18 PH 3 SOT-23 BCX70RJ TFK BC547BZJF 2 DO-214AC SM2Z18 STZJG 2 DO-214AC SM2Z20 STZJK 2 DO-214AC SM2Z22 STZJL 2 DO-214AC SM2Z24 STZJN 2 DO-214AC SM2Z27 STZJQ 2 DO-214AC SM2Z30 STZJS 2 DO-214AC SM2Z36 STZJT 2 DO-214AC SM2Z39 STZJV 2 DO-214AC SM2Z47 STZK 2 SOD-110 稳压二极管BZX284-C20 PH 3 SOT-23 BCX70RK TFK BC547C3 SOT-89 2SB1114ZK NEZKM 2 DO-214AC SM2Z68 STZKQ 2 DO-214AC SM2Z100 STZKR 2 DO-214AC SM2Z150 STZKW 2 DO-214AC SM2Z200 STZL 2 SOD-110 稳压二极管BZX284-C22 PH 3 SOT-89 2SB1114ZL NEZL– 3 SOT-23 PDTA123TT PH PDTA123TS ZLp 3 SOT-23 PDTA123TT PH PDTA123TS ZLt 3 SOT-23 PDTA123TT PH PDTA123TS ZLW 3 SOT-23 PDTA123TT PH PDTA123TS ZM 2 SOD-110 稳压二极管BZX284-C24 PH 3 SOT-89 2SB1114ZM NEZM– 3 SOT-23 PDTC123TT PH PDTC123TS ZMp 3 SOT-23 PDTC123TT PH PDTC123TS ZMt 3 SOT-23 PDTC123TT PH PDTC123TS ZMW 3 SOT-23 PDTC123TT PH PDTC123TS ZN 2 SOD-110 稳压二极管BZX284-C27 PH ZO 2 SOD-110 稳压二极管BZX284-C30 PH 3 SC-59 2SA1182O TO3 SC-70 2SA1588O TOZP 2 SOD-110 稳压二极管BZX284-C33 PHZQ 2 SOD-110 稳压二极管BZX284-C36 PH3 SC-59 2PD601AQ PH3 SC-75 2PC4617Q PHZR 2 SOD-110 稳压二极管BZX284-C39 PH3 SC-59 2PD601AR PH3 SC-75 2PC4617R PHZS 2 SOD-110 稳压二极管BZX284-C43 PH3 SC-59 2PD601AS PH3 SC-75 2PC4617S PHZT 2 SOD-110 稳压二极管BZX284-C47 PHZT2222 4 SOT-223 PZT2222 SM 2N2222ZT2222A 4 SOT-223 PZT2222A PH SM 2N2222A ZT2907 4 SOT-223 PZT2907 SM 2N2907ZT2907A 4 SOT-223 PZT2907A PH SM 2N2907A ZT3904 4 SOT-223 PZT3904 PH SM 2N3904ZT3906 4 SOT-223 PZT3906 SM 2N3906ZTA42 4 SOT-223 PZTA42 PH MPSA42ZTA43 4 SOT-223 PZTA43 PH MPSA43ZTA96 4 SOT-223 PZTA96 MO MPSA96ZTp 3 SOT-23 PBSS4140T PH PBSS4140SZtQ 3 SOT-323 2PC4081Q PHZtR 3 SOT-323 2PC4081R PHZtS 3 SOT-323 2PC4081S PHZTt 3 SOT-23 PBSS4140T PH PBSS4140SZTW 3 SOT-23 PBSS4140T PH PBSS4140SZtZ 6 SC-88 PUMX1 PHZU 2 SOD-110 稳压二极管BZX284-C51 PHZV 2 SOD-110 稳压二极管BZX284-C56 PH ZW 2 SOD-110 稳压二极管BZX284-C62 PH ZX 2 SOD-110 稳压二极管BZX284-C68 PH3 SC-84 2SB1628ZX NEZY 2 SOD-110 稳压二极管BZX284-C75 PH3 SC-59 2SA1182Y TO3 SC-70 2SA1588Y TO3 SC-84 2SB1628ZY NEZZ 3 SC-84 2SB1628ZZ NE6 SOT-363 HSMS-286R A V。

贴片稳压二极管型号引言：贴片稳压二极管是一种常用的电子元件，用于稳定电流或电压，保护其它电子元件免受过高电压或电流的影响。

本文将介绍一些常见的贴片稳压二极管型号及其特性。

一、1N41481N4148是一种常见的贴片稳压二极管型号，其封装为SOD-123。

该型号的贴片稳压二极管具有快速开关速度和高反向电压。

它适用于高频电路、开关电源和通信设备等领域。

1N4148的最大反向电压为100V，最大正向电流为200mA。

这款贴片稳压二极管在电子行业中广泛应用。

二、Zener二极管Zener二极管是一种特殊的贴片稳压二极管，其工作原理基于反向击穿效应。

在正向电压下，Zener二极管表现为普通的二极管行为；而在反向电压达到其击穿电压时，Zener二极管会稳定电压，使其保持在击穿电压附近。

这使得Zener二极管成为稳压电路中常用的元件之一。

常见的贴片Zener二极管型号有BZX55、BZX79等。

它们封装小巧，适用于各种电路板的应用。

三、MMBZ二极管MMBZ系列是一类贴片稳压二极管型号，其封装为SOT-23。

MMBZ二极管具有低电压降和快速响应特性，适用于需要快速稳压的电路。

常见的型号有MMBZ5242B、MMBZ5231B等，它们的最大反向电压分别为12V和6.2V。

MMBZ系列贴片稳压二极管广泛应用于移动设备、电源管理等领域。

四、ESD二极管ESD（Electrostatic Discharge）二极管是一种特殊的贴片稳压二极管，用于保护电子设备免受静电放电造成的损害。

静电放电是电子设备损坏的主要原因之一，而ESD二极管可以提供低电阻路径，将静电放电引导到地。

常见的ESD二极管型号有PESD、DFN等，它们封装小巧，能够满足电子设备对静电保护的需求。

五、TVS二极管TVS（Transient Voltage Suppression）二极管是一种贴片稳压二极管，用于保护电子设备免受瞬态过电压的影响。

瞬态过电压是电子设备中常见的问题之一，例如闪电击中电力线路或开关电源切换时可能产生的过电压。