BZX84B3V0-V中文资料
BZX84C 12中文资料
VZ
(V) MAX 2.9 3.3 3.5 4.0 4.7 5.3 6.0 6.6 7.2 7.9 8.7 9.6 10.6 11.6 12.7 14.0 15.5 17 19 21.1 23.2 25.5
ZZ
(Ω) 600 600 600 600 500 480 400 150 80 80 80 100 150 150 150 170 200 200 225 225 250 250 MIN 3.6 3.9 4.1 4.4 4.5 5.0 5.2 5.8 6.4 7.0 7.7 8.5 9.4 10.4 11.4 12.5 13.9 15.4 16.9 18.9 20.9 22.9
ZZ
(Ω ) 45 50 55
VF
Foward Voltage = 0.9 V Maximum @ IF = 10 mA for all BZX 84 series
*Capacitance @ VR = 0.0 volts; Frequency = 1.0 megahertz.
Device
BZX84C 3V3 BZX84C 3V6 BZX84C 3V9 BZX84C 4V3 BZX84C 4V7 BZX84C 5V1 BZX84C 5V6 BZX84C 6V2 BZX84C 6V8 BZX84C 7V5 BZX84C 8V2 BZX84C 9V1 BZX84C 10 BZX84C 11 BZX84C 12 BZX84C 13 BZX84C 15 BZX84C 16 BZX84C 18 BZX84C 20 BZX84C 22 BZX84C 24
BZX84C4V3V中文资料
SILIICON PLANAR VOLTAGE REGULATOR DIODEBZX84C2V4 to 75V SOT-23Formed SMD PackageLow voltage general purpose voltage regulator diode ABSOLUTE MAXIMUM RATINGS (T a =25°C)UNIT %Repetitive Peak Forward Current mA Repetitive Peak Working Current mA mW mW °C °CTHERMAL RESISTANCE K/W* Device mounted on a ceramic alumna** Device mounted on an FR5 printed circuit boardELECTRICAL CHARACTERISTICS (T a =25°C unless specified otherwise) Device Temperature DifferentialI R at V RMarkingCoefficient ResistanceS Z (mV/K)rdiff (Ω)µAat I Z test=5mA at I Z test=1mAmin max min max max Max (V)BZX84C2V4 2.20 2.60 -3.560050 1.0Z11BZX84C2V72.50 2.90 -3.560020 1.0Z12BZX84C3V0 2.80 3.20 -3.560010 1.0Z13BZX84C3V3 3.10 3.50 -3.5600 5.0 1.0Z14BZX84C3V6 3.40 3.80 -3.5600 5.0 1.0Z15BZX84C3V9 3.70 4.10-3.56003.0 1.0Z16BZX84C4V34.00 4.60 -3.5600 3.0 1.0Z17BZX84C4V7 4.40 5.00 -3.5 0.2500 3.0 2.0Z1BZX84C5V1 4.80 5.40 -2.7 1.2480 2.0 2.0Z2BZX84C5V6 5.20 6.00 -2.0 2.5400 1.0 2.0Z3BZX84C6V2 5.80 6.60 0.4 3.7150 3.0 4.0Z4BZX84C6V8 6.407.20 1.2 4.580 2.0 4.0Z5BZX84C7V57.007.90 2.5 5.380 1.0 5.0Z6BZX84C8V27.708.70 3.2 6.2800.7 5.0Z7BZX84C9V18.509.60 3.8 7.01000.5 6.0Z8BZX84C109.4010.604.5 8.01500.27.0Z9BZX84C2V4_75V Rev_060506E*** Pulse Test 20ms < tp < 50ms1515152060401015909090801001009595 + 5VALUE max I ZRM Storage Temperature T stg Junction to Ambient*R th (j-a)DESCRIPTIONI FRM Working Voltage Tolerance Power Dissipation upto T a =25ºC SYMBOL *P D ***V Z ( + 5%)(V)at I Z test=5mA Resistance rdiff (Ω)at I Z test=5mA250420300- 65 to +150250Forward Voltage at V F <0.9V at 10mA and <1.5V at 200mAVoltage 150250Differential Working Power Dissipation upto T c =25ºC **P D Junction Temperature T j Pin Configuration1 = A N ODE2 = N C3 =CATHODE12Continental Device India LimitedAn ISO/TS 16949, ISO 9001 and ISO 14001 Certified CompanySILIICON PLANAR VOLTAGE REGULATOR DIODEBZX84C2V4 to 75V SOT-23Formed SMD PackageELECTRICAL CHARACTERISTICS (T a =25°C unless specified otherwise) Device Temperature DifferentialI R at V RMarkingCoefficientResistanceS Z (mV/K)rdiff (Ω)µAat I Z test=5mAat I Z test=1mA min max min max max Max (V)BZX84C1110.4011.60 5.4 9.01500.18Y1BZX84C1211.4012.70 6.0 101500.18Y2BZX84C1312.4014.10 7.0 111700.18Y3BZX84C1513.8015.60 9.2 132000.0510.5Y4BZX84C1615.3017.10 10.4 142000.0511.2Y5BZX84C1816.8019.10 12.4 162250.0512.6Y6BZX84C2018.8021.20 14.4 182250.0514.0Y7BZX84C2220.8023.30 16.4 202500.0515.4Y8BZX84C2422.8025.60 18.4 222500.0516.8Y9at I Z Test=2mA at I Z Test=0.5mABZX84C2725.1028.90 21.4 25.33000.0518.9Y10BZX84C3028.0032.00 24.4 29.43000.0521.0Y11BZX84C3331.0035.00 27.4 33.43250.0523.1Y12BZX84C3634.0038.00 30.4 37.43500.0525.2Y13BZX84C3937.0041.00 33.4 41.23500.0527.3Y14BZX84C4340.0046.00 37.6 46.63750.0530.1Y15BZX84C4744.0050.00 42.0 51.83750.0532.9Y16BZX84C5148.0054.00 46.6 57.24000.0535.7Y17BZX84C5652.0060.00 52.2 63.84250.0539.2Y18BZX84C6258.0066.00 58.8 71.64500.0543.4Y19BZX84C6864.0072.00 65.6 79.84750.0547.6Y20BZX84C7570.0079.0073.4 88.65000.0552.5Y21BZX84C2V4_75V Rev_060506E*** Pulse Test 20ms < tp < 50ms2002152402551301501701808080908025303070at I Z test=5mA at I Z test=5mA max at I Z test=2mAat I Z Test=2mA4045555520Resistance ***V Z ( + 5%)rdiff (Ω)(V)Forward Voltage at V F <0.9V at 10mA and <1.5V at 200mAWorking Differential Voltage Pin Configuration1 = A N ODE2 = N C3 =CATHODE12BZX84C2V4 to 75V SOT-23Formed SMD PackageSOT-23 Package Reel InformationReel specification for W" Packing (13" reel)BZX84C2V4_75V Rev_060506ESOT-23 Formed SMD PackageTape Specification for SOT-23 Surface Mount DeviceS O T -23 T &R3K /reel 10K /reel136 g m /3K p c s 415 g m /10K p c s3" x 7.5" x 7.5"9" x 9" x 9"13" x 13" x 0.5"12 K 51 K 10 K17" x 15" x 13.5"19" x 19" x 19"17" x 15" x 13.5"192 K 408 K 300 K12 k g s 28 k g s 16 k g sPACKAGEN e t W e i g h t /Q t y DetailsS T A N D A R D PACKI N N E R C A R T O N B O XQ t y O U T E R C A R T O N B O XQ t y G r W t SizeSizePacking Detail±0.0114.47.9 – 10.9T R A I L E RF I X I N GT A P EL E A D E R9.2±0.5MAXNOTES:No. of Devices8mm Tape Size of Reel 330 mm (13")10,000 Pcs 8mm Tape Size of Reel 180 mm (7")3,000 Pcs1.The bandolier of 330 mm reel contains at least 10,000 devices.2.The bandolier of 180 mm reel contains at least 3,000 devices.3.No more than 0.5% missing devices / reel. 50 empty compartments for 330 mm reel.15 empty compartments for 180 mm reel.4.Three consecutive empty places might be found provided this gap is followed by 6 consecutive devices.5.The carrier tape (leader) starts with at least 75 empty positions (equivalent to 330 mm).In order to fix the carrier tape a self adhesive tape of 20 to 50 mm is applied. At the end of the bandolier at least 40 empty positions (equivalent to 160 mm) are there.3.15Customer Notes BZX84C2V4 to 75VSOT-23Formed SMD Package1. CDIL Semiconductor Devices are RoHS compliant, customers are requested to pleasedispose as per prevailing Environmental Legislation of their Country.2. In Europe, please dispose as per EU Directive 2002/96/EC on Waste Electrical andElectronic Equipment (WEEE).BZX84C2V4_75V Rev_060506E DisclaimerThe product information and the selection guides facilitate selection of the CDIL's Semiconductor Device(s)best suited for application in your product(s)as per your requirement.It is recommended that you completely review our Data Sheet(s)so as to confirm that the Device(s)meet functionality parameters for your application.The information furnished in the Data Sheet and on the CDIL Web Site/CD are believed to be accurate and reliable.CDIL however,does not assume responsibility for inaccuracies or incomplete information.Furthermore,CDIL does not assume liability whatsoever,arising out of the application or use of any CDIL product;neither does it convey any license under its patent rights nor rights of others. These products are not designed for use in life saving/support appliances or systems.CDIL customers selling these products(either as individual Semiconductor Devices or incorporated in their end products),in any life saving/support appliances or systems or applications do so at their own risk and CDIL will not be responsible for any damages resulting from such sale(s).CDIL strives for continuous improvement and reserves the right to change the specifications of its products without prior notice.CDIL is a registered Trademark ofContinental Device India LimitedC-120 Naraina Industrial Area, New Delhi 110 028, India.Telephone + 91-11-2579 6150, 4141 1112 Fax + 91-11-2579 5290, 4141 1119email@ 。
BZ84系列贴片稳压管.
BZX84C2V4ET1 SeriesZener Voltage Regulators 225 mW SOT−23 Surface MountThis series of Zener diodes is offered in the convenient, surface mount plastic SOT−23 package. These devices are designed to provide voltage regulation with minimum space requirement. They are well suited for applications such as cellular phones, hand held portables, and high density PC boards.Specification Features•225 mW Rating on FR−4 or FR−5 Board•Zener Breakdown V oltage Range − 2.4 V to 75 V •Package Designed for Optimal Automated Board Assembly •Small Package Size for High Density Applications•ESD Rating of Class 3 (>16 kV) per Human Body Model •Peak Power − 225 W (8 X 20 m s)•Pb−Free Package is AvailableMechanical CharacteristicsCASE:V oid-free, transfer-molded, thermosetting plastic case FINISH:Corrosion resistant finish, easily solderableMAXIMUM CASE TEMPERATURE FOR SOLDERING PURPOSES: 260°C for 10 SecondsPOLARITY:Cathode indicated by polarity bandFLAMMABILITY RATING:UL 94 V−0MAXIMUM RATINGSMaximum ratings are those values beyond which device damage can occur. Maximum ratings applied to the device are individual stress limit values (not normal operating conditions) and are not valid simultaneously. If these limits are exceeded, device functional operation is not implied, damage may occur and reliability may be affected.1.Nonrepetitive current pulse per Figure 9.2.FR−5 = 1.0 X 0.75 X 0.62 in.3.Alumina = 0.4 X 0.3 X 0.024 in, 99.5% alumina.Device Package Shipping†ORDERING INFORMATIONBZX84CxxxET1SOT−233000/T ape & Reel BZX84CxxxET3SOT−2310,000/T ape & Reel†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specification Brochure, BRD8011/D.See specific marking information in the device marking column of the Electrical Characteristics table on page 2 of this data sheet.DEVICE MARKING INFORMATIONBZX84CxxxET1G SOT−23(Pb−Free)3000/T ape & ReelELECTRICAL CHARACTERISTICS(Pinout: 1-Anode, 2-No Connection, 3-Cathode) (T A = 25°C unless otherwise noted, V= 0.95 V Max. @ I = 10 mA)ELECTRICAL CHARACTERISTICS(Pinout: 1-Anode, 2-No Connection, 3-Cathode) (T A = 25°C unless otherwise noted, V F = 0.90 V Max. @ I F = 10 mA)(Devices listed in bold, italic are ON Semiconductor Preferred devices.)*The “G” suffix indicates Pb−Free package available.4.Zener voltage is measured with a pulse test current I Z at an ambient temperature of 25°CV Z , T E M P E R A T U R E C O E F F I C I E N T (m V /C )°θV Z , NOMINAL ZENER VOLTAGE (V)−112345678Figure 1. Temperature Coefficients (Temperature Range −55°C to +150°C)V Z , T E M P E R A T U R E C O E F F I C I E N T (m V /C )°θ100101V Z , NOMINAL ZENER VOLTAGE (V)Figure 2. Temperature Coefficients(Temperature Range −55°C to +150°C)V Z , NOMINAL ZENER VOLTAGEFigure 3. Effect of Zener Voltage onZener ImpedanceZ Z T , D Y N A M I C I M P E D A N C E ()Ω1000100101V F , FORWARD VOLTAGE (V)Figure 4. Typical Forward VoltageI F , F O R W A R D C U R R E N T (m A )1000100101C , C A P A C I T A N C E (p F )V Z , NOMINAL ZENER VOLTAGE (V)Figure 5. Typical Capacitance1000100101V Z , ZENER VOLTAGE (V)1001010.10.01I Z , Z E N E R C U R R E N T (m A )V Z , ZENER VOLTAGE (V)1001010.10.01V Z , NOMINAL ZENER VOLTAGE (V)Figure 6. Typical Leakage CurrentI Z , Z E N E R C U R R E N T (m A )Figure 7. Zener Voltage versus Zener Current(V Z Up to 12 V)Figure 8. Zener Voltage versus Zener Current(12 V to 91 V)100Figure 9. 8 × 20 m s Pulse Waveform9080706050403020100020406080t, TIME (m s)% O F P E A K P U L S E C U R R E N TPACKAGE DIMENSIONSSOT−23TO−236AB CASE 318−09ISSUE AJSTYLE 8:PIN 1.ANODE2.NO CONNECTION3.CATHODEDIMA MIN MAX MIN MAX MILLIMETERS 0.11020.1197 2.80 3.04INCHESB 0.04720.0551 1.20 1.40C 0.03850.04980.99 1.26D 0.01400.02000.360.50G 0.06700.0826 1.70 2.10H 0.00400.00980.100.25J 0.00340.00700.0850.177K 0.01800.02360.450.60L 0.03500.04010.89 1.02S 0.08300.0984 2.10 2.50V0.01770.02360.450.60NOTES:1.DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.2.CONTROLLING DIMENSION: INCH.3.MAXIUMUM LEAD THICKNESS INCLUDES LEAD FINISH THICKNESS. MINIMUM LEAD THICKNESS IS THE MINIMUM THICKNESS OF BASE MATERIAL.4.318−01, −02, AND −06 OBSOLETE, NEW STANDARD 318−09.V *For additional information on our Pb−Free strategy and solderingdetails, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D.SOLDERING FOOTPRINT*ǒmm inchesǓSCALE 10:1ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.PUBLICATION ORDERING INFORMATION。
BZX84J-B24资料
BZX84J Sel Working
-xxx
voltage
Differential resistance
Reverse current
VZ (V)
rdif (Ω)
IR (µA)
Temperature coefficient
SZ (mV/K)
IZ = 5 mA Min Max
2V4
B
2.35 2.45
C
Symbol Parameter
Conditions
Min
IF
forward current
-
IZSM
non-repetitive peak reverse
[1] -
current
PZSM
Ptot Tj Tamb Tstg
non-repetitive peak reverse power dissipation total power dissipation junction temperature ambient temperature storage temperature
[1]
1
2
Symbol
1
2
006aaa152
元器件交易网
NXP Semiconductors
BZX84J series
Single Zener diodes
3. Ordering information
4. Marking
Table 3. Ordering information
7. Characteristics
Table 7. Characteristics Tj = 25 °C unless otherwise specified.
BZX84B6V2LT1G中文资料
BZX84B4V7LT1,BZX84C2V4LT1 Series Zener Voltage Regulators225 mW SOT−23 Surface MountThis series of Zener diodes is offered in the convenient, surface mount plastic SOT−23 package. These devices are designed to provide voltage regulation with minimum space requirement. They are well suited for applications such as cellular phones, hand held portables,and high density PC boards.Features•Pb−Free Packages are Available•225 mW Rating on FR−4 or FR−5 Board•Zener Breakdown V oltage Range − 2.4 V to 75 V•Package Designed for Optimal Automated Board Assembly •Small Package Size for High Density Applications•ESD Rating of Class 3 (>16 KV) per Human Body Model •Tight Tolerance Series Available (See Page 4)Mechanical CharacteristicsCASE: V oid-free, transfer-molded, thermosetting plastic case FINISH: Corrosion resistant finish, easily SolderableMAXIMUM CASE TEMPERATURE FOR SOLDERING PURPOSES:260°C for 10 SecondsPOLARITY: Cathode indicated by polarity band FLAMMABILITY RATING: UL 94 V−0MAXIMUM RATINGSMaximum ratings are those values beyond which device damage can occur.Maximum ratings applied to the device are individual stress limit values (not normal operating conditions) and are not valid simultaneously. If these limits are exceeded, device functional operation is not implied, damage may occur and reliability may be affected.1.FR−5 = 1.0 X 0.75 X 0.62 in.2.Alumina = 0.4 X 0.3 X 0.024 in., 99.5% alumina.See specific marking information in the device marking column of the Electrical Characteristics table on page 3 of this data sheet.DEVICE MARKING INFORMATION(Pinout: 1-Anode, 2-No Connection, 3-Cathode)(T A = 25°Cunless otherwise noted, V F = 0.95 V Max. @ I F = 10 mA)ELECTRICAL CHARACTERISTICS − BZX84CxxxLT1 SERIES (STANDARD TOLERANCE) (Pinout: 1-Anode, 2-No Connection, 3-Cathode)(T A = 25°C unless otherwise noted, V F = 0.90 V Max. @ I F = 10 mA) (Devices listed in bold, italic are ON Semiconductor Preferred devices.)Z*The “G” suffix indicates Pb−Free package available.ELECTRICAL CHARACTERISTICS − BZX84BxxxL (Tight Tolerance Series)(Pinout: 1-Anode, 2-No Connection, 3-Cathode)(T A = 25°C unless otherwise noted, V F = 0.90 V Max. @ I F = 10 mA)Z*The “G” suffix indicates Pb−Free package available.V Z , T E M P E R A T U R E C O E F F I C I E N T (m V /C )°θV Z , NOMINAL ZENER VOLTAGE (V)− 3− 2012345678Figure 1. Temperature Coefficients (Temperature Range −55°C to +150°C)V Z , T E M P E R A T U R E C O E F F I C I E N T (m V /C )°θ100101V Z , NOMINAL ZENER VOLTAGE (V)Figure 2. Temperature Coefficients (Temperature Range −55°C to +150°C)V Z , NOMINAL ZENER VOLTAGEFigure 3. Effect of Zener Voltage onZener ImpedanceZ Z T , D Y N A M I C I M P E D A N C E ()Ω1000100101V F , FORWARD VOLTAGE (V)Figure 4. Typical Forward VoltageI F , F O R W A R D C U R R E N T (m A )1000100101C , C A P A C I T A N C E (p F )V Z , NOMINAL ZENER VOLTAGE (V)Figure 5. Typical Capacitance 1000100101V Z , ZENER VOLTAGE (V)1001010.10.01I Z , Z E N ER C U R R E N T (m A )V Z , ZENER VOLTAGE (V)1001010.10.01I R , L E A K A G E C U R R E N T (A )µV Z , NOMINAL ZENER VOLTAGE (V)Figure 6. Typical Leakage Current10001001010.10.010.0010.00010.00001I Z , Z E N E R C U R R E N T (m A )Figure 7. Zener Voltage versus Zener Current(V Z Up to 12 V)Figure 8. Zener Voltage versus Zener Current(12 V to 91 V)PACKAGE DIMENSIONSSOT−23TO−236AB CASE 318−09ISSUE AK*For additional information on our Pb−Free strategy and solderingdetails, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D.SOLDERING FOOTPRINT*ǒmm inchesǓSCALE 10:1ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.PUBLICATION ORDERING INFORMATION。
贴片稳压二极管
Z字头-贴片稳压二极管标示时间:2009-02-12 15:33:47 来源:资料室作者:编号:3515 更新日期20110915 003424 (SMD)贴片元件参数索引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 zenerZHW 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 120-270ZtQ 2PC4081Q Phi N SOT323 gp npn hfe 120-270ZR 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 180-390ZtR 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 diodeZS5 ZHCS500 Zet E SOT23 40V 0.5A schottky diodeZS7 ZHCS750 Zet E SOT23 30V 0.75A schottky diodeZ-S 2PC4081S Phi N SOT323 gp npn hfe 270-560ZtS 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 BZX79C5V1 3 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 BZX79C7V5 3 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 BZX79B7V5Z64 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 PH3 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 BZX79C10 Z9S 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 PH3 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 PH ZQ 2 SOD-110 稳压二极管BZX284-C36 PH 3 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 2N2222AZT2907 4 SOT-223 PZT2907 SM 2N2907ZT2907A 4 SOT-223 PZT2907A PH SM 2N2907AZT3904 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 PHZW 2 SOD-110 稳压二极管BZX284-C62 PHZX 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 VDuQ838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<a href='/diode/1065.htm'>本文来自【飞奔汽车】</a>。
BZX84B13-V中文资料
Document Number Small Signal Zener DiodesFeatures•These diodes are also available in other case styles and other configurationsincluding: the SOD-123 case with type designation BZT52 series, the dual zenerdiode common anode configuration in the SOT-23case with type designation AZ23 series and the dual zener diode common cathode configuration in the SOT-23 case with type designation DZ23series.•The Zener voltages are graded according to the international E 24 standard. Standard Zener volt-age tolerance is ± 5 %. Replace "C" with "B" for ± 2 % tolerance.•Silicon Planar Power Zener Diodes •Lead (Pb)-free component•Component in accordance to RoHS 2002/95/EC and WEEE 2002/96/ECWeight: approx. 8.8 mgPackaging Codes/Options:GS18 / 10 k per 13" reel (8 mm tape), 10 k/box GS08 / 3 k per 7" reel (8 mm tape), 15 k/boxAbsolute Maximum RatingsT amb = 25°C, unless otherwise specified1) Device on fiberglass substrate, see layout.Thermal CharacteristicsT amb = 25°C, unless otherwise specified1)Device on fiberglass substrate, see layout.ParameterT est condition Symbol Value Unit Power dissipationP tot300 1)mWParameterTest condition Symbol Value Unit Thermal resistance junction to ambient air R thJA 420 1)°C/W Junction temperature T j 150°C Storage temperature rangeT S- 65 to + 150°CElectrical CharacteristicsPartnumber MarkingCodeZenerVoltageRangeDynamic Resistance T estCurrentTemp.Coefficientof ZenerVoltageTestCurrentReverse LeakageCurrentV Z @ I ZT1r zj @ I ZT1r zj @ I ZT2I ZT1αVZ @ I ZT1I ZT2I R@ V R VΩmA10-4/°C mAµA Vmin max min maxBZX84C2V4-V Z11 2.2 2.670 (≤100)2755-9.0-4.01501 BZX84C2V7-V Z12 2.5 2.975 (≤100)300 (≤600)5-9.0-4.01201 BZX84C3V0-V Z13 2.8 3.280 (≤95)325 (≤600)5-9.0-3.01101 BZX84C3V3-V Z14 3.1 3.585 (≤95)350 (≤600)5-8.0-3.0151 BZX84C3V6-V Z15 3.4 3.885 (≤90)375 (≤600)5-8.0-3.0151 BZX84C3V9-V Z16 3.7 4.185 (≤90)400 (≤600)5-7.0-3.0131 BZX84C4V3-V Z174 4.680 (≤90)410 (≤600)5-6.0-1.0131 BZX84C4V7-V Z1 4.4550 (≤80)425 (≤500)5-5.0+2.0132 BZX84C5V1-V Z2 4.8 5.440 (≤60)400 (≤480)5-3.0+4.0122 BZX84C5V6-V Z3 5.2615 (≤40)80 (≤400)5-2.0+6.0112 BZX84C6V2-V Z4 5.8 6.6 6.0 (≤10)40 (≤150)5-1.0+7.0134 BZX84C6V8-V Z5 6.47.2 6.0 (≤15)30 (≤80)5+2.0+7.0124 BZX84C7V5-V Z677.9 6.0 (≤15)30 (≤80)5+3.0+7.0115 BZX84C8V2-V Z77.78.7 6.0 (≤15)40 (≤80)5+4.0+7.010.75 BZX84C9V1-V Z88.59.6 6.0 (≤15)40 (≤100)5+5.0+8.010.56 BZX84C10-V Z99.410.68.0 (≤20)50 (≤150)5+5.0+8.010.27 BZX84C11-V Y110.411.610 (≤20)50 (≤150)5+5.0+9.010.18 BZX84C12-V Y211.412.710 (≤25)50 (≤150)5+6.0+9.010.18 BZX84C13-V Y312.414.110 (≤30)50 (≤170)5+7.0+9.010.18 BZX84C15-V Y413.815.610 (≤30)50 (≤200)5+7.0+9.010.050.7 V Znom.BZX84C16-V Y515.317.110 (≤40)50 (≤200)5+8.0+9.510.050.7 V Znom.BZX84C18-V Y616.819.110 (≤45)50 (≤225)5+8.0+9.510.050.7 V Znom.BZX84C20-V Y718.821.215 (≤55)60 (≤225)5+8.0+1010.050.7 V Znom.BZX84C22-V Y820.823.320 (≤55)60 (≤250)5+8.0+1010.050.7 V Znom.BZX84C24-V Y922.825.625 (≤70)60 (≤250)5+8.0+1010.050.7 V Znom.BZX84C27-V Y1025.128.925 (≤80)65 (≤300)2+8.0+100.50.050.7 V Znom.BZX84C30-V Y11283230 (≤80)70 (≤300)2+8.0+100.50.050.7 V Znom.BZX84C33-V Y12313535 (≤80)75 (≤325)2+8.0+100.50.050.7 V Znom.BZX84C36-V Y13343835 (≤90)80 (≤350)2+8.0+100.50.050.7 V Znom.BZX84C39-V Y14374140 (≤130)80 (≤350)2+10+120.50.050.7 V Znom.BZX84C43-V Y15404645 (≤150)85 (≤375)2+10+120.50.050.7 V Znom.BZX84C47-V Y16445050 (≤170)85 (≤375)2+10+120.50.050.7 V Znom.BZX84C51-V Y17485460 (≤180)85 (≤400)2+10+120.50.050.7 V Znom.BZX84C56-V Y18526070 (≤200)100 (≤425)2+9.0+110.50.050.7 V Znom.BZX84C62-V Y19586680 (≤215)100 (≤450)2+9.0+120.50.050.7 V Znom.BZX84C68-V Y20647290 (≤240)150 (≤475)2+10+120.50.050.7 V Znom.BZX84C75-V Y21707995 (≤255)170 (≤500)2+10+120.50.050.7 V Znom. Document Number 85763Document Number Electrical CharacteristicsPartnumberMarking CodeZener Voltage Range Dynamic ResistanceTest CurrentT emp. Coefficient of Zener Voltage T est CurrentReverse LeakageCurrentV Z @ I ZT1r zj @ I ZT1r zj @ I ZT2I ZT1αVZ @ I ZT1I ZT2I R @ V R V ΩmA10-4/°C mAµAVminmax min max BZX84B2V4-V Z50 2.35 2.4570 (≤100)2755-9-41501BZX84B2V7-V Z51 2.65 2.7575 (≤100)300 (≤600)5-9-41201BZX84B3V0-V Z52 2.94 3.0680 (≤95)325 (≤600)5-9-31101BZX84B3V3-V Z53 3.23 3.3785 (≤95)350 (≤600)5-8-3151BZX84B3V6-V Z54 3.53 3.6785 (≤90)375 (≤600)5-8-3151BZX84B3V9-V Z55 3.82 3.9885 (≤90)400 (≤600)5-7-3131BZX84B4V3-V Z56 4.21 4.3980 (≤90)410 (≤600)5-6-1131BZX84B4V7-V Z57 4.61 4.7950 (≤80)425 (≤500)5-52132BZX84B5V1-V Z585 5.240 (≤60)400 (≤480)5-34122BZX84B5V6-V Z59 5.49 5.7115 (≤40)80 (≤400)5-26112BZX84B6V2-V Z60 6.08 6.32 6.0 (≤10)40 (≤150)5-17134BZX84B6V8-V Z61 6.66 6.94 6.0 (≤15)30 (≤80)527124BZX84B7V5-V Z627.357.65 6.0 (≤15)30 (≤80)537115BZX84B8V2-V Z638.048.36 6.0 (≤15)40 (≤80)54710.75BZX84B9V1-V Z648.929.28 6.0 (≤15)40 (≤100)55810.56BZX84B10-V Z659.810.28.0 (≤20)50 (≤150)55810.27BZX84B11-V Z6610.811.210 (≤20)50 (≤150)55910.18BZX84B12-V Z6711.812.210 (≤25)50 (≤150)56910.18BZX84B13-V Z6812.713.310 (≤30)50 (≤170)57910.18BZX84B15-V Z6914.715.310 (≤30)50 (≤200)57910.050.7 V Znom.BZX84B16-V Z7015.716.310 (≤40)50 (≤200)589.510.050.7 V Znom.BZX84B18-V Z7117.618.410 (≤45)50 (≤225)589.510.050.7 V Znom.BZX84B20-V Z7219.620.415 (≤55)60 (≤225)581010.050.7 V Znom.BZX84B22-V Z7321.622.420 (≤55)60 (≤250)581010.050.7 V Znom.BZX84B24-V Z7423.524.525 (≤70)60 (≤250)581010.050.7 V Znom.BZX84B27-V Z7526.527.525 (≤80)65 (≤300)28100.50.050.7 V Znom.BZX84B30-V Z7629.430.630 (≤80)70 (≤300)28100.50.050.7 V Znom.BZX84B33-V Z7732.333.735 (≤80)75 (≤325)28100.50.050.7 V Znom.BZX84B36-V Z7835.336.735 (≤90)80 (≤350)28100.50.050.7 V Znom.BZX84B39-V Z7938.239.840 (≤130)80 (≤350)210120.50.050.7 V Znom.BZX84B43-V Z8042.143.945 (≤150)85 (≤375)210120.50.050.7 V Znom.BZX84B47-V Z8146.147.950 (≤170)85 (≤375)210120.50.050.7 V Znom.BZX84B51-V Z82505260 (≤180)85 (≤400)210120.50.050.7 V Znom.BZX84B56-V Z8354.957.170 (≤200)100 (≤425)29110.50.050.7 V Znom.BZX84B62-V Z8460.863.280 (≤215)100 (≤450)29120.50.050.7 V Znom.BZX84B68-V Z8566.669.490 (≤240)150 (≤475)210120.50.050.7 V Znom.BZX84B75-VZ8673.576.595 (≤255)170 (≤500)210120.50.050.7 V Znom. Document Number 85763Typical Characteristics (Tamb = 25 °C unless otherwise specified)Figure 1. Forward characteristics Figure 2. Admissible Power Dissipation vs. Ambient Temperature Figure3. Pulse Thermal Resistance vs. Pulse Duration1811418115Figure 4. Dynamic Resistance vs. Zener CurrentFigure 5. Capacitance vs. Zener VoltageFigure6. Dynamic Resistance vs. Zener Current1811718118Document Number Figure 7. Dynamic Resistance vs. Zener CurrentFigure 8. Thermal Differential Resistance vs. Zener Voltage Figure9. Dynamic Resistance vs. Zener Voltage18120Figure 10. Temperature Dependence of Zener Voltage vs. ZenerVoltageFigure 11. Change of Zener Voltage vs. Junction TemperatureFigure 12. Temperature Dependence of Zener Voltage vs. ZenerVoltage18124°C18136 Document Number 85763Figure 13. Change of Zener Voltage vs. Junction TemperatureFigure 14. Change of Zener voltage from turn-on up to the point ofthermal equilibrium vs. Zener voltageFigure 15. Change of Zener voltage from turn-on up to the point ofthermal equilibrium vs. Zener voltage181261813718138Document Number Figure 16. Breakdown CharacteristicsFigure17. Breakdown Characteristics1811118112 Document Number 85763Layout for R Theta;JA testThickness: Fiberglass 0.059 in. (1.5 mm)Copper leads 0.012 in. (0.3 mm)Figure18. Breakdown Characteristics18113Package Dimensions in mm (Inches)Document Number Ozone 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 associated with such unintended or unauthorized use.Vishay Semiconductor GmbH, P.O.B. 3535, D-74025 Heilbronn, Germany Document Number 85763。
BZX84J中文资料
1.Product profile1.1General descriptionGeneral-purpose Zener diodes in a SOD323F (SC-90) very small and flat lead Surface-Mounted Device (SMD) plastic package.1.2Features1.3ApplicationsI General regulation functions1.4Quick reference data[1]Pulse test: t p ≤300µs;δ≤0.02.[2]t p =100µs; square wave; T j =25°C prior to surge2.Pinning information[1]The marking bar indicates the cathode.BZX84J seriesSingle Zener diodesRev. 01 — 1 March 2007Product data sheetI Non-repetitive peak reverse power dissipation:≤40WI Wide working voltage range: nominal 2.4V to 75V (E24range)I Total power dissipation:≤550mW I Low differential resistanceI Two tolerance series:±2%and ±5%I Small plastic package suitable for surface-mounted designTable 1.Quick reference data Symbol Parameter Conditions Min Typ Max Unit V F forward voltageI F =100mA[1]-- 1.1V P ZSMnon-repetitive peak reverse power dissipation[2]--40WTable 2.PinningPin Description Simplified outlineSymbol1cathode [1]2anode21006aaa152213.Ordering information[1]The series consists of 74types with nominal working voltages from 2.4V to 75V .4.MarkingTable 3.Ordering informationType numberPackage NameDescriptionVersion BZX84J-B2V4 to BZX84J-C75[1]SC-90plastic surface-mounted package; 2leadsSOD323FTable 4.Marking codesType number Marking code Type number Marking code Type number Marking code Type number Marking code BZX84J-B2V4SL BZX84J-B15SC BZX84J-C2V4U3BZX84J-C15TV BZX84J-B2V7SM BZX84J-B16SD BZX84J-C2V7U4BZX84J-C16TW BZX84J-B3V0ST BZX84J-B18SE BZX84J-C3V0U9BZX84J-C18TX BZX84J-B3V3SU BZX84J-B20SF BZX84J-C3V3UA BZX84J-C20TY BZX84J-B3V6SV BZX84J-B22SG BZX84J-C3V6UB BZX84J-C22TZ BZX84J-B3V9SW BZX84J-B24SH BZX84J-C3V9UC BZX84J-C24U1BZX84J-B4V3SZ BZX84J-B27SK BZX84J-C4V3UF BZX84J-C27U2BZX84J-B4V7T A BZX84J-B30SN BZX84J-C4V7UG BZX84J-C30U5BZX84J-B5V1TD BZX84J-B33SP BZX84J-C5V1UL BZX84J-C33U6BZX84J-B5V6TE BZX84J-B36SR BZX84J-C5V6UM BZX84J-C36U7BZX84J-B6V2TH BZX84J-B39SS BZX84J-C6V2UR BZX84J-C39U8BZX84J-B6V8TK BZX84J-B43SX BZX84J-C6V8US BZX84J-C43UD BZX84J-B7V5TM BZX84J-B47SY BZX84J-C7V5UU BZX84J-C47UE BZX84J-B8V2TN BZX84J-B51TB BZX84J-C8V2UV BZX84J-C51UH BZX84J-B9V1TP BZX84J-B56TC BZX84J-C9V1UW BZX84J-C56UK BZX84J-B10S8BZX84J-B62TF BZX84J-C10TR BZX84J-C62UN BZX84J-B11S9BZX84J-B68TG BZX84J-C11TS BZX84J-C68UP BZX84J-B12SA BZX84J-B75TL BZX84J-C12TT BZX84J-C75UT BZX84J-B13SB--BZX84J-C13TU--5.Limiting values[1]t p =100µs; square wave; T j =25°C prior to surge[2]Device mounted on an FR4Printed-Circuit Board (PCB), single-sided copper, tin-plated, mounting pad for cathode 1cm 2.6.Thermal characteristics[1]Device mounted on an FR4PCB, single-sided copper, tin-plated, mounting pad for cathode 1cm 2.[2]Soldering point of cathode tab.7.Characteristics[1]Pulse test: t p ≤300µs;δ≤0.02.Table 5.Limiting valuesIn accordance with the Absolute Maximum Rating System (IEC 60134).Symbol Parameter Conditions Min Max Unit I F forward current-250mAI ZSMnon-repetitive peak reverse current[1]-see Table 8and 9P ZSM non-repetitive peak reverse power dissipation [1]-40W P tot total power dissipation T amb ≤25°C[2]-550mW T j junction temperature -150°C T amb ambient temperature −65+150°C T stgstorage temperature−65+150°CTable 6.Thermal characteristics Symbol ParameterConditions Min Typ Max Unit R th(j-a)thermal resistance from junction to ambient in free air[1]--230K/W R th(j-sp)thermal resistance from junction to solder point[2]--55K/WTable 7.CharacteristicsT j =25°C unless otherwise specified.Symbol Parameter ConditionsMin Typ Max Unit V Fforward voltage[1]I F =10mA --0.9V I F =100mA--1.1VTable 8.Characteristics per type; BZX84J-B2V4 to BZX84J-C24 T j=25°C unless otherwise specified.BZX84J -xxx Sel WorkingvoltageV Z(V)Differentialresistancer dif(Ω)ReversecurrentI R(µA)TemperaturecoefficientS Z(mV/K)DiodecapacitanceC d(pF)[1]Non-repetitivepeak reversecurrentI ZSM(A)[2]I Z=5mA I Z=1mA I Z=5mA I Z=5mAMin Max Max Max Max V R(V)Min Max Max Max2V4B 2.35 2.45400100501−3.5045012C 2.2 2.62V7B 2.65 2.75450100201−3.5044012C 2.5 2.93V0B 2.94 3.0650095101−3.5042512C 2.8 3.23V3B 3.23 3.375009551−3.5041012C 3.1 3.53V6B 3.53 3.675009051−3.5039012C 3.4 3.83V9B 3.82 3.985009031−3.5037012C 3.7 4.14V3B 4.21 4.396009031−3.5035012 C4 4.64V7B 4.61 4.795008032−3.50.232512C 4.455V1B5 5.24806022−2.7 1.230012C 4.8 5.45V6B 5.49 5.714004012−2 2.527512C 5.266V2B 6.08 6.3215010340.4 3.725012C 5.8 6.66V8B 6.66 6.94801524 1.2 4.521512C 6.47.27V5B7.357.65801015 2.5 5.31704 C77.98V2B8.048.3680100.75 3.2 6.21504 C7.78.79V1B8.929.28100100.56 3.871203 C8.59.610B9.810.2150100.27 4.581103 C9.410.611B10.811.2150100.18 5.49108 2.5 C10.411.612B11.812.2150100.18610105 2.5 C11.412.7[1]f =1MHz; V R =0V[2]t p =100µs; square wave; T j =25°C prior to surge13B 12.713.3170100.18711103 2.5C 12.414.115B 14.715.3200150.0510.59.213992C 13.815.616B 15.716.3200200.0511.210.41497 1.5C 15.317.118B 17.618.4225200.0512.612.41693 1.5C 16.819.120B 19.620.4225200.051414.41888 1.5C 18.821.222B 21.622.4250250.0515.416.42084 1.25C 20.823.324B 23.524.5250300.0516.818.422801.25C22.825.6Table 8.Characteristics per type; BZX84J-B2V4 to BZX84J-C24 …continued T j =25°C unless otherwise specified.BZX84J -xxxSel Working voltage V Z (V)Differential resistance r dif (Ω)Reverse current I R (µA)Temperature coefficient S Z (mV/K)Diode capacitance C d(pF)[1]Non-repetitive peak reversecurrent I ZSM (A)[2]I Z =5mA I Z =1mA I Z =5mA I Z =5mAMinMax Max Max Max V R (V)Min Max Max Max[1]f =1MHz; V R =0V[2]t p =100µs; square wave; T j =25°C prior to surgeTable 9.Characteristics per type; BZX84J-B27 to BZX84J-C75T j =25°C unless otherwise specified.BZX84J-xxxSel Working voltage V Z (V)Differential resistance r dif (Ω)Reverse current I R (µA)Temperature coefficient S Z (mV/K)Diode capacitance C d(pF)[1]Non-repetitive peak reversecurrent I ZSM (A)[2]I Z =2mA I Z =0.5mA I Z =2mA I Z =2mAMinMax Max Max Max V R (V)Min Max Max Max 27B 26.527.5250400.0518.921.425.3731C 25.128.930B 29.430.6250400.052124.429.4661C 283233B 32.333.7275400.0523.127.433.4600.9C 313536B 35.336.7300600.0525.230.437.4590.8C 343839B 38.239.8300750.0527.333.441.2580.7C 374143B 42.143.9325800.0530.137.646.6560.6C 404647B 46.147.9325900.0532.94251.8550.5C 445051B 50523501100.0535.746.657.2520.4C 485456B 54.957.13751200.0539.252.263.8490.3C 526062B 60.863.24001400.0543.458.871.6440.3C 586668B 66.669.44001600.0547.665.679.8400.25C 647275B 73.576.54001750.0552.573.488.6350.2C7079(1)T j =25°C (prior to surge)(2)T j =150°C (prior to surge)T j =25°CFig 1.Non-repetitive peak reverse power dissipationas a function of pulse duration; maximum valuesFig 2.Forward current as a function of forwardvoltage; typical valuesBZX84J-B/C2V4 to BZX84J-B/C4V7T j =25°C to 150°CBZX84J-B/C5V1 to BZX84J-B/C15T j =25°C to 150°CFig 3.Temperature coefficient as a function ofworking current; typical values Fig 4.Temperature coefficient as a function ofworking current; typical valuesmbg8011031t p (ms)P ZSM (W)1010210−1101(1)(2)V F (V)0.610.8mbg781100200300I F (mA)0I Z (mA)10−1102101mld444−1−0.5−1.50.5S Z (mV/K)−22V44V74V33V93V63V33V02V7mld4454812S Z (mV/K)−4I Z (mA)10−110210115131211109V15V65V18V27V56V86V2T j =25°CBZX84J-B/C2V7 to BZX84J-B/C8V2All curves have a test current I Z =5mA.T j =25°CBZX84J-B/C10 to BZX84J-B/C36For the curves V Z(nom)=(10, 12, 15, 18, 22)V the test current I Z =5mA.For the curves V Z(nom)=(27, 33, 36)V the test current I Z =2mA.Fig 5.Working current as a function of workingvoltage; typical values Fig 6.Working current as a function of workingvoltage; typical valuesV Z (V)0108462006aaa9962030104050I Z (mA)V Z(nom) (V) = 2.73.33.94.75.66.88.2V Z (V)040301020006aaa99710203051525I Z(mA)0V Z(nom) (V) = 10363327221812158.Package outline9.Packing information[1]For further information and the availability of packing methods, see Section 13.10.SolderingFig 7.Package outline SOD323F (SC-90)04-09-13Dimensions in mm0.800.650.250.100.50.32.72.3 1.81.60.400.251.351.1512Table 10.Packing methodsThe indicated -xxx are the last three digits of the 12NC ordering code.[1]Type numberPackageDescriptionPacking quantity 300010000BZX84J-B2V4to BZX84J-C75SOD323F 4mm pitch, 8mm tape and reel-115-135Reflow soldering is the only recommended soldering method.Dimensions in mmFig 8.Reflow soldering footprint SOD323F (SC-90)msa4331.650.50(2×)2.101.602.800.603.050.500.95solder lands solder resistoccupied area solder paste11.Revision historyTable 11.Revision historyDocument ID Release date Data sheet status Change notice Supersedes BZX84J_SER_120070301Product data sheet--BZX84J_SER_1© NXP B.V . 2007. All rights reserved.Product data sheet Rev. 01 — 1 March 200711 of 1212.Legal information12.1Data sheet status[1]Please consult the most recently issued document before initiating or completing a design.[2]The term ‘short data sheet’ is explained in section “Definitions”.[3]The product status of device(s)described in this document may have changed since this document was published and may differ in case of multiple devices.The latest product status information is available on the Internet at URL .12.2DefinitionsDraft —The document is a draft version only. The content is still under internal review and subject to formal approval, which may result in modifications or additions. NXP Semiconductors does not give any representations or warranties as to the accuracy or completeness ofinformation included herein and shall have no liability for the consequences of use of such information.Short data sheet —A short data sheet is an extract from a full data sheet with the same product type number(s)and title.A short data sheet is intended for quick reference only and should not be relied upon to contain detailed and full information. For detailed and full information see the relevant full data sheet, which is available on request via the local NXP Semiconductors sales office. In case of any inconsistency or conflict with the short data sheet, the full data sheet shall prevail.12.3DisclaimersGeneral —Information in this document is believed to be accurate andreliable.However,NXP Semiconductors does not give any representations or warranties,expressed or implied,as to the accuracy or completeness of such information and shall have no liability for the consequences of use of such information.Right to make changes —NXP Semiconductors reserves the right to make changes to information published in this document, including withoutlimitation specifications and product descriptions, at any time and without notice.This document supersedes and replaces all information supplied prior to the publication hereof.Suitability for use —NXP Semiconductors products are not designed,authorized or warranted to be suitable for use in medical, military, aircraft,space or life support equipment, nor in applications where failure ormalfunction of a NXP Semiconductors product can reasonably be expected to result in personal injury, death or severe property or environmental damage.NXP Semiconductors accepts no liability for inclusion and/or use of NXP Semiconductors products in such equipment or applications and therefore such inclusion and/or use is at the customer’s own risk.Applications —Applications that are described herein for any of these products are for illustrative purposes only. NXP Semiconductors makes no representation or warranty that such applications will be suitable for the specified use without further testing or modification.Limiting values —Stress above one or more limiting values (as defined in the Absolute Maximum Ratings System of IEC 60134)may cause permanent damage to the device.Limiting values are stress ratings only and operation of the device at these or any other conditions above those given in theCharacteristics sections of this document is not implied. Exposure to limiting values for extended periods may affect device reliability.Terms and conditions of sale —NXP Semiconductors products are sold subject to the general terms and conditions of commercial sale,as published at /profile/terms , including those pertaining to warranty,intellectual property rights infringement and limitation of liability, unless explicitly otherwise agreed to in writing by NXP Semiconductors. In case of any inconsistency or conflict between information in this document and such terms and conditions, the latter will prevail.No offer to sell or license —Nothing in this document may be interpreted or construed as an offer to sell products that is open for acceptance or the grant,conveyance or implication of any license under any copyrights,patents or other industrial or intellectual property rights.12.4TrademarksNotice:All referenced brands,product names,service names and trademarks are the property of their respective owners.13.Contact informationFor additional information, please visit:For sales office addresses, send an email to:salesaddresses@Document status [1][2]Product status [3]DefinitionObjective [short] data sheet Development This document contains data from the objective specification for product development.Preliminary [short] data sheet Qualification This document contains data from the preliminary specification.Product [short] data sheetProductionThis document contains the product specification.14.Contents1Product profile. . . . . . . . . . . . . . . . . . . . . . . . . . 11.1General description. . . . . . . . . . . . . . . . . . . . . . 11.2Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11.3Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . 11.4Quick reference data. . . . . . . . . . . . . . . . . . . . . 12Pinning information. . . . . . . . . . . . . . . . . . . . . . 13Ordering information. . . . . . . . . . . . . . . . . . . . . 24Marking. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25Limiting values. . . . . . . . . . . . . . . . . . . . . . . . . . 36Thermal characteristics. . . . . . . . . . . . . . . . . . . 37Characteristics. . . . . . . . . . . . . . . . . . . . . . . . . . 38Package outline . . . . . . . . . . . . . . . . . . . . . . . . . 99Packing information. . . . . . . . . . . . . . . . . . . . . . 910Soldering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 911Revision history. . . . . . . . . . . . . . . . . . . . . . . . 1012Legal information. . . . . . . . . . . . . . . . . . . . . . . 1112.1Data sheet status . . . . . . . . . . . . . . . . . . . . . . 1112.2Definitions. . . . . . . . . . . . . . . . . . . . . . . . . . . . 1112.3Disclaimers. . . . . . . . . . . . . . . . . . . . . . . . . . . 1112.4T rademarks. . . . . . . . . . . . . . . . . . . . . . . . . . . 1113Contact information. . . . . . . . . . . . . . . . . . . . . 1114Contents. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12Please be aware that important notices concerning this document and the product(s)described herein, have been included in section ‘Legal information’.© NXP B.V.2007.All rights reserved.For more information, please visit: For sales office addresses, please send an email to: salesaddresses@Date of release: 1 March 2007Document identifier: BZX84J_SER_1。
贴片W系列三极管参数
X X X N N N N N DN N N N N N N DN N DN N N N N N N N DO UQ N N N DO N N DO I I N N N DP N I N N NN D I
SOT343 SOT343 SOT343 SOT23 SOT323 SOT23 SC75 SOT323 SOT363 SOT23 SC75 SOT323 SOT23 SC75 SOT323 SOT363 SOT23 SOT363 SOT323 SOT23 SOT323 SOT23 SOT323 SC75 SOT457 SOT363 SOT343R SOT23 SOT457 SOT323 SOT363 SOT23 SOT323 SOT363 SOD110 SOD110 SOT23 SC75 SOT323 SOT363 SOT23 SOD110 SOT346 SOT23 SOT323 SOT363 SOD110
Base WQ N DP WQ C C C C C C O C O X WQ X WQ WQ X X X WQ X WQ X X N N N N N DN N N N DN N N N N DN N N DP N
Package SOT343 SOT23 SOT363 SOT343 SOT23 SOT23 SOT23 SOT23 SOT23 SOT23 SOT89 SOT23 SOT89 SOT343 SOT23 SC75 SOT457 SOT323 SOT363 SOT23 SC75 SOT323 SOT363 SOT23 SC75 SOT457 SOT323 SOT363 SOT363 SOT23
12 GHz npn 5mA 4V 12GHz npn 6V 20mA BFP93A (FE) in 6GHz npn npn dig 50V 0.1A 4k7+47k npn dig 50V 0.1A 4k7+47k npn dig 50V 0.1A 2k2+47k npn dig 50V 0.1A 2k2+47k npn dig 50V 0.1A 2k2+47k dual BCR108 pnp dig 50V 0.1A 2k2+47k pnp dig 50V 0.1A 2k2+47k pnp dig 50V 0.1A 2k2+47k npn dig 50V 0.1A 10k+47k npn dig 50V 0.1A 10k+47k npn dig 50V 0.1A 10k+47k dual BCR135 npn dig 50V 0.1A 4k7 npn dig 50V 0.1A 4k7 npn dig 50V 0.1A 4k7 dual npn dig 50V 47k+22k dual npn dig 50V 47k+22k pnp dig 50V 10k+10k pnp dig 50V 10k+10k pnp dig 50V 10k+10k pnp dig 50V 10k+10k dual pnp dig 50V 10k+10k vhf dg mosfet BF988 pnp dig 50V 0.1A 10k+47k pnp dig 50V 0.1A 10k+47k pnp dig 50V 0.1A 10k+47k dual BCR185 pnp dig 50V 0.1A 22k+22k pnp dig 50V 0.1A 22k+22k dual BCR191 0.4W zener 2.4V E24 ±2% 0.4W zener 2.7V E24 ±2% pnp dig 50V 0.1A 22k+47k pnp dig 50V 0.1A 22k+47k pnp dig 50V 0.1A 22k+47k pnp/npn dig 0.1A 22k+22k BRF90A 0.4W zener 3.0V E24 ±2% npn gp 25V 150mA pnp dig 50V 0.1A 47k+47k pnp dig 50V 0.1A 47k+47k dual BCR198 0.4W zener 3.3V E24 ±2%
(整理)贴片稳压二极管详细.
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 0.6AZ5 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%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。
贴片稳压二极管详细 (2)
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 0.6AZ5 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%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。
BZX84C3V3LT1G中文资料
BZX84B4V7LT1,BZX84C2V4LT1 Series Zener Voltage Regulators225 mW SOT−23 Surface MountThis series of Zener diodes is offered in the convenient, surface mount plastic SOT−23 package. These devices are designed to provide voltage regulation with minimum space requirement. They are well suited for applications such as cellular phones, hand held portables,and high density PC boards.Features•Pb−Free Packages are Available•225 mW Rating on FR−4 or FR−5 Board•Zener Breakdown V oltage Range − 2.4 V to 75 V•Package Designed for Optimal Automated Board Assembly •Small Package Size for High Density Applications•ESD Rating of Class 3 (>16 KV) per Human Body Model •Tight Tolerance Series Available (See Page 4)Mechanical CharacteristicsCASE: V oid-free, transfer-molded, thermosetting plastic case FINISH: Corrosion resistant finish, easily SolderableMAXIMUM CASE TEMPERATURE FOR SOLDERING PURPOSES:260°C for 10 SecondsPOLARITY: Cathode indicated by polarity band FLAMMABILITY RATING: UL 94 V−0MAXIMUM RATINGSMaximum ratings are those values beyond which device damage can occur.Maximum ratings applied to the device are individual stress limit values (not normal operating conditions) and are not valid simultaneously. If these limits are exceeded, device functional operation is not implied, damage may occur and reliability may be affected.1.FR−5 = 1.0 X 0.75 X 0.62 in.2.Alumina = 0.4 X 0.3 X 0.024 in., 99.5% alumina.See specific marking information in the device marking column of the Electrical Characteristics table on page 3 of this data sheet.DEVICE MARKING INFORMATION(Pinout: 1-Anode, 2-No Connection, 3-Cathode)(T A = 25°Cunless otherwise noted, V F = 0.95 V Max. @ I F = 10 mA)ELECTRICAL CHARACTERISTICS − BZX84CxxxLT1 SERIES (STANDARD TOLERANCE) (Pinout: 1-Anode, 2-No Connection, 3-Cathode)(T A = 25°C unless otherwise noted, V F = 0.90 V Max. @ I F = 10 mA) (Devices listed in bold, italic are ON Semiconductor Preferred devices.)Z*The “G” suffix indicates Pb−Free package available.ELECTRICAL CHARACTERISTICS − BZX84BxxxL (Tight Tolerance Series)(Pinout: 1-Anode, 2-No Connection, 3-Cathode)(T A = 25°C unless otherwise noted, V F = 0.90 V Max. @ I F = 10 mA)Z*The “G” suffix indicates Pb−Free package available.V Z , T E M P E R A T U R E C O E F F I C I E N T (m V /C )°θV Z , NOMINAL ZENER VOLTAGE (V)− 3− 2012345678Figure 1. Temperature Coefficients (Temperature Range −55°C to +150°C)V Z , T E M P E R A T U R E C O E F F I C I E N T (m V /C )°θ100101V Z , NOMINAL ZENER VOLTAGE (V)Figure 2. Temperature Coefficients (Temperature Range −55°C to +150°C)V Z , NOMINAL ZENER VOLTAGEFigure 3. Effect of Zener Voltage onZener ImpedanceZ Z T , D Y N A M I C I M P E D A N C E ()Ω1000100101V F , FORWARD VOLTAGE (V)Figure 4. Typical Forward VoltageI F , F O R W A R D C U R R E N T (m A )1000100101C , C A P A C I T A N C E (p F )V Z , NOMINAL ZENER VOLTAGE (V)Figure 5. Typical Capacitance 1000100101V Z , ZENER VOLTAGE (V)1001010.10.01I Z , Z E N ER C U R R E N T (m A )V Z , ZENER VOLTAGE (V)1001010.10.01I R , L E A K A G E C U R R E N T (A )µV Z , NOMINAL ZENER VOLTAGE (V)Figure 6. Typical Leakage Current10001001010.10.010.0010.00010.00001I Z , Z E N E R C U R R E N T (m A )Figure 7. Zener Voltage versus Zener Current(V Z Up to 12 V)Figure 8. Zener Voltage versus Zener Current(12 V to 91 V)PACKAGE DIMENSIONSSOT−23TO−236AB CASE 318−09ISSUE AK*For additional information on our Pb−Free strategy and solderingdetails, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D.SOLDERING FOOTPRINT*ǒmm inchesǓSCALE 10:1ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.PUBLICATION ORDERING INFORMATION。
BZX84C18-V中文资料
Document Number Small Signal Zener DiodesFeatures•These diodes are also available in other case styles and other configurationsincluding: the SOD-123 case with type designation BZT52 series, the dual zenerdiode common anode configuration in the SOT-23case with type designation AZ23 series and the dual zener diode common cathode configuration in the SOT-23 case with type designation DZ23series.•The Zener voltages are graded according to the international E 24 standard. Standard Zener volt-age tolerance is ± 5 %. Replace "C" with "B" for ± 2 % tolerance.•Silicon Planar Power Zener Diodes •Lead (Pb)-free component•Component in accordance to RoHS 2002/95/EC and WEEE 2002/96/ECWeight: approx. 8.8 mgPackaging Codes/Options:GS18 / 10 k per 13" reel (8 mm tape), 10 k/box GS08 / 3 k per 7" reel (8 mm tape), 15 k/boxAbsolute Maximum RatingsT amb = 25°C, unless otherwise specified1) Device on fiberglass substrate, see layout.Thermal CharacteristicsT amb = 25°C, unless otherwise specified1)Device on fiberglass substrate, see layout.ParameterT est condition Symbol Value Unit Power dissipationP tot300 1)mWParameterTest condition Symbol Value Unit Thermal resistance junction to ambient air R thJA 420 1)°C/W Junction temperature T j 150°C Storage temperature rangeT S- 65 to + 150°CElectrical CharacteristicsPartnumber MarkingCodeZenerVoltageRangeDynamic Resistance T estCurrentTemp.Coefficientof ZenerVoltageTestCurrentReverse LeakageCurrentV Z @ I ZT1r zj @ I ZT1r zj @ I ZT2I ZT1αVZ @ I ZT1I ZT2I R@ V R VΩmA10-4/°C mAµA Vmin max min maxBZX84C2V4-V Z11 2.2 2.670 (≤100)2755-9.0-4.01501 BZX84C2V7-V Z12 2.5 2.975 (≤100)300 (≤600)5-9.0-4.01201 BZX84C3V0-V Z13 2.8 3.280 (≤95)325 (≤600)5-9.0-3.01101 BZX84C3V3-V Z14 3.1 3.585 (≤95)350 (≤600)5-8.0-3.0151 BZX84C3V6-V Z15 3.4 3.885 (≤90)375 (≤600)5-8.0-3.0151 BZX84C3V9-V Z16 3.7 4.185 (≤90)400 (≤600)5-7.0-3.0131 BZX84C4V3-V Z174 4.680 (≤90)410 (≤600)5-6.0-1.0131 BZX84C4V7-V Z1 4.4550 (≤80)425 (≤500)5-5.0+2.0132 BZX84C5V1-V Z2 4.8 5.440 (≤60)400 (≤480)5-3.0+4.0122 BZX84C5V6-V Z3 5.2615 (≤40)80 (≤400)5-2.0+6.0112 BZX84C6V2-V Z4 5.8 6.6 6.0 (≤10)40 (≤150)5-1.0+7.0134 BZX84C6V8-V Z5 6.47.2 6.0 (≤15)30 (≤80)5+2.0+7.0124 BZX84C7V5-V Z677.9 6.0 (≤15)30 (≤80)5+3.0+7.0115 BZX84C8V2-V Z77.78.7 6.0 (≤15)40 (≤80)5+4.0+7.010.75 BZX84C9V1-V Z88.59.6 6.0 (≤15)40 (≤100)5+5.0+8.010.56 BZX84C10-V Z99.410.68.0 (≤20)50 (≤150)5+5.0+8.010.27 BZX84C11-V Y110.411.610 (≤20)50 (≤150)5+5.0+9.010.18 BZX84C12-V Y211.412.710 (≤25)50 (≤150)5+6.0+9.010.18 BZX84C13-V Y312.414.110 (≤30)50 (≤170)5+7.0+9.010.18 BZX84C15-V Y413.815.610 (≤30)50 (≤200)5+7.0+9.010.050.7 V Znom.BZX84C16-V Y515.317.110 (≤40)50 (≤200)5+8.0+9.510.050.7 V Znom.BZX84C18-V Y616.819.110 (≤45)50 (≤225)5+8.0+9.510.050.7 V Znom.BZX84C20-V Y718.821.215 (≤55)60 (≤225)5+8.0+1010.050.7 V Znom.BZX84C22-V Y820.823.320 (≤55)60 (≤250)5+8.0+1010.050.7 V Znom.BZX84C24-V Y922.825.625 (≤70)60 (≤250)5+8.0+1010.050.7 V Znom.BZX84C27-V Y1025.128.925 (≤80)65 (≤300)2+8.0+100.50.050.7 V Znom.BZX84C30-V Y11283230 (≤80)70 (≤300)2+8.0+100.50.050.7 V Znom.BZX84C33-V Y12313535 (≤80)75 (≤325)2+8.0+100.50.050.7 V Znom.BZX84C36-V Y13343835 (≤90)80 (≤350)2+8.0+100.50.050.7 V Znom.BZX84C39-V Y14374140 (≤130)80 (≤350)2+10+120.50.050.7 V Znom.BZX84C43-V Y15404645 (≤150)85 (≤375)2+10+120.50.050.7 V Znom.BZX84C47-V Y16445050 (≤170)85 (≤375)2+10+120.50.050.7 V Znom.BZX84C51-V Y17485460 (≤180)85 (≤400)2+10+120.50.050.7 V Znom.BZX84C56-V Y18526070 (≤200)100 (≤425)2+9.0+110.50.050.7 V Znom.BZX84C62-V Y19586680 (≤215)100 (≤450)2+9.0+120.50.050.7 V Znom.BZX84C68-V Y20647290 (≤240)150 (≤475)2+10+120.50.050.7 V Znom.BZX84C75-V Y21707995 (≤255)170 (≤500)2+10+120.50.050.7 V Znom. Document Number 85763Document Number Electrical CharacteristicsPartnumberMarking CodeZener Voltage Range Dynamic ResistanceTest CurrentT emp. Coefficient of Zener Voltage T est CurrentReverse LeakageCurrentV Z @ I ZT1r zj @ I ZT1r zj @ I ZT2I ZT1αVZ @ I ZT1I ZT2I R @ V R V ΩmA10-4/°C mAµAVminmax min max BZX84B2V4-V Z50 2.35 2.4570 (≤100)2755-9-41501BZX84B2V7-V Z51 2.65 2.7575 (≤100)300 (≤600)5-9-41201BZX84B3V0-V Z52 2.94 3.0680 (≤95)325 (≤600)5-9-31101BZX84B3V3-V Z53 3.23 3.3785 (≤95)350 (≤600)5-8-3151BZX84B3V6-V Z54 3.53 3.6785 (≤90)375 (≤600)5-8-3151BZX84B3V9-V Z55 3.82 3.9885 (≤90)400 (≤600)5-7-3131BZX84B4V3-V Z56 4.21 4.3980 (≤90)410 (≤600)5-6-1131BZX84B4V7-V Z57 4.61 4.7950 (≤80)425 (≤500)5-52132BZX84B5V1-V Z585 5.240 (≤60)400 (≤480)5-34122BZX84B5V6-V Z59 5.49 5.7115 (≤40)80 (≤400)5-26112BZX84B6V2-V Z60 6.08 6.32 6.0 (≤10)40 (≤150)5-17134BZX84B6V8-V Z61 6.66 6.94 6.0 (≤15)30 (≤80)527124BZX84B7V5-V Z627.357.65 6.0 (≤15)30 (≤80)537115BZX84B8V2-V Z638.048.36 6.0 (≤15)40 (≤80)54710.75BZX84B9V1-V Z648.929.28 6.0 (≤15)40 (≤100)55810.56BZX84B10-V Z659.810.28.0 (≤20)50 (≤150)55810.27BZX84B11-V Z6610.811.210 (≤20)50 (≤150)55910.18BZX84B12-V Z6711.812.210 (≤25)50 (≤150)56910.18BZX84B13-V Z6812.713.310 (≤30)50 (≤170)57910.18BZX84B15-V Z6914.715.310 (≤30)50 (≤200)57910.050.7 V Znom.BZX84B16-V Z7015.716.310 (≤40)50 (≤200)589.510.050.7 V Znom.BZX84B18-V Z7117.618.410 (≤45)50 (≤225)589.510.050.7 V Znom.BZX84B20-V Z7219.620.415 (≤55)60 (≤225)581010.050.7 V Znom.BZX84B22-V Z7321.622.420 (≤55)60 (≤250)581010.050.7 V Znom.BZX84B24-V Z7423.524.525 (≤70)60 (≤250)581010.050.7 V Znom.BZX84B27-V Z7526.527.525 (≤80)65 (≤300)28100.50.050.7 V Znom.BZX84B30-V Z7629.430.630 (≤80)70 (≤300)28100.50.050.7 V Znom.BZX84B33-V Z7732.333.735 (≤80)75 (≤325)28100.50.050.7 V Znom.BZX84B36-V Z7835.336.735 (≤90)80 (≤350)28100.50.050.7 V Znom.BZX84B39-V Z7938.239.840 (≤130)80 (≤350)210120.50.050.7 V Znom.BZX84B43-V Z8042.143.945 (≤150)85 (≤375)210120.50.050.7 V Znom.BZX84B47-V Z8146.147.950 (≤170)85 (≤375)210120.50.050.7 V Znom.BZX84B51-V Z82505260 (≤180)85 (≤400)210120.50.050.7 V Znom.BZX84B56-V Z8354.957.170 (≤200)100 (≤425)29110.50.050.7 V Znom.BZX84B62-V Z8460.863.280 (≤215)100 (≤450)29120.50.050.7 V Znom.BZX84B68-V Z8566.669.490 (≤240)150 (≤475)210120.50.050.7 V Znom.BZX84B75-VZ8673.576.595 (≤255)170 (≤500)210120.50.050.7 V Znom. Document Number 85763Typical Characteristics (Tamb = 25 °C unless otherwise specified)Figure 1. Forward characteristics Figure 2. Admissible Power Dissipation vs. Ambient Temperature Figure3. Pulse Thermal Resistance vs. Pulse Duration1811418115Figure 4. Dynamic Resistance vs. Zener CurrentFigure 5. Capacitance vs. Zener VoltageFigure6. Dynamic Resistance vs. Zener Current1811718118Document Number Figure 7. Dynamic Resistance vs. Zener CurrentFigure 8. Thermal Differential Resistance vs. Zener Voltage Figure9. Dynamic Resistance vs. Zener Voltage18120Figure 10. Temperature Dependence of Zener Voltage vs. ZenerVoltageFigure 11. Change of Zener Voltage vs. Junction TemperatureFigure 12. Temperature Dependence of Zener Voltage vs. ZenerVoltage18124°C18136 Document Number 85763Figure 13. Change of Zener Voltage vs. Junction TemperatureFigure 14. Change of Zener voltage from turn-on up to the point ofthermal equilibrium vs. Zener voltageFigure 15. Change of Zener voltage from turn-on up to the point ofthermal equilibrium vs. Zener voltage181261813718138Document Number Figure 16. Breakdown CharacteristicsFigure17. Breakdown Characteristics1811118112 Document Number 85763Layout for R Theta;JA testThickness: Fiberglass 0.059 in. (1.5 mm)Copper leads 0.012 in. (0.3 mm)Figure18. Breakdown Characteristics18113Package Dimensions in mm (Inches)Document Number Ozone 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 associated with such unintended or unauthorized use.Vishay Semiconductor GmbH, P.O.B. 3535, D-74025 Heilbronn, Germany Document Number 85763。
LBZX84XXXXLT1G中文资料
LBZX84XXXXLT1GSERIES132SOT– 23 (TO–236AB)PLASTICTHERMAL CHARACTERISTICSCharacteristicSymbol Max Unit Total Device Dissipation FR-5 Board* P D225mW T A = 25°CDerate above 25°C1.8 mW/°C Thermal Resistance Junction to Ambient R QJA 556°C/W Total Device DissipationP D300mW Alumina Substrate,** T A = 25°C Derate above 25°C2.4mW/°C Thermal Resistance Junction to Ambient R QJA 417 °C/W Junction and Storage T emeprature T J , T stg150°C**FR-5 = 1.0 x 0.75 x 0.62 in.**Alumina = 0.4 x 0.3 x 0.024 in. 99.5% alumina.Zener Voltage Regulator DiodesMAXIMUM CASE TEMPERATURE FOR SOLDERING PURPOSES: 260°C for 10 secondsLESHAN RADIO COMPANY, LTD.Ordering InformationDevicePackageShipping LBZX84XXXXLT1G SOT-233000/Tape&Reel LBZX84XXXXLT3GSOT-2310000/Tape&Reelƽ We declare that the material of productcompliance with RoHS requirements.GENERAL DATA — 225mW SOT-23LESHAN RADIO COMPANY, LTD.ELECTRICAL CHARACTERISTICS − BZX84CxxxLT1 SERIES (STANDARD TOLERANCE)(Pinout: 1-Anode, 2-No Connection, 3-Cathode) (T A = 25°C unless otherwise noted, V F = 0.90 V Max. @ I F = 10 mA)(Devices listed in bold, italic are ON Semiconductor Preferred devices.)Device*Device Marking V Z1 (Volts)@I ZT1=5mA (Note 3)Z ZT1(W )@ I ZT1 =5 mA V Z2 (V)@I ZT2=1mA (Note 3)Z ZT2(W )@ I ZT2 =10 mA V Z3 (V)@I ZT3=20mA(Note 3)Z ZT3(W )@ I ZT3 =20 mA Max Reverse Leakage Current q VZ (mV/k)@ I ZT1 = 5 mA C (pF)@ V R = 0f = 1 MHz Min Nom Max Min Max Min Max V R VoltsI R m A @Min Max LBZX84C2V4LT1G Z11 2.2 2.4 2.6100 1.7 2.1600 2.6 3.250501−3.50450LBZX84C2V7LT1G Z12 2.5 2.7 2.9100 1.9 2.46003 3.650201−3.50450LBZX84C3V0LT1G Z13 2.83 3.295 2.1 2.7600 3.3 3.950101−3.50450LBZX84C3V3LT1G Z14 3.1 3.3 3.595 2.3 2.9600 3.6 4.24051−3.50450LBZX84C3V6LT1G Z15 3.4 3.6 3.890 2.7 3.3600 3.9 4.54051−3.50450LBZX84C3V9LT1G Z16 3.7 3.9 4.190 2.9 3.5600 4.1 4.73031−3.5−2.5450LBZX84C4V3LT1G W94 4.3 4.690 3.34600 4.4 5.13031−3.50450LBZX84C4V7LT1G Z1 4.4 4.7580 3.7 4.7500 4.5 5.41532−3.50.2260LBZX84C5V1LT1G Z2 4.8 5.1 5.460 4.2 5.34805 5.91522−2.7 1.2225LBZX84C5V6LT1G Z3 5.2 5.6640 4.86400 5.2 6.31012−2.0 2.5200LBZX84C6V2LT1G Z4 5.8 6.2 6.610 5.6 6.6150 5.8 6.86340.4 3.7185LBZX84C6V8LT1G Z5 6.4 6.87.215 6.37.280 6.47.4624 1.2 4.5155LBZX84C7V5LT1G Z677.57.915 6.97.98078615 2.5 5.3140LBZX84C8V2LT1G Z77.78.28.7157.68.7807.78.860.75 3.2 6.2135LBZX84C9V1LT1G Z88.59.19.6158.49.61008.59.780.56 3.87.0130LBZX84C10LT1G Z99.41010.6209.310.61509.410.7100.27 4.58.0130LBZX84C11LT1G Y110.41111.62010.211.615010.411.8100.18 5.49.0130LBZX84C12LT1G Y211.41212.72511.212.715011.412.9100.18 6.010.0130LBZX84C13LT1G Y312.41314.13012.31417012.514.2150.187.011.0120LBZX84C15LT1G Y413.81515.63013.715.520013.915.7200.0510.59.213.0110LBZX84C16LT1G Y515.31617.14015.21720015.417.2200.0511.210.414.0105LBZX84C18LT1G Y616.81819.14516.71922516.919.2200.0512.612.416.0100LBZX84C20LT1G Y718.82021.25518.721.122518.921.4200.051414.418.085LBZX84C22LT1G Y820.82223.35520.723.225020.923.4250.0515.416.420.085LBZX84C24LT1GY922.82425.67022.725.525022.925.7250.0516.818.422.080DeviceDevice Marking V Z1 Below @I ZT1=2mAZ ZT1Below @ I ZT1 =2 mA V Z2 Below @I ZT2=0.1m-A Z ZT2Below @ I ZT4 =0.5 mA V Z3 Below @I ZT3=10mA Z ZT3Below @ I ZT3 =10 mA Max Reverse Leakage Current q VZ(mV/k) Below @ I ZT1 = 2 mA C (pF)@ V R = 0f = 1 MHzMin Nom Max Min Max Min Max V R (V)I R m A @Min Max LBZX84C27LT1G Y1025.12728.9802528.930025.229.3450.0518.921.425.370LBZX84C30LT1G Y112830328027.83230028.132.4500.052124.429.470LBZX84C33LT1G Y123133358030.83532531.135.4550.0523.127.433.470LBZX84C36LT1G Y133436389033.83835034.138.4600.0525.230.437.470LBZX84C39LT1G Y1437394113036.74135037.141.5700.0527.333.441.245LBZX84C43LT1G Y1540434615039.74637540.146.5800.0530.137.646.640LBZX84C47LT1G Y1644475017043.75037544.150.5900.0532.942.051.840LBZX84C51LT1G Y1748515418047.65440048.154.61000.0535.746.657.240LBZX84C56LT1G Y1852566020051.56042552.160.81100.0539.252.263.840LBZX84C62LT1G Y1958626621557.46645058.2671200.0543.458.871.635LBZX84C68LT1G Y2064687224063.47247564.273.21300.0547.665.679.835LBZX84C75LT1GY2170757925569.47950070.380.21400.0552.573.488.635Zener voltage is measured with a pulse test current I Z at an ambient temperature of 25°C.TYPICAL CHARACTERISICSGENERAL DATA — 225mW SOT –23876543210-1-2-323456789101112100101101001K1001011101000.40.50.60.70.80.91.01.11.2V Z , NOMINAL ZENER VOLTAGE (V)Figure 1. Temperature Coefficients (Temperature Range –55°C to +150°C)V Z , NOMINAL ZENER VOLTAGE (V)Figure 2. Temperature Coefficients (Temperature Range –55°C to +150°C)V Z , NOMINAL ZENER VOLTAGEFigure 3. Effect of Zener Voltage onZener ImpedanceV F , FORWARD VOLTAGE (V)Figure 4. Typical Forward Voltageθ V Z , T E M P E R A T U R E C O E F F I C I E N T (m V / °C )θ V Z , T E M P E R A T U R E C O E F F I C I E N T (m V / ° C )Z Z T , D Y N A M I C I M P E D A N C E (Ω)I F , F O R W A R D C U R R E N T (m A )V Z @ I ZTTYPICAL T C VALUES FOR MMBZ5221BLT1S E R I E STYPICAL T C VALUESFOR MMBZ5221BLT1S E R I E ST J = 25°CI Z(AC) = 0.1 I Z(DC)f = 1 kHzV Z @ I ZTI Z = 1 mA5 mA 20 mA1000100101150°C75 V (MMBZ5267BLT1)91 V (MMBZ5270BLT1)75°C 25°C0°CLESHAN RADIO COMPANY, LTD.TYPICAL CHARACTERISICSGENERAL DATA — 225mW SOT –23100010010111010010001001010.10.010.0010.00010.0000101020304050607080901001010.1002468101210305070901001010.10.01BIAS AT50% OF V Z NOMV Z , NOMINAL ZENER VOLTAGE (V)Figure 5. Typical Capacitance V Z , NOMINAL ZENER VOLTAGE (V)Figure 6. Typical Leakage CurrentV Z , ZENER VOLTAGE (V)Figure 7. Zener Voltage versus Zener Current(V Z Up to 12 V)V Z , ZENER VOLTAGE (V)Figure 8. Zener Voltage versus Zener Current(12 V to 91 V)T A = 25°C0 V BIAS 1 V BIAST A = 25°CT A = 25°C+150°C+25°C –55°CC , C A P A C I T A N C E (p F )I R , L E A K A G E C U R R E N T (µA )I Z , Z E N E R C U R R E N T (m A )I Z , Z E N E R C U R R E N T (m A )LESHAN RADIO COMPANY, LTD.GENERAL DATA — 225 mW SOT-23225 mW SOT-23Zener Voltage Regulator Diodes — Surface MountedMULTIPLE PACKAGE QUANTITY (MPQ)REQUIREMENTSNOTES:1. DIMENSIONING AND TOLERANCING PER ANSI Y14.5M, 1982.2. CONTROLLING DIMENSION: INCH.3. MAXIMUM LEAD THICKNESS INCLUDES LEAD FINISH THICKNESS. MINIMUM LEAD THICKNESS IS THE MINIMUM THICKNESS OF BASE MATERIAL.A B C D G H J K L S VI N C H E S MILLIMETERS D I M M I N M A X M I N M A X 2.801.200.890.371.780.0130.0850.450.892.100.453.041.401.110.502.040.1000.1770.601.022.500.600.11020.04720.03500.01500.07010.00050.00340.01800.03500.08300.01770.11970.05510.04400.02000.08070.00400.00700.02360.04010.09840.0236(Refer to Section 10 for Surface Mount, Thermal Data and Footprint Information.)SOT-23 FootprintA LSVG123CKJB DHSTYLE 8:PIN 1. ANODE2. NO CONNECTION3. CATHODEinches mm ()0.0370.950.0370.950.0792.00.0350.90.0310.8(Refer to Section 10 for more information on Packaging Specifications.)Package Option Type No. SuffixMPQ (Units)Tape and Reel T13K Tape and AmmoT310KLESHAN RADIO COMPANY, LTD.Reel DimensionsMetric Dimensions Govern –– English are in parentheses for reference onlyEMBOSSED TAPE AND REEL DATAFOR DISCRETESAT MaxOutside Dimension Measured at EdgeGInside Dimension Measured Near Hub20.2mm Min (.795’’)1.5mm Min(.06’’)13.0mm ± 0.5mm(.512 ±.002’’)50mm Min (1.969’’)Full RadiusSize A Max GT Max 8 mm330mm (12.992’’)8.4mm+1.5mm, -0.0(.33’’+.059’’, -0.00)14.4mm (.56’’)LESHAN RADIO COMPANY, LTD.Storage ConditionsTemperature: 5 to 40 Deg.C (20 to 30 Deg. C is preferred) Humidity: 30 to 80 RH (40 to 60 is preferred )Recommended Period: One year after manufacturing(This recommended period is for the soldering condition only. The characteristics and reliabilities of the products are not restricted to this limitation)元器件交易网Shi p ment S p ecification10 Reel12 Inner Box/Carton 360KPCS/CartonDim(Unit:mm)Dim(Unit:mm)10Reel/Inner Box30KPCS/Inner Box460mm*400mm*420mm8000PCS/Reel (SOT-723,SOD-723)3000PCS/Reel80KPCS/Inner Box (SOT-723,SOD-723)960KPCS/Carton (SOT-723,SOD-723)LESHAN RADIO COMPANY, LTD.元器件交易网。
BZX384-B3V9中文资料
Temp. Coefficient of Zener Voltage at IZT1
Test Current IZT1 (mA) 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 2 2 2 2 2 2 2 2 2 2 2 2
Dynamic Resistance at IZT2 rzj (Ω) 275 300 (≤600) 325 (≤600) 350 (≤600) 375 (≤600) 400 (≤600) 410 (≤600) 425 (≤500) 400 (≤480) 80 (≤400) 40 (≤150) 30 (≤80) 30 (≤80) 40 (≤80) 40 (≤100) 50 (≤150) 50 (≤150) 50 (≤150) 50 (≤170) 50 (≤200) 50 (≤200) 50 (≤225) 60 (≤225) 60 (≤250) 60 (≤250) 65 (≤300) 70 (≤300) 75 (≤325) 80 (≤350) 80 (≤350) 85 (≤375) 85 (≤375) 85 (≤400) 100 (≤425) 100 (≤450) 150 (≤475) 170 (≤500)
V
元器件交易网
RATINGS AND CHARACTERISTICS CURVES BZX384-C2V4 THRU BZX384-C75
元器件交易网
RATINGS AND CHARACTERISTICS CURVES BZX384-C2V4 THRU BZX384-C75
IZT2 (mA) 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5
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Document Number Small Signal Zener DiodesFeatures•These diodes are also available in other case styles and other configurationsincluding: the SOD-123 case with type designation BZT52 series, the dual zenerdiode common anode configuration in the SOT-23case with type designation AZ23 series and the dual zener diode common cathode configuration in the SOT-23 case with type designation DZ23series.•The Zener voltages are graded according to the international E 24 standard. Standard Zener volt-age tolerance is ± 5 %. Replace "C" with "B" for ± 2 % tolerance.•Silicon Planar Power Zener Diodes •Lead (Pb)-free component•Component in accordance to RoHS 2002/95/EC and WEEE 2002/96/ECWeight: approx. 8.8 mgPackaging Codes/Options:GS18 / 10 k per 13" reel (8 mm tape), 10 k/box GS08 / 3 k per 7" reel (8 mm tape), 15 k/boxAbsolute Maximum RatingsT amb = 25°C, unless otherwise specified1) Device on fiberglass substrate, see layout.Thermal CharacteristicsT amb = 25°C, unless otherwise specified1)Device on fiberglass substrate, see layout.ParameterT est condition Symbol Value Unit Power dissipationP tot300 1)mWParameterTest condition Symbol Value Unit Thermal resistance junction to ambient air R thJA 420 1)°C/W Junction temperature T j 150°C Storage temperature rangeT S- 65 to + 150°CElectrical CharacteristicsPartnumber MarkingCodeZenerVoltageRangeDynamic Resistance T estCurrentTemp.Coefficientof ZenerVoltageTestCurrentReverse LeakageCurrentV Z @ I ZT1r zj @ I ZT1r zj @ I ZT2I ZT1αVZ @ I ZT1I ZT2I R@ V R VΩmA10-4/°C mAµA Vmin max min maxBZX84C2V4-V Z11 2.2 2.670 (≤100)2755-9.0-4.01501 BZX84C2V7-V Z12 2.5 2.975 (≤100)300 (≤600)5-9.0-4.01201 BZX84C3V0-V Z13 2.8 3.280 (≤95)325 (≤600)5-9.0-3.01101 BZX84C3V3-V Z14 3.1 3.585 (≤95)350 (≤600)5-8.0-3.0151 BZX84C3V6-V Z15 3.4 3.885 (≤90)375 (≤600)5-8.0-3.0151 BZX84C3V9-V Z16 3.7 4.185 (≤90)400 (≤600)5-7.0-3.0131 BZX84C4V3-V Z174 4.680 (≤90)410 (≤600)5-6.0-1.0131 BZX84C4V7-V Z1 4.4550 (≤80)425 (≤500)5-5.0+2.0132 BZX84C5V1-V Z2 4.8 5.440 (≤60)400 (≤480)5-3.0+4.0122 BZX84C5V6-V Z3 5.2615 (≤40)80 (≤400)5-2.0+6.0112 BZX84C6V2-V Z4 5.8 6.6 6.0 (≤10)40 (≤150)5-1.0+7.0134 BZX84C6V8-V Z5 6.47.2 6.0 (≤15)30 (≤80)5+2.0+7.0124 BZX84C7V5-V Z677.9 6.0 (≤15)30 (≤80)5+3.0+7.0115 BZX84C8V2-V Z77.78.7 6.0 (≤15)40 (≤80)5+4.0+7.010.75 BZX84C9V1-V Z88.59.6 6.0 (≤15)40 (≤100)5+5.0+8.010.56 BZX84C10-V Z99.410.68.0 (≤20)50 (≤150)5+5.0+8.010.27 BZX84C11-V Y110.411.610 (≤20)50 (≤150)5+5.0+9.010.18 BZX84C12-V Y211.412.710 (≤25)50 (≤150)5+6.0+9.010.18 BZX84C13-V Y312.414.110 (≤30)50 (≤170)5+7.0+9.010.18 BZX84C15-V Y413.815.610 (≤30)50 (≤200)5+7.0+9.010.050.7 V Znom.BZX84C16-V Y515.317.110 (≤40)50 (≤200)5+8.0+9.510.050.7 V Znom.BZX84C18-V Y616.819.110 (≤45)50 (≤225)5+8.0+9.510.050.7 V Znom.BZX84C20-V Y718.821.215 (≤55)60 (≤225)5+8.0+1010.050.7 V Znom.BZX84C22-V Y820.823.320 (≤55)60 (≤250)5+8.0+1010.050.7 V Znom.BZX84C24-V Y922.825.625 (≤70)60 (≤250)5+8.0+1010.050.7 V Znom.BZX84C27-V Y1025.128.925 (≤80)65 (≤300)2+8.0+100.50.050.7 V Znom.BZX84C30-V Y11283230 (≤80)70 (≤300)2+8.0+100.50.050.7 V Znom.BZX84C33-V Y12313535 (≤80)75 (≤325)2+8.0+100.50.050.7 V Znom.BZX84C36-V Y13343835 (≤90)80 (≤350)2+8.0+100.50.050.7 V Znom.BZX84C39-V Y14374140 (≤130)80 (≤350)2+10+120.50.050.7 V Znom.BZX84C43-V Y15404645 (≤150)85 (≤375)2+10+120.50.050.7 V Znom.BZX84C47-V Y16445050 (≤170)85 (≤375)2+10+120.50.050.7 V Znom.BZX84C51-V Y17485460 (≤180)85 (≤400)2+10+120.50.050.7 V Znom.BZX84C56-V Y18526070 (≤200)100 (≤425)2+9.0+110.50.050.7 V Znom.BZX84C62-V Y19586680 (≤215)100 (≤450)2+9.0+120.50.050.7 V Znom.BZX84C68-V Y20647290 (≤240)150 (≤475)2+10+120.50.050.7 V Znom.BZX84C75-V Y21707995 (≤255)170 (≤500)2+10+120.50.050.7 V Znom. Document Number 85763Document Number Electrical CharacteristicsPartnumberMarking CodeZener Voltage Range Dynamic ResistanceTest CurrentT emp. Coefficient of Zener Voltage T est CurrentReverse LeakageCurrentV Z @ I ZT1r zj @ I ZT1r zj @ I ZT2I ZT1αVZ @ I ZT1I ZT2I R @ V R V ΩmA10-4/°C mAµAVminmax min max BZX84B2V4-V Z50 2.35 2.4570 (≤100)2755-9-41501BZX84B2V7-V Z51 2.65 2.7575 (≤100)300 (≤600)5-9-41201BZX84B3V0-V Z52 2.94 3.0680 (≤95)325 (≤600)5-9-31101BZX84B3V3-V Z53 3.23 3.3785 (≤95)350 (≤600)5-8-3151BZX84B3V6-V Z54 3.53 3.6785 (≤90)375 (≤600)5-8-3151BZX84B3V9-V Z55 3.82 3.9885 (≤90)400 (≤600)5-7-3131BZX84B4V3-V Z56 4.21 4.3980 (≤90)410 (≤600)5-6-1131BZX84B4V7-V Z57 4.61 4.7950 (≤80)425 (≤500)5-52132BZX84B5V1-V Z585 5.240 (≤60)400 (≤480)5-34122BZX84B5V6-V Z59 5.49 5.7115 (≤40)80 (≤400)5-26112BZX84B6V2-V Z60 6.08 6.32 6.0 (≤10)40 (≤150)5-17134BZX84B6V8-V Z61 6.66 6.94 6.0 (≤15)30 (≤80)527124BZX84B7V5-V Z627.357.65 6.0 (≤15)30 (≤80)537115BZX84B8V2-V Z638.048.36 6.0 (≤15)40 (≤80)54710.75BZX84B9V1-V Z648.929.28 6.0 (≤15)40 (≤100)55810.56BZX84B10-V Z659.810.28.0 (≤20)50 (≤150)55810.27BZX84B11-V Z6610.811.210 (≤20)50 (≤150)55910.18BZX84B12-V Z6711.812.210 (≤25)50 (≤150)56910.18BZX84B13-V Z6812.713.310 (≤30)50 (≤170)57910.18BZX84B15-V Z6914.715.310 (≤30)50 (≤200)57910.050.7 V Znom.BZX84B16-V Z7015.716.310 (≤40)50 (≤200)589.510.050.7 V Znom.BZX84B18-V Z7117.618.410 (≤45)50 (≤225)589.510.050.7 V Znom.BZX84B20-V Z7219.620.415 (≤55)60 (≤225)581010.050.7 V Znom.BZX84B22-V Z7321.622.420 (≤55)60 (≤250)581010.050.7 V Znom.BZX84B24-V Z7423.524.525 (≤70)60 (≤250)581010.050.7 V Znom.BZX84B27-V Z7526.527.525 (≤80)65 (≤300)28100.50.050.7 V Znom.BZX84B30-V Z7629.430.630 (≤80)70 (≤300)28100.50.050.7 V Znom.BZX84B33-V Z7732.333.735 (≤80)75 (≤325)28100.50.050.7 V Znom.BZX84B36-V Z7835.336.735 (≤90)80 (≤350)28100.50.050.7 V Znom.BZX84B39-V Z7938.239.840 (≤130)80 (≤350)210120.50.050.7 V Znom.BZX84B43-V Z8042.143.945 (≤150)85 (≤375)210120.50.050.7 V Znom.BZX84B47-V Z8146.147.950 (≤170)85 (≤375)210120.50.050.7 V Znom.BZX84B51-V Z82505260 (≤180)85 (≤400)210120.50.050.7 V Znom.BZX84B56-V Z8354.957.170 (≤200)100 (≤425)29110.50.050.7 V Znom.BZX84B62-V Z8460.863.280 (≤215)100 (≤450)29120.50.050.7 V Znom.BZX84B68-V Z8566.669.490 (≤240)150 (≤475)210120.50.050.7 V Znom.BZX84B75-VZ8673.576.595 (≤255)170 (≤500)210120.50.050.7 V Znom. Document Number 85763Typical Characteristics (Tamb = 25 °C unless otherwise specified)Figure 1. Forward characteristics Figure 2. Admissible Power Dissipation vs. Ambient Temperature Figure3. Pulse Thermal Resistance vs. Pulse Duration1811418115Figure 4. Dynamic Resistance vs. Zener CurrentFigure 5. Capacitance vs. Zener VoltageFigure6. Dynamic Resistance vs. Zener Current1811718118Document Number Figure 7. Dynamic Resistance vs. Zener CurrentFigure 8. Thermal Differential Resistance vs. Zener Voltage Figure9. Dynamic Resistance vs. Zener Voltage18120Figure 10. Temperature Dependence of Zener Voltage vs. ZenerVoltageFigure 11. Change of Zener Voltage vs. Junction TemperatureFigure 12. Temperature Dependence of Zener Voltage vs. ZenerVoltage18124°C18136 Document Number 85763Figure 13. Change of Zener Voltage vs. Junction TemperatureFigure 14. Change of Zener voltage from turn-on up to the point ofthermal equilibrium vs. Zener voltageFigure 15. Change of Zener voltage from turn-on up to the point ofthermal equilibrium vs. Zener voltage181261813718138Document Number Figure 16. Breakdown CharacteristicsFigure17. Breakdown Characteristics1811118112 Document Number 85763Layout for R Theta;JA testThickness: Fiberglass 0.059 in. (1.5 mm)Copper leads 0.012 in. (0.3 mm)Figure18. Breakdown Characteristics18113Package Dimensions in mm (Inches)Document Number Ozone 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. 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