Microsemi Corporation JANTX1N4623-1
- Part Number:
- JANTX1N4623-1
- Manufacturer:
- Microsemi Corporation
- Ventron No:
- 2439131-JANTX1N4623-1
- Description:
- DIODE ZENER 4.3V 500MW DO35
Microsemi Corporation JANTX1N4623-1 technical specifications, attributes, parameters and parts with similar specifications to Microsemi Corporation JANTX1N4623-1.
- Lifecycle StatusIN PRODUCTION (Last Updated: 1 month ago)
- Factory Lead Time14 Weeks
- MountThrough Hole
- Mounting TypeThrough Hole
- Package / CaseDO-204AH, DO-35, Axial
- Number of Pins2
- Diode Element MaterialSILICON
- Operating Temperature-65°C~175°C
- PackagingBulk
- SeriesMilitary, MIL-PRF-19500/435
- Tolerance±5%
- JESD-609 Codee0
- Pbfree Codeno
- Part StatusActive
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Number of Terminations2
- ECCN CodeEAR99
- Terminal FinishTIN LEAD
- Additional FeatureMETALLURGICALLY BONDED
- HTS Code8541.10.00.50
- Max Power Dissipation500mW
- TechnologyZENER
- Terminal FormWIRE
- Base Part Number1N4623
- Pin Count2
- Reference StandardMIL
- Number of Elements1
- PolarityUNIDIRECTIONAL
- Impedance1.6kOhm
- Element ConfigurationSingle
- Diode TypeZENER DIODE
- Current - Reverse Leakage @ Vr4μA @ 2V
- Power Dissipation480mW
- Voltage - Forward (Vf) (Max) @ If1.1V @ 200mA
- Case ConnectionISOLATED
- Max Reverse Leakage Current4μA
- Impedance-Max1.6kOhm
- Test Current250μA
- Reference Voltage4.3V
- Zener Voltage4.3V
- Voltage Tol-Max5%
- Voltage Tolerance5%
- Radiation HardeningNo
- RoHS StatusNon-RoHS Compliant
- Lead FreeContains Lead
JANTX1N4623-1 Overview
The reverse leakage current for this electrical device should be 4μA @ 2V.5% indicates the maximum possible voltage (Tol) of 5%.A maximum reverse leakage current of 4μA is observed.For its operation, maximum voltage - Forward (Vf) 1.1V @ 200mA is provided.
JANTX1N4623-1 Features
reverse leakage current of 4μA @ 2V
4μA @ 2V is the maximum voltage (Tol)
Reverse leakage current reaches 4μA
JANTX1N4623-1 Applications
There are a lot of Microsemi Corporation
JANTX1N4623-1 applications of zener single diodes.
The reverse leakage current for this electrical device should be 4μA @ 2V.5% indicates the maximum possible voltage (Tol) of 5%.A maximum reverse leakage current of 4μA is observed.For its operation, maximum voltage - Forward (Vf) 1.1V @ 200mA is provided.
JANTX1N4623-1 Features
reverse leakage current of 4μA @ 2V
4μA @ 2V is the maximum voltage (Tol)
Reverse leakage current reaches 4μA
JANTX1N4623-1 Applications
There are a lot of Microsemi Corporation
JANTX1N4623-1 applications of zener single diodes.
JANTX1N4623-1 More Descriptions
Metallurgically Bonded Glass Zener Diode 4.3V 500mW 5% 2-Pin DO-204AH
Zener Diode Single 4.3V 5% 1600Ohm 500mW 2-Pin DO-35 Bag
1N4623-1 Series 4.3 V 500 mW Metallurgically Bonded Glass Zener Diode - DO-35
Voltage Regulator Do-35 Rohs Compliant: Yes |Microchip JANTX1N4623-1
DIODE ZENER 8.2V 500MW DO213AB
Zener Diode Single 4.3V 5% 1600Ohm 500mW 2-Pin DO-35 Bag
1N4623-1 Series 4.3 V 500 mW Metallurgically Bonded Glass Zener Diode - DO-35
Voltage Regulator Do-35 Rohs Compliant: Yes |Microchip JANTX1N4623-1
DIODE ZENER 8.2V 500MW DO213AB
The three parts on the right have similar specifications to JANTX1N4623-1.
-
ImagePart NumberManufacturerLifecycle StatusFactory Lead TimeMountMounting TypePackage / CaseNumber of PinsDiode Element MaterialOperating TemperaturePackagingSeriesToleranceJESD-609 CodePbfree CodePart StatusMoisture Sensitivity Level (MSL)Number of TerminationsECCN CodeTerminal FinishAdditional FeatureHTS CodeMax Power DissipationTechnologyTerminal FormBase Part NumberPin CountReference StandardNumber of ElementsPolarityImpedanceElement ConfigurationDiode TypeCurrent - Reverse Leakage @ VrPower DissipationVoltage - Forward (Vf) (Max) @ IfCase ConnectionMax Reverse Leakage CurrentImpedance-MaxTest CurrentReference VoltageZener VoltageVoltage Tol-MaxVoltage ToleranceRadiation HardeningRoHS StatusLead FreePublishedTerminal PositionJESD-30 CodeQualification StatusPower - MaxWorking Test CurrentView Compare
-
JANTX1N4623-1IN PRODUCTION (Last Updated: 1 month ago)14 WeeksThrough HoleThrough HoleDO-204AH, DO-35, Axial2SILICON-65°C~175°CBulkMilitary, MIL-PRF-19500/435±5%e0noActive1 (Unlimited)2EAR99TIN LEADMETALLURGICALLY BONDED8541.10.00.50500mWZENERWIRE1N46232MIL1UNIDIRECTIONAL1.6kOhmSingleZENER DIODE4μA @ 2V480mW1.1V @ 200mAISOLATED4μA1.6kOhm250μA4.3V4.3V5%5%NoNon-RoHS CompliantContains Lead-------
-
IN PRODUCTION (Last Updated: 1 month ago)-StudStud MountDO-203AA, DO-4, Stud2SILICON-65°C~175°CBulkMilitary, MIL-PRF-19500/124±5%e0noActive1 (Unlimited)1EAR99Tin/Lead (Sn/Pb)-8541.10.00.5010WZENERSOLDER LUG-1-1UNIDIRECTIONAL-SingleZENER DIODE10μA @ 42.6V10W1.5V @ 2A-10μA16Ohm45mA56V56V5%5%NoNon-RoHS Compliant-1999UPPERO-MUPM-D1Qualified--
-
IN PRODUCTION (Last Updated: 4 weeks ago)-Through HoleThrough HoleTO-204AD-SILICON-65°C~175°CBulkMilitary, MIL-PRF-19500/114±5%e0noActive1 (Unlimited)2EAR99Tin/Lead (Sn/Pb) - with Nickel (Ni) barrier-8541.10.00.5050WZENERPIN/PEG-2MIL-19500/1141UNIDIRECTIONAL-SingleZENER DIODE25μA @ 6.1V50W1.5V @ 10A-25μA0.5Ohm1.37A9.1V9.1V5%5%NoNon-RoHS Compliant-1999BOTTOMO-MBFM-P2Qualified--
-
IN PRODUCTION (Last Updated: 3 weeks ago)14 WeeksSurface MountSurface MountDO-213AB, MELF (Glass)2SILICON-55°C~175°CBulkMilitary, MIL-PRF-19500/115±5%e0noDiscontinued1 (Unlimited)2EAR99Tin/Lead (Sn/Pb)METALLURGICALLY BONDED8541.10.00.501.25WZENERWRAP AROUND-2MIL-19500/115K1UNIDIRECTIONAL-SingleZENER DIODE150μA @ 5.2V-1.2V @ 200mAISOLATED5μA3.5Ohm-6.8V6.8V5%-NoNon-RoHS Compliant-1999END-Qualified1W37mA
Popular Search Part Number
Related Keywords
Search Tags
Latest News
-
26 February 2024
STM32F407VGT6 Microcontroller Replacements, Application Fields and Package
Ⅰ. STM32F407VGT6 overviewⅡ. STM32F407VGT6 parameter conditionsⅢ. STM32F407VGT6 application areasⅣ. Package of STM32F407VGT6Ⅴ. Hardware design and software design of STM32F407VGT6 microcontrollerⅥ. Absolute maximum ratings of STM32F407VGT6Ⅶ. How to evaluate... -
27 February 2024
LD7575PS Manufacturer, Advantages and Disadvantages and Other Details
Ⅰ. What is LD7575PS?Ⅱ. Pins and functions of LD7575PSⅢ. Manufacturer of LD7575PSⅣ. How does LD7575PS achieve stable output voltage?Ⅴ. Block diagram of LD7575PSⅥ. What is the performance of... -
27 February 2024
BQ32000DR Structure, Technical Parameters, Layout Guidelines and Applications
Ⅰ. Overview of BQ32000DRⅡ. Structure of BQ32000DRⅢ. Simplified schematic of BQ32000DRⅣ. Technical parameters of BQ32000DRⅤ. Layout guidelines for BQ32000DRⅥ. Where to use BQ32000DR?Ⅶ. How does the backup power... -
28 February 2024
An In-Depth Look at the TXS0108ERGYR: A Solution for Logic Level Conversion
Ⅰ. TXS0108ERGYR overviewⅡ. Specifications of TXS0108ERGYRⅢ. Recommended operating conditions of TXS0108ERGYRⅣ. Advantages of TXS0108ERGYRⅤ. Functional block diagram of TXSO108ERGYRⅥ. Application areas of TXS0108ERGYRⅦ. Wiring and circuit design of...
Help you to save your cost and time.
Reliable package for your goods.
Fast Reliable Delivery to save time.
Quality premium after-sale service.