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JANTXV1N6341
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Product Detailed Parameters
- Description:DIODE ZENER 51V 500MW DO204AH
- Series:-
- Mfr:Microchip Technology
- Package:Bulk
- Voltage - Zener (Nom) (Vz):51 V
- Tolerance:±5%
- Power - Max:500 mW
- Impedance (Max) (Zzt):85 Ohms
- Current - Reverse Leakage @ Vr:50 nA @ 39 V
- Operating Temperature:-65°C ~ 175°C (TJ)
- Mounting Type:Through Hole
- Package / Case:DO-204AH, DO-35, Axial
- Voltage - Forward (Vf) (Max) @ If:1.4 V @ 1 A
- Grade:Military
- Qualification:MIL-PRF-19500/533
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Buying Guide
Microchip Technology JANTXV1N6341 is used in Single Zener Diodes category where integration and verification need to stay predictable. Key specs include Description (DIODE ZENER 51V 500MW DO204AH), Packaging (Bulk), Temperature (-65°C ~ 175°C (TJ)), Package/case (DO-204AH, DO-35, Axial), and Mounting (Through Hole).
Selection Notes
- For JANTXV1N6341, double-check the mounting type (Through Hole) for your intended installation method.
- Confirm the characteristic impedance (85 Ohms) matches your transmission line and matching network.
- Verify the operating temperature range (-65°C ~ 175°C (TJ)) and derate as needed in your application.
- Confirm Power - Max (500 mW) is suitable for your use case and operating conditions.
Alternates & Substitutions
- For JANTXV1N6341, when choices stay close in Single Zener Diodes, the stronger fit is usually the candidate that asks the least from layout, firmware, mechanics, and field use.
- For JANTXV1N6341 in Single Zener Diodes, a strong substitute usually preserves the same polarity behavior and protection intent in the product (key constraints: package DO-204AH, DO-35, Axial).
- Candidates that preserve package/case DO-204AH, DO-35, Axial, mounting Through Hole, packaging Bulk are usually easier to treat as true drop-in alternates on the existing board.
- Parts that stay convincing across temperature -65°C ~ 175°C (TJ) are usually safer than options that only look good at nominal values.
FAQ
Who is the manufacturer of JANTXV1N6341?
Microchip Technology
What should I compare when selecting an alternate for JANTXV1N6341?
Compare footprint/pinout, key electrical limits, temperature range, and interface requirements, then validate under worst-case conditions.
What is the supply current of JANTXV1N6341?
1.4 V @ 1 A
Which Impedance (Max) (Zzt) is specified for JANTXV1N6341?
85 Ohms
Application Scenarios
For Microchip Technology JANTXV1N6341 used in Single Zener Diodes designs, engineers usually narrow the choice by checking the failure modes, measurement access, and constraints that still matter after layout. They are typically used in rectifier and steering paths where surge handling and leakage under temperature decide reliability. Correct clamping and rectification parts reduce downtime and prevent cascading damage. In low-noise designs, leakage and recovery behavior can affect measurement accuracy and must be validated. In traction and industrial drives, rectifier modules and diode stages must tolerate surge and thermal cycling while maintaining stable leakage and recovery behavior. A concise test plan around the key assumptions often saves more time than additional schematic iteration. This is often what separates a prototype that works from a product that stays reliable in the field.
Compatibility Advice
- In Microchip Technology JANTXV1N6341 integration, on the assembled design, confirm the fuse or protection coordination so fault energy is bounded and failure modes remain predictable. Keep the same stress method and limits attached to the approval record so later reruns do not drift away from the released design.
- At the interface level, check that reverse recovery assumptions still hold after substitutions, because similar-looking parts can behave very differently in commutation. This keeps integration from depending on typical-only conditions.
Project Fit
- Microchip Technology JANTXV1N6341 is a practical fit for Single Zener Diodes when the team can validate surge waveforms, recovery behavior, and thermal rise under realistic wiring and loading.
- Microchip Technology JANTXV1N6341 is a weaker fit for Single Zener Diodes when fault behavior and protection coordination are not defined, increasing the risk of unpredictable failures because the key behaviors cannot be confirmed on the assembled system.
