1N5936BUR-1

Product Overview

Category:

The 1N5936BUR-1 belongs to the category of semiconductor devices.

Use:

It is commonly used as a voltage regulator diode in electronic circuits.

Characteristics:

Forward Voltage: 1.5V
Reverse Voltage: 36V
Power Dissipation: 1.3W
Operating Temperature Range: -65°C to +175°C

Package:

The 1N5936BUR-1 is typically available in a DO-41 package.

Essence:

This diode serves as a crucial component in regulating voltage within electronic systems.

Packaging/Quantity:

It is usually packaged in reels or tubes, with quantities varying based on manufacturer specifications.

Specifications

Manufacturer: ON Semiconductor
Part Number: 1N5936BUR-1
Type: Zener Diode
Voltage - Zener (Nom): 36V
Power - Max: 1.3W
Impedance (Max) (Zzt): 20 Ohm
Current - Reverse Leakage @ Vr: 5µA @ 28.8V
Tolerance: ±5%
Mounting Type: Through Hole
Package / Case: DO-204AL, DO-41, Axial
Supplier Device Package: DO-41
Operating Temperature: -65°C ~ 175°C

Detailed Pin Configuration

The 1N5936BUR-1 has two pins, with the anode and cathode serving as the primary connection points.

Functional Features

The 1N5936BUR-1 functions as a precision voltage regulator, maintaining a constant output voltage under varying load conditions.

Advantages and Disadvantages

Advantages

Precise voltage regulation
Wide operating temperature range
Low reverse leakage current

Disadvantages

Limited power dissipation capability
Tolerance of ±5% may require additional circuitry for tighter regulation

Working Principles

The 1N5936BUR-1 operates based on the principle of the Zener effect, where it maintains a nearly constant voltage across its terminals when reverse biased.

Detailed Application Field Plans

The 1N5936BUR-1 finds extensive use in various electronic applications, including: - Voltage regulation in power supplies - Overvoltage protection in circuits - Signal clamping and limiting

Detailed and Complete Alternative Models

Some alternative models to the 1N5936BUR-1 include: - 1N4728A - BZX85C36 - 1N5369B

In conclusion, the 1N5936BUR-1 Zener diode is a vital component in electronic circuits, providing precise voltage regulation and finding application in diverse fields due to its reliability and performance.

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Seznam 10 běžných otázek a odpovědí souvisejících s aplikací 1N5936BUR-1 v technických řešeních

What is the 1N5936BUR-1?
- The 1N5936BUR-1 is a Zener diode with a voltage rating of 3.9V and a power rating of 1.5W.
What are the typical applications of the 1N5936BUR-1?
- It is commonly used in voltage regulation, surge suppression, and voltage reference circuits.
What is the maximum current that can flow through the 1N5936BUR-1?
- The maximum current for the 1N5936BUR-1 is typically around 500mA.
How does the 1N5936BUR-1 behave in reverse bias?
- In reverse bias, the 1N5936BUR-1 acts as a voltage regulator, maintaining a nearly constant voltage drop across its terminals.
Can the 1N5936BUR-1 be used for overvoltage protection?
- Yes, it can be used to protect sensitive components from overvoltage by shunting excess current away from the protected circuit.
What are the temperature considerations for the 1N5936BUR-1?
- The 1N5936BUR-1 has a specified operating temperature range, typically from -65°C to 200°C, which should be taken into account in the design of the application.
Is the 1N5936BUR-1 suitable for automotive applications?
- Yes, it is often used in automotive electronics due to its ability to regulate voltage and provide surge protection.
Can multiple 1N5936BUR-1 diodes be connected in series or parallel?
- Yes, they can be connected in series to increase the breakdown voltage or in parallel to handle higher currents.
What are the key parameters to consider when selecting the 1N5936BUR-1 for a specific application?
- Key parameters include the voltage rating, power dissipation, and temperature coefficient, as well as the required tolerance and stability.
Are there any common failure modes associated with the 1N5936BUR-1?
- Common failure modes include thermal runaway at high currents and voltage overshoot during transient events, so proper heat sinking and transient protection should be considered in the application design.