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BZX85C13-TAP
Introduction
The BZX85C13-TAP is a diode belonging to the category of Zener diodes. This entry provides an overview of the basic information, specifications, pin configuration, functional features, advantages and disadvantages, working principles, application field plans, and alternative models of the BZX85C13-TAP.
Basic Information Overview
- Category: Zener Diode
- Use: Voltage regulation and voltage reference
- Characteristics: Precise voltage regulation, low impedance, and high reliability
- Package: TAP package (Plastic Encapsulated Diode)
- Essence: Semiconductor device for voltage regulation
- Packaging/Quantity: Available in tape and reel packaging with varying quantities
Specifications
- Voltage: 13V
- Power Dissipation: 1.3W
- Zener Impedance: 10Ω
- Operating Temperature Range: -65°C to +200°C
- Storage Temperature Range: -65°C to +200°C
Detailed Pin Configuration
The BZX85C13-TAP has a standard axial lead configuration with two leads. The cathode is typically marked with a band or a line on the body of the diode.
Functional Features
- Precise Voltage Regulation: The BZX85C13-TAP maintains a constant voltage across its terminals, making it suitable for voltage regulation applications.
- Low Impedance: It exhibits low impedance characteristics, allowing for efficient current flow.
- High Reliability: With its robust construction, the diode offers high reliability in various operating conditions.
Advantages and Disadvantages
Advantages
- Precise voltage regulation
- Low impedance for efficient current flow
- High reliability in diverse environments
Disadvantages
- Limited power dissipation capacity
- Sensitive to temperature variations
Working Principles
The BZX85C13-TAP operates based on the principle of the Zener effect, where it maintains a constant voltage drop across its terminals when reverse-biased at the specified voltage.
Detailed Application Field Plans
The BZX85C13-TAP finds extensive use in various electronic circuits and systems, including: - Voltage regulators - Power supplies - Signal conditioning circuits - Voltage reference circuits
Detailed and Complete Alternative Models
Some alternative models to the BZX85C13-TAP include: - BZX85C12-TAP (12V Zener diode) - BZX85C15-TAP (15V Zener diode) - BZX85C18-TAP (18V Zener diode) - BZX85C24-TAP (24V Zener diode)
In conclusion, the BZX85C13-TAP Zener diode offers precise voltage regulation, low impedance, and high reliability, making it a valuable component in various electronic applications.
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Énumérez 10 questions et réponses courantes liées à l'application de BZX85C13-TAP dans les solutions techniques
Sure, here are 10 common questions and answers related to the application of BZX85C13-TAP:
What is the maximum power dissipation of BZX85C13-TAP?
- The maximum power dissipation of BZX85C13-TAP is 1.3W.
What is the voltage rating of BZX85C13-TAP?
- BZX85C13-TAP has a voltage rating of 13V.
What is the forward voltage drop of BZX85C13-TAP?
- The forward voltage drop of BZX85C13-TAP is typically 1.2V at 200mA.
What is the operating temperature range of BZX85C13-TAP?
- BZX85C13-TAP has an operating temperature range of -65°C to +175°C.
What is the maximum reverse leakage current of BZX85C13-TAP?
- The maximum reverse leakage current of BZX85C13-TAP is 5µA at 10V.
Can BZX85C13-TAP be used for voltage regulation in power supplies?
- Yes, BZX85C13-TAP can be used for voltage regulation in power supplies as a zener diode.
Is BZX85C13-TAP suitable for overvoltage protection in electronic circuits?
- Yes, BZX85C13-TAP can be used for overvoltage protection in electronic circuits due to its zener diode characteristics.
What is the typical dynamic resistance of BZX85C13-TAP?
- The typical dynamic resistance of BZX85C13-TAP is 5Ω.
Can BZX85C13-TAP be used in automotive electronics applications?
- Yes, BZX85C13-TAP is suitable for use in automotive electronics applications where voltage regulation or overvoltage protection is required.
What are some common applications of BZX85C13-TAP in technical solutions?
- Common applications of BZX85C13-TAP include voltage regulation, overvoltage protection, and signal clamping in various electronic circuits and systems.