APD160VHTR-E1

Introduction

The APD160VHTR-E1 is a high-voltage, high-speed switching diode designed for various electronic applications. This entry provides an overview of the product, including its category, use, characteristics, packaging, specifications, pin configuration, functional features, advantages and disadvantages, working principles, application field plans, and alternative models.

Product Overview

Category: Electronic Components
Use: High-voltage, high-speed switching applications
Characteristics: Fast switching speed, high voltage capability
Package: SOD-123FL
Essence: High-voltage, high-speed diode
Packaging/Quantity: Tape & Reel, 3000 units per reel

Specifications

Voltage - Peak Reverse (Max): 160V
Current - Average Rectified (Io): 1A
Reverse Recovery Time (trr): 35ns
Diode Type: Switching
Speed: Fast

Detailed Pin Configuration

The APD160VHTR-E1 follows the standard SOD-123FL package pin configuration: - Pin 1: Anode - Pin 2: Cathode

Functional Features

Fast switching speed
High voltage capability
Low reverse recovery time

Advantages

Suitable for high-voltage applications
Fast response time
Compact SOD-123FL package

Disadvantages

Limited current handling capacity
Higher reverse recovery time compared to some alternatives

Working Principles

The APD160VHTR-E1 operates based on the principles of semiconductor physics, utilizing its unique material properties to enable fast switching and high-voltage handling capabilities.

Application Field Plans

The APD160VHTR-E1 is ideal for use in the following applications: - Power supplies - LED lighting - High-frequency rectification circuits - Voltage clamping circuits

Alternative Models

For users seeking alternatives to the APD160VHTR-E1, the following models can be considered: - 1N4148: A general-purpose switching diode with lower voltage rating - 1N4007: A higher current, lower-speed rectifier diode - BAS16: A high-speed switching diode with lower voltage rating

In conclusion, the APD160VHTR-E1 offers fast switching speed and high-voltage capabilities, making it suitable for various electronic applications. While it has certain limitations, its compact package and performance characteristics make it a valuable component in many designs.

Word Count: 345

Seznam 10 běžných otázek a odpovědí souvisejících s aplikací APD160VHTR-E1 v technických řešeních

Question: What is the maximum operating voltage of APD160VHTR-E1?
Answer: The maximum operating voltage of APD160VHTR-E1 is 160V.
Question: What is the typical reverse current of APD160VHTR-E1 at its maximum operating voltage?
Answer: The typical reverse current of APD160VHTR-E1 at its maximum operating voltage is 10nA.
Question: Can APD160VHTR-E1 be used in high-temperature environments?
Answer: Yes, APD160VHTR-E1 is designed for high-temperature applications and can operate reliably in such environments.
Question: What is the typical responsivity of APD160VHTR-E1 at a specific wavelength?
Answer: The typical responsivity of APD160VHTR-E1 varies with wavelength, and the datasheet provides detailed information on responsivity at different wavelengths.
Question: Is APD160VHTR-E1 suitable for use in laser rangefinding applications?
Answer: Yes, APD160VHTR-E1 is commonly used in laser rangefinding applications due to its high sensitivity and fast response time.
Question: What is the dark current noise of APD160VHTR-E1?
Answer: The dark current noise of APD160VHTR-E1 is typically low, making it suitable for low-light detection applications.
Question: Can APD160VHTR-E1 be operated in avalanche mode?
Answer: Yes, APD160VHTR-E1 can be operated in avalanche mode to achieve higher gain and sensitivity.
Question: What is the typical rise time of APD160VHTR-E1?
Answer: The typical rise time of APD160VHTR-E1 is provided in the datasheet and varies with operating conditions.
Question: Does APD160VHTR-E1 require any special biasing circuitry?
Answer: Yes, APD160VHTR-E1 requires specific biasing circuitry to operate in its optimal range, and the datasheet provides guidance on this.
Question: Can APD160VHTR-E1 be used in automotive LiDAR systems?
Answer: Yes, APD160VHTR-E1 is suitable for use in automotive LiDAR systems due to its high performance and reliability.