V270RA16

Product Overview

Use

It is used to suppress transient voltage spikes and limit the voltage that can appear across an electronic device.

Characteristics

Package: Radial leaded disc
Essence: Zinc oxide varistor
Packaging/Quantity: Typically available in reels or bulk packaging, quantity varies based on supplier and customer requirements.

Specifications

The V270RA16 has the following specifications: - Voltage Rating: 270V - Peak Current: 4500A - Energy (10/1000μs): 1.6J - Operating Temperature Range: -40°C to +85°C

Detailed Pin Configuration

The V270RA16 varistor has a radial leaded disc package with two leads for connection to the circuit.

Functional Features

Transient Voltage Suppression: Effectively clamps transient overvoltage events to protect sensitive electronic components.
Fast Response Time: Rapidly responds to voltage spikes to safeguard the circuitry.

Advantages and Disadvantages

Advantages

Effective protection against voltage surges
Fast response time
Wide operating temperature range

Disadvantages

Limited lifespan under repeated high-energy surge events
Non-linear behavior may affect circuit performance in some applications

Working Principles

The V270RA16 operates based on the principle of varistor action, where its resistance decreases as the voltage across it increases, thereby diverting excess current away from the protected circuit.

Detailed Application Field Plans

The V270RA16 is commonly used in various electronic devices and systems, including: - Power supplies - Telecommunication equipment - Industrial control systems - Consumer electronics

Detailed and Complete Alternative Models

Some alternative models to V270RA16 include: - V130LA20A - V320LA20A - V431BA60

In conclusion, the V270RA16 varistor is a crucial component in protecting electronic circuits from voltage surges and transients. Its specific characteristics and functional features make it suitable for a wide range of applications, despite having certain limitations. Understanding its specifications and alternatives allows engineers to make informed decisions when designing and implementing circuit protection measures.

Seznam 10 běžných otázek a odpovědí souvisejících s aplikací V270RA16 v technických řešeních

What is V270RA16?
- V270RA16 is a varistor component used for overvoltage protection in electronic circuits.
How does V270RA16 provide overvoltage protection?
- V270RA16 varistors protect against overvoltage by rapidly changing resistance to absorb excess voltage and divert it away from sensitive components.
What are the typical applications of V270RA16?
- V270RA16 is commonly used in power supplies, surge protectors, industrial equipment, and consumer electronics for overvoltage protection.
What is the maximum voltage rating of V270RA16?
- The maximum voltage rating of V270RA16 is typically around 270V.
What is the energy absorption capability of V270RA16?
- V270RA16 varistors can absorb a significant amount of energy during transient overvoltage events, protecting downstream components.
Are there any temperature limitations for V270RA16?
- V270RA16 varistors have specific operating temperature ranges, typically between -40°C to 85°C, ensuring reliable performance in various environments.
Can V270RA16 be used in automotive applications?
- Yes, V270RA16 varistors can be utilized in automotive electronics for overvoltage protection in systems such as engine control units and infotainment systems.
Is V270RA16 suitable for high-frequency applications?
- V270RA16 varistors are designed to handle high-frequency transients and can be used in applications where fast response times are required.
What are the key characteristics to consider when selecting V270RA16 for a technical solution?
- Key characteristics to consider include voltage rating, energy absorption capability, response time, and operating temperature range.
Are there any recommended circuit design considerations when using V270RA16?
- It's important to consider proper placement, current limiting, and thermal management when integrating V270RA16 varistors into a circuit to ensure optimal performance and reliability.