You are here: Home / News / Industry News / What is the function of low voltage circuit breaker skd?

What is the function of low voltage circuit breaker skd?

Views: 68     Author: Site Editor     Publish Time: 2023-03-29      Origin: Site

Inquire

facebook sharing button
twitter sharing button
line sharing button
wechat sharing button
linkedin sharing button
pinterest sharing button
whatsapp sharing button
sharethis sharing button
What is the function of low voltage circuit breaker skd?

There are many reasons why you might need to use a low voltage circuit breaker. Maybe you're working on a sensitive electronic device and you don't want to risk damaging it with too much power. Or maybe you're simply trying to save energy by using less power overall. Whatever the reason, a low voltage circuit breaker can be a helpful tool in your arsenal.


  • What is the function of low voltage circuit breaker skd?

  • How does a low voltage circuit breaker skd work?

  • Why do we need to use low voltage circuit breaker skd?


What is the function of low voltage circuit breaker skd?

1. It can safely and reliably connect and break the limit short-circuit current and the circuit current below;

2. The working current of the long-term working system;

3. Within the specified electrical life times, there will be no serious wear after switching on and off. Common contact types of low-voltage circuit breakers include butt contact, bridge contact and plug-in contact. Butt-type and bridge-type contacts are mostly surface contact or line contact, and silver-based alloy inserts are welded on the contacts. In addition to the main contact, each phase of a large low-voltage circuit breaker also has auxiliary contacts and arc contacts.


How does a low voltage circuit breaker skd work?

A low voltage circuit breaker is designed to protect electrical circuits from damage caused by overload or short circuit. The breaker interrupt the flow of electricity in the circuit when it detects an overload or short circuit condition.

When an overload occurs, the breaker trips and interrupts the flow of electricity to prevent damage to the electrical components in the circuit. An overload can occur when too much current is flowing through the circuit, or when there is a sudden spike in current due to a fault in an electrical component.

A short circuit occurs when there is a direct connection between the live and neutral wires. This can happen if a wire becomes frayed or damaged, or if a component fails and creates a direct connection between the live and neutral wires. A short circuit can cause a large amount of current to flow through the circuit, which can damage electrical components and start fires.

The breaker trips when it detects an overcurrent or short circuit condition. The breaker has two trip settings: instantaneous and delayed. The instantaneous setting trips the breaker immediately when an overcurrent or short circuit is detected. The delayed setting allows a small amount of current to flow for a period of time before tripping, which helps to avoid false trips due to momentary spikes in current.


Why do we need to use low voltage circuit breaker skd?

We use low voltage circuit breakers because they are designed to protect us from electrical hazards. If we didn't have them, our homes and businesses would be at risk of fire and serious injury every time there was a power outage or other electrical problem. Low voltage circuit breakers are an essential part of keeping our families and properties safe.


JIELI Electrical is not only a production service provider that solves supply chain problems, but also a manufacturer that provides OEM and ODM production services.


QUICK LINKS

ABOUT JIELI

JIELI Electrical has been based in the low-voltage circuit breaker industry for nearly 20 years.

PRODUCT CATEGORY

CONTACT US

Tel: 0577-55776318
Phone: +86-18815129853
WhatsApp: +86-18815129853E-mail: leo@newjieli.com

SUBSCRIBE

Sign up for our newsletter to receive more.
Copyright 2021 JIELI Electrical All Rights Reserved   |   Supported by leadong.com   |   Sitemap