shunt trip in breaker

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What is a Shunt Trip Breaker and How Does It Work?

Written by  Edwin Jones  / Fact checked by  Andrew Wright

What is a shunt trip breaker? Does it add protection to your electrical system?

The shunt trip breaker is a combination of the shunt trip accessory and the main circuit breaker. This installs on the main breaker to add protection to your electrical system. This adds security to your electrical system as it manually or automatically cuts the electric supply in your circuit.

This accessory can help prevent short circuits and avoid electrical damage should a disaster occur in your home.

Let me tell you more about the shunt trip breaker to help you decide if you need additional protection for your electrical system.

Table of Contents

What is Shunt Trip Breaker and How Does It Work

Where are shunt trip breakers most used, how to install a shunt trip accessory to the breaker.

You should know that shunt trip breakers are different from GFCI circuit breakers.

The GFCI circuit breaker contains one big white tail wire for neutral connections only. It cannot be connected to any control package because the GFCI circuit breaker is solely designed to detect a sudden electrical surge. It has no other purpose but to cut power in case of a short.

Meanwhile, the shunt trip breaker wiring comprises two wires. One connected to the ground, and another to a control system. The control system can be connected to a sensor or to a manual switch. When activated, the shunt trip accessory will cause the main breaker to trip.

For example, if you install a shunt trip with a smoke detector, it will activate and cut off the power should the smoke sensor trigger. It can also be installed with a remote switch , allowing you to trip your breaker manually.

It is crucial to know the difference between a regular circuit breaker and a circuit breaker installed with shunt trip accessories.

The shunt trip definition means that it is a way to cut off electrical power through other sensors, not just via thermal activation. Since this is an optional accessory for a circuit breaker, it is not required for a home electrical system.

However, it is recommended for added safety. This is especially true if you’re working with industrial machinery. Furthermore, you can use it as a manual emergency switch to shut down your main breaker.

Before installing a shunt trip, consider its cost and your existing system. You may need to change the breaker panel  and circuit breakers, especially if it is not compatible with shunt trips. You may also need a new line to connect the remote emergency switch to your breaker box.

Generally, most commercial kitchens, elevators, and offices have this shunt trip breaker because it is required. Commercial kitchens use this device in compliance with ANSI/ASME CSD-1, while elevators and escalators comply with ASME A17.1. These codes refer to the controls and safety standards provided by ASME’s.

This question is a topic of discussion among Reddit members as well. Join the conversation here:

Found at a dominos by u/Guilty_Sympathy_496 in electricians

Mostly, installing a shunt trip relay requires that the breaker and the shunt be from the same maker. Also, not all breaker models are compatible with this accessory.

Once you’re sure that your system can take a shunt trip accessory, installation is pretty much straightforward. You can watch this video by Aaron CBIONE for some tutorials.

Note: Every circuit breaker comes with different instructions. It would depend on the brand and model of the breaker .

However, the critical part of every installation is that you need to connect the shunt to your sensor. You may need a shunt trip breaker diagram as a reference to ensure correct installation.

Also, check the brand and model of your breaker before proceeding with the installation. Some makers only allow a factory install of the shunt trip and other accessories. DIY installation may void the warranty of your breakers. It’s best to read up on the manual or consult an electrical professional before making any changes.

What is a shunt trip breaker? The shunt trip is an optional accessory for a circuit breaker for added protection to your system. It is designed to connect to a secondary sensor. It will trip the breaker automatically if the sensor is triggered. It can also be activated via a remote switch that you can install.

Do you think that a circuit breaker is enough to protect your investment? Or do you want an additional layer of protection for your electrical circuit? If you’re not decided yet, reach out to me in the comments section below, and I will be happy to help you.

I am Andrew Wright. With 8 years of experience designing, installing, and maintaining electrical power systems. I love my job, and I have always wanted to offer others the necessary help so they can take care of their houses.

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• What Is a Shunt Trip Breaker and How Does It Work

What Is a Shunt Trip Breaker and How Does It Work?

First things first: what is a shunt trip breaker? A shunt trip breaker is a specialized circuit breaker that is designed to remotely shut off power to a circuit in emergency situations, such as a fire or security breach. These breakers are commonly used in commercial and industrial buildings, as well as other facilities where safety is a top priority. In this article, we'll explore this type of breaker in detail and explain why hiring an  electrical services provider for a wiring shunt trip breaker is essential. 

The Many Benefits of a Shunt Breaker

Let’s recap: a shunt trip breaker is an electrical component connected to a circuit breaker and allows for remote operation through a schematic and AMP connection. Now that you know what a shunt trip circuit breaker is, it's time to move to the next part of this article: the benefits of using a shunt breaker.

• Remote Shut-Off: One of the main benefits of shunt breakers is that they can be remotely shut off in the event of an emergency. This allows them to quickly and easily disconnect power in a fire or other emergency, which can help prevent damage to the building and protect the occupants.
• Increased Safety: Besides remote shut-off, shunt trip circuit breakers provide an added level of safety and security by automatically shutting off power to a circuit in the event of an emergency. This helps prevent electrical fires and other hazards, protecting both people and property.
• Easy Installation: Shunt breakers are relatively easy to install and can be integrated into existing electrical systems, making it possible to retrofit older buildings with these devices.
• Cost-Effective: A shunt breaker is a cost-effective solution for increasing safety and security in commercial and industrial buildings. They are relatively inexpensive to purchase and install and can help prevent costly damage to the building and its contents in case of any emergency.
• Compatibility: Shunt breakers are compatible with a wide range of electrical systems and devices, making them a versatile and practical solution for increasing safety in various settings.

How Does a Shunt Trip Breaker Work?

A shunt trip breaker works by tripping the breaker when it receives a signal from an external device, such as a fire alarm or security system. This helps to prevent dangerous electrical fires or other hazards. When an emergency occurs, the external device sends a signal to the breaker, which causes the breaker to trip and open the circuit, interrupting the flow of electricity and preventing power from reaching the circuit, allowing for a quick and easy power disconnection.

Types of Shunt Trip Breakers

Now that you know the answer to "How does a shunt trip breaker work", it's time to discover about the two main types of shunt trip breakers.

• Manual Shunt Trip Breaker: This type of trip breaker requires manual intervention to reset the breaker after it has been tripped, meaning someone must physically go to the breaker and reset it after an emergency situation. This breaker is typically used in smaller residential buildings or situations where a dedicated staff member is available to reset the breaker.
• Automatic Shunt Trip Breaker: This type of breaker can automatically reset itself after being tripped and is typically used in larger buildings or in situations where there is not always someone available to reset the breaker. These breakers are often connected to fire alarm systems or other emergency management systems for auto-reset.

When is a Shunt Trip Breaker Required?

If you're wondering when is a shunt trip breaker required, know that it is required in any electrical system where there is a need to quickly and easily shut off power in the event of an emergency, such as a fire or security breach. Continue reading as we describe the importance of using shunt trip breakers and how to figure out which one you need to use for your building or facility.

The Importance of Using a Shunt Trip Breaker

• Shunt trip breakers automatically shut off power in emergencies.
• They prevent dangerous electrical fires and other hazards.
• They allow for quick and easy power disconnection in emergencies.
• They are easy to install and cost-effective solutions for increasing safety.
• They can be connected to fire alarm and emergency management systems.
• They ensure that the electrical system is in compliance with safety regulations.
• They are a versatile and practical solution for increasing safety in various settings.

Which Type of Shunt Trip Breaker to Use?

A manual breaker may be appropriate for a smaller building or in situations with a dedicated staff member available to reset the breaker, while an automatic breaker may be more appropriate for a larger building or in situations where someone is not always available to reset the breaker. Another option to consider is the use of a shunt trip relay, which can be used to trigger a shunt trip breaker remotely. These relays are typically connected to fire alarm systems or other emergency management systems and can send a signal to the breaker to trip it when an emergency occurs.

Shunt Trip Breaker Wiring Diagram

If you're wondering how to wire a shunt trip breaker, know that wiring can seem like a daunting task, but with the right knowledge and tools, it can be done relatively easily. Follow the steps below:

• Obtain a "How to wire a shunt trip breaker wiring diagram." (Check above).
• Gather necessary tools and materials such as wire strippers, nuts, and a voltage tester.
• Disconnect the power and wire the shunt breaker according to the instructions provided.
• Reconnect power to the circuit and test the breaker to ensure it works properly.

It is important to pay close attention to the diagram and follow the instructions carefully. This will ensure that the breaker is wired correctly and functions. Once the wiring is complete, you can reconnect the power to the circuit and test the breaker to ensure that it is working properly. It is always better to consult with a professional if you aren't confident about the wiring process. 

What Does a Shunt Trip Breaker Do?

We hope by now you know what does a shunt trip breaker do, but here's a recap: a shunt trip breaker is a specialized circuit breaker that protects your house electrical systems from damage or hazards in emergencies. It works by tripping the breaker when it receives a signal from an external device, such as a fire alarm or security system, preventing dangerous electrical fires or other regular hazards.

Nevertheless, it is important to understand what does shunt mean in electrical terms and the role of electrical shunt trip breakers in commercial and industrial settings. Finally, to determine the appropriate type of breaker for your specific needs, it is best to consult an electrical services provider. If you're based in Colorado or surrounding areas, McCarrick Electric has got you covered.

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At McCarrick Electric, we have 25+ years of experience providing top-quality electrical services in Colorado. We value all of our customers, and that's why we offer a 15% discount for first-time residential clients and veterans. We take pride in our integrity, attention to detail, and cost-effectiveness. For more information, connect with us via our contact form or give us a call.

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What Is A Shunt Trip Breaker & How Does It Work? Detailed Guide

Hello readers welcome to the new post. In this post, we will learn What Is A Shunt Trip Breaker & How Does It Work.  Detailed Guide. There is electrical system safety is the main parameter for the power system/ The main element that ensures the safety of electrical installation is the shunt trip breaker.  In this post, we will discuss the all details shunt trip breaker and other parameters. So let’s get started What is a shunt trip

Table of Contents

What is a Shunt Trip Breaker?

If the circuit breaker trips it finds faults condition and automatically shuts off the current flow to prevent the circuit from overheating.  The shunt trip breaker is an optional device for a circuit breaker that helps to trip the breaker remotely in any instant or automatically in case of surge saving any damage and instrument damage.

There are 2 main types fo shunt trip breakers first one is manual and the second one is automatic.

Manual witches help to off the breaker externally with the use of the remote button. Automatic switch off power when detecting surges from the external power supply.

 How Does a Shunt Trip Breaker Work?

Normally the current passes through the circuit breaker. But if these currents become high surges, the larger surge of power changes the electromagnet below the breaker switch, tripping the cutting power and switch.

The shunt trip breaker offers extra techniques to charge the electromagnet and trip switch, helping remote or automatic power shutoff. Some hunt trips are connected to an external power supply.  When power surges get that source, signal flow from shunt trip to the breaker, mechanical cutting power.

The shunt trip can make a connection with the remote switch outside the building. Pushing the button on the switch sends a surge through shunt trip wiring and off the power.

 Components of  Shunt Trip Breaker

Read more  Top Reasons Why Electric Outlet Stopped Working Breaker Not Tripped?

A shunt trip breaker comes with differnt components:

 Main Contacts

This part of the shunt trip breaker is employed for carrying and interruption of current flow. Their main function s to control  high current  and make reliable connections

 Shunt Coil

The shunt coil is an electromagnet that gets an electrical signal for breaker tripping. It produces a magentic field when gets energized releases the latch and starts the tripping process

 Trip Mechanism

it helps to disconnect the mechanical circuit when the breaker trips. it has a latch that helps contact during normal working but releases due to trip signal.

Control Wiring

The control wiring triggers the device remotely or control panels.  It works for remote activation of the shunt trip to provide the protection layers

Why Are Shunt Trip Breakers Important?

irrespective optional nature of the shunt trip breaker, it can be an important safety instrument in a power system. In a result, many engineers use this breaker as a layer of security since they save damage during power surges.

This breaker is good for many fonts but it’s commonly used during fire. By turning off power if a fire break out, the electrical hazard is no main risk. Some connections shunt trip to smoke alarm in homes, for power automatically off when detector trigger alarm. It not be good option, since in some conditions smoke alarm gets off due to steam from the shower of smoke from the kitchen

 Applications of Shunt Trip Breakers

• Commercial buildings
• Hospitals and healthcare facilities
• Data centers
• Industrial facilities
• Laboratories
• Hotels and resorts

 Advantages of Shunt Trip Breakers

• The main benefit of a shunt breaker is that it can remotely shut off in case of any fault. It quickly works and disconnects power in fire which helps to avoid damage in the home and protects people.
• These devices also increase safety levels and security by automating off power to the circuit if there is any fault. it helps to save electrical fires and any other damage.
• The shunt breaker is easily connected and confined with a power system, so it is easy to install the device in the building.
• The shunt breaker is a less cost solution for safety measures in buildings and industries. it is less costly to buy and connect and helps to save homes and buildings in the result of high fault.
• Shunt breakers support many electrical systems and devices so it is versatile devices that are used for the protection of circuits.

 Troubleshooting of Shunt Trip Breakers

• Regular inspection of the breaker helps to find the symbols of damage or wear.
• Perform differnt electrical tests to check the it is working accurately or not
• Make sure there are no dust particles on the breaker so clean it regularly
• Make it properly lubricated
• After finding the faults solve it

 Comparison with Other Circuit Protection Devices

Shunt trip breakers vs. standard circuit breakers, shunt trip breakers vs. ground fault circuit interrupters (gfcis), shunt trip breakers vs. arc fault circuit interrupters (afcis), how to choose right shunt trip breaker.

• Choose according to the voltage rating of your circuit
• it has compatibility with  electrical panels and other protection devices used in circuitry

Shunt trip breaker wiring

Its wiring is very simple and easy. The shunt coil has two terminals one used for voltage supply and the other for neutral. The supply is about 120 volts AC and the neutral is connected to the neutral point of the breaker

The shunt coil is attached in a series combination with the push button. When we press the button it closes teh circuit to the shunt coil that trips the breaker. It is good to check that the shunt coil is rated for a similar voltage to the breaker.  If the shunt coil does not have the same rating it can be damaged

Diagram of Shunt Trip Breaker Wiring Diagram

WHICH TYPE OF SHUNT TRIP BREAKER TO USE?

The manual breaker is best to use for small buildings or conditions where any technical staff is available to reset the breaker,. The automatic breaker can be best for larger-size buildings or conditions where there is no option for staff for breaker resetting.

it is also preferred for trigger shunt trip breakers at a distance or remotely. These relays are connected to fire alarm systems and can send a signal to the breaker for tripping if there is any fault.

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How does a shunt trip breaker work?

A shunt trip breaker controlled by a small current from some distance. It is best for uses where it has the ability to off  power to circuitry from distant points, like fire alarm systems

How is a shunt trip breaker wiring?

The shunt trip terminals are connected to the top and lower parts of the circuitry breaker. The small-size wire is used for wiring the shunt trip breaker between the shunt trip points and the remote source of supply. The power source can be battery relays

What is the purpose of a shunt with a relay?

The shut relay provided the remote tripping for the breaker. The shunt low resistance conductor is connected between the circuit breaker and relay. When current passes through the shunt, it makes a magnetic field that functions as the relay. The relay close contacts that trip the breaker.

What is shunt trip and under voltage?

Shunt trip and under voltage are differnt terms used for the differnt tripping methods of the breaker.  Shunt trip use a shunt to have remote tripping. Under voltage is tripping off the circuit breaker when voltage loses less than a certain value

Where is shunt trip used?

• Fire alarm systems
•  Security system
• Power distribution
• Industrial control systems

What is the difference between shunt and resistance?

The main difference between a resistor and a shunt is the temperature coefficient of thermal EMF . For resistors thermal EMF is not considered but for shunt resistors considered, based on temperature values two different conductive materials generate variable voltage

What is the purpose of a shunt breaker?

The shunt trip breaker is an optional device for a circuit breaker that helps to trip the breaker remotely or automatically when a surge exists, any damage, or emergencies.

Is the shunt resistor AC or DC?

Shunt resistors can be used for both AC and DC circuits. Though the value of the shunt resistor will be different from ac and DC circuits

Where are shunt trip breakers required?

If you are thinking that if shunt trip breaker is needed find that it is required in an electrical system where is a need for fast and easily shut-off power in case of a fault like fire.

Why is it called a shunt resistor?

The term shunt originated from the Latin word “scindere”, which means to split.  A shunt resistor is used for spiting current in circuitry.

Why is low resistance called shunt?

When the resistor is connected with another resistor of low values then the equivalent resistance is lower than a single resistor that shunts the resistor.

What is another name for a shunt resistor?

it also called a shunt resistor is a current-dividing resistor.

What is unit of shunt resistance?

The unit of shunt resistance is ohm (Ω).

What is shunt resistance formula?

The shunt resistance formula is:

• Rs is the shunt resistance
• V is the voltage of the shunt resistor
• I is the current passing through the shunt resistor

What is shunt release in a circuit breaker?

The cut-off switch opens the solenoid coil electrical circuit if the breaker contact is opened. The solenoid coil so carries momentary current and is not rated for continuous duty. This process needs an external control supply or auxiliary supply for operation.

What is the difference between a shunt trip and series trip?

What are the different types of shunt trip breakers, does a shunt trip breaker need a neutral, what is the difference between shunt trip and shunt close, share this:.

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What Is A Shunt Trip Breaker & How Does It Works?

Have you ever heard about this kind of breaker? And “what a shunt trip breaker is” usually appears when you hear about this for the first time.

Keep this article to get the best answer to the question above, its primary use, and when it is required.

Table of Contents

What Is A Shunt Trip Circuit Breaker?

A circuit breaker “trips” once it detects a problem, cutting off power to the outlet or appliance in question and protecting the wire from burning.

An optional attachment to any circuit breaker, a shunt trip breaker allows for the breaker to be shut off remotely at any moment or immediately in the event of a power excess. Damage to or injury from equipment may be avoided in a crisis if this is in place.

There are two distinct categories for shunt trip breakers, automatic and manual. The breaker may be turned off from the exterior of the building through a remote button using manual switches. Conversely, mechanical switches interrupt power flow when they identify a surge coming from the grid.

How Does A Shunt Trip Breaker Work?

Electrical impulses often pass through your circuit breaker without being altered. Nevertheless, if these currents reach unsafe levels, an additional surge of energy will charge a magnet located just below the primary breaker switch. This will cause the switch to trip, resulting in the power being cut off.

Adding a shunt trip breaker provides an additional method to charge the magnets and trip the switches, which makes it possible to turn off the electricity remotely or automatically.

Some of the shunt trips are powered by an external source. When a power surge occurs at this source, a notification is delivered from the shunt trip towards the breaker, which causes the breaker to stop the power automatically.

Connecting to a remote switch that is situated outside the building may also be accomplished with the help of a shunt trip. The current is cut off when the user clicks a button on that switch, which causes an electrical surge to be sent via the shunt trip circuit.

Even though shunt trip breakers are optional in residences, many people put them there out of caution. But, these devices are also often used in businesses that use expensive industrial machinery or electronic wiring that are susceptible to being destroyed in the event of a power surge.

Why Are Shunt Trip Breakers Important?

In an unexpected power outage, you may give yourself an additional level of peace of mind by installing a shunt trip breaker in your house. Because of this, you will not risk injuring yourself or creating any electrical harm.

If there is a fire, one of the most common uses for shunt trips is to switch off any electrical equipment that could be present. For example, when a shunt trip is connected to a fire detection system, the power may be immediately turned off once the smoke detector senses a fire. This allows for eliminating any potential electrical hazards that the fire may cause.

If your smoke detector is connected to your home’s sprinkler system, installing a shunt trip is essential. This device might turn off your power as quickly as the smoke detector triggers the sprinkler, reducing the real damage to your electronic devices.

Where Do People Most Often Use Shunt Trip Breakers?

Shunt trips reduce power through additional sensors, not simply heat activation. For a household electrical system, this circuit breaker attachment is optional.

However, it’s advised for safety. Industrial equipment makes this particularly true. It may also shut off your main breaker manually in an emergency.

Before beginning the implementation of a shunt trip, take into consideration the associated costs and the system. It is possible that the breaker panel and the circuit breakers will need to be replaced if shunt trips are not supported. It’s also possible that a new cable will be required to connect the remote emergency switch to the breaker box.

In most business kitchens, elevators, and offices, shunt trip breakers are an essential safety device. ASME A17.1 is the standard that must be adhered to for elevators and escalators, while ANSI/ASME CSD-1 is the standard that must be attached to commercial kitchens. ASME regulations mandate these controls and safety standards.

Installing A Shunt Trip Accessory to a Breaker

Shunt trip relays can only be installed with breakers and shunts made by the same company. Plus, not all circuit-breaker models can use this part.

Adding a shunt trip connection is easy after establishing that your system is functioning. Watch this video from Schneider Electric for some guidelines:

Each circuit breaker has its instructions, so please follow them carefully. In addition, the make and model of the breaker are relevant.

The most critical step when setting up a sensor is to attach the shunt. If you want to be sure your shunt trip breaker is installed correctly, a shunt trip breaker diagram may be required.

It’s essential to verify the model and manufacturer of your breaker before commencing the installation. The manufacturer in some instances can only install the shunt trip and any other components. If you install your circuit breakers on your own, you might void the warranty. If you want to make alterations, you need either consult the manual or an electrician.

Here are some questions and answers related to the shunt trip breaker:

Does Shunt Trip Breaker Work?

Shunt trip breakers serve a vital purpose in the electrical system as a whole by providing an extra layer of protection for the circuits they are part of. In addition, they cut off electricity in times of crisis to avoid harm and damage to equipment.

What Are 3 Types Of Shunt Trip Breakers?

• Standard breakers 
• Around fault circuit interrupter circuit breakers (GFCIs)
• Arc fault circuit interrupter circuit breakers 

They are the three fundamental circuit breaker types (AFCIs). And standard breakers include both single-pole and double-pole circuit breakers.

Why Is Shunt Used In MCCB?

Molded case circuit breakers (MCCBs) are often employed in electrical distribution systems to prevent overload and short circuits from damaging electrical components. In reaction to a voltage signal from the outside, the shunt release device, a built-in component of MCCB, releases the mechanism.

You have completely got the answer to what a shunt trip breaker is and understand its function. 

A circuit breaker’s shunt trip is an extra layer of safety that may be installed if desired. It’s meant to link up with another sensor. If the sensor is activated, the breaker will trip immediately. You may also set up a remote switch to turn it on and off.

• Why does my breaker keep tripping with nothing plugged in?
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Automotive Mechanic at PowerAll

With 7 years experience in management positions leading automotive mechanics at PowerAll, Erik Watkins wishes to share useful knowledge and information about automotive mechanical equipment.

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Home » circuit breaker » Shunt trip breaker

Shunt Trip Breaker: How It Works to Trip a Circuit Breaker.

While circuit breakers protect appliances from power surges , shunt trip breakers add more protection to our electrical system and equipment .

If you are looking to add additional protection to your home circuit, or even trip your breaker remotely from your comfort zone, why not shop for a shunt trip circuit breaker?

Table of Contents

What is a shunt trip breaker?

A shunt trip device is an optional accessory for breakers that allows you to trip a circuit breaker with a remote, or automatically trip the switch during electrical surge or short circuit .

Shunt trip breakers are mostly used in commercial and industrial applications to enhance safety and protection of electrical appliances.

Types of shunt trip breakers

There are two main types of shunt trip circuit breakers they include.

• Automatic shunt trip breakers: These breakers trip automatically when they detect an electrical fault such as an overcurrent or a fire alarm.
• Manual shunt trip breakers:  These breakers are tripped manually by pressing the remote button.

How the shunt trip circuit breakers work

A shunt trip breaker works like other circuit breakers . However, it comes with a solenoid coil which is connected to a separate control circuit. 

When the control circuit is energized due to electrical fault or overload, it creates a magnetic field around the solenoid coil, which pulls a plunger inward.

This plunger is connected to the tripping mechanism of the circuit breaker. So when it is pulled inward, it trips the breaker and cuts off the power source.

Alternatively, a shunt trip breaker can also work with a remote control so you can trip the breaker remotely when there are electrical hazards

Where are shunt trips required

Shunt trip circuit breakers are used in various applications such as

• Industrial machines to protect it from damages that may arise from electrical faults.
• Fire protection systems to automatically shut off electrical power in the event of a fire outbreak.
• in commercial buildings for additional protection against electrical damage.
• hospitals and healthcare facilities to protect hospital equipment from electrical damage.

Advantages of using a shunt trip breaker

There are several advantages to using a shunt trip devices, these include:

• Enhanced Safety: It provides an additional layer of safety by quickly tripping the main breaker in the event of a fault or overload, preventing potential damage to electrical equipment.
• Remote tripping capability: A shunt trip breaker usually comes with a remote control to enable you to turn off the breaker at any needed time.
• Protection of sensitive equipment: It can help protect sensitive electrical equipment from power surges caused by overload or faults, ensuring the durability of the equipment.

Shunt trip breaker wiring

Before you wire a shunt trip, there are some things you will need to know.

Shunt trip is an accessory and is not compatible with all breakers. Some breakers come with an in-built shunt trip, others require specific models, or to be installed in the factory. Therefore, it is necessary that you evaluate all these before the wiring .

If the breaker is compatible with the shunt trip device, you can then follow this wiring diagram to install it.

Based on the MCCB shunt trip breaker wiring diagram above, the 3-phase 4-wire system from supply is connected to the mccb breaker .

The neutral wire is connected to the shunt coil, and the control line wires to the EPO button. 

Difference between a shunt breaker and a GFCI 

A shunt trip and a ground fault circuit interrupters (GFCI ) are both electrical devices , however, they are designed to work in different ways and for different purposes.

Below are their major differences.

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If you have any issues with your electrical system, or went us to help you with a quotation or any wiring advice, contact us as we are here for you.

About mariaelectricals

Hi, I am Emmanuel Nwankwo, a commercial electrician and the founder of mariaelectricals.com . I established this blog to share my decades of work experience in electrical installations and repairs.

Tech Related Blog

Understanding Shunt Trip Breaker: Function, Applications, and Benefits

Introduction.

In the realm of electrical distribution systems, safety and control are paramount. Shunt trip breakers, a specialized type of circuit breaker, play a crucial role in enhancing safety and efficiency in various applications. This article delves into the mechanics, applications, and benefits of shunt trip breakers, shedding light on their significance in modern electrical systems.

What is a Shunt Trip Breaker?

A shunt trip breaker is a type of circuit breaker that features an additional accessory known as a shunt trip coil. Unlike a standard circuit breaker, a shunt trip breaker can be remotely tripped open using an external control signal. This control signal energizes the shunt trip coil, causing the circuit breaker to trip and open the electrical circuit.

Functionality of Shunt Trip Breaker

A shunt trip breaker is a type of circuit breaker commonly used in electrical distribution systems. It includes an additional feature called a shunt trip, which allows for remote tripping of the breaker under specific conditions. Here’s how it works:

• Basic Circuit Protection : Like a standard circuit breaker, a shunt trip breaker is designed to protect electrical circuits from overload or short circuit conditions. It interrupts the flow of electricity when it detects an excessive current, preventing damage to the electrical system and reducing the risk of fire or electrical hazards.
• Shunt Trip Mechanism : The shunt trip mechanism is an additional component installed within the circuit breaker. It consists of a solenoid coil that, when energized, creates a magnetic field. This magnetic field pulls down a latch or mechanism within the circuit breaker, causing it to trip and open the circuit.
• Remote Tripping : The key functionality of a shunt trip breaker is its ability to be remotely tripped. This is achieved by providing an external control signal to energize the solenoid coil of the shunt trip mechanism. The control signal can be generated by various means such as a manual switch, a relay, a control panel, or an automated system like a building management system (BMS) or a fire alarm system.
• Emergency Shutdown : In case of emergencies, such as fire or other hazardous situations, the breaker can be remotely tripped to de-energize certain circuits or equipment.
• Security : In sensitive areas or facilities, shunt trip breakers can be integrated into security systems to remotely disable power in certain areas.
• Maintenance : They can be used to facilitate maintenance procedures by providing a means to de-energize specific circuits or equipment remotely.
• Integration with Other Systems : Shunt trip breakers can be integrated with other systems such as fire alarm systems, security systems, or industrial automation systems to provide coordinated responses to various events.
• Resetting : After the shunt trip feature is activated and the breaker trips, it typically needs to be manually reset. This ensures that power is not automatically restored after the fault condition is cleared, allowing for inspection and maintenance before restoring power.

In summary, a shunt trip breaker combines the functions of a standard circuit breaker with the added capability of remote tripping, making it suitable for a wide range of applications where remote control and safety are paramount.

Applications of Shunt Trip Breakers

Shunt trip breakers find various applications across different industries and environments where remote tripping capability is essential for safety, security, or operational reasons. Here are some common applications:

• Commercial Buildings : In commercial buildings, shunt trip breakers can be used to integrate with fire alarm systems. In the event of a fire alarm activation, the breaker can be remotely tripped to de-energize specific circuits or equipment, such as HVAC systems, elevators, or lighting, to facilitate safe evacuation or firefighting operations.
• Industrial Facilities : Shunt trip breakers are widely used in industrial facilities for emergency shutdown procedures. They can be integrated with safety systems to automatically trip certain circuits or equipment in the event of hazardous conditions, such as the detection of gas leaks, chemical spills, or other emergencies.
• Data Centers : In data centers, where uninterrupted power supply is critical, shunt trip breakers can be employed as part of the facility’s emergency power-off (EPO) system. In case of a severe malfunction or security breach, the EPO system can remotely trip the breakers to shut down power to all equipment and prevent potential damage to sensitive IT infrastructure.
• Healthcare Facilities : Shunt trip breakers are used in healthcare facilities to support life safety systems. They can be integrated with emergency response systems to deactivate non-critical equipment and ensure power availability for essential medical devices, lighting, and communication systems during emergencies or power outages.
• Laboratories : Laboratories often utilize shunt trip breakers to ensure the safety of personnel and prevent accidents. Breakers can be integrated with gas detection systems, chemical spill sensors, or other safety devices to automatically disconnect power to hazardous equipment or areas in the event of a malfunction or emergency.
• Military Installations : In military installations, shunt trip breakers are employed to enhance security measures. They can be integrated into perimeter security systems or command and control centers to remotely cut power to specific areas or equipment in response to security threats or breaches.
• Critical Infrastructure : Shunt trip breakers are deployed in critical infrastructure facilities such as power plants, water treatment plants, and transportation hubs to support emergency response protocols. They provide a means to quickly isolate and de-energize critical systems or equipment during emergencies, natural disasters, or security incidents.

Overall, shunt trip breakers play a vital role in enhancing safety, security, and operational efficiency across various industries and applications where remote tripping capability is essential.

Benefits of Shunt Trip Breakers

Shunt trip breakers offer several benefits across various applications due to their remote tripping capability and integration with safety and security systems. Some of the key benefits include:

• Enhanced Safety : Shunt trip breakers improve safety by providing a means to remotely de-energize specific circuits or equipment in emergencies. This helps prevent accidents, mitigate risks, and protect personnel, property, and the environment from potential hazards.
• Quick Response : The remote tripping feature allows for rapid response to emergencies, such as fire alarms, gas leaks, or security breaches. Breakers can be tripped instantly to cut power to critical systems or equipment, facilitating prompt evacuation, containment, or mitigation measures.
• Customizable Control : Shunt trip breakers offer flexibility in control and operation. They can be integrated with various control systems, including fire alarm systems, security systems, or building management systems, allowing for customized programming and coordination of response actions based on specific requirements and scenarios.
• Reduced Downtime : In industrial and commercial environments, shunt trip breakers help minimize downtime by enabling targeted shutdowns of equipment or processes during maintenance, repairs, or troubleshooting. This improves operational efficiency and reduces the impact of disruptions on productivity and revenue generation.
• Enhanced Security : Shunt trip breakers enhance security measures by providing a means to remotely disable power to specific areas or equipment in response to security threats or breaches. They can be integrated with access control systems, surveillance systems, or perimeter security systems to bolster overall site security and resilience.
• Compliance with Regulations : Shunt trip breakers help organizations comply with safety and regulatory requirements. By incorporating remote tripping capability into their electrical systems, facilities can meet standards and guidelines related to fire safety, emergency preparedness, environmental protection, and occupational health and safety.
• Protection of Critical Infrastructure : Shunt trip breakers play a crucial role in protecting critical infrastructure facilities, such as power plants, water treatment facilities, and transportation hubs, from disruptions and threats. They provide a proactive means to isolate and secure essential systems or equipment during emergencies or security incidents.
• Remote Monitoring and Management : Some shunt trip breakers offer remote monitoring and management capabilities, allowing operators to remotely monitor the status and condition of circuits, troubleshoot issues, and perform maintenance tasks without the need for physical access to the breaker panel.

Overall, shunt trip breakers offer significant advantages in terms of safety, security, operational efficiency, and regulatory compliance, making them indispensable components in a wide range of applications and industries.

Installation and Maintenance Considerations

When considering the installation and maintenance of shunt trip breakers, several factors should be taken into account to ensure proper functioning, reliability, and safety:

• Installation by Qualified Personnel : Shunt trip breakers should be installed by qualified electricians or technicians who have the necessary expertise and training in electrical systems and safety procedures. Improper installation can lead to malfunctions, safety hazards, or damage to equipment.
• Compatibility with Existing Systems : Before installation, ensure that the shunt trip breaker is compatible with the existing electrical system, including voltage ratings, current capacities, and mounting configurations. Compatibility issues could result in compatibility issues or compromised performance.
• Proper Wiring and Connections : Carefully follow the manufacturer’s instructions and wiring diagrams during installation to ensure correct wiring and connections. Improper wiring can cause electrical faults, overheating, or tripping issues. Use appropriate wiring methods, connectors, and protective devices as per electrical codes and standards.
• Integration with Control Systems : If the shunt trip breaker is being integrated with control systems such as fire alarms, security systems, or building management systems, ensure proper communication and compatibility between the breaker and the control system components. Test the integration thoroughly to verify functionality and reliability.
• Remote Tripping Mechanism : Verify the proper installation and operation of the remote tripping mechanism, including the control wiring, switches, relays, or other devices used to trigger the shunt trip function remotely. Ensure that the remote tripping mechanism is accessible and functional as per operational requirements.
• Testing and Commissioning : After installation, conduct thorough testing and commissioning of the shunt trip breaker to verify its performance and functionality under normal and emergency conditions. Test the remote tripping function, overload and short-circuit protection, and coordination with other protective devices.
• Maintenance Schedule : Develop a regular maintenance schedule for the shunt trip breaker as part of the overall maintenance plan for the electrical system. Follow the manufacturer’s recommendations for inspection, testing, and servicing intervals. Routine maintenance tasks may include visual inspections, cleaning, torque checks, and functional testing.
• Training for Personnel : Provide training to personnel responsible for operating, maintaining, and troubleshooting the shunt trip breaker. Ensure that they are familiar with the proper procedures, safety precautions, and protocols for handling the breaker, including emergency response procedures.
• Documentation and Records : Maintain comprehensive documentation and records of the installation, maintenance, testing, and any modifications or repairs performed on the shunt trip breaker. This information is essential for compliance, troubleshooting, and historical reference.

By adhering to these installation and maintenance considerations, organizations can ensure the reliable operation, safety, and effectiveness of shunt trip breakers in their electrical systems. Regular maintenance and proper training are key to maximizing the lifespan and performance of these critical components.

Shunt Trip Breakers FAQS

What is a shunt trip breaker.

A shunt trip breaker is a type of circuit breaker equipped with an additional accessory called a shunt trip coil. This coil allows the breaker to be remotely tripped open using a control signal, providing an extra layer of safety and control in various applications.

How does a shunt trip breaker work?

A shunt trip breaker operates by using an electromagnetic coil, the shunt trip coil, that is connected in parallel with the circuit breaker’s trip coil. When a control signal is applied, the shunt trip coil generates a magnetic field that interacts with the trip mechanism of the breaker, causing it to trip and open the circuit.

What are the applications of shunt trip breakers?

Shunt trip breakers are used in a variety of applications, including emergency shutdowns, security systems, elevators, HVAC systems, and laboratories. They are particularly useful in situations where rapid circuit interruption is necessary for safety reasons or to prevent equipment damage.

How are shunt trip breakers activated?

Shunt trip breakers can be activated manually by using a switch, automatically through a control system, or by specific triggers such as smoke detectors, temperature sensors, pressure sensors, or intrusion detection systems.

What is the main benefit of using shunt trip breakers?

The primary benefit of shunt trip breakers is enhanced safety. Their ability to be remotely tripped in critical situations provides a quick and effective way to disconnect power and mitigate potential hazards, preventing accidents and minimizing damage.

Can shunt trip breakers be reset after tripping?

Yes, after a shunt trip breaker has been tripped and the triggering condition is resolved, it can generally be reset manually. The process of resetting may involve toggling the breaker back to the “ON” position.

How are shunt trip breakers different from standard circuit breakers?

Standard circuit breakers are manually operated and do not have the capability to be remotely tripped. Shunt trip breakers, on the other hand, can be opened remotely through the activation of the shunt trip coil.

Are shunt trip breakers commonly used in residential settings?

Shunt trip breakers are more commonly found in commercial, industrial, and specialized settings rather than residential environments. They are often used in applications where safety and rapid circuit interruption are critical.

Can shunt trip breakers be retrofitted into existing systems?

In many cases, shunt trip breakers can be retrofitted into existing electrical systems, depending on the design and compatibility of the system. However, it’s important to consult with a qualified electrician to ensure proper installation and compatibility.

How do I choose the right shunt trip breaker for my application?

When selecting a shunt trip breaker, consider factors such as the application, voltage rating, current rating, coordination with other protective devices, and the specific triggers or control signals required for activation. It’s advisable to consult with electrical professionals or manufacturers to make an informed decision.

Shunt trip breakers stand as an excellent example of how technology enhances safety and control in electrical systems. Their ability to remotely trip circuits in emergency situations, security concerns, or operational anomalies is a testament to the progress in electrical engineering. As technology continues to evolve, shunt trip breakers will likely remain a vital component in maintaining the safety and reliability of various applications across industries.

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Shunt Trips – Shunt Trip Circuit Breakers

A shunt trip is an optional accessory device that electricians and/or manufacturers install to a circuit breaker. This is known as a shunt trip circuit breaker. Some circuit breakers allow shunt trip kits to be installable in the field. Others require factory installation when ordering the circuit breaker. You can check your specific type of circuit breaker for the ac and dc shunt trip voltage ratings and how to install these shunt trips .

So How Does a Shunt Trip Breaker Work Exactly?

Well, we know that circuit breakers trip automatically when there’s an electrical surge (current exceeds the specified limit). This is still true for circuit breakers with a shunt trip. The first two contacts of a shunt trip breaker are connected by a metallic strip on a switch and an electromagnet placed underneath the switch. Electricity flows through the metallic strip under normal conditions. But when a surge occurs, the excess power charges the electromagnet which trips the switch and cuts the connection and power. In addition to this normal tripping mechanism, a shunt trip breaker has an external power source that powers it. This external system wires to the electromagnet in the circuit breaker, and this connection can send an electrical signal that can also charge the electromagnet and trip the switch.

Why are Shunt Trip Breakers Important?

Shunt trip breakers essentially provide an off switch remotely or a direct link to a system outside the main breaker. Remote manual switches allow for human control while direct link automatically shuts off the breaker.

An example of a direct link is safety systems such as smoke detectors and fire emergency button/switch are some of examples of an external source. For instance, when smoke triggers a smoke detector, the breaker trips automatically. This cuts the power to electrical equipment at the same time the smoke detector triggers the sprinkler. The immediate break in power minimizes electrical damage, and prevents short circuits and electrocution risk . On the other hand, shunt trip breakers can be remotely shut off, for instance when there is fire damage- someone can turn off power to another building via a remote manual switch. Shunt trip breakers are important safety features in preventing damage to electrical equipment as well as injury to people.

Overall, shunt trip breakers add additional safety features to breakers and ultimately play an important role in the electrical system. They shut off electrical power during emergencies and serve to prevent damage to equipment and injury to people.

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What Is a Shunt Trip Breaker

22 December, 2021

What Is a Shunt Trip Breaker and How Does It Work?

If you’re looking for an easy way to shut off the electrical supply in your circuit, installing a shunt trip breaker may be worthwhile. Shunt trips can add additional protection to your electrical system to prevent short circuits and injury during a disaster in your home, such as a fire. 

Read on to learn the answers to “What is a shunt trip breaker?” and “What is the purpose of a shunt trip breaker?”’ 

What Is a Shunt Trip Circuit Breaker?

When a circuit breaker “trips,” it detects a fault condition and automatically shuts off its electrical flow to prevent the wiring from overheating. 

A shunt trip breaker is an optional accessory for your circuit breaker that can allow you to trip the breaker remotely at any time or automatically during a surge, preventing injuries and equipment damage during emergencies. 

There are two main types of shunt trip breakers: automatic and manual. Manual switches allow you to turn off the breaker outside the building using a remote button. Meanwhile, automatic switches shut off power as soon as they detect a surge from an external power source. 

How Does a Shunt Trip Breaker Exactly Work?

Typically, electrical currents travel through your house’s circuit breaker unchanged. However, when these currents surge too high, the extra surge of power charges an electromagnet beneath the main breaker switch, tripping the switch and cutting power. 

A shunt trip breaker provides an additional method to charge the electromagnet and trip the switch, allowing for a remote or automatic power shutoff. 

Some shunt trips connect to an external power source. Anytime a power surge reaches this source, a signal travels from the shunt trip to the breaker, mechanically cutting the power. 

Alternatively, a shunt trip can connect to a remote switch outside the building. Pressing a button on this switch sends an electrical surge through the shunt trip wiring and shuts off the power that way. 

While shunt trip breakers are not required in homes, many homeowners install them as a safety precaution. However, these devices are also common in businesses that use industrial machinery or expensive electrical systems that could experience damage during a power surge. 

Why Are Shunt Trip Breakers Important?

You can use a shunt trip breaker within your home to create an additional way to shut off your house’s electrical current during an emergency, preventing injury or electrical damage. 

One of the most common ways people use shunt trips is to shut off electrical equipment during a fire. Connecting the shunt trip to a smoke alarm can automatically shut off electricity as soon as the smoke detector triggers an alarm, preventing electrical hazards from the fire. 

Installing a shunt trip may be especially important if your smoke detector connects to a sprinkler system. This device can shut down your electrical power as soon as the smoke detector triggers the sprinklers, reducing the risk of electrocution and minimizing damage to your electrical equipment. 

Installing a shunt trip breaker is a quick and easy safety precaution that could prevent injury and expensive electrical damage down the line. Now that you know the answer to “what is a shunt trip breaker used for?” browse our Electrical Supply Distribution inventory of shunt trips today to discover the perfect shunt trip breaker for your home.

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Wire A Shunt Trip Breaker: Your Step-by-step Visual Guide

In the world of electrical engineering , dances with complex equipment are common. Few dances are as intricate as the one with the shunt trip breaker. As seasoned professionals, we guide you through this delicate ballet, ensuring your safety and the seamless operation of your electrical system.

Our comprehensive visual guide will demystify shunt trip breaker wiring, breaking down the process into manageable steps. By the end of this journey, you’ll possess the knowledge and skills to wire a shunt trip breaker with confidence.

First, let’s explore what a shunt trip breaker is and why it’s a crucial component in an electrical system.

Key Takeaways

• Shunt trip breakers are crucial in industrial settings and high-risk areas to prevent electrical fires and other hazards.
• The wiring diagram of a shunt trip breaker allows it to receive a signal from a separate source for immediate shutdown.
• The key parts of a shunt trip breaker include the coil, breaker mechanism, and trip unit, which work together to cut off power in case of overloads or faults.
• Proper installation and regular maintenance of shunt trip breakers are essential for ensuring system safety and efficiency.

Understanding the Importance and Functionality of Shunt Trip Circuit Breakers

Diving into the heart of our discussion, it’s crucial to understand just what a Shunt Trip Circuit Breaker is. This innovative device shuts off an electrical circuit when it detects a problem, such as an overload or short circuit . This proactive functionality greatly reduces the risk of electrical fires and other potential hazards.

Its unique design allows the breaker to receive a signal from a separate source that triggers an immediate shutdown when necessary. This feature is particularly beneficial in environments where immediate circuit disconnection is paramount, like in industrial settings or high-risk areas.

Precision is key when installing a shunt trip breaker. A wrongly connected wire can compromise the breaker’s functionality, possibly leading to a dangerous situation. So, we strongly recommend professional installation to ensure the safety and efficiency of your electrical system.

Learning the Basics: Diagrammatic Representation of a Shunt Trip Breaker

To grasp the workings of a shunt trip breaker, let’s delve into its diagrammatic representation. A shunt trip breaker is comprised of key parts like the coil, the breaker mechanism, and the trip unit. These parts work together to safely distribute electricity and prevent dangerous overloads.

The current first enters through the coil. When an electrical fault is detected, the coil becomes energized, triggering the trip unit. This in turn activates the breaker mechanism, causing the breaker to trip and cut off the power. It’s a simple and efficient system and serves as an innovative solution for electrical safety.

Detailed Steps to Wire a Shunt Trip Breaker Safely and Efficiently

Ready to wire a shunt trip breaker ? Start by preparing your workspace. Clear the area of any debris and make sure you have good lighting . Assemble your tools, which include a screwdriver, wire stripper, and multimeter.

Once your workspace is ready, follow the step-by-step process. Start by turning off the main power supply. After that, connect the shunt trip breaker to the circuit. Be sure to connect the wires correctly: the black wire to the breaker terminal, the white neutral wire to the neutral bus bar, and the green or bare ground wire to the ground bus bar.

Avoid common pitfalls like loose connections and incorrect wiring. Always double-check your work to ensure everything is wired correctly.

Connecting the Shunt Trip: An Essential Accessory for System Safety

A functioning shunt trip breaker represents an innovative approach to electrical safety. It automatically cuts power in the event of an electrical anomaly, shielding your system from damage. Hence, the importance of connecting the shunt trip can’t be overstated.

To wire a shunt trip breaker, we must employ a methodical approach. Connect the shunt trip coil to the breaker’s auxiliary terminal. Secure the connection using the recommended fasteners. Always test the shunt trip breaker to ensure it operates correctly and inspect the connection regularly for ongoing safety.

Troubleshooting Tips: Ensuring a Reliable Shunt Trip Breaker Connection

Even with careful installation, occasional challenges may arise in the wiring of a shunt trip breaker. To empower you further, let’s delve into troubleshooting tips for maintaining a reliable connection.

• Faulty Connections : If the shunt trip breaker isn’t functioning as expected, inspect the connections thoroughly. Ensure they are tight and secure. Reconnect any loose wires and tighten screws appropriately.
• Testing Procedures : Regularly test the shunt trip breaker using the recommended testing procedures. If the breaker fails to trip during a test, reassess the wiring and consult the manufacturer’s guidelines for troubleshooting.
• Voltage Issues : Check the voltage supply to the shunt trip breaker. Ensure it aligns with the specified requirements. Any discrepancies may affect the breaker’s performance. Consult a professional if voltage-related concerns persist .
• Visual Inspection : Periodically inspect the breaker for signs of wear, damage, or overheating. Replace any damaged components promptly. Visual cues can provide early warnings of potential issues.
• Interference and Environmental Factors : Assess the surrounding environment for potential interferences, such as electromagnetic interference or extreme temperatures. Shield the breaker from external factors that could compromise its functionality.

By familiarizing yourself with these troubleshooting techniques, you can address issues promptly, ensuring a reliable and efficient shunt trip breaker connection. Remember, a well-maintained breaker contributes significantly to the overall safety and reliability of your electrical system.

Are the Wiring Steps for a Shunt Trip Breaker Similar to a Water Well Pressure Switch?

No, the wiring steps for a shunt trip breaker are not similar to a water well pressure switch. While both involve wiring, the purpose and functionality of each are different. In the case of a shunt trip breaker, the wiring process will be specific to its functionality and requirements, and would not be interchangeable with water well pressure switch wiring .

In wrapping up, we’ve guided you through the crucial steps of wiring a shunt trip breaker. We trust you now understand its importance and how it operates.

With safety as our primary concern, we’ve shown you the right way to connect the shunt trip. Remember, knowledge is power, and this guide arms you with the needed expertise.

Keep exploring our guides for more practical electrical tutorials. Your safety and satisfaction are our top priorities.

Frequently Asked Questions

What is a shunt trip breaker.

A shunt trip breaker is a type of circuit breaker that can be triggered remotely to trip the breaker. It is frequently used in commercial kitchens, elevators, and other applications where the breaker needs to be tripped manually or remotely in case of an emergency.

Can you explain the shunt trip breaker wiring diagram?

The shunt trip breaker wiring diagram shows the connections for the shunt trip terminals, control circuit, and external power source. It also illustrates how the breaker is typically wired to trip the circuit breaker remotely or automatically during a surge or in case of an emergency such as a smoke alarm.

What is the purpose of a shunt trip breaker?

The main purpose of a shunt trip breaker is to provide circuit protection and to trip the breaker remotely or automatically during a surge, alarm, or emergency situation. It can help minimize equipment damage and ensure the safety of the electrical system.

How does a shunt trip breaker work?

A shunt trip breaker works by using an electromagnet to trip the breaker when it receives a signal from the control circuit. This can be done manually, through a relay, or remotely depending on the particular shunt trip accessories and model of the breaker.

What are the components of a shunt trip breaker?

A shunt trip breaker includes the main circuit breaker, shunt trip terminals, external power source, control system, and the shunt trip accessories. These components work together to trip the breaker manually or remotely in case of an emergency.

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Discover other Eaton products and accessories built to enhance this product.

PDG20G0045VFFK

Eaton Power Defense Globally Rated, Frame 2, Four Pole (0% N), 45A, 35kA/480V, 50C Cal T-M (Fxd-Fxd) TU, Std Term Line Only (PDG2X4T100)

PDG24N0100E3WL

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Four-pole (100% N), 100A, 85kA/480V, PXR20 LSIG w/ Modbus RTU, ZSI and Relays, Standard Terminals Load Only (PDG2X4T100)

PDG24F0100P2ML

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Four Pole (100% N), 100A, 25kA/480V, PXR25 LSI w/ Modbus RTU and Relays, Standard Terminals Load Only (PDG2X4T100)

PDG20N0200VFFN

Eaton Power Defense Globally Rated, Frame 2, Four Pole (0% N), 200A, 85kA/480V, 50C Cal T-M (Fxd-Fxd) TU, No Terminals

PDG23K0200P9MK

Power Defense Globally Rated, Frame 2, Three Pole, 200A, 50kA/480V, PXR25 LSIG Motor Protection w/ Modbus RTU and Relays, Standard Terminals Line Only (PDG2X3TA225)

PDG24K0150P2MK

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Four Pole (100% N), 150A, 50kA/480V, PXR25 LSI w/ Modbus RTU and Relays, Standard Terminals Line Only (PDG2X4TA225)

PDD23M0125TFFJ

Eaton Power Defense molded case circuit breaker, UL/CSA 240V Max, Frame 2, Three Pole, 125A, 100kA/240V, T-M (Fxd-Fxd) TU, Standard Line and Load (PDG2X3TA225)

PDD22P0070TFFJ

Eaton Power Defense molded case circuit breaker, UL/CSA 240V Max, Frame 2, Two Pole, 70A, 200kA/240V, T-M (Fxd-Fxd) TU, Standard Line and Load (PDG2X2T100)

PDG20P0090TFFK

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Four Pole (0% N), 90A, 100kA/480V, T-M (Fxd-Fxd) TU, Standard Terminals Line Only (PDG2X4T100)

PDG24G0100P2ML

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Four Pole (100% N), 100A, 35kA/480V, PXR25 LSI w/ Modbus RTU and Relays, Standard Terminals Load Only (PDG2X4T100)

PDG23G0060E2WL

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Three Pole, 60A, 35kA/480V, PXR20 LSI w/ Modbus RTU, ZSI and Relays, Standard Terminals Load Only (PDG2X3T100)

PDG26M0060VFFL

Eaton Power Defense Globally Rated, Frame 2, Four Pole (60% N), 60A, 65kA/480V, 50C Cal T-M (Fxd-Fxd) TU, Std Term Load Only (PDG2X4T100)

PDG24P0060E2RN

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Four-pole (100% N), 60A, 100kA/480V, PXR20 LSI w/ Relays, No Terminals

PDG23P0150B2NL

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Three Pole, 150A, 100kA/480V, PXR10 LSI TU, Standard Terminals Load Only (PDG2X3TA225)

PDG23G0100E3WJ

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Three Pole, 100A, 35kA/480V, PXR20 LSIG w/ Modbus RTU, ZSI and Relays, Standard Line and Load (PDG2X3T100)

PDG26P0125VFFK

Eaton Power Defense Globally Rated, Frame 2, Four Pole (60% N), 125A, 100kA/480V, 50C Cal T-M (Fxd-Fxd) TU, Std Term Line Only (PDG2X4TA225)

PDG26M0090TFFN

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Four Pole (60% N), 90A, 65kA/480V, T-M (Fxd-Fxd) TU, No Terminals

PDG20F0025TFFL

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Four Pole (0% N), 25A, 25kA/480V, T-M (Fxd-Fxd) TU, Standard Terminals Load Only (PDG2X4T100)

PDG22K0070TFFK

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Two Pole, 70A, 50kA/480V, T-M (Fxd-Fxd) TU, Standard Terminals Line Only (PDG2X2T100)

PDG23G0100P9ML

Power Defense Globally Rated, Frame 2, Three Pole, 100A, 35kA/480V, PXR25 LSIG Motor Protection w/ Modbus RTU and Relays, Standard Terminals Load Only (PDG2X3T100)

PDG24P0040TFFL

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Four Pole (100% N), 40A, 100kA/480V, T-M (Fxd-Fxd) TU, Standard Terminals Load Only (PDG2X4T100)

PDD22G0015TFFK

Eaton Power Defense molded case circuit breaker, UL/CSA 240V Max, Frame 2, Two Pole, 15A, 65kA/240V, T-M (Fxd-Fxd) TU, Standard Terminals Line Only (PDG2X2T100)

PDG23N0125VFFJ

Eaton Power Defense Globally Rated, Frame 2, Three Pole, 125A, 85kA/480V, 50C Cal T-M (Fxd-Fxd) TU, Std Line Load Term (PDG2X3TA225)

PDG20K0200VFFN

Eaton Power Defense Globally Rated, Frame 2, Four Pole (0% N), 200A, 50kA/480V, 50C Cal T-M (Fxd-Fxd) TU, No Terminals

PDG23G0100P9MJ

Power Defense Globally Rated, Frame 2, Three Pole, 100A, 35kA/480V, PXR25 LSIG Motor Protection w/ Modbus RTU and Relays, Standard Line and Load (PDG2X3T100)

PDD23P0090TFFL

Eaton Power Defense molded case circuit breaker, UL/CSA 240V Max, Frame 2, Three Pole, 90A, 200kA/240V, T-M (Fxd-Fxd) TU, Standard Terminals Load Only (PDG2X3T100)

PDD22P0070TFFK

Eaton Power Defense molded case circuit breaker, UL/CSA 240V Max, Frame 2, Two Pole, 70A, 200kA/240V, T-M (Fxd-Fxd) TU, Standard Terminals Line Only (PDG2X2T100)

PDG24P0225E3XN

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Four-pole (100% N), 225A, 100kA/480V, PXR20 LSIG w/ CAM Link, ZSI and Relays, No Terminals

PDG24M0035VFFN

Eaton Power Defense Globally Rated, Frame 2, Four Pole, 35A, 65kA/480V, 50C Cal T-M (Fxd-Fxd) TU, No Terminals

PDG20K0110VFFL

Eaton Power Defense Globally Rated, Frame 2, Four Pole (0% N), 110A, 50kA/480V, 50C Cal T-M (Fxd-Fxd) TU, Std Term Load Only (PDG2X4TA225)

PDG23F0150P2MJ

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Three Pole, 150A, 25kA/480V, PXR25 LSI w/ Modbus RTU and Relays, Standard Line and Load (PDG2X3TA225)

PDD22P0045TFFK

Eaton Power Defense molded case circuit breaker, UL/CSA 240V Max, Frame 2, Two Pole, 45A, 200kA/240V, T-M (Fxd-Fxd) TU, Standard Terminals Line Only (PDG2X2T100)

PDD23M0080VFFN

Eaton Power Defense 240V Max, Frame 2, Three Pole, 80A, 100kA/240V, 50C Cal T-M (Fxd-Fxd) TU, No Terminals

PDG23F0060D2DJ

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Three Pole, 60A, 25kA/480V, PXR20D LSI w/ Modbus RTU, CAM Link and Relays, Standard Line and Load (PDG2X3T100)

PDG23G0225E2ML

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Three Pole, 225A, 35kA/480V, PXR20 LSI w/ Modbus RTU and Relays, Standard Terminals Load Only (PDG2X3TA225)

PDG22K0035TFFJ

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Two Pole, 35A, 50kA/480V, T-M (Fxd-Fxd) TU, Standard Line and Load (PDG2X2T100)

PDG26M0100TFFL

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Four Pole (60% N), 100A, 65kA/480V, T-M (Fxd-Fxd) TU, Standard Terminals Load Only (PDG2X4T100)

PDD22P0090TFFN

Eaton Power Defense molded case circuit breaker, UL/CSA 240V Max, Frame 2, Two Pole, 90A, 200kA/240V, T-M (Fxd-Fxd) TU, No Terminals

PDG23G0150P2YN

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Three Pole, 150A, 35kA/480V, PXR25 LSI w/ Modbus RTU, CAM Link, ZSI and Relays, No Terminals

PDG23K0150P8DK

Power Defense Globally Rated, Frame 2, Three Pole, 150A, 50kA/480V, PXR25 LSI Motor Protection w/ Modbus RTU, CAM Link and Relays, Standard Terminals Line Only (PDG2X3TA225)

PDG22K0150VFFK

Eaton Power Defense Globally Rated, Frame 2, Two Pole, 150A, 50kA/480V, 50C Cal T-M (Fxd-Fxd) TU, Std Term Line Only (PDG2X2TA225)

PDG23K0020VFFK

Eaton Power Defense Globally Rated, Frame 2, Three Pole, 20A, 50kA/480V, 50C Cal T-M (Fxd-Fxd) TU, Std Term Line Only (PDG2X3T100)

PDG26N0020VFFL

Eaton Power Defense Globally Rated, Frame 2, Four Pole (60% N), 20A, 85kA/480V, 50C Cal T-M (Fxd-Fxd) TU, Std Term Load Only (PDG2X4T100)

PDG24G0100D3WN

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Four Pole (100% N), 100A, 35kA/480V, PXR20D LSIG w/ Modbus RTU, ZSI and Relays, No Terminals

PDG23N0150E3WN

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Three Pole, 150A, 85kA/480V, PXR20 LSIG w/ Modbus RTU, ZSI and Relays, No Terminals

PDG26K0200VFFL

Eaton Power Defense Globally Rated, Frame 2, Four Pole (60% N), 200A, 50kA/480V, 50C Cal T-M (Fxd-Fxd) TU, Std Term Load Only (PDG2X4TA225)

PDG22F0035TFFN

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Two Pole, 35A, 25kA/480V, T-M (Fxd-Fxd) TU, No Terminals

PDG23M0060D2YJ

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Three Pole, 60A, 65kA/480V, PXR20D LSI w/ Modbus RTU, CAM Link, ZSI and Relays, Standard Line and Load (PDG2X3T100)

PDG24G0060P3ML

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Four Pole (100% N), 60A, 35kA/480V, PXR25 LSIG w/ Modbus RTU and Relays, Standard Terminals Load Only (PDG2X4T100)

PDG26K0150TFFK

Eaton Power Defense molded case circuit breaker, Globally Rated, Frame 2, Four Pole (60% N), 150A, 50kA/480V, T-M (Fxd-Fxd) TU, Standard Terminals Line Only (PDG2X4TA225)

General specifications

Delivery program, general information, technical data - electrical.

• Power Defense brochure -->
• Power Defense technical selling booklet -->
• Power Defense molded case circuit breaker selection poster -->

Installation instructions

• Power Defense Frame 2 Shunt Trip_UVR Instructions -->
• Power Defense Frame 2 shunt trip UVR instructions - IL012130EN -->

Installation videos

• Power Defense Frame 2 withTMTU, Shunt Trip_UVR Animated Instructions.rh -->
• Power Defense Frame 2 TMTU Aux, Alarm, ST and UVR Animated Instructions.rh -->
• Power Defense Frame 2 Aux, Alarm, Shunt Trip, and UVR How-To Video -->
• Power Defense Breakers -->
• Power Defense Frame 5 Trip Unit How-To Video -->
• Power Defense Frame 2 Variable Depth Rotary Handle Mechanism Installation How-To Video -->
• Eaton Power Defense for superior arc flash safety -->
• Power Defense molded case circuit breakers -->
• Power Defense Frame 3 Variable Depth Rotary Handle Mechanism Installation How-To Video -->
• Power Defense Frame 6 Trip Unit How-To Video -->

Specifications and datasheets

• Eaton Specification Sheet - PDG2XST24ACDCS -->

White papers

• Molded case and low-voltage breaker health -->
• Safer by design: arc energy reduction techniques -->

Export product specification

• Power Defense molded case circuit breakers

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