CONTACTORS | ALL YOU NEED TO KNOW ABOUT CONTACTORS

By October 1, 2019Article
Magnetic contactor functions

What is Contactor?

Basically, a contactor is an electrical switching device. It is used for switching an electrical circuit on and off. It is a special type of relay, but there is a basic difference between the contactor and a relay. The contactor is mostly used in applications where higher current carrying capacity is involved, while the relays are used for lower current applications. Contactors are compact and can be field mounted easily. Usually, these devices feature multiple contacts. The contacts are mostly normally open, and they provide operating power to the load whenever the contactor coil is powered. Contactors are popularly used with electric motors.

There are different types of contactors, and the various types have their own sets of features, applications, and capabilities. Contactors can take over a vast range of currents, ranging from a few to thousands of amperes, and voltage from 25VDC to thousands of volts. Furthermore, these devices come in various sizes, from small hand-held dimensions to large sizes measuring up to a meter or a yard on one side.

What is a contractor / ABB-Mini contactor

What is a contractor / ABB-Mini contactor

Contactors are most commonly used with high-current load because of their capability to handle current well over 5000 amperes and high power well over 100kW. When heavy motor currents are interrupted, they produce arcs. A contactor can be used to reduce and control these arcs.

Operating Principle of a Contactor:

The operating principle of the contactor is quite simple; the current flowing through the contactor energizes the electromagnet. The energized electromagnet then creates a magnetic field. This causes the core of the contactor to move the armature. The circuit is then completed between the fixed and moving contacts by a normally closed (NC) contact allowing the current to pass through the contacts to the load. When the current is stopped from passing through, the coil is de-energized and opens the circuit. The contactors contacts are able to rapidly open and close, which is why they are able to handle larger loads. Since contactors are designed to rapidly open and close contacts, moving contacts may bounce as they rapidly collide with fixed contacts. Bifurcated contacts are used in many contactors to avoid bouncing.

The current input to the contactor coil may be DC or AC (available in different voltage ranges between 12VAC or 12VDC to 690VAC or 440VDC). Small amount of power is used up by the contactor coil during its operation. To reduce the amount of power drained by the contactor coil during operation, economiser circuits are employed.

Contactors with AC coils are equipped with shading coils. Otherwise, the contactor will chatter every time the AC crosses zero. Shading coils are able to delay demagnetization of the magnetic core to avoid chattering. DC coils do not need shading as the flux produced is always constant.

Functions of a Contactor

When electric current pass through the contactor, it causes the electromagnet to create a strong magnetic field. This magnetic field pulls the armature into the coil, and this creates an electrical arc. Electric currents flow in through one contact and into the device in which the contactor is embedded. Therefore, the function of the contactor is to switch an electrical circuit on or off. Overloading of the circuit can be preventedby adding an thermal overload relay.

To deactivate, the contactor can be pulled out of the parent device in which it’s embedded and operating. In the absence of electric current flowing through, the spring pushes the armature, thus breaking the connection.

Types of contactors

Magnetic Contactors

These are the most common types available and for good reason as they are more efficient than the previously mentioned types.  These contactors operate electromechanically and do not require human intervention. With their advanced technologies, they can be operated remotely, and this makes them safer and more efficient since they will not required to be operated manually. Only a small amount of current is needed by the magnetic contactor to open and close the circuit, so it is also energy efficient.

Magnatic Contator SC5-1 - Electgo

Magnatic Contator SC5-1 – Electgo

 

Learn more about: Magnetic Contactor: Meaning – Functions – Parts – Types

Knife Blade Switch

The knife blade switch contactors were introduced in the late 1800s. It is safe to assume that they were probably the first types of contactors that were used. Their applications were mostly to control electric motors. They consisted of a metal strip which is designed to drop into a contact when operational. The switch was equipped with a lever for pulling it up or pushing it down. Back then, the contactors were so big; one had to stand next to the knife switchblade to level the switch into a closed position.  However, as with old technologies, this method of switching was not efficient enough, and there was functional problems that came with it. The main problem was that it made the contacts wear out quickly. It was difficult to manually open or close the switch quick enough to prevent arcing; as a result, the soft copper switches underwent corrosion, this process made them more vulnerable to dirt and moisture which led to rusting. As years passed and technology began to advance, larger motors were developed. The larger the motors, the more currents they require to work. But it is extremely dangerous to operate such high current carrying switches, so these type of contactors were no longer efficient. Even though technology was continuously improving, the knife blade switches could not be fully developed due to the problems and risks of operational hazards and short life of the contacts

Manual Controller

After discovering the dangers involved with the use of the knife switchblade, engineers and researchers came up with another contactor device which offered better safety and a number of features that were not available in the knife blade switch. The new design was called the Manual Controller. The new features added include:

  • Encasement for the unit
  • Reduced sizes, making it easier to operate
  • Double break contacts are used to replace single break contacts.
  • And lastly, the device is much safer to operate.

Among the new features added, apart from the safety feature, the next most important feature of this new design is the addition of the double break contacts. These new contacts are designed to open the circuit in two places at the same time. So even in smaller space, it enables you to work with more current. As the name implies, the double break contacts break connections such that it forms two sets of contacts. The button or switch of the manual controller is attached to the controller so it cannot be operated remotely.

Once the manual controller is activated, the power circuit is engaged, and it carries the electric currents to the load. Due to its better efficiency and safety of operation, the manual contactors replaced the knife blade switches and even today; they are still being used, albeit not as much as in the 1900s.

Related topics: How to choose right contactor for your motor

Differences between a contactor and a relay

Relays, just like contactors, are devices that are used to open or close circuits electromechanically or electronically. Relays are not just switching devices; they are primary protection as well in most control processes or equipment. All relays can be classified with one or more electrical quantities like current or voltage such that can close or open circuits or contacts.

As mentioned before, a contactor is an electromechanical switch used primarily for opening or closing electrical circuits. A contactor is usually controlled by a circuit that has a lower power level compared to the switched circuit — for instance, a 24-volt coil controlling a 240-volt motor switch.

Below are areas in which these devices have differences.

  • Application

The major difference between both devices is that contactors are more powerful than relays, so they are used for high power applications

  • Load Capacity

Contactors can be used in control circuits that have both high and low current capacity that is between 9Ato 1250A. While

Relays are used in control circuits with only low current capacity, that is, between 5Aand 15A.

  • Design

Contactors are designed mainly for three-phase applications. However, relays are primarily designed for single-phase applications.

  • Safety Components

Contactors are designed to handle high voltage applications and high voltage translates to more danger. So, to prevent accidents, safety features such as spring-loaded contacts have been added to the device. Spring-loaded contact is a feature that prevents internal short circuit if the contactor gets into overload situations. Another safety feature on the device is the Magnetic Arc Suppressor. This feature helps to remove or reduce sparks formed when contacts carrying currents are separated.

Differences between a contactor and a relay

Differences between a contactor and a relay

Relays, whereas, do not have these safety features.

  • Switching Speed

Contactors are much slower than Relays when it comes to switching speed, so because of this, relays can be operated using electronic signals.

  • Power Consumption

Contactors consume more power than relays because relays make use of smaller electromagnets than contactors.

  • Size and Cost

Because contactors are used for high current capacity applications, they are relatively larger and heavier than relays. Obviously, because of the difference in size, efficiency, and functionality, contactors are costlier than relays.

Hence, with all that has been said in this article, you’re probably thinking about getting a contactor. Buy starters and contactors online at sg.electgo.com.Shop at wholesale prices for Power Contactors, Auxiliary Contacts, Overload Relays, etc. Electgo also offer products at lower rates to registered customers, i.e., customers who have signed up on the website. If you aren’t able to install the contactor yourself, do not worry. We have in house engineers who will be able to help you with that and all other engineering issues you may have with contactors.  For each product you purchase, you get a contactor spreadsheet to go with it. Nice!

>>> Where I can buy Contactor

Ngan

About Ngan