Close
(0) Shopping cart
You have no items in your shopping cart.
Shopping Categories
    Filters
    Preferences
    Search

    Contactors

    View as Grid List
    Display per page
    Sort by

    25 Amps 3 Pole AC Contactor 24V/110V/220V Coil

    $62.67
    SKU: ATO-ACCON-025
    Low price 3 pole AC contactor for sale, 25 amps at 380V, coil rated voltages with 24V/110V/220V AC for selection, 3P+NO or 3P+NC contact form, free shipping and manufacturer direct sale.

    25A Star Delta Starter, 11kW/ 18.5kW, 220V/ 380V AC

    $121.29
    SKU: ATO-STAR-25
    25A starting current star delta starter for 3 phase induction motor circuit control, economic price, 11kW/ 18.5kW power, working at 220V or 380V AC voltage, optional contact form 3P+NO or 3P+NC. This y â–³ motor connection starter consists of 3 contactors and an air delay head for 15Hp or 25Hp motor.

    200A High Voltage DC Contactor, 12V/24V coil

    $161.08
    SKU: ATO-DCCON-HV200
    High voltage DC contactor, built in energy saving coil, available with 12V or 24V DC, normally open type (SPST-NO), main contact rated load current is 200 amps, operating voltage up to 900V, maximum switching power up to 640 kW.

    32 Amps 3 Pole AC contactor 24V/110V/220V Coil

    $69.66
    SKU: ATO-ACCON-032
    The inexpensive bypass AC Contactor is suitable for using in the circuits AC 50Hz or 60Hz, rated voltage up to the 660V, high efficiency and reliability, make the contactor be widely used. 3 pole contactor relay has 32 amps current when used in AC-3 380V, and has 21 amps when used in AC-3 660V.

    32A Star Delta Starter, 15kW/ 25kW, 220V/ 380V AC

    $138.09
    SKU: ATO-STAR-32
    32 amps starting current star delta starter for 3 phase induction motor circuit control, economic price, working at 15kW/ 25kW power, 220V or 380V AC voltage available, optional contact form 3P+NO or 3P+NC. This wye delta motor connection starter consists of 3 contactors and an air delay head for 20Hp or 34Hp asynchronous motor.

    250A High Voltage DC Contactor, 12V/24V coil

    $179.54
    SKU: ATO-DCCON-HV250
    250A rated load current, main contact normal open (SPST-NO), available with 12V or 24V DC coil, switch rated loads at both low and high voltage from 12 to 900V DC. High voltage contactors offers exceptional performance in an extremely small and lightweight device.

    40 Amps 4 Pole AC Contactor 24V/110V/220V Coil

    $76.79
    SKU: ATO-ACCON-040
    Lowest price AC contactor on sale, 4 pole, 24 volt, 110 volt and 220 volt coil can be selected, it is avaliable with contact form 4P (4NO) or 4P (2NO+2NC). When bypass contactor used in AC-3 380V, the rated current is 40A, when used in AC-3 660V, rated current is 34A, favorable price and high safety.

    40A Star Delta Starter, 18.5kW/ 33kW, 220V/ 380V AC

    $199.29
    SKU: ATO-STAR-40
    High performance 40 amps starting current star delta starter consists of 3 contactors and an air delay head for 3 phase asynchronous motor circuit control, with low price, working at 18.5kW/ 33kW power, 220V or 380V AC voltage available, optional contact form 3P. This wye delta motor connection starter has short circuit protection, overload protection, missing phase protection and other functions.

    300A High Voltage DC Contactor, 12V/24V coil

    $186.15
    SKU: ATO-DCCON-HV300
    The ATO-ADH300 contactor has been designed for DC loads, particularly for DC high voltage field, operating voltage up to 900V. 300A rated load current of contact circuit, normal open (SPST-NO) main contacts with silver alloy tips, which are weld resistant, hard wearing and have excellent conductivity.

    400A High Voltage DC Contactor, 12V/24V coil

    $220.49
    SKU: ATO-DCCON-HV400
    Favorable price high voltage DC contactor for sale, with 400 amps rated load current of contact circuit, 1NO or 1NC contact form, available with 6V/12V/24V/36V/48V/60V/72V/84V/120V/150V/220V DC, 220V AC coils. This magnetic HVDC contactor is an electrical device designed to control and switch high voltage direct current circuits.

    50 Amps 4 Pole AC contactor 24V/110V/220V Coil

    $97.50
    SKU: ATO-ACCON-050
    This lightweight and convenient bypass AC contactor with 4P (4NO) or 4P (2NO+2NC) contact form, it has a lot coil voltage to choose like 24V, 110V, 220V. And when the voltage is at 380V, the rated current is 50A; voltage is at 660V, rated current is 39A. 4 pole contactor relay can be used for a long time and is also affordable.

    50A DC Reversing Contactor, 2 pole, 12V/24V/48V

    $74.31
    SKU: ATO-DCCON-R50
    Two pole DC reversing contacor with 2 sets of switching contacts, 2NO and 2NC form, 50 amps rated load current of contact circuit, coil rated voltage with 12V/24V/48V DC for selection. Cheap price and manufacturer direct sale.

    50A Star Delta Starter, 25kW/ 45kW, 220V/ 380V AC

    $215.09
    SKU: ATO-STAR-50
    Favorable price 50 amps starting current star delta starter consists of 3 contactors and an air delay head for 3 phase asynchronous motor circuit control, working at 25kW/ 45kW power, optional 220V or 380V AC voltage, contact form 3P. This wye delta motor connection starter has short circuit protection, overload protection, missing phase protection and other functions.

    800A High Voltage DC Contactor, 12V/24V coil

    $258.59
    SKU: ATO-DCCON-HV800
    Buy high voltage DC contactor online, with 800 amps rated load current of contact circuit, 1NO or 1NC contact form, available with 6V/12V/24V/36V/48V/60V/72V/84V/120V/150V/220V DC, 220V AC coils. This magnetic HVDC contactor is widely used in the DC high voltage field and offers exceptional performance in an extremely small and lightweight device.

    100A DC Reversing Contactor, 2 pole, 12V/24V/48V

    $126.46
    SKU: ATO-DCCON-R100
    Low cost reversing contacor with two interlocked contacts, to prevent the motor from running forwards and backwards simultaneously. 2 pole DC contactor with 2NO and 2NC (DPST-NO, DPST-NC) contact form, coil rated voltage with 12V/24V/48V DC for choice.

    125A DC Reversing Contactor, 2 pole, 12V/24V/48V

    $132.41
    SKU: ATO-DCCON-R125
    Excellent conductivity reversing contacor is designed for demanding forward/reverse control of the motors. 2 pole DC contactor with 12V/24V/48V coil, 2NO and 2NC contact form, and is available with two optional auxiliary contacts.

    200A DC Reversing Contactor, 2 pole, 12V/24V/48V

    $164.46
    SKU: ATO-DCCON-R200
    Contact circuit rated current 200 amps, 2 pole DC contactor with 12V/24V/48V coil for choice, DPST-NO, DPST-NC contact form, two interlocked contacts are designed to prevent the motor from running forwards and backwards simultaneously.

    300A DC Reversing Contactor, 2 pole, 12V/24V/48V

    $127.79
    SKU: ATO-DCCON-R300
    2 pole DC reversing contactor with 2NO and 2NC contact form, 300 amps rated load current of contact circuit, coil rated voltage with 12V/24V/48V DC for selection. This DC reversing contactor is used to control the direction of current flow in a direct current circuit, allowing for the reversal of the motor or other load.

    65 Amps 4 Pole AC Contactor 24V/110V/220V Coil

    $105.38
    SKU: ATO-ACCON-065
    Manufacturer price 4 pole magnetic contactor, 24 volt AC contactor with rate current 65 amp at 380V, 42 amp at 660V, low cost, high reliability and brand new, direct sale by manufacturer, good value for money.

    65A Star Delta Starter, 30kW/ 55kW, 220V/ 380V AC

    $245.29
    SKU: ATO-STAR-65
    Favorable price 65 amps starting current star delta starter for sale. This wye delta motor connection starter consists of 3 contactors and an air delay head for 3 phase asynchronous motor circuit control, working at 30kW/ 55kW power, optional 220V or 380V AC voltage, contact form 3P, which has short circuit protection, overload protection, missing phase protection and other functions.

    A contactor is an automatic electromagnetic switch that closes and disconnects the current through the contacts through electromagnetic force. In addition, the magnetic contactor also has a low pressure release function, which is suitable for frequent operation and running distance control.

    In electrical engineering, because the contactor is a device that can quickly cut off the AC and DC main circuits and can frequently turn on and off high-current control (up to 800A) circuits, it is often used in motors as control objects, and it can also be used as a control object. The electrical contactor is used to control electrical loads such as factory equipment, electric heaters, working mother machines and various power units. The contactor has a large control capacity, which is suitable for frequent operation and long-distance control, and is one of the important components in the automatic control system.

    Contactors are divided into AC contactors (voltage AC) and DC contactors (voltage DC). As a high-power switching device, it is widely used in aerospace, aviation, weapons, ships, electronics and other system equipment. The control load current is greater than 25A, and the voltage is 25VDC; 115VAC, 402Hz; 386VAC, 50Hz. The power distribution switch controls the power supply or controls the start-stop control of high-power motors. It is a key device in the equipment and plays an important role.

    How does the contactor work?

    The magnetic contactor is mainly composed of electromagnetic mechanism, contact system and arc extinguishing device. The electromagnetic mechanism is a sensing element, and when it senses a certain electrical signal, it will drive the contacts to close or break. It mainly includes coil, iron core and armature.

    When the contactor coil is energized, the coil current will generate a magnetic field, and the generated magnetic field will make the static iron core generate electromagnetic attraction to attract the moving iron core, and drive the AC contactor point to move, the normally closed contact is disconnected, the normally open contact is closed, and the two are linked. When the coil is powered off, the electromagnetic attraction disappears, and the armature is released under the action of the release spring, so that the contacts are restored, the normally open contacts are disconnected, and the normally closed contacts are closed. The working principle of a DC contactor is somewhat similar to that of a temperature switch.

    5 types of contactors on ATO.com

    DC contactor
    DC contactors

    DC contactor refers to a contactor whose iron core is DC control, and its load can be either DC or AC. The iron core of the DC contactor is different from the AC contactor. It has no eddy current, so it is generally made of mild steel or industrial pure iron into a round shape. Since the attracting coil of the DC contactor is connected to DC, there is no impact starting current, and there is no violent impact of the iron core, so it has a long service life and is suitable for frequent starting and stopping.

    AC contactor
    DC contactors

    AC contactors often use three types of arc extinguishing methods: double-break electric arc extinguishing, longitudinal seam arc extinguishing and grid arc extinguishing. It is used to eliminate the arc generated by the moving and static contacts during the opening and closing process. Contactors with a capacity of more than 10A have arc extinguishing devices. The AC contactor also has auxiliary components such as reaction spring, buffer spring, contact pressure spring, transmission mechanism, base and terminal.

    Vacuum contactor
    Vacuum contactor

    The vacuum contactor uses a vacuum interrupter to extinguish arcs to frequently connect and cut off the normal working current. It is usually used to remotely connect and disconnect medium and low voltage 6kV, 380V (660V, 1140V) with frequent start and stop. ) AC motor.

    Lighting contactor
    Lighting contactor.

    The lighting contactor is a relay switch, providing reliable and convenient lighting control. Magnetic contactors operate at lower but safer loads and optimize the electromagnetic system to reduce maintenance power.

    Definite purpose contactors
    Definite purpose contactor

    ATO has dedicated contactors designed for the heating, ventilation, air conditioning and refrigeration industries.

    What are the main parts of a contactor?

    Taking AC contactor as an example, it consists of electromagnetic mechanism, contact system, arc extinguishing system, reaction force device, bracket and base.

    1. Electromagnetic mechanism

    The composition of the electromagnetic mechanism: It is composed of electromagnetic coil, iron core and armature.

    The function of the electromagnetic mechanism: the closing and opening of the operating contacts.

    2. Contact system

    The magnetic contact is the first opening element of the contactor, which is used to make or break the controlled circuit. The contact system includes main contacts and auxiliary contacts.

    • Main contact: Used in the main circuit with large on-off current.
    • Auxiliary contact: Used to connect or disconnect the control circuit, only a small current can be passed.

    3. Arc extinguishing system

    Contactors with a capacity of more than 10A have arc extinguishing devices, often using longitudinal slit arc extinguishing covers and grid arc extinguishing devices.

    4. Reaction device

    Including spring, transmission mechanism, terminal and shell, etc.

    5. Brackets and bases

    For fixing and installation of contactors.

    Difference between AC contactor and DC contactor

    1. The main difference between AC contactor and DC contactor is in the iron core and coil. There are eddy currents in the electromagnet core of the AC contactor, so the electromagnet cores are made into pieces and stacked together. The electromagnet core of the current contactor is an integral iron core, the coil is slender and the number of turns is particularly large.

    2. The main circuit of the DC contactor is generally two poles, and the DC only has positive and negative poles. The AC contactor has three poles because of the opening and closing of three-phase electricity.

    3. For the AC circuit, when the contactor is disconnected, the overvoltage generated by the circuit is small. At the same time, when the AC arc has a zero-crossing time, the arc will be extinguished and reignited after the zero-crossing, so the AC arc measures are relatively easy. For the DC circuit, when the contactor is disconnected, the overvoltage generated by the circuit is too high, and the arc is not easy to extinguish. It can be seen that compared with the AC contactor, the DC arc extinguishing measures are relatively difficult.

    4. The protection coordination relationship (SCPD) of DC and AC is different, and the parameter table must be carefully consulted when using.

    Why use contactors to control motors?

    When the motor starts, its starting current is very large. Generally, the starting current of the motor should be 5-7 times, and the starting current of the small-capacity motor is larger. When the motor is disconnected, since the motor is an inductive load, a relatively high voltage will be induced at both ends of the switch contacts at the moment of disconnection, thereby breaking down the air gap between the contacts and forming an arc. Therefore, the electrical appliance that controls the breaking motor must have the ability to withstand the impact of the starting current and extinguish the arc when it is disconnected. Therefore, an electrical appliance with the above-mentioned capabilities, such as a contactor or an air switch, is chosen to control the breaking motor.

    The control relay node does not have the above functions, so use the relay node to start the contactor, and use the contactor node to control the motor. In places with a high degree of automation, the contactor is used as the final actuator for the start and stop of the motor due to its low price and reliability. Large motors above 4200KW are also controlled by air switches. This is often used in large industrial enterprises, because at this capacity class, the contactor is not sufficient. The most important thing is that the contactor can meet the closing-opening operation of 300,000 times, and can meet the component life requirements of frequent starting and stopping electrical circuits.