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    Electromagnetic Relays Price List

    Electromagnetic relays are important electrical devices widely used for circuit control and switching operations and play a key role in various applications. The price of electromagnetic relay varies depending on the type, specification, brand, and market region. In this article, we will discuss the price factors of electromagnetic relays and provide an ATO store electromagnetic relay price reference table to help you understand the price range of electromagnetic relays.

    Price Factors of Electromagnetic Relay

    • Type: Different types of electromagnetic relays have different prices. General-purpose relays are usually less expensive, while special-purpose relays, such as protection relays or time relays, can be more expensive.
    • Specifications: The specifications of an electromagnetic relay include parameters such as current capacity, voltage rating, and switching capacity. Relays with higher specifications usually cost more.
    • Dealers and Distributors: Different dealers and distributors may offer different prices and discounts. Purchase channel and supplier selection can also have an impact on the price of an electromagnetic relay.
    • Quality and Certifications: Buying in large quantities usually results in greater discounts, so the quantity purchased may affect the price of individual EMRs. Electromagnetic relays that meet specific standards and certifications are usually more expensive. These certifications can include UL, CE, or ISO certifications, among others.
    • Special Features and Add-ons: Some EM relays have special features or add-ons, such as overload protection, remote control, or communication interfaces, which can add to the cost.

    ATO Store Electromagnetic Relays Price List

    Product Name Voltage SKU USD
    Electromagnetic Relay, DPDT 12/24/110/220V coils ATO-EMR-HH52P 12.99
    Electromagnetic Relay, 3PDT 12/24/110/220V coils ATO-EMR-HH53P 12.99
    Electromagnetic Relay, 4PDT 12/24/110/220V coils ATO-EMR-HH54P 12.99
    Electromagnetic Relay, 8-pin DPDT 12V/24V/110V/220V coil ATO-EMR-MK2P1 53.69
    Electromagnetic Relay, 11-pin 3PDT 12V/24V/110V/220V coil ATO-EMR-MK3P1 53.69
    Electromagnetic Relay, 8-pin DPDT 12V/24V/110V/220V ATO-EMR-13F2Z 53.77
    Electromagnetic Relay, 11-pin 3PDT 12V/24V/110V/220V ATO-EMR-13F3Z 53.77
    Electromagnetic Relay, 14-pin 4PDT 12V/24V/110V/220V ATO-EMR-13F4Z 53.77
    Electromagnetic Relay, 3PDT 12/24/48/110/220V ATO-EMR-38F 57.51
    Electromagnetic Relay, DPDT 12/24/48/110/220V ATO-EMR-P30F 55.99
    Slim Interface Electromagnetic Relay 24V DC ATO-EMR-24VDC 44.86

    Future Prospects

    Electromagnetic relays play a key role in the field of electrical control, and despite the development of electronics in the last few decades which has led to the emergence of new technologies such as solid-state relays, electromagnetic relays continue to have important application prospects. In the future, electromagnetic relays will continue to develop and innovate in the following areas.

    1. High-performance Applications: Electromagnetic relays are uniquely suited for several high-performance applications, such as high-current and high-voltage applications, as well as environments that require reliable switching operations. The electromagnetic relays of the future will continue to improve their performance to meet these needs.
    2. Intelligence and Automation: Electromagnetic relays can be integrated into intelligent and automated systems, enabling higher levels of functionality through digital control and monitoring. This will play an important role in areas such as industrial automation, building automation, and home automation.
    3. Energy Efficiency and Sustainability: EMR will be designed and manufactured with a greater focus on energy efficiency and sustainability. This will include the use of energy-efficient materials and production processes to reduce resource consumption and environmental impact.
    4. Fault Detection and Maintenance: Electromagnetic relays of the future will have more advanced fault detection and predictive maintenance features to increase reliability and reduce downtime.
    5. Connectivity and Interconnectivity: Electromagnetic relays will be more integrated with interconnected devices and systems to enable remote monitoring and control functions. This will help enable the smart grid, the industrial internet, and the Internet of things.

    Electromagnetic relays will continue to play a role in a variety of applications, especially in areas where high reliability and durability are required. As technology continues to advance, electromagnetic relays will evolve to meet the future needs of electrical control and contribute to a safer, sustainable, and smarter world.

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