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Industrial Relays(Terminal shape:Solder)

Industrial Relays are crucial components in the world of factory automation, designed to make the work of engineers smoother and more efficient. Think of them as traffic controllers for electrical signals within your automation system. These relays come in different types, like socket/plug-in, solder/tab (with dual-purpose), and solder versions. They're especially useful for circuit boards, the brains of your automation setup. Tab terminal relays can be easily attached with screws, while solder relays are connected through soldering techniques.These relays have various roles. They serve as power relays, which handle larger electrical currents, and latching relays that maintain their state even after the input signal is removed. Additionally, miniature relays play a vital role in transferring signals between different parts of a system. Their efficiency in managing electrical signals contributes significantly to the seamless functioning of automation processes.For engineers specializing in factory automation, understanding the functions and applications of Industrial Relays is essential. These relays act as decision-makers, directing the flow of electrical currents in the right direction. By comprehending their types – socket/plug-in, solder/tab – and their uses, from power and latching to miniature relays, engineers can optimize their automation systems' performance. This makes Industrial Relays a cornerstone of effective and reliable factory automation.
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    Power Relay MM

    Power Relay MM

    OMRON

    Power relay with stable contact reliability and high durability.
    [Features]
    ·Easy mounting, wiring and handling
    ·Available in a large selection of models including various forms of contacts, direct current load switching and surface-mount type
    ·High durability with a mechanical life of 5,000,000 cycles and electrical life of 500,000 cycles (under rated load)
    ·Also available are models with built-in diodes and models compliant with auxiliary power relays (JEC-174D)
    [Applications]
    ·Used in various fields to improve the reliability and for miniaturization of equipment

    • Volume Discount
    Coil rated voltage (DC)(V) Contact Configuration Terminal shape Contact rated current (minimum value for AC and DC)(A) Coil rated voltage (AC)(V) Application Latch function Representative Standard Dimension height(mm) Dimension width(mm) Dimension depth(mm)
    - 2c / 3c / 4c Solder 15 100/110 Power NA - 53.5 ~ 67.5 40 ~ 67 56
    From: ₹ 2,835.95
    Days to Ship: 5 Day(s) or more
    day to ship 5 Day(s) or more
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Product Series
From
Days to Ship
Coil rated voltage (DC)(V)
Contact Configuration
Terminal shape
Contact rated current (minimum value for AC and DC)(A)
Coil rated voltage (AC)(V)
Application
Latch function
Representative Standard
Dimension height(mm)
Dimension width(mm)
Dimension depth(mm)

    You can add up to 6 items per a category to the compare list.

    Power Relay MM
      Brand

      OMRON

      Product Series

      Power Relay MM

      From

      ₹ 2,835.95

      Days to Ship 5 Day(s) or more
      Coil rated voltage (DC)(V)-
      Contact Configuration2c / 3c / 4c
      Terminal shapeSolder
      Contact rated current (minimum value for AC and DC)(A)15
      Coil rated voltage (AC)(V)100/110
      ApplicationPower
      Latch functionNA
      Representative Standard-
      Dimension height(mm)53.5 ~ 67.5
      Dimension width(mm)40 ~ 67
      Dimension depth(mm)56

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      1. 1

      Related Categories to Industrial Relays

      FAQ Industrial Relays

      Question: How many types of relays (industrial relays)?
      Answer: There are various types of relays, and they are classified into different categories according to their properties.
      Based On Operation Principles (4 types)
      1.1 Electrothermal Relay, an electrothermal relay is made up of a bimetallic (made up of two metals having different thermal expansion coefficients) strip.
      1.2 Electromechanical relays This type of relay uses electrical power to move the electromagnetic coil. to control the movement of the contact.
      1.3 Solid State Relay, SSR relay is made up of semiconductors instead of mechanical parts and it works on isolating the low voltage circuit from the high voltage circuit using an optocoupler.
      1.4 Hybrid Relay, Hybrid relays are made using both SSR and EMR relays. As we know that the SSR wastes power in form of heat and EMR has a contact arcing problem. The hybrid relay uses both SSR and EMR to overcome their disadvantages.
      Based on Poles and Throw (4 types)
      2.1 SPST (single pole single throw) relay
      The single pole means that it can control only one circuit while the single throw means its pole has only one position in which it can conduct.
      2.2 SPDT (single pole double throw) relay
      The single pole means it can control only one circuit at a time. The double throw means its pole has two positions in which it can conduct.
      2.3 DPST (double pole single throw) relay
      The double pole means it can control two completely isolated individual circuits. The single throw means that each pole has one position in which it can conduct.
      2.4 DPDT (double pole double throw) relay
      The double pole means it can control two circuits while the double throw means each pole can conduct in two separate positions.
      Question: What is the Operation principle and connection method of relays (industrial relays)?
      Answer: A relay is an electrical switch that controls (switches on and off) a high-voltage circuit using a low-voltage source. A relay completely isolates the low-voltage circuit from the high-voltage circuit. A relay connection is a separate pin terminal to be 2 types, a control terminal, and a contact terminal. The control terminal is used for control status On/Off of the relay. Whereas the contact pin terminal is used to transmit electricity from the supply side to the device.
      Question: What is a Solid-State Relay?
      Answer: A Solid-State Relay (SSR) is a relay that does not have a moving contact. So, A Solid-State Relay (SSR) have long lifetime and able to use higher frequency operation. In terms of operation, SSRs are not very different from mechanical relays that have moving contacts. SSRs, however, employ semiconductor switching elements, such as thyristors, triacs, diodes, and transistors.
      Question: How to use a relay in the industry?
      Answer: A relay is a switch that is used to open or close a circuit. It controls the flow of electricity to create the desired result. Most industrial controls are essentially switches but of a more complex nature. They are usually associated with the control of electric motors and systems. Industrial controls include devices such as motor starters, contactors, control centers, and programmable logic controllers.
      Question: Why are Relays used in PLC?
      Answer: Relays are used to isolate one voltage level from another. A PLC may be used to control the operation of a medium-voltage device, perhaps 2,300V or 4,160V. A relay is used to energize the starter, which, in turn, switches the motor voltage while the PLC controls the relay. Wired to provide a control sequence, relays may also be used for simple control schemes where a PLC would prove uneconomical. Troubleshooting relays can be handled in short order, without having to return to the maintenance shop for the computer necessary to analyze the control sequence within the PLC.
      Question: Relay is AC or DC?
      Answer: Relay can be used both AC and DC, depend on their construction and usage. Which is mean current type is using to control coil of relay. The coil resistance of the AC and DC relay for the same voltage is different. The resistance of the AC coil is less as compared to the DC coil. The AC relay/contactor coil offers reactance when AC supply is applied across it. The inductive reactance of the AC coil offers more impedance and thus it limits the current.
      Question: What is the role of relays in electrical circuits?
      Answer: Relays are switches in electrical circuits that use a small electrical signal to control a larger one. They act like a bridge between two circuits, allowing a low-power signal to turn on or off a high-power device. This makes them crucial for tasks like turning on lights, motors, or appliances, and for safety by isolating circuits or controlling heavy loads with smaller switches. Relays help manage electricity in various applications, ensuring efficient and safe operation.
      Question: Relay vs. Switch: What's the difference?
      Answer: Relays and switches both control electrical circuits, but they work differently. A switch physically opens or closes a circuit when manually toggled. In contrast, a relay is an electrically operated switch. It uses a small electrical signal to control the opening or closing of a separate circuit. Relays are useful for remote or automated control and can handle higher power loads.
      Question: How can I troubleshoot relay issues?
      Answer: Troubleshoot of relay typically diagnose by following item.
      • Check power supply: Ensure the relay is getting the correct voltage.
      • Test the control signal: Confirm the signal activating the relay is working.
      • Inspect connections: Look for loose or damaged wires.
      • Listen for clicks: Relays should make a clicking sound when they switch.
      • Swap relays: Try replacing with a known-working relay.
      • Test with a multimeter: Measure continuity or resistance to diagnose problems.
      • Check for mechanical issues: Look for stuck or worn-out relay components.
      • Consult a professional if needed.
      Question: How to choose the right relay for my work project?
      Answer: Suitable relay can be select by consider following factor.
      • Identify load requirements: Determine voltage and current needs.
      • Relay type: Choose between electromechanical or solid-state based on durability and switching speed.
      • Coil voltage: Match relay coil voltage to your control circuit.
      • Consider environmental factors: Ensure the relay can handle temperature, humidity, and other conditions.
      • Seek expert advice if unsure about specific requirements.
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