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Omron Terminal Relay DC 24 V, G3DZ-F4PU DC24

By Omron

₹14,159  

The Omron Terminal Relay DC 24 V, G3DZ-F4PU DC24 is a versatile and highly reliable electrical component used in various industrial and commercial applications to control and manage electrical circuits and systems. This relay, renowned for its advanced specifications and innovative features, is an essential tool for engineers and technicians seeking precise and dependable control over various devices and equipment. One of the key features of the Omron Terminal Relay is its flexibility. This relay is designed to be adaptable to a wide range of applications, offering different contact configurations and current/voltage ratings to suit specific needs. This versatility makes it suitable for controlling various loads, from small signaling devices to larger industrial machinery, in applications as diverse as manufacturing, automation, and building control systems. The Omron Terminal Relay is known for its precision and reliability. It is engineered to provide accurate and consistent switching of electrical circuits, ensuring that critical processes and equipment operate as intended. The reliability of these relays is essential in industries where any disruption in electrical control can lead to costly downtime or safety risks. Ease of installation and user-friendliness are also noteworthy features of the Omron Terminal Relay. These relays typically come with clear and intuitive labeling, making it easy for technicians to wire and troubleshoot. This simplicity streamlines installation, minimizes errors, and reduces setup time. Furthermore, these relays often incorporate diagnostic features that allow for real-time monitoring and status feedback, facilitating proactive maintenance and reducing system downtime. The Omron Terminal Relay is designed for durability and resilience, able to withstand harsh industrial conditions, including temperature fluctuations, mechanical stress, and electrical disturbances. This robust construction ensures that the relay functions reliably in challenging environments. In conclusion, the Omron Terminal Relay is a fundamental component for precise and reliable electrical control in a wide range of applications. Its flexibility, precision, user-friendliness, and reliability make it an indispensable tool for engineers and technicians seeking to optimize the control and automation of electrical systems. By incorporating the Omron Terminal Relay, industries can achieve accurate and dependable control over electrical circuits and equipment, ultimately improving operational performance, reducing downtime, and ensuring safety and efficiency.

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Selec 600VPR-1-180/300V Voltage Protection Relay

By SELEC

₹2,359  

Selec's 600VPR-1-180/300V Voltage Protection Relay monitors the difference between input and output voltage. It prevents the voltage from getting too high or too low. The relay is constructed with a Polyester resin case that provides protection from harsh external environments. Its terminal block is sealed to prevent contamination of internal contacts, and it has an auto-reset function that resets the relay when power is turned off. This feature prevents it from being inadvertently left in an operating condition after maintenance. The relay's voltage threshold is adjustable via a potentiometer, allowing for control over the trip point. Its circuit includes a zero cross detection function, which prevents false triggering from switch contact bounce that can occur during switching surges. This protects against improper operation caused by voltage sags and spikes, as well as electromagnetic interference (EMI) and radio frequency interference (RFI). The relay can be used in a variety of applications including industrial control, motor control, commercial lighting systems, and any other application where over or undervoltage protection is necessary. The Selec 600VPR-1-180/300V Voltage Protection Relay monitors the voltage supplied to a load and provides an indication in the event that over or under voltage occurs. A variable trip time is available ranging from 0.25 sec - 20 sec depending on application requirements. This device can be used with other devices in Selec's range to connect multiple loads to a single supply, or alternatively it can be used with any other brand of device to monitor a separate load. The relay may be programmed to trip at any voltage between 180V AC - 300V AC (L1-L2) and will reset automatically when voltage returns within the specified parameters.

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Omron G3NA-240B DC5-24 Solid state Relay

By Omron

₹4,601   ₹8,000

You save ₹3,399!

42.49% OFF

OLD JIT

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Omron G2RL-2-SND 24 VDC PBC/Socket Mounting relay

By Omron

₹1,073  

Relay with plug in termianl.With built in LED indicator and Diode.Must operated Voltage 80% max.Must release voltage 30% min.1800 operation/hr and operation time 20 ms max.Max Switching voltage 440 VAC/125 VDC.DPDT contact configuration and Ag contact matreial.

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Omron MY2N-GS DC24 36.3 mA Latching Relay

By Omron

₹306  

Relay with plug in terminal.
Built in operation indicators.
Must operated Voltage 80% max.
Must release voltage 30% min.
1800 operation/hr and operation time 20 ms max.
Max Contact voltage 250 VAC /125 VDC.
DPDT contact configuration and silver contact matreial.

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Omron MEOTM1876 RELAY 14 PIN 240 VAC WITH BASE

By Omron

₹459  

The Omron Power Relays offer heavy-duty, compact MOSFET power relays with a small size to meet the needs of a wide range of applications. This models are designed for use in low voltage and high voltage circuits, making them ideal for electrical equipment used in homes and offices. These power relays can be used with either alternating current or direct current. They are also equipped with a built-in overcurrent protection function that opens the circuit when the relay is overloaded. The Omron Series Power Relays come in two different types: the general purpose type (GP) and the heavy-duty type (HD). The GP model offers a higher switching capacity than the HD model, but it cannot withstand high temperatures for long periods of time like an HD model can. The Omron Power Relays are available in three different types: SPDT (single pole double throw), SPDT-NO (single pole double throw-normally open), and SPST (single pole single throw). Each type has different applications depending on what you need them for. Omron offers two different types of Series Power Relays: the general purpose type (GP) and the heavy-duty type (HD). The GP model offers a higher switching capacity than the HD model, but it cannot withstand high temperatures for long periods of time like an HD model can. Both models come in multiple sizes that allow you to choose which size best fits your needs.

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Hager 80 A-100 A Over Load Relay, EXB00100C

By Hager

₹3,421   ₹5,700

You save ₹2,279!

39.98% OFF

Hager 80 A-100 A Over Load Relay, EXB00100C It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Hager 63 A-80 A Over Load Relay, EXB00080C

By Hager

₹3,421   ₹5,700

You save ₹2,279!

39.98% OFF

Hager 63 A-80 A Over Load Relay, EXB00080C It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Ships within 4 days

Hager 55 A-70 A Over Load Relay, EXB00070C

By Hager

₹3,893   ₹5,700

You save ₹1,807!

31.7% OFF

Hager 55 A-70 A Over Load Relay, EXB00070C It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Ships within 4 days

Hager 48 A-65 A Over Load Relay, EXB00065C

By Hager

₹3,893   ₹5,700

You save ₹1,807!

31.7% OFF

Hager 48 A-65 A Over Load Relay, EXB00065C It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Ships within 4 days

Hager 37 A-50 A Over Load Relay, EXB00050C

By Hager

₹3,421   ₹5,700

You save ₹2,279!

39.98% OFF

Hager 37 A-50 A Over Load Relay, EXB00050C It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Ships within 4 days

Hager 315 A-630 A Over Load Relay, EXB00630F

By Hager

₹14,159   ₹23,210

You save ₹9,051!

39% OFF

Hager 315 A-630 A Over Load Relay, EXB00630F It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Ships within 4 days

Hager 30 A-40 A Over Load Relay, EXB00040C

By Hager

₹3,893   ₹5,700

You save ₹1,807!

31.7% OFF

Hager 30 A-40 A Over Load Relay, EXB00040C It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Ships within 4 days

Hager 200 A-400 A Over Load Relay, EXB00400F

By Hager

₹16,519   ₹23,210

You save ₹6,691!

28.83% OFF

Hager 200 A-400 A Over Load Relay, EXB00400F It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Ships within 4 days

Hager 23 A-32 A Over Load Relay, EXB000032C

By Hager

₹3,421   ₹5,700

You save ₹2,279!

39.98% OFF

Hager 23 A-32 A Over Load Relay, EXB000032C It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Ships within 4 days

Hager 125 A-250 A Over Load Relay, EXB00250F

By Hager

₹14,159   ₹23,210

You save ₹9,051!

39% OFF

Hager 125 A-250 A Over Load Relay, EXB00250F It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Ships within 4 days

Hager 30 A-38 A Over Load Relay, EXB00038C

By Hager

₹2,123   ₹3,240

You save ₹1,117!

34.48% OFF

Hager 30 A-38 A Over Load Relay, EXB00038C It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Hager 100 A-200 A Over Load Relay, EXB00200E

By Hager

₹12,979   ₹19,380

You save ₹6,401!

33.03% OFF

Hager 100 A-200 A Over Load Relay, EXB00200E It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Hager 23 A-32 A Over Load Relay, EXB00032C

By Hager

₹2,241   ₹3,240

You save ₹999!

30.83% OFF

Hager 23 A-32 A Over Load Relay, EXB00032C It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Hager 17-25 A Over Load Relay, EXB000025B

By Hager

₹1,533   ₹1,860

You save ₹327!

17.58% OFF

Hager 17-25 A Over Load Relay, EXB000025B It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Hager 12-18 A Over Load Relay, EXB00018B

By Hager

₹1,533   ₹1,860

You save ₹327!

17.58% OFF

Hager 12-18 A Over Load Relay, EXB00018B It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Hager 9-13 A Over Load Relay, EXB00013B

By Hager

₹1,533   ₹1,860

You save ₹327!

17.58% OFF

Hager 9-13 A Over Load Relay, EXB00013B It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Hager 5.5-8 A Over Load Relay, EXB00010B

By Hager

₹1,533   ₹1,860

You save ₹327!

17.58% OFF

Hager 5.5-8 A Over Load Relay, EXB00010B It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Hager 5.5-8 A Over Load Relay, EXB00008B

By Hager

₹1,143   ₹1,860

You save ₹717!

38.55% OFF

Hager 5.5-8 A Over Load Relay, EXB00008B It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Hager 4-6 A Over Load Relay, EXB00006B

By Hager

₹1,533   ₹1,860

You save ₹327!

17.58% OFF

Hager 4-6 A Over Load Relay, EXB00006B It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Hager 2.5-4 A Over Load Relay, EXB00004B

By Hager

₹1,143   ₹1,860

You save ₹717!

38.55% OFF

Hager 2.5-4 A Over Load Relay, EXB00004B It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Hager 1.6-2.5 A Over Load Relay, EXB00025B

By Hager

₹1,143   ₹1,860

You save ₹717!

38.55% OFF

Hager 1.6-2.5 A Over Load Relay, EXB00025B It is a crucial component in motor control circuits and is designed to monitor the current flowing through a motor and interrupt power if the current exceeds a predetermined level for an extended period. Here are key features and considerations related to overload relays: Protection Against Overload: The primary function of an overload relay is to protect electrical equipment, such as motors, from damage caused by sustained overcurrent conditions. Overcurrent can result from factors like mechanical overload or system faults. Thermal Overload Protection: Overload relays typically operate based on thermal principles. They monitor the heat generated by the current flowing through a motor. If the current exceeds the preset limit for a specified duration, the relay trips, disconnecting power to the motor. Types of Overload Relays: Bimetallic Overload Relays: Use the differential expansion of two dissimilar metals to activate the relay. Electronic Overload Relays: Use electronic sensors to measure current and trip the relay when preset conditions are met. Adjustable Settings: Overload relays often have adjustable settings, allowing for customization based on the specific motor and application requirements. Adjustments can be made for current levels and trip times. Resetting Mechanism: After an overload condition is detected and the relay trips, there is usually a manual or automatic resetting mechanism. Manual reset requires intervention to restore power, while automatic reset reconnects power after a cool-down period. Integration with Motor Starters: Overload relays are commonly integrated into motor starters or motor control centers. They work in conjunction with contactors and other components to provide comprehensive motor control and protection. Direct and Indirect Overload Protection: Direct Overload Protection: The overload relay is directly connected in series with the motor. Indirect Overload Protection: The overload relay is connected in parallel with the motor, and its output controls a contactor that disconnects power. Application in Motor Control Panels: Overload relays are commonly found in motor control panels and can be part of a broader motor protection scheme. Sensing Elements: Bimetallic overload relays use bimetal strips, while electronic overload relays use sensors such as current transformers to monitor the current. Testing and Maintenance: Regular testing and maintenance of overload relays are important to ensure they function correctly. This may involve checking settings, verifying the mechanical condition, and testing the tripping mechanism. Overload relays play a crucial role in preventing motor damage and ensuring the safe and efficient operation of electrical systems. Always follow safety procedures and manufacturer guidelines when installing, adjusting, or maintaining overload relays.

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Unison Solid State Relay DC to AC 25 Amp 24-480 VAC Output Voltage, UNI 901 ZDA 48 25 01 WITH DIN (AL5)

By Unison

₹565  

The Unison Solid State Relay (UNI 901 ZDA 48 25 01 WITH DIN AL5) is a versatile DC-to-AC switching device designed for industrial and automation applications. It supports an output voltage range of 24-480 VAC and can handle up to 25 amps, making it suitable for controlling motors, lighting systems, HVAC equipment, and other AC-powered devices. This solid-state relay eliminates the need for mechanical components, ensuring faster switching times, silent operation, and increased durability. Additionally, the inclusion of a DIN rail mounting option (AL5) makes it easy to integrate into control panels and electrical distribution systems. Ideal for applications requiring efficient, reliable, and precise AC power switching, this relay offers high efficiency and low heat dissipation. It is well-suited for industrial automation, temperature control, and process equipment. With its robust construction and long lifespan, the Unison Solid State Relay provides a maintenance-free, cost-effective solution for managing high-power AC switching tasks.

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Unison Solid State Relay DC to AC 25 Amp 24-480 VAC Output Voltage, UNI 808 ZDA 48 25 00

By Unison

₹317  

The Unison Solid State Relay (UNI 808 ZDA 48 25 00) is a reliable DC-to-AC switching device designed for industrial and automation applications. It supports an output voltage range of 24-480 VAC with a current rating of 25 amps, making it suitable for motor control, heating systems, and lighting applications. Unlike traditional mechanical relays, this solid-state relay operates without moving parts, ensuring faster switching speeds, silent operation, and enhanced durability. Its compact design allows easy integration into control panels and electrical systems. This solid-state relay is ideal for applications requiring efficient and precise AC power switching. Its high efficiency and low heat dissipation make it well-suited for use in HVAC systems, industrial machinery, and process control systems. With a rugged construction and long service life, the Unison Solid State Relay provides a cost-effective and maintenance-free solution for various AC switching needs.

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GIC SM501 415 V AC (3P, 3W) 2 C/O Relay 50/60 Hz Voltage Monitoring Relay, MG53BH

By GIC

₹1,895  

The GIC SM501 415 V AC (3P, 3W) 2 C/O Relay 50/60 Hz Voltage Monitoring Relay, MG53BH, is a highly versatile and dependable electrical monitoring device designed to ensure the safe and stable operation of electrical systems. This advanced relay excels at precise voltage monitoring and offers dual changeover contacts, enhancing its flexibility and making it an indispensable component for various industrial applications.Operating within a voltage range of 415 V AC (3-phase, 3-wire), the GIC SM501 provides accurate voltage monitoring, catering to a wide range of electrical configurations and applications. Its compatibility with both 50 Hz and 60 Hz frequencies further enhances its adaptability.A standout feature of the GIC SM501 is its dual changeover contacts (2 C/O). This configuration significantly increases its versatility, allowing it to respond rapidly and efficiently to voltage fluctuations and deviations. This swift response is vital for safeguarding connected equipment and systems, minimizing the risk of damage or downtime.The MG53BH model designation signifies the relay's compatibility with various electrical systems and its ease of integration. Whether utilized in industrial automation, power distribution networks, or commercial infrastructure, the GIC SM501 ensures that voltage remains within safe and operational limits.Built with durability in mind, the GIC SM501 can withstand challenging environmental conditions, ensuring long-term reliability. Its compact design and user-friendly interface simplify installation and configuration, reducing complexity and saving valuable time for engineers and technicians.

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PowerGrip Thermal Overload Relays 6-10 A Relay Range PG2P Type For Industrial and Commercial

By PowerGrip

₹317   ₹477

You save ₹160!

33.5% OFF

The PowerGrip Thermal Overload Relays 6-10 A Relay Range PG2P Type For Industrial and Commercial are engineered to provide reliable motor protection in both industrial and commercial electrical systems. Categorized under Electrical Protection Devices and manufactured by the trusted brand PowerGrip, these relays are designed to safeguard motors against overload and prolonged current stress. By detecting excess heat caused by prolonged high current, they prevent motor winding damage, reduce downtime, and enhance system longevity. Built for consistent performance and easy integration, PowerGrip Thermal Overload Relays 6-10 A Relay Range PG2P Type For Industrial and Commercial feature precision bimetallic elements that deliver accurate and responsive tripping. Their robust construction ensures dependable operation in demanding environments, while adjustable settings allow customized protection for various motor capacities. Ideal for manufacturing plants, HVAC systems, pump stations, and industrial machinery, these overload relays enhance safety and operational efficiency. With durable build quality and trusted reliability, they are an essential component in motor control panels and protection schemes.

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Unison Solid State Relay Analog AC 50 Amp 230 to 440 VAC Output Voltage, UNI 901 PHT 24 50 420 AL5

By Unison

₹1,415  

The Unison Solid State Relay (UNI 901 PHT 24 50 420 AL5) is a high-performance analog AC switching device designed for industrial and automation applications. It supports an output voltage range of 230-440 VAC with a current capacity of 50 amps, making it suitable for motor control, heating systems, and power regulation. Unlike traditional mechanical relays, this solid-state relay operates without moving parts, ensuring faster response times, silent operation, and enhanced durability. Its compact and rugged design allows for easy integration into electrical control panels and heavy-duty machinery. This analog solid-state relay is ideal for applications requiring precise and smooth power control. Its high efficiency and low heat dissipation make it well-suited for industrial processing equipment, HVAC systems, and temperature control systems. With reliable performance and long service life, the Unison Solid State Relay provides a cost-effective and maintenance-free solution for demanding AC switching requirements.

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Selec Auto Switch Relay Single Phase

By SELEC

₹896 - ₹896

You save ₹258!

22.36% OFF

The Selec Auto Switch Relay Single Phase is a high-performance automation component designed to manage automatic switching between two power sources in single-phase electrical systems. Ideal for residential, commercial, and light industrial applications, this relay ensures seamless transfer between main and backup power supplies, helping to maintain consistent power delivery and protect connected equipment from voltage fluctuations or outages. Engineered with robust internal components and compact DIN-rail or panel mount compatibility, the Selec Auto Switch Relay Single Phase offers reliable operation, long service life, and minimal maintenance. Its built-in control logic automatically detects the availability of the primary power source and shifts to the secondary source when needed—ensuring uninterrupted operations. With quick response time and easy wiring terminals, it’s a preferred choice for inverter systems, UPS setups, and generator-backed circuits. For anyone looking to enhance power management efficiency and system safety, this relay provides a practical, cost-effective, and dependable solution.

Type of Product : Auto Switch Relay

Color : White

Phase : Single Phase

Usage/Application : Industrial

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GIC SM175 240 V AC/DC 1 C/O Relay 47/53 Hz Frequency Voltage Monitoring Relay, MAE03D0200

By GIC

₹1,520  

The GIC SM175 240 V AC/DC 1 C/O Relay, model MAE03D0200, is a crucial component in industrial settings designed to monitor voltage frequency within a specific range of 47 to 53 Hz. Voltage monitoring is essential in various applications to ensure equipment safety and optimal performance.One of the standout features of this relay is its versatility, as it can operate with both AC and DC voltage systems. This compatibility makes it suitable for a wide range of industrial setups, offering flexibility to engineers and technicians when selecting the right equipment for their specific needs.The relay provides a single changeover (C/O) relay output, which serves as a switching contact. This output can be employed to trigger various actions or alarms when the monitored voltage frequency falls outside the designated range. These actions might include shutting down equipment, sounding an alarm, or sending a signal to a central control system. This flexibility ensures that the relay can be integrated seamlessly into existing control and monitoring systems.Voltage stability is a critical concern in many industrial applications. Fluctuations or deviations in voltage frequency can lead to equipment malfunctions or damage. The GIC SM175 helps maintain voltage stability by continuously monitoring the incoming voltage frequency and providing alerts or actions when it deviates from the specified range. This proactive approach to voltage management enhances equipment longevity and reduces downtime.

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Autonix PD34 AAR Digital Single Phase Relay

By AUTONIX

₹2,595  

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Selec 900CPR-3-230V Current Protection Relay 35 mm

By SELEC

₹2,713   ₹3,197

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Unison Solid State Relay DC to AC, UNI 803 ZDA

By Unison

₹542 - ₹1,769

The Unison Solid State Relay UNI 803 ZDA is a high-performance DC to AC relay designed to handle a current range from 40 to 90 amps, making it suitable for a variety of industrial applications. This solid-state relay ensures reliable switching and control of high-power AC loads using a DC input, eliminating the mechanical wear associated with traditional electromechanical relays. With its robust construction, it offers long-lasting durability, ideal for environments with high switching frequencies or demanding operational conditions. The UNI 803 ZDA is commonly used in automation systems, motor control, heating applications, and other industrial equipment requiring precise and efficient load control. Its compact design and high current handling capacity make it a versatile and dependable component for enhancing system performance and reliability in various industrial sectors.

Application : Industrial

Type of Product : Solid State Relay

Input Voltage : 4-32 VDC

Voltage Type : DC to AC

Mounting : Industrial Mounting

Led Light : Red

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Unison Solid State Relay AC to AC, UNI 901 ZAA (Current 25 to 90 Amp)

By Unison

₹518 - ₹1,651

The Unison Solid State Relay UNI 901 ZAA is a high-performance AC to AC relay designed to manage a current range from 25 to 90 amps, making it ideal for industrial and automation applications. This solid-state relay provides efficient, reliable switching of AC loads, offering precise control without the wear and tear of mechanical contacts. It is commonly used in systems requiring frequent switching, such as motor control, heating elements, and lighting control. With its durable and compact design, the UNI 901 ZAA ensures longevity and high performance, even in demanding environments. Its advanced technology and ability to handle higher currents make it a preferred choice for enhancing system reliability and operational efficiency in various industrial sectors, providing smooth, silent operation for critical applications.

Application : Industrial

Type of Product : Solid State Relay

Voltage Type : AC to AC

Frequency : 47-63 Hz

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PowerGrip Thermal Overload Relays 13-21 A Relay Range PG2P Type For Industrial and Commercial

By PowerGrip

₹317   ₹477

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The PowerGrip Thermal Overload Relays 13-21 A Relay Range PG2P Type For Industrial and Commercial are engineered to provide reliable motor protection in both industrial and commercial electrical systems. Categorized under Electrical Protection Devices and manufactured by the trusted brand PowerGrip, these relays are designed to safeguard motors against overload and prolonged current stress. By detecting excess heat caused by prolonged high current, they prevent motor winding damage, reduce downtime, and enhance system longevity. Built for consistent performance and easy integration, PowerGrip Thermal Overload Relays 13-21 A Relay Range PG2P Type For Industrial and Commercial feature precision bimetallic elements that deliver accurate and responsive tripping. Their robust construction ensures dependable operation in demanding environments, while adjustable settings allow customized protection for various motor capacities. Ideal for manufacturing plants, HVAC systems, pump stations, and industrial machinery, these overload relays enhance safety and operational efficiency. With durable build quality and trusted reliability, they are an essential component in motor control panels and protection schemes.

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Unison Solid State Relay DC to DC 8 Amp 5-100 VDC Output Voltage, UNI 807 PMDD 100 08 01

By Unison

₹412  

The Unison Solid State Relay (UNI 807 PMDD 100 08 01) is a compact and reliable DC-to-DC switching device designed for industrial and automation applications. It supports an output voltage range of 5-100 VDC with a current capacity of 8 amps, making it suitable for controlling DC motors, battery systems, and LED lighting. Unlike mechanical relays, this solid-state relay operates without moving parts, ensuring faster switching speeds, silent operation, and extended durability. Its compact design allows easy integration into control panels and electronic circuits. This solid-state relay is ideal for applications requiring efficient and precise DC power switching. Its high efficiency and low heat dissipation make it well-suited for use in power distribution systems, renewable energy applications, and electronic control systems. With its rugged construction and long service life, the Unison Solid State Relay provides a cost-effective and maintenance-free solution for DC switching needs.

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