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Hager Contactor And Accessories

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Hager 330 A Power Contactor 110 V, EX033022F
sku-leadTime Ships within 4 days
Hager 330 A Power Contactor 110 V, EX033022F
By Hager
₹31,859   ₹52,510
You save ₹20,651!
39.33% OFF
Hager 330 A Power Contactor 110 V, EX033022F is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 630 A Power Contactor 415 V, EX063022H
sku-leadTime Ships within 4 days
Hager 630 A Power Contactor 415 V, EX063022H
By Hager
₹55,459   ₹93,150
You save ₹37,691!
40.46% OFF
Hager 630 A Power Contactor 415 V, EX063022H is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 630 A Power Contactor 230 V, EX063022G
sku-leadTime Ships within 4 days
Hager 630 A Power Contactor 230 V, EX063022G
By Hager
₹55,459   ₹93,150
You save ₹37,691!
40.46% OFF
Hager 630 A Power Contactor 230 V, EX063022G is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 630 A Power Contactor 110 V, EX063022F
sku-leadTime Ships within 4 days
Hager 630 A Power Contactor 110 V, EX063022F
By Hager
₹55,459   ₹93,150
You save ₹37,691!
40.46% OFF
Hager 630 A Power Contactor 110 V, EX063022F is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
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Hager 225 A Power Contactor 415 V, EX022522E
sku-leadTime Ships within 4 days
Hager 225 A Power Contactor 415 V, EX022522E
By Hager
₹18,879   ₹31,390
You save ₹12,511!
39.86% OFF
Hager 225 A Power Contactor 415 V, EX022522E is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 265 A Power Contactor 110 V, EX026522C
sku-leadTime Ships within 4 days
Hager 265 A Power Contactor 110 V, EX026522C
By Hager
₹24,779   ₹40,260
You save ₹15,481!
38.45% OFF
Hager 265 A Power Contactor 110 V, EX026522C is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 330 A Power Contactor 415 V, EX033022H
sku-leadTime Ships within 4 days
Hager 330 A Power Contactor 415 V, EX033022H
By Hager
₹31,859   ₹52,510
You save ₹20,651!
39.33% OFF
Hager 330 A Power Contactor 415 V, EX033022H is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 265 A Power Contactor 415 V, EX026522H
sku-leadTime Ships within 4 days
Hager 265 A Power Contactor 415 V, EX026522H
By Hager
₹24,779   ₹40,260
You save ₹15,481!
38.45% OFF
Hager 265 A Power Contactor 415 V, EX026522H is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 1NO+1NC Top Mounted Auxiliary Contact Block, EXA001
sku-leadTime Ships within 4 days
Hager 1NO+1NC Top Mounted Auxiliary Contact Block, EXA001
By Hager
Pack of 10 piece
₹2,831   ₹4,400
You save ₹1,569!
35.66% OFF
Hager 1NO+1NC Top Mounted Auxiliary Contact Block, EXA001 is an accessory device used in electrical control systems to provide additional contacts for monitoring, control, or signaling purposes. These contact blocks are typically installed in conjunction with main switching devices, such as contactors or relays, to extend the functionality of the control circuit. Here are key features and considerations related to auxiliary contact blocks: Additional Contacts: The primary function of an auxiliary contact block is to provide additional electrical contacts beyond the main contacts of a switching device. These contacts are used for various control and monitoring purposes. Normally Open (NO) and Normally Closed (NC) Contacts: Auxiliary contact blocks may include one or more normally open (NO) and normally closed (NC) contacts. These contacts change their state based on the status of the main contacts. Control and Signaling: Auxiliary contacts are often used for control and signaling applications. For example, they can be used to indicate the status of a motor, monitor the position of a switch, or activate other devices in response to a change in the control circuit. Interlocking and Sequencing: In control systems, auxiliary contacts can be utilized for interlocking and sequencing operations. They help ensure that certain conditions are met before allowing the operation of specific equipment. Modular Design: Auxiliary contact blocks are typically designed with a modular structure, allowing them to be easily added to or removed from the main switching device. This modular design enhances flexibility in configuring control circuits. Compatibility: It's essential to choose auxiliary contact blocks that are compatible with the specific make and model of the main switching device, such as contactors or relays. This ensures proper fit and electrical compatibility. Electrical Ratings: Consider the electrical ratings of the auxiliary contact blocks, including current and voltage ratings, to ensure they meet the requirements of the control circuit. Mounting and Installation: Auxiliary contact blocks are often designed for easy mounting on compatible devices. They may be snapped onto mounting rails or directly attached to the main switching device. Testing and Maintenance: Regular testing and maintenance of auxiliary contact blocks are important to ensure their proper functioning. This may involve checking for proper contact closure, inspecting for signs of wear, and verifying electrical continuity. Application in Motor Control: In motor control panels, auxiliary contact blocks are commonly used to monitor the status of contactors and provide signals for motor protection and control. DIN Rail Mounting: Many auxiliary contact blocks are designed for DIN rail mounting, making them easy to install in control panels. Auxiliary contact blocks are versatile components that enhance the capabilities of control systems by providing additional electrical contacts. When selecting and installing auxiliary contact blocks, refer to the manufacturer's specifications and guidelines for compatibility and proper use.
Hager 2NC Top Mounted Auxiliary Contact Block, EXA002
sku-leadTime Ships within 4 days
Hager 2NC Top Mounted Auxiliary Contact Block, EXA002
By Hager
Pack of 10 piece
₹2,831   ₹4,400
You save ₹1,569!
35.66% OFF
Hager 2NC Top Mounted Auxiliary Contact Block, EXA002 is an accessory device used in electrical control systems to provide additional contacts for monitoring, control, or signaling purposes. These contact blocks are typically installed in conjunction with main switching devices, such as contactors or relays, to extend the functionality of the control circuit. Here are key features and considerations related to auxiliary contact blocks: Additional Contacts: The primary function of an auxiliary contact block is to provide additional electrical contacts beyond the main contacts of a switching device. These contacts are used for various control and monitoring purposes. Normally Open (NO) and Normally Closed (NC) Contacts: Auxiliary contact blocks may include one or more normally open (NO) and normally closed (NC) contacts. These contacts change their state based on the status of the main contacts. Control and Signaling: Auxiliary contacts are often used for control and signaling applications. For example, they can be used to indicate the status of a motor, monitor the position of a switch, or activate other devices in response to a change in the control circuit. Interlocking and Sequencing: In control systems, auxiliary contacts can be utilized for interlocking and sequencing operations. They help ensure that certain conditions are met before allowing the operation of specific equipment. Modular Design: Auxiliary contact blocks are typically designed with a modular structure, allowing them to be easily added to or removed from the main switching device. This modular design enhances flexibility in configuring control circuits. Compatibility: It's essential to choose auxiliary contact blocks that are compatible with the specific make and model of the main switching device, such as contactors or relays. This ensures proper fit and electrical compatibility. Electrical Ratings: Consider the electrical ratings of the auxiliary contact blocks, including current and voltage ratings, to ensure they meet the requirements of the control circuit. Mounting and Installation: Auxiliary contact blocks are often designed for easy mounting on compatible devices. They may be snapped onto mounting rails or directly attached to the main switching device. Testing and Maintenance: Regular testing and maintenance of auxiliary contact blocks are important to ensure their proper functioning. This may involve checking for proper contact closure, inspecting for signs of wear, and verifying electrical continuity. Application in Motor Control: In motor control panels, auxiliary contact blocks are commonly used to monitor the status of contactors and provide signals for motor protection and control. DIN Rail Mounting: Many auxiliary contact blocks are designed for DIN rail mounting, making them easy to install in control panels. Auxiliary contact blocks are versatile components that enhance the capabilities of control systems by providing additional electrical contacts. When selecting and installing auxiliary contact blocks, refer to the manufacturer's specifications and guidelines for compatibility and proper use.
Hager 1NO+1NC Side Mounted HWC Auxiliary Contact Block, EXA112
sku-leadTime Ships within 4 days
Hager 1NO+1NC Side Mounted HWC Auxiliary Contact Block, EXA112
By Hager
Pack of 10 piece
₹5,309   ₹8,600
You save ₹3,291!
38.27% OFF
Hager 1NO+1NC Side Mounted HWC Auxiliary Contact Block, EXA112 is an accessory device used in electrical control systems to provide additional contacts for monitoring, control, or signaling purposes. These contact blocks are typically installed in conjunction with main switching devices, such as contactors or relays, to extend the functionality of the control circuit. Here are key features and considerations related to auxiliary contact blocks: Additional Contacts: The primary function of an auxiliary contact block is to provide additional electrical contacts beyond the main contacts of a switching device. These contacts are used for various control and monitoring purposes. Normally Open (NO) and Normally Closed (NC) Contacts: Auxiliary contact blocks may include one or more normally open (NO) and normally closed (NC) contacts. These contacts change their state based on the status of the main contacts. Control and Signaling: Auxiliary contacts are often used for control and signaling applications. For example, they can be used to indicate the status of a motor, monitor the position of a switch, or activate other devices in response to a change in the control circuit. Interlocking and Sequencing: In control systems, auxiliary contacts can be utilized for interlocking and sequencing operations. They help ensure that certain conditions are met before allowing the operation of specific equipment. Modular Design: Auxiliary contact blocks are typically designed with a modular structure, allowing them to be easily added to or removed from the main switching device. This modular design enhances flexibility in configuring control circuits. Compatibility: It's essential to choose auxiliary contact blocks that are compatible with the specific make and model of the main switching device, such as contactors or relays. This ensures proper fit and electrical compatibility. Electrical Ratings: Consider the electrical ratings of the auxiliary contact blocks, including current and voltage ratings, to ensure they meet the requirements of the control circuit. Mounting and Installation: Auxiliary contact blocks are often designed for easy mounting on compatible devices. They may be snapped onto mounting rails or directly attached to the main switching device. Testing and Maintenance: Regular testing and maintenance of auxiliary contact blocks are important to ensure their proper functioning. This may involve checking for proper contact closure, inspecting for signs of wear, and verifying electrical continuity. Application in Motor Control: In motor control panels, auxiliary contact blocks are commonly used to monitor the status of contactors and provide signals for motor protection and control. DIN Rail Mounting: Many auxiliary contact blocks are designed for DIN rail mounting, making them easy to install in control panels. Auxiliary contact blocks are versatile components that enhance the capabilities of control systems by providing additional electrical contacts. When selecting and installing auxiliary contact blocks, refer to the manufacturer's specifications and guidelines for compatibility and proper use.
Hager 1NC Top Mounted Auxiliary Contact Block, EXA007
sku-leadTime Ships within 4 days
Hager 1NC Top Mounted Auxiliary Contact Block, EXA007
By Hager
Pack of 10 piece
₹5,073   ₹8,300
You save ₹3,227!
38.88% OFF
Hager 1NC Top Mounted Auxiliary Contact Block, EXA007 is an accessory device used in electrical control systems to provide additional contacts for monitoring, control, or signaling purposes. These contact blocks are typically installed in conjunction with main switching devices, such as contactors or relays, to extend the functionality of the control circuit. Here are key features and considerations related to auxiliary contact blocks: Additional Contacts: The primary function of an auxiliary contact block is to provide additional electrical contacts beyond the main contacts of a switching device. These contacts are used for various control and monitoring purposes. Normally Open (NO) and Normally Closed (NC) Contacts: Auxiliary contact blocks may include one or more normally open (NO) and normally closed (NC) contacts. These contacts change their state based on the status of the main contacts. Control and Signaling: Auxiliary contacts are often used for control and signaling applications. For example, they can be used to indicate the status of a motor, monitor the position of a switch, or activate other devices in response to a change in the control circuit. Interlocking and Sequencing: In control systems, auxiliary contacts can be utilized for interlocking and sequencing operations. They help ensure that certain conditions are met before allowing the operation of specific equipment. Modular Design: Auxiliary contact blocks are typically designed with a modular structure, allowing them to be easily added to or removed from the main switching device. This modular design enhances flexibility in configuring control circuits. Compatibility: It's essential to choose auxiliary contact blocks that are compatible with the specific make and model of the main switching device, such as contactors or relays. This ensures proper fit and electrical compatibility. Electrical Ratings: Consider the electrical ratings of the auxiliary contact blocks, including current and voltage ratings, to ensure they meet the requirements of the control circuit. Mounting and Installation: Auxiliary contact blocks are often designed for easy mounting on compatible devices. They may be snapped onto mounting rails or directly attached to the main switching device. Testing and Maintenance: Regular testing and maintenance of auxiliary contact blocks are important to ensure their proper functioning. This may involve checking for proper contact closure, inspecting for signs of wear, and verifying electrical continuity. Application in Motor Control: In motor control panels, auxiliary contact blocks are commonly used to monitor the status of contactors and provide signals for motor protection and control. DIN Rail Mounting: Many auxiliary contact blocks are designed for DIN rail mounting, making them easy to install in control panels. Auxiliary contact blocks are versatile components that enhance the capabilities of control systems by providing additional electrical contacts. When selecting and installing auxiliary contact blocks, refer to the manufacturer's specifications and guidelines for compatibility and proper use.
Hager 1NO+3NC Top Mounted Auxiliary Contact Block, EXA006
sku-leadTime Ships within 4 days
Hager 1NO+3NC Top Mounted Auxiliary Contact Block, EXA006
By Hager
Pack of 10 piece
₹5,073   ₹8,300
You save ₹3,227!
38.88% OFF
Hager 1NO+3NC Top Mounted Auxiliary Contact Block, EXA006 is an accessory device used in electrical control systems to provide additional contacts for monitoring, control, or signaling purposes. These contact blocks are typically installed in conjunction with main switching devices, such as contactors or relays, to extend the functionality of the control circuit. Here are key features and considerations related to auxiliary contact blocks: Additional Contacts: The primary function of an auxiliary contact block is to provide additional electrical contacts beyond the main contacts of a switching device. These contacts are used for various control and monitoring purposes. Normally Open (NO) and Normally Closed (NC) Contacts: Auxiliary contact blocks may include one or more normally open (NO) and normally closed (NC) contacts. These contacts change their state based on the status of the main contacts. Control and Signaling: Auxiliary contacts are often used for control and signaling applications. For example, they can be used to indicate the status of a motor, monitor the position of a switch, or activate other devices in response to a change in the control circuit. Interlocking and Sequencing: In control systems, auxiliary contacts can be utilized for interlocking and sequencing operations. They help ensure that certain conditions are met before allowing the operation of specific equipment. Modular Design: Auxiliary contact blocks are typically designed with a modular structure, allowing them to be easily added to or removed from the main switching device. This modular design enhances flexibility in configuring control circuits. Compatibility: It's essential to choose auxiliary contact blocks that are compatible with the specific make and model of the main switching device, such as contactors or relays. This ensures proper fit and electrical compatibility. Electrical Ratings: Consider the electrical ratings of the auxiliary contact blocks, including current and voltage ratings, to ensure they meet the requirements of the control circuit. Mounting and Installation: Auxiliary contact blocks are often designed for easy mounting on compatible devices. They may be snapped onto mounting rails or directly attached to the main switching device. Testing and Maintenance: Regular testing and maintenance of auxiliary contact blocks are important to ensure their proper functioning. This may involve checking for proper contact closure, inspecting for signs of wear, and verifying electrical continuity. Application in Motor Control: In motor control panels, auxiliary contact blocks are commonly used to monitor the status of contactors and provide signals for motor protection and control. DIN Rail Mounting: Many auxiliary contact blocks are designed for DIN rail mounting, making them easy to install in control panels. Auxiliary contact blocks are versatile components that enhance the capabilities of control systems by providing additional electrical contacts. When selecting and installing auxiliary contact blocks, refer to the manufacturer's specifications and guidelines for compatibility and proper use.
Hager 330 A Power Contactor 230 V, EX033022G
sku-leadTime Ships within 4 days
Hager 330 A Power Contactor 230 V, EX033022G
By Hager
₹31,859   ₹52,510
You save ₹20,651!
39.33% OFF
Hager 330 A Power Contactor 230 V, EX033022G is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 4NO Top Mounted Auxiliary Contact Block, EXA003
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Hager 4NO Top Mounted Auxiliary Contact Block, EXA003
By Hager
Pack of 10 piece
₹5,073   ₹8,300
You save ₹3,227!
38.88% OFF
Hager 4NO Top Mounted Auxiliary Contact Block, EXA003 is an accessory device used in electrical control systems to provide additional contacts for monitoring, control, or signaling purposes. These contact blocks are typically installed in conjunction with main switching devices, such as contactors or relays, to extend the functionality of the control circuit. Here are key features and considerations related to auxiliary contact blocks: Additional Contacts: The primary function of an auxiliary contact block is to provide additional electrical contacts beyond the main contacts of a switching device. These contacts are used for various control and monitoring purposes. Normally Open (NO) and Normally Closed (NC) Contacts: Auxiliary contact blocks may include one or more normally open (NO) and normally closed (NC) contacts. These contacts change their state based on the status of the main contacts. Control and Signaling: Auxiliary contacts are often used for control and signaling applications. For example, they can be used to indicate the status of a motor, monitor the position of a switch, or activate other devices in response to a change in the control circuit. Interlocking and Sequencing: In control systems, auxiliary contacts can be utilized for interlocking and sequencing operations. They help ensure that certain conditions are met before allowing the operation of specific equipment. Modular Design: Auxiliary contact blocks are typically designed with a modular structure, allowing them to be easily added to or removed from the main switching device. This modular design enhances flexibility in configuring control circuits. Compatibility: It's essential to choose auxiliary contact blocks that are compatible with the specific make and model of the main switching device, such as contactors or relays. This ensures proper fit and electrical compatibility. Electrical Ratings: Consider the electrical ratings of the auxiliary contact blocks, including current and voltage ratings, to ensure they meet the requirements of the control circuit. Mounting and Installation: Auxiliary contact blocks are often designed for easy mounting on compatible devices. They may be snapped onto mounting rails or directly attached to the main switching device. Testing and Maintenance: Regular testing and maintenance of auxiliary contact blocks are important to ensure their proper functioning. This may involve checking for proper contact closure, inspecting for signs of wear, and verifying electrical continuity. Application in Motor Control: In motor control panels, auxiliary contact blocks are commonly used to monitor the status of contactors and provide signals for motor protection and control. DIN Rail Mounting: Many auxiliary contact blocks are designed for DIN rail mounting, making them easy to install in control panels. Auxiliary contact blocks are versatile components that enhance the capabilities of control systems by providing additional electrical contacts. When selecting and installing auxiliary contact blocks, refer to the manufacturer's specifications and guidelines for compatibility and proper use.
Hager 65 A Power Contactor 110 V, EX006511C
sku-leadTime Ships within 4 days
Hager 65 A Power Contactor 110 V, EX006511C
By Hager
₹6,371   ₹10,540
You save ₹4,169!
39.55% OFF
Hager 65 A Power Contactor 110 V, EX006511C is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 25 A Power Contactor 415 V, EX002511E
sku-leadTime Ships within 4 days
Hager 25 A Power Contactor 415 V, EX002511E
By Hager
₹1,415   ₹2,050
You save ₹635!
30.98% OFF
Hager 25 A Power Contactor 415 V, EX002511E is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 75 A Power Contactor 415 V, EX007511E
sku-leadTime Ships within 4 days
Hager 75 A Power Contactor 415 V, EX007511E
By Hager
₹8,259   ₹13,540
You save ₹5,281!
39% OFF
Hager 75 A Power Contactor 415 V, EX007511E is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 22 A Power Contactor 415 V, EX002211E
sku-leadTime Ships within 4 days
Hager 22 A Power Contactor 415 V, EX002211E
By Hager
₹1,415   ₹2,050
You save ₹635!
30.98% OFF
Hager 22 A Power Contactor 415 V, EX002211E is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 12 A Power Contactor 415 V, EX001211E
sku-leadTime Ships within 4 days
Hager 12 A Power Contactor 415 V, EX001211E
By Hager
₹766   ₹1,260
You save ₹494!
39.21% OFF
Hager 12 A Power Contactor 415 V, EX001211E is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 18 A Power Contactor 230 V, EX001811D
sku-leadTime Ships within 4 days
Hager 18 A Power Contactor 230 V, EX001811D
By Hager
₹872   ₹1,450
You save ₹578!
39.86% OFF
Hager 18 A Power Contactor 230 V, EX001811D is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 22 A Power Contactor 110 V, EX002211C
sku-leadTime Ships within 4 days
Hager 22 A Power Contactor 110 V, EX002211C
By Hager
₹1,415   ₹2,050
You save ₹635!
30.98% OFF
Hager 22 A Power Contactor 110 V, EX002211C is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 12 A Power Contactor 230 V, EX001211D
sku-leadTime Ships within 4 days
Hager 12 A Power Contactor 230 V, EX001211D
By Hager
₹766   ₹1,260
You save ₹494!
39.21% OFF
Hager 12 A Power Contactor 230 V, EX001211D is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 85 A Power Contactor 230 V, EX008511D
sku-leadTime Ships within 4 days
Hager 85 A Power Contactor 230 V, EX008511D
By Hager
₹8,259   ₹13,540
You save ₹5,281!
39% OFF
Hager 85 A Power Contactor 230 V, EX008511D is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 185 A Power Contactor 110 V, EX018522C
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Hager 185 A Power Contactor 110 V, EX018522C
By Hager
₹17,699   ₹28,910
You save ₹11,211!
38.78% OFF
Hager 185 A Power Contactor 110 V, EX018522C is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 100 A Power Contactor 230 V, EX010011D
sku-leadTime Ships within 4 days
Hager 100 A Power Contactor 230 V, EX010011D
By Hager
₹10,265   ₹17,060
You save ₹6,795!
39.83% OFF
Hager 100 A Power Contactor 230 V, EX010011D is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 100 A Power Contactor 110 V, EX010011C
sku-leadTime Ships within 4 days
Hager 100 A Power Contactor 110 V, EX010011C
By Hager
₹10,265   ₹17,060
You save ₹6,795!
39.83% OFF
Hager 100 A Power Contactor 110 V, EX010011C is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 18 A Power Contactor 415 V, EX001811E
sku-leadTime Ships within 4 days
Hager 18 A Power Contactor 415 V, EX001811E
By Hager
₹872   ₹1,450
You save ₹578!
39.86% OFF
Hager 18 A Power Contactor 415 V, EX001811E is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 25 A Power Contactor 110 V, EX002511C
sku-leadTime Ships within 4 days
Hager 25 A Power Contactor 110 V, EX002511C
By Hager
₹1,415   ₹2,050
You save ₹635!
30.98% OFF
Hager 25 A Power Contactor 110 V, EX002511C is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 22 A Power Contactor 230 V, EX002211D
sku-leadTime Ships within 4 days
Hager 22 A Power Contactor 230 V, EX002211D
By Hager
₹1,415   ₹2,050
You save ₹635!
30.98% OFF
Hager 22 A Power Contactor 230 V, EX002211D is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 18 A Power Contactor 110 V, EX001811C
sku-leadTime Ships within 4 days
Hager 18 A Power Contactor 110 V, EX001811C
By Hager
₹872   ₹1,450
You save ₹578!
39.86% OFF
Hager 18 A Power Contactor 110 V, EX001811C is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 32 A Power Contactor 110 V, EX003211C
sku-leadTime Ships within 4 days
Hager 32 A Power Contactor 110 V, EX003211C
By Hager
₹2,595   ₹3,960
You save ₹1,365!
34.47% OFF
Hager 32 A Power Contactor 110 V, EX003211C is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 40 A Power Contactor 415 V, EX004011E
sku-leadTime Ships within 4 days
Hager 40 A Power Contactor 415 V, EX004011E
By Hager
₹3,893   ₹6,230
You save ₹2,337!
37.51% OFF
Hager 40 A Power Contactor 415 V, EX004011E is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 100 A Power Contactor 415 V, EX010011E
sku-leadTime Ships within 4 days
Hager 100 A Power Contactor 415 V, EX010011E
By Hager
₹10,265   ₹17,060
You save ₹6,795!
39.83% OFF
Hager 100 A Power Contactor 415 V, EX010011E is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 50 A Power Contactor 415 V, EX005011E
sku-leadTime Ships within 4 days
Hager 50 A Power Contactor 415 V, EX005011E
By Hager
₹4,837   ₹7,700
You save ₹2,863!
37.18% OFF
Hager 50 A Power Contactor 415 V, EX005011E is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 40 A Power Contactor 110 V, EX004011C
sku-leadTime Ships within 4 days
Hager 40 A Power Contactor 110 V, EX004011C
By Hager
₹3,893   ₹6,230
You save ₹2,337!
37.51% OFF
Hager 40 A Power Contactor 110 V, EX004011C is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 265 A Power Contactor 230 V, EX026522G
sku-leadTime Ships within 4 days
Hager 265 A Power Contactor 230 V, EX026522G
By Hager
₹24,779   ₹40,260
You save ₹15,481!
38.45% OFF
Hager 265 A Power Contactor 230 V, EX026522G is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 50 A Power Contactor 110 V, EX005011C
sku-leadTime Ships within 4 days
Hager 50 A Power Contactor 110 V, EX005011C
By Hager
₹4,837   ₹7,700
You save ₹2,863!
37.18% OFF
Hager 50 A Power Contactor 110 V, EX005011C is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 25 A Power Contactor 230 V, EX002511D
sku-leadTime Ships within 4 days
Hager 25 A Power Contactor 230 V, EX002511D
By Hager
₹1,415   ₹2,050
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Hager 25 A Power Contactor 230 V, EX002511D is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
Hager 9 A Power Contactor 110 V, EX000911C
sku-leadTime Ships within 4 days
Hager 9 A Power Contactor 110 V, EX000911C
By Hager
₹683   ₹1,130
You save ₹447!
39.56% OFF
Hager 9 A Power Contactor 110 V, EX000911C is an electrical device that is used to control the flow of electrical power in an electrical circuit. It is a type of switch that is designed to handle high currents and voltages. Power contactors are commonly used in industrial applications and electrical systems where the control of large electrical loads is required. Here are some key features and considerations related to power contactors: Switching High Currents: Power contactors are designed to handle high currents and voltages. They are used to switch the power supply to electrical devices, such as motors, heaters, and other industrial equipment. Control Circuit: Power contactors typically have a low-voltage control circuit that is used to energize or de-energize the contactor. This control circuit is separate from the high-power circuit it controls. Coil and Contacts: A power contactor consists of a coil and a set of contacts. When the coil is energized, it creates a magnetic field that pulls the contacts together, allowing electrical current to flow through the main power circuit. When the coil is de-energized, the contacts are separated, interrupting the power flow. Types of Contactors: AC Contactors: Designed for alternating current (AC) applications. DC Contactors: Designed for direct current (DC) applications. Definite Purpose Contactors: Specialized contactors designed for specific applications, such as motor control. Applications: Power contactors are used in a wide range of applications, including industrial machinery, HVAC systems, motor control panels, and other situations where the control of high-power loads is necessary. Auxiliary Contacts: Some power contactors have auxiliary contacts that can be used for signaling, interlocking, or control purposes. These contacts are separate from the main power contacts. Modular and Compact Designs: Power contactors come in various sizes and designs to accommodate different power ratings and application requirements. Some are designed to be compact and fit into control panels easily. Overload Protection: Some power contactors are integrated with overload protection features to protect the connected equipment from excessive current. DIN Rail Mounting: Many contactors are designed for DIN rail mounting, allowing for easy installation in control panels. Safety Considerations: Safety is crucial when working with electrical components. Ensure that proper safety measures are followed during installation, maintenance, and troubleshooting of power contactors. Always adhere to electrical safety guidelines and local regulations when working with power contactors. If you are unfamiliar with electrical systems, it's advisable to seek the assistance of a qualified electrician or technician.
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