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Surge Protection Devices Under Price 10000

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Schneider Electric 15 kA DIN Rail Mount Industrial Surge Protection, A9L15688

By Schneider Electric

₹16,519  

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Schneider Electric IPRD8 Modular Surge Arrester, A9L08_00 Series

By Schneider Electric

₹11,563 - ₹23,599

Schneider Electric IPRD8 Modular Surge Arrester modular surge arrester is an essential component in electrical systems, designed to protect sensitive equipment from voltage spikes and transient overvoltages. It acts as a barrier, diverting excess current away from connected devices and preventing damage caused by power surges. The "modular" aspect refers to its adaptable design, typically featuring replaceable or upgradable components. This flexibility allows for easy maintenance and customization according to specific system requirements. Modular surge arresters often consist of individual modules for each phase, providing scalability and simplifying installation. These devices are crucial in various applications, including industrial plants, commercial buildings, and residential complexes, where uninterrupted power supply is critical. By promptly reacting to voltage fluctuations, modular surge arresters help ensure the reliability and longevity of electrical systems while safeguarding costly equipment from potential damage. Their modular design not only enhances protection but also streamlines maintenance procedures, making them an integral part of modern electrical infrastructure.

Type of Product : Modular Surge Arrester

Type : iPRD8

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TRUEPOWER ESE Lightning Protection Arrester 460 mm Length 7 V Operating Voltage Copper-Clad Steel for Industrial Use

By TRUEPOWER

₹4,955  

The TRUEPOWER ESE Lightning Protection Arrester is engineered to provide effective and reliable protection against lightning strikes in industrial and commercial installations. With a compact 460 mm length and a 7 V operating voltage, it is designed to efficiently intercept and safely channel lightning energy to the grounding system. Manufactured using high-quality copper-clad steel, the arrester offers excellent electrical conductivity, mechanical strength, and resistance to corrosion, ensuring dependable performance in outdoor and harsh environmental conditions. Its ESE (Early Streamer Emission) technology enhances lightning capture efficiency, improving overall protection reliability. Designed to meet industrial safety and performance standards, this lightning arrester supports easy installation and consistent operation over long periods. The robust construction minimizes maintenance requirements while ensuring stable performance during critical conditions. Suitable for factories, substations, warehouses, telecom towers, and industrial buildings, the TRUEPOWER ESE lightning protection arrester enhances safety, protects sensitive equipment, and reduces the risk of lightning-related damage.

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NISAN HDPE Earth Pit Cover, 390211

By NISAN

₹978  

The NISAN HDPE Earth Pit Cover, model 390211, is a resilient and dependable solution designed to provide effective protection for earth pits in various industrial and commercial environments. Crafted from high-density polyethylene (HDPE), this cover offers a robust defense against environmental elements, ensuring the longevity and optimal performance of grounding systems while preventing unauthorized access. The model 390211 adheres to the high standards set by NISAN, boasting a design that combines durability with the lightweight and corrosion-resistant properties inherent to HDPE. This material not only shields the earth pit from corrosion, rust, and harsh weather conditions but also maintains a lightweight structure, facilitating easy handling during installation and maintenance. Functioning as a crucial component in grounding system protection, the earth pit cover prevents the ingress of debris, moisture, and foreign objects into the earth pit, preserving the integrity of the grounding infrastructure. The cover is meticulously designed to securely fit, creating a sealed enclosure that mitigates the risk of contaminants compromising the functionality of the earth pit. In addition to safeguarding the grounding system, the HDPE cover contributes to safety by restricting access to the earth pit, reducing the possibility of accidental contact and enhancing overall site security. Its durable construction ensures a prolonged service life, reducing the need for frequent replacements and maintenance, thereby promoting cost-effectiveness. To sum up, the NISAN HDPE Earth Pit Cover, model 390211, stands as a resilient and trustworthy choice for protecting earth pits. With its HDPE construction and thoughtful design, this cover plays a crucial role in maintaining the effectiveness and safety of grounding systems across diverse applications.

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NISAN PVC Earth Pit Cover,390211

By NISAN

₹494  

The NISAN FRP Earth Pit Cover, model 390211, represents a durable and reliable solution for safeguarding earth pits in various industrial and commercial settings. Fabricated from high-quality Fiberglass Reinforced Plastic (FRP), this cover offers a robust protective barrier for ground electrodes, ensuring their longevity and functionality while preventing unauthorized access or damage. Measuring up to the high standards set by NISAN, the model 390211 boasts a design that combines strength with lightweight characteristics inherent to FRP. This material not only renders the cover resistant to corrosion, rust, and weathering but also provides a high strength-to-weight ratio, making it easy to handle during installation and maintenance. The earth pit cover serves a crucial role in protecting the grounding system components from environmental elements and physical damage. It prevents debris, moisture, and foreign objects from compromising the integrity of the earth pit, ensuring the reliable performance of the grounding system over time. The model 390211 is designed to fit securely, creating a sealed enclosure that minimizes the risk of contaminants infiltrating the earth pit. Moreover, the cover enhances safety by restricting access to the grounding infrastructure, preventing accidental contact and promoting a secure working environment. Its durable construction ensures a long service life, reducing the need for frequent replacements and maintenance. In summary, the NISAN FRP Earth Pit Cover, model 390211, stands as a robust and dependable choice for protecting earth pits in diverse applications. Its FRP construction, coupled with thoughtful design considerations, makes it an essential component in maintaining the integrity and effectiveness of grounding systems while ensuring the safety and security of personnel and equipment in the surrounding area.

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NISAN 1 m 50 mm Dia COPPER BONDED Electrode

By NISAN

₹978  

The NISAN 1 m 50 mm Dia Mild Steel GI Pipe Electrode, model 7215, represents a robust and efficient solution for grounding systems, ensuring effective dissipation of electrical charges and enhancing the overall safety of structures and equipment. With a length of 1 meter and a diameter of 50 mm, this grounding electrode is specifically designed to meet the demanding requirements of diverse applications. The electrode's core material is mild steel, known for its durability and corrosion resistance. The addition of galvanized iron (GI) coating further enhances its resistance to environmental elements, ensuring a prolonged lifespan and consistent performance even in challenging conditions. This combination of materials makes the NISAN electrode a reliable choice for grounding solutions in various industries. The 7215 model excels in its ability to provide a low-resistance path to dissipate electrical currents, safeguarding against the potential damage caused by surges, lightning strikes, or other electrical events. Its 50 mm diameter ensures a substantial surface area for effective grounding, while the 1-meter length allows for flexible installation in different settings. This electrode is particularly suitable for applications where a reliable ground connection is critical, such as in telecommunications, power distribution, or industrial facilities. Its versatile design makes it adaptable to diverse grounding configurations, contributing to the overall safety and stability of electrical systems. In summary, the NISAN 1 m 50 mm Dia Mild Steel GI Pipe Electrode, model 7215, stands as a durable and efficient grounding solution, addressing the need for reliable dissipation of electrical charges. With its robust construction and versatile design, this electrode is a valuable component in ensuring the integrity and safety of electrical systems across various industries.

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Phoenix VAL-MS 1000DC-PV 2+V (DC) 40 KVA Surge Arrester

By Phoenix

₹5,191  

Altitude : <2000m
Permissible humidity : 5%..95%
Color : jet black RAL 9005
Number of port : one
Degree of protection : IP20
Type : DIN rail module,two selection
Surge protection fault message : opticalDimensions(HxWxD) :90mmX53.4mmX65.5mm

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NISAN PVC Earth Pit Cover, 390211

By NISAN

₹435  

The NISAN PVC Earth Pit Cover, model 390211, is a versatile and reliable solution crafted to protect earth pits in a variety of industrial and commercial applications. Constructed from high-quality polyvinyl chloride (PVC), this cover offers a durable and corrosion-resistant shield, ensuring the longevity and optimal performance of grounding systems while preventing unauthorized access. Exemplifying NISAN's commitment to quality, the model 390211 features a design that combines strength with the lightweight and chemical-resistant properties of PVC. This material not only provides robust protection against corrosion, rust, and harsh environmental conditions but also ensures ease of handling during installation and maintenance due to its lightweight nature. As a critical component in grounding system protection, the earth pit cover effectively prevents the intrusion of debris, moisture, and foreign objects into the earth pit, preserving the integrity of the grounding infrastructure. The cover is precision-engineered to securely fit, creating a sealed enclosure that minimizes the risk of contaminants compromising the functionality of the earth pit. Beyond its protective capabilities, the PVC earth pit cover enhances safety by restricting access to the grounding system, reducing the likelihood of accidental contact, and contributing to overall site security. Its durable construction ensures a prolonged service life, minimizing the need for frequent replacements and maintenance and promoting cost-effectiveness in the long run. In summary, the NISAN PVC Earth Pit Cover, model 390211, stands as a dependable and adaptable choice for safeguarding earth pits. With its PVC construction and thoughtful design, this cover plays a vital role in preserving the effectiveness and safety of grounding systems across diverse industrial and commercial settings.

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TRUEPOWER ESE Lightning Protection Arrester 107 m Raduis Range Stainless Steel for Industrial Use

By TRUEPOWER

₹40,119  

The TRUEPOWER ESE Lightning Protection Arrester is designed to provide advanced and reliable protection against lightning strikes for industrial and commercial installations. With an effective protection radius of up to 107 meters, it offers wide-area coverage, safeguarding structures, equipment, and electrical systems from lightning-related damage. Manufactured from high-quality stainless steel, the arrester delivers excellent mechanical strength, corrosion resistance, and long service life, making it suitable for outdoor and harsh environmental conditions. Its ESE (Early Streamer Emission) technology enhances lightning interception efficiency, ensuring effective and controlled discharge to ground. Engineered to meet stringent safety and performance standards, this lightning protection arrester supports easy installation and dependable operation over time. The robust construction minimizes maintenance requirements while ensuring consistent performance in critical applications. Ideal for factories, power plants, warehouses, telecom towers, and industrial infrastructure, the TRUEPOWER ESE lightning protection arrester enhances safety, reduces downtime risks, and provides dependable protection for valuable assets and personnel.

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Elmex AC Surge Protection Device 320V Single Phase with 1+1 Pole

By Elmex

₹1,025  

AC Surge Protection Device (SPD) is designed to limit transient over voltages of atmospheric origin and divert current waves to earth, so as to limit the amplitude of this over voltage to a value that is not hazardous for the electrical installation and electric switchgear. AC SPDs are designed to protect against transient over voltages caused by lightning strikes on overhead lines, switching operations, and other disturbances. Type 2 SPD: The Type 2 SPD is the main protection system for all low voltage electrical installations. Installed in each electrical switchboard, it prevents the spread of over voltages in the electrical installations and protects the load. Nominal Voltage (Un): The nominal voltage stands for the nominal voltage of the system to be protected Maximum Continuous Operating Voltage (Uc): The maximum continuous operating voltage is the r.m.s value of the maximum voltage which may be connected to corresponding terminals of the Surge Protective Device during operations. The maximum continuous operating voltage for Photovoltaic (PC) system is the value of the maximum DC voltage which may be permanently applied to terminals of SPD. The voltage protection level is the maximum instantaneous value of the voltage at terminals of SPD. The nominal discharge current is the peak value of the current that can be passed through SPD having a wave shape of 8/20 µs. The maximum discharge current is the peak value of the current which the device can safely discharge through the SPD having a wave shape of 8/20 µs. Applications Photovoltaic & Wind Industry & Automation Commercial & Residential Installations Telecom, IT & Data Centers

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NISAN 1 m 50 mm Dia GI Pipe Electrode, 730611

By NISAN

₹919  

The NISAN 1 m 50 mm Dia Copper Bonded GI Pipe Electrode, model 7306, epitomizes cutting-edge grounding technology, offering a superior solution for dissipating electrical charges and fortifying the resilience of structures and electronic systems. With a length of 1 meter and a diameter of 50 mm, this grounding electrode is engineered to meet the stringent demands of diverse applications, combining the strength of galvanized iron (GI) with the enhanced conductivity of copper. At its core, the electrode features a copper-bonded design, marrying the robustness of GI with the exceptional electrical conductivity of copper. This synergistic combination results in an electrode that not only resists corrosion and environmental wear with its GI construction but also optimizes electrical conductivity through the copper bonding. The result is a highly efficient pathway for the dissipation of electrical currents, ensuring the safeguarding of structures and sensitive equipment against the deleterious effects of surges, lightning strikes, and other electrical disturbances. The model 7306 excels in providing a low-resistance grounding solution, with its 50 mm diameter offering a substantial surface area for effective dissipation. The 1-meter length provides versatility in installation, accommodating various settings and configurations to meet the specific needs of different industries. This copper-bonded GI pipe electrode is well-suited for applications where reliable and efficient grounding is paramount, such as telecommunications, power distribution, and industrial settings. Its innovative design and robust construction make it an indispensable component in maintaining the integrity and safety of electrical systems. In conclusion, the NISAN 1 m 50 mm Dia Copper Bonded GI Pipe Electrode, model 7306, stands as a pinnacle of grounding technology, combining durability, efficiency, and conductivity to provide a reliable solution for dissipating electrical charges and fortifying the resilience of critical infrastructure.

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amiciSmart Surge Protective Device 40 kA 600 V Rated Voltage, SPD-DC-600V

By amiciSmart

₹1,167  

The amicikart Surge Protective Device 40 kA is a high-performance electrical protection solution designed to safeguard residential, commercial, and industrial power systems from voltage spikes and transient surges. Engineered with a discharge capacity of up to 40 kA, this surge protector effectively diverts excess electrical energy caused by lightning strikes, switching surges, or grid fluctuations, preventing damage to sensitive equipment and wiring. It plays a crucial role in protecting appliances, distribution boards, control panels, and electronic systems from unexpected power disturbances.Built for reliability and long-term safety, the amicikart Surge Protective Device 40 kA features robust construction and efficient response technology to ensure rapid surge suppression. Suitable for installation in electrical panels and distribution systems, it enhances overall system stability and reduces the risk of costly equipment failures. Ideal for electricians, contractors, and facility managers, this surge protection device delivers dependable performance, improved electrical safety, and enhanced operational continuity for modern power infrastructure.

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amiciSmart Surge Protective Device 40 kA 1000 V Rated Voltage, SPD-DC-1000V

By amiciSmart

₹1,297  

The amicikart Surge Protective Device 40 kA is a high-performance electrical protection solution designed to safeguard residential, commercial, and industrial power systems from voltage spikes and transient surges. Engineered with a discharge capacity of up to 40 kA, this surge protector effectively diverts excess electrical energy caused by lightning strikes, switching surges, or grid fluctuations, preventing damage to sensitive equipment and wiring. It plays a crucial role in protecting appliances, distribution boards, control panels, and electronic systems from unexpected power disturbances.Built for reliability and long-term safety, the amicikart Surge Protective Device 40 kA features robust construction and efficient response technology to ensure rapid surge suppression. Suitable for installation in electrical panels and distribution systems, it enhances overall system stability and reduces the risk of costly equipment failures. Ideal for electricians, contractors, and facility managers, this surge protection device delivers dependable performance, improved electrical safety, and enhanced operational continuity for modern power infrastructure.

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amiciSmart Surge Protective Device 40 kA 500 V Rated Voltage, SPD-DC-500V

By amiciSmart

₹1,167  

The amicikart Surge Protective Device 40 kA is a high-performance electrical protection solution designed to safeguard residential, commercial, and industrial power systems from voltage spikes and transient surges. Engineered with a discharge capacity of up to 40 kA, this surge protector effectively diverts excess electrical energy caused by lightning strikes, switching surges, or grid fluctuations, preventing damage to sensitive equipment and wiring. It plays a crucial role in protecting appliances, distribution boards, control panels, and electronic systems from unexpected power disturbances.Built for reliability and long-term safety, the amicikart Surge Protective Device 40 kA features robust construction and efficient response technology to ensure rapid surge suppression. Suitable for installation in electrical panels and distribution systems, it enhances overall system stability and reduces the risk of costly equipment failures. Ideal for electricians, contractors, and facility managers, this surge protection device delivers dependable performance, improved electrical safety, and enhanced operational continuity for modern power infrastructure.

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Hygrid Solar 600 V DC Surge Protection Device for Solar

By Hygrid Solar

₹899  

Hygrid Solar 600 V DC Surge Protection Device for Solar is an electrical component designed to protect solar photovoltaic (PV) systems from voltage surges and transient overvoltage events. These surges can be caused by lightning strikes, grid voltage fluctuations, or other external factors. The SPD works by diverting the excess voltage and current away from the solar panels and other sensitive equipment in the system, and safely dissipating it to the ground. This helps to prevent damage to the system and its components, and ensures that it continues to operate safely and effectively. There are several different types of SPDs available for use in solar PV systems, including AC and DC surge protectors. AC surge protectors are typically installed at the point where the solar system connects to the grid, while DC surge protectors are installed at the point where the solar panels connect to the inverter. It is important to choose the right type of SPD for your solar PV system, and to ensure that it is installed correctly by a qualified electrician or installer. Regular maintenance and testing of the SPD is also recommended to ensure that it continues to provide effective protection against voltage surges and transient overvoltage events. There are various types of solar surge protection devices available on the market, but the most common type is a surge protector or a surge arrestor. These devices are installed in the solar system's DC and AC circuits to divert or absorb any excess voltage that may be caused by power surges or other electrical disturbances.

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SERVCONTROL 6 W Push Button UV-C Light Handheld Sanitizer Disinfection Lamp

By SERVCONTROL

₹2,477  

The SERVCONTROL 6 Watts Push Button UV-C Light Handheld Sanitizer Disinfection Lamp is a portable device designed for disinfecting surfaces and objects using ultraviolet-C (UV-C) light. UV-C light is known to be effective in killing bacteria, viruses, and other microorganisms, making it a useful tool for maintaining cleanliness and hygiene in homes, offices, and other public spaces. The handheld design of this lamp makes it easy to use and move around, allowing users to sanitize surfaces and objects quickly and efficiently. The push button feature allows for easy activation of the UV-C light, making it a convenient and practical tool for disinfection. The 6 Watts power output of the lamp ensures effective and efficient disinfection of surfaces and objects, while the compact size and lightweight design make it easy to store and transport. UV-C light is known to be effective in killing bacteria, viruses, and other microorganisms, making it a useful tool for maintaining cleanliness and hygiene in homes, offices, and other public spaces. The push button feature allows for easy activation of the UV-C light, making it a convenient and practical tool for disinfection. Overall, the SERVCONTROL 6 Watts Push Button UV-C Light Handheld Sanitizer Disinfection Lamp is a useful and practical tool for maintaining cleanliness and hygiene in homes, offices, and public spaces, and is a good choice for those looking for a portable and easy-to-use disinfection solution.

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Havells Photovoltaic Surge Protection Device with Remote Signaling

By Havells

₹10,383 - ₹18,879

The Havells Photovoltaic Surge Protection Device (SPD) is a critical component designed to safeguard photovoltaic (PV) systems from potential damage caused by transient voltage surges and spikes. Specifically tailored for solar energy installations, these devices are indispensable for protecting PV panels, inverters, and associated equipment from the harmful effects of lightning strikes, grid voltage fluctuations, or other electrical disturbances. Crafted with precision and employing advanced surge protection technology, Havells Photovoltaic SPDs provide robust protection against transient voltage events, ensuring uninterrupted and efficient operation of PV systems. They work by diverting excess voltage safely to ground, thereby preventing it from reaching sensitive components and causing costly downtime or equipment damage. Havells Photovoltaic SPDs are engineered to meet the unique requirements of PV systems, featuring high surge handling capacities, low let-through voltages, and durable construction suitable for outdoor environments. They are available in various configurations to accommodate different system sizes and installation setups, offering flexibility and compatibility with diverse PV installations. Installation of Havells Photovoltaic SPDs is typically straightforward, with options for mounting directly onto PV panels, inverters, or within the system's electrical enclosure. These devices integrate seamlessly into PV system installations, providing effective surge protection without compromising system performance or efficiency. Safety and reliability are paramount in Havells' design philosophy, and Photovoltaic SPDs undergo rigorous testing to meet industry standards and certifications. This ensures that they deliver dependable surge protection while maintaining the integrity and longevity of PV system components. Overall, Havells Photovoltaic Surge Protection Devices offer peace of mind to PV system owners and operators by safeguarding their investment against the risks posed by transient voltage surges and spikes. With their advanced surge protection technology, tailored features, and commitment to safety and reliability, Havells Photovoltaic SPDs are a trusted choice for protecting PV systems in residential, commercial, and industrial applications.

Type of Product : Photovoltaic Surge Protection Device

Type : 1+2 Photovoltaic

Up (kV) : 4 kV

In (kA) : 20 kA

Remote Signaling : Yes

Ucpv (V) : 1200 Vdc

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Havells Photovoltaic Surge Protection Device without Remote Signaling

By Havells

₹10,029 - ₹18,879

The Havells Photovoltaic Surge Protection Device (SPD) is a crucial component designed specifically to protect photovoltaic (PV) systems from the harmful effects of transient voltage surges and spikes. These devices are essential for safeguarding solar panels, inverters, and other PV system components from damage caused by lightning strikes, grid voltage fluctuations, or switching transients. Crafted with precision and utilizing advanced surge protection technology, Havells Photovoltaic SPDs offer reliable protection against transient voltage events, ensuring the continuous and efficient operation of PV systems. They are designed to divert excess voltage safely to ground, preventing it from reaching sensitive equipment and causing costly downtime or repairs. Havells Photovoltaic SPDs are engineered to meet the unique requirements of PV systems, with specialized features such as high surge handling capacity, low let-through voltage, and robust construction to withstand outdoor environmental conditions. They are available in various configurations to accommodate different system sizes and installation requirements. Installation of Havells Photovoltaic SPDs is typically straightforward, with options for mounting directly onto PV panels, inverters, or within the system's electrical enclosure. These devices are designed to integrate seamlessly into PV system installations, providing effective surge protection without compromising system performance or efficiency. Safety and reliability are paramount considerations in Havells' design philosophy, and Photovoltaic SPDs undergo rigorous testing to meet industry standards and certifications. This ensures that they provide effective surge protection while maintaining the integrity and reliability of PV system components. Overall, Havells Photovoltaic Surge Protection Devices offer peace of mind to PV system owners and operators by safeguarding their investment against the damaging effects of transient voltage surges and spikes. With their advanced surge protection technology, specialized features, and emphasis on safety and reliability, Havells Photovoltaic SPDs are a trusted choice for protecting PV systems in both residential and commercial applications.

Type of Product : Photovoltaic Surge Protection Device

Type : 1+2 Photovoltaic

Up (kV) : 4 kV

In (kA) : 20 kA

Remote Signaling : No

Ucpv (V) : 1200 Vdc

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Cona Nssure Surge Protection Devices Double Pole

By Cona

₹1,297 - ₹1,297

You save ₹398!

23.48% OFF

Safeguard your sensitive electrical installations with the Cona Nssure Surge Protection Devices Double Pole, engineered to offer reliable defense against voltage surges and spikes. This high-performance SPD is ideal for residential, commercial, and industrial systems, providing double pole protection to ensure both live and neutral lines are shielded from transient overvoltages. Whether caused by lightning or switching operations, this unit diverts excessive voltage safely to the ground, preserving the integrity of your equipment. With its compact, modular design, the Cona Nssure Surge Protection Devices Double Pole integrates seamlessly into distribution boards and control panels. It enhances electrical safety by reducing downtime, preventing damage to appliances, and complying with essential protection standards. Built with precision by Cona, this surge protector is a dependable choice for uninterrupted power flow and equipment longevity.

Type of Product : Surge Protection Devices

No. of Pole : Double Pole

Country of Origin : India

Series : Nssure

Name of Manufacturer/Packer/Importer : PM CONA Industries Private Limited

Pack of : 1 Pc

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amiciSmart Surge Protector 20-40 kA Capacity 2-Pole 275 V, ‎AMSA-C40

By amiciSmart

₹1,155  

amiciSmart Surge Protector 20-40 kA Capacity 2-Pole 275 V, ‎AMSA-C40 is designed to deliver reliable performance, durability, and practical functionality for everyday professional and household use. Built with quality materials and thoughtful engineering, this product supports consistent operation and dependable results across different applications. Its robust construction enhances long‑term usability while maintaining efficiency under regular use. Whether used for installation, repair, or maintenance tasks, amiciSmart Surge Protector 20-40 kA Capacity 2-Pole 275 V, ‎AMSA-C40 offers a balanced combination of strength, stability, and ease of handling for improved productivity.The amiciSmart Surge Protector 20-40 kA Capacity 2-Pole 275 V, ‎AMSA-C40 helps users maintain workflow efficiency while achieving reliable outcomes. Choose this product to support durability, operational convenience, and consistent results in a wide range of practical applications.

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Hager 4 Pole Imax 65 kA (Remote Signaling) Surge Protection Device, SPL465R

By Hager

₹22,419   ₹35,680

You save ₹13,261!

37.17% OFF

A Hager 4 Pole Imax 65 kA (Remote Signaling) Surge Protection Device, SPL465R refers to a surge protection device (SPD) equipped with remote signaling capabilities. Surge protection devices are designed to protect electrical and electronic equipment from voltage spikes or surges caused by events like lightning strikes, power grid fluctuations, or switching operations. The addition of remote signaling features allows for the monitoring and notification of the SPD's status from a remote location. Here are key features and aspects of a Remote Signaling Surge Protection Device: Surge Protection Functionality: Like any surge protection device, the primary function is to divert excessive voltage away from sensitive equipment, preventing damage caused by power surges. Remote Signaling: Remote signaling capabilities enable the device to communicate its status or alert conditions to a central monitoring system or control panel located at a distance. This is particularly useful for applications where the SPD is installed in a remote or inaccessible location. Communication Protocols: Remote signaling can be achieved through various communication protocols, including relay contacts, voltage-free contacts, or digital communication protocols such as Modbus or SNMP (Simple Network Management Protocol). Relay Contacts: Some SPDs with remote signaling feature relay contacts that change state based on the SPD's status. For example, a normally open or normally closed relay may be used to indicate whether the SPD is in a normal or fault condition. Voltage-Free Contacts: Voltage-free contacts provide an isolated, low-voltage interface that can be used to connect the SPD to external monitoring or control systems without affecting the protected equipment. LED Indicators: The SPD may have built-in LED indicators that provide a visual representation of its status, such as whether it is operational, in alarm, or has experienced a fault. Audible Alarms: In addition to remote signaling, some SPDs may include audible alarms to provide on-site indication of a surge event or fault condition. Monitoring Software: For digital communication protocols, the SPD may come with monitoring software that allows users to remotely check the device's status, view historical data, and receive alerts. Integration with Building Management Systems (BMS): Remote signaling SPDs can be integrated into building management systems, allowing facility managers to monitor and manage multiple devices from a centralized control system. Compliance and Certifications: Remote signaling SPDs are typically designed to comply with relevant industry standards and certifications to ensure their reliability and performance. Application Areas: Remote signaling surge protection devices are commonly used in critical applications where the continuous operation of electrical and electronic equipment is essential, such as data centers, telecommunications facilities, industrial automation, and medical environments. The remote signaling feature enhances the overall effectiveness of surge protection systems by providing real-time monitoring and rapid response to surge events, thereby minimizing downtime and potential damage to sensitive equipment.

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Hager 2 Pole Imax 65 kA (Remote Signaling) Surge Protection Device, SPL265R

By Hager

₹11,209   ₹17,970

You save ₹6,761!

37.62% OFF

A Hager 2 Pole Imax 65 kA (Remote Signaling) Surge Protection Device, SPL265R refers to a surge protection device (SPD) equipped with remote signaling capabilities. Surge protection devices are designed to protect electrical and electronic equipment from voltage spikes or surges caused by events like lightning strikes, power grid fluctuations, or switching operations. The addition of remote signaling features allows for the monitoring and notification of the SPD's status from a remote location. Here are key features and aspects of a Remote Signaling Surge Protection Device: Surge Protection Functionality: Like any surge protection device, the primary function is to divert excessive voltage away from sensitive equipment, preventing damage caused by power surges. Remote Signaling: Remote signaling capabilities enable the device to communicate its status or alert conditions to a central monitoring system or control panel located at a distance. This is particularly useful for applications where the SPD is installed in a remote or inaccessible location. Communication Protocols: Remote signaling can be achieved through various communication protocols, including relay contacts, voltage-free contacts, or digital communication protocols such as Modbus or SNMP (Simple Network Management Protocol). Relay Contacts: Some SPDs with remote signaling feature relay contacts that change state based on the SPD's status. For example, a normally open or normally closed relay may be used to indicate whether the SPD is in a normal or fault condition. Voltage-Free Contacts: Voltage-free contacts provide an isolated, low-voltage interface that can be used to connect the SPD to external monitoring or control systems without affecting the protected equipment. LED Indicators: The SPD may have built-in LED indicators that provide a visual representation of its status, such as whether it is operational, in alarm, or has experienced a fault. Audible Alarms: In addition to remote signaling, some SPDs may include audible alarms to provide on-site indication of a surge event or fault condition. Monitoring Software: For digital communication protocols, the SPD may come with monitoring software that allows users to remotely check the device's status, view historical data, and receive alerts. Integration with Building Management Systems (BMS): Remote signaling SPDs can be integrated into building management systems, allowing facility managers to monitor and manage multiple devices from a centralized control system. Compliance and Certifications: Remote signaling SPDs are typically designed to comply with relevant industry standards and certifications to ensure their reliability and performance. Application Areas: Remote signaling surge protection devices are commonly used in critical applications where the continuous operation of electrical and electronic equipment is essential, such as data centers, telecommunications facilities, industrial automation, and medical environments. The remote signaling feature enhances the overall effectiveness of surge protection systems by providing real-time monitoring and rapid response to surge events, thereby minimizing downtime and potential damage to sensitive equipment.

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Hager 4 Pole Imax 40 kA Surge Protection Device, SPL440

By Hager

₹14,159   ₹20,640

You save ₹6,481!

31.4% OFF

A Hager 4 Pole Imax 40 kA Surge Protection Device, SPL440 refers to a surge protection device (SPD) equipped with remote signaling capabilities. Surge protection devices are designed to protect electrical and electronic equipment from voltage spikes or surges caused by events like lightning strikes, power grid fluctuations, or switching operations. The addition of remote signaling features allows for the monitoring and notification of the SPD's status from a remote location. Here are key features and aspects of a Remote Signaling Surge Protection Device: Surge Protection Functionality: Like any surge protection device, the primary function is to divert excessive voltage away from sensitive equipment, preventing damage caused by power surges. Remote Signaling: Remote signaling capabilities enable the device to communicate its status or alert conditions to a central monitoring system or control panel located at a distance. This is particularly useful for applications where the SPD is installed in a remote or inaccessible location. Communication Protocols: Remote signaling can be achieved through various communication protocols, including relay contacts, voltage-free contacts, or digital communication protocols such as Modbus or SNMP (Simple Network Management Protocol). Relay Contacts: Some SPDs with remote signaling feature relay contacts that change state based on the SPD's status. For example, a normally open or normally closed relay may be used to indicate whether the SPD is in a normal or fault condition. Voltage-Free Contacts: Voltage-free contacts provide an isolated, low-voltage interface that can be used to connect the SPD to external monitoring or control systems without affecting the protected equipment. LED Indicators: The SPD may have built-in LED indicators that provide a visual representation of its status, such as whether it is operational, in alarm, or has experienced a fault. Audible Alarms: In addition to remote signaling, some SPDs may include audible alarms to provide on-site indication of a surge event or fault condition. Monitoring Software: For digital communication protocols, the SPD may come with monitoring software that allows users to remotely check the device's status, view historical data, and receive alerts. Integration with Building Management Systems (BMS): Remote signaling SPDs can be integrated into building management systems, allowing facility managers to monitor and manage multiple devices from a centralized control system. Compliance and Certifications: Remote signaling SPDs are typically designed to comply with relevant industry standards and certifications to ensure their reliability and performance. Application Areas: Remote signaling surge protection devices are commonly used in critical applications where the continuous operation of electrical and electronic equipment is essential, such as data centers, telecommunications facilities, industrial automation, and medical environments. The remote signaling feature enhances the overall effectiveness of surge protection systems by providing real-time monitoring and rapid response to surge events, thereby minimizing downtime and potential damage to sensitive equipment.

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Hager 2 Pole Imax 40 kA Surge Protection Device, SPL240

By Hager

₹6,725   ₹10,510

You save ₹3,785!

36.01% OFF

A Hager 2 Pole Imax 40 kA Surge Protection Device, SPL240 refers to a surge protection device (SPD) equipped with remote signaling capabilities. Surge protection devices are designed to protect electrical and electronic equipment from voltage spikes or surges caused by events like lightning strikes, power grid fluctuations, or switching operations. The addition of remote signaling features allows for the monitoring and notification of the SPD's status from a remote location. Here are key features and aspects of a Remote Signaling Surge Protection Device: Surge Protection Functionality: Like any surge protection device, the primary function is to divert excessive voltage away from sensitive equipment, preventing damage caused by power surges. Remote Signaling: Remote signaling capabilities enable the device to communicate its status or alert conditions to a central monitoring system or control panel located at a distance. This is particularly useful for applications where the SPD is installed in a remote or inaccessible location. Communication Protocols: Remote signaling can be achieved through various communication protocols, including relay contacts, voltage-free contacts, or digital communication protocols such as Modbus or SNMP (Simple Network Management Protocol). Relay Contacts: Some SPDs with remote signaling feature relay contacts that change state based on the SPD's status. For example, a normally open or normally closed relay may be used to indicate whether the SPD is in a normal or fault condition. Voltage-Free Contacts: Voltage-free contacts provide an isolated, low-voltage interface that can be used to connect the SPD to external monitoring or control systems without affecting the protected equipment. LED Indicators: The SPD may have built-in LED indicators that provide a visual representation of its status, such as whether it is operational, in alarm, or has experienced a fault. Audible Alarms: In addition to remote signaling, some SPDs may include audible alarms to provide on-site indication of a surge event or fault condition. Monitoring Software: For digital communication protocols, the SPD may come with monitoring software that allows users to remotely check the device's status, view historical data, and receive alerts. Integration with Building Management Systems (BMS): Remote signaling SPDs can be integrated into building management systems, allowing facility managers to monitor and manage multiple devices from a centralized control system. Compliance and Certifications: Remote signaling SPDs are typically designed to comply with relevant industry standards and certifications to ensure their reliability and performance. Application Areas: Remote signaling surge protection devices are commonly used in critical applications where the continuous operation of electrical and electronic equipment is essential, such as data centers, telecommunications facilities, industrial automation, and medical environments. The remote signaling feature enhances the overall effectiveness of surge protection systems by providing real-time monitoring and rapid response to surge events, thereby minimizing downtime and potential damage to sensitive equipment.

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Hager 4 Pole Imax 20 kA Surge Protection Device, SPL420

By Hager

₹10,619   ₹16,940

You save ₹6,321!

37.31% OFF

A Hager 4 Pole Imax 20 kA Surge Protection Device, SPL420 refers to a surge protection device (SPD) equipped with remote signaling capabilities. Surge protection devices are designed to protect electrical and electronic equipment from voltage spikes or surges caused by events like lightning strikes, power grid fluctuations, or switching operations. The addition of remote signaling features allows for the monitoring and notification of the SPD's status from a remote location. Here are key features and aspects of a Remote Signaling Surge Protection Device: Surge Protection Functionality: Like any surge protection device, the primary function is to divert excessive voltage away from sensitive equipment, preventing damage caused by power surges. Remote Signaling: Remote signaling capabilities enable the device to communicate its status or alert conditions to a central monitoring system or control panel located at a distance. This is particularly useful for applications where the SPD is installed in a remote or inaccessible location. Communication Protocols: Remote signaling can be achieved through various communication protocols, including relay contacts, voltage-free contacts, or digital communication protocols such as Modbus or SNMP (Simple Network Management Protocol). Relay Contacts: Some SPDs with remote signaling feature relay contacts that change state based on the SPD's status. For example, a normally open or normally closed relay may be used to indicate whether the SPD is in a normal or fault condition. Voltage-Free Contacts: Voltage-free contacts provide an isolated, low-voltage interface that can be used to connect the SPD to external monitoring or control systems without affecting the protected equipment. LED Indicators: The SPD may have built-in LED indicators that provide a visual representation of its status, such as whether it is operational, in alarm, or has experienced a fault. Audible Alarms: In addition to remote signaling, some SPDs may include audible alarms to provide on-site indication of a surge event or fault condition. Monitoring Software: For digital communication protocols, the SPD may come with monitoring software that allows users to remotely check the device's status, view historical data, and receive alerts. Integration with Building Management Systems (BMS): Remote signaling SPDs can be integrated into building management systems, allowing facility managers to monitor and manage multiple devices from a centralized control system. Compliance and Certifications: Remote signaling SPDs are typically designed to comply with relevant industry standards and certifications to ensure their reliability and performance. Application Areas: Remote signaling surge protection devices are commonly used in critical applications where the continuous operation of electrical and electronic equipment is essential, such as data centers, telecommunications facilities, industrial automation, and medical environments. The remote signaling feature enhances the overall effectiveness of surge protection systems by providing real-time monitoring and rapid response to surge events, thereby minimizing downtime and potential damage to sensitive equipment.

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Hager 2 Pole Imax 20 kA Surge Protection Device, SPL220

By Hager

₹5,899   ₹8,910

You save ₹3,011!

33.79% OFF

A Hager 2 Pole Imax 20 kA Surge Protection Device, SPL220 refers to a surge protection device (SPD) equipped with remote signaling capabilities. Surge protection devices are designed to protect electrical and electronic equipment from voltage spikes or surges caused by events like lightning strikes, power grid fluctuations, or switching operations. The addition of remote signaling features allows for the monitoring and notification of the SPD's status from a remote location. Here are key features and aspects of a Remote Signaling Surge Protection Device: Surge Protection Functionality: Like any surge protection device, the primary function is to divert excessive voltage away from sensitive equipment, preventing damage caused by power surges. Remote Signaling: Remote signaling capabilities enable the device to communicate its status or alert conditions to a central monitoring system or control panel located at a distance. This is particularly useful for applications where the SPD is installed in a remote or inaccessible location. Communication Protocols: Remote signaling can be achieved through various communication protocols, including relay contacts, voltage-free contacts, or digital communication protocols such as Modbus or SNMP (Simple Network Management Protocol). Relay Contacts: Some SPDs with remote signaling feature relay contacts that change state based on the SPD's status. For example, a normally open or normally closed relay may be used to indicate whether the SPD is in a normal or fault condition. Voltage-Free Contacts: Voltage-free contacts provide an isolated, low-voltage interface that can be used to connect the SPD to external monitoring or control systems without affecting the protected equipment. LED Indicators: The SPD may have built-in LED indicators that provide a visual representation of its status, such as whether it is operational, in alarm, or has experienced a fault. Audible Alarms: In addition to remote signaling, some SPDs may include audible alarms to provide on-site indication of a surge event or fault condition. Monitoring Software: For digital communication protocols, the SPD may come with monitoring software that allows users to remotely check the device's status, view historical data, and receive alerts. Integration with Building Management Systems (BMS): Remote signaling SPDs can be integrated into building management systems, allowing facility managers to monitor and manage multiple devices from a centralized control system. Compliance and Certifications: Remote signaling SPDs are typically designed to comply with relevant industry standards and certifications to ensure their reliability and performance. Application Areas: Remote signaling surge protection devices are commonly used in critical applications where the continuous operation of electrical and electronic equipment is essential, such as data centers, telecommunications facilities, industrial automation, and medical environments. The remote signaling feature enhances the overall effectiveness of surge protection systems by providing real-time monitoring and rapid response to surge events, thereby minimizing downtime and potential damage to sensitive equipment.

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Hager 4 Pole Imax 12.5 kA (Remote Signaling) Remote Signaling Surge Protection Device, SPL412R

By Hager

₹20,059   ₹32,170

You save ₹12,111!

37.65% OFF

A Hager 4 Pole Imax 12.5 kA (Remote Signaling) Remote Signaling Surge Protection Device, SPL412R refers to a surge protection device (SPD) equipped with remote signaling capabilities. Surge protection devices are designed to protect electrical and electronic equipment from voltage spikes or surges caused by events like lightning strikes, power grid fluctuations, or switching operations. The addition of remote signaling features allows for the monitoring and notification of the SPD's status from a remote location. Here are key features and aspects of a Remote Signaling Surge Protection Device: Surge Protection Functionality: Like any surge protection device, the primary function is to divert excessive voltage away from sensitive equipment, preventing damage caused by power surges. Remote Signaling: Remote signaling capabilities enable the device to communicate its status or alert conditions to a central monitoring system or control panel located at a distance. This is particularly useful for applications where the SPD is installed in a remote or inaccessible location. Communication Protocols: Remote signaling can be achieved through various communication protocols, including relay contacts, voltage-free contacts, or digital communication protocols such as Modbus or SNMP (Simple Network Management Protocol). Relay Contacts: Some SPDs with remote signaling feature relay contacts that change state based on the SPD's status. For example, a normally open or normally closed relay may be used to indicate whether the SPD is in a normal or fault condition. Voltage-Free Contacts: Voltage-free contacts provide an isolated, low-voltage interface that can be used to connect the SPD to external monitoring or control systems without affecting the protected equipment. LED Indicators: The SPD may have built-in LED indicators that provide a visual representation of its status, such as whether it is operational, in alarm, or has experienced a fault. Audible Alarms: In addition to remote signaling, some SPDs may include audible alarms to provide on-site indication of a surge event or fault condition. Monitoring Software: For digital communication protocols, the SPD may come with monitoring software that allows users to remotely check the device's status, view historical data, and receive alerts. Integration with Building Management Systems (BMS): Remote signaling SPDs can be integrated into building management systems, allowing facility managers to monitor and manage multiple devices from a centralized control system. Compliance and Certifications: Remote signaling SPDs are typically designed to comply with relevant industry standards and certifications to ensure their reliability and performance. Application Areas: Remote signaling surge protection devices are commonly used in critical applications where the continuous operation of electrical and electronic equipment is essential, such as data centers, telecommunications facilities, industrial automation, and medical environments. The remote signaling feature enhances the overall effectiveness of surge protection systems by providing real-time monitoring and rapid response to surge events, thereby minimizing downtime and potential damage to sensitive equipment.

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Hager 2 Pole Imax 12.5 kA (Remote Signaling) Remote Signaling Surge Protection Device, SPL212R

By Hager

₹10,029   ₹16,070

You save ₹6,041!

37.59% OFF

A Hager 2 Pole Imax 12.5 kA (Remote Signaling) Remote Signaling Surge Protection Device, SPL212R refers to a surge protection device (SPD) equipped with remote signaling capabilities. Surge protection devices are designed to protect electrical and electronic equipment from voltage spikes or surges caused by events like lightning strikes, power grid fluctuations, or switching operations. The addition of remote signaling features allows for the monitoring and notification of the SPD's status from a remote location. Here are key features and aspects of a Remote Signaling Surge Protection Device: Surge Protection Functionality: Like any surge protection device, the primary function is to divert excessive voltage away from sensitive equipment, preventing damage caused by power surges. Remote Signaling: Remote signaling capabilities enable the device to communicate its status or alert conditions to a central monitoring system or control panel located at a distance. This is particularly useful for applications where the SPD is installed in a remote or inaccessible location. Communication Protocols: Remote signaling can be achieved through various communication protocols, including relay contacts, voltage-free contacts, or digital communication protocols such as Modbus or SNMP (Simple Network Management Protocol). Relay Contacts: Some SPDs with remote signaling feature relay contacts that change state based on the SPD's status. For example, a normally open or normally closed relay may be used to indicate whether the SPD is in a normal or fault condition. Voltage-Free Contacts: Voltage-free contacts provide an isolated, low-voltage interface that can be used to connect the SPD to external monitoring or control systems without affecting the protected equipment. LED Indicators: The SPD may have built-in LED indicators that provide a visual representation of its status, such as whether it is operational, in alarm, or has experienced a fault. Audible Alarms: In addition to remote signaling, some SPDs may include audible alarms to provide on-site indication of a surge event or fault condition. Monitoring Software: For digital communication protocols, the SPD may come with monitoring software that allows users to remotely check the device's status, view historical data, and receive alerts. Integration with Building Management Systems (BMS): Remote signaling SPDs can be integrated into building management systems, allowing facility managers to monitor and manage multiple devices from a centralized control system. Compliance and Certifications: Remote signaling SPDs are typically designed to comply with relevant industry standards and certifications to ensure their reliability and performance. Application Areas: Remote signaling surge protection devices are commonly used in critical applications where the continuous operation of electrical and electronic equipment is essential, such as data centers, telecommunications facilities, industrial automation, and medical environments. The remote signaling feature enhances the overall effectiveness of surge protection systems by providing real-time monitoring and rapid response to surge events, thereby minimizing downtime and potential damage to sensitive equipment.

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Hager 32 A Double Pole Fuse Carriers, LSN502

By Hager

Pack of 6 piece

₹2,831   ₹4,380

You save ₹1,549!

35.37% OFF

A Hager 32 A Double Pole Fuse Carriers, LSN502 also known as fuse holders or fuse sockets, are devices designed to hold and secure fuses within an electrical circuit. They provide a means for inserting, removing, and replacing fuses easily. The primary purpose of a fuse carrier is to protect electrical circuits by facilitating the use of fuses, which act as protective devices against overcurrent conditions. Here are key features and functions of fuse carriers: Fuse Protection: Fuse carriers are used to house fuses, which are protective devices that interrupt the flow of electrical current when it exceeds a specified level. This helps prevent damage to equipment and electrical systems. Enclosure: Fuse carriers typically consist of an insulated housing or enclosure that provides mechanical support, electrical insulation, and protection against accidental contact. Contacts: Fuse carriers have electrical contacts that make proper electrical connections with the fuse terminals. These contacts ensure a secure and low-resistance path for current flow. Connection to Circuit: Fuse carriers are integrated into electrical circuits, allowing fuses to be easily inserted and removed. They may be mounted on panels, enclosures, or DIN rails for convenient installation. Types of Fuses: Fuse carriers are designed to accommodate specific types and sizes of fuses, such as cartridge fuses, blade fuses, or other fuse types. Current Rating: The fuse carrier is selected based on the current rating of the fuse it accommodates. It is important to match the current rating of the fuse and the fuse carrier to the requirements of the electrical circuit. Disconnecting Function: Some fuse carriers have a disconnecting or isolating function, allowing the circuit to be safely disconnected when replacing a fuse. Indication: Certain fuse carriers may have indicators to visually show the status of the fuse (blown or intact) without removing the fuse from the holder. DIN Rail Mounting: In industrial applications, fuse carriers are often designed for DIN rail mounting, providing a standardized and modular solution for panel installations. Material and Construction: Fuse carriers are constructed from materials that provide electrical insulation and mechanical strength. Common materials include thermoplastics or thermosetting plastics. Fuse carriers play a crucial role in electrical safety by allowing for the controlled interruption of current in case of a fault or overcurrent condition. They are commonly used in a variety of applications, including power distribution panels, control panels, industrial machinery, automotive systems, and more. When selecting fuse carriers, it's important to consider factors such as the type of fuse, current rating, voltage rating, and the specific requirements of the electrical system.

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Hager 32 A Single Pole Fuse Carriers, LSN501

By Hager

Pack of 12 piece

₹3,539   ₹5,280

You save ₹1,741!

32.97% OFF

A Hager 32 A Single Pole Fuse Carriers, LSN501 also known as fuse holders or fuse sockets, are devices designed to hold and secure fuses within an electrical circuit. They provide a means for inserting, removing, and replacing fuses easily. The primary purpose of a fuse carrier is to protect electrical circuits by facilitating the use of fuses, which act as protective devices against overcurrent conditions. Here are key features and functions of fuse carriers: Fuse Protection: Fuse carriers are used to house fuses, which are protective devices that interrupt the flow of electrical current when it exceeds a specified level. This helps prevent damage to equipment and electrical systems. Enclosure: Fuse carriers typically consist of an insulated housing or enclosure that provides mechanical support, electrical insulation, and protection against accidental contact. Contacts: Fuse carriers have electrical contacts that make proper electrical connections with the fuse terminals. These contacts ensure a secure and low-resistance path for current flow. Connection to Circuit: Fuse carriers are integrated into electrical circuits, allowing fuses to be easily inserted and removed. They may be mounted on panels, enclosures, or DIN rails for convenient installation. Types of Fuses: Fuse carriers are designed to accommodate specific types and sizes of fuses, such as cartridge fuses, blade fuses, or other fuse types. Current Rating: The fuse carrier is selected based on the current rating of the fuse it accommodates. It is important to match the current rating of the fuse and the fuse carrier to the requirements of the electrical circuit. Disconnecting Function: Some fuse carriers have a disconnecting or isolating function, allowing the circuit to be safely disconnected when replacing a fuse. Indication: Certain fuse carriers may have indicators to visually show the status of the fuse (blown or intact) without removing the fuse from the holder. DIN Rail Mounting: In industrial applications, fuse carriers are often designed for DIN rail mounting, providing a standardized and modular solution for panel installations. Material and Construction: Fuse carriers are constructed from materials that provide electrical insulation and mechanical strength. Common materials include thermoplastics or thermosetting plastics. Fuse carriers play a crucial role in electrical safety by allowing for the controlled interruption of current in case of a fault or overcurrent condition. They are commonly used in a variety of applications, including power distribution panels, control panels, industrial machinery, automotive systems, and more. When selecting fuse carriers, it's important to consider factors such as the type of fuse, current rating, voltage rating, and the specific requirements of the electrical system.

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Hager 265 kA Neutral Cartridge for Surge Protection Device, SPL065N

By Hager

₹4,365   ₹6,780

You save ₹2,415!

35.62% OFF

A Hager 265 kA Neutral Cartridge for Surge Protection Device, SPL065N refers to a specific component or module designed for surge protection within an electrical system, focusing specifically on neutral protection. Let's break down the key components of this term: Neutral: In an electrical system, the neutral conductor is the return path for electric current. Surge protection devices often include protection for both the phase (hot) and neutral conductors to safeguard against transient voltage spikes. Cartridge: A cartridge typically refers to a replaceable module or component encased in a protective housing. In surge protection devices, a cartridge may contain components like metal oxide varistors (MOVs) or other technologies that absorb and divert excess voltage during a surge event. Surge Protection Device (SPD): An SPD is a device designed to protect electrical and electronic equipment from voltage spikes, surges, and transient events. SPDs are crucial for preventing damage caused by lightning, switching operations, or other electrical disturbances. Putting it together, a "neutral cartridge for surge protection device" is a replaceable module or component designed specifically for protecting the neutral conductor in an electrical system from transient voltage surges. Key considerations for a neutral cartridge for surge protection devices might include: Compatibility: The neutral cartridge should be compatible with the specific surge protection device or system it is intended for. Voltage Rating: The voltage rating of the neutral cartridge should match the system voltage to provide effective protection. Surge Current Capacity: The cartridge should have a surge current rating suitable for the application, indicating its ability to handle transient surges. Mounting and Installation: The neutral cartridge should be designed for easy integration into the surge protection device and suitable for the mounting arrangement in the electrical system. Replaceability: Cartridges are often replaceable to maintain the effectiveness of the surge protection. Easy replacement without extensive downtime is a valuable feature. It's important to refer to the product documentation provided by the manufacturer of the surge protection device to understand the specific requirements and characteristics of the neutral cartridge. Additionally, adherence to relevant electrical codes and standards is crucial for the proper installation and functioning of surge protection devices.

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Hager 240 kA Neutral Cartridge for Surge Protection Device, SPL040N

By Hager

₹3,775   ₹5,560

You save ₹1,785!

32.1% OFF

A Hager 240 kA Neutral Cartridge for Surge Protection Device, SPL040N refers to a specific component or module designed for surge protection within an electrical system, focusing specifically on neutral protection. Let's break down the key components of this term: Neutral: In an electrical system, the neutral conductor is the return path for electric current. Surge protection devices often include protection for both the phase (hot) and neutral conductors to safeguard against transient voltage spikes. Cartridge: A cartridge typically refers to a replaceable module or component encased in a protective housing. In surge protection devices, a cartridge may contain components like metal oxide varistors (MOVs) or other technologies that absorb and divert excess voltage during a surge event. Surge Protection Device (SPD): An SPD is a device designed to protect electrical and electronic equipment from voltage spikes, surges, and transient events. SPDs are crucial for preventing damage caused by lightning, switching operations, or other electrical disturbances. Putting it together, a "neutral cartridge for surge protection device" is a replaceable module or component designed specifically for protecting the neutral conductor in an electrical system from transient voltage surges. Key considerations for a neutral cartridge for surge protection devices might include: Compatibility: The neutral cartridge should be compatible with the specific surge protection device or system it is intended for. Voltage Rating: The voltage rating of the neutral cartridge should match the system voltage to provide effective protection. Surge Current Capacity: The cartridge should have a surge current rating suitable for the application, indicating its ability to handle transient surges. Mounting and Installation: The neutral cartridge should be designed for easy integration into the surge protection device and suitable for the mounting arrangement in the electrical system. Replaceability: Cartridges are often replaceable to maintain the effectiveness of the surge protection. Easy replacement without extensive downtime is a valuable feature. It's important to refer to the product documentation provided by the manufacturer of the surge protection device to understand the specific requirements and characteristics of the neutral cartridge. Additionally, adherence to relevant electrical codes and standards is crucial for the proper installation and functioning of surge protection devices.

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Hager 265 kA Phase Cartridge for Surge Protection Device, SPL065

By Hager

₹2,831   ₹4,240

You save ₹1,409!

33.23% OFF

A Hager 265 kA Phase Cartridge for Surge Protection Device, SPL065 likely refers to a component or module designed for surge protection within an electrical system. Let's break down the key components of this term: Phase: In the context of electricity, a "phase" refers to one of the conductors used to distribute electrical power. Electrical systems can have single-phase or multiple-phase configurations (e.g., three-phase). Cartridge: A "cartridge" typically refers to a removable or replaceable component, often encased in a protective housing. In surge protection devices, a cartridge could contain elements such as varistors, gas discharge tubes, or other components that help absorb or divert excess electrical energy during a surge. Surge Protection Device (SPD): An SPD is a device designed to protect electrical and electronic devices from voltage spikes, surges, and transient events. Surge protection devices are crucial for safeguarding equipment against damage caused by lightning, switching operations, or other electrical disturbances. Putting it together, a "phase cartridge for surge protection device" would likely be a replaceable module or component specifically designed to protect a particular phase in an electrical system from surges. Key considerations for a phase cartridge for surge protection devices might include: Compatibility: The phase cartridge should be compatible with the specific surge protection device or system it is intended for. Voltage Rating: The voltage rating of the phase cartridge should match the system voltage to provide effective protection. Surge Current Capacity: The cartridge should have a surge current rating suitable for the application, indicating its ability to handle transient surges. Mounting and Installation: The phase cartridge should be designed for easy integration into the surge protection device and suitable for the mounting arrangement in the electrical system. Replaceability: Cartridges are often replaceable to maintain the effectiveness of the surge protection. Easy replacement without extensive downtime is a valuable feature. It's important to refer to the product documentation provided by the manufacturer of the surge protection device to understand the specific requirements and characteristics of the phase cartridge. Additionally, adherence to relevant electrical codes and standards is crucial for the proper installation and functioning of surge protection devices.

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Hager 40 kA Phase Cartridge for Surge Protection Device, SPL040

By Hager

₹2,477   ₹3,550

You save ₹1,073!

30.23% OFF

A Hager 40 kA Phase Cartridge for Surge Protection Device, SPL040 likely refers to a component or module designed for surge protection within an electrical system. Let's break down the key components of this term: Phase: In the context of electricity, a "phase" refers to one of the conductors used to distribute electrical power. Electrical systems can have single-phase or multiple-phase configurations (e.g., three-phase). Cartridge: A "cartridge" typically refers to a removable or replaceable component, often encased in a protective housing. In surge protection devices, a cartridge could contain elements such as varistors, gas discharge tubes, or other components that help absorb or divert excess electrical energy during a surge. Surge Protection Device (SPD): An SPD is a device designed to protect electrical and electronic devices from voltage spikes, surges, and transient events. Surge protection devices are crucial for safeguarding equipment against damage caused by lightning, switching operations, or other electrical disturbances. Putting it together, a "phase cartridge for surge protection device" would likely be a replaceable module or component specifically designed to protect a particular phase in an electrical system from surges. Key considerations for a phase cartridge for surge protection devices might include: Compatibility: The phase cartridge should be compatible with the specific surge protection device or system it is intended for. Voltage Rating: The voltage rating of the phase cartridge should match the system voltage to provide effective protection. Surge Current Capacity: The cartridge should have a surge current rating suitable for the application, indicating its ability to handle transient surges. Mounting and Installation: The phase cartridge should be designed for easy integration into the surge protection device and suitable for the mounting arrangement in the electrical system. Replaceability: Cartridges are often replaceable to maintain the effectiveness of the surge protection. Easy replacement without extensive downtime is a valuable feature. It's important to refer to the product documentation provided by the manufacturer of the surge protection device to understand the specific requirements and characteristics of the phase cartridge. Additionally, adherence to relevant electrical codes and standards is crucial for the proper installation and functioning of surge protection devices.

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Hager 20 kA Phase Cartridge for Surge Protection Device, SPL020

By Hager

₹2,005   ₹2,890

You save ₹885!

30.62% OFF

A Hager 20 kA Phase Cartridge for Surge Protection Device, SPL020 likely refers to a component or module designed for surge protection within an electrical system. Let's break down the key components of this term: Phase: In the context of electricity, a "phase" refers to one of the conductors used to distribute electrical power. Electrical systems can have single-phase or multiple-phase configurations (e.g., three-phase). Cartridge: A "cartridge" typically refers to a removable or replaceable component, often encased in a protective housing. In surge protection devices, a cartridge could contain elements such as varistors, gas discharge tubes, or other components that help absorb or divert excess electrical energy during a surge. Surge Protection Device (SPD): An SPD is a device designed to protect electrical and electronic devices from voltage spikes, surges, and transient events. Surge protection devices are crucial for safeguarding equipment against damage caused by lightning, switching operations, or other electrical disturbances. Putting it together, a "phase cartridge for surge protection device" would likely be a replaceable module or component specifically designed to protect a particular phase in an electrical system from surges. Key considerations for a phase cartridge for surge protection devices might include: Compatibility: The phase cartridge should be compatible with the specific surge protection device or system it is intended for. Voltage Rating: The voltage rating of the phase cartridge should match the system voltage to provide effective protection. Surge Current Capacity: The cartridge should have a surge current rating suitable for the application, indicating its ability to handle transient surges. Mounting and Installation: The phase cartridge should be designed for easy integration into the surge protection device and suitable for the mounting arrangement in the electrical system. Replaceability: Cartridges are often replaceable to maintain the effectiveness of the surge protection. Easy replacement without extensive downtime is a valuable feature. It's important to refer to the product documentation provided by the manufacturer of the surge protection device to understand the specific requirements and characteristics of the phase cartridge. Additionally, adherence to relevant electrical codes and standards is crucial for the proper installation and functioning of surge protection devices.

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Ships within 8 days

amiciSmart AC Surge Protector 275 V 20 - 40 KA Lightning Protection SPD Device, 1xSPD-AC-40KA

By amiciSmart

₹766   ₹1,500

You save ₹734!

48.93% OFF

The amiciSmart AC Surge Protector 275 V 20 - 40 KA Lightning Protection SPD Device, 1xSPD-AC-40KA is the perfect solution for efficient water storage in compact spaces. Manufactured by Surge Protection Devices (SPD), this durable white plastic tank is engineered for strength, hygiene, and space-saving installation in residential lofts. Its robust build resists corrosion, leakage, and environmental damage, making it ideal for long-term domestic use. As part of the trusted Loft Water Tank range from Surge Protection Devices (SPD), the amiciSmart AC Surge Protector 275 V 20 - 40 KA Lightning Protection SPD Device, 1xSPD-AC-40KA combines aesthetic appeal with reliable performance. Its smooth inner surface prevents microbial growth, ensuring clean water storage at all times. Easy to install and maintain, this loft tank is an essential addition for modern households seeking quality and convenience in water management.

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Havells Type 2 Surge Protection Device 20 kA

By Havells

₹1,651 - ₹3,421

You save ₹945!

36.4% OFF

Havells Type 2 Surge Protection Devices (SPDs) are advanced components designed to safeguard electrical systems from transient voltage surges and spikes. These surge protectors are classified as Type 2 according to international standards, indicating their suitability for use at the main distribution panel or subpanel level to provide secondary protection against moderate to high-energy surges. Crafted with precision and employing sophisticated surge protection technology, Havells Type 2 SPDs are engineered to rapidly divert excessive voltage safely to ground, thereby protecting sensitive equipment and appliances from damage. By swiftly responding to voltage spikes, these devices help ensure the uninterrupted operation and longevity of connected electrical systems. Havells Type 2 Surge Protection Devices are suitable for various applications, including residential, commercial, and industrial installations. They can be installed at critical points within the electrical distribution network to provide comprehensive surge protection coverage for the entire system. Installation of Havells Type 2 SPDs is typically straightforward, with options for mounting at the main service panel, subpanels, or individual equipment, depending on the specific requirements of the installation. These devices are designed to integrate seamlessly into electrical systems, offering easy installation and maintenance.

Type of Product : Type 2 Surge Protection Device

In (kA) : 20 kA

Imax : 40 kA

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Elmex DC Surge Protection Device SPD – 1000V

By Elmex

₹2,005  

DC Surge Protection Device (SPD) is designed to limit transient over voltages of atmospheric origin and divert current waves to earth, so as to limit the amplitude of this over voltage to a value that is not hazardous for the electrical installation and electric switchgear. Type 2 SPD: The Type 2 SPD is the main protection system for all low voltage electrical installations. Installed in each electrical switchboard, it prevents the spread of over voltages in the electrical installations and protects the load. Nominal Voltage (Un): The nominal voltage stands for the nominal voltage of the system to be protected Maximum Continuous Operating Voltage (Uc): The maximum continuous operating voltage is the r.m.s value of the maximum voltage which may be connected to corresponding terminals of the Surge Protective Device during operations. Maximum Continuous Operating Voltage for PV System (Ucpv): The maximum continuous operating voltage for Photovoltaic (PC) system is the value of the maximum DC voltage which may be permanently applied to terminals of SPD. Voltage Protection Level (Up): The Voltage Protection Level is the maximum instantaneous value of the voltage at terminals of SPD. Nominal Discharge Current (In): The nominal discharge current is the peak value of the current that can be passed through SPD having a wave shape of 8/20 µs. Maximum Discharge Current (Imax): The maximum discharge current is the peak value of the current which the device can safely discharge through the SPD having a wave shape of 8/20 µs Applications Photovoltaic & Wind Industry & Automation Commercial & Residential Installations Telecom, IT & Data Centers

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Havells Single Phase 320 V AC Advanced Surge Protection Device, EXACSPD1P

By Havells

₹1,415  

The Havells Single Phase 320 V AC Advanced Surge Protection Device, EXACSPD1P, is designed to safeguard your electrical systems from harmful voltage spikes. Ideal for residential and light commercial applications, this device operates at 320 V, providing reliable protection for sensitive equipment against surges caused by lightning strikes or electrical disturbances.With its advanced technology, the EXACSPD1P efficiently diverts excess voltage, ensuring your devices remain safe and operational. Its compact design makes installation straightforward, allowing for seamless integration into existing electrical setups. Built for durability, this surge protection device guarantees long-lasting performance, making it an essential addition to your electrical safety strategy. Protect your valuable appliances and ensure peace of mind with the Havells Single Phase Surge Protection Device, and enjoy uninterrupted power supply in your home or business!

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Elmex DC Surge Protection Device SPD – 600V

By Elmex

₹1,061  

DC Surge Protection Device (SPD) is designed to limit transient over voltages of atmospheric origin and divert current waves to earth, so as to limit the amplitude of this over voltage to a value that is not hazardous for the electrical installation and electric switchgear. Type 1 SPD: The Type 1 SPD is designed for protection against lightning strikes and other transient phenomena on power lines, but also against disturbances in the mains. Nominal Voltage (Un): The nominal voltage stands for the nominal voltage of the system to be protected Maximum Continuous Operating Voltage (Uc): The maximum continuous operating voltage is the r.m.s value of the maximum voltage which may be connected to corresponding terminals of the Surge Protective Device during operations Maximum Continuous Operating Voltage for PV System (Ucpv): The maximum continuous operating voltage for Photovoltaic (PC) system is the value of the maximum DC voltage which may be permanently applied to terminals of SPD. The Ucpv shall be specified in terms of nominal voltage, nominal current, floating voltage, and floating current. Voltage Protection Level (Up): The Voltage Protection Level is the maximum instantaneous value of the voltage at terminals of SPD. It shall be specified in terms of nominal voltage, nominal current, floating voltage, and floating current. Nominal Discharge Current (In): The nominal discharge current is the peak value of the current that can be passed through SPD having a wave shape of 8/20 µs. It shall be specified in terms of nominal voltage, nominal current, floating voltage, and floating current. Maximum Discharge Current (Imax): The maximum discharge current is the peak value of the current which the device can safely discharge through the SPD having a wave shape of 8/20 µs. It shall be specified in terms of nominal Applications Photovoltaic & Wind Industry & Automation Commercial & Residential Installations Telecom, IT & Data Centers

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