The NNC93F New Energy AC Relay by CLION is a heavy-duty power solution built for high-current new energy applications. Its most impressive feature is an 80A transfer contact capability—the highest in its class—allowing it to handle extreme loads in grid-tied solar systems, industrial motor controls, and large-scale wind farms. Unlike traditional sealed models, the NNC93F serves as a reliable alternative to sealed or anti-flux relays, offering better heat dissipation and easier maintenance. Certified to UL insulation class F (155°C), it operates safely in high-temperature environments, while RoHS compliance ensures it meets global environmental standards. With an insulation resistance of up to 2500MΩ and a mono stability (F) design, this relay prioritizes safety, durability, and flexibility for critical power systems.
80A Transfer Contact Capability: The 80A transfer contact capability makes it ideal for high-current applications like grid-tied solar inverters and industrial motor controls, handling peak loads without performance loss.
Alternative to Sealed/Anti-Flux Relays: As an alternative to sealed or anti-flux relays, the NNC93F avoids heat buildup (a common issue with sealed models) and simplifies maintenance—reducing downtime in critical systems.
UL Insulation Class F: UL insulation class F certification allows operation at temperatures up to 155°C, protecting against overheating in crowded control panels or outdoor wind farms.
2500MΩ Insulation Resistance: 2500MΩ insulation resistance between coil and contacts prevents electrical leakage, ensuring safety in high-voltage new energy setups.
RoHS Compliance: RoHS compliance eliminates hazardous substances, making the relay suitable for eco-conscious projects and international markets (e.g., EU, Japan).
Mono Stability (F) Design: The mono stability (F) design ensures the relay returns to a default state when power is lost, adding a safety layer for unattended systems like solar farms.
Dual Coil Voltage Options: Offers 12VDC and 24VDC coil voltage variants, compatible with most industrial and new energy controllers.
Grid-tied solar systems feed large amounts of power into the electrical grid, requiring relays that handle extreme currents. The NNC93F’s 80A transfer contact capability manages these high loads, while its role as an alternative to sealed or anti-flux relays ensures efficient heat dissipation—critical for 24/7 operation. The UL insulation class F rating withstands the heat of grid inverters, preventing shutdowns during peak sunlight hours.
Large industrial motors (e.g., in manufacturing plants) experience high startup surges that can damage standard relays. The NNC93F New Energy AC Relay’s 80A transfer contact capability absorbs these surges, protecting motor windings and extending equipment life. Its high insulation resistance shields against electrical interference, and the mono stability design shuts down safely if power fails—preventing accidents.
Wind farms generate variable power that must be smoothly integrated into the grid. The NNC93F adjusts to fluctuating currents using its 80A transfer contact capability, while its alternative to sealed or anti-flux relays design simplifies maintenance in remote wind farm locations. RoHS compliance aligns with the farm’s sustainability goals, and the 2500MΩ insulation resistance protects against lightning-induced surges.
Sealed relays trap heat, leading to premature failure in high-current use. The NNC93F—as an alternative to sealed or anti-flux relays—uses open-air ventilation for better heat dissipation, extending its lifespan by up to 50% in heavy-duty scenarios.
It offers two practical options: 12VDC and 24VDC. This flexibility ensures compatibility with most new energy system controllers and industrial power supplies.
Yes—its UL insulation class F rating resists temperature extremes (from cold winters to hot summers), and a custom sealed package (available upon request) protects against dust, rain, and wind-blown debris.
The mono stability (F) design ensures the relay returns to a pre-set “safe state” if power is lost. For example, in a solar farm, this could disconnect the system from the grid to prevent voltage spikes—critical for unattended operations.
The NNC93F New Energy AC Relay by CLION is a heavy-duty power solution built for high-current new energy applications. Its most impressive feature is an 80A transfer contact capability—the highest in its class—allowing it to handle extreme loads in grid-tied solar systems, industrial motor controls, and large-scale wind farms. Unlike traditional sealed models, the NNC93F serves as a reliable alternative to sealed or anti-flux relays, offering better heat dissipation and easier maintenance. Certified to UL insulation class F (155°C), it operates safely in high-temperature environments, while RoHS compliance ensures it meets global environmental standards. With an insulation resistance of up to 2500MΩ and a mono stability (F) design, this relay prioritizes safety, durability, and flexibility for critical power systems.
80A Transfer Contact Capability: The 80A transfer contact capability makes it ideal for high-current applications like grid-tied solar inverters and industrial motor controls, handling peak loads without performance loss.
Alternative to Sealed/Anti-Flux Relays: As an alternative to sealed or anti-flux relays, the NNC93F avoids heat buildup (a common issue with sealed models) and simplifies maintenance—reducing downtime in critical systems.
UL Insulation Class F: UL insulation class F certification allows operation at temperatures up to 155°C, protecting against overheating in crowded control panels or outdoor wind farms.
2500MΩ Insulation Resistance: 2500MΩ insulation resistance between coil and contacts prevents electrical leakage, ensuring safety in high-voltage new energy setups.
RoHS Compliance: RoHS compliance eliminates hazardous substances, making the relay suitable for eco-conscious projects and international markets (e.g., EU, Japan).
Mono Stability (F) Design: The mono stability (F) design ensures the relay returns to a default state when power is lost, adding a safety layer for unattended systems like solar farms.
Dual Coil Voltage Options: Offers 12VDC and 24VDC coil voltage variants, compatible with most industrial and new energy controllers.
Grid-tied solar systems feed large amounts of power into the electrical grid, requiring relays that handle extreme currents. The NNC93F’s 80A transfer contact capability manages these high loads, while its role as an alternative to sealed or anti-flux relays ensures efficient heat dissipation—critical for 24/7 operation. The UL insulation class F rating withstands the heat of grid inverters, preventing shutdowns during peak sunlight hours.
Large industrial motors (e.g., in manufacturing plants) experience high startup surges that can damage standard relays. The NNC93F New Energy AC Relay’s 80A transfer contact capability absorbs these surges, protecting motor windings and extending equipment life. Its high insulation resistance shields against electrical interference, and the mono stability design shuts down safely if power fails—preventing accidents.
Wind farms generate variable power that must be smoothly integrated into the grid. The NNC93F adjusts to fluctuating currents using its 80A transfer contact capability, while its alternative to sealed or anti-flux relays design simplifies maintenance in remote wind farm locations. RoHS compliance aligns with the farm’s sustainability goals, and the 2500MΩ insulation resistance protects against lightning-induced surges.
Sealed relays trap heat, leading to premature failure in high-current use. The NNC93F—as an alternative to sealed or anti-flux relays—uses open-air ventilation for better heat dissipation, extending its lifespan by up to 50% in heavy-duty scenarios.
It offers two practical options: 12VDC and 24VDC. This flexibility ensures compatibility with most new energy system controllers and industrial power supplies.
Yes—its UL insulation class F rating resists temperature extremes (from cold winters to hot summers), and a custom sealed package (available upon request) protects against dust, rain, and wind-blown debris.
The mono stability (F) design ensures the relay returns to a pre-set “safe state” if power is lost. For example, in a solar farm, this could disconnect the system from the grid to prevent voltage spikes—critical for unattended operations.
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