Electrical Equipments for New Energy

Frigate utilizes high-temperature fluoropolymers and silicone elastomers to ensure dielectric stability and insulation integrity under continuous operation above 125°C in new energy and renewable energy environments.

new energy

Void-free insulation with high tracking resistance ensures minimal dielectric loss and suppresses partial discharge in high-frequency inverter systems. 

Dual-layer shielding with copper tape and braided mesh provides over 70 dB attenuation across wide frequencies, ensuring signal integrity. 

Insulation systems rated for 12 kV impulse and 3.5 kV AC withstand protect against surges in renewable grid connections. 

Future-Ready Electrical Solutions

Partner with Frigate to implement advanced electrical technologies enabling high-voltage endurance system reliability and future-ready industrial power architectures. 

Electrical Components We Manufacture

From Cables & Wires to Transformers, Our Electrical Products power your projects across industries. Browse below to find what suits your needs.

EI _ Laminated Core Transformers - IMG (3)
Amorphous Core Transformers - IMG
UPS & Inverter Transformers - IMG (3)
Toroidal Transformers - IMG
Three-Phase Transformers - IMG (1)
Control Transformers - IMG (4)
Audio Line Matching & Output Transformers - IMG (3)
Flat Series _ UI Transformers - IMG (2)
Lighting Transformers - IMG (2)
Current Transformers (CTs) - IMG (3)
UK Plug Power Cord - IMG
French_Belgian Plug Power Cord - IMG
Danish Plug Power Cord - IMG (2)
Type G Power Cords (4)
Type K Power Cords
DC to USB Power Cord - IMG
Colored Server Power Cord - img (4)
Type M Power Cords
CCS DC Charging Cord - IMG
Locking Power Cord - IMG
1-Phase Sine Wave Filter Inductor (2)
Detuned Reactor (2)
Power Smoothing Reactor (2)
Harmonic Filter Choke
Water Cooled Inductor (2)
Step-up Chopper Inductor - IMG (2)
Balancing Reactor (2)
Marine Water Cooled Reactor
DC Reactor (3)
Filter Choke - img

In Their Words

Endorsed by industry decision makers who value our streamlined procurement and efficient execution.

Words from Clients

See how global OEMs and sourcing heads describe their experience with our scalable execution.

System-Level Integration in Renewable Power

Electric products in New Energy systems must meet stringent electrical, thermal, and environmental standards for grid and equipment compatibility. Advanced conductors, insulation, and shielding are essential to ensure reliability under dynamic load conditions and harsh environments. 

DC Bus and Link Cabling in Power Conversion Units

Connects inverter stages with minimal inductance and controlled impedance, using insulation systems resistant to high dv/dt and thermal cycling. 

Medium Voltage (MV) Inter-array Cabling in Wind Turbines

Carries variable-frequency outputs from nacelle generators to base substations; requires EPR insulation and high-strand-count copper for flexibility. 

new energy

Fire Safety and Arc Containment

Frigate develops fire-resistant electric products tailored for confined environments such as BESS enclosures and compact renewable energy modules. 

Arc Fault Mitigation

Cables are engineered with mica barriers and metallic armor to sustain mechanical integrity during arc events and thermal excursions.

Thermal Event Compliance

Designs support UL 9540A testing protocols, maintaining circuit continuity and safety in thermal runaway conditions typical of dense energy storage.

Precision Electrical Systems for Every Industry

Built for demanding sectors, our electric products offer accurate voltage regulation, thermal stability, and EMI shielding—customized for New Energy applications. 

Power Assurance Through Precision Testing

Rising renewable penetration introduces harmonic stress and variable loading on transformers

Thermal Stress
Validation
Each unit undergoes accelerated thermal cycling tests to guarantee stability under fluctuating renewable load conditions and extreme environmental stress.
Harmonic Distortion Analysis
Transformers are evaluated for harmonic resilience, ensuring minimal waveform distortion and optimal performance in inverter-driven renewable systems.
Dielectric Strength Testing
Rigorous insulation breakdown testing is conducted to ensure high-voltage endurance, safeguarding long-term reliability under variable new energy demands.

Electrical Market Insights

Explore how advanced insulation and dielectric technologies are redefining reliability in modern industrial power systems. 

Having Doubts? Our FAQ

Check all our Frequently Asked Questions

How does Frigate ensure long-term insulation stability in high-altitude solar farms?

Frigate uses insulation materials with low partial discharge inception voltages and high tracking resistance for low-pressure environments. Each cable is tested under reduced air density conditions to simulate high-altitude corona risk. UV- and ozone-resistant sheaths are applied to prevent surface erosion. This ensures dielectric integrity over long installation lifecycles. 

What type of shielding does Frigate apply in BESS communication cables to prevent EMI from switching noise?

Frigate uses dual-shielded construction with a helically-applied copper tape and a high-coverage braid. This design attenuates both low- and high-frequency interference from nearby power electronics. The shielding effectiveness exceeds 70 dB in the 10 kHz–100 MHz range. It helps maintain signal quality in Modbus and CAN networks. 

 

How does Frigate design cables to meet thermal requirements in hybrid PV-diesel microgrids?

Frigate applies Class C insulation using silicone or fluoropolymer compounds for continuous operation above 125°C. Cable ampacity is derated based on site-specific thermal resistivity and bundling conditions. Each design complies with IEC 60287 thermal modeling standards. This ensures cables remain stable during peak solar loads and generator transitions.

How are Frigate’s wind turbine cables protected from mechanical strain due to tower movement?

Frigate uses fine-strand flexible conductors with elastomeric jackets designed for torsional fatigue resistance. Cables are tested for repeated bending and twist cycles per IEC 60227-2. Armoring options are provided for nacelle-to-base routing under axial stress. This protects electrical integrity in dynamic tower environments. 

 

How does Frigate ensure its medium-voltage cables for offshore wind meet salt spray resistance?

Frigate uses halogen-free outer sheaths tested to ASTM B117 for salt fog exposure. All metal layers are coated or tinned to resist corrosion. Water-blocking tapes and gel fillers prevent longitudinal ingress in sub-sea exposed sections. This construction is suitable for coastal and floating offshore installations. 

We'd love to Manufacture for you!

Submit the form below and our representative will be in touch shortly.

LOCATIONS

Registered Office

10-A, First Floor, V.V Complex, Prakash Nagar, Thiruverumbur, Trichy-620013, Tamil Nadu, India.

Operations Office

9/1, Poonthottam Nagar, Ramanandha Nagar, Saravanampatti, Coimbatore-641035, Tamil Nadu, India. ㅤ

Other Locations

GENERAL ENQUIRIES

Get Quote
Support All File Formats Including - STEP | STP | SLDPRT | STL | DXF | IPT | X_T | X_B | 3DXML | CATPART | PRT | SAT | 3MF | JT files

Loading....