High-Performance Medical Electricals

Frigate provides high-reliability electrical components for medical systems engineered for biocompatibility and resistance to sterilization processes. 

medical

Hybrid shielding and impedance-controlled pairs ensure 60+ dB SNR, reducing EMI in MRI, CT, and diagnostic signal systems. 

Fluorosilicone and PFA retain electrical properties after 100+ sterilization cycles; certified for biocompatibility per ISO 10993 standards. 

50 AWG stranded copper with Kevlar reinforcement enables over 10 million flex cycles without fatigue or insulation damage. 

Our Clients

Preferred by OEMs and system designers for transformer sourcing

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.

Amorphous Core Transformers - IMG
Toroidal Transformers - IMG
Cast Resin Transformers - IMG (3)
Induction Heating Transformers - IMG (2)
Pulse Transformers - IMG
Auto Transformers - IMG (3)
Encapsulated Transformers - IMG
Isolation Transformers - IMG (2)
Three-Phase Transformers - IMG (1)
UPS & Inverter Transformers - IMG (3)
UK Plug Power Cord - IMG
Australian Plug Power Cord - IMG (3)
Type D Power Cords
Japanese Plug Power Cord - IMG (3)
Type G Power Cords (4)
USB-C PD Power Cord - IMG (4)
DC to USB Power Cord - IMG
Type A NEMA Power Cords - IMG (2)
Type C Europlug Power Cords (3)
Schuko Plug Power Cord - IMG (4)
Water Cooled Inductor (2)
Input Choke
Marine Water Cooled Reactor
Line Air Choke to DC Link - img (2)
3-Phase Output Choke - IMG (2)
3-Phase Sine Wave Filter Inductor (2)
Output Choke (3)
Inverter Isolation Choke - img
Auxiliary Inductor (2)
Filter Choke - img

Feedback from Transformer Clients

Hear how procurement teams and engineering leads rate our transformer reliability, customization depth, and production consistency.

Words from Clients

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

Electrical Subsystems in Clinical Environments

Medical electrical components operate in regulated environments requiring resistance to sterilization, mechanical stress, and electromagnetic interference. 

Surgical Robotics Systems

High-flex electrical assemblies support multi-axis articulation, maintaining signal integrity and mechanical durability over continuous high-cycle operations in sterile environments. 

Diagnostic Imaging Equipment

Low-noise shielded conductors with impedance control preserve signal quality and synchronization in MRI, CT, and ultrasound systems operating at high frequencies. 

medical

Micro-Diameter, High-Density Cabling

Frigate develops ultra-compact electrical assemblies engineered for tight-space routing in advanced diagnostic and wearable medical systems. 

Miniaturized High-Performance Architecture

Micro-coaxial designs use 42–48 AWG conductors with low-permittivity fluoropolymer dielectrics (εr < 2.1) and dual shielding for EMI suppression.

Precision Jacket Control

Extrusion tolerances held within ±0.02 mm ensure consistent bundle geometry, enabling reliable integration in endoscopic and minimally invasive platforms.

Precision Electrical Systems for Every Industry

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

Securing Transformer Reliability in Life-Saving Medical Systems

Power systems for medical equipment demand flawless performance under critical conditions. 

Dielectric Strength Verification
Each unit undergoes high-voltage dielectric strength testing to guarantee absolute insulation reliability and patient safety in electrically sensitive medical environments.
Thermal Stability Evaluation
Transformers are tested under continuous load cycles with elevated temperatures to validate efficiency, durability, and zero tolerance for overheating risks.
Low Noise
Compliance
Strict electromagnetic and acoustic noise testing ensures transformers meet medical device standards for silent operation and precise diagnostic accuracy.

Insights from Transformer Manufacturing Experts

Read technical articles on transformer integration, compliance standards and sourcing strategies across industry-specific use cases.

Having Doubts? Our FAQ

Check all our Frequently Asked Questions

How does Frigate ensure EMI shielding for patient-connected monitoring systems in high-noise environments?

Frigate uses multi-layer shielding with aluminum-polyester foil and 90% optical copper braid coverage to suppress both common-mode and differential-mode interference. The cable architecture includes grounded drain wires and controlled impedance paths to reduce reflected signals. Each assembly is tested for insertion loss and return loss across the required frequency range. This ensures clean signal delivery in ECG, EEG, and imaging systems.

How are Frigate’s electrical assemblies optimized for integration into wearable or portable medical devices?

Frigate designs compact, lightweight assemblies using micro-coaxial conductors and ultra-thin fluoropolymer insulation. Outer diameters are maintained under strict ±0.02 mm tolerances to ensure compatibility with small enclosures. Shielding and insulation materials are selected to minimize triboelectric noise and support continuous movement. These features make them ideal for wearable monitoring and home-based medical diagnostics. 

What makes Frigate’s products suitable for sterilization-heavy medical environments like operating rooms?

Frigate uses high-temperature-resistant materials such as PFA and fluorosilicone that retain dielectric integrity after 100+ sterilization cycles. Mechanical and electrical properties are validated through autoclave, EtO, and plasma exposure testing. The assemblies are also designed to resist cracking, delamination, and jacket swelling. These properties ensure performance reliability in surgical and clinical tools requiring repeat sterilization. 

How does Frigate prevent failure due to conductor fatigue in medical robotic systems?

Frigate uses 50 AWG ultra-fine stranded conductors with tight lay geometry to reduce mechanical stress during flexing. Cable designs include aramid tensile elements and strain isolation zones to manage load. Each design is tested to exceed 10 million cycles in dynamic motion setups. This prevents early fatigue in robotic arms and catheter-based navigation tools. 

How are Frigate's materials selected for use in patient-contact or near-patient electrical systems?

Frigate selects insulation and jacketing materials based on ISO 10993-5/10 biocompatibility requirements. Every material undergoes cytotoxicity, irritation, and sensitization testing to ensure safe use around patients. Additionally, materials are chosen for low particulate generation and resistance to bodily fluids. This ensures both electrical safety and patient protection in close-contact medical devices. 

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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

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