Engine mounts, chassis parts, and machined components for assembly lines.
High-strength fasteners, landing gear parts, and structural assemblies.
Forged housings, armor brackets, and mission-critical structural parts.
Precision housings, actuator frames, and armature linkages for automation systems.
Metal frames, brackets, and assemblies for appliances and home equipment.
Busbar holders, battery pack parts, and lightweight structural enclosures.
Solar mounting parts, wind turbine brackets, and battery enclosures.
Valve bodies, flange blocks, and downhole drilling components.
Large welded frames, PEB structures, and assemblies for industrial equipment.
Electrical devices built to deliver stable voltage and current for power distribution and equipment operation.
Manufactured to provide safe and consistent power delivery for electrical equipment and appliances.
Magnetic components designed to store energy, filter signals, and control current in electrical circuits.
Conductive products manufactured to transmit power or signals with consistent electrical performance.
Electrical bars designed for efficient current distribution in electrical panels and power systems.
Protective housings built to safeguard electrical and mechanical assemblies against operational stresses.
Continuous profiles produced with uniform cross-sections for structural, decorative, and functional applications.
Connection interfaces manufactured for secure pipe joining and leak-free performance in critical systems.
Fluid-handling units built to deliver consistent flow and pressure across industrial applications.
Flow control components engineered to regulate, isolate, or direct fluids in industrial systems.
High-accuracy metal parts produced for industries where performance depends on flawless detailing.
Custom-formed sheets with tight dimensional for sectors ranging from enclosures to structural components.
High-volume molded parts with consistent finish, suited for functional and consumer-grade products.
Metal components shaped to complex profiles for strength, detail, and material efficiency.
End-to-end part production from samples to bulk supply.
Ready-to-use assemblies built to exact fit and function.
Heavy-duty fabrication with high-strength materials for demanding applications. Robust welding for maximum structural durability.
These inductors operate up to 1 GHz and support current ratings up to 75 A. With zero core material, they enable low DCR, high Q values, and precise RF response.
We use 100% coreless winding with CNC-controlled geometries to achieve consistent high-Q inductance. Each inductor meets RF-grade precision with ±0.5% tolerance and ultra-low resistance paths.
These units support frequencies up to 200 MHz with defined SRF up to 1 GHz. Construction remains thermally stable from –55 °C to +125 °C with no derating.
Need reliable Heat Sinks for your next project? Get in touch with us today, and we’ll help you find exactly what you need!
Supports impedance matching and RF filtering without flux distortion at high output power.
Stabilizes pulse delivery in MRI and diagnostic RF sections with low EMI coupling.
Maintains signal fidelity in radar and camera circuits exposed to high switching noise.
Isolates signal stages in navigation and control subsystems with stable response over temperature.
Withstands thermal cycling while preserving inductance tolerance in test sockets.
Filters mmWave bands in baseband units with high self-resonant frequency performance.
Space-critical RF boards and test platforms demand precise mounting without parasitic interference. Our Air Core Inductors are offered in vertical or flat-mount variants, with press-fit pins or solderable pads based on layout needs.
We also support gold-plated leadouts and SMD packaging for automated placement. This allows full RF path control while preserving electrical cleanliness.
Check all our Frequently Asked Question
Frigate uses precision-wound coils with optimized pitch and spacing to reduce parasitic capacitance and maintain stable inductance. The absence of magnetic core eliminates hysteresis and saturation issues. Each unit is tested across a wide frequency spectrum to verify consistent performance in RF and high-speed digital systems.
Frigate designs these inductors with thick-gauge conductors and controlled spacing to handle high current without thermal drift. The open construction supports efficient heat dissipation and limits skin effect at elevated frequencies. Frigate validates performance using vector network analysis to confirm Q-factor and current handling capacity.
Frigate applies vertical coil geometries and low-profile designs to reduce magnetic field interference with nearby components. Shielding techniques and layout guidance are provided when needed. Each inductor is tested for coupling behavior under representative board densities to ensure compatibility with compact system architectures.
Frigate’s air core inductors exhibit minimal energy storage delay due to their non-saturating structure and low inductive time constants. The winding geometry reduces transient voltage spikes. Frigate evaluates response times under pulsed signal conditions to confirm fast magnetic behavior and waveform stability.
Frigate secures the windings using resin coatings and structural supports to prevent vibration-induced wire fatigue. Spacer materials resist thermal deformation during operation. All designs undergo vibration and thermal cycling tests to validate mechanical integrity for automotive, aerospace, and telecom-grade environments.
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10-A, First Floor, V.V Complex, Prakash Nagar, Thiruverumbur, Trichy-620013, Tamil Nadu, India.
9/1, Poonthottam Nagar, Ramanandha Nagar, Saravanampatti, Coimbatore-641035, Tamil Nadu, India. ㅤ
Need reliable wires and cables for your next project? Get in touch with us today, and we’ll help you find exactly what you need!
Need reliable Machining for your next project? Get in touch with us today, and we’ll help you find exactly what you need!