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.
Our connectors are constructed with high-strength materials and advanced mechanical engineering techniques to ensure resistance against mechanical stress, abrasion, and environmental factors. Using high-grade metals like stainless steel and corrosion-resistant alloys ensures connectors can withstand repeated mating cycles without degradation of contact performance. These connectors are rigorously tested for mechanical endurance, including insertion and withdrawal force, to ensure they meet or exceed industry standards.
As mobile devices continue to decrease in size while increasing in functionality, the need for miniaturized connectors that retain high-performance characteristics becomes critical. Our connectors are designed using advanced micro-electronics, providing a compact footprint without compromising the electrical and mechanical properties. These connectors feature tightly packed pins and precise tolerances to ensure high-quality connectivity in space-constrained applications. Through optimized miniaturization techniques, we can deliver connectors that fit within increasingly tighter design envelopes without sacrificing performance or reliability.
With the increasing demand for fast-charging and high-power mobile devices, connectors must reliably handle higher currents without overheating or causing power loss. Our connectors incorporate advanced power delivery (PD) protocols, such as USB-PD, and can safely manage current loads of up to 100W or more, depending on the application. Our connectors reduce power loss and heat buildup by using higher-quality contact materials like copper alloys and introducing optimized contact geometry, ensuring safe and efficient energy transfer even in high-power environments. Thermal management is also a key design consideration, with connectors featuring built-in thermal vias and heat-sink designs to mitigate heat dissipation issues.
Need reliable Connectors for your next project? Get in touch with us today, and we’ll help you find exactly what you need!
Enables high-frequency signal transmission with minimal loss in base stations and 5G antennas.
Provides stable connections for signal routing and power supply in satellite communication systems.
Ensures reliable power and data transfer for servers and HPC systems requiring low-latency connections.
Facilitates reliable data communication and power for IoT sensors, hubs, and connected devices.
Supports secure, low-interference connectivity for radar systems, communication modules, and advanced defense equipment.
Ensures precision data transfer and power management in high-accuracy electronic testing devices.
In modern communication devices, EMI and crosstalk can severely impact signal quality, especially high-frequency signals. Our connectors are engineered with advanced shielding mechanisms, including integrated ferrites and ground pins, to significantly reduce electromagnetic interference. Shielding effectiveness is further enhanced by precise grounding techniques and optimized materials that ensure low-loss signal paths. These features are critical for maintaining the performance of sensitive components, such as cameras, GPS modules, and antennas, by ensuring that the electrical signals remain undisturbed by external or internal interference.
Check all our Frequently Asked Question
Frigate utilizes advanced die-casting techniques with high-precision molds, ensuring tight tolerances and consistent dimensions. Automated quality control systems verify every connector’s fitment and electrical performance to meet the required specifications for mobile devices.
Frigate uses high-quality, conductive alloys such as copper, gold-plated brass, and stainless steel for phone connectors. These materials offer optimal conductivity, minimizing signal loss and power resistance while maintaining durability in high-cycle environments.
Frigate incorporates advanced thermal management techniques, including heat-dissipation channels and thermally efficient materials, in the design of phone connectors. These elements help maintain safe operating temperatures during fast-charging processes, preventing overheating and ensuring reliable long-term performance.
Frigate uses specialized electromagnetic compatibility (EMC) testing, shielding effectiveness tests, and signal interference analysis. Each connector undergoes extensive EMI/EMC testing to ensure that integrated shielding, ferrites, and grounding techniques effectively reduce interference in high-speed communication environments.
Frigate’s phone connectors undergo rigorous mechanical stress tests, including insertion/removal cycle testing, tensile strength tests, and vibration resistance testing. Using high-strength materials and precise mechanical design, connectors maintain reliable electrical connections even under heavy use and environmental stress.
Submit the form below and our representative will be in touch shortly.
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!