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FITH Cables

Subpar cable performance causes costly data loss, network issues, and downtime. In critical environments, every second counts. FITH Cables offer precise solutions to these problems. They ensure better signal integrity, strong durability, and long-lasting performance. 

Conductor Material

High-conductivity Oxygen-Free Copper (OFC) or Silver-Plated Copper. 

Insulation Material

XLPE, FEP, or PTFE for high thermal stability. 

Voltage Rating

600V to 35kV. 

Temperature Range

-65°C to +200°C 

Fire Resistance

Meets IEC 60332-1 and UL 1581 fire-resistant standards. 

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Product Description

For mission-critical applications, minimizing signal attenuation and protecting against EMI are non-negotiable. FITH Cables integrate multi-layered shielding, including braided, foil, and dielectric insulation, designed to optimize signal transmission even in high-noise environments. Our cables feature low-loss dielectric materials, including PTFE (polytetrafluoroethylene), ensuring minimal signal reflection and impedance mismatches across long distances. 

Water Resistance

IP68 rated, suitable for submerged or highly humid environments with moisture-resistant insulation. 

UV Resistance

UV-stabilized outer jacket, tested to withstand prolonged exposure to sunlight and UV radiation. 

Cross-sectional Area

Available in 0.5 mm² to 300 mm², depending on current and application requirements. 

Sheath Material

Low Smoke Zero Halogen (LSZH), Thermoplastic Elastomer (TPE), or Polyurethane (PUR)  

Armoring

Galvanized Steel Wire Armor (SWA) or Aluminum Wire Armor (AWA)  

Current-Carrying Capacity

Ranges from 10A to 1200A depending on conductor size and insulation type, based on IEC 60287 standards. 

Flexibility

High-flex designs with small bend radius, suitable for dynamic or tight installations. 

Cable Size

2 to 61 cores

Outer Diameter

4 mm to 50 mm, depending on insulation, sheath, and armoring specifications. 

Mechanical Protection

Reinforced with steel or aluminum armoring and impact-resistant outer jacket  

Standards Compliance

IEC 60502, BS 5467, UL 1277, and RoHS-compliant 

Technical Advantages

As data throughput requirements increase, standard cables often struggle to meet the demand, causing network congestion and latency. FITH Cables utilize high-conductivity copper with precise stranding and plating (e.g., silver or nickel-plated conductors) to support high-frequency signal propagation with minimal resistance. These cables are designed for optimized data transmission in Gigabit Ethernet, 10Gbps, and 100Gbps applications, ensuring a future-proof solution for bandwidth-intensive systems. 

FITH Cables are built to withstand the harshest environments. We utilize high-performance jacketing materials like FEP, LSZH (Low Smoke Zero Halogen), and TPE (Thermoplastic Elastomer) to resist extreme temperatures, chemicals, UV exposure, and mechanical stress. Whether in aerospace, oil & gas, or manufacturing, our cables maintain performance integrity in conditions ranging from -65°C to +200°C. 

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Industry Applications

Aerospace Systems

High-temperature-resistant cables for Aerospace Systems data transmission in avionics, satellite communication, and navigation systems. 

Industrial Automation

Robust, EMI-shielded cables for precision signal control in Industrial Automation and robotic systems. 

Telecommunications

Low-attenuation cables supporting high-frequency signals in fiber optics and long-distance data transmission networks in Telecommunications. 

Oil & Gas Industry

Corrosion-resistant, high-flex cables for Oil & Gas Industry signal transmission in offshore rigs and downhole drilling environments. 

Defense and Military

RF coaxial cables for Defense and Military radar, missile guidance, and secure communications in harsh battlefield conditions. 

Medical Devices

Biocompatible, high-bandwidth cables for imaging systems, diagnostic equipment, and surgical robotics for Medical Devices. 

Future-Proof Designs for Emerging Technologies

FITH Cables are engineered to simplify installation in complex environments where routing through tight spaces, sharp bends, or congested cable trays is necessary. Our cables feature a high-flex design with advanced tensile strength, allowing for tighter bend radii without compromising signal integrity. These design considerations reduce labor costs during installation and ensure the cables maintain performance over extended periods, minimizing long-term maintenance requirements. 

FITH cables

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Having Doubts? Our FAQ

Check all our Frequently Asked Question

What type of insulation materials are used in FTH cables and why?

FTH cables use materials like polyethylene (PE), polyvinyl chloride (PVC), and cross-linked polyethylene (XLPE) for insulation. These materials offer excellent electrical properties, high thermal resistance, and durability. XLPE, for example, allows the cables to withstand higher temperatures, making them suitable for demanding applications like underground power distribution. 

How does the attenuation level of FTH cables affect data transmission?

Attenuation refers to the signal loss as it travels through the cable. FTH cables are designed with low attenuation levels, which ensures reliable and fast data transmission over long distances. This is achieved by using high-purity copper or optical fibers with minimal internal resistance or signal reflection, keeping the data integrity intact. 

Can FTH cables be customized for different voltage ratings?

Yes, depending on the application, FTH cables can be customized for various voltage ratings. The cable’s construction, including conductor size, insulation thickness, and shielding, is modified to handle specific voltage levels, from low to high voltage applications, ensuring safe and efficient power transmission. 

What role does the shielding play in FTH cables?

Shielding in FTH cables protects the cable from electromagnetic interference (EMI) and radio frequency interference (RFI). It consists of a layer of conductive material like aluminum or copper foil. This prevents external noise from affecting the signal inside the cable, ensuring stable data transmission, especially in industrial or high-electromagnetic environments. 

How are FTH cables designed to prevent corrosion in harsh environments?

FTH cables are coated with materials like polyethylene or PVC, which are highly resistant to moisture, chemicals, and UV radiation. Additional protective layers, such as steel armor or corrugated aluminum sheathing, can be added in harsh environments. This design ensures the cables remain functional in extreme weather, chemicals, or marine exposure. 

How do FITH Cables address sourcing risks in mission-critical projects?
  • Designed with materials that ensure supply continuity in aerospace, defense, and oil & gas. 
  • Multiple conductor and insulation options reduce dependency on single-supplier bottlenecks. 
  • Scalable production capabilities meet both low-volume prototyping and high-volume demand. 
  • Engineered specifications minimize unplanned downtime, lowering hidden operational costs. 

 

What role do advanced conductors play in reducing lifecycle cost of ownership?
  • High-conductivity oxygen-free copper lowers resistance and energy loss. 
  • Silver- and nickel-plated conductors withstand oxidation in high-temperature setups. 
  • Reduced signal degradation over time prevents costly network reconfigurations. 
  • Longer lifespan translates into fewer replacements and reduced sourcing cycles. 

 

How do FITH Cables ensure stability in environments with high electromagnetic noise?
  • Braided + foil + dielectric multi-layer shielding blocks EMI and RFI. 
  • Optimized impedance design prevents reflection losses in RF systems. 
  • Low-loss PTFE insulation maintains clarity at frequencies up to 40 GHz. 
  • Stable transmission in radar, satellite, and telecom infrastructure under high interference. 
Why should sourcing teams consider FITH Cables over commodity-grade alternatives?
  • Commodity cables show rapid degradation in extreme temperatures and chemicals. 
  • FITH designs withstand -65°C to +200°C without loss of performance. 
  • Advanced jacketing materials (FEP, LSZH, TPE) protect against fire, UV, and corrosion. 
  • Armored protection provides mechanical strength for high-stress deployments. 

 

How do FITH Cables simplify integration into complex installations?
  • High-flex construction allows smaller bend radii for compact routing. 
  • Lightweight but reinforced jackets reduce handling effort during installation. 
  • Pre-engineered customization lowers on-site modification requirements. 
  • Reduced installation time directly cuts labor and sourcing overhead. 

 

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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

  • Bhilai
  • Chennai
  • India
  • Germany
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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

  • Bangalore
  • Chennai
  • India
  • Germany
Become a Frigatian
Become a Supplier

GENERAL ENQUIRIES

  • +91 96778 64606
  • manufacture@frigate.ai
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FITH Cables

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!

Get Latest Price

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FITH Cables

Need reliable Machining for your next project? Get in touch with us today, and we’ll help you find exactly what you need!

Get Latest Price

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