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Signal Transmission Cables

Precision and reliability are essential where signal accuracy matters most. The right signal transmission cables ensures uninterrupted data flow and system efficiency. These cables prevent issues like signal loss, interference, and degradation. They maintain stable connectivity and ensure consistent performance, even in demanding applications. 

Conductor Material

Oxygen-free copper (OFC) with silver plating for minimal signal loss and enhanced conductivity

Conductor Resistance

≤ 0.01 Ω/m for high-conductivity applications at high frequencies

Insulation Resistance

≥ 10^9 Ω for enhanced dielectric strength and signal integrity

Dielectric Constant (εr)

≤ 2.3 for low capacitance to ensure minimal signal delay and low attenuation

Capacitance

≤ 50 pF/m to reduce signal degradation over long distances
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Product Description

Advanced materials and robust designs make these cables highly durable. They resist EMI, extreme temperatures, and mechanical stress. Features like high-quality shielding and low-loss insulation ensure signal clarity. These cables support high-speed data transfer and long-distance communication. They perform reliably in industrial and harsh environments, meeting modern communication standards. 

Inductance

≤ 0.7 μH/m for minimal interference in high-speed applications

Shielding Effectiveness

≥ 80 dB attenuation at 1 GHz to protect against external EMI and crosstalk

Jacket Material

UV-stabilized thermoplastic elastomer (TPE) for chemical and abrasion resistance

Max. Operating Frequency

10 GHz or higher for applications in high-speed data transmission (e.g., 100G Ethernet)

Jacket Flammability Rating

UL VW-1 or equivalent for flame-resistant applications in industrial settings

Maximum Signal Velocity

≥ 70% of the speed of light for high-performance data transmission

Peak Operating Voltage

500 V RMS for industrial-grade signal transmission without voltage breakdown

Tensile Strength

≥ 150 N for reliable performance in dynamic and heavy-duty installations

Dynamic Flex Life

≥ 10 million cycles for use in cable carriers and robotic arms

Temperature Range

-40°C to +150°C, capable of withstanding extreme environments without performance degradation

Cable Impedance

50 Ω, 75 Ω, or custom impedance as per application requirements for signal integrity

Bandwidth

≥ 10 GHz for high-frequency and high-speed data transmission without signal loss

Technical Advantages

Uncontrolled electromagnetic interference (EMI) can distort signals, reducing performance and costly downtime. To minimize EMI, our cables are designed with superior shielding technology, including braided, foil, and hybrid shields. This ensures consistent signal integrity even in high-noise environments like industrial automation, telecommunications, and aerospace. 

Signal attenuation over extended lengths can compromise accuracy and reliability. Our low-capacitance cables are manufactured with high-purity copper conductors and precision dielectrics. This design minimizes resistance and capacitance, delivering superior signal strength and clarity across long distances.

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Industry Applications

High-Speed Interconnects

Precision data transmission in PCIe, InfiniBand, and Fiber Channel for server and data center networks. 

Low-Noise Instrumentation

Signal integrity in high-resolution measurement systems like oscilloscopes, spectrometers, and seismic monitoring equipment. 

Real-Time Industrial Protocols

Seamless communication in protocols like EtherCAT, PROFINET, and Modbus for factory automation and motion control. 

Electromagnetic Compatibility (EMC) Systems

Cables with advanced shielding for EMC compliance in test equipment and EMI-sensitive environments. 

Subsea Communication

Deep-sea data and power signal transfer for underwater sensors, ROVs, and marine geophysical equipment. 

High-Frequency RF Applications

Stable signal transmission in radar systems, satellite communications, and RF amplification networks. 

Seamless Integration with High-Speed Standards

Cumbersome installation processes and rigid cables can lead to project delays. Our cables are designed with flexible construction, reduced outer diameters, and optimized bend radii, making them easy to install in tight spaces without compromising performance.  

As industries adopt high-speed communication standards like Ethernet, CAN bus, and RS-485, the demand for cables that support rapid data rates has surged. Our cables are tested to meet and exceed data transmission standards, providing ultra-high-speed performance with minimal crosstalk and jitter. 

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Having Doubts? Our FAQ

Check all our Frequently Asked Question

How do signal transmission cables minimize electromagnetic interference (EMI) in industrial environments?

Signal transmission cables reduce EMI through advanced shielding techniques. These include braided, foil, or hybrid shields that create a barrier against external electromagnetic fields. High-density shielding materials and precise conductor twisting minimize noise by canceling interference. 

What role does the dielectric material play in signal transmission performance?

The dielectric material insulates the cable’s conductors and affects signal speed and attenuation. Low-loss dielectrics, such as PTFE or XLPE, ensure minimal signal degradation and high-frequency performance. They maintain consistent impedance, which is critical for high-speed data transmission. 

How does conductor material impact signal quality over long distances?

Conductor material determines resistance and conductivity, directly affecting signal strength. High-purity copper or silver-plated conductors are preferred for their low resistance and superior conductivity. This ensures minimal voltage drop and maintains signal clarity over extended cable runs. 

What design features make signal transmission cables suitable for dynamic applications?

Cables for dynamic applications feature flexible conductors, optimized insulation, and reinforced jacketing. Stranded or fine-stranded conductors enhance flexibility, while durable outer jackets resist abrasion and fatigue. These features allow the cables to perform reliably in continuous-motion environments like robotics or automation. 

How do signal transmission cables support ultra-high-speed data rates?

Ultra-high-speed data rates require cables with precise impedance control, low capacitance, and minimal crosstalk. Advanced manufacturing techniques ensure tight tolerances and consistent geometry. These features support high-speed protocols like Ethernet or RS-485, ensuring low jitter and high data integrity. 

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Signal Transmission 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!

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