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Control Cables

Control cables maintain accurate signal delivery with low-resistance conductors. They prevent interference, ensuring machines respond precisely. This minimizes errors and keeps operations running smoothly, reducing downtime. High signal integrity is essential for automation and system reliability. Control cables guarantee precise, uninterrupted signal flow for accurate machine performance. 

Conductor Material

Typically copper, tinned copper, or aluminum, ensuring reliable conductivity.

Conductor Resistance

Usually ≤ 0.15 Ω per meter, ensuring minimal signal loss.

Insulation Resistance

Typically ≥ 10^9 Ω, preventing leakage currents and ensuring safety.

Dielectric Constant (εr)

Usually ranges from 2.5 to 3.0, affecting signal propagation speed.

Capacitance

Typically between 50 – 150 pF/m, determining signal coupling efficiency.
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Product Description

Control cables are durable and designed for extreme conditions. They resist high temperatures, moisture, and abrasion. Advanced insulation materials protect against chemicals and UV damage. These features ensure cables continue performing under tough conditions, even in harsh industrial environments. 

Inductance

Typically between 0.2 – 0.5 μH/m, affecting high-frequency performance.

Shielding Effectiveness

Usually greater than 90% at 1 MHz, minimizing EMI interference.

Jacket Material

Materials like PVC, TPE, FEP, or XLPE, providing environmental protection.

Max. Operating Frequency

Typically between 10 – 100 MHz, determining signal bandwidth capabilities.

Jacket Flammability Rating

UL VW-1, UL 94V-0 ratings, indicating fire resistance and safety.

Maximum Signal Velocity

Typically 80 – 95% of the speed of light, impacting transmission time.

Peak Operating Voltage

Typically rated for 600 V AC/DC, ensuring safe voltage handling.

Tensile Strength

Typically ≥ 1000 N, indicating durability and resistance to mechanical stress.

Dynamic Flex Life

Typically ≥ 5 million cycles at a 15 mm bend radius, indicating long-term flexibility.

Temperature Range

Typically from -40°C to +125°C, ensuring performance in extreme environments.

Cable Impedance

Typically 50 Ω, 75 Ω, or 93 Ω, optimized for specific applications.

Bandwidth

Typically ≥ 1 GHz, affecting data transmission speed and quality.

Technical Advantages

Flexible control cables bend and move easily with machinery. They remain flexible even in cold environments, simplifying installation. Their compact design allows them to fit into tight spaces without difficulty, speeding up setup time and reducing installation costs. 

Problem Solved: Install cables quickly and easily, even in confined or moving spaces. 

Control cables are built for optimal electrical performance. They resist short circuits and protect against electromagnetic interference (EMI). Shielding keeps your equipment safe from external disruptions. These cables ensure reliable power and signal transmission in complex systems. 

Problem Solved: Minimize electrical faults and protect against interference with high-performance cables. 

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Industry Applications

Closed-Loop Control Systems

Enable real-time feedback in automated processes, ensuring precision in CNC machining and robotic arms. 

Jet Engine Control

Deliver accurate signals to engine monitoring systems, maintaining performance under extreme heat and vibrations. 

Subsea Control Systems

These systems transmit control signals for underwater ROVs and subsea production systems, and they are resistant to high pressure and corrosion. 

Cryogenic Equipment

Provide signal transmission in cryogenic applications with insulation that can withstand ultra-low temperatures. 

Integrated Circuit Test Equipment

Facilitate communication between test devices and circuits, maintaining signal accuracy in high-frequency environments. 

Advanced Power Distribution Networks

Control and monitor electrical loads, ensuring signal integrity under fluctuating voltages and currents. 

Maximize Safety and Cut Costs with Certified Cables

Control cables, such as UL and RoHS, meet international safety and quality standards. They comply with regulations, ensuring your systems are safe and legal. Certified cables reduce the risk of costly regulatory issues and downtime, giving you peace of mind. 

Quality control cables save money in the long run. They last longer, reducing replacement costs. Their durability and low maintenance needs cut downtime, contributing to overall savings. These cables offer excellent value over their lifespan. Save money over time with durable, low-maintenance cables that last longer. 

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Having Doubts? Our FAQ

Check all our Frequently Asked Question

How do control cables prevent signal interference in sensitive environments?

Control cables are designed with shielding, such as foil or braided wire, to protect signals from electromagnetic interference (EMI). The shielding is a barrier, preventing external noise from affecting the signals transmitted through the cables. This ensures your equipment receives accurate, interference-free signals, which is crucial in high-precision environments like medical or aerospace systems. 

What materials are used in control cable insulation to withstand extreme temperatures?

Control cables use high-performance insulating materials like Teflon, PVC, and thermoplastic elastomers (TPE). These heat-resistant materials allow the cables to operate in temperatures ranging from -40°C to +200°C. This makes them ideal for industrial applications where high or low temperatures are common, ensuring reliable performance in extreme conditions. 

How do control cables maintain reliability in high-vibration environments?

Control cables are constructed with flexible, strain-resistant materials that withstand constant movement and vibration. The cables have reinforced jackets and flexible conductors to prevent wear and tear. This makes them suitable for robotics, heavy machinery, and automotive applications, where vibration is a common issue. 

What factors affect the electrical resistance of control cables?

The conductor material, cross-sectional area, and insulation quality influence the electrical resistance of control cables. Copper and aluminum are commonly used for conductors because of their low resistance. Thicker conductors reduce resistance, improving signal transmission. Insulation materials with higher dielectric strength ensure minimal power loss and prevent electrical shorts. 

How do control cables perform under exposure to chemicals and oils?

Control cables for harsh environments are built with chemical-resistant insulation and jackets, such as fluoropolymers or cross-linked polyethylene (XLPE). When exposed to oils, acids, and other chemicals, these materials prevent degradation. Cables with these properties are ideal for industries like oil and gas, where chemical exposure is frequent, and cables must maintain performance. 

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Control Cables

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