High Temperature Control Cables
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  • High Temperature Control Cables

High Temperature Control Cables

450/750V AC high temperature control cable, FEP/PVC insulated, -60℃ to 200℃ operating range. Resistant to acid, alkali, oil water, suitable for control circuits in metallurgy, petrochemical power plant harsh environments.

Category:

Instrument Wires and Cables

mia@liangdutech.com

Hotline:+86 188 5635 5856

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  • Product details

  • Application Scope:

    For metallurgy, petroleum, chemical, power stations and harsh environments (acid, alkali, oil, water, low temperature) as connecting lines for electrical, instrumentation and automatic devices, rated voltage ≤ 450/750 V AC.


    Technical Specifications:

    Rated voltage: 450/750 V.

    Operating temperature: -25~105°C (KFV, KVFP, KFVR, KFVRP); -60~200°C (KFF, KFFR).

    Bending radius: ≥ 6× cable diameter.


    Models:

    KFF: FEP insulated FEP sheathed control cable

    KFV: FEP insulated PVC sheathed control cable

    KVFP: PVC insulated FEP sheathed shielded control cable

    KFFR: FEP insulated FEP sheathed flexible control cable

    KFVR: FEP insulated PVC sheathed flexible control cable

    KFVRP: PVC insulated FEP sheathed shielded flexible control cable


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High Temperature Control Cables
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Q

What is a thermocouple?

A

Thermocouples: The Champion in High-Temperature Applications
Thermocouples are the preferred solution for extreme temperature applications. They consist of two dissimilar metal wires joined at the measuring end, generating a voltage proportional to the temperature difference.
Working Principle:​ When two different metals are connected, the thermoelectric effect produces a voltage at the junction. This voltage increases with rising temperature, allowing measurement via reference tables.
Key Advantages:​
• Temperature Range:​ -270°C to 2300°C (depending on type)
• Fast Response Time​ (typically 0.1–10 seconds)
• Robust Construction, vibration-resistant
• Relatively Low Cost​
• No External Power Required

Q

What is the difference between RTD and thermocouple?

A

Principles
• RTD (Resistance Temperature Detector):​ Based on the principle that a metal conductor's resistance increases with temperature, it converts resistance measurements into temperature readings.
• Thermocouple:​ Operates on the Seebeck effect, where two dissimilar metals in contact generate a thermoelectric voltage proportional to temperature differences.
Features
• RTD:​ High accuracy, stable signal, excellent linearity, ideal for low to medium temperatures.
• Thermocouple:​ Simple structure, fast response, high-temperature resistance, wide measurement range.
Pros & Cons
• RTD Pros:​ High precision, strong anti-interference, reliable low-temperature performance.
Cons:​ Limited upper temperature range, bulkier size, slightly slower response.
• Thermocouple Pros:​ Broad temperature range, high-temperature tolerance, rapid response, suitable for moving/surface measurements.
Cons:​ Lower accuracy at low temperatures, requires cold junction compensation, weaker signal prone to interference.

E-mail address:

mia@liangdutech.com

Hotline:

+86 188 5635 5856

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