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Compensation cable

Type: GLGL

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  • High quality product
  • Color marking according to IEC 584-3, optional ANSI/MC 96.1 (ASTM E230)
  • Available conductors material: KX, JX,  RCA/SCA

 

 

Insulation material is resistant fo extremely high temperatures. Generally used in thermocouple connections.

 

Parallel positioning of conductors in double fiberglass insulation, each one of them. First fiberglass sheath is braided by second one, impragnated. Twisted pairs braided by additional impragnated fiberglass. Global fiberglass sheath is impregnated with silicone. Each one of conductors and conductor pairs are marked with color according to IEC-584-3. It is designed for work in high temperatures, specialy in glass and ceramic industry.

 

Working temperature

 

Insulation temperature resistance from +480oC.

 

Available versions

 

Insulation designation

No of conductors /

Cross-section

Outer dimension

Thermocouple type
Color marking according to IEC 584-3

KX

KCA

JX

TX

NX

EX

RCA

GLGL

insulation 
fiberglass

(-75..+480oC)

4x0.50 mm2

Ø4 mm

       

6x0.50 mm2

Ø6 mm

       

12x0.50 mm2

Ø9 mm

       

 


Compensation and extension cables material

 

We make a distinction between orginal materials for extension cables and replacement materials for compensation cables.

 

Extension cables are made of orginal materials, the same type as thermocouple and it can be used for temperature measurement up to +1200ºC. However, actual maximum working temperature is limited by cable insulation material.

 

Designation according to thermocouple designation and X letter, e.g. KX, JX, EX.

 

Compensation cables are made of substitute materials, composed of alloys, which are not identical with thermocouple materials. However compensation cables has the same thermoelectric properties as thermocouples in allowed temperature range (according to IEC 584-3) for compensation cables.

 

Designation according to thermocouple designation, "C" letter and thermocouple material type designated as "A" or "B" , e.g. KCA, RCA.

 

Substitute materials are used for K and N type thermocouples as well as for thermocouples made of precious metal types such as R, S or B. In these case thermocouples are made of very expensive material and substitute materials are much cheaper solution.

  • Description
    • High quality product
    • Color marking according to IEC 584-3, optional ANSI/MC 96.1 (ASTM E230)
    • Available conductors material: KX, JX,  RCA/SCA

     

     

    Insulation material is resistant fo extremely high temperatures. Generally used in thermocouple connections.

     

    Parallel positioning of conductors in double fiberglass insulation, each one of them. First fiberglass sheath is braided by second one, impragnated. Twisted pairs braided by additional impragnated fiberglass. Global fiberglass sheath is impregnated with silicone. Each one of conductors and conductor pairs are marked with color according to IEC-584-3. It is designed for work in high temperatures, specialy in glass and ceramic industry.

     

    Working temperature

     

    Insulation temperature resistance from +480oC.

     

    Available versions

     

    Insulation designation

    No of conductors /

    Cross-section

    Outer dimension

    Thermocouple type
    Color marking according to IEC 584-3

    KX

    KCA

    JX

    TX

    NX

    EX

    RCA

    GLGL

    insulation 
    fiberglass

    (-75..+480oC)

    4x0.50 mm2

    Ø4 mm

           

    6x0.50 mm2

    Ø6 mm

           

    12x0.50 mm2

    Ø9 mm

           

     


    Compensation and extension cables material

     

    We make a distinction between orginal materials for extension cables and replacement materials for compensation cables.

     

    Extension cables are made of orginal materials, the same type as thermocouple and it can be used for temperature measurement up to +1200ºC. However, actual maximum working temperature is limited by cable insulation material.

     

    Designation according to thermocouple designation and X letter, e.g. KX, JX, EX.

     

    Compensation cables are made of substitute materials, composed of alloys, which are not identical with thermocouple materials. However compensation cables has the same thermoelectric properties as thermocouples in allowed temperature range (according to IEC 584-3) for compensation cables.

     

    Designation according to thermocouple designation, "C" letter and thermocouple material type designated as "A" or "B" , e.g. KCA, RCA.

     

    Substitute materials are used for K and N type thermocouples as well as for thermocouples made of precious metal types such as R, S or B. In these case thermocouples are made of very expensive material and substitute materials are much cheaper solution.

  • Documents
Kalkulator
Unit converter

RTDs and TCs
characteristic calculator

Resistance thermometers

Thermocouples

Cold Junction Compensation = °C

Calculate value of resistance to temperature
(values according to ITS-90 scale)

R = Ω  T = 0 °C

Calculate value of temperature to resistance
(values according to ITS-90 scale)

T = °C R = 0 Ω

Limit values for the calculator

-200 °C - 850 °C

18,52 Ω - 390,48 Ω

Cold Junction Compensation = °C

Calculate value of resistance to temperature
(values according to ITS-90 scale)

R = Ω  T = 0 °C

Calculate value of temperature to resistance
(values according to ITS-90 scale)

T = °C R = 0 Ω

Limit values for the calculator

-60 °C - 250 °C

69,52 Ω - 289,16 Ω

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-210 °C - 1200 °C

-8,095 mV - 69,553 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-270 °C - 1372 °C

-6,458 mV - 54,886 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-270 °C - 1300 °C

-4,345 mV - 47,513 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-270 °C - 1000 °C

-9,835 mV - 76,373 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-270 °C - 400 °C

-6,258 mV - 20,872 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-50 °C - 1768.1 °C

-0,226 mV - 21,103 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-50 °C - 1768.1 °C

-0,236 mV - 18,694 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

0°C - 1820 °C

-0,003 mV - 13,820 mV

Pomoc. Instrukcja użytkownika.

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RTDs and TCs
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