Choice variants available in e-shop
Your basket (0)
Item
product name
amount
Unit price (netto)

Amount netto: 0.00 zł

Amount brutto: 0.00 zł

Intrinsically Safe Cable Resistance Thermometer

Type: XI-TOPE600

Configure and add to RFQ
Specify the various parameters of the product for enquiry
Product's properties:
Sensor type
Dimension A [mm]
Dimension S [mm]
Dimension L [mm]
Dimension G [mm]
Cable length Lp [mm]
Tolerance class
Connection line
Cable insulation
Add to your enquiry

ATEX Designation:

I M1 Ex ia I Ma
II 1/2G Ex ia IIC T.. Ga
II 1/2D Ex ia IIIC T.. Da

 

IECEx Designation:

I M1 Ex ia I Ma
Ex ia IIC T.. Ga
Ex ia IIIC T.. Da

 

EAC Ex Designation:

PO Ex ia I Ma X
0Ex ia IIC T..Ga X
0Ex ia IIIC T..Da X

Certificate:

FTZU 10 ATEX 0062X

 

 

 

 

IECEx FTZU 16.0015X

 

 

 

 

RU C-PL.MЮ62.B.04104

 

Applications

 

  • Measuring range: -50 .. +155°C (temperature class F)
  • Stator winding temperature measurement, etc.
  • Energy industry

 

Features

 

  • Connection line 2-, 3-, 4-wire
  • Sensor Pt100 according to PN-EN 60751, class B
  • Sensor Ni100 according to DIN 43760
  • CHIP construction
  • Adapted to individual customer requirements
  • Llaminated epoxy-resin sheet
  • Connection cables in teflon® insulation

 

Temperature range

 

Temperature range: -50 .. +155°C (temperature class F)

 

CHIP (point) construction

 

CHIP temperature sensors  XI-TOPE600 also known as winding stator temperature sensor, is installed in winding slots for temperature measurement and for protection from insulation damage in case of overheating. It is recommended for engine to use six temperature sensors, two for each phase. Temperature sensors should be installed in the hottest spot of winding for the best efficiency results.

 

Sensing element of CHIP RTD is installed inside laminated epoxy sheet. Cable is connected to the sensor and sealed by epoxy resin. These Stator RTDs are cheaper solution in compare to bifilar construction.

 

Due to very good dielectrical parameters of HGW and special composition of epoxy resin, these sensors have a high mechanical stability and high voltage resist of 2.5 kV - 5.0 kV as an option.

 

ATEX versions

 

Intrinsically safe design is available for applications in hazardous areas. XI-TOPE600 serie is provided with a type-examination certificate for „intrinsically safe“ type of protection according to Directive 2014/34/UE (ATEX) for gases and dust.

 

Other versions

 

This data sheet contains only small part of our supplies program of cable resistance thermometers. Upon the customer's request, other versions can also be delivered.
  • Description
  • ATEX Designation:

    I M1 Ex ia I Ma
    II 1/2G Ex ia IIC T.. Ga
    II 1/2D Ex ia IIIC T.. Da

     

    IECEx Designation:

    I M1 Ex ia I Ma
    Ex ia IIC T.. Ga
    Ex ia IIIC T.. Da

     

    EAC Ex Designation:

    PO Ex ia I Ma X
    0Ex ia IIC T..Ga X
    0Ex ia IIIC T..Da X

    Certificate:

    FTZU 10 ATEX 0062X

     

     

     

     

    IECEx FTZU 16.0015X

     

     

     

     

    RU C-PL.MЮ62.B.04104

     

    Applications

     

    • Measuring range: -50 .. +155°C (temperature class F)
    • Stator winding temperature measurement, etc.
    • Energy industry

     

    Features

     

    • Connection line 2-, 3-, 4-wire
    • Sensor Pt100 according to PN-EN 60751, class B
    • Sensor Ni100 according to DIN 43760
    • CHIP construction
    • Adapted to individual customer requirements
    • Llaminated epoxy-resin sheet
    • Connection cables in teflon® insulation

     

    Temperature range

     

    Temperature range: -50 .. +155°C (temperature class F)

     

    CHIP (point) construction

     

    CHIP temperature sensors  XI-TOPE600 also known as winding stator temperature sensor, is installed in winding slots for temperature measurement and for protection from insulation damage in case of overheating. It is recommended for engine to use six temperature sensors, two for each phase. Temperature sensors should be installed in the hottest spot of winding for the best efficiency results.

     

    Sensing element of CHIP RTD is installed inside laminated epoxy sheet. Cable is connected to the sensor and sealed by epoxy resin. These Stator RTDs are cheaper solution in compare to bifilar construction.

     

    Due to very good dielectrical parameters of HGW and special composition of epoxy resin, these sensors have a high mechanical stability and high voltage resist of 2.5 kV - 5.0 kV as an option.

     

    ATEX versions

     

    Intrinsically safe design is available for applications in hazardous areas. XI-TOPE600 serie is provided with a type-examination certificate for „intrinsically safe“ type of protection according to Directive 2014/34/UE (ATEX) for gases and dust.

     

    Other versions

     

    This data sheet contains only small part of our supplies program of cable resistance thermometers. Upon the customer's request, other versions can also be delivered.
  • 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.

Unit
converter
RTDs and TCs
characteristic calculator