Intrinsically Safe Exi Temperature Sensors (ATEX, IECEx, EAC Ex)
Resistance Thermometers (RTDs)


  

XI-TRP-TKbW, Intrinsically Safe Resistance Thermometer

 

ATEX Designation:

IM1 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


Application

  • * Measuring range: -50 .. +600°C
  • * General machinery and equipment design
  • * Measuring temperature of liquids, gases and solid bodies
  • * All branches of industry
  • * Installation in hazardous areas:
    Gases, vapors, mists (G): Zone 0, 1, 2
    Dusts (D): Zone 20, 21, 22
    Mines: M1


Features

  • * Mineral insulated RTD sensor serie XI-TRP-TKbWL with connection cable and LEMO® connector
  • * Made of sheathed cable insulated inside with Magnesium Oxide (MgO)
  • * Small dimensions, outer diameter from Ø1.5 mm
  • * Short response time for temperature change
  • * The sensor is bendable
  • * Casing made of acid resistant steel AISI316 (1.4401), AISI321 (1.4541)
  • * Resistant to vibrations


Multiplicity

Possible combinations of sheath diameters, multiplicity of the sensor and connecting lines:
Sheath diameter
Single, f.e. 1xPt100 Double, f.e. 2xPt100
2-wire 3-wire 4-wire 2-wire 3-wire 4-wire
Ø1.5 mm  

Ø2.0 mm
 

Ø3.0 mm
 
Ø4.5 mm
 
Ø6.0 mm
   

Description

Sheathed resistance thermometers are made of metal sheathed cable with internal wires (Cu or Ni) are insulated from each other and from the outer sheath with magnesium oxide (MgO) powder. This provides the sensor with high vibration resistance, flexibility as well as resistance to temperature and with good electrical insulation.

These sensors are designed for direct temperature measuring in places with difficult access, as well as in all places, where it is required to use flexible sensors of small diameters, high resistance to vibrations and shock, and with short response time to temperature changes.

Due to tight pressing of the insulating layer (MgO) and appropriate structure of the inner wires and the sheath, the sensors can be bent with a minimal radius of curvature of three times the outer diameter of the sheath.
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