Corporate Off: PS Pace, Room 905, 1/1A Mahendra Roy Ln, Kolkata – 700046
Registered Off: 5, Clive Row, Room 8H, Kolkata - 700001

COMPENSATING CABLES

  • Construction : Single or Multiple Pairs
  • Voltage Grade : Up to 1100V
  • Cable Code : Kx,Kx(A), TxJx,Ex,Sx/ Rx.Bx.Nx.Ux.Wx
  • Range : 16 AWG /18 AWG / 20 AWG up to 48 Pair
  • Primary Insulation : General purpose PVC / HEAT RESISTANT PVC / LDPE / XLPE / PTFE / Fibre Glass / FEP / Silicone Rubber
  • Screening : Individual and/or overall with following options –
    – Aluminum Mylar/Copper Tape with Tinned Copper Drain Wire or
    – Braided with Bare or Tinned or Nickel Plated or Silver Plated Copper
  • Inner Sheath : PVC / HRPVC / FRPVC / FRLS PVC/ ZHFR / LSF / PTFE / Fibre Glass
  • Armouring : Gl round Wire / Flat strip or Wire Braiding
  • Outer sheath : PVC / HRPVC / FRPVC / FRLS PVC / ZHFR / LSF / PTFE / Fibre Glass
  • Rip cord : For easy removal of sheath
  • Standards : ANSLMC-96.1, IS-8784, DIN, BS& IEC 584-3

Note:- Other conductor sizes and insulation materials on request.

Compensating Cable

Technical Data of Compensating Cable 

CABLE CODE
Kx
Kx(A)
Tx
Jx
Ex
Sx/Rx
CABLE TYPE
EXT
COMP
EXT
EXT
EXT
COMP
Conductor
+Ve leg
Chromel
Copper
Copper
Iron
Chromel
Copper
-Ve leg
Alumel
Constantan
Constantan
Constantan
Constantan
Copper
Alloy
Suitable for
Thermocouple Type
Kx
Kx
Tx
Jx
Ex
Sx/Rx
Conductor Combination
Chromel
Alumel
Copper
Alumel
Copper
Constantan
Iron
Constantan
Chromel
Constantan
Platinum
10/13%
Rhodium
Platinum
Temperature range °C
of measuring junction
0 to
+ 1100
*
-185 to
+300
+20 to
+700
0 to
+800
0 to + 1550/
0 to + 1600
Applicable standards for output
of Thermocouple conductors
BS4937
part 4
ANSI/MC
96.1 type K
DIN 43710
NF C 42-
321
JISC 1602
*
BS4937
part 5
ANSI/MC
96.1 type T
NF C 42-
321
JISC 1602
BS4937
part 3
ANSI/MC
96.1 type J
NFC 42-
321
JISC 1602
BS4937
part 6
ANSI/MC
96.1 type E
NF C 42-
321
JISC 1602
BS4937
part 1
ANSI/MC
96.1 type S.
R, NF
C 42-321
JISC 1602
Approximate generated
EMF change per °C
mV/C at
100°C
42
*
46
46
68
8/8
500°C
43
*
56
81
9/10