Micromod Micro-DCI: 53SL6000 Single Loop Controller User Manual
Page 18
(-320
°
to 1560
°
F)
Copper RTDs
Copper 10 Ohm RTD
α
= 0.00427
-200
°
to +260
°
C
(-320
°
to 500
°
F)
Copper 53 Ohm RTD
α
= 0.00427
-50
°
to +150
°
C
(-55
°
to 300
°
F)
Copper 100 Ohm RTD
α
= 0.00427
-100
°
to + 260
°
C
(-150
°
to 500
°
F)
Nickel RTDs
Nickel 100 Ohm RTD
α
= 0.00618
-60
°
to +180
°
C
(-80
°
to 350
°
F)
Nickel 120 Ohm RTD
α
= 0.00672
-80
°
to +273
°
C
(-110
°
to 520
°
F)
Thermocouple List
J
Fe/Cu-Ni
-200
°
to +1200
°
C
(-325
°
to 2190
°
F)
K
Ni-Chrom/Ni-Al
-200
°
to +1370
°
C
(-320
°
to 2490
°
F)
T
Cu/Cu-Ni
-250
°
to +400
°
C
(-418
°
to 750
°
F)
E
Ni-Chrom/Cu-Ni
-260
°
to +1000
°
C
(−
436
°
to 1830
°
F)
N
Ni-14%Chrom-1.4%Si/Ni-4.4%Si
-0.1%Mg
-200
°
to +1300
°
C
(-320
°
to 2370
°
F)
C
Tungsten-5%Rhenium/Tungsten
-26%Rhenium
0
°
to +2320
°
C
(32
°
to 4200
°
F)
R
Pt-13%Rhodium/Pt
0
°
to +1765
°
C
(32
°
to 3200
°
F)
S
Pt-10%Rhodium/Pt
0
°
to +1765
°
C
(32
°
to 3200
°
F)
B
Pt-30%Rhodium/Pt-6%Rhodium
+20
°
to +1820
°
C
(68
°
to 3300
°
F)
L
Fe/Cu-Ni
-200
°
to +900
°
C
(-320
°
to 1650
°
F)
U
Cu/Cu-Ni
-200
°
to +600
°
C
(-325
°
to 1110
°
F)
CHE
Ni-Chrom/Cu-Ni (Chinese E)
-50
°
to +800
°
C
(-50
°
to 1470
°
F)
CHS
Pt-10%Rhodium/Pt (Chinese S)
0
°
to +1600
°
C
(32
°
to 2900
°
F)
F
0
°
to +1400
°
C
(32
°
to 2550
°
F)
G
Tungsten/Tungsten-26%Rhenium
20
°
to +2320
°
C
(68
°
to 4200
°
F)
D
Tungsten-3%Rhenium/Tungsten
-25%Rhenium
0
°
to +2320
°
C
(32
°
to 4200
°
F)
PLII
Au-Pt-Palladium/Au-Pall
(Platinel II)
-100
°
to +1395
°
C
(-140
°
to 2540
°
F)
2DI/2DO Option Module
Discrete Inputs
2
Signal Low, Voltage
0 to 1 V dc
Signal High, Voltage 4 to 24 V dc
Input Impedance
1000 ohms
Signal Low Contact
≤
100 ohms
Signal High Contact
≥
5000 ohms (minimum
recognition 10 ms)
Discrete Outputs
2 (Form C Relays)
Contact Load
250 V switching voltage,
≤
5 A switching current, and
≤
1250 VA-ac,
≤
30 W at 250 V dc, and
≤
100 W at 24 V dc
switching power
Life Expentancy
20,000,000 mechanical switching
operations and 2,000,000 electri-
53SL6000 Instruction Manual
Section 1. Introduction
1-6