12
D1072
- SIL 2 Temperature Signal Converter, Duplicator, Adder/Subtractor
G.M. International ISM0018-13
PPC1092, SWC1090 Configuration
INPUT SECTION:
Sensor:
input sensor type
TC A1 thermocouple to STI90, GOST R8.585 2001 range from –10 to +2500 °C
TC A2 thermocouple to STI90, GOST R8.585 2001 range from –10 to +1800 °C
TC A3 thermocouple to STI90, GOST R8.585 2001 range from –10 to +1800 °C
TC B
thermocouple to STI90, NBS125, GOST R8.585 2001
range from +50 to +1800 °C
TC E
thermocouple to STI90, NBS125, GOST R8.585 2001
range from –250 to +1000 °C
TC J
thermocouple to STI90, NBS125, GOST R8.585 2001
range from –200 to +750 °C
TC K
thermocouple to STI90, NBS125, GOST R8.585 2001
range from –250 to +1350 °C
TC L
thermocouple to SIPT68, DIN43710 range from –200 to +800 °C
TC Lr thermocouple to STI90, GOST R8.585 2001 range from –200 to +800 °C
TC N
thermocouple to STI90, NBS121, GOST R8.585 2001
range from –250 to +1300 °C
TC R
thermocouple to STI90, NBS125, GOST R8.585 2001
range from –50 to +1750 °C
TC S
thermocouple to STI90, NBS125, GOST R8.585 2001
range from –50 to +1750 °C
TC S1 thermocouple type S1 to SIPT68, russian range from –50 to +1600 °C
TC T
thermocouple to STI90, NBS125, GOST R8.585 2001
range from –250 to +400 °C
TC U
thermocouple to SIPT68, DIN43710 range from –200 to +400 °C
Pt 100 thermoresistance
α
=385 to SIPT68, IEC751 range from –200 to +850°C
Pt 200 thermoresistance
α
=385 to SIPT68, IEC751 range from –150 to +400°C
Pt 300 thermoresistance
α
=385 to SIPT68, IEC751 range from –150 to +250°C
Pp 100 thermoresistance
α
=392 to SIPT68, ANSI range from –200 to +625 °C
Pi 500 thermoresistance
α
=391 to SIPT68, russian range from –200 to +75 °C
Pi 100 thermoresistance
α
=391 to SIPT68, russian range from –200 to +650 °C
Pi 50
thermoresistance
α
=391 to SIPT68, russian range from –200 to +650 °C
Ni 100 thermoresistance to SIPT68, DIN43760 range from –50 to +180 °C
Ni 120 thermoresistance
α
=672 to SIPT68, russian range from –75 to +300 °C
Cu 100 thermoresistance to SIPT68, russian range from –50 to +200 °C
Cu 53 thermoresistance to SIPT68, russian range from –50 to +180 °C
Cu 50 thermoresistance to SIPT68, russian range from –50 to +200 °C
Cu 46 thermoresistance to SIPT68, russian range from –200 to +650 °C
Pot
3 wires transmitting potentiometer, 50
Ω
to 20 K
Ω
, range from 0 to 100%
E DC millivolt signal range from –20 to +85 mV
Lead:
input sensor connection type (thermoresistance only)
3 wire 3 wires connection type
4 wire 4 wires connection type
Downscale:
input value of measuring range corresponding to defined low output value.
Upscale:
input value of measuring range corresponding to defined high output value.
Cold Junction:
reference junction compensation type (thermocouple only)
Automatic
ambient temperature compensation automatic by OPT91 sensor
Fixed
programmable temperature compensation at fixed temperature
CJ Reference:
temperature compensation value (Cold Junction type Fixed only),
range from –60 to +100 °C.
RTD line resist:
line resistance error compensation value (thermoresistance only),
range from –5 to +20
Ω
.
INPUT TAG SECTION:
1:
first channel tag
2:
second channel tag
Each channel has independent configurations.
OUTPUT SECTION:
Output:
analog output type
4-20 mA
current output range from 4 to 20 mA
0-20 mA
current output range from 0 to 20 mA
1-5 V
voltage output range from 1 to 5 V
0-5 V
voltage output range from 0 to 5 V
2-10 V
voltage output range from 2 to 10 V
0-10 V
voltage output range from 0 to 10 V
Burnout:
analog output burnout state
None
burnout function is disabled;
analog output represents the input measure as configured
Downscale analog output is forced at mA Burnout or V Burnout lower value
Upscale
analog output is forced at mA Burnout or V Burnout higher value
Function:
analog output function
Ch. A
analog output represents input of first channel
Ch. B
analog output represents input of second channel
Add
analog output represents the sum of the two input channels: (A+B)/2
Sub
analog output represents the difference of the two input channels: A-B
High Ch
analog output represents the higher of the two input channels
Low Ch
analog output represents the lower of the two input channels
Output Limits:
current or voltage analog output normal working range limits or
burnout detection range limits:
mA working:
current analog output range in normal working condition.
mA Burnout:
current analog output lower and higher value for burnout signalation.
V working:
voltage analog output range in normal working condition.
V Burnout:
voltage analog output lower and higher value for burnout signalation.
Each channel has independent configurations.
11)
Func
[3
Level
Menu]
Displays the analog output function type configuration. Press “Enter” to set the analog output function type, press the “Select” key to the next menu level item or “Up” key to
return to second level. If you pressed “Enter” key, you can choose between 6 different output function types; press “Select” key to change the output type and then the “Enter”
key to confirm the choice. The output function types are:
CH A
output follows the first channel input
CH B
output follows the second channel input
Add
output follows the sum of the two input channels (A+B/2)
Sub
output follows the difference of the two input channels
HI CH output follows the higher of the two input channels
LO CH output follows the lower of the two input channels
12)
Dn Sc
[3
Level
Menu]
Displays the input low scale configuration. Press “Enter” to set the low scale input value, press the “Select” key to the next menu level item or “Up” key to return to second level.
If you pressed “Enter” key, you can set the low input value; press the “Select” key to highlight the character you want to change and then the “Up” and “Down” keys to select the
number; confirm the modification with the “Enter” key. The value is settable over the entire range of the sensor as specified.
13)
Up Sc
[3
Level
Menu]
Displays the input high scale configuration. Press “Enter” to set the high scale input value, press the “Select” key to the next menu level item or “Up” key to return to second
level. If you pressed “Enter” key, you can set the high input value; press the “Select” key to highlight the character you want to change and then the “Up” and “Down” keys to
select the number; confirm the modification with the “Enter” key. The value is settable over the entire range of the sensor as specified.
14)
Burn
[3
Level
Menu]
Displays the burnout configuration. Press “Enter” to set the burnout condition, press the “Select” key to the next menu level item or “Up” key to return to second level. If you
pressed “Enter” key, you can choose between 3 different burnout conditions; press “Select” key to change the burnout and then the “Enter” key to confirm the choice.
The condition types are:
none
no burnout detection, the analog output follows the input value
br dn
when in burnout condition, the analog output is forced at mA or V burnout lower value
br up
when in burnout condition, the analog output is forced at mA or V burnout higher value
