I n P t
Input Fault Timer: Select
O F F
,
0 . 1
to
5 4 0 . 0
minutes. Whenever an Input is out of
range (
U F L
or
O F L
displayed), shorted, or open, the timer will start. When the
time has elapsed, the controller will revert to the output condition selected by
I n P b
below. If
O F F
is selected, the Input Fault Timer will not be recognized (time
= infinite).
S E n C
Sensor Rate of Change: Select
O F F
,
1
to
4 0 0 0
°F, °C, or counts per 1 second
period. This value is usually set to be slightly greater than the fastest process
response expected during a 1 second period, but measured for at least 2
seconds. If the process is faster than this setting, the
S E n C b A d
error message
will appear. The outputs will then be turned off. This function can be used to
detect a runaway condition, or speed up detection of an open thermocouple.
Use the
INDEX
&
ENTER
keys to reset.
S C A L
Scale Low: Select 100 to 11998 counts below
S C A H
. The total span between
S C A L
and
S C A H
must be within 11998 counts. Maximum setting range is -1999
to +9999 counts. For Current and Voltage inputs, this will set the low range end.
Value not adjustable for Thermocouple and RTD ranges.
S C A H
Scale High: Select 100 to 11998 counts above
S C A L
. The total span between
S C A L
and
S C A H
must be within 11998 counts. Maximum setting range is -1999
to +9999 counts. For Current and Voltage inputs, this will set the high range end.
Value not adjustable for Thermocouple and RTD ranges.
S P L
Set Point Low: Select from the lowest input range value to
S P H
value. This will
set the minimum SP1 or SP2 value that can be entered. The value for SP1 or
SP2 will stop moving when this value is reached.
S P H
Set Point High: Select from the highest input range value to
S P L
value. This will
set the maximum SP1 or SP2 value that can be entered. The value for SP1 or
SP2 will stop moving when this value is reached.
S 1 S t
Set Point 1 State: Select
d i r
or
r E
.
d i r
Direct Action. As the input increases the output will increase. Most
commonly used in cooling processes.
r E
Reverse Action. As the input increases the output will decrease. Most
commonly used in heating processes.
May, 2013
Page 33 of 52
949-1194 Rev. 7
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GlobalTestSupply
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