Omron CP1H CPU Operation Manual page 426

Analog Input Units
Analog Input Signal
Ranges
392
■ −10 to 10 V Inputs
Converted data
Hexadecimal (Decimal)
0CE4 (3300)
0BB8 (3000)
−11 V −10 V
0000 (0)
■ 0 to 10 V Inputs
Converted data
Hexadecimal (Decimal)
189C (6300)
1770 (6000)
−0.5 V
0000 (0)
■ 0 to 5 V Inputs
Converted data
Hexadecimal (Decimal)
189C (6300)
1770 (6000)
−0.25V
0000 (0)
■ 1 to 5 V Inputs
Converted data
Hexadecimal (Decimal)
189c (6300)
1770 (6000)
0000 (0)
FED4 (−300)
0 V 10 V 11 V
F448 (−3000)
F31C (−3300)
0 V 10 V 10.5 V
FED4 (−300)
0 V 5 V
5.25 V
FED4 (−300)
0.8 V
5 V 5.2 V
1 V
Section 7-2
Voltage in the -10 to 10 V
range corresponds to hexa-
decimal values F448 to 0BB8
(-3,000 to 3,000). The range
of data that can be converted
is F31C to 0CE4 hex (-3,300
to 3,300). A negative voltage
is expressed as two's comple-
ment.
Voltage in the 0 to 10 V range
corresponds to hexadecimal
values 0000 to 1770 (0 to
6,000). The range of data that
can be converted is FED4 to
189C hex (-300 to 6,300). A
negative voltage is expressed
as two's complement.
Voltage in the 0 to 5 V range
corresponds to hexadecimal
values 0000 to 1770 (0 to
6,000). The range of data that
can be converted is FED4 to
189C hex (-300 to 6,300). A
negative voltage is expressed
as two's complement.
Voltage in the 1 to 5 V range
corresponds to hexadecimal
values 0000 to 1770 (0 to
6,000). The range of data that
can be converted is FED4 to
189C hex (-300 to 6,300).
Voltage in the range of 0.8 to
1 V is expressed as two's
complement.
If an input is below the range
(i.e., less than 0.8 V), the
open-circuit detection func-
tion is activated and the data
becomes 8,000.