X1
8 AO2 Analog output 2. Default output 0…20 mA.
9AGND
Analog common ground. Internally connected
to chassis through a 2 Mohm resistor.
500 ohm
X1
8 AO2 Analog output 2. Default output 0…20 mA.
9AGND
Analog common ground. Internally connected
to chassis through a 2 Mohm resistor.
1kohm 1kohm
0…10 V
0…10 V
Connection examples of two-wire and three-wire sensors
PID macros (see ACQ80-04 firmware manual (3AXD50000170654 [English])) use analog
input 2 (AI2). The macro wiring diagrams on these pages use an externally powered sensor
(connections not shown). The figures below give examples of connections using a two-wire
or three-wire sensor/transmitter supplied by the drive auxiliary voltage output.
Note:
Maximum capability of the auxiliary 24 V DC (250 mA) output must not be exceeded.
Electrical installation 97
Connection examples of two-wire and three-wire sensors
PID macros (see ACS560 firmware manual (3AXD50000016097 [English])) use
analog input 2 (AI2). The macro wiring diagrams on these pages use an externally
powered sensor (connections not shown). The figures below give examples of
connections using a two-wire or three-wire sensor/transmitter supplied by the drive
auxiliary voltage output.
Note: Maximum capability of the auxiliary 24 V DC (250 mA) output must not be
exceeded.
Note: The sensor is supplied through its current output and the drive feeds the supply
voltage (+24 V DC). Thus the output signal must be 4…20 mA, not 0…20 mA.
X1
5 AI2 Process actual value measurement or reference,
0(4)…20 mA, R
in
= 100 ohm
6AGND
…
10 +24V Auxiliary voltage output, non-isolated,
+24 V DC, max. 250 mA
11 DGND
4…20 mA
Two-wire sensor/transmitter
+
-
P
I
X1
5 AI2 Process actual value measurement or reference,
0(4)…20 mA, R
in
= 100 ohm
6AGND
…
10 +24V Auxiliary voltage output, non-isolated,
+24 V DC, max. 250 mA
11 DGND
(0)4…20 mA
Three-wire sensor/transmitter
+
-
OUT
P
I
Note:
The sensor is supplied through its current output and the drive feeds the supply voltage
(+24 V DC). Thus the output signal must be 4…20 mA, not 0…20 mA.
Electrical installation 97
Connection examples of two-wire and three-wire sensors
PID macros (see ACS560 firmware manual (3AXD50000016097 [English])) use
analog input 2 (AI2). The macro wiring diagrams on these pages use an externally
powered sensor (connections not shown). The figures below give examples of
connections using a two-wire or three-wire sensor/transmitter supplied by the drive
auxiliary voltage output.
Note: Maximum capability of the auxiliary 24 V DC (250 mA) output must not be
exceeded.
Note: The sensor is supplied through its current output and the drive feeds the supply
voltage (+24 V DC). Thus the output signal must be 4…20 mA, not 0…20 mA.
X1
5 AI2 Process actual value measurement or reference,
0(4)…20 mA, R
in
= 100 ohm
6AGND
…
10 +24V Auxiliary voltage output, non-isolated,
+24 V DC, max. 250 mA
11 DGND
4…20 mA
Two-wire sensor/transmitter
+
-
P
I
X1
5 AI2 Process actual value measurement or reference,
0(4)…20 mA, R
in
= 100 ohm
6AGND
…
10 +24V Auxiliary voltage output, non-isolated,
+24 V DC, max. 250 mA
11 DGND
(0)4…20 mA
Three-wire sensor/transmitter
+
-
OUT
P
I
88 Electrical installation
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