15
Optimized layout for A4 print.
CELL 4
CELL 3 CELL 2 CELL 1
PWR INPUT 485RELAYS ANALOG 232
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
SIG +
18
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
24Vdc
Earth
1
RL 1
6
RL 2
7
5
IN 1
4
COM
3
2
COM
8
GND
IN 2
I -
10
I +
9
GND
15
A +
16
14
TX
13
V -
12
11
B -
17
V +
RX
ZERO TARE MODE PRINT
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
CELL 4
CELL 3 CELL 2 CELL 1
PWR INPUT 485RELAYS ANALOG 232
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
24Vdc
Earth
1
RL 1
6
RL 2
7
5
IN 1
4
COM
3
2
COM
8
GND
IN 2
I -
10
I +
9
GND
15
A +
16
14
TX
13
V -
12
11
B -
V +
RX
ZERO TARE MODE PRINT
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
CELL 4
CELL 3 CELL 2 CELL 1
PWR INPUT 485RELAYS ANALOG 232
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
SIG +
18
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
24Vdc
Earth
1
RL 1
6
RL 2
7
5
IN 1
4
COM
3
2
COM
8
GND
IN 2
I -
10
I +
9
GND
15
A +
16
14
TX
13
V -
12
11
B -
17
V +
RX
ZERO TARE MODE PRINT
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
CELL 4
CELL 3 CELL 2 CELL 1
g
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
SIG +
18
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
g
CELL 4
CELL 3 CELL 2 CELL 1
PWR INPUT 485RELAYS ANALOG 232
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
SIG +
18
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
24Vdc
Earth
1
RL 1
6
RL 2
7
5
IN 1
4
COM
3
2
COM
8
GND
IN 2
I -
10
I +
9
GND
15
A +
16
14
TX
13
V -
12
11
B -
17
V +
RX
ZERO TARE MODE PRINT
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
CELL 4
CELL 3 CELL 2 CELL 1
PWR INPUT 485RELAYS ANALOG 232
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
24Vdc
Earth
1
RL 1
6
RL 2
7
5
IN 1
4
COM
3
2
COM
8
GND
IN 2
I -
10
I +
9
GND
15
A +
16
14
TX
13
V -
12
11
B -
V +
RX
ZERO TARE MODE PRINT
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
CELL 4
CELL 3 CELL 2 CELL 1
PWR INPUT 485RELAYS ANALOG 232
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
SIG +
18
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
24Vdc
Earth
1
RL 1
6
RL 2
7
5
IN 1
4
COM
3
2
COM
8
GND
IN 2
I -
10
I +
9
GND
15
A +
16
14
TX
13
V -
12
11
B -
17
V +
RX
ZERO TARE MODE PRINT
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
CELL 4
CELL 3 CELL 2 CELL 1
g
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
SIG +
18
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
g
CELL 4
CELL 3 CELL 2 CELL 1
PWR INPUT 485RELAYS ANALOG 232
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
SIG +
18
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
24Vdc
Earth
1
RL 1
6
RL 2
7
5
IN 1
4
COM
3
2
COM
8
GND
IN 2
I -
10
I +
9
GND
15
A +
16
14
TX
13
V -
12
11
B -
17
V +
RX
ZERO TARE MODE PRINT
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
CELL 4
CELL 3 CELL 2 CELL 1
PWR INPUT 485RELAYS ANALOG 232
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
24Vdc
Earth
1
RL 1
6
RL 2
7
5
IN 1
4
COM
3
2
COM
8
GND
IN 2
I -
10
I +
9
GND
15
A +
16
14
TX
13
V -
12
11
B -
V +
RX
ZERO TARE MODE PRINT
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
CELL 4
CELL 3 CELL 2 CELL 1
PWR INPUT 485RELAYS ANALOG 232
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
SIG +
18
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
24Vdc
Earth
1
RL 1
6
RL 2
7
5
IN 1
4
COM
3
2
COM
8
GND
IN 2
I -
10
I +
9
GND
15
A +
16
14
TX
13
V -
12
11
B -
17
V +
RX
ZERO TARE MODE PRINT
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
CELL 4
CELL 3 CELL 2 CELL 1
g
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
SIG +
18
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
g
CELL 4
CELL 3 CELL 2 CELL 1
PWR INPUT 485RELAYS ANALOG 232
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
SIG +
18
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
24Vdc
Earth
1
RL 1
6
RL 2
7
5
IN 1
4
COM
3
2
COM
8
GND
IN 2
I -
10
I +
9
GND
15
A +
16
14
TX
13
V -
12
11
B -
17
V +
RX
ZERO TARE MODE PRINT
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
CELL 4
CELL 3 CELL 2 CELL 1
PWR INPUT 485RELAYS ANALOG 232
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
24Vdc
Earth
1
RL 1
6
RL 2
7
5
IN 1
4
COM
3
2
COM
8
GND
IN 2
I -
10
I +
9
GND
15
A +
16
14
TX
13
V -
12
11
B -
V +
RX
ZERO TARE MODE PRINT
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
CELL 4
CELL 3 CELL 2 CELL 1
PWR INPUT 485RELAYS ANALOG 232
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
SIG +
18
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
24Vdc
Earth
1
RL 1
6
RL 2
7
5
IN 1
4
COM
3
2
COM
8
GND
IN 2
I -
10
I +
9
GND
15
A +
16
14
TX
13
V -
12
11
B -
17
V +
RX
ZERO TARE MODE PRINT
g
kg
lb
NET
0
~
F
W1
SP1
W2
SP2
CELL 4
CELL 3 CELL 2 CELL 1
g
35
EXC -
EXC +
34
SIG -
29
SIG +
28
SIG -
25
SIG +
24
EXC -
23
REF -
21
REF
20
SIG -
19
SIG +
18
26
EXC +
22
EXC +
+
EXC +
30
EXC -
31
SIG +
32
SIG -
33
EXC -
27
g
TECH_MAN_ENG_DGT4X
Load cell installation
After carrying out the instructions for the platform or load receiver, the shielded cable from the cell(s) must be properly connected to the
terminal block(s) of the transmitter (from CELL1 to CELL4; see section āWiring diagramsā).
The transmitter has one channel (CELL1) for 6-wire connection to load cells (using the REFERENCE), while for the remaining channels
(CELL2, CELL3, CELL4) only 4-wire connection is allowed.
The REFERENCE allows you to compensate for any voltage drop on the section of cable connecting the transmitter to the load receiver.
It is especially useful when the distance between the transmitter and the load receiver is more than 10 metres, or in high-resolution
applications.
4-WIRE CONNECTION
CELL2 / CELL3 / CELL4
6-WIRE CONNECTION
CELL2 / CELL3 / CELL4
6-WIRE CONNECTION
CELL1
4-WIRE CONNECTION
CELL1
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