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VIPA System SLIO
5.3.3 Wiring
X4: Connector
Pos.
Function
1
AI 0
2
AI 1
3
Analog 0V
4
DI 0
5
DI 1
6
DI 2
7
DI 3
8
DI 4
9
DI 5
10
DI 6
11
DI 7
12
DI 8
13
DI 9
14
DI 10
15
DI 11
16
DI 12
17
DI 13
18
DI 14
19
DI 15
20
DC 24V
21
0 V
*) Max. input frequency 100kHz otherwise 1kHz.
Cables for analog signals
HB300 | CPU | 013-CCF0R00 | en | 16-40
Type
Description
I
AI0: Analog input AI 0
I
AI1: Analog input AI 1
I
4M: GND for analog inputs
I
+0.0: Digital input DI 0 / Counter 0 (A) *
I
+0.1: Digital input DI 1 / Counter 0 (B) / Frequency 0 *
I
+0.2: Digital input DI 2
I
+0.3: Digital input DI 3 / Counter 1 (A) *
I
+0.4: Digital input DI 4 / Counter 1 (B) / Frequency 1 *
I
+0.5: Digital input DI 5
I
+0.6: Digital input DI 6 / Counter 2 (A) *
I
+0.7: Digital input DI 7 / Counter 2 (B) / Frequency 2 *
I
+1.0: Digital input DI 8
I
+1.1: Digital input DI 9 / Counter 3 (A) *
I
+1.2: Digital input DI 10 / Counter 3 (B) / Frequency 3 *
I
+1.3: Digital input DI 11 / Gate 3 *
I
+1.4: Digital input DI 12
I
+1.5: Digital input DI 13
I
+1.6: Digital input DI 14
I
+1.7: Digital input DI 15 / Latch 3 *
I
5L+: DC 24V for onboard DI power section supply
I
5M: GND for onboard DI power section supply
For the analog signals you have to use isolated cables. With this the interferences can be
reduced. The shield of the analog cables should be grounded at both ends. If there are
potential differences between the cables, a potential compensation current can flow,
which could disturb the analog signals. In this case, you should only ground the shield at
one end of the cable.
Deployment I/O periphery
Analog input > Wiring
93
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