EPC-PG16 User Manual
When differential output encoder (5V power supply) is used for
speed feedback, please select twin-cloosed-loop PG board
EPC-PG16 as an optional board. In addition, EPC-PG16
supports two differential output encoders for speed feedback
simultaneously; and it supports O/A, O/B, O/Z three-channel
frequency dividing output, and output type is differential.
1
.
Picture of EPC-PG16
Fig.1 EPC-PG16 picture
2
.
Terminals
2.1 Specification of Wiring Terminal
Terminal
Function
CN3
Encoder 1 differential signal input interface
& three-channel frequency dividing signals
differential output interface
CN4
Encoder 2 differential signal input interface
3
.
Wiring Instruction
3.1 CN3 Wiring Instruction
Power supply and signal cables should be twin-twisted and then
be connected according to Fig. 2, details:
Pin 13 and 12 cable should be twin-twisted
Pin 9 and 4 cable should be twin-twisted
Pin 10 and 5 cable should be twin-twisted
Pin 15 and 14 cable should be twin-twisted
Pin 6 and 1 cable should be twin-twisted
Pin 7 and 11 cable should be twin-twisted
Pin 2 and 8 cable should be twin-twisted
The shielded layer of entire cable shall be reliably connected to
metal shell of DB plug.
CN3 pin definitions are shown in below table and layout shown
in Fig. 2
CN3 Pin
Signal
definition
Function
12
VPG
(
+5V
)
PG16 encoder
1 differential
signal input
13
GND
(
0V
)
9
A+
4
A-
10
B+
5
B-
15
Z+
14
Z-
6
OUTA+
PG16
frequency
dividing
differential
output signal
1
OUTA-
7
OUTB+
11
OUTB-
2
OUTZ+
8
OUTZ-
3
GND
(
0V
)
Fig. 2 Pins of CN3
Fig. 3 shows wiring of 5V differetial output encoder. Power
supply ”+” to VPG, power supply “-“ to GND; encoder A+
、
A-
、
B+
、
B-
、
Z+
、
Z- shall be connected to PG16 A+
、
A-
、
B+
、
B-
、
Z+
、
Z- correspondingly.
Fig. 3 Wiring Diagram of Differential Output Encoder
Differential
encoder
Shielded
cable
near-end
connected to
ground
