6
LÄGGA TILL AUTOLINKSÄNDARE
ADD AUTOLINK TRANSMITTER
Tryck ”P2”
Blue LED
flashes×1
Blue LED
flashes×1
Blue LED
flashes×2
Power on
P2×1 P2×1 P2×1
OK
New emitter is paired to the motor
DD1620A External Switch Signal And Serial Port 485 Control
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②Repeat same procedure will delete additional emitter.
Method one
Method two
Pairing / Delete Additional Emitter
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②as existing emitter, as new emitter to pair or delete;
③
Repeat same procedure will delete additional emitter.
A. Infrared receiving function: ①infrared emission port registry with the middle area of healing, can control motor; ②The external infrared interface can be
connected with 1 Infrared joints, which can be controlled by the infrared emission port. ③The infrared control distance is within 10 meters.
B. External trigger function (projection screen function): ①The external trigger interface can be connected to the 12V signal. ②When the 12V signal is connected,
trigger motor running downward. ③When the 12V signal is disconnected, Trigger motor running upward.
C. External serial port: DD1620 is 232 serial port; DD1620A is 485 serial port.
Wiring
DD1620 External Switch Signal And Serial Port 232 Control
DOWN
STOP
UP
External switch
and serial port
External
infrared interface
External
trigger interface
Blue line = power neutral line
Brown line = power live line
Green/yellow line = power earth wire
Power
connection
Signal
line
Motor
interface
Power
interface
Signal indicator light (blue)
Infrared receiving head
Control indicator light (red)
Brown line = motor forward line
Black line = motor reversing line
Blue line = common line
Yellow/green line =motor earth wire
Motor
connection
UP
STOP
DOWN
External
trigger interface
External
infrared interface
External
switch and
serial port
Power neutral line
Power live line
Power grounding
wire
Motor reversing line
Motor common line
Motor motor
forward line
Motor grounding wire
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (RX) and the blue line (TX) are connected to the RS232
serial port (DD1620)
①When the white line (RX) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (RX) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (RX) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
①Reserve
②White line(RX)→Connect
the TX side of the RS232
③Black line(COM)→Connect
the GND side of the RS232
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(TX)→Connect
the RX side of the RS232
⑧Reserve
①Reserve
②White line(A)→Connect
the A side of the RS485
③Black line(COM)→Connect
the GND side of the RS485
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(B)→Connect
the B side of the RS485
⑧Reserve
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (A) and the blue line (B) are connected to the RS485 serial
port (DD1620A)
①When the white line (A) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (A) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (A) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
AC 220V/50Hz
AC 220V/50Hz
Blue LED
flashes×1
Power onPower off
OFF
Blue LED
flashes×2
STOP×2s
OK
Emitter is paired to the motor
STOP×2s
Release button
after blue LED
flashes
(UP+DOWN)
×2S
Blue LED
flashes×1
Blue LED
flashes×1
Blue LED
flashes×2
Power on
P2×1 P2×1 P2×1
OK
New emitter is paired to the motor
DD1620A External Switch Signal And Serial Port 485 Control
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②Repeat same procedure will delete additional emitter.
Method one
Method two
Pairing / Delete Additional Emitter
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②as existing emitter, as new emitter to pair or delete;
③
Repeat same procedure will delete additional emitter.
A. Infrared receiving function: ①infrared emission port registry with the middle area of healing, can control motor; ②The external infrared interface can be
connected with 1 Infrared joints, which can be controlled by the infrared emission port. ③The infrared control distance is within 10 meters.
B. External trigger function (projection screen function): ①The external trigger interface can be connected to the 12V signal. ②When the 12V signal is connected,
trigger motor running downward. ③When the 12V signal is disconnected, Trigger motor running upward.
C. External serial port: DD1620 is 232 serial port; DD1620A is 485 serial port.
Wiring
DD1620 External Switch Signal And Serial Port 232 Control
DOWN
STOP
UP
External switch
and serial port
External
infrared interface
External
trigger interface
Blue line = power neutral line
Brown line = power live line
Green/yellow line = power earth wire
Power
connection
Signal
line
Motor
interface
Power
interface
Signal indicator light (blue)
Infrared receiving head
Control indicator light (red)
Brown line = motor forward line
Black line = motor reversing line
Blue line = common line
Yellow/green line =motor earth wire
Motor
connection
UP
STOP
DOWN
External
trigger interface
External
infrared interface
External
switch and
serial port
Power neutral line
Power live line
Power grounding
wire
Motor reversing line
Motor common line
Motor motor
forward line
Motor grounding wire
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (RX) and the blue line (TX) are connected to the RS232
serial port (DD1620)
①When the white line (RX) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (RX) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (RX) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
①Reserve
②White line(RX)→Connect
the TX side of the RS232
③Black line(COM)→Connect
the GND side of the RS232
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(TX)→Connect
the RX side of the RS232
⑧Reserve
①Reserve
②White line(A)→Connect
the A side of the RS485
③Black line(COM)→Connect
the GND side of the RS485
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(B)→Connect
the B side of the RS485
⑧Reserve
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (A) and the blue line (B) are connected to the RS485 serial
port (DD1620A)
①When the white line (A) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (A) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (A) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
AC 220V/50Hz
AC 220V/50Hz
Blue LED
flashes×1
Power onPower off
OFF
Blue LED
flashes×2
STOP×2s
OK
Emitter is paired to the motor
STOP×2s
Release button
after blue LED
flashes
(UP+DOWN)
×2S
Håll 3 sek:
UPP + NER
Håll 3 sek:
STOPP
Släpp när BLÅ
LED
blinkat x 1.
RÖD LED lyser
nu konstant.
Bryt ström
Vänta
10 sek
ALT. 1:
ALT. 2:
BLÅ LED
blinkar x 1
Blue LED
flashes×1
Blue LED
flashes×1
Blue LED
flashes×2
Power on
P2×1 P2×1 P2×1
OK
New emitter is paired to the motor
DD1620A External Switch Signal And Serial Port 485 Control
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②Repeat same procedure will delete additional emitter.
Method one
Method two
Pairing / Delete Additional Emitter
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②as existing emitter, as new emitter to pair or delete;
③
Repeat same procedure will delete additional emitter.
A. Infrared receiving function: ①infrared emission port registry with the middle area of healing, can control motor; ②The external infrared interface can be
connected with 1 Infrared joints, which can be controlled by the infrared emission port. ③The infrared control distance is within 10 meters.
B. External trigger function (projection screen function): ①The external trigger interface can be connected to the 12V signal. ②When the 12V signal is connected,
trigger motor running downward. ③When the 12V signal is disconnected, Trigger motor running upward.
C. External serial port: DD1620 is 232 serial port; DD1620A is 485 serial port.
Wiring
DD1620 External Switch Signal And Serial Port 232 Control
DOWN
STOP
UP
External switch
and serial port
External
infrared interface
External
trigger interface
Blue line = power neutral line
Brown line = power live line
Green/yellow line = power earth wire
Power
connection
Signal
line
Motor
interface
Power
interface
Signal indicator light (blue)
Infrared receiving head
Control indicator light (red)
Brown line = motor forward line
Black line = motor reversing line
Blue line = common line
Yellow/green line =motor earth wire
Motor
connection
UP
STOP
DOWN
External
trigger interface
External
infrared interface
External
switch and
serial port
Power neutral line
Power live line
Power grounding
wire
Motor reversing line
Motor common line
Motor motor
forward line
Motor grounding wire
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (RX) and the blue line (TX) are connected to the RS232
serial port (DD1620)
①When the white line (RX) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (RX) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (RX) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
①Reserve
②White line(RX)→Connect
the TX side of the RS232
③Black line(COM)→Connect
the GND side of the RS232
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(TX)→Connect
the RX side of the RS232
⑧Reserve
①Reserve
②White line(A)→Connect
the A side of the RS485
③Black line(COM)→Connect
the GND side of the RS485
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(B)→Connect
the B side of the RS485
⑧Reserve
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (A) and the blue line (B) are connected to the RS485 serial
port (DD1620A)
①When the white line (A) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (A) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (A) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
AC 220V/50Hz
AC 220V/50Hz
Blue LED
flashes×1
Power onPower off
OFF
Blue LED
flashes×2
STOP×2s
OK
Emitter is paired to the motor
STOP×2s
Release button
after blue LED
flashes
(UP+DOWN)
×2S
Blue LED
flashes×1
Blue LED
flashes×1
Blue LED
flashes×2
Power on
P2×1 P2×1 P2×1
OK
New emitter is paired to the motor
DD1620A External Switch Signal And Serial Port 485 Control
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②Repeat same procedure will delete additional emitter.
Method one
Method two
Pairing / Delete Additional Emitter
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②as existing emitter, as new emitter to pair or delete;
③
Repeat same procedure will delete additional emitter.
A. Infrared receiving function: ①infrared emission port registry with the middle area of healing, can control motor; ②The external infrared interface can be
connected with 1 Infrared joints, which can be controlled by the infrared emission port. ③The infrared control distance is within 10 meters.
B. External trigger function (projection screen function): ①The external trigger interface can be connected to the 12V signal. ②When the 12V signal is connected,
trigger motor running downward. ③When the 12V signal is disconnected, Trigger motor running upward.
C. External serial port: DD1620 is 232 serial port; DD1620A is 485 serial port.
Wiring
DD1620 External Switch Signal And Serial Port 232 Control
DOWN
STOP
UP
External switch
and serial port
External
infrared interface
External
trigger interface
Blue line = power neutral line
Brown line = power live line
Green/yellow line = power earth wire
Power
connection
Signal
line
Motor
interface
Power
interface
Signal indicator light (blue)
Infrared receiving head
Control indicator light (red)
Brown line = motor forward line
Black line = motor reversing line
Blue line = common line
Yellow/green line =motor earth wire
Motor
connection
UP
STOP
DOWN
External
trigger interface
External
infrared interface
External
switch and
serial port
Power neutral line
Power live line
Power grounding
wire
Motor reversing line
Motor common line
Motor motor
forward line
Motor grounding wire
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (RX) and the blue line (TX) are connected to the RS232
serial port (DD1620)
①When the white line (RX) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (RX) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (RX) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
①Reserve
②White line(RX)→Connect
the TX side of the RS232
③Black line(COM)→Connect
the GND side of the RS232
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(TX)→Connect
the RX side of the RS232
⑧Reserve
①Reserve
②White line(A)→Connect
the A side of the RS485
③Black line(COM)→Connect
the GND side of the RS485
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(B)→Connect
the B side of the RS485
⑧Reserve
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (A) and the blue line (B) are connected to the RS485 serial
port (DD1620A)
①When the white line (A) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (A) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (A) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
AC 220V/50Hz
AC 220V/50Hz
Blue LED
flashes×1
Power onPower off
OFF
Blue LED
flashes×2
STOP×2s
OK
Emitter is paired to the motor
STOP×2s
Release button
after blue LED
flashes
(UP+DOWN)
×2S
Blue LED
flashes×1
Blue LED
flashes×1
Blue LED
flashes×2
Power on
P2×1 P2×1 P2×1
OK
New emitter is paired to the motor
DD1620A External Switch Signal And Serial Port 485 Control
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②Repeat same procedure will delete additional emitter.
Method one
Method two
Pairing / Delete Additional Emitter
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②as existing emitter, as new emitter to pair or delete;
③
Repeat same procedure will delete additional emitter.
A. Infrared receiving function: ①infrared emission port registry with the middle area of healing, can control motor; ②The external infrared interface can be
connected with 1 Infrared joints, which can be controlled by the infrared emission port. ③The infrared control distance is within 10 meters.
B. External trigger function (projection screen function): ①The external trigger interface can be connected to the 12V signal. ②When the 12V signal is connected,
trigger motor running downward. ③When the 12V signal is disconnected, Trigger motor running upward.
C. External serial port: DD1620 is 232 serial port; DD1620A is 485 serial port.
Wiring
DD1620 External Switch Signal And Serial Port 232 Control
DOWN
STOP
UP
External switch
and serial port
External
infrared interface
External
trigger interface
Blue line = power neutral line
Brown line = power live line
Green/yellow line = power earth wire
Power
connection
Signal
line
Motor
interface
Power
interface
Signal indicator light (blue)
Infrared receiving head
Control indicator light (red)
Brown line = motor forward line
Black line = motor reversing line
Blue line = common line
Yellow/green line =motor earth wire
Motor
connection
UP
STOP
DOWN
External
trigger interface
External
infrared interface
External
switch and
serial port
Power neutral line
Power live line
Power grounding
wire
Motor reversing line
Motor common line
Motor motor
forward line
Motor grounding wire
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (RX) and the blue line (TX) are connected to the RS232
serial port (DD1620)
①When the white line (RX) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (RX) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (RX) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
①Reserve
②White line(RX)→Connect
the TX side of the RS232
③Black line(COM)→Connect
the GND side of the RS232
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(TX)→Connect
the RX side of the RS232
⑧Reserve
①Reserve
②White line(A)→Connect
the A side of the RS485
③Black line(COM)→Connect
the GND side of the RS485
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(B)→Connect
the B side of the RS485
⑧Reserve
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (A) and the blue line (B) are connected to the RS485 serial
port (DD1620A)
①When the white line (A) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (A) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (A) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
AC 220V/50Hz
AC 220V/50Hz
Blue LED
flashes×1
Power onPower off
OFF
Blue LED
flashes×2
STOP×2s
OK
Emitter is paired to the motor
STOP×2s
Release button
after blue LED
flashes
(UP+DOWN)
×2S
Anslut ström
BLÅ LED
blinkar
BLÅ LED
blinkar x 1
Blue LED
flashes×1
Blue LED
flashes×1
Blue LED
flashes×2
Power on
P2×1 P2×1 P2×1
OK
New emitter is paired to the motor
DD1620A External Switch Signal And Serial Port 485 Control
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②Repeat same procedure will delete additional emitter.
Method one
Method two
Pairing / Delete Additional Emitter
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②as existing emitter, as new emitter to pair or delete;
③
Repeat same procedure will delete additional emitter.
A. Infrared receiving function: ①infrared emission port registry with the middle area of healing, can control motor; ②The external infrared interface can be
connected with 1 Infrared joints, which can be controlled by the infrared emission port. ③The infrared control distance is within 10 meters.
B. External trigger function (projection screen function): ①The external trigger interface can be connected to the 12V signal. ②When the 12V signal is connected,
trigger motor running downward. ③When the 12V signal is disconnected, Trigger motor running upward.
C. External serial port: DD1620 is 232 serial port; DD1620A is 485 serial port.
Wiring
DD1620 External Switch Signal And Serial Port 232 Control
DOWN
STOP
UP
External switch
and serial port
External
infrared interface
External
trigger interface
Blue line = power neutral line
Brown line = power live line
Green/yellow line = power earth wire
Power
connection
Signal
line
Motor
interface
Power
interface
Signal indicator light (blue)
Infrared receiving head
Control indicator light (red)
Brown line = motor forward line
Black line = motor reversing line
Blue line = common line
Yellow/green line =motor earth wire
Motor
connection
UP
STOP
DOWN
External
trigger interface
External
infrared interface
External
switch and
serial port
Power neutral line
Power live line
Power grounding
wire
Motor reversing line
Motor common line
Motor motor
forward line
Motor grounding wire
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (RX) and the blue line (TX) are connected to the RS232
serial port (DD1620)
①When the white line (RX) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (RX) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (RX) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
①Reserve
②White line(RX)→Connect
the TX side of the RS232
③Black line(COM)→Connect
the GND side of the RS232
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(TX)→Connect
the RX side of the RS232
⑧Reserve
①Reserve
②White line(A)→Connect
the A side of the RS485
③Black line(COM)→Connect
the GND side of the RS485
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(B)→Connect
the B side of the RS485
⑧Reserve
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (A) and the blue line (B) are connected to the RS485 serial
port (DD1620A)
①When the white line (A) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (A) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (A) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
AC 220V/50Hz
AC 220V/50Hz
Blue LED
flashes×1
Power onPower off
OFF
Blue LED
flashes×2
STOP×2s
OK
Emitter is paired to the motor
STOP×2s
Release button
after blue LED
flashes
(UP+DOWN)
×2S
Blue LED
flashes×1
Blue LED
flashes×1
Blue LED
flashes×2
Power on
P2×1 P2×1 P2×1
OK
New emitter is paired to the motor
DD1620A External Switch Signal And Serial Port 485 Control
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②Repeat same procedure will delete additional emitter.
Method one
Method two
Pairing / Delete Additional Emitter
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②as existing emitter, as new emitter to pair or delete;
③
Repeat same procedure will delete additional emitter.
A. Infrared receiving function: ①infrared emission port registry with the middle area of healing, can control motor; ②The external infrared interface can be
connected with 1 Infrared joints, which can be controlled by the infrared emission port. ③The infrared control distance is within 10 meters.
B. External trigger function (projection screen function): ①The external trigger interface can be connected to the 12V signal. ②When the 12V signal is connected,
trigger motor running downward. ③When the 12V signal is disconnected, Trigger motor running upward.
C. External serial port: DD1620 is 232 serial port; DD1620A is 485 serial port.
Wiring
DD1620 External Switch Signal And Serial Port 232 Control
DOWN
STOP
UP
External switch
and serial port
External
infrared interface
External
trigger interface
Blue line = power neutral line
Brown line = power live line
Green/yellow line = power earth wire
Power
connection
Signal
line
Motor
interface
Power
interface
Signal indicator light (blue)
Infrared receiving head
Control indicator light (red)
Brown line = motor forward line
Black line = motor reversing line
Blue line = common line
Yellow/green line =motor earth wire
Motor
connection
UP
STOP
DOWN
External
trigger interface
External
infrared interface
External
switch and
serial port
Power neutral line
Power live line
Power grounding
wire
Motor reversing line
Motor common line
Motor motor
forward line
Motor grounding wire
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (RX) and the blue line (TX) are connected to the RS232
serial port (DD1620)
①When the white line (RX) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (RX) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (RX) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
①Reserve
②White line(RX)→Connect
the TX side of the RS232
③Black line(COM)→Connect
the GND side of the RS232
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(TX)→Connect
the RX side of the RS232
⑧Reserve
①Reserve
②White line(A)→Connect
the A side of the RS485
③Black line(COM)→Connect
the GND side of the RS485
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(B)→Connect
the B side of the RS485
⑧Reserve
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (A) and the blue line (B) are connected to the RS485 serial
port (DD1620A)
①When the white line (A) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (A) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (A) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
AC 220V/50Hz
AC 220V/50Hz
Blue LED
flashes×1
Power onPower off
OFF
Blue LED
flashes×2
STOP×2s
OK
Emitter is paired to the motor
STOP×2s
Release button
after blue LED
flashes
(UP+DOWN)
×2S
Tryck ”P2”
igen
Tryck ”UP”
BLÅ
LED
blinkar
x 3:
OK!
Press ”P2”
Blue LED
flashes×1
Blue LED
flashes×1
Blue LED
flashes×2
Power on
P2×1 P2×1 P2×1
OK
New emitter is paired to the motor
DD1620A External Switch Signal And Serial Port 485 Control
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②Repeat same procedure will delete additional emitter.
Method one
Method two
Pairing / Delete Additional Emitter
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②as existing emitter, as new emitter to pair or delete;
③
Repeat same procedure will delete additional emitter.
A. Infrared receiving function: ①infrared emission port registry with the middle area of healing, can control motor; ②The external infrared interface can be
connected with 1 Infrared joints, which can be controlled by the infrared emission port. ③The infrared control distance is within 10 meters.
B. External trigger function (projection screen function): ①The external trigger interface can be connected to the 12V signal. ②When the 12V signal is connected,
trigger motor running downward. ③When the 12V signal is disconnected, Trigger motor running upward.
C. External serial port: DD1620 is 232 serial port; DD1620A is 485 serial port.
Wiring
DD1620 External Switch Signal And Serial Port 232 Control
DOWN
STOP
UP
External switch
and serial port
External
infrared interface
External
trigger interface
Blue line = power neutral line
Brown line = power live line
Green/yellow line = power earth wire
Power
connection
Signal
line
Motor
interface
Power
interface
Signal indicator light (blue)
Infrared receiving head
Control indicator light (red)
Brown line = motor forward line
Black line = motor reversing line
Blue line = common line
Yellow/green line =motor earth wire
Motor
connection
UP
STOP
DOWN
External
trigger interface
External
infrared interface
External
switch and
serial port
Power neutral line
Power live line
Power grounding
wire
Motor reversing line
Motor common line
Motor motor
forward line
Motor grounding wire
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (RX) and the blue line (TX) are connected to the RS232
serial port (DD1620)
①When the white line (RX) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (RX) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (RX) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
①Reserve
②White line(RX)→Connect
the TX side of the RS232
③Black line(COM)→Connect
the GND side of the RS232
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(TX)→Connect
the RX side of the RS232
⑧Reserve
①Reserve
②White line(A)→Connect
the A side of the RS485
③Black line(COM)→Connect
the GND side of the RS485
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(B)→Connect
the B side of the RS485
⑧Reserve
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (A) and the blue line (B) are connected to the RS485 serial
port (DD1620A)
①When the white line (A) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (A) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (A) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
AC 220V/50Hz
AC 220V/50Hz
Blue LED
flashes×1
Power onPower off
OFF
Blue LED
flashes×2
STOP×2s
OK
Emitter is paired to the motor
STOP×2s
Release button
after blue LED
flashes
(UP+DOWN)
×2S
Blue LED
flashes×1
Blue LED
flashes×1
Blue LED
flashes×2
Power on
P2×1 P2×1 P2×1
OK
New emitter is paired to the motor
DD1620A External Switch Signal And Serial Port 485 Control
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②Repeat same procedure will delete additional emitter.
Method one
Method two
Pairing / Delete Additional Emitter
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②as existing emitter, as new emitter to pair or delete;
③
Repeat same procedure will delete additional emitter.
A. Infrared receiving function: ①infrared emission port registry with the middle area of healing, can control motor; ②The external infrared interface can be
connected with 1 Infrared joints, which can be controlled by the infrared emission port. ③The infrared control distance is within 10 meters.
B. External trigger function (projection screen function): ①The external trigger interface can be connected to the 12V signal. ②When the 12V signal is connected,
trigger motor running downward. ③When the 12V signal is disconnected, Trigger motor running upward.
C. External serial port: DD1620 is 232 serial port; DD1620A is 485 serial port.
Wiring
DD1620 External Switch Signal And Serial Port 232 Control
DOWN
STOP
UP
External switch
and serial port
External
infrared interface
External
trigger interface
Blue line = power neutral line
Brown line = power live line
Green/yellow line = power earth wire
Power
connection
Signal
line
Motor
interface
Power
interface
Signal indicator light (blue)
Infrared receiving head
Control indicator light (red)
Brown line = motor forward line
Black line = motor reversing line
Blue line = common line
Yellow/green line =motor earth wire
Motor
connection
UP
STOP
DOWN
External
trigger interface
External
infrared interface
External
switch and
serial port
Power neutral line
Power live line
Power grounding
wire
Motor reversing line
Motor common line
Motor motor
forward line
Motor grounding wire
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (RX) and the blue line (TX) are connected to the RS232
serial port (DD1620)
①When the white line (RX) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (RX) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (RX) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
①Reserve
②White line(RX)→Connect
the TX side of the RS232
③Black line(COM)→Connect
the GND side of the RS232
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(TX)→Connect
the RX side of the RS232
⑧Reserve
①Reserve
②White line(A)→Connect
the A side of the RS485
③Black line(COM)→Connect
the GND side of the RS485
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(B)→Connect
the B side of the RS485
⑧Reserve
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (A) and the blue line (B) are connected to the RS485 serial
port (DD1620A)
①When the white line (A) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (A) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (A) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
AC 220V/50Hz
AC 220V/50Hz
Blue LED
flashes×1
Power onPower off
OFF
Blue LED
flashes×2
STOP×2s
OK
Emitter is paired to the motor
STOP×2s
Release button
after blue LED
flashes
(UP+DOWN)
×2S
Hold 3 sec:
UP + DOWN
Hold 3 sec:
STOP
Release after
BLUE LED
flash x 1.
RED LED is now
continous light
Disconnect
power
Wait
10 sec
ALT. 1:
ALT. 2:
BLUE LED
flashes x 1
Blue LED
flashes×1
Blue LED
flashes×1
Blue LED
flashes×2
Power on
P2×1 P2×1 P2×1
OK
New emitter is paired to the motor
DD1620A External Switch Signal And Serial Port 485 Control
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②Repeat same procedure will delete additional emitter.
Method one
Method two
Pairing / Delete Additional Emitter
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②as existing emitter, as new emitter to pair or delete;
③
Repeat same procedure will delete additional emitter.
A. Infrared receiving function: ①infrared emission port registry with the middle area of healing, can control motor; ②The external infrared interface can be
connected with 1 Infrared joints, which can be controlled by the infrared emission port. ③The infrared control distance is within 10 meters.
B. External trigger function (projection screen function): ①The external trigger interface can be connected to the 12V signal. ②When the 12V signal is connected,
trigger motor running downward. ③When the 12V signal is disconnected, Trigger motor running upward.
C. External serial port: DD1620 is 232 serial port; DD1620A is 485 serial port.
Wiring
DD1620 External Switch Signal And Serial Port 232 Control
DOWN
STOP
UP
External switch
and serial port
External
infrared interface
External
trigger interface
Blue line = power neutral line
Brown line = power live line
Green/yellow line = power earth wire
Power
connection
Signal
line
Motor
interface
Power
interface
Signal indicator light (blue)
Infrared receiving head
Control indicator light (red)
Brown line = motor forward line
Black line = motor reversing line
Blue line = common line
Yellow/green line =motor earth wire
Motor
connection
UP
STOP
DOWN
External
trigger interface
External
infrared interface
External
switch and
serial port
Power neutral line
Power live line
Power grounding
wire
Motor reversing line
Motor common line
Motor motor
forward line
Motor grounding wire
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (RX) and the blue line (TX) are connected to the RS232
serial port (DD1620)
①When the white line (RX) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (RX) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (RX) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
①Reserve
②White line(RX)→Connect
the TX side of the RS232
③Black line(COM)→Connect
the GND side of the RS232
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(TX)→Connect
the RX side of the RS232
⑧Reserve
①Reserve
②White line(A)→Connect
the A side of the RS485
③Black line(COM)→Connect
the GND side of the RS485
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(B)→Connect
the B side of the RS485
⑧Reserve
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (A) and the blue line (B) are connected to the RS485 serial
port (DD1620A)
①When the white line (A) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (A) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (A) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
AC 220V/50Hz
AC 220V/50Hz
Blue LED
flashes×1
Power onPower off
OFF
Blue LED
flashes×2
STOP×2s
OK
Emitter is paired to the motor
STOP×2s
Release button
after blue LED
flashes
(UP+DOWN)
×2S
Blue LED
flashes×1
Blue LED
flashes×1
Blue LED
flashes×2
Power on
P2×1 P2×1 P2×1
OK
New emitter is paired to the motor
DD1620A External Switch Signal And Serial Port 485 Control
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②Repeat same procedure will delete additional emitter.
Method one
Method two
Pairing / Delete Additional Emitter
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②as existing emitter, as new emitter to pair or delete;
③
Repeat same procedure will delete additional emitter.
A. Infrared receiving function: ①infrared emission port registry with the middle area of healing, can control motor; ②The external infrared interface can be
connected with 1 Infrared joints, which can be controlled by the infrared emission port. ③The infrared control distance is within 10 meters.
B. External trigger function (projection screen function): ①The external trigger interface can be connected to the 12V signal. ②When the 12V signal is connected,
trigger motor running downward. ③When the 12V signal is disconnected, Trigger motor running upward.
C. External serial port: DD1620 is 232 serial port; DD1620A is 485 serial port.
Wiring
DD1620 External Switch Signal And Serial Port 232 Control
DOWN
STOP
UP
External switch
and serial port
External
infrared interface
External
trigger interface
Blue line = power neutral line
Brown line = power live line
Green/yellow line = power earth wire
Power
connection
Signal
line
Motor
interface
Power
interface
Signal indicator light (blue)
Infrared receiving head
Control indicator light (red)
Brown line = motor forward line
Black line = motor reversing line
Blue line = common line
Yellow/green line =motor earth wire
Motor
connection
UP
STOP
DOWN
External
trigger interface
External
infrared interface
External
switch and
serial port
Power neutral line
Power live line
Power grounding
wire
Motor reversing line
Motor common line
Motor motor
forward line
Motor grounding wire
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (RX) and the blue line (TX) are connected to the RS232
serial port (DD1620)
①When the white line (RX) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (RX) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (RX) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
①Reserve
②White line(RX)→Connect
the TX side of the RS232
③Black line(COM)→Connect
the GND side of the RS232
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(TX)→Connect
the RX side of the RS232
⑧Reserve
①Reserve
②White line(A)→Connect
the A side of the RS485
③Black line(COM)→Connect
the GND side of the RS485
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(B)→Connect
the B side of the RS485
⑧Reserve
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (A) and the blue line (B) are connected to the RS485 serial
port (DD1620A)
①When the white line (A) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (A) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (A) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
AC 220V/50Hz
AC 220V/50Hz
Blue LED
flashes×1
Power onPower off
OFF
Blue LED
flashes×2
STOP×2s
OK
Emitter is paired to the motor
STOP×2s
Release button
after blue LED
flashes
(UP+DOWN)
×2S
Blue LED
flashes×1
Blue LED
flashes×1
Blue LED
flashes×2
Power on
P2×1 P2×1 P2×1
OK
New emitter is paired to the motor
DD1620A External Switch Signal And Serial Port 485 Control
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②Repeat same procedure will delete additional emitter.
Method one
Method two
Pairing / Delete Additional Emitter
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②as existing emitter, as new emitter to pair or delete;
③
Repeat same procedure will delete additional emitter.
A. Infrared receiving function: ①infrared emission port registry with the middle area of healing, can control motor; ②The external infrared interface can be
connected with 1 Infrared joints, which can be controlled by the infrared emission port. ③The infrared control distance is within 10 meters.
B. External trigger function (projection screen function): ①The external trigger interface can be connected to the 12V signal. ②When the 12V signal is connected,
trigger motor running downward. ③When the 12V signal is disconnected, Trigger motor running upward.
C. External serial port: DD1620 is 232 serial port; DD1620A is 485 serial port.
Wiring
DD1620 External Switch Signal And Serial Port 232 Control
DOWN
STOP
UP
External switch
and serial port
External
infrared interface
External
trigger interface
Blue line = power neutral line
Brown line = power live line
Green/yellow line = power earth wire
Power
connection
Signal
line
Motor
interface
Power
interface
Signal indicator light (blue)
Infrared receiving head
Control indicator light (red)
Brown line = motor forward line
Black line = motor reversing line
Blue line = common line
Yellow/green line =motor earth wire
Motor
connection
UP
STOP
DOWN
External
trigger interface
External
infrared interface
External
switch and
serial port
Power neutral line
Power live line
Power grounding
wire
Motor reversing line
Motor common line
Motor motor
forward line
Motor grounding wire
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (RX) and the blue line (TX) are connected to the RS232
serial port (DD1620)
①When the white line (RX) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (RX) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (RX) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
①Reserve
②White line(RX)→Connect
the TX side of the RS232
③Black line(COM)→Connect
the GND side of the RS232
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(TX)→Connect
the RX side of the RS232
⑧Reserve
①Reserve
②White line(A)→Connect
the A side of the RS485
③Black line(COM)→Connect
the GND side of the RS485
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(B)→Connect
the B side of the RS485
⑧Reserve
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (A) and the blue line (B) are connected to the RS485 serial
port (DD1620A)
①When the white line (A) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (A) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (A) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
AC 220V/50Hz
AC 220V/50Hz
Blue LED
flashes×1
Power onPower off
OFF
Blue LED
flashes×2
STOP×2s
OK
Emitter is paired to the motor
STOP×2s
Release button
after blue LED
flashes
(UP+DOWN)
×2S
Reconnect
power
BLue LED
flashes
BLUE LED
flash x 1
BLUE LED
flash x 1
Blue LED
flashes×1
Blue LED
flashes×1
Blue LED
flashes×2
Power on
P2×1 P2×1 P2×1
OK
New emitter is paired to the motor
DD1620A External Switch Signal And Serial Port 485 Control
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②Repeat same procedure will delete additional emitter.
Method one
Method two
Pairing / Delete Additional Emitter
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②as existing emitter, as new emitter to pair or delete;
③
Repeat same procedure will delete additional emitter.
A. Infrared receiving function: ①infrared emission port registry with the middle area of healing, can control motor; ②The external infrared interface can be
connected with 1 Infrared joints, which can be controlled by the infrared emission port. ③The infrared control distance is within 10 meters.
B. External trigger function (projection screen function): ①The external trigger interface can be connected to the 12V signal. ②When the 12V signal is connected,
trigger motor running downward. ③When the 12V signal is disconnected, Trigger motor running upward.
C. External serial port: DD1620 is 232 serial port; DD1620A is 485 serial port.
Wiring
DD1620 External Switch Signal And Serial Port 232 Control
DOWN
STOP
UP
External switch
and serial port
External
infrared interface
External
trigger interface
Blue line = power neutral line
Brown line = power live line
Green/yellow line = power earth wire
Power
connection
Signal
line
Motor
interface
Power
interface
Signal indicator light (blue)
Infrared receiving head
Control indicator light (red)
Brown line = motor forward line
Black line = motor reversing line
Blue line = common line
Yellow/green line =motor earth wire
Motor
connection
UP
STOP
DOWN
External
trigger interface
External
infrared interface
External
switch and
serial port
Power neutral line
Power live line
Power grounding
wire
Motor reversing line
Motor common line
Motor motor
forward line
Motor grounding wire
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (RX) and the blue line (TX) are connected to the RS232
serial port (DD1620)
①When the white line (RX) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (RX) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (RX) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
①Reserve
②White line(RX)→Connect
the TX side of the RS232
③Black line(COM)→Connect
the GND side of the RS232
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(TX)→Connect
the RX side of the RS232
⑧Reserve
①Reserve
②White line(A)→Connect
the A side of the RS485
③Black line(COM)→Connect
the GND side of the RS485
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(B)→Connect
the B side of the RS485
⑧Reserve
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (A) and the blue line (B) are connected to the RS485 serial
port (DD1620A)
①When the white line (A) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (A) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (A) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
AC 220V/50Hz
AC 220V/50Hz
Blue LED
flashes×1
Power onPower off
OFF
Blue LED
flashes×2
STOP×2s
OK
Emitter is paired to the motor
STOP×2s
Release button
after blue LED
flashes
(UP+DOWN)
×2S
Blue LED
flashes×1
Blue LED
flashes×1
Blue LED
flashes×2
Power on
P2×1 P2×1 P2×1
OK
New emitter is paired to the motor
DD1620A External Switch Signal And Serial Port 485 Control
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②Repeat same procedure will delete additional emitter.
Method one
Method two
Pairing / Delete Additional Emitter
Note: ①During the setting status, every operation should be less then 10S, or else, it will exit the setting and back to original
status; ②as existing emitter, as new emitter to pair or delete;
③
Repeat same procedure will delete additional emitter.
A. Infrared receiving function: ①infrared emission port registry with the middle area of healing, can control motor; ②The external infrared interface can be
connected with 1 Infrared joints, which can be controlled by the infrared emission port. ③The infrared control distance is within 10 meters.
B. External trigger function (projection screen function): ①The external trigger interface can be connected to the 12V signal. ②When the 12V signal is connected,
trigger motor running downward. ③When the 12V signal is disconnected, Trigger motor running upward.
C. External serial port: DD1620 is 232 serial port; DD1620A is 485 serial port.
Wiring
DD1620 External Switch Signal And Serial Port 232 Control
DOWN
STOP
UP
External switch
and serial port
External
infrared interface
External
trigger interface
Blue line = power neutral line
Brown line = power live line
Green/yellow line = power earth wire
Power
connection
Signal
line
Motor
interface
Power
interface
Signal indicator light (blue)
Infrared receiving head
Control indicator light (red)
Brown line = motor forward line
Black line = motor reversing line
Blue line = common line
Yellow/green line =motor earth wire
Motor
connection
UP
STOP
DOWN
External
trigger interface
External
infrared interface
External
switch and
serial port
Power neutral line
Power live line
Power grounding
wire
Motor reversing line
Motor common line
Motor motor
forward line
Motor grounding wire
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (RX) and the blue line (TX) are connected to the RS232
serial port (DD1620)
①When the white line (RX) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (RX) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (RX) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
①Reserve
②White line(RX)→Connect
the TX side of the RS232
③Black line(COM)→Connect
the GND side of the RS232
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(TX)→Connect
the RX side of the RS232
⑧Reserve
①Reserve
②White line(A)→Connect
the A side of the RS485
③Black line(COM)→Connect
the GND side of the RS485
④Red line(STOP)
⑤Green line(UP)
⑥Yellow line(DOWN)
⑦Blue line(B)→Connect
the B side of the RS485
⑧Reserve
External pulse switch:
①The green line (UP) and the black line (COM) touch to
control motor running upward.
②The red line (STOP) and the black line (COM) touch to
control the motor stop.
③The yellow line (DOWN) and the black line (COM) touch
to control motor running downward.
Serial port control needs to be connected to the computer for operation
The white line (A) and the blue line (B) are connected to the RS485 serial
port (DD1620A)
①When the white line (A) receives 55 FE FE 03 01 B9 24,
can controlled the motor running upward.
②When the white line (A) receives 55 FE FE 03 03 38 E5,
can controlled the motor stop;
③When the white line (A) receives 55 FE FE 03 02 F9 25,
can controlled the motor running downward.
AC 220V/50Hz
AC 220V/50Hz
Blue LED
flashes×1
Power onPower off
OFF
Blue LED
flashes×2
STOP×2s
OK
Emitter is paired to the motor
STOP×2s
Release button
after blue LED
flashes
(UP+DOWN)
×2S
Press ”P2”
again
Press ”UP”
BLUE
LED
flash
x 3:
OK!
BLÅ LED
blinkar x 1
