Modulating/Floating Operation; Spring Return Operation; Feedback Operation - Honeywell MS7103 Serie Instrucciones De Instalación

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2. Return to full closed:
a. Disconnect the input signal (from terminal 3).
b. See Fig. 20.
CLASS 2
1
24 VAC
2
0/2 TO 10 VDC
PROPORTIONING
CONTROLLER
+
SPDT
FEEDBACK
1
LINE VOLTAGE POWER SUPPLY.
PROVIDE DISCONNECT MEANS AND
OVERLOAD PROTECTION AS REQUIRED.
2
24 VDC SUPPLY ACCEPTABLE.
3
SET SWITCH TO MODULATING IF AVAILABLE.
Fig. 19. Override to open position.
CLASS 2
1
24 VAC
2
0/2 TO 10 VDC
PROPORTIONING
CONTROLLER
+
SPST
FEEDBACK
1
LINE VOLTAGE POWER SUPPLY.
PROVIDE DISCONNECT MEANS AND
OVERLOAD PROTECTION AS REQUIRED.
2
24 VDC SUPPLY ACCEPTABLE.
3
SET SWITCH TO MODULATING.
Fig. 20. Return to closed position.
CHECKOUT

Modulating/Floating Operation

1. Mount actuator for required application (either
clockwise
or counterclockwise
open the damper).
2. Connect power to power and common wire. (See Fig.
11 and Table 3.)
3. Set "Mode Select" dial to desired control signal.
(See Fig. 5.)
3 NM SERIES SPRING RETURN DIRECT COUPLED ACTUATORS
ACTUATOR
1
RED
V
2
BLACK
3
WHITE
0°-90°/MODULATING
4
BROWN
90°-0°/FEEDBACK
2-10 VDC
10-2 VDC
0-10 VDC
3
10-0 VDC
FLOATING, FWD
FLOATING, REV
M37323
ACTUATOR
RED
1
V
2
BLACK
3
WHITE
0°-90°/MODULATING
90°-0°/FEEDBACK
4
BROWN
2-10 VDC
10-2 VDC
0-10 VDC
3
10-0 VDC
FLOATING, FWD
FLOATING, REV
M37324
rotation to
9
4. Apply control signal for actuator full open or full
closed position. (See Fig. 11 and Table 3.)
a. (0)2-10 VDC: apply 10 VDC signal to control wire
(WHITE).
b. 10-(0)2 VDC: apply (0)2 VDC signal to control
wire (WHITE).
c. (0)4-20 mA: apply 20 mA signal to control wire
(WHITE).
d. 20-(0)4mA: apply (0)4 mA signal to control wire
(WHITE).
e. Floating: apply 24 VAC to appropriate 0°-90°
(WHITE) or 90°-0° (BROWN) wire.
5. Actuator drives to full open or full closed position.
6. Apply control signal for actuator 0% position.
(See Fig. 11 and Table 3.)
a. (0)2-10 VDC: apply (0)2 VDC signal to control
wire (WHITE).
b. 10-(0)2 VDC: apply 10 VDC signal to control wire
(WHITE).
c. (0)4-20 mA: apply (0)4 mA signal to control wire
(WHITE).
d. 20-(0)4mA: apply 20 mA signal to control wire
(WHITE).
e. Floating: apply 24 VAC to appropriate 0°-90°
(WHITE) or 90°-0° (BROWN) wire.
7. Actuator drives to full open or full closed position.

Spring Return Operation

1. Mount actuator for required application (either
clockwise
or counterclockwise
open the damper or valve).
2. Connect power to power and common wire. (See Fig.
11 and Table 3.)
3. Set "Mode Select" dial to desired control signal.
(See Fig. 5.)
4. Apply control signal for actuator 50% position.
a. VDC Input Signal: apply 5-6 VDC signal to con-
trol wire (WHITE). See Fig. 14.
b. mA Input Signal: apply 10-12 mA signal to control
wire (WHITE). See Fig. 14.
c. Floating: apply 24 VAC to appropriate 0°-90° (3)
or 90°-0° (4) wire until device reaches 50%.
5. Allow the actuator to drive to 50% position.
6. Disconnect power wire (RED).
7. Actuator spring returns to 0% position.
8. Re-connect power wire (RED), actuator drives back
toward 50% position.

Feedback Operation

1. Connect a multi-meter, set for VDC, to common
(BLACK) and feedback (BROWN) wire.
2. Apply the same signal as in step 4 of Modulating
Operation.
3. The multi-meter reading increases to match the
input signal as actuator drives towards full open or
full closed position.
4. Apply the same signal as in step 6 of Modulating
Operation.
5. The multi-meter reading decreases to match the
input signal as actuator drives towards 0% position.
rotation to
31-00141M—06

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