Rotary movement, Rotation direction switch, Power off/on behavior – Honeywell N20 User Manual

N20, N34 SERIES MN7220, MN7234

3

63-2587—1

Rotary Movement

The control signal and the corresponding rotation direction

(clockwise or counterclockwise) can be selected using the

rotation direction switch (see part Rotation direction switch in

Fig. 2), thus eliminating the need to re-wire. To ensure tight

closing of the dampers, the actuator has a total rotation stroke

of 95°.

As soon as operating power is applied, the actuator may start

to run. When power is removed, the actuator remains in

position. For actuator-controller wiring instructions, see section

“Wiring” on page 5.

Rotation Direction Switch

Fig. 3. Rotation Direction Switch

Feedback Signal and Manual Adjustment

If, while the actuator is not rotating, the user declutches it and

manually repositions the shaft adapter, the feedback signal will

then follow the new position at which the shaft adapter has

been left.

Power Off/On Behavior

In case the power to the actuator fails, after re-applying power,

the actuator acknowledges its present position and follows the

signal from the controller. This makes it unnecessary for the

actuator to employ autoadaption in order to re-map the control

signal settings.

Dip Switches

The actuators are equipped with two dip switches accessible

after removing the access cover (see Fig. 4).

Fig. 4. Dip switches (view with PCB at bottom)

Autoadapt Dip Switch for Normal Operation

In its default shipping position, the autoadapt dip switch for

normal operation is set to ON as shown in Fig. 4. Dip switches

(view with PCB at bottom)4. If it is set to OFF, no autoadapting

is performed, and the control signal map remains constant.

The autoadapt functionality does not have to be triggered.

Rather, the SmartAct actuator does this automatically when the

min. and max. control signals are provided (see Fig. 5); the

feedback signal is likewise autoadapted.

Fig. 5. Actuator positioning curve

In order to make use of the autoadapt functionality, proceed as

follows:

1. Set the autoadapt dip switch to the ON position.

2. If necessary, limit the stroke to the desired range using

the mechanical end limits.

3. Drive the actuator to the left end limit (totally counter-

clockwise) by setting the control signal as specified in

Table 1. Feedback/control signal values1.

4. Drive the actuator to the right end limit (totally clockwise)

by setting the control signal as specified in Table 1.

Feedback/control signal values1. The stroke has now

been limited to 0...100% of the control signal range.

Table 1. Feedback/control signal values

Rotation direction

switch position

Feedback/control signal when

actuator is

totally

totally

Y=2

/2...10V

U = 2 V

U = 10 V

Y=0

/0...10V*

U = 0 V

U = 10 V

Y=0

/10...0V

U = 10 V

U = 0 V

Y=2

/10...2V

U = 10 V

U = 2 V

* Default shipping position.

autoadapt dip switch for

normal operation (

)

ON

voltage/current control signal

dip switch (

)

OFF