Siemens SQM5 User Manual

SQM5… Reversing Actuators

Technical Instructions

Document No. 155-517P25

July 9, 2007

Siemens Building Technologies, Inc.

Page 17

Electronic Linearization
Function

Butterfly valves have non-linear flow characteristics. Near the fully closed position, a
small change in the valve’s position will produce a very large change in flow. Near the
fully open position, a large position change will produce a relatively small change in flow.

The linearization function is intended to minimize the initial steep flow curve
characteristics of a typical butterfly valve. The linearization function is enabled when
Jumper J1 is in position 1 (upper position). Consequently, the actuator will make smaller
rotational movements when subjected to lower input signals and larger rotational
movements when subjected to higher input signals.

For example (based on a 90

° modulating range), a change in input signal from 4 to 8 mA

will cause a rotational movement of 11.25

°. An equal change from 16 to 20 mA will cause

a rotational movement of 45

°. Thus, with the linearization function enabled, the change in

flow is closely proportional to the change in input signal.

The linearization function is disabled when Jumper J1 is in position 2 (lower position).
When disabled, the rotational movement of the shaft is proportional to the input signal.

Input Signal Override

Line voltage to terminal P will drive the actuator to a pre-set adjustable position,
overriding all modulating input signals. Use the potentiometer marked POS to adjust the
override position to any setting within the setting range of switch cams I and III.

NOTE:

The input signal override can also be used for the ignition position of burners if

different from the low fire position.

Parallel Operation

Set Jumper J2 in position 1 (upper position) to configure the actuator for parallel
operation. Input signals Y0, Y1, Y2 or Y3 are directly shunted to output signals U1, U2
and U3. All output signals are available regardless of which input signal is applied.

Master/Slave Operation

Set J2 in position 2 (lower position) to configure the actuator for master/slave operation.
The output signals U1, U2 and U3 reflect actual shaft position.

Split Ranging

AGA56.9… circuit boards have a modulating signal shift feature which can be used for
split ranging. If no signal is present on Y0, Y1, Y2 or Y3, the actuator will modulate
through the full rotational range in response to a 12 to 20 mA signal applied at ZF. If a
maximum signal is present on Y0, Y1, Y2, or Y3, then the actuator will modulate through
the full rotational range in response to a 4 to 12 mA signal applied at ZF. (Maximum
signal can be easily achieved by bridging terminals U4 and Y0.) See Figure 16.

NOTE: It is possible to configure the actuator for split range operation 12 to 4 mA and

20 to 12 mA. Consult your authorized Siemens Building Technologies
combustion products sales representative for details.

25% 50% 75% MAX

MIN

25%

50%

75%

MAX

MIN

Y

0...3

EA0560R1

16 mA

18 mA

20 mA

14 mA12 mA

10 mA

8 mA

6 mA

4 mA

Figure 16. Split Ranging.