background image

Technical Instructions  

Pressure Independent Control 

Document No. 155-773 

SSD Series Electronic Valve Actuators 

September 1, 2015 

Page 4

  

Siemens Industry, Inc. 

 

Operation, 
Continued 

SSD81U 

A 24 Vac control signal to terminal Y1 extends the actuator shaft proportionately to the 
length of time the signal is applied.  

A 24 Vac control signal to terminal Y2 retracts the actuator shaft proportionately to the 
length of time the signal is applied.  

In the event of a power failure with no control voltage, the non-spring return SSD81U will 
hold its last position. 

The SSD81U floating actuator does not self-calibrate. 

SSD61U 

The stroke travel on the SSD61U is proportional to the control signal Y. A zero voltage 
control signal retracts the stem and returns the valve to its normal position. With no 
supply voltage, the SSD61U actuator maintains its last position. 

Calibration Stroke 

The SSD61U is equipped with a microprocessor to control the valve stroke length. The 
actuator will complete a stroke calibration each time the power supply voltage is 
connected.  

 

CAUTION:  

Whenever the SSD61U runs a self-calibration routine (Valve stroke 0 

Max. stroke 

 Setpoint), do not manually intervene in this process. See 

Figure 3. 

 

Figure 3.  SSD61U Self-Calibration. 

NOTE: 

Correct calibration is possible only with valve strokes >1.5 mm. For valve 
strokes <1.5 mm, the actuator/valve combination locks after three failed 
calibration attempts. 

SSDx1.5U 

For the SSD81.5U, a 24 Vac control signal to terminal Y1 extends the actuator shaft 
proportionately to the length of time the signal is applied.  

A 24 Vac control signal to terminal Y2 retracts the actuator shaft proportionately to the 
length of time the signal is applied.  

The stroke of the SSD61.5U is proportional to the control signal on terminal Y. A 0 Vdc 
control signal retracts the stem and returns the valve to its normal position.  

 

In the event of a power failure, the SSDx1.5U returns to the stem up, or normal position. 
The SSDx1.5U includes an electronic return mechanism that functions as follows. See 
Figure 4. 

Summary of Contents for SSD81U

Page 1: ...troke and a threaded valve bonnet that fits the actuator Features Nominal force 56 lbs 250 N Automatic stroke calibration on the SSD61 UL listed for plenum installation Reduced power consumption in holding position Direct coupled installation without tools hand tightened Manual override Visual position indication Application For use in heating and cooling HVAC applications with Pressure Independen...

Page 2: ...l signal Floating 0 to 10 Vdc Output impedance 100K ohm Positioning accuracy 0 to 10 Vdc 2 of nominal stroke Function SSD81U SSD61U SSD81 5U SSD61 5U Run time in seconds 2 5 mm stroke 75 45 70 15 5 5 5 mm stroke 150 90 125 30 Spring return in seconds 2 5 mm stroke 15 15 5 5 5 mm stroke 30 30 Nominal force 56 lbs 250N 56 lbs 250N 67 lbs 300N 67 lbs 300N Capacitor charge time in seconds 180 max 180 ...

Page 3: ...SSD81U only Warning Caution Notations WARNING Personal injury loss of life may occur if you do not perform a procedure as specified CAUTION Equipment damage may occur if you do not perform a procedure as specified Operation CAUTION A valve must be connected to the actuator before applying power If applying power to the actuator when a valve is not connected the actuator will respond to a control s...

Page 4: ...r to control the valve stroke length The actuator will complete a stroke calibration each time the power supply voltage is connected CAUTION Whenever the SSD61U runs a self calibration routine Valve stroke 0 Max stroke Setpoint do not manually intervene in this process See Figure 3 Figure 3 SSD61U Self Calibration NOTE Correct calibration is possible only with valve strokes 1 5 mm For valve stroke...

Page 5: ...ssive startups bypass the calibration stroke unless the memory is manually cleared If installing the actuator on a different valve such as on a replacement valve manually clear the calibration stroke from memory as follows 1 Remove the terminal cover using a Phillips head screwdriver 2 Locate hole on the circuit board shorting bars 3 Insert and gently twist a flat blade screwdriver to electrically...

Page 6: ...red Figure 7 Manual Override Operation A Turn hex wrench counterclockwise to retract the spindle B Turn hex wrench clockwise to extend the spindle NOTE Do not perform manual override while the power supply is connected the actuator will not track accurately when the control signal is applied A short power off power on sequence is recommended to recalibrate the SSD61U actuator Wiring Do not use aut...

Page 7: ...System Neutral G0 System Potential Table 2 Terminal Designations G G0 24 Vac Operating Voltage G System Potential G0 System Neutral Y 0 to 10 Vdc Control Signal Y1 Output shaft extends Y2 Output shaft retracts Start Up Check the wiring and the position indication When the position indicator is in the 1 position the output shaft is extended When the position indicator is on the 0 position the outpu...

Page 8: ...ur feedback is important to us If you have comments about this document please send them to sbt_technical editor us sbt siemens com Document No 155 773 Printed in the USA Page 8 Troubleshooting Check Wiring for proper connections If the actuator does not provide full flow or full close off check that the actuator is properly attached to the valve If not 1 Turn the power off 2 Manually retract outp...

Reviews: