Application
Sequence of Operation
Airflow Control
18
Siemens Industry, Inc.
BACnet LCM-OAVS, App 2924
140-1304
2015-07-07
Damper Status
When an Autozero solenoid from an Offboard Air Module is wired to D08, the physical
damper position may vary from what the application’s position point is indicating. A
Damper Status firmware algorithm will detect and correct situations where airflow
velocity is greater than 200 fpm and the following is true:
SUP DMP POS = 100% and SUP VOL < SUP STPT
OR
SUP DMP POS = 0% and SUP VOL > SUP STPT
When initiated, the firmware module sets DMPR STATUS from CAL to RECAL and
decrements/increments the damper position (in a reiterative sequence up to four cycles
in length) until sensed airflow matches setpoint.
NOTE:
It is important to realize that while the Damper Status module runs, the damper
position point (SUP DMP POS will change in value but the flow point (SUP VOL)
might not.
To change DMPR STATUS from RECAL back to CAL, set DMPR STATUS to CAL and
then release it. (A status of RECAL will not prevent the recalibration sequence from
running if needed.)
Venturi Operational Modes
The general exhaust Venturi Air Valve can operate in one of three modes:
Mode 1 – Operates with both a PID loop and a Venturi table.
This mode provides the best control and is the most commonly used mode for
these applications. In this mode, the embedded Venturi table statements works
together with a PID feedback loop to operate the Venturi Air Valve so that the
measured air velocity is maintained at setpoint. The following several sections
describe this mode.
Mode 2 - Operates with a PID loop, but no Venturi table.
In this mode, the controller operates with PID control based on a flow sensor input,
but the Venturi table is not used. See the
PID Only Mode
section, later in this
document, for specific information on this mode.
Mode 3 - Operates with Venturi table, but no PID loop
In this mode, the controller operates open loop (without a flow sensor). There is no
PID control. Positioning of the actuator is based solely on a Venturi table consisting
of command voltages and their resultant corresponding airflows. See the
Open
Loop Mode
section, later in this document, for specific information on how this
mode differs from the normal Mode 1 above.
Feedback Loop Operation
When the flow is slightly below the setpoint, the LCM gradually opens the Venturi Air
Valve slowly, until the airflow reaches the setpoint, at which time the air valve’s position
remains constant. If the flow is far below the setpoint, the LCM opens the Venturi Air
Valve rapidly, and rapidly increases until the airflow reaches the setpoint, at which time
the air valve’s position remains constant. The feedback gain GEX P GAIN is adjusted
to tune the flow loop. The sample loop time for the flow loops is fixed at 2 seconds. I
and D gain are inherent in the system and do not need adjustment.