Application
Sequence of Operation
Floating Control Actuation Auto-correct
20
Siemens Industry, Inc.
BACnet LCM-OAVS, App 2924
140-1304
2015-07-07
Floating Control Actuation Auto-correct
Floating Control Actuation Auto-correct
In addition to the existing options for floating control actuator full stroke actions, all
floating control actuators are provided with additional logic to fully drive open or closed
when commanded to 100% or 0%.
{Commented by Geszvain, Mimi, 08/02/2013 20:51:30: This applies to any P1 or
BACnet controller/application with actuation on the DOs (Valve or Damper).
}
Venturi Air Valve Calibration (Mode 1, 3)
The calibration table for Venturi Air Valve(s) determines the relationship between
airflow and the voltage curve of the actuator. The calibration table initially contains all
zeros by default, that is, it contains no calibration information. This section describes
how the user initiates a calibration sequence that populates the calibration table with
values of flow at given control voltages.
NOTE:
This automatic calibration sequence relies on values from an associated flow sensor.
If running open loop (without a flow sensor), see the
Open Loop Mode
section.
Prerequisites for calibrating Venturi Air Valves:
Fully operational supply and general exhaust airflow systems.
Supply and general exhaust Air Velocity Sensors are calibrated and working
normally (SUP AIR VOL and GEX AIR VOL cannot be Failed).
When calibration is complete, the EEPROM automatically stores a table statement of
voltages (no loss of values upon power failure) that will be output to the AO point, SUP
DMPR AO2 or GEX DMPR AO3, to drive the actuator.
Table values are the result of the application’s analysis of the voltages that drove the
actuator during calibration and the resulting airflow values in cfm. To hedge against
airflow accuracy slippage, the supply (or general exhaust) air velocity feedback loop is
used along with the table statement to maintain correct airflow out of the Venturi.
Table Access Feature (Mode 1, 3)
In Application 2924, an embedded table statement and a feedback loop work together
to operate the supply or general exhaust Venturi Air Valve.
The table contains 16 pairs of “active” voltage/flow values, and 16 pairs of “inactive”
voltage/flow values.
The active values are used to operate the Venturi Air Valve at desired airflows. For
example, when the controller is given a flow setpoint value of 500 cfm, it goes to the
active portion of the table statement and looks up what the voltage output to the
actuator should be in order to achieve 500 cfm. The inactive values are used to edit the
active values as explained later in this section.
The Table
Venturi Table Statement Example
shows an example of active values in a
Venturi table statement after the Venturi Air Valves have been calibrated (note reverse
acting exhaust voltage). Table statement values will vary per system.