InteliMains
NT
, SW version 3.0
InteliMains-NT-BTB-3.0-Reference Guide.pdf, ©ComAp – June 2013
For example if we add Force value:Force value 1 to be forced to ProcessControl:Export limit as
value 0 (DISABLED) by Binary Input FORCEVALUEIN 1 we can change the function of Export limit from
ENABLED to DISABLED by activation of FORCEVALUEIN 1. It is possible to rename the setpoint to e.g.
Force value:ExportDisabled and Binary Input as well to e.g. DISABLEEXPLIM. The function will not
change (only the corresponding names).
It is possible to use several force value functions for one setpoint. If more than one forcing Binary
Input is active, the one with the highest position (lowest number in the Force value dialog) is used.
It is possible as well to use one Binary Input to force multiple setpoints (e.g. in case of complex
function change).
NOTE:
It is possible only to force value or setpoint in other setpoint if their dimension and range are the same
(e.g. only value with dimension in hours and which is Integer 16 to a setpoint with dimension hours
and which is as well Integer 16). You may use PLC block Convert to change the dimension and range
if needed.
7.8 Regulation loops
There are following regulation loops built-in in the controller. All of them are PI type except angle loop,
which is P type.
The frequency loop is active in the following situations dependending on the
application. For more information see the table below.
FREQ GAIN AND FREQ INT SETPOINTS ARE ACTIVE DURING:
synchronization between “left” and “right” buses
See also setpoints: Sync ctrl:Freq gain and Sync ctrl:Freq int
When the Sync ctrl:Freq gain is set to zero, this control loop is switched OFF.
The differential angle control loop is active during the synchronization (see
Frequency loop above) when the "near to zero" slip frequency has been
successfuly achieved and then the differential angle between bus and mains
voltage shall be controlled to the value adjusted by the
setpoint Sync ctrl:BRtoBLAngleReq.
See also setpoint: Sync ctrl:Angle Gain
The Voltage loop is active in the following situations dependending on the
application. For more information see the table below.
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