Emerson FIELDVUE DVC6200f Instruction Manual page 124

DVC6200f Digital Valve Controller
BKCAL IN
CAS IN
FF VAL
IN
TRK IN D
TRK VAL
=
BKCAL_IN THE ANALOG INPUT VALUE AND STATUS FROM ANOTHER
BLOCK'S BKCAL _OUT OUTPUT THAT IS USED FOR
BACKWARD OUTPUT TRACKING FOR BUMPLESS TRANSFER
AND TO PASS LIMIT STATUS.
=
CAS_IN THE REMOTE SETPOINT VALUE FROM ANOTHER FUNCTION
BLOCK.
=
FF_VAL THE FEEDFORWARD CONTROL INPUT VALUE AND STATUS.
4
=
IN THE CONNECTION FOR THE PROCESS VARIABLEFROM
ANOTHER FUNCTION BLOCK.
=
TRK_IN_D INITIATES THE EXTERNAL TRACKING FUNCTION.
=
TRK_VAL THE VALUE AFTER SCALING APPLIED TO OUT IN LOCAL
OVERRIDE MODE.
=
BKCAL_OUT THE VALUE AND STATUS REQUIRED BY THE BKCAL_IN INPUT
OF ANOTHER FUNCTION BLOCK TO PREVENT RESET WINDUP
AND TO PROVIDE BUMPLESS TRANSFER TO CLOSED LOOP
CONTROL.
=
OUT THE BLOCK OUTPUT AND STATUS.
B2720 / IL
Figure 4-9. Proportional+Integral+Derivative (PID) Function Block
PID Function Block Overview
The PID function block combines all of the necessary
logic to perform proportional/integral/derivative (PID)
control. The block supports mode control, signal
scaling and limiting, feedforward control, override
tracking, alarm limit detection, and signal status
propagation.
The block supports two forms of the PID equation:
Standard and Series. You can choose the appropriate
equation using the MATHFORM [70] parameter. The
Standard ISA PID equation is the default selection.
Standard Out + GAIN
Series Out + GAIN
ex
112
BKCAL OUT
OUT
PID
t
s
1
1 ) )
d
ex
t s ) 1 T t s ) 1
r
d
t s ) 1
1 ) 1 t
s ) d
T t s ) 1
r
d
where
GAIN: proportional gain value
τ
: integral action time constant (RESET
r
parameter) in seconds
s: laplace operator
τ
: derivative action time constant (RATE
d
parameter)
α:
fixed smoothing factor of 0.1 applied to
RATE
F: feedforward control contribution from the
feedforward input (FF_VAL)
E: error between setpoint and process variable
To further customize the block for use in your
application, you can configure filtering, feedforward
inputs, tracking inputs, setpoint and output limiting,
PID equation structures, and block output action.
Table 4-32 lists the PID block parameters and their
descriptions, units of measure, and index numbers,
and figure 4-10 illustrates the internal components of
the PID function block.
Modes
The PID function block supports the following modes:
D Manual (Man)—The block output (OUT [9]) may
be set manually.
D Automatic (Auto)—The SP [8] may be set
manually and the block algorithm calculates OUT [9].
D Cascade (Cas)—The SP [8] is calculated in
another block and is provided to the PID block through
the CAS_IN [18] connection.
D RemoteCascade (RCas)—The SP [8] is
provided by a host computer that writes to the
RCAS_IN [32] parameter.
RemoteOutput (ROut)—The OUT [9] is provided
by a host computer that writes to the ROUT_IN [33]
parameter.
D Local Override (LO)—The track function is
active. OUT [9] is set by TRK_VAL [39]. The
BLOCK_ERR [6] parameter shows Local override.
D Initialization Manual (IMan)—The output path
is not complete (for example, the cascade−to−slave
) F
path might not be open). In IMan mode, OUT [9]
tracks BKCAL_IN [27].
D Out of Service (OOS)—The block is not
)F
processed. The OUT [9] status is set to Bad: Out of
Service. The BLOCK_ERR [6] parameter shows Out
of service.
November 2010