Correcting variable processing 267, Three element control 267, Three-element control – West Control Solutions KS98-1 User Manual

Ratio = Type 2

W

X

N

X

X

SFact

=

+

+

×

1

0

1

2

(

)

In this example, water (x1) must be batched as a percentage of
the total (paste; x1+x2). As the paste quantity is not available
directly as a measurement signal, the total is calculated inter-
nally from x1 and x2. N0 = 0 must also be adjusted in this case.

Ratio = Type 3

W

X

X

N

X

SFact

=

-

+

×

2

1

0

2

Unlike the previous examples, yoghurt (x2) and the final product
(x1) are measured in this case.

Three-element control

With three-element control, process value calculation is accor-
ding to equation

x

X

a

X

X

eff

= + ×

1

2

3

(

\

)

whereby term

(

\

)

X

X

2

3

is

the difference between the steam and water flow rates. Factor
b for flow range matching used so far is omitted, because the
mA signals are converted directly into physical units during in-
put value conditioning (x0, x100). The calculated process value
is displayed on the process value display.

For selecting a three-element controller, ‘

CFunc =

3-elem.‘ must be entered in the configuration.

Correcting variable processing

The following considerations related to
correcting variable processing are appli-
cable to continuous controllers,
two-point, three-point and three-point
stepping controllers with position feed-
back. The diagram opposite shows the
functions and interactions of correcting
variable processing.

9499-040-82711

Process value calculation

III-267

Flour

X1

X2

x1

x2

Water

w = (x1+N0) / (x1+x2) SFac

w

Dough

Fig. 87

x1-x2

x2

w = (x2 - x1) / (x2 SFac)

w

Fat

Yoghurt

x2

x1

X2

X2

Fig. 88

Setpoint w

Water

Steam

Fd

Level L

Fw

+

Process valuex = x1 +a (x2 - x3)

y + dFd/dt

_

X3

X1

X2

Fig. 89

x

w

Ypid

Ymax Ymin

Y2

Y0

+

OVC

a/m

y/y2

Y

Fig.: 90 Steps of the output signal processing