Yokogawa ADMAG AXR User Manual

<6. PARAMETER DESCRIPTION>

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IM 01E30D01-01EN

[J22: Dead Time] Setting of dead time

This parameter sets the time for application of the

rate limit, and if a value of 0 is set, the rate limit

function will be terminated.

NOTE

Determining rate limit value and dead time

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T

0

T

0

2%

2%

Rate limit value:

Determines the level for

output fluctuation cutoff. For

example, if this is set to 2%,

noise above 2% will be

eliminated as shown in the

diagram.

Dead time (T

0

):

This is to be determined using

the output fluctuation width. If

noise exceeds the dead time

as shown in the diagram

below, the dead time should

be made longer.

● Signal processing method:

A fixed upper and lower limit value is setup with

respect to the primary delay response value for

the flow rate value obtained during the previous

sampling, and if the currently sampled flow rate

is outside these limits, then the corresponding

limit is adopted as the current flow rate value.

In addition, if signals which breach the limits in

the same direction occur over multiple samples

(i.e., within the dead time), it is concluded that

the corresponding signal is a flow rate signal.

Example 1: Step input

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10

%

1

%

Step signal

Flow rate value

after rate limit

processing

63.2

%

100

225

Dead time: 3 s

Input: 0 to 10%

Damping time constant: 5 s

Dead time: 3 s

Rate limit value: 1%

Number of signal samples

Flow rate value after

damping

(a)

(b)

(c)

(d)

(1) In comparison with the previous value at (a), it

is determined that the signal is in excess of the

rate limit value and the response becomes 1%.

However, the actual output applies damping,

and therefore the output turns out to be as

indicated by the solid line.

(2) Subsequent flow values within the dead time

zone correspond to signals of post-damping

flow value + rate limit value (1%).

(3) Since input signals do not return to within

the rate limit value during the dead time, it is

determined at (c) that this signal is a flow rate

signal.

(4) The output signal becomes a damped curve

and compliance with the step signal begins.

Five seconds after determination of a flow rate

signal in the above figure, a level of 63.2% is

reached.

Example 2: Slurry noise

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+1

%

-1

%

Dead time: 1 s

Flow rate value after damping

Flow rate value

after rate limit

processing

Slurry noise

Input: 0 to 10%

Damping time constant: 1 s

Dead time: 1 s

Rate limit value: 1%

Time

In the figure on the left, it

is determined that the

slurries noise signal is not

a flow rate signal.

[J23: Pulsing Flow] Selection of pulsing flow

support

In a situation where pulsating flow causes error in

the average flow value, due to the application of a

plunger pump, this parameter provides functionality

whereby calculation is controlled and variations in

flow rate are followed.

Setting

Function

No

Normal

Yes

Support for pulsing flow

[J25: T/P Damp Select] Setting of damping

operation

This parameter is used to select that the flow rate

value obtained through damping calculation for

totalization and pulse output or the instantaneous

flow rate value (no damping) for totalization and

pulse output.

Setting

Function

Damp

Damping

No Damp

No damping