Parker 590 series Product Manual page 130

Dc digital converter

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Owner's manual (28 pages)

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6-40

Programming Your Application

DIVIDER 1

This divides Input 1 by a factor (Divider 1).

DIVIDER 2

This divides Input 2 by a factor (Divider 2).

ENABLE

A digital input which resets the (total) PID Output as well as the integral term when FALSE.

INT. DEFEAT

A digital input which resets the integral term when TRUE. The block transfer function then

becomes P+D only.

FILTER T.C.

In order to attenuate high-frequency noise a first order filter is added in conjunction with the

differentiator. The ratio k of the Derivative Time Constant (Td) over the Filter Time Constant

(Tf) (typically 4 or 5) determines the high-frequency lift of the transfer function. For Tf = 0 this

filter is eliminated.

MODE

This determines the law which the profiler follows versus diameter.

For Mode = 0, Profiled Gain = constant = P.

For Mode = 1, Profiled Gain = A * (diameter - min diameter) + B.

For Mode = 2, Profiled Gain = A * (diameter - min diameter)^2 + B.

For Mode = 3, Profiled Gain = A * (diameter - min diameter)^3 + B.

For Mode = 4, Profiled Gain = A * (diameter - min diameter)^4 + B.

MIN PROFILE GAIN

This expresses the minimum gain required at min diameter (core) as a percentage of the (max) P

gain at full diameter (100%).

PROFILED GAIN

The output of a profiler block which varies the gain versus diameter. This is primarily to be used

with Speed Profiled Winders for compensation against varying diameter and therefore inertia.

When MODE is not ZERO (see above) this overrides the P gain above.

PID OUTPUT

Refer to the DIAGNOSTICS function block description, page 6-18.

PID CLAMPED

Refer to the DIAGNOSTICS function block description, page 6-18.

PID ERROR

Refer to the DIAGNOSTICS function block description, page 6-18.

Functional Description

The following block diagram shows the internal structure of the PID block.

PID is used to control the response of any closed loop system. It is used specifically in system

applications involving the control of drives to allow zero steady state error between Reference

and Feedback, together with good transient performance.

Proportional Gain (PROP. GAIN)

This is used to adjust the basic response of the closed loop control system. It is defined

as the portion of the loop gain fed back to make the complete control loop stable. The

PID error is multiplied by the Proportional Gain to produce an output.

Range: -3.0000 to 3.0000

Range: ENABLED/DISABLED

Range: ON/OFF

Range: 0.000s to 10.000s

Range: 0 to 4

Range: 0.00% to 100.00%

Range: 0.0 to 100.0

590 Series DC Digital Converter

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Parker 590 series Product Manual page 130

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