Sgvf, Command velocity dmtd torque velocity estimated – Parker Hannifin 88-021610-01G User Manual

Parker Hannifin

142 Aries User Guide

term is to anticipate position error and correct it before it becomes too large.
This increases damping and tends to make the system more stable.

If this term is too large, the response will be slowed to the point that the
system is over-damped.

Since the feedback device signal has finite resolution, the velocity accuracy
has a limit. Therefore, if the velocity feedback gain (SGV) is too high, the

errors due to the finite resolution are magnified and a noisy, or chattering,
response may be observed.

SGVF

Velocity Feedforward Gain

Type

Tuning

Product Rev

Syntax

<a_><!>SGVF<i>

Aries 2.0

Units

N/A

Range

Ш-5ШШ

Default

1ØØ

Response

SGVF: *SGVF1ØØ

See Also

DMTD

,

LJRAT

Use the SGVF command to set the velocity feedforward gain. Velocity

feedforward control improves position tracking performance when the system
is commanded to move at constant velocity. The velocity tracking error is
mainly attributed to viscous friction.

The SGVF value is multiplied by the commanded velocity calculated by the

Aries drive’s move profile routine to produce an estimated torque command
that gets added to the servo control signal. The value is normalized to the
current setting of both the motor and load viscous damping terms (DMTD) as

shown in the equation below.

command

velocity

DMTD

torque

velocity

Estimated

100%

value

SGVF

⋅

=

=

4

3

42

1

Setting SGVF to one (1) theoretically produces zero (0) following errors during

the constant velocity portion of a move profile. This assumes that the drive or
motor are not being current limited, the values for viscous damping are
accurate and the models used for analysis are correct. The value of SGVF
can be adjusted from zero to as high as five (5) times (SGVF5) the theoretical

value.

Example

SGVF2

; Set velocity feedforward to 200% of theoretical value