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5-38 Operation
MN1941
5.10 Local servo axis - eliminating steady-state errors
In systems where precise and accurate positioning is required, it is often necessary to position
within one encoder count. Proportional gain, KPROP, is not normally able to achieve this
because a very small following error will only produce a small demand for the drive amplifier
which may not be enough to overcome mechanical friction (this is particularly true in current
controlled systems). This error can be overcome by applying integral gain. The integral gain,
KINT, works by accumulating following error over time to produce a demand sufficient to move
the motor into the required position with zero following error. KINT can therefore overcome errors
caused by gravitational effects such as vertically moving linear axes. With current controlled
drive amplifiers a non-zero demand output is required to hold the load in the correct position, to
achieve zero following error.
Care is required when setting KINT since a high value will cause instability during moves.
A typical value for KINT would be 0.1. The effect of KINT should also be limited by setting the
integration limit, KINTLIMIT, to the smallest possible value that is sufficient to overcome friction
or static loads, for example 5. This will limit the contribution of the integral term to 5% of the full
demand output range.
1. Click in the KINT box and enter a small
starting value, for example 0.1.
2. Click in the KINTLIMIT box and enter a value
of 5.
With NextMove
e
100, the action of KINT and KINTLIMIT can be set to operate in various
modes:
H
Never - the KINT term is never applied
H
Always - the KINT term is always applied
H
Smart - the KINT term is only applied when the demand speed is zero or constant.
H
Steady State - the KINT term is only applied when the demand speed is zero.
This function can be selected using the KINTMODE drop down box.
Summary of Contents for NXE100-1608Dx
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Page 16: ...www baldormotion com 3 4 Basic Installation MN1941 ...
Page 50: ...www baldormotion com 4 34 Input Output MN1941 ...
Page 77: ...www baldormotion com Operation 5 27 MN1941 Figure 37 The NextMove e100 servo loop ...
Page 98: ...www baldormotion com 6 8 Troubleshooting MN1941 ...
Page 110: ...Index MN1941 ...
Page 112: ...Comments MN1941 Thank you for taking the time to help us ...
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