62
Velocity feedforward of the position loop K_Velocity_FF : the velocity feedforward of a position loop can be
increased to reduce position following errors. When position signals are not smooth, if the velocity
feedforward of a position loop is reduced, motor oscillation during running can be reduced. Acceleration
feedback of the position loop K_Acc_FF (adjustment is not recommended for this parameter): If great gains of
position loops are required, the acceleration feedback K_Acc_FF can be properly adjusted to improve
performance.
*
*
_
K_Acc_FF
250000* 2 *
*
p
t
t
I
K
Encoder
R
J
Note: K_Acc_FF is inversely proportional to the acceleration
feedforward.
Table 7-6 Parameters for gain control on position loops
Numeric
Display
Variable Name
Meaning
Default
Value
Range
d2.01
Kvp
Sets the response speed of a velocity loop
/
0~3276
7
d2.02
Kvi
Adjusts speed control so that the time of minor
errors is compensated
/
0~1638
4
d2.05
Speed_Fb_N
You can reduce the noise during motor operation
by reducing the feedback bandwidth of velocity
loops (smoothing feedback signals of encoders).
When the set bandwidth becomes smaller, the
motor responds slower. The formula is
F=Speed_Fb_N*20+100.
For example, to set the filter bandwidth to "F = 500
Hz‖, the parameter should be set to 20.
7
0~45
Proportional gain of velocity loop Kvp: If the proportional gain of the velocity loop increases, the responsive
bandwidth of the velocity loop also increases. The bandwidth of the velocity loop is directly proportional to the
speed of response. Motor noise also increases when the velocity loop gain increases. If the gain is too great,
system oscillation may occur.
Integral gain of velocity loop Kvi: If the integral gain of the velocity loop increases, the low-frequency intensity
is improved, and the time for steady state adjustment is reduced; however, if the integral gain is too great,
system oscillation may occur.
7.1.3 Examples of Pulse Control Mode
In the pulse control mode, follow the steps below to configure a driver:
Step 1:
Confirm whether the functions of the driver require enabling through external digital input ports. To
enable the driver through external digital input ports, see Table 6-12 in Example 6-3 for settings. If it is not
necessary to enable the driver through external digital input ports, you can disable the enabling control
function of external digital input ports by referring to Table 6-13 of Example 6-3, and enable the driver by
setting its internal parameters.
Step 2:
Confirm whether limit switches are required. By default, the driver operates in the limit status after
being powered on. In this case, the numeric display has limit status display. If there is no limit switches,
Содержание CD2S Series
Страница 7: ...7...
Страница 8: ...8 1 3 3 Power Brake and Encoder cable of Motors...
Страница 12: ...12 Fig 2 3 Installation direction...
Страница 15: ...15 3 1 2 Wiring Diagram Fig 3 1 Wiring diagram of CD2S driver...
Страница 16: ...16 3 1 3 X1 interface of CD2S Driver Fig 3 2 X1 interface Fig 3 3 Wiring diagram of X1 interface...
Страница 23: ...23 Fig 4 3 Separate regulation of bits...
Страница 82: ...82...
Страница 96: ...96 8 4 Debugging example 8 4 1 Oscilloscope 1 Enter oscilloscope 2 Parameters for Oscilloscope...
Страница 98: ...98 In Auto Reverse mode Kvp 110...
Страница 100: ...100 The oscilloscope is as following max following error is 69 inc Fig 2 Kpp 30 Vff 100...
Страница 101: ...101 The oscilloscope is as following max following error is 53 inc Fig 3 Kpp 30 Vff 50...
Страница 102: ...102 The oscilloscope is as following max following error is 230 inc...