5.3 Parameter Details
5-11
5
Electronic Gear Settings When Using a Ball Screw
If using a ball screw, first check the following specifications.
• Number of encoder pulses
• Gear ratio
• Ball screw pitch
The following system example shows the formulas when the command unit is set to 0.001
mm.
G2 = [Moving distance of load per revolution (command unit)]
×
[Gear ratio (load rev.)] = 6000
×
5 = 30000
G1 = (Encoder pulses)
×
(Pulse multiplier)
×
[Gear ratio (motor rev.)] = 2048
×
4
×
7
= 57344
G1/G2 = 57344/30000 = 1.911
⋅ ⋅ ⋅
Data ranges are shown below.
G2
≤
10,000,000
G1
≤
10,000,000
0.01
≤
G1/G2
≤
100
By storing the value of G2 in Pn811 and the value of G1 in Pn810, you can use the Elec-
tronic Gear function. These parameters are enabled when the power is turned ON. After you
have changed the parameter, execute the Unit Reset Command or the Reset Service to the
Identity Object.
Note 1.
The command unit explained in
Electronic Gear Settings When Using a Ball Screw
is based on
a unit of 0.001 mm. The speed and other parameters must be interpreted as follows:
Pn821: Speed [
×
1,000 steps/min]
→
[mm/min]
2.
Setting G1/G2 outside the range 0.01 to 100 may result in a misoperation. Make sure to set G1
and G2 within this range.
DeviceNet Unit
0.001 mm
R88D-WT
0.001 mm
Encoder
Motor
7 revolutions
5 revolutions
No. of encoder pulses=
2048 x 4
Pitch of ball screw
P=6 mm
1
1
G1
G2
Moving distance of
load per revolution
(command unit)
=
Moving distance of load per revolution (mm)
command unit (mm)
=
0.001 mm
6 mm
=
6000
Содержание OMNUC W R88A-NCW152-DRT
Страница 1: ...Cat No I538 E3 1 DeviceNet Option Unit OMNUC W Series Model R88A NCW152 DRT...
Страница 53: ...4 Connectors 4 5 3 DeviceNet Network Configuration Restrictions 4 22 4...
Страница 97: ...5 Parameter Settings 5 3 8 Notch Signal Output Positioning 5 44 5...
Страница 211: ...8 Servo Driver Settings 8 5 3 Absolute Encoder Multi turn Limit Setting 8 24 8...
Страница 257: ...9 Troubleshooting 9 46 9...