User Manual
Table Of Contents
- 1 Features
- 2 First Steps with TMCL
- 3 TMCL and the TMCL-IDE — An Introduction
- 3.1 Binary Command Format
- 3.2 Reply Format
- 3.3 Standalone Applications
- 3.4 The ASCII Interface
- 3.5 TMCL Command Overview
- 3.6 TMCL Commands by Subject
- 3.7 Detailed TMCL Command Descriptions
- 3.7.1 ROR (Rotate Right)
- 3.7.2 ROL (Rotate Left)
- 3.7.3 MST (Motor Stop)
- 3.7.4 MVP (Move to Position)
- 3.7.5 SAP (Set Axis Parameter)
- 3.7.6 GAP (Get Axis Parameter)
- 3.7.7 STAP (Store Axis Parameter)
- 3.7.8 RSAP (Restore Axis Parameter)
- 3.7.9 SGP (Set Global Parameter)
- 3.7.10 GGP (Get Global Parameter)
- 3.7.11 STGP (Store Global Parameter)
- 3.7.12 RSGP (Restore Global Parameter)
- 3.7.13 RFS (Reference Search)
- 3.7.14 SIO (Set Output)
- 3.7.15 GIO (Get Input)
- 3.7.16 CALC (Calculate)
- 3.7.17 COMP (Compare)
- 3.7.18 JC (Jump conditional)
- 3.7.19 JA (Jump always)
- 3.7.20 CSUB (Call Subroutine)
- 3.7.21 RSUB (Return from Subroutine)
- 3.7.22 WAIT (Wait for an Event to occur)
- 3.7.23 STOP (Stop TMCL Program Execution – End of TMCL Program)
- 3.7.24 SCO (Set Coordinate)
- 3.7.25 GCO (Get Coordinate)
- 3.7.26 CCO (Capture Coordinate)
- 3.7.27 ACO (Accu to Coordinate)
- 3.7.28 CALCX (Calculate using the X Register)
- 3.7.29 AAP (Accu to Axis Parameter)
- 3.7.30 AGP (Accu to Global Parameter)
- 3.7.31 CLE (Clear Error Flags)
- 3.7.32 EI (Enable Interrupt)
- 3.7.33 DI (Disable Interrupt)
- 3.7.34 VECT (Define Interrupt Vector)
- 3.7.35 RETI (Return from Interrupt)
- 3.7.36 Customer specific Command Extensions (UF0…UF7 – User Functions)
- 3.7.37 Request Target Position reached Event
- 3.7.38 TMCL Control Commands
- 4 Axis Parameters
- 5 Global Parameters
- 6 Module Specific Hints
- 7 Hints and Tips
- 8 TMCL Programming Techniques and Structure
- 9 Figures Index
- 10 Tables Index
- 11 Supplemental Directives
- 12 Revision History
PD-1160 TMCL
™
Firmware Manual • Firmware Version V1.42 | Document Revision V1.06 • 2018-JAN-09
77 / 113
Number Axis Parameter Description Range [Units] Access
6 Maximum
current
Motor current used when motor is running. The
maximum value is 255 which means 100% of
the maximum current of the module.
The current can be adjusted in 32 steps:
0. . . 7 79. . . 87 160. . . 167 240. . . 247
8. . . 15 88. . . 95 168. . . 175 248. . . 255
16. . . 23 96. . . 103 176. . . 183
24. . . 31 104. . . 111 184. . . 191
32. . . 39 112. . . 119 192. . . 199
40. . . 47 120. . . 127 200. . . 207
48. . . 55 128. . . 135 208. . . 215
56. . . 63 136. . . 143 216. . . 223
64. . . 71 144. . . 151 224. . . 231
72. . . 79 152. . . 159 232. . . 239
The most important setting, as too high values can
cause motor damage.
0. . . 255 RW
7 Standby
current
The current used when the motor is not running.
The maximum value is 255 which means 100% of
the maximum current of the module. This value
should be as low as possible so that the motor
can cool down when it is not moving. Please see
also parameter 214.
0. . . 255 RW
8 Position
reached flag
This flag is always set when target position and
actual position are equal.
0/1 R
9 Home switch
state
The logical state of the home switch input. 0/1 R
10 Right limit
switch state
The logical state of the right limit switch input. 0/1 R
11 Left limit
switch state
The logical state of the left limit switch input. 0/1 R
12 Right limit
switch disable
0 - switch activated
1 - switch deactivated
0/1 RWE
13 Left limit
switch disable
0 - switch activated
1 - switch deactivated
0/1 RWE
130 Minimum
speed
This is the stop speed (the start speed is always
1). Default value is 1. Can be set higher in order
to reach the target position faster. Never set
lower than 1, as in this case the target position
cannot be reached.
1. . . 2047 [int] RWE
135 Actual
acceleration
The current acceleration. 0. . . 2047 [int] R
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