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
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3.7.28 CALCX (Calculate using the X Register)
This instruction is very similar to CALC, but the second operand comes from the X register. The X register
can be loaded with the LOAD or the SWAP type of this instruction. The result is written back to the
accumulator for further processing like comparisons or data transfer. This command is mainly intended for
use in standalone mode.
Related commands: CALC, COMP, JC, AAP, AGP, GAP, GGP, GIO.
Mnemonic: CALCX <operation>
Binary Representation
Instruction Type Motor/Bank Value
33 0 ADD – add X register to accumulator 0 (don’t care) 0 (don’t care)
1 SUB – subtract X register from accumulator
2 MUL – multiply accumulator by X register
3 DIV – divide accumulator by X register
4 MOD – modulo divide accumulator by X register
5 AND – logical and accumulator with X register
6 OR – logical or accumulator with X register
7 XOR – logical exor accumulator with X register
8 NOT – logical invert X register
9 LOAD – copy accumulator to X register
10 SWAP – swap accumulator and X register
Reply in Direct Mode
Status Value
100 - OK don’t care
Example
Multiply accumulator and X register.
Mnemonic: CALCX MUL
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