User manual
Table Of Contents
- Introduction
- Hardware description
- Software
- Appendix
- manual_e_delib.pdf
- Introduction
- Hardware description
- Software
- Appendix
- manual_e_ro_io_stepper2.pdf
- Introduction
- Hardware description
- Software
- DELIB API reference
- Management functions
- Error handling
- Stepper motor functions
- DapiStepperCommands
- DAPI_STEPPER_CMD_GO_POSITION
- DAPI_STEPPER_CMD_GO_POSITION_RELATIVE
- DAPI_STEPPER_CMD_SET_POSITION
- DAPI_STEPPER_CMD_SET_FREQUENCY
- DAPI_STEPPER_CMD_GET_FREQUENCY
- DAPI_STEPPER_CMD_SET_FREQUENCY_DIRECTLY
- DAPI_STEPPER_CMD_STOP
- DAPI_STEPPER_CMD_FULLSTOP
- DAPI_STEPPER_CMD_DISABLE
- DAPI_STEPPER_CMD_SET_MOTORCHARACTERISTIC
- DAPI_STEPPER_CMD_GET_MOTORCHARACTERISTIC
- DAPI_STEPPER_CMD_MOTORCHARACTERISTIC_EEPROM_SAVE
- DAPI_STEPPER_CMD_MOTORCHARACTERISTIC_EEPROM_LOAD
- DAPI_STEPPER_CMD_MOTORCHARACTERISTIC_LOAD_DEFAULT
- DAPI_STEPPER_CMD_GO_REFSWITCH
- DAPI_STEPPER_CMD_GET_CPU_TEMP
- DAPI_STEPPER_CMD_GET_MOTOR_SUPPLY_VOLTAGE
- DapiStepperGetStatus
- DapiStepperCommandEx
- DapiStepperCommands
- Example program
- Appendix
- manual_e_ro_serie.pdf
- Introduction
- Hardware description
- Ethernet Interface
- CAN Interface
- RS-232/RS-485 Interface
- USB Interface
- Digital in-/output modules
- Analog in-/output modules
- Stepper module
- Software
- DELIB API reference
- Management functions
- Error handling
- Reading Digital inputs
- Setting Digital outputs
- A/D converter functions
- D/A outputs management
- Stepper motor functions
- DapiStepperCommands
- DAPI_STEPPER_CMD_GO_POSITION
- DAPI_STEPPER_CMD_GO_POSITION_RELATIVE
- DAPI_STEPPER_CMD_SET_POSITION
- DAPI_STEPPER_CMD_SET_FREQUENCY
- DAPI_STEPPER_CMD_GET_FREQUENCY
- DAPI_STEPPER_CMD_SET_FREQUENCY_DIRECTLY
- DAPI_STEPPER_CMD_STOP
- DAPI_STEPPER_CMD_FULLSTOP
- DAPI_STEPPER_CMD_DISABLE
- DAPI_STEPPER_CMD_SET_MOTORCHARACTERISTIC
- DAPI_STEPPER_CMD_GET_MOTORCHARACTERISTIC
- DAPI_STEPPER_CMD_MOTORCHARACTERISTIC_EEPROM_SAVE
- DAPI_STEPPER_CMD_MOTORCHARACTERISTIC_EEPROM_LOAD
- DAPI_STEPPER_CMD_MOTORCHARACTERISTIC_LOAD_DEFAULT
- DAPI_STEPPER_CMD_GO_REFSWITCH
- DAPI_STEPPER_CMD_GET_CPU_TEMP
- DAPI_STEPPER_CMD_GET_MOTOR_SUPPLY_VOLTAGE
- DapiStepperGetStatus
- DapiStepperCommandEx
- DapiStepperCommands
- Output timeout management
- Test functions
- Example program
- Appendix
DELIB API reference |
Seite 37
Set Parameter-Accelerationslope
par1=DAPI_STEPPER_MOTORCHAR_PAR_ACCELERATIONSLOPE
par2=Acceleration slope [Full-step / 10ms] - (maximum value=1000)
Set Parameter-Decelerationslope
par1=DAPI_STEPPER_MOTORCHAR_PAR_DECELERATIONSLOPE
par2=Deceleration slope [Full-step / 10ms] - (maximum value=1000)
Set Parameter-Phasecurrent
par1=DAPI_STEPPER_MOTORCHAR_PAR_PHASECURRENT
par2=Phase current [mA] - (maximum value=1500)
Set Parameter-Hold-Phasecurrent
par1=DAPI_STEPPER_MOTORCHAR_PAR_HOLDPHASECURRENT
par2=Phase current at motor hold [mA] - (maximum value=1500)
Set Parameter-Hold-Time
par1=DAPI_STEPPER_MOTORCHAR_PAR_HOLDTIME
par2=Time in that the hold goes to motorstop [ms]
par2=-1 / FFFF hex / 65535 dez (endless time)
Set Parameter-Status-LED-Mode
par1=DAPI_STEPPER_MOTORCHAR_PAR_STATUSLEDMODE
par2=Mode of the Status-LED
par2=0 (MOVE - LED is on if the stepper moves)
par2=1 (HALT - LED is on if the stepper stands still)
par2=2 (ENDSW1 - LED is on if the end switch1 is closed)
par2=3 (ENDSW2 - LED is on if the end switch2 is closed)
par2=4 (REFSW1 - LED is on if the Reference switch1 is closed)
par2=5 (REFSW2 - LED is on if the Reference switch2 is closed)
Set Parameter-Invert-END-Switch1
par1=DAPI_STEPPER_MOTORCHAR_PAR_INVERT_ENDSW1
par2=Endswitch1 is being inverted (0=normal / 1=inverted)