Component: Stepper Motor (Generic) ()
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| Version | 2.0 |
| Category |
Contents
Stepper Motor (Generic) component
A generic stepper motor model. Includes a visual simulation showing the activaton pattern of the coils. Make another object move along with the stepper shaft using the 'Target' property. The target object can rotate with the stepper shaft with a given gearing ratio, or be moved linearly according to a given lead screw pitch.
Detailed description
No detailed description exists yet for this component
Examples
Attaching a primitive to a stepper motor
This example links a panel primitive to the output of the motor.
Stepper Example 1
The linked object can be rotated or moved in a fixed direction by the motor.
Linear movement using a stepper motor
This example links two stepper motors together using linear type movements rather then rotational similar to a stepper attached to a lead screw.
Stepper Example 2
The stepper is linked to the objects on the panel using properties and grouping.
Creating a multi-axis actuator using stepper motors
This example links three stepper motors together using panel primitive objects and groups.
Stepper Example 3
Here we can see the actuator arm in motion.
Downloadable macro reference
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IncrementStep |
| Move the motor forward by one step. | |
 - VOID
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Return |
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SetTarget |
| Assign a panel object to be moved by the motor. Once linked, the object will respond to the 'Motor Simulation' properties, and it will be moved whenever the motor is stepped. | |
| [[File:]] - | target |
| An object to be moved by the motor. | |
| - VOID
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Return |
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DecrementStep |
| Move the motor backwards by one step. | |
| - VOID
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Return |
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EnableMotor |
| Turn on the motor. This must be done before it will respond to any other macros. | |
| - VOID
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Return |
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DisableMotor |
| Turn off the motor. It will no longer respond to any other macros. | |
| - VOID
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Return |
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SetTrim |
| Allows the level of trim for each servo channel to be adjusted progmatically. | |
 - BYTE
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Channel |
| The channel to set the position for. First channel is zero. | |
| - BYTE
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Trim |
| Legacy: 0=0us, 1=+25us, 2=+50us, 3=+75us, 4=+100us, 5=-25us, 6=-50us, 7=-75us, 8=-100us or Smooth: 0-200 | |
| - VOID
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Return |
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IsAutoMoving |
| Is the AutoMoveToPosition movement complete. Returns 1 if the servos are still moving. Returns 0 if all servo movement is complete. | |
| - BYTE
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Return |
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SetAutoMoveSpeedInt |
| Sets the speed of the auto move to position macro. Default speed is shown in the Servo_Period_Multiplier property. | |
 - UINT
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Speed |
| 1=Slowest (Default), 2= Double, 3=Triple, 4=Quadruple | |
| - VOID
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Return |
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IsServoAutoMoving |
| Is the AutoMoveToPosition movement complete for a specific servo output. Returns 1 if the servo is still moving. Returns 0 if the servo movement is complete. | |
| - BYTE
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Channel |
| Servo Motor Output Range: 0-7 | |
| - BYTE
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Return |
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AutoMoveToPosition |
| Automatically moves towards the new position at a fixed rate determined by the AutoMoveSpeed. | |
| - BYTE
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Channel |
| The channel to assign the new position. Range: 0-7 | |
| - BYTE
|
Position |
| Position to automatically move to. Range: 0-255 | |
| - VOID
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Return |
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EnableServo |
| Enables a servo channel effectivly setting the position of the motor to the value in the local position variable. | |
| - BYTE
|
Channel |
| The channel to set the position for. First channel is zero. | |
| - VOID
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Return |
|
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SetAutoMoveSpeed |
| Sets the speed of the auto move to position macro. Default speed is shown in the Servo_Period_Multiplier property. | |
| - BYTE
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Speed |
| 1=Slowest (Default), 2= Double, 3=Triple, 4=Quadruple | |
| - VOID
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Return |
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AutoMoveToPositionInt |
| Automatically moves towards the new 16-bit position at a fixed rate determined by the AutoMoveSpeed. | |
| - BYTE
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Channel |
| The channel to assign the new position. Range: 0-7 | |
| - UINT
|
Position |
| Position to automatically move to. Range: 0-65535 | |
| - VOID
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Return |
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Initialise |
| Sets up the servo motor interrupts | |
| - VOID
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Return |
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WriteLEDs |
| Allows control of all 8-LEDs on the front of the Formula Flowcode. | |
| - BYTE
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LED_Byte |
| - VOID
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Return |
|
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Initialise |
| Starts up the formula flowcode PWM for motor control and performs the wait for button press | |
| - VOID
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Return |
|
|
Initialise |
| The Init macro must be called once to initialise the Graphical LCD display before any other Graphical LCD component macros are called. | |
| - VOID
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Return |
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Initialise |
| The Init macro must be called once to initialise the Graphical LCD display before any other Graphical LCD component macros are called. | |
| - VOID
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Return |
|
|
Initialise |
| The Init macro must be called once to initialise the Graphical LCD display before any other Graphical LCD component macros are called. | |
| - VOID
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Return |
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Initialise |
| The Init macro must be called once to initialise the Graphical LCD display before any other Graphical LCD component macros are called. | |
| - VOID
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Return |
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Initialise |
| Resets and initialises the Internet E-Block. It sets up the gateway address, subnet mask, device IP address and device MAC address as defined in the properties of the Flowcode component. This macro must be called before any other TCP_IP component macros | |
| - VOID
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Return |
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Initialise |
| Resets and initialises the Internet E-Block. It sets up the gateway address, subnet mask, device IP address and device MAC address as defined in the properties of the Flowcode component. This macro must be called before any other TCP_IP component macros | |
| - VOID
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Return |
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Initialise |
| Resets and initialises the Internet E-Block. It sets up the gateway address, subnet mask, device IP address and device MAC address as defined in the properties of the Flowcode component. This macro must be called before any other TCP_IP component macros | |
| - VOID
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Return |
|
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MODPMSHAPE |
| Sets PM waveform shape to; 0 = SINE, 1 = SQUARE, 2 = RAMPUP, 3 = RAMPDN, 4 = TRIANG, 5 = NOISE, 6 = DC, 7 = SINC, 8 = EXPRISE, 9 = LOGRISE, 10 = ARB1, 11 = ARB2, 12 = ARB3, 13= ARB4. | |
| - BYTE
|
Shape |
| Sets PM waveform shape (1 = SINE, 2 = SQUARE, 3 = RAMPUP, 4 = RAMPDN, 5 = TRIANG, 6 = NOISE, 7 = DC, 8 = SINC, 9 = EXPRISE, 10 = LOGRISE, 11 = ARB1, 12 = ARB2, 13 = ARB3, 14= ARB4). | |
| - VOID
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Return |
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ARB4 |
| Loads the binary-data to an existing arbitrary waveform memory location ARB4. | |
| - BYTE
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Waveform |
| - VOID
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Return |
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CLKSRRet |
| Returns the clock source <INT> or <EXT>. | |
| [[File:]] - | Return |
|
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MODPMDEV |
| Sets PM waveform deviation to <nrf> degrees. (Lower limit: -360° - Upper limit: 360°). | |
| [[File:]] - | Degrees |
| Sets PM waveform deviation in degrees (-360 - 360). | |
| - VOID
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Return |
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MSTLOCK |
| Sends signal to SLAVE generator to get synchronised | |
| - VOID
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Return |
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HILVL |
| Sets the amplitude-high-level to <nrf> Volts. (Lower limit: -0.490 V - Upper limit: 5.000 V). | |
| [[File:]] - | HighLevel |
| Sets the amplitude-high-level in Volts(V) (-0.490 V - 5.000 V). | |
| - VOID
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Return |
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ARB3 |
| Loads the binary-data to an existing arbitrary waveform memory location ARB3. | |
| - UINT
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Waveform |
| - VOID
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Return |
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WAVE |
| Sets the waveform type. 0 = SINE, 1 = SQUARE, 2 = RAMP, 3 = TRIANG, 4 = PULSE, 5 = NOISE, 6 = ARB | |
| - BYTE
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WaveType |
| 0 = SINE, 1 = SQUARE, 2 = RAMP, 3 = TRIANG, 4 = PULSE, 5 = NOISE, 6 = ARB. | |
| - VOID
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Return |
|
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CALADJ |
| Adjust the selected calibration value by <nrf> (Lower limit: -100 - Upper limit: 100). | |
| [[File:]] - | Calibrate |
| Adjust the selected calibration value (-100 - 100). | |
| - VOID
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Return |
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STBRet |
| Returns the value of the Status Byte Register in <nr1> numeric format. | |
| - BYTE
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Return |
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ARB2 |
| Loads the binary-data to an existing arbitrary waveform memory location ARB2. | |
| - UINT
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Waveform |
| - VOID
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Return |
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EERRet |
| Query and clear execution error number register. | |
 - STRING
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Return |
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MODFMSRC |
| Sets FM waveform source to; 0 INT, 1 = EXT. | |
| [[File:]] - | Source |
| Sets FM waveform source (0 = INT, 1 = EXT). | |
| - VOID
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Return |
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MODAMFREQ |
| Sets AM waveform frequency to <nrf> Hz. (Lower limit: 1uHz - Upper limit: 20kHz). | |
| [[File:]] - | Frequency |
| Sets AM waveform frequency in Hertz(Hz) (1uHz - 20kHz). | |
| - VOID
|
Return |
|
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ESE |
| Sets the Standard Event Status Enable Register to the value of <nrf>. | |
| - BYTE
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Value |
| Value of register 0-255 | |
| - VOID
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Return |
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ARB1 |
| Loads the binary-data to an existing arbitrary waveform memory location ARB1. | |
| - UINT
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Waveform |
| 16 Bit binary number for arbitrary waveform. | |
| - VOID
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Return |
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ARB4DEFRet |
| Returns user specified waveform name, waveform pint interpolation state and waveform length of ARB4. | |
| - STRING
|
Return |
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CLS |
| Clears status byte register of the interface. | |
| - VOID
|
Return |
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MSTRELOCK |
| Resynchronises the two generators in MASTER-SLAVE mode. | |
| - VOID
|
Return |
|
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NOISLVL |
| Sets the output noise level to <nr1> %. (Lower limit: 0% - Upper limit: 50%) | |
| - BYTE
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Percent |
| Sets the output noise level in percent. (0 - 50) | |
| - VOID
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Return |
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LOCKMODE |
| Sets the synchronising mode to; 0 = MASTER, 1 = SLAVE, 2 = INDEP. | |
| - BYTE
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Mode |
| Sets the synchronising mode (0 = MASTER, 1 = SLAVE, 2 = INDEP). | |
| - VOID
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Return |
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ADDRESSRet |
| Returns the instruments address | |
| [[File:]] - | Return |
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MODPMSRC |
| Sets PM waveform source to; 0 INT, 1 = EXT. | |
| [[File:]] - | Source |
| Sets PM waveform source (0 = INT, 1 = EXT). | |
| - VOID
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Return |
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MODPWMSRC |
| Sets PWM waveform source to; 0 = INT, 1 = EXT. | |
| [[File:]] - | Source |
| Sets PWM waveform source (0 = INT, 1 = EXT). | |
| - VOID
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Return |
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MOD |
| Sets modulation to; 0 = OFF, 1 = AM, 2 = FM, 3 = PM, 4 = FSK, 5 = PWM. | |
| - BYTE
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Modulation |
| Sets modulation (0 = OFF, 1 = AM, 2 = FM, 3 = PM, 4 = FSK, 5 = PWM). | |
| - VOID
|
Return |
|
|
ISTRet |
| Returns IST local message as defined by IEEE Std. 488.2. The syntax of the response is 0<rmt>, if the local message is false, or 1<rmt>, if the local message is true. | |
| [[File:]] - | Return |
|
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LRNRet |
| Returns the complete setup of the instrument as a binary data block | |
| [[File:]] - | Return |
|
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OPCRet |
| Query Operation Complete status. The response is always 1<rmt> and will be available immediately the command is executed because all commands are sequential. | |
| [[File:]] - | Return |
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SWPTYPE |
| Sets the sweep type to; 0 = LINUP, 1 = LINDN, 2 = LINUPDN, 3 = LINDNUP, 4 = LOGUP, 5 = LOGDN, 6 = LOGUPDN, 7 = LOGDNUP. | |
| - BYTE
|
Type |
| Set the sweep type (0 = LINUP, 1 = LINDN, 2 = LINUPDN, 3 = LINDNUP, 4 = LOGUP, 5 = LOGDN, 6 = LOGUPDN, 7 = LOGDNUP). | |
| - VOID
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Return |
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PULSRANGE |
| Sets PWM waveform source to <1>, <2> or <3>; 1 = 1, 2 = 2, 3 = 3. | |
| - BYTE
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Range |
| Sets the pulse rise and fall range. (1, 2 or 3) | |
| - VOID
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Return |
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TSTRet |
| The generator has no self test capability and the response is always 0 <rmt>. | |
| [[File:]] - | Return |
|
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BSTTRGPOL |
| Sets the burst trigger slope to; 0 = POS, 1 = NEG. | |
| [[File:]] - | Slope |
| Set the burst trigger slope (0 = POS, 1 = NEG). | |
| - VOID
|
Return |
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ARB3Ret |
| Returns the binary-data from an existing abbitrary wavefrom memory location. | |
| - UINT
|
Return |
|
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BSTPHASE |
| Sets the burst phase to <nrf> degrees. (Lower limit: -360 - Upper limit: 360) | |
| [[File:]] - | Degrees |
| Sets the burst phase in degrees (-360 - 360) | |
| - VOID
|
Return |
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IDNRet |
| Returns the instrument identification. The IDN is saved to the variable passed from the function 'ReturnIDN'. The return parameter is TRUE when the IDN is successfully returned. | |
| - STRING
|
ReturnIDN |
| - STRING
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Return |
|
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SWPTRGPER |
| Sets the sweep trigger period to <nrf> seconds | |
| [[File:]] - | Seconds |
| Set the sweep trigger period in seconds. | |
| - VOID
|
Return |
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PULSDLY |
| Sets the waveform delay to <nrf> sec | |
| [[File:]] - | Sec |
| - VOID
|
Return |
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Initialise |
| Opens the COM port ready for communications. | |
| - VOID
|
Return |
Property reference
|
Properties |
|
Winding Type |
| The polarity settings of the motor windings. Refer to the data-sheet for your chosen hardware to determine this value. | |
|
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Step Type |
| Trade accuracy against torque by changing the type of stepping. Refer to the data-sheet for your chosen hardware to determine which modes your device supports. | |
|
Steps Per Revolution |
| The number of steps it takes for the motor shaft to turn a full circle (360 degrees). Refer to the data-sheet for your chosen hardware to determine this value. | |
|
Object |
| Choose an object here to be linked to the motor. When the motor moves, this object will also be moved according to the settings made in the other properties below. To move multiple objects, first make them into a single group, then set the group as the target. | |
|
Gear Ratio |
| Set a non-zero value here to make the target object rotate whenever the motor spins. The target will revolve around the same axis as the motor's own 'Moving Part' (e.g. drive shaft). A value of 1.00 make the target spin at the same speed as the motor. Choose other values to set the ratio of a 'virtual gearbox' to change the speed of the target's movement. | |
|
|
X Linear Pitch |
| Set this to a non-zero value to move the target object linearly along its X-Axis whenever the motor spins. The value is the distance to move (world units) per complete rotation of the motor shaft - i.e. it simulates a typical linear drive that uses a lead-screw, with the property value equal to the screw pitch. | |
|
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Y Linear Pitch |
| Set this to a non-zero value to move the target object linearly along its Y-Axis whenever the motor spins. The value is the distance to move (world units) per complete rotation of the motor shaft - i.e. it simulates a typical linear drive that uses a lead-screw, with the property value equal to the screw pitch. | |
|
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Z Linear Pitch |
| Set this to a non-zero value to move the target object linearly along its Z-Axis whenever the motor spins. The value is the distance to move (world units) per complete rotation of the motor shaft - i.e. it simulates a typical linear drive that uses a lead-screw, with the property value equal to the screw pitch. | |
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Connections |
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Driver |
|
Coil 1 |
| Chip pin to which the first motor coil is connected. | |
|
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Coil 2 |
| Chip pin to which the second motor coil is connected. | |
|
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Coil 3 |
| Chip pin to which the third motor coil is connected. | |
|
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Coil 4 |
| Chip pin to which the fourth motor coil is connected. | |
|
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Simulations |
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Waveforms |
| Allows waveforms to be auto generated on the data recorder window. | |
|
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Coil Simulation |
| Turn coil simulation on and off. | |
|
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Show Arrow |
| Show an arrow connected to the motor shaft to make it easier to see the position. | |
