This is the description of the JavaScript API bindings for the Silent Stepper Bricklet 2.0. General information and technical specifications for the Silent Stepper Bricklet 2.0 are summarized in its hardware description.
An installation guide for the JavaScript API bindings is part of their general description.
The example code below is Public Domain (CC0 1.0).
Download (ExampleConfiguration.js)
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 | var Tinkerforge = require('tinkerforge');
var HOST = 'localhost';
var PORT = 4223;
var UID = 'XYZ'; // Change XYZ to the UID of your Silent Stepper Bricklet 2.0
var ipcon = new Tinkerforge.IPConnection(); // Create IP connection
var ss = new Tinkerforge.BrickletSilentStepperV2(UID, ipcon); // Create device object
ipcon.connect(HOST, PORT,
function (error) {
console.log('Error: ' + error);
}
); // Connect to brickd
// Don't use device before ipcon is connected
ipcon.on(Tinkerforge.IPConnection.CALLBACK_CONNECTED,
function (connectReason) {
ss.setMotorCurrent(800); // 800 mA
ss.setStepConfiguration(Tinkerforge.BrickletSilentStepperV2.STEP_RESOLUTION_8,
true); // 1/8 steps (interpolated)
ss.setMaxVelocity(2000); // Velocity 2000 steps/s
// Slow acceleration (500 steps/s^2),
// Fast deacceleration (5000 steps/s^2)
ss.setSpeedRamping(500, 5000);
ss.setEnabled(true); // Enable motor power
ss.setSteps(60000); // Drive 60000 steps forward
}
);
console.log('Press key to exit');
process.stdin.on('data',
function (data) {
// Stop motor before disabling motor power
ss.stop(); // Request motor stop
ss.setSpeedRamping(500,
5000); // Fast deacceleration (5000 steps/s^2) for stopping
setTimeout(function () {
ss.setEnabled(false); // Disable motor power
ipcon.disconnect();
process.exit(0);
}, 400); // Wait for motor to actually stop: max velocity (2000 steps/s) / decceleration (5000 steps/s^2) = 0.4 s
}
);
|
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 | var Tinkerforge = require('tinkerforge');
var HOST = 'localhost';
var PORT = 4223;
var UID = 'XYZ'; // Change XYZ to the UID of your Silent Stepper Bricklet 2.0
var ipcon = new Tinkerforge.IPConnection(); // Create IP connection
var ss = new Tinkerforge.BrickletSilentStepperV2(UID, ipcon); // Create device object
ipcon.connect(HOST, PORT,
function (error) {
console.log('Error: ' + error);
}
); // Connect to brickd
// Don't use device before ipcon is connected
ipcon.on(Tinkerforge.IPConnection.CALLBACK_CONNECTED,
function (connectReason) {
ss.setStepConfiguration(Tinkerforge.BrickletSilentStepperV2.STEP_RESOLUTION_8,
true); // 1/8 steps (interpolated)
ss.setEnabled(true); // Enable motor power
ss.setSteps(1); // Drive one step forward to get things going
}
);
// Register position reached callback
ss.on(Tinkerforge.BrickletSilentStepperV2.CALLBACK_POSITION_REACHED,
// Use position reached callback to program random movement
function (position) {
if(Math.floor(Math.random()*2)) {
var steps = Math.floor((Math.random()*5000)+1000); // steps (forward);
console.log('Driving forward: '+steps+' steps');
}
else {
var steps = Math.floor((Math.random()*(-1000))+(-5000)); // steps (backward);
console.log('Driving backward: '+steps+' steps');
}
var vel = Math.floor((Math.random()*2000)+200); // steps/s
var acc = Math.floor((Math.random()*1000)+100); // steps/s^2
var dec = Math.floor((Math.random()*1000)+100); // steps/s^2
console.log('Configuration (vel, acc, dec): '+vel+', '+acc+', '+dec);
ss.setSpeedRamping(acc, dec);
ss.setMaxVelocity(vel);
ss.setSteps(steps);
}
);
console.log('Press key to exit');
process.stdin.on('data',
function (data) {
// Stop motor before disabling motor power
ss.stop(); // Request motor stop
ss.setSpeedRamping(500,
5000); // Fast deacceleration (5000 steps/s^2) for stopping
setTimeout(function () {
ss.setEnabled(false); // Disable motor power
ipcon.disconnect();
process.exit(0);
}, 400); // Wait for motor to actually stop: max velocity (2000 steps/s) / decceleration (5000 steps/s^2) = 0.4 s
}
);
|
Download (ExampleConfiguration.html), Test (ExampleConfiguration.html)
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 | <!DOCTYPE html>
<html>
<meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
<head>
<title>Tinkerforge | JavaScript Example</title>
</head>
<body>
<div style="text-align:center;">
<h1>Silent Stepper Bricklet 2.0 Configuration Example</h1>
<p>
<input value="localhost" id="host" type="text" size="20">:
<input value="4280" id="port" type="text" size="5">,
<input value="uid" id="uid" type="text" size="5">
<input value="Start Example" id="start" type="button" onclick="startExample();">
</p>
<p>
<textarea readonly id="text" cols="80" rows="24" style="resize:none;"
>Press "Start Example" to begin ...</textarea>
</p>
</div>
<script src="./Tinkerforge.js" type='text/javascript'></script>
<script type='text/javascript'>
var ipcon;
var textArea = document.getElementById("text");
function startExample() {
textArea.value = "";
var HOST = document.getElementById("host").value;
var PORT = parseInt(document.getElementById("port").value);
var UID = document.getElementById("uid").value;
if(ipcon !== undefined) {
ipcon.disconnect();
}
ipcon = new Tinkerforge.IPConnection(); // Create IP connection
var ss = new Tinkerforge.BrickletSilentStepperV2(UID, ipcon); // Create device object
ipcon.connect(HOST, PORT,
function(error) {
textArea.value += 'Error: ' + error + '\n';
}
); // Connect to brickd
// Don't use device before ipcon is connected
ipcon.on(Tinkerforge.IPConnection.CALLBACK_CONNECTED,
function (connectReason) {
ss.setMotorCurrent(800); // 800 mA
ss.setStepConfiguration(Tinkerforge.BrickletSilentStepperV2.STEP_RESOLUTION_8,
true); // 1/8 steps (interpolated)
ss.setMaxVelocity(2000); // Velocity 2000 steps/s
// Slow acceleration (500 steps/s^2),
// Fast deacceleration (5000 steps/s^2)
ss.setSpeedRamping(500, 5000);
ss.setEnabled(true); // Enable motor power
ss.setSteps(60000); // Drive 60000 steps forward
}
);
}
</script>
</body>
</html>
|
Download (ExampleCallback.html), Test (ExampleCallback.html)
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 | <!DOCTYPE html>
<html>
<meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
<head>
<title>Tinkerforge | JavaScript Example</title>
</head>
<body>
<div style="text-align:center;">
<h1>Silent Stepper Bricklet 2.0 Callback Example</h1>
<p>
<input value="localhost" id="host" type="text" size="20">:
<input value="4280" id="port" type="text" size="5">,
<input value="uid" id="uid" type="text" size="5">
<input value="Start Example" id="start" type="button" onclick="startExample();">
</p>
<p>
<textarea readonly id="text" cols="80" rows="24" style="resize:none;"
>Press "Start Example" to begin ...</textarea>
</p>
</div>
<script src="./Tinkerforge.js" type='text/javascript'></script>
<script type='text/javascript'>
var ipcon;
var textArea = document.getElementById("text");
function startExample() {
textArea.value = "";
var HOST = document.getElementById("host").value;
var PORT = parseInt(document.getElementById("port").value);
var UID = document.getElementById("uid").value;
if(ipcon !== undefined) {
ipcon.disconnect();
}
ipcon = new Tinkerforge.IPConnection(); // Create IP connection
var ss = new Tinkerforge.BrickletSilentStepperV2(UID, ipcon); // Create device object
ipcon.connect(HOST, PORT,
function(error) {
textArea.value += 'Error: ' + error + '\n';
}
); // Connect to brickd
// Don't use device before ipcon is connected
ipcon.on(Tinkerforge.IPConnection.CALLBACK_CONNECTED,
function (connectReason) {
ss.setStepConfiguration(Tinkerforge.BrickletSilentStepperV2.STEP_RESOLUTION_8,
true); // 1/8 steps (interpolated)
ss.setEnabled(true); // Enable motor power
ss.setSteps(1); // Drive one step forward to get things going
}
);
// Register position reached callback
ss.on(Tinkerforge.BrickletSilentStepperV2.CALLBACK_POSITION_REACHED,
// Use position reached callback to program random movement
function (position) {
if(Math.floor(Math.random()*2)) {
var steps = Math.floor((Math.random()*5000)+1000); // steps (forward);
textArea.value += 'Driving forward: '+steps+' steps\n';
}
else {
var steps = Math.floor((Math.random()*(-1000))+(-5000)); // steps (backward);
textArea.value += 'Driving backward: '+steps+' steps\n';
}
var vel = Math.floor((Math.random()*2000)+200); // steps/s
var acc = Math.floor((Math.random()*1000)+100); // steps/s^2
var dec = Math.floor((Math.random()*1000)+100); // steps/s^2
textArea.value += 'Configuration (vel, acc, dec): '+vel+', '+acc+', '+dec+'\n';
ss.setSpeedRamping(acc, dec);
ss.setMaxVelocity(vel);
ss.setSteps(steps);
textArea.scrollTop = textArea.scrollHeight;
}
);
}
</script>
</body>
</html>
|
Generally, every function of the JavaScript bindings can take two optional
parameters, returnCallback
and errorCallback
. These are two user
defined callback functions. The returnCallback
function is called with the
results as arguments, if the function returns its results asynchronously. The
errorCallback
is called with an error code in case of an error. The error
code can be one of the following values:
The namespace for the JavaScript bindings is Tinkerforge.*
.
BrickletSilentStepperV2
(uid, ipcon)¶Parameters: |
|
---|---|
Returns: |
|
Creates an object with the unique device ID uid
:
var silentStepperV2 = new BrickletSilentStepperV2("YOUR_DEVICE_UID", ipcon);
This object can then be used after the IP Connection is connected.
BrickletSilentStepperV2.
setMaxVelocity
(velocity[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the maximum velocity of the stepper motor.
This function does not start the motor, it merely sets the maximum
velocity the stepper motor is accelerated to. To get the motor running use
either setTargetPosition()
, setSteps()
, driveForward()
or
driveBackward()
.
BrickletSilentStepperV2.
getMaxVelocity
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the velocity as set by setMaxVelocity()
.
BrickletSilentStepperV2.
getCurrentVelocity
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the current velocity of the stepper motor.
BrickletSilentStepperV2.
setSpeedRamping
(acceleration, deacceleration[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the acceleration and deacceleration of the stepper motor. An acceleration of 1000 means, that every second the velocity is increased by 1000 steps/s.
For example: If the current velocity is 0 and you want to accelerate to a velocity of 8000 steps/s in 10 seconds, you should set an acceleration of 800 steps/s².
An acceleration/deacceleration of 0 means instantaneous acceleration/deacceleration (not recommended)
BrickletSilentStepperV2.
getSpeedRamping
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the acceleration and deacceleration as set by
setSpeedRamping()
.
BrickletSilentStepperV2.
fullBrake
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Executes an active full brake.
Warning
This function is for emergency purposes, where an immediate brake is necessary. Depending on the current velocity and the strength of the motor, a full brake can be quite violent.
Call stop()
if you just want to stop the motor.
BrickletSilentStepperV2.
setSteps
(steps[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the number of steps the stepper motor should run. Positive values
will drive the motor forward and negative values backward.
The velocity, acceleration and deacceleration as set by
setMaxVelocity()
and setSpeedRamping()
will be used.
BrickletSilentStepperV2.
getSteps
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the last steps as set by setSteps()
.
BrickletSilentStepperV2.
getRemainingSteps
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the remaining steps of the last call of setSteps()
.
For example, if setSteps()
is called with 2000 and
getRemainingSteps()
is called after the motor has run for 500 steps,
it will return 1500.
BrickletSilentStepperV2.
driveForward
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Drives the stepper motor forward until driveBackward()
or
stop()
is called. The velocity, acceleration and deacceleration as
set by setMaxVelocity()
and setSpeedRamping()
will be used.
BrickletSilentStepperV2.
driveBackward
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Drives the stepper motor backward until driveForward()
or
stop()
is triggered. The velocity, acceleration and deacceleration as
set by setMaxVelocity()
and setSpeedRamping()
will be used.
BrickletSilentStepperV2.
stop
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Stops the stepper motor with the deacceleration as set by
setSpeedRamping()
.
BrickletSilentStepperV2.
setMotorCurrent
(current[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the current with which the motor will be driven.
Warning
Do not set this value above the specifications of your stepper motor. Otherwise it may damage your motor.
BrickletSilentStepperV2.
getMotorCurrent
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the current as set by setMotorCurrent()
.
BrickletSilentStepperV2.
setEnabled
(enabled[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Enables/Disables the driver chip. The driver parameters can be configured (maximum velocity, acceleration, etc) before it is enabled.
Warning
Disabling the driver chip while the motor is still turning can damage the
driver chip. The motor should be stopped calling stop()
function
before disabling the motor power. The stop()
function will not
wait until the motor is actually stopped. You have to explicitly wait for the
appropriate time after calling the stop()
function before calling
the setEnabled()
with false function.
BrickletSilentStepperV2.
getEnabled
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns true if the stepper driver is enabled, false otherwise.
BrickletSilentStepperV2.
setBasicConfiguration
(standstillCurrent, motorRunCurrent, standstillDelayTime, powerDownTime, stealthThreshold, coolstepThreshold, classicThreshold, highVelocityChopperMode[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the basic configuration parameters for the different modes (Stealth, Coolstep, Classic).
setMotorCurrent()
).setMotorCurrent()
).If you want to use all three thresholds make sure that Stealth Threshold < Coolstep Threshold < Classic Threshold.
BrickletSilentStepperV2.
getBasicConfiguration
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the configuration as set by setBasicConfiguration()
.
BrickletSilentStepperV2.
setGPIOConfiguration
(channel, debounce, stopDeceleration[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the GPIO configuration for the given channel.
You can configure a debounce and the deceleration that is used if the action is
configured as normal stop
. See setGPIOAction()
.
BrickletSilentStepperV2.
getGPIOConfiguration
(channel[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Returns the GPIO configuration for a channel as set by setGPIOConfiguration()
.
BrickletSilentStepperV2.
setGPIOAction
(channel, action[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the GPIO action for the given channel.
The action can be a normal stop, a full brake or a callback. Each for a rising edge or falling edge. The actions are a bitmask they can be used at the same time. You can for example trigger a full brake and a callback at the same time or for rising and falling edge.
The deceleration speed for the normal stop can be configured with
setGPIOConfiguration()
.
The following constants are available for this function:
For action:
BrickletSilentStepperV2.
getGPIOAction
(channel[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Returns the GPIO action for a channel as set by setGPIOAction()
.
The following constants are available for this function:
For action:
BrickletSilentStepperV2.
getGPIOState
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the GPIO state for both channels. True if the state is high
and
false if the state is low
.
BrickletSilentStepperV2.
setCurrentPosition
(position[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the current steps of the internal step counter. This can be used to set the current position to 0 when some kind of starting position is reached (e.g. when a CNC machine reaches a corner).
BrickletSilentStepperV2.
getCurrentPosition
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the current position of the stepper motor in steps. On startup
the position is 0. The steps are counted with all possible driving
functions (setTargetPosition()
, setSteps()
, driveForward()
or
driveBackward()
). It also is possible to reset the steps to 0 or
set them to any other desired value with setCurrentPosition()
.
BrickletSilentStepperV2.
setTargetPosition
(position[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the target position of the stepper motor in steps. For example,
if the current position of the motor is 500 and setTargetPosition()
is
called with 1000, the stepper motor will drive 500 steps forward. It will
use the velocity, acceleration and deacceleration as set by
setMaxVelocity()
and setSpeedRamping()
.
A call of setTargetPosition()
with the parameter x is equivalent to
a call of setSteps()
with the parameter
(x - getCurrentPosition()
).
BrickletSilentStepperV2.
getTargetPosition
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the last target position as set by setTargetPosition()
.
BrickletSilentStepperV2.
setStepConfiguration
(stepResolution, interpolation[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the step resolution from full-step up to 1/256-step.
If interpolation is turned on, the Silent Stepper Bricklet 2.0 will always interpolate your step inputs as 1/256-step. If you use full-step mode with interpolation, each step will generate 256 1/256 steps.
For maximum torque use full-step without interpolation. For maximum resolution use 1/256-step. Turn interpolation on to make the Stepper driving less noisy.
If you often change the speed with high acceleration you should turn the interpolation off.
The following constants are available for this function:
For step_resolution:
BrickletSilentStepperV2.
getStepConfiguration
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the step mode as set by setStepConfiguration()
.
The following constants are available for this function:
For step_resolution:
BrickletSilentStepperV2.
getInputVoltage
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the external input voltage. The external input voltage is given via the black power input connector on the Silent Stepper Bricklet 2.0.
If there is an external input voltage and a stack input voltage, the motor will be driven by the external input voltage. If there is only a stack voltage present, the motor will be driven by this voltage.
Warning
This means, if you have a high stack voltage and a low external voltage, the motor will be driven with the low external voltage. If you then remove the external connection, it will immediately be driven by the high stack voltage
BrickletSilentStepperV2.
setSpreadcycleConfiguration
(slowDecayDuration, enableRandomSlowDecay, fastDecayDuration, hysteresisStartValue, hysteresisEndValue, sineWaveOffset, chopperMode, comparatorBlankTime, fastDecayWithoutComparator[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Note: If you don't know what any of this means you can very likely keep all of the values as default!
Sets the Spreadcycle configuration parameters. Spreadcycle is a chopper algorithm which actively controls the motor current flow. More information can be found in the TMC2130 datasheet on page 47 (7 spreadCycle and Classic Chopper).
Slow Decay Duration: Controls duration of off time setting of slow decay phase. 0 = driver disabled, all bridges off. Use 1 only with Comparator Blank time >= 2.
Enable Random Slow Decay: Set to false to fix chopper off time as set by Slow Decay Duration. If you set it to true, Decay Duration is randomly modulated.
Fast Decay Duration: Sets the fast decay duration. This parameters is only used if the Chopper Mode is set to Fast Decay.
Hysteresis Start Value: Sets the hysteresis start value. This parameter is only used if the Chopper Mode is set to Spread Cycle.
Hysteresis End Value: Sets the hysteresis end value. This parameter is only used if the Chopper Mode is set to Spread Cycle.
Sine Wave Offset: Sets the sine wave offset. This parameters is only used if the Chopper Mode is set to Fast Decay. 1/512 of the value becomes added to the absolute value of the sine wave.
Chopper Mode: 0 = Spread Cycle, 1 = Fast Decay.
Comparator Blank Time: Sets the blank time of the comparator. Available values are
A value of 1 or 2 is recommended for most applications.
Fast Decay Without Comparator: If set to true the current comparator usage for termination of the fast decay cycle is disabled.
The following constants are available for this function:
For chopper_mode:
BrickletSilentStepperV2.
getSpreadcycleConfiguration
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the configuration as set by setBasicConfiguration()
.
The following constants are available for this function:
For chopper_mode:
BrickletSilentStepperV2.
setStealthConfiguration
(enableStealth, amplitude, gradient, enableAutoscale, forceSymmetric, freewheelMode[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Note: If you don't know what any of this means you can very likely keep all of the values as default!
Sets the configuration relevant for Stealth mode.
setBasicConfiguration()
.setBasicConfiguration()
) is set to 0.The following constants are available for this function:
For freewheel_mode:
BrickletSilentStepperV2.
getStealthConfiguration
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the configuration as set by setStealthConfiguration()
.
The following constants are available for this function:
For freewheel_mode:
BrickletSilentStepperV2.
setCoolstepConfiguration
(minimumStallguardValue, maximumStallguardValue, currentUpStepWidth, currentDownStepWidth, minimumCurrent, stallguardThresholdValue, stallguardMode[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Note: If you don't know what any of this means you can very likely keep all of the values as default!
Sets the configuration relevant for Coolstep.
getDriverStatus()
).
A lower value gives a higher sensitivity. You have to find a suitable value for your
motor by trial and error, 0 works for most motors.The following constants are available for this function:
For current_up_step_width:
For current_down_step_width:
For minimum_current:
For stallguard_mode:
BrickletSilentStepperV2.
getCoolstepConfiguration
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the configuration as set by setCoolstepConfiguration()
.
The following constants are available for this function:
For current_up_step_width:
For current_down_step_width:
For minimum_current:
For stallguard_mode:
BrickletSilentStepperV2.
setMiscConfiguration
(disableShortToGroundProtection, synchronizePhaseFrequency[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Note: If you don't know what any of this means you can very likely keep all of the values as default!
Sets miscellaneous configuration parameters.
BrickletSilentStepperV2.
getMiscConfiguration
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the configuration as set by setMiscConfiguration()
.
BrickletSilentStepperV2.
setErrorLEDConfig
(config[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Configures the error LED to be either turned off, turned on, blink in heartbeat mode or show an error.
If the LED is configured to show errors it has three different states:
The following constants are available for this function:
For config:
BrickletSilentStepperV2.
getErrorLEDConfig
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the LED configuration as set by setErrorLEDConfig()
The following constants are available for this function:
For config:
BrickletSilentStepperV2.
getDriverStatus
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the current driver status.
Motor Run Current
as set by setBasicConfiguration()
. Example: If a Motor Run Current
of 1000mA was set and the returned value is 15, the Actual Motor Current
is 16/32*1000mA = 500mA.setStealthConfiguration()
).The following constants are available for this function:
For open_load:
For short_to_ground:
For over_temperature:
BrickletSilentStepperV2.
setTimeBase
(timeBase[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the time base of the velocity and the acceleration of the Silent Stepper Bricklet 2.0.
For example, if you want to make one step every 1.5 seconds, you can set the time base to 15 and the velocity to 10. Now the velocity is 10steps/15s = 1steps/1.5s.
BrickletSilentStepperV2.
getTimeBase
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the time base as set by setTimeBase()
.
BrickletSilentStepperV2.
getAllData
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the following parameters: The current velocity, the current position, the remaining steps, the stack voltage, the external voltage and the current consumption of the stepper motor.
The current consumption is calculated by multiplying the Actual Motor Current
value (see setBasicConfiguration()
) with the Motor Run Current
(see getDriverStatus()
). This is an internal calculation of the
driver, not an independent external measurement.
The current consumption calculation was broken up to firmware 2.0.1, it is fixed since firmware 2.0.2.
There is also a callback for this function, see CALLBACK_ALL_DATA
callback.
BrickletSilentStepperV2.
getSPITFPErrorCount
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the error count for the communication between Brick and Bricklet.
The errors are divided into
The errors counts are for errors that occur on the Bricklet side. All Bricks have a similar function that returns the errors on the Brick side.
BrickletSilentStepperV2.
setStatusLEDConfig
(config[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the status LED configuration. By default the LED shows communication traffic between Brick and Bricklet, it flickers once for every 10 received data packets.
You can also turn the LED permanently on/off or show a heartbeat.
If the Bricklet is in bootloader mode, the LED is will show heartbeat by default.
The following constants are available for this function:
For config:
BrickletSilentStepperV2.
getStatusLEDConfig
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the configuration as set by setStatusLEDConfig()
The following constants are available for this function:
For config:
BrickletSilentStepperV2.
getChipTemperature
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the temperature as measured inside the microcontroller. The value returned is not the ambient temperature!
The temperature is only proportional to the real temperature and it has bad accuracy. Practically it is only useful as an indicator for temperature changes.
BrickletSilentStepperV2.
reset
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Calling this function will reset the Bricklet. All configurations will be lost.
After a reset you have to create new device objects, calling functions on the existing ones will result in undefined behavior!
BrickletSilentStepperV2.
getIdentity
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the UID, the UID where the Bricklet is connected to, the position, the hardware and firmware version as well as the device identifier.
The position can be 'a', 'b', 'c', 'd', 'e', 'f', 'g' or 'h' (Bricklet Port). A Bricklet connected to an Isolator Bricklet is always at position 'z'.
The device identifier numbers can be found here. There is also a constant for the device identifier of this Bricklet.
BrickletSilentStepperV2.
on
(callback_id, function[, errorCallback])¶Parameters: |
|
---|---|
Returns: |
|
Registers the given function
with the given callback_id
.
The available callback IDs with corresponding function signatures are listed below.
BrickletSilentStepperV2.
setMinimumVoltage
(voltage[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the minimum voltage, below which the CALLBACK_UNDER_VOLTAGE
callback
is triggered. The minimum possible value that works with the Silent Stepper
Bricklet 2.0 is 8V.
You can use this function to detect the discharge of a battery that is used
to drive the stepper motor. If you have a fixed power supply, you likely do
not need this functionality.
BrickletSilentStepperV2.
getMinimumVoltage
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the minimum voltage as set by setMinimumVoltage()
.
BrickletSilentStepperV2.
setAllCallbackConfiguration
(period[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the period with which the CALLBACK_ALL_DATA
callback is triggered
periodically. A value of 0 turns the callback off.
BrickletSilentStepperV2.
getAllDataCallbackConfiguraton
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the period as set by setAllCallbackConfiguration()
.
Callbacks can be registered to receive
time critical or recurring data from the device. The registration is done
with the on()
function of
the device object. The first parameter is the callback ID and the second
parameter the callback function:
silentStepperV2.on(BrickletSilentStepperV2.CALLBACK_EXAMPLE,
function (param) {
console.log(param);
}
);
The available constants with inherent number and type of parameters are described below.
Note
Using callbacks for recurring events is always preferred compared to using getters. It will use less USB bandwidth and the latency will be a lot better, since there is no round trip time.
BrickletSilentStepperV2.
CALLBACK_UNDER_VOLTAGE
¶Callback Parameters: |
|
---|
This callback is triggered when the input voltage drops below the value set by
setMinimumVoltage()
. The parameter is the current voltage.
BrickletSilentStepperV2.
CALLBACK_POSITION_REACHED
¶Callback Parameters: |
|
---|
This callback is triggered when a position set by setSteps()
or
setTargetPosition()
is reached.
Note
Since we can't get any feedback from the stepper motor, this only works if the
acceleration (see setSpeedRamping()
) is set smaller or equal to the
maximum acceleration of the motor. Otherwise the motor will lag behind the
control value and the callback will be triggered too early.
BrickletSilentStepperV2.
CALLBACK_ALL_DATA
¶Callback Parameters: |
|
---|
This callback is triggered periodically with the period that is set by
setAllCallbackConfiguration()
. The parameters are: the current velocity,
the current position, the remaining steps, the stack voltage, the external
voltage and the current consumption of the stepper motor.
BrickletSilentStepperV2.
CALLBACK_NEW_STATE
¶Callback Parameters: |
|
---|
This callback is triggered whenever the Silent Stepper Bricklet 2.0 enters a new state. It returns the new state as well as the previous state.
The following constants are available for this function:
For state_new:
For state_previous:
BrickletSilentStepperV2.
CALLBACK_GPIO_STATE
¶Callback Parameters: |
|
---|
This callback is triggered by GPIO changes if it is activated through setGPIOAction()
.
Virtual functions don't communicate with the device itself, but operate only on the API bindings device object. They can be called without the corresponding IP Connection object being connected.
BrickletSilentStepperV2.
getAPIVersion
()¶Returns: |
|
---|
Returns the version of the API definition implemented by this API bindings. This is neither the release version of this API bindings nor does it tell you anything about the represented Brick or Bricklet.
BrickletSilentStepperV2.
getResponseExpected
(functionId[, errorCallback])¶Parameters: |
|
---|---|
Returns: |
|
Returns the response expected flag for the function specified by the function ID parameter. It is true if the function is expected to send a response, false otherwise.
For getter functions this is enabled by default and cannot be disabled,
because those functions will always send a response. For callback configuration
functions it is enabled by default too, but can be disabled by
setResponseExpected()
. For setter functions it is disabled by default
and can be enabled.
Enabling the response expected flag for a setter function allows to detect timeouts and other error conditions calls of this setter as well. The device will then send a response for this purpose. If this flag is disabled for a setter function then no response is sent and errors are silently ignored, because they cannot be detected.
The following constants are available for this function:
For function_id:
BrickletSilentStepperV2.
setResponseExpected
(functionId, responseExpected[, errorCallback])¶Parameters: |
|
---|---|
Returns: |
|
Changes the response expected flag of the function specified by the function ID parameter. This flag can only be changed for setter (default value: false) and callback configuration functions (default value: true). For getter functions it is always enabled.
Enabling the response expected flag for a setter function allows to detect timeouts and other error conditions calls of this setter as well. The device will then send a response for this purpose. If this flag is disabled for a setter function then no response is sent and errors are silently ignored, because they cannot be detected.
The following constants are available for this function:
For function_id:
BrickletSilentStepperV2.
setResponseExpectedAll
(responseExpected)¶Parameters: |
|
---|---|
Returns: |
|
Changes the response expected flag for all setter and callback configuration functions of this device at once.
Internal functions are used for maintenance tasks such as flashing a new firmware of changing the UID of a Bricklet. These task should be performed using Brick Viewer instead of using the internal functions directly.
BrickletSilentStepperV2.
setBootloaderMode
(mode[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the bootloader mode and returns the status after the requested mode change was instigated.
You can change from bootloader mode to firmware mode and vice versa. A change from bootloader mode to firmware mode will only take place if the entry function, device identifier and CRC are present and correct.
This function is used by Brick Viewer during flashing. It should not be necessary to call it in a normal user program.
The following constants are available for this function:
For mode:
For status:
BrickletSilentStepperV2.
getBootloaderMode
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the current bootloader mode, see setBootloaderMode()
.
The following constants are available for this function:
For mode:
BrickletSilentStepperV2.
setWriteFirmwarePointer
(pointer[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Sets the firmware pointer for writeFirmware()
. The pointer has
to be increased by chunks of size 64. The data is written to flash
every 4 chunks (which equals to one page of size 256).
This function is used by Brick Viewer during flashing. It should not be necessary to call it in a normal user program.
BrickletSilentStepperV2.
writeFirmware
(data[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Writes 64 Bytes of firmware at the position as written by
setWriteFirmwarePointer()
before. The firmware is written
to flash every 4 chunks.
You can only write firmware in bootloader mode.
This function is used by Brick Viewer during flashing. It should not be necessary to call it in a normal user program.
BrickletSilentStepperV2.
writeUID
(uid[, returnCallback][, errorCallback])¶Parameters: |
|
---|---|
Callback Parameters: |
|
Returns: |
|
Writes a new UID into flash. If you want to set a new UID you have to decode the Base58 encoded UID string into an integer first.
We recommend that you use Brick Viewer to change the UID.
BrickletSilentStepperV2.
readUID
([returnCallback][, errorCallback])¶Callback Parameters: |
|
---|---|
Returns: |
|
Returns the current UID as an integer. Encode as Base58 to get the usual string version.
BrickletSilentStepperV2.
DEVICE_IDENTIFIER
¶This constant is used to identify a Silent Stepper Bricklet 2.0.
The getIdentity()
function and the
IPConnection.CALLBACK_ENUMERATE
callback of the IP Connection have a device_identifier
parameter to specify
the Brick's or Bricklet's type.
BrickletSilentStepperV2.
DEVICE_DISPLAY_NAME
¶This constant represents the human readable name of a Silent Stepper Bricklet 2.0.