Mathematica - Industrial Dual Analog In Bricklet

This is the description of the Mathematica API bindings for the Industrial Dual Analog In Bricklet. General information and technical specifications for the Industrial Dual Analog In Bricklet are summarized in its hardware description.

An installation guide for the Mathematica API bindings is part of their general description.

Examples

The example code below is Public Domain (CC0 1.0).

Simple

Download (ExampleSimple.nb)

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Needs["NETLink`"]
LoadNETAssembly["Tinkerforge",NotebookDirectory[]<>"../../.."]

host="localhost"
port=4223
uid="XYZ"(*Change XYZ to the UID of your Industrial Dual Analog In Bricklet*)

(*Create IPConnection and device object*)
ipcon=NETNew["Tinkerforge.IPConnection"]
idai=NETNew["Tinkerforge.BrickletIndustrialDualAnalogIn",uid,ipcon]
ipcon@Connect[host,port]

(*Get current voltage from channel 1*)
Print["Voltage (Channel 1): "<>ToString[N[Quantity[idai@GetVoltage[1],"V/1000"]]]]

(*Clean up*)
ipcon@Disconnect[]
ReleaseNETObject[idai]
ReleaseNETObject[ipcon]

Callback

Download (ExampleCallback.nb)

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Needs["NETLink`"]
LoadNETAssembly["Tinkerforge",NotebookDirectory[]<>"../../.."]

host="localhost"
port=4223
uid="XYZ"(*Change XYZ to the UID of your Industrial Dual Analog In Bricklet*)

(*Create IPConnection and device object*)
ipcon=NETNew["Tinkerforge.IPConnection"]
idai=NETNew["Tinkerforge.BrickletIndustrialDualAnalogIn",uid,ipcon]
ipcon@Connect[host,port]

(*Callback function for voltage callback*)
VoltageCB[sender_,channel_,voltage_]:=
 Module[{},
  Print["Channel: "<>ToString[channel]];
  Print["Voltage: "<>ToString[N[Quantity[voltage,"V/1000"]]]]
 ]

AddEventHandler[idai@VoltageCallback,VoltageCB]

(*Set period for voltage (channel 1) callback to 1s (1000ms)*)
(*Note: The voltage (channel 1) callback is only called every second*)
(*if the voltage (channel 1) has changed since the last call!*)
idai@SetVoltageCallbackPeriod[1,1000]

Input["Click OK to exit"]

(*Clean up*)
ipcon@Disconnect[]
ReleaseNETObject[idai]
ReleaseNETObject[ipcon]

Threshold

Download (ExampleThreshold.nb)

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Needs["NETLink`"]
LoadNETAssembly["Tinkerforge",NotebookDirectory[]<>"../../.."]

host="localhost"
port=4223
uid="XYZ"(*Change XYZ to the UID of your Industrial Dual Analog In Bricklet*)

(*Create IPConnection and device object*)
ipcon=NETNew["Tinkerforge.IPConnection"]
idai=NETNew["Tinkerforge.BrickletIndustrialDualAnalogIn",uid,ipcon]
ipcon@Connect[host,port]

(*Get threshold callbacks with a debounce time of 10 seconds (10000ms)*)
idai@SetDebouncePeriod[10000]

(*Callback function for voltage reached callback*)
VoltageReachedCB[sender_,channel_,voltage_]:=
 Module[{},
  Print["Channel: "<>ToString[channel]];
  Print["Voltage: "<>ToString[N[Quantity[voltage,"V/1000"]]]]
 ]

AddEventHandler[idai@VoltageReachedCallback,VoltageReachedCB]

(*Configure threshold for voltage (channel 1) "greater than 10 V"*)
option=Tinkerforge`BrickletIndustrialDualAnalogIn`THRESHOLDUOPTIONUGREATER
idai@SetVoltageCallbackThreshold[1,option,10*1000,0]

Input["Click OK to exit"]

(*Clean up*)
ipcon@Disconnect[]
ReleaseNETObject[idai]
ReleaseNETObject[ipcon]

API

Generally, every function of the Mathematica bindings that returns a value can throw a Tinkerforge.TimeoutException. This exception gets thrown if the device did not respond. If a cable based connection is used, it is unlikely that this exception gets thrown (assuming nobody plugs the device out). However, if a wireless connection is used, timeouts will occur if the distance to the device gets too big.

Since .NET/Link does not support multiple return values directly, we use the out keyword to return multiple values from a function. For further information about the out keyword in .NET/Link see the corresponding Mathematica .NET/Link documentation.

The namespace for all Brick/Bricklet bindings and the IPConnection is Tinkerforge.*.

Basic Functions

BrickletIndustrialDualAnalogIn[uid, ipcon] → industrialDualAnalogIn
Parameters:
  • uid – Type: String
  • ipcon – Type: NETObject[IPConnection]
Returns:
  • industrialDualAnalogIn – Type: NETObject[BrickletIndustrialDualAnalogIn]

Creates an object with the unique device ID uid:

industrialDualAnalogIn=NETNew["Tinkerforge.BrickletIndustrialDualAnalogIn","YOUR_DEVICE_UID",ipcon]

This object can then be used after the IP Connection is connected.

The .NET runtime has built-in garbage collection that frees objects that are no longer in use by a program. But because Mathematica can not automatically tell when a Mathematica "program" doesn't use a .NET object anymore, this has to be done by the program. For this the ReleaseNETObject[] function is used in the examples.

For further information about object management in .NET/Link see the corresponding Mathematica .NET/Link documentation.

BrickletIndustrialDualAnalogIn@GetVoltage[channel] → voltage
Parameters:
  • channel – Type: Integer, Range: [0 to 1]
Returns:
  • voltage – Type: Integer, Unit: 1 mV, Range: [-35000 to 35000]

Returns the voltage for the given channel.

If you want to get the voltage periodically, it is recommended to use the VoltageCallback callback and set the period with SetVoltageCallbackPeriod[].

Advanced Functions

BrickletIndustrialDualAnalogIn@SetSampleRate[rate] → Null
Parameters:
  • rate – Type: Integer, Range: See constants, Default: 6

Sets the sample rate. The sample rate can be between 1 sample per second and 976 samples per second. Decreasing the sample rate will also decrease the noise on the data.

The following constants are available for this function:

For rate:

  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU976USPS = 0
  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU488USPS = 1
  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU244USPS = 2
  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU122USPS = 3
  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU61USPS = 4
  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU4USPS = 5
  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU2USPS = 6
  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU1USPS = 7
BrickletIndustrialDualAnalogIn@GetSampleRate[] → rate
Returns:
  • rate – Type: Integer, Range: See constants, Default: 6

Returns the sample rate as set by SetSampleRate[].

The following constants are available for this function:

For rate:

  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU976USPS = 0
  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU488USPS = 1
  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU244USPS = 2
  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU122USPS = 3
  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU61USPS = 4
  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU4USPS = 5
  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU2USPS = 6
  • BrickletIndustrialDualAnalogIn`SAMPLEURATEU1USPS = 7
BrickletIndustrialDualAnalogIn@SetCalibration[{offset1, offset2}, {gain1, gain2}] → Null
Parameters:
  • offseti – Type: Integer, Range: [-223 to 223 - 1]
  • gaini – Type: Integer, Range: [-223 to 223 - 1]

Sets offset and gain of MCP3911 internal calibration registers.

See MCP3911 datasheet 7.7 and 7.8. The Industrial Dual Analog In Bricklet is already factory calibrated by Tinkerforge. It should not be necessary for you to use this function

BrickletIndustrialDualAnalogIn@GetCalibration[out {offset1, offset2}, out {gain1, gain2}] → Null
Output Parameters:
  • offseti – Type: Integer, Range: [-223 to 223 - 1]
  • gaini – Type: Integer, Range: [-223 to 223 - 1]

Returns the calibration as set by SetCalibration[].

BrickletIndustrialDualAnalogIn@GetADCValues[] → {value1, value2}
Returns:
  • valuei – Type: Integer, Range: [-223 to 223 - 1]

Returns the ADC values as given by the MCP3911 IC. This function is needed for proper calibration, see SetCalibration[].

BrickletIndustrialDualAnalogIn@GetIdentity[out uid, out connectedUid, out position, out {hardwareVersion1, hardwareVersion2, hardwareVersion3}, out {firmwareVersion1, firmwareVersion2, firmwareVersion3}, out deviceIdentifier] → Null
Output Parameters:
  • uid – Type: String, Length: up to 8
  • connectedUid – Type: String, Length: up to 8
  • position – Type: Integer, Range: [ToCharacterCode["a"][[0]] to ToCharacterCode["h"][[0]], ToCharacterCode["z"][[0]]]
  • hardwareVersioni – Type: Integer
    • 1: major – Type: Integer, Range: [0 to 255]
    • 2: minor – Type: Integer, Range: [0 to 255]
    • 3: revision – Type: Integer, Range: [0 to 255]
  • firmwareVersioni – Type: Integer
    • 1: major – Type: Integer, Range: [0 to 255]
    • 2: minor – Type: Integer, Range: [0 to 255]
    • 3: revision – Type: Integer, Range: [0 to 255]
  • deviceIdentifier – Type: Integer, Range: [0 to 216 - 1]

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.

Callback Configuration Functions

BrickletIndustrialDualAnalogIn@SetVoltageCallbackPeriod[channel, period] → Null
Parameters:
  • channel – Type: Integer, Range: [0 to 1]
  • period – Type: Integer, Unit: 1 ms, Range: [0 to 232 - 1], Default: 0

Sets the period with which the VoltageCallback callback is triggered periodically for the given channel. A value of 0 turns the callback off.

The VoltageCallback callback is only triggered if the voltage has changed since the last triggering.

BrickletIndustrialDualAnalogIn@GetVoltageCallbackPeriod[channel] → period
Parameters:
  • channel – Type: Integer, Range: [0 to 1]
Returns:
  • period – Type: Integer, Unit: 1 ms, Range: [0 to 232 - 1], Default: 0

Returns the period as set by SetVoltageCallbackPeriod[].

BrickletIndustrialDualAnalogIn@SetVoltageCallbackThreshold[channel, option, min, max] → Null
Parameters:
  • channel – Type: Integer, Range: [0 to 1]
  • option – Type: Integer, Range: See constants, Default: ToCharacterCode["x"][[0]]
  • min – Type: Integer, Unit: 1 mV, Range: [-231 to 231 - 1], Default: 0
  • max – Type: Integer, Unit: 1 mV, Range: [-231 to 231 - 1], Default: 0

Sets the thresholds for the VoltageReachedCallback callback for the given channel.

The following options are possible:

Option Description
'x' Callback is turned off
'o' Callback is triggered when the voltage is outside the min and max values
'i' Callback is triggered when the voltage is inside the min and max values
'<' Callback is triggered when the voltage is smaller than the min value (max is ignored)
'>' Callback is triggered when the voltage is greater than the min value (max is ignored)

The following constants are available for this function:

For option:

  • BrickletIndustrialDualAnalogIn`THRESHOLDUOPTIONUOFF = ToCharacterCode["x"][[0]]
  • BrickletIndustrialDualAnalogIn`THRESHOLDUOPTIONUOUTSIDE = ToCharacterCode["o"][[0]]
  • BrickletIndustrialDualAnalogIn`THRESHOLDUOPTIONUINSIDE = ToCharacterCode["i"][[0]]
  • BrickletIndustrialDualAnalogIn`THRESHOLDUOPTIONUSMALLER = ToCharacterCode["<"][[0]]
  • BrickletIndustrialDualAnalogIn`THRESHOLDUOPTIONUGREATER = ToCharacterCode[">"][[0]]
BrickletIndustrialDualAnalogIn@GetVoltageCallbackThreshold[channel, out option, out min, out max] → Null
Parameters:
  • channel – Type: Integer, Range: [0 to 1]
Output Parameters:
  • option – Type: Integer, Range: See constants, Default: ToCharacterCode["x"][[0]]
  • min – Type: Integer, Unit: 1 mV, Range: [-231 to 231 - 1], Default: 0
  • max – Type: Integer, Unit: 1 mV, Range: [-231 to 231 - 1], Default: 0

Returns the threshold as set by SetVoltageCallbackThreshold[].

The following constants are available for this function:

For option:

  • BrickletIndustrialDualAnalogIn`THRESHOLDUOPTIONUOFF = ToCharacterCode["x"][[0]]
  • BrickletIndustrialDualAnalogIn`THRESHOLDUOPTIONUOUTSIDE = ToCharacterCode["o"][[0]]
  • BrickletIndustrialDualAnalogIn`THRESHOLDUOPTIONUINSIDE = ToCharacterCode["i"][[0]]
  • BrickletIndustrialDualAnalogIn`THRESHOLDUOPTIONUSMALLER = ToCharacterCode["<"][[0]]
  • BrickletIndustrialDualAnalogIn`THRESHOLDUOPTIONUGREATER = ToCharacterCode[">"][[0]]
BrickletIndustrialDualAnalogIn@SetDebouncePeriod[debounce] → Null
Parameters:
  • debounce – Type: Integer, Unit: 1 ms, Range: [0 to 232 - 1], Default: 100

Sets the period with which the threshold callback

is triggered, if the threshold

keeps being reached.

BrickletIndustrialDualAnalogIn@GetDebouncePeriod[] → debounce
Returns:
  • debounce – Type: Integer, Unit: 1 ms, Range: [0 to 232 - 1], Default: 100

Returns the debounce period as set by SetDebouncePeriod[].

Callbacks

Callbacks can be registered to receive time critical or recurring data from the device. The registration is done by assigning a function to a callback property of the device object:

MyCallback[sender_,value_]:=Print["Value: "<>ToString[value]]

AddEventHandler[industrialDualAnalogIn@ExampleCallback,MyCallback]

For further information about event handling using .NET/Link see the corresponding Mathematica .NET/Link documentation.

The available callback property and their 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.

event BrickletIndustrialDualAnalogIn@VoltageCallback[sender, channel, voltage]
Callback Parameters:
  • sender – Type: NETObject[BrickletIndustrialDualAnalogIn]
  • channel – Type: Integer, Range: [0 to 1]
  • voltage – Type: Integer, Unit: 1 mV, Range: [-35000 to 35000]

This callback is triggered periodically with the period that is set by SetVoltageCallbackPeriod[]. The parameter is the voltage of the channel.

The VoltageCallback callback is only triggered if the voltage has changed since the last triggering.

event BrickletIndustrialDualAnalogIn@VoltageReachedCallback[sender, channel, voltage]
Callback Parameters:
  • sender – Type: NETObject[BrickletIndustrialDualAnalogIn]
  • channel – Type: Integer, Range: [0 to 1]
  • voltage – Type: Integer, Unit: 1 mV, Range: [-35000 to 35000]

This callback is triggered when the threshold as set by SetVoltageCallbackThreshold[] is reached. The parameter is the voltage of the channel.

If the threshold keeps being reached, the callback is triggered periodically with the period as set by SetDebouncePeriod[].

Virtual Functions

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.

BrickletIndustrialDualAnalogIn@GetAPIVersion[] → {apiVersion1, apiVersion2, apiVersion3}
Output Parameters:
  • apiVersioni – Type: Integer
    • 1: major – Type: Integer, Range: [0 to 255]
    • 2: minor – Type: Integer, Range: [0 to 255]
    • 3: revision – Type: Integer, Range: [0 to 255]

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.

BrickletIndustrialDualAnalogIn@GetResponseExpected[functionId] → responseExpected
Parameters:
  • functionId – Type: Integer, Range: See constants
Returns:
  • responseExpected – Type: True/False

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 functionId:

  • BrickletIndustrialDualAnalogIn`FUNCTIONUSETUVOLTAGEUCALLBACKUPERIOD = 2
  • BrickletIndustrialDualAnalogIn`FUNCTIONUSETUVOLTAGEUCALLBACKUTHRESHOLD = 4
  • BrickletIndustrialDualAnalogIn`FUNCTIONUSETUDEBOUNCEUPERIOD = 6
  • BrickletIndustrialDualAnalogIn`FUNCTIONUSETUSAMPLEURATE = 8
  • BrickletIndustrialDualAnalogIn`FUNCTIONUSETUCALIBRATION = 10
BrickletIndustrialDualAnalogIn@SetResponseExpected[functionId, responseExpected] → Null
Parameters:
  • functionId – Type: Integer, Range: See constants
  • responseExpected – Type: True/False

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 functionId:

  • BrickletIndustrialDualAnalogIn`FUNCTIONUSETUVOLTAGEUCALLBACKUPERIOD = 2
  • BrickletIndustrialDualAnalogIn`FUNCTIONUSETUVOLTAGEUCALLBACKUTHRESHOLD = 4
  • BrickletIndustrialDualAnalogIn`FUNCTIONUSETUDEBOUNCEUPERIOD = 6
  • BrickletIndustrialDualAnalogIn`FUNCTIONUSETUSAMPLEURATE = 8
  • BrickletIndustrialDualAnalogIn`FUNCTIONUSETUCALIBRATION = 10
BrickletIndustrialDualAnalogIn@SetResponseExpectedAll[responseExpected] → Null
Parameters:
  • responseExpected – Type: True/False

Changes the response expected flag for all setter and callback configuration functions of this device at once.

Constants

BrickletIndustrialDualAnalogIn`DEVICEUIDENTIFIER

This constant is used to identify a Industrial Dual Analog In Bricklet.

The GetIdentity[] function and the IPConnection@EnumerateCallback callback of the IP Connection have a deviceIdentifier parameter to specify the Brick's or Bricklet's type.

BrickletIndustrialDualAnalogIn`DEVICEDISPLAYNAME

This constant represents the human readable name of a Industrial Dual Analog In Bricklet.