Jump to content

Component: DAC Dual (MCP49x2) (Analog Output)

From Flowcode Help
Revision as of 10:43, 17 November 2021 by Wiki bot (talk | contribs)
Author Matrix TSL
Version 1.0
Category Analog Output


DAC Dual component

Component to drive a dual digital to analogue converter (DAC) IC from Microchip via an SPI interface. Compatible with MCP4902 (8-Bit), MCP4912 (10-Bit) and MCP4922 (12-Bit) devices.

Detailed description

No detailed description exists yet for this component

Examples

No additional examples


Downloadable macro reference

SetOutput
Sets the output voltage of the DAC 8-Bit: Range 0-255 10-Bit: Range 0-1023 12-Bit: Range 0-4095 
- BYTE Channel
0=DAC Channel 0 , 1=DAC Channel 1 
- UINT DAC_Value
The value to output to the DAC 
- VOID Return


ControlPins
Allows Shutdown (SHDN) and Latch (LDAC) pins to be controlled directly if enabled. 
[[File:]] - Shutdown
0 = Shutdown Device, 1 = Device Active 
[[File:]] - Latch
0 = Data output driven from DAC register, 1 = Data output locked 
- VOID Return


Disable
Disables the DAC output. 
- BYTE Channel
0=DAC Channel 0 , 1=DAC Channel 1 
- VOID Return


Enable
Enables the DAC Output. 
- BYTE Channel
0=DAC Channel 0 , 1=DAC Channel 1 
- VOID Return


Initialise
Configures the SPI peripheral ready for communications and initialises the internal variables. DAC needs to be enabled before any output voltage can be generated. 
- VOID Return


Initialise
Configures the SPI peripheral ready for communications and initialises the internal variables. DAC needs to be enabled before any output voltage can be generated. 
- VOID Return


WriteLEDs
Allows control of all 8-LEDs on the front of the Formula Flowcode. 
- BYTE LED_Byte
 
- VOID Return


Initialise
Starts up the formula flowcode PWM for motor control and performs the wait for button press 
- VOID 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 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 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 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 Return


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 Return


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 Return


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 Return


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 Return


ARB4
Loads the binary-data to an existing arbitrary waveform memory location ARB4. 
- BYTE Waveform
 
- VOID Return


CLKSRRet
Returns the clock source <INT> or <EXT>. 
[[File:]] - Return


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 Return


MSTLOCK
Sends signal to SLAVE generator to get synchronised 
- VOID Return


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 Return


ARB3
Loads the binary-data to an existing arbitrary waveform memory location ARB3. 
- UINT Waveform
 
- VOID Return


WAVE
Sets the waveform type. 0 = SINE, 1 = SQUARE, 2 = RAMP, 3 = TRIANG, 4 = PULSE, 5 = NOISE, 6 = ARB 
- BYTE WaveType
0 = SINE, 1 = SQUARE, 2 = RAMP, 3 = TRIANG, 4 = PULSE, 5 = NOISE, 6 = ARB. 
- VOID Return


CALADJ
Adjust the selected calibration value by <nrf> (Lower limit: -100 - Upper limit: 100). 
[[File:]] - Calibrate
Adjust the selected calibration value (-100 - 100). 
- VOID Return


STBRet
Returns the value of the Status Byte Register in <nr1> numeric format. 
- BYTE Return


ARB2
Loads the binary-data to an existing arbitrary waveform memory location ARB2. 
- UINT Waveform
 
- VOID Return


EERRet
Query and clear execution error number register. 
- STRING Return


MODFMSRC
Sets FM waveform source to; 0 INT, 1 = EXT. 
[[File:]] - Source
Sets FM waveform source (0 = INT, 1 = EXT). 
- VOID Return


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


ESE
Sets the Standard Event Status Enable Register to the value of <nrf>. 
- BYTE Value
Value of register 0-255 
- VOID Return


ARB1
Loads the binary-data to an existing arbitrary waveform memory location ARB1. 
- UINT Waveform
16 Bit binary number for arbitrary waveform. 
- VOID Return


ARB4DEFRet
Returns user specified waveform name, waveform pint interpolation state and waveform length of ARB4. 
- STRING Return


CLS
Clears status byte register of the interface. 
- VOID Return


MSTRELOCK
Resynchronises the two generators in MASTER-SLAVE mode. 
- VOID Return


NOISLVL
Sets the output noise level to <nr1> %. (Lower limit: 0% - Upper limit: 50%) 
- BYTE Percent
Sets the output noise level in percent. (0 - 50) 
- VOID Return


LOCKMODE
Sets the synchronising mode to; 0 = MASTER, 1 = SLAVE, 2 = INDEP. 
- BYTE Mode
Sets the synchronising mode (0 = MASTER, 1 = SLAVE, 2 = INDEP). 
- VOID Return


ADDRESSRet
Returns the instruments address 
[[File:]] - Return


MODPMSRC
Sets PM waveform source to; 0 INT, 1 = EXT. 
[[File:]] - Source
Sets PM waveform source (0 = INT, 1 = EXT). 
- VOID Return


MODPWMSRC
Sets PWM waveform source to; 0 = INT, 1 = EXT. 
[[File:]] - Source
Sets PWM waveform source (0 = INT, 1 = EXT). 
- VOID Return


MOD
Sets modulation to; 0 = OFF, 1 = AM, 2 = FM, 3 = PM, 4 = FSK, 5 = PWM. 
- BYTE 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


LRNRet
Returns the complete setup of the instrument as a binary data block 
[[File:]] - Return


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


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 Return


PULSRANGE
Sets PWM waveform source to <1>, <2> or <3>; 1 = 1, 2 = 2, 3 = 3. 
- BYTE Range
Sets the pulse rise and fall range. (1, 2 or 3) 
- VOID Return


TSTRet
The generator has no self test capability and the response is always 0 <rmt>. 
[[File:]] - Return


BSTTRGPOL
Sets the burst trigger slope to; 0 = POS, 1 = NEG. 
[[File:]] - Slope
Set the burst trigger slope (0 = POS, 1 = NEG). 
- VOID Return


ARB3Ret
Returns the binary-data from an existing abbitrary wavefrom memory location. 
- UINT Return


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


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 Return


SWPTRGPER
Sets the sweep trigger period to <nrf> seconds 
[[File:]] - Seconds
Set the sweep trigger period in seconds. 
- VOID Return


PULSDLY
Sets the waveform delay to <nrf> sec 
[[File:]] - Sec
 
- VOID Return


Initialise
Opens the COM port ready for communications. 
- VOID Return



Property reference

Properties
DAC IC
Selects which DAC IC is connected and therefore the bit depth available. 
Gain Option
Selects the maximum reference value for the DAC 
Vref Pin Voltage
The reference voltage applied to the VREF pin. 
Vref Voltage
Reference Voltage, Used to calculate the Voltage resolution. 
Steps
Number of discrete output states available from the DAC. 
Control Bits
Number of digital control bits 
Resolution
Maximum output resolution based on number of control bits. 
Voltage Resolution
Specifies the Resolution per digital bit in terms of Voltage. 
Channel
SPI Channel selector 
Prescale
Prescale option selector 
MOSI
SPI Data Out Pin SDO - Also Known as Master Out Slave In (MOSI) when used in Master mode. 
MISO
SPI Data In Pin SDI - Also Known as Master In Slave Out (MISO) when used in Master mode. 
CLK
SPI Clock Pin CLK - The Clock signal is driven by the SPI master. 
CS / SS
Chip Select / Slave Select Pin Master Mode: General purpose output pin used to select the remote SPI device. Slave Mode: Hardware chip select pin input used to select the SPI device.  
Use SHDN Pin
Allows the SHDN pin to be driven from an output pin on the microcontroller. If not used then tie the SHDN pin to VCC to allow the DAC to function. 
Use LDAC Pin
Allows the LDAC pin to be driven from an output pin on the microcontroller. If not used then tie the LDAC pin to GND to allow the DAC to function. 
Connections
Simulations
Simulate Comms
 
DAC Output Scope Traces
Selects if the scope traces are automatically generated or not 
SPI Scope Traces
Selects if the scope traces are automatically generated or not 
SPI Console Data
Selects if the console data is automatically generated or not 
API