Difference between revisions of "Component: PWM 16CH 12Bit (PCA9685) (General Output)"

Author	Matrix TSL
Version	1.0
Category	General Output

PWM 16CH 12Bit (PCA9685) component

The PCA9685 is an I²C-bus controlled 16-channel LED controller optimized for Red/Green/Blue/Amber (RGBA) color backlighting or Servo motor applications. Each output has its own 12-bit resolution (4096 steps) fixed frequency individual PWM controller that operates at a programmable frequency from a typical of 24 Hz to 1526 Hz. All outputs are set to the same PWM frequency. Up to 64 devices can be chained together on a single I²C-bus to provide up to 1024 individual PWM outputs.

Detailed description

No detailed description exists yet for this component

Examples

No additional examples

Downloadable macro reference

	Reset
Sends a reset command to the PCA9685 chip over I2C
- VOID	Return

	SetPWMFrequency
Sets the PWM frequency for the entire chip, up to approx 1.6 KHz
[[File:]] -	Frequency
Floating point frequency that we will attempt to match
- VOID	Return

	SetOutputMode
Sets the output mode of the PCA9685 to either open drain or push pull. Warning: LEDs with integrated zener diodes should only be driven in open drain mode.
[[File:]] -	Mode
0=OpenDrain, 1=Push/Pull
- VOID	Return

	Sleep
Puts the module into Sleep mode
- VOID	Return

	SetExternalClock
Sets EXTCLK pin to use the external clock
- BYTE	Prescale
External Clock Prescaler - Range: 3-255
- VOID	Return

	SetAddress
Allows a different I2C address to be specified allowing one component to control multiple PCA9685 modules.
- BYTE	Address
Range: 0x40 - 0x7F
- VOID	Return

	SetClockFrequency
Sets the current clock frequency, used for things like calculating the PWM frequency and Microsecond duty.
- ULONG	Clock
- VOID	Return

	GetClockFrequency
Returns the current clock frequency
- ULONG	Return

	WriteMicroseconds
Sets the PWM output of one of the PCA9685 pins based on the input microseconds, output is not precise
- BYTE	Output
One of the PWM output pins - Range: 0 to 15
- UINT	Microseconds
The number of Microseconds to turn the PWM output ON
- VOID	Return

	SetPWM
Sets the PWM output of one of the PCA9685 pins
- BYTE	Output
One of the PWM output pins - Range: 0 to 15
- UINT	On
At what point in the 4096-part cycle to turn the PWM output ON
- UINT	Off
At what point in the 4096-part cycle to turn the PWM output OFF
- VOID	Return

	Initialise
Sets up the I2C ready for communications to begin
- VOID	Return

	WakeUp
Wakes the module from Sleep mode
- VOID	Return

	SetPin
Sets pin without having to deal with on/off tick placement and properly handles a zero value as completely off and 4095 as completely on.
- BYTE	Output
One of the PWM output pins - Range: 0 to 15
- UINT	Duty
The number of ticks out of 4096 to be active
[[File:]] -	Invert
0=Normal, 1=Inverted
- VOID	Return

	DrawRectangle2D
Draws a basic 2D rectangle onto the LEDs
- BYTE	X1
- BYTE	Y1
- BYTE	X2
- BYTE	Y2
- BYTE	DrawStyle
Sets the draw style - 0=Soild, 1=Edge, 2=Corners
- BYTE	R
- BYTE	G
- BYTE	B
- VOID	Return

	ShiftLEDs2D
Shifts the contents of the display by the number of vertices specified ***Please Note that Wrap mode is currently unavailable***
[[File:]] -	X
Number of pixels to shift the display -1 to 1 / 0 = No Shift
[[File:]] -	Y
Number of pixels to shift the display -1 to 1 / 0 = No Shift
- BYTE	DataMode
0=ResetToZero, 1=WrapAroundDisplay, 2=Smear
- VOID	Return

	GetLEDIndex3D
Gets the index of a single LED in RAM as a 3D array.
- UINT	X
LED Column to change the colour / Range: 0 to (LED Column - 1)
- UINT	Y
LED Row to change the colour / Range: 0 to (LED Row - 1)
- UINT	Z
LED Layer to change the colour / Range: 0 to (LED Layer - 1)
- UINT	Return

	DrawCuboid3D
Draws a basic 3D cuboid onto the LEDs
- BYTE	X1
Start X pixel coordinate
- BYTE	Y1
Start Y pixel coordinate
- BYTE	Z1
Start Z pixel coordinate
- BYTE	X2
End X pixel coordinate
- BYTE	Y2
End Y pixel coordinate
- BYTE	Z2
End Z pixel coordinate
- BYTE	DrawStyle
Sets the draw style - 0=Soild, 1=Edge, 2=Corners
- BYTE	R
Red Colour Channel
- BYTE	G
Green Colour Channel
- BYTE	B
White Colour Channel
- VOID	Return

	Initialise
Inisialises the RGB colour RAM to 0,0,0 = LED Off and clocks out the data to initialise all the LED ICs in the chain.
- VOID	Return

	ShiftLEDs3D
Shifts the contents of the display by the number of vertices specified ***Please Note that Wrap mode is currently unavailable***
[[File:]] -	X
Number of pixels to shift the display -1 to 1 / 0 = No Shift
[[File:]] -	Y
Number of pixels to shift the display -1 to 1 / 0 = No Shift
[[File:]] -	Z
Number of pixels to shift the display -1 to 1 / 0 = No Shift
- BYTE	DataMode
0=ResetToZero, 1=WrapAroundDisplay, 2=Smear
- VOID	Return

	Initialise
Sets up the data memory and draws the simulated LED cube on the panel.
- 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
	Address
Module I2C Address. This setting can be overridden using the SetAddress component macro.
	Output Mode
Sets the output mode of the PCA9685 to either open drain or push pull. Warning: LEDs with integrated zener diodes should only be driven in open drain mode. Can be overridden using the SetOutputMode component macro.
	Clock Type
Configures the input clock source to the module.
	Clock Frequency
Frequency of the module. Internal oscillator defaults to 250000000 or 25MHz but can actually be anywhere from 23 to 27MHz. External clock frequency can be specified here up to a max value of 50000000 or 50MHz. This setting can be overridden using the SetClockFrequency component macro.
	Prescaler
External Clock Prescaler Range: 3 to 255
	Target PWM Frequency
The ideal PWM frequency we would like to generate on the output pins. Servo motors require an output frequency around 50Hz. LEDs require a mugh higher output frequency to avoid visible flicker.
	Actual PWM Frequency
The calculated actual PWM frequency available using the Clock Frequency and Prescaler
	PWM Resolution
Number of microseconds the PWM output can resolve to
	Channel
Channel selection
	Baud Select
Baud rate option selector
	Baud Rate
Baud rate to be used
	SDA
Pin used for SDA (data signal)
	SCL
Pin used for SCL (clock signal)
	Stop Delay
On older microcontroller devices there is a potential for the I2C hardware channel to lock up if there is not a 10ms delay between an I2C stop event and the next I2C start event. Most modern microcontrollers will not have a problem so this property can be disabled to speed up the I2C communications.
	Scope Traces
Selects if the component pin connections are automatically generated on the data recorder window or not. Yes: Automatically add the component pins to a group on the data recorder which will reflect the sim data during simultion. No: Do not show the pin signals on the data recorder window.
	Console Data
Selects if the console data is automatically generated or not
	API
Specifies the API component on the panel to interact with to provide comms simulation.
	Connections
	Simulations
	Simulate Comms