Difference between revisions of "Component: Accelerometer (EB068) (E-blocks 1)"

Accelerometer component

LIS3LV02DQ Accelerometer sensor with options for I2C or SPI communications. Useful for approximating Pitch and Roll or for detecting acceleration. Also available in the form of the EB068 Accelerometer E-block.

Component Source Code

Please click here to download the component source project: FC_Comp_Source_Accelerometer_EB068.fcfx

Please click here to view the component source code (Beta): FC_Comp_Source_Accelerometer_EB068.fcfx

Detailed description

No detailed description exists yet for this component

Examples

No additional examples

Macro reference

CollectXYZData

	CollectXYZData
Collect the data from the local accelerometer buffers. The Axis parameter specifies the Axis to be read. 0 / 'x' / 'X' - X axis 1 / 'y' / 'Y' - Y axis 2 / 'z' / 'Z' - Z axis
- BYTE	Axis
- INT	Return

Initialise

	Initialise
Sets up up the communication bus and initialises the accelerometer module. Returns 0 for success and > 0 for fail.
- BYTE	Return

SimReset1G

	SimReset1G
Resets the simulation to 0.0 on X and Y and 1.0 on Z as if the accelerometer was sitting completely horizontal.
- VOID	Return

SimSetXYZ

	SimSetXYZ
Allows the XYZ slider values to be set via the simulation
- INT	X
- INT	Y
- INT	Z
- VOID	Return

UpdateXYZData

	UpdateXYZData
Reads from the accelerometer and updates the local XYZ variables. Returns 1 for new data and 0 for no new data
- BYTE	Return

Write_Register

	Write_Register
Writes a data value to a specific register on the accelerometer
- BYTE	Reg
- BYTE	Data
- VOID	Return

Property reference

	Properties
	Bit Depth
The number of binary bits used to store the sensor's X,Y,Z readings.
	Bus Type
The interface used to talk to the accelerometer. I2C - Two Wire Interface SDA / SCL SPI - Four Wire Interface MISO / MOSI / SCK / CS
	Data Rate
Configures how often the sensor collects a new reading. More often = better instant reaction to new events Less often = more stable results
	Scale
The accelerometer readings are scaled based on the maximum amount of G force the sensor can represent. 6G = Bigger gravitational force 2G = Higher resolution
	Int Option
Sets if we use the interrupt pin to check if new data is available
	Power Option
Sets if the sensor is always powered or powered via a microcontroller output pin.
	Connections
	Interrupt Pin
Interrupt pin from the sensor, checked when performing an update to see if the sensor has new data available.
	Power Pin
Power pin if the sensor is powered from an I/O pin.
	SPI Connections
	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.
	Simulation
	Simulation Coms
Yes: Accelerometer data will come from the simulation component sliders. No: Accelerometer data will come from the CAL component - I2C or SPI - Injector etc