ADXL345 - Republished Library, to be refined for use with t…

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Republished Library, to be refined for use with the SparkFun 9DOF in HARP project.

ADXL345.cpp@3:7b83694c7292, 2012-09-13 (annotated)

Committer:: gltest26
Date:: Thu Sep 13 11:43:11 2012 +0000
Revision:: 3:7b83694c7292
Parent:: 2:e64d8b9096cd
Child:: 4:8046894b947e

Doxygen comment fix and introduction of wordExtend() function for protable code.

Who changed what in which revision?

User	Revision	Line number	New contents of line
Digixx	0:1e4aa22fc1a1	1	/**
gltest26	3:7b83694c7292	2	* @file ADXL345.cpp
Digixx	0:1e4aa22fc1a1	3	* @author Peter Swanson
Digixx	0:1e4aa22fc1a1	4	* A personal note from me: Jesus Christ has changed my life so much it blows my mind. I say this because
Digixx	0:1e4aa22fc1a1	5	* today, religion is thought of as something that you do or believe and has about as
Digixx	0:1e4aa22fc1a1	6	* little impact on a person as their political stance. But for me, God gives me daily
Digixx	0:1e4aa22fc1a1	7	* strength and has filled my life with the satisfaction that I could never find in any
Digixx	0:1e4aa22fc1a1	8	* of the other things that I once looked for it in.
Digixx	0:1e4aa22fc1a1	9	* If your interested, heres verse that changed my life:
Digixx	0:1e4aa22fc1a1	10	* Rom 8:1-3: "Therefore, there is now no condemnation for those who are in Christ Jesus,
Digixx	0:1e4aa22fc1a1	11	* because through Christ Jesus, the law of the Spirit who gives life has set
Digixx	0:1e4aa22fc1a1	12	* me free from the law of sin (which brings...) and death. For what the law
Digixx	0:1e4aa22fc1a1	13	* was powerless to do in that it was weakened by the flesh, God did by sending
Digixx	0:1e4aa22fc1a1	14	* His own Son in the likeness of sinful flesh to be a sin offering. And so He
Digixx	0:1e4aa22fc1a1	15	* condemned sin in the flesh in order that the righteous requirements of the
Digixx	0:1e4aa22fc1a1	16	* (God's) law might be fully met in us, who live not according to the flesh
Digixx	0:1e4aa22fc1a1	17	* but according to the Spirit."
Digixx	0:1e4aa22fc1a1	18	*
Digixx	0:1e4aa22fc1a1	19	* A special thanks to Ewout van Bekkum for all his patient help in developing this library!
Digixx	0:1e4aa22fc1a1	20	*
Digixx	0:1e4aa22fc1a1	21	* @section LICENSE
Digixx	0:1e4aa22fc1a1	22	*
Digixx	0:1e4aa22fc1a1	23	* Permission is hereby granted, free of charge, to any person obtaining a copy
Digixx	0:1e4aa22fc1a1	24	* of this software and associated documentation files (the "Software"), to deal
Digixx	0:1e4aa22fc1a1	25	* in the Software without restriction, including without limitation the rights
Digixx	0:1e4aa22fc1a1	26	* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
Digixx	0:1e4aa22fc1a1	27	* copies of the Software, and to permit persons to whom the Software is
Digixx	0:1e4aa22fc1a1	28	* furnished to do so, subject to the following conditions:
Digixx	0:1e4aa22fc1a1	29	*
Digixx	0:1e4aa22fc1a1	30	* The above copyright notice and this permission notice shall be included in
Digixx	0:1e4aa22fc1a1	31	* all copies or substantial portions of the Software.
Digixx	0:1e4aa22fc1a1	32	*
Digixx	0:1e4aa22fc1a1	33	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
Digixx	0:1e4aa22fc1a1	34	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
Digixx	0:1e4aa22fc1a1	35	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
Digixx	0:1e4aa22fc1a1	36	* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
Digixx	0:1e4aa22fc1a1	37	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
Digixx	0:1e4aa22fc1a1	38	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
Digixx	0:1e4aa22fc1a1	39	* THE SOFTWARE.
Digixx	0:1e4aa22fc1a1	40	*
Digixx	0:1e4aa22fc1a1	41	* @section DESCRIPTION
Digixx	0:1e4aa22fc1a1	42	*
Digixx	0:1e4aa22fc1a1	43	* ADXL345, triple axis, I2C interface, accelerometer.
Digixx	0:1e4aa22fc1a1	44	*
Digixx	0:1e4aa22fc1a1	45	* Datasheet:
Digixx	0:1e4aa22fc1a1	46	*
Digixx	0:1e4aa22fc1a1	47	* http://www.analog.com/static/imported-files/data_sheets/ADXL345.pdf
Digixx	0:1e4aa22fc1a1	48	*/
Digixx	0:1e4aa22fc1a1	49
gltest26	3:7b83694c7292	50	/*
Digixx	0:1e4aa22fc1a1	51	* Includes
Digixx	0:1e4aa22fc1a1	52	*/
Digixx	0:1e4aa22fc1a1	53	#include "ADXL345.h"
Digixx	0:1e4aa22fc1a1	54
Digixx	0:1e4aa22fc1a1	55	//#include "mbed.h"
Digixx	0:1e4aa22fc1a1	56
Digixx	0:1e4aa22fc1a1	57	ADXL345::ADXL345(PinName sda, PinName scl) : i2c_(sda, scl) {
Digixx	0:1e4aa22fc1a1	58
Digixx	0:1e4aa22fc1a1	59	//400kHz, allowing us to use the fastest data rates.
Digixx	0:1e4aa22fc1a1	60	//there are other chips on board, sorry
Digixx	1:45faba962a46	61	i2c_.frequency(100000);
Digixx	0:1e4aa22fc1a1	62	// initialize the BW data rate
Digixx	0:1e4aa22fc1a1	63	char tx[2];
Digixx	0:1e4aa22fc1a1	64	tx[0] = ADXL345_BW_RATE_REG;
Digixx	0:1e4aa22fc1a1	65	tx[1] = ADXL345_1600HZ; //value greater than or equal to 0x0A is written into the rate bits (Bit D3 through Bit D0) in the BW_RATE register
Digixx	0:1e4aa22fc1a1	66	i2c_.write( ADXL345_WRITE , tx, 2);
Digixx	0:1e4aa22fc1a1	67
Digixx	0:1e4aa22fc1a1	68	//Data format (for +-16g) - This is done by setting Bit D3 of the DATA_FORMAT register (Address 0x31) and writing a value of 0x03 to the range bits (Bit D1 and Bit D0) of the DATA_FORMAT register (Address 0x31).
Digixx	0:1e4aa22fc1a1	69
Digixx	0:1e4aa22fc1a1	70	char rx[2];
Digixx	0:1e4aa22fc1a1	71	rx[0] = ADXL345_DATA_FORMAT_REG;
Digixx	0:1e4aa22fc1a1	72	rx[1] = 0x0B;
Digixx	0:1e4aa22fc1a1	73	// full res and +_16g
Digixx	0:1e4aa22fc1a1	74	i2c_.write( ADXL345_WRITE , rx, 2);
Digixx	0:1e4aa22fc1a1	75
Digixx	0:1e4aa22fc1a1	76	// Set Offset - programmed into the OFSX, OFSY, and OFXZ registers, respectively, as 0xFD, 0x03 and 0xFE.
Digixx	0:1e4aa22fc1a1	77	char x[2];
Digixx	0:1e4aa22fc1a1	78	x[0] = ADXL345_OFSX_REG ;
Digixx	0:1e4aa22fc1a1	79	x[1] = 0xFD;
Digixx	0:1e4aa22fc1a1	80	i2c_.write( ADXL345_WRITE , x, 2);
Digixx	0:1e4aa22fc1a1	81	char y[2];
Digixx	0:1e4aa22fc1a1	82	y[0] = ADXL345_OFSY_REG ;
Digixx	0:1e4aa22fc1a1	83	y[1] = 0x03;
Digixx	0:1e4aa22fc1a1	84	i2c_.write( ADXL345_WRITE , y, 2);
Digixx	0:1e4aa22fc1a1	85	char z[2];
Digixx	0:1e4aa22fc1a1	86	z[0] = ADXL345_OFSZ_REG ;
Digixx	0:1e4aa22fc1a1	87	z[1] = 0xFE;
Digixx	0:1e4aa22fc1a1	88	i2c_.write( ADXL345_WRITE , z, 2);
Digixx	0:1e4aa22fc1a1	89	}
Digixx	0:1e4aa22fc1a1	90
Digixx	0:1e4aa22fc1a1	91
Digixx	0:1e4aa22fc1a1	92	char ADXL345::SingleByteRead(char address){
Digixx	0:1e4aa22fc1a1	93	char tx = address;
Digixx	0:1e4aa22fc1a1	94	char output;
Digixx	0:1e4aa22fc1a1	95	i2c_.write( ADXL345_WRITE , &tx, 1); //tell it what you want to read
Digixx	0:1e4aa22fc1a1	96	i2c_.read( ADXL345_READ , &output, 1); //tell it where to store the data
Digixx	0:1e4aa22fc1a1	97	return output;
Digixx	0:1e4aa22fc1a1	98
Digixx	0:1e4aa22fc1a1	99	}
Digixx	0:1e4aa22fc1a1	100
Digixx	0:1e4aa22fc1a1	101
Digixx	0:1e4aa22fc1a1	102	/*
Digixx	0:1e4aa22fc1a1	103	*info on the i2c_.write*
Digixx	0:1e4aa22fc1a1	104	address 8-bit I2C slave address [ addr \| 0 ]
Digixx	0:1e4aa22fc1a1	105	data Pointer to the byte-array data to send
Digixx	0:1e4aa22fc1a1	106	length Number of bytes to send
Digixx	0:1e4aa22fc1a1	107	repeated Repeated start, true - do not send stop at end
Digixx	0:1e4aa22fc1a1	108	returns 0 on success (ack), or non-0 on failure (nack)
Digixx	0:1e4aa22fc1a1	109	*/
Digixx	0:1e4aa22fc1a1	110
Digixx	0:1e4aa22fc1a1	111	int ADXL345::SingleByteWrite(char address, char data){
Digixx	0:1e4aa22fc1a1	112	int ack = 0;
Digixx	0:1e4aa22fc1a1	113	char tx[2];
Digixx	0:1e4aa22fc1a1	114	tx[0] = address;
Digixx	0:1e4aa22fc1a1	115	tx[1] = data;
Digixx	0:1e4aa22fc1a1	116	return ack \| i2c_.write( ADXL345_WRITE , tx, 2);
Digixx	0:1e4aa22fc1a1	117	}
Digixx	0:1e4aa22fc1a1	118
Digixx	0:1e4aa22fc1a1	119
Digixx	0:1e4aa22fc1a1	120
Digixx	0:1e4aa22fc1a1	121	void ADXL345::multiByteRead(char address, char* output, int size) {
Digixx	0:1e4aa22fc1a1	122	i2c_.write( ADXL345_WRITE, &address, 1); //tell it where to read from
Digixx	0:1e4aa22fc1a1	123	i2c_.read( ADXL345_READ , output, size); //tell it where to store the data read
Digixx	0:1e4aa22fc1a1	124	}
Digixx	0:1e4aa22fc1a1	125
Digixx	0:1e4aa22fc1a1	126
Digixx	0:1e4aa22fc1a1	127	int ADXL345::multiByteWrite(char address, char* ptr_data, int size) {
Digixx	0:1e4aa22fc1a1	128	int ack;
Digixx	0:1e4aa22fc1a1	129
Digixx	0:1e4aa22fc1a1	130	ack = i2c_.write( ADXL345_WRITE, &address, 1); //tell it where to write to
Digixx	0:1e4aa22fc1a1	131	return ack \| i2c_.write( ADXL345_READ, ptr_data, size); //tell it what data to write
Digixx	0:1e4aa22fc1a1	132
Digixx	0:1e4aa22fc1a1	133	}
Digixx	0:1e4aa22fc1a1	134
Digixx	0:1e4aa22fc1a1	135
Digixx	0:1e4aa22fc1a1	136	void ADXL345::getOutput(int* readings){
Digixx	0:1e4aa22fc1a1	137	char buffer[6];
Digixx	0:1e4aa22fc1a1	138	multiByteRead(ADXL345_DATAX0_REG, buffer, 6);
Digixx	0:1e4aa22fc1a1	139
gltest26	3:7b83694c7292	140	readings[0] = wordExtend(&buffer[0]);
gltest26	3:7b83694c7292	141	readings[1] = wordExtend(&buffer[2]);
gltest26	3:7b83694c7292	142	readings[2] = wordExtend(&buffer[4]);
Digixx	0:1e4aa22fc1a1	143
Digixx	0:1e4aa22fc1a1	144	}
Digixx	0:1e4aa22fc1a1	145
Digixx	0:1e4aa22fc1a1	146
Digixx	0:1e4aa22fc1a1	147
Digixx	0:1e4aa22fc1a1	148	char ADXL345::getDeviceID() {
Digixx	0:1e4aa22fc1a1	149	return SingleByteRead(ADXL345_DEVID_REG);
Digixx	0:1e4aa22fc1a1	150	}
Digixx	0:1e4aa22fc1a1	151	//
Digixx	0:1e4aa22fc1a1	152	int ADXL345::setPowerMode(char mode) {
Digixx	0:1e4aa22fc1a1	153
Digixx	0:1e4aa22fc1a1	154	//Get the current register contents, so we don't clobber the rate value.
Digixx	0:1e4aa22fc1a1	155	char registerContents = (mode << 4) \| SingleByteRead(ADXL345_BW_RATE_REG);
Digixx	0:1e4aa22fc1a1	156
Digixx	0:1e4aa22fc1a1	157	return SingleByteWrite(ADXL345_BW_RATE_REG, registerContents);
Digixx	0:1e4aa22fc1a1	158
Digixx	0:1e4aa22fc1a1	159	}
Digixx	0:1e4aa22fc1a1	160
Digixx	0:1e4aa22fc1a1	161	char ADXL345::getPowerControl() {
Digixx	0:1e4aa22fc1a1	162	return SingleByteRead(ADXL345_POWER_CTL_REG);
Digixx	0:1e4aa22fc1a1	163	}
Digixx	0:1e4aa22fc1a1	164
Digixx	0:1e4aa22fc1a1	165	int ADXL345::setPowerControl(char settings) {
Digixx	0:1e4aa22fc1a1	166	return SingleByteWrite(ADXL345_POWER_CTL_REG, settings);
Digixx	0:1e4aa22fc1a1	167
Digixx	0:1e4aa22fc1a1	168	}
Digixx	0:1e4aa22fc1a1	169
Digixx	0:1e4aa22fc1a1	170
Digixx	0:1e4aa22fc1a1	171
Digixx	0:1e4aa22fc1a1	172	char ADXL345::getDataFormatControl(void){
Digixx	0:1e4aa22fc1a1	173
Digixx	0:1e4aa22fc1a1	174	return SingleByteRead(ADXL345_DATA_FORMAT_REG);
Digixx	0:1e4aa22fc1a1	175	}
Digixx	0:1e4aa22fc1a1	176
Digixx	0:1e4aa22fc1a1	177	int ADXL345::setDataFormatControl(char settings){
Digixx	0:1e4aa22fc1a1	178
Digixx	0:1e4aa22fc1a1	179	return SingleByteWrite(ADXL345_DATA_FORMAT_REG, settings);
Digixx	0:1e4aa22fc1a1	180
Digixx	0:1e4aa22fc1a1	181	}
Digixx	0:1e4aa22fc1a1	182
Digixx	0:1e4aa22fc1a1	183	int ADXL345::setDataRate(char rate) {
Digixx	0:1e4aa22fc1a1	184
Digixx	0:1e4aa22fc1a1	185	//Get the current register contents, so we don't clobber the power bit.
Digixx	0:1e4aa22fc1a1	186	char registerContents = SingleByteRead(ADXL345_BW_RATE_REG);
Digixx	0:1e4aa22fc1a1	187
Digixx	0:1e4aa22fc1a1	188	registerContents &= 0x10;
Digixx	0:1e4aa22fc1a1	189	registerContents \|= rate;
Digixx	0:1e4aa22fc1a1	190
Digixx	0:1e4aa22fc1a1	191	return SingleByteWrite(ADXL345_BW_RATE_REG, registerContents);
Digixx	0:1e4aa22fc1a1	192
Digixx	0:1e4aa22fc1a1	193	}
Digixx	0:1e4aa22fc1a1	194
Digixx	0:1e4aa22fc1a1	195
Digixx	0:1e4aa22fc1a1	196	char ADXL345::getOffset(char axis) {
Digixx	0:1e4aa22fc1a1	197
Digixx	0:1e4aa22fc1a1	198	char address = 0;
Digixx	0:1e4aa22fc1a1	199
Digixx	0:1e4aa22fc1a1	200	if (axis == ADXL345_X) {
Digixx	0:1e4aa22fc1a1	201	address = ADXL345_OFSX_REG;
Digixx	0:1e4aa22fc1a1	202	} else if (axis == ADXL345_Y) {
Digixx	0:1e4aa22fc1a1	203	address = ADXL345_OFSY_REG;
Digixx	0:1e4aa22fc1a1	204	} else if (axis == ADXL345_Z) {
Digixx	0:1e4aa22fc1a1	205	address = ADXL345_OFSZ_REG;
Digixx	0:1e4aa22fc1a1	206	}
Digixx	0:1e4aa22fc1a1	207
Digixx	0:1e4aa22fc1a1	208	return SingleByteRead(address);
Digixx	0:1e4aa22fc1a1	209	}
Digixx	0:1e4aa22fc1a1	210
Digixx	0:1e4aa22fc1a1	211	int ADXL345::setOffset(char axis, char offset) {
Digixx	0:1e4aa22fc1a1	212
Digixx	0:1e4aa22fc1a1	213	char address = 0;
Digixx	0:1e4aa22fc1a1	214
Digixx	0:1e4aa22fc1a1	215	if (axis == ADXL345_X) {
Digixx	0:1e4aa22fc1a1	216	address = ADXL345_OFSX_REG;
Digixx	0:1e4aa22fc1a1	217	} else if (axis == ADXL345_Y) {
Digixx	0:1e4aa22fc1a1	218	address = ADXL345_OFSY_REG;
Digixx	0:1e4aa22fc1a1	219	} else if (axis == ADXL345_Z) {
Digixx	0:1e4aa22fc1a1	220	address = ADXL345_OFSZ_REG;
Digixx	0:1e4aa22fc1a1	221	}
Digixx	0:1e4aa22fc1a1	222
Digixx	0:1e4aa22fc1a1	223	return SingleByteWrite(address, offset);
Digixx	0:1e4aa22fc1a1	224
Digixx	0:1e4aa22fc1a1	225	}
Digixx	0:1e4aa22fc1a1	226
Digixx	0:1e4aa22fc1a1	227
Digixx	0:1e4aa22fc1a1	228	char ADXL345::getFifoControl(void){
Digixx	0:1e4aa22fc1a1	229
Digixx	0:1e4aa22fc1a1	230	return SingleByteRead(ADXL345_FIFO_CTL);
Digixx	0:1e4aa22fc1a1	231
Digixx	0:1e4aa22fc1a1	232	}
Digixx	0:1e4aa22fc1a1	233
Digixx	0:1e4aa22fc1a1	234	int ADXL345::setFifoControl(char settings){
Digixx	0:1e4aa22fc1a1	235	return SingleByteWrite(ADXL345_FIFO_STATUS, settings);
Digixx	0:1e4aa22fc1a1	236
Digixx	0:1e4aa22fc1a1	237	}
Digixx	0:1e4aa22fc1a1	238
Digixx	0:1e4aa22fc1a1	239	char ADXL345::getFifoStatus(void){
Digixx	0:1e4aa22fc1a1	240
Digixx	0:1e4aa22fc1a1	241	return SingleByteRead(ADXL345_FIFO_STATUS);
Digixx	0:1e4aa22fc1a1	242
Digixx	0:1e4aa22fc1a1	243	}
Digixx	0:1e4aa22fc1a1	244
Digixx	0:1e4aa22fc1a1	245
Digixx	0:1e4aa22fc1a1	246
Digixx	0:1e4aa22fc1a1	247	char ADXL345::getTapThreshold(void) {
Digixx	0:1e4aa22fc1a1	248
Digixx	0:1e4aa22fc1a1	249	return SingleByteRead(ADXL345_THRESH_TAP_REG);
Digixx	0:1e4aa22fc1a1	250	}
Digixx	0:1e4aa22fc1a1	251
Digixx	0:1e4aa22fc1a1	252	int ADXL345::setTapThreshold(char threshold) {
Digixx	0:1e4aa22fc1a1	253
Digixx	0:1e4aa22fc1a1	254	return SingleByteWrite(ADXL345_THRESH_TAP_REG, threshold);
Digixx	0:1e4aa22fc1a1	255
Digixx	0:1e4aa22fc1a1	256	}
Digixx	0:1e4aa22fc1a1	257
Digixx	0:1e4aa22fc1a1	258
Digixx	0:1e4aa22fc1a1	259	float ADXL345::getTapDuration(void) {
Digixx	0:1e4aa22fc1a1	260
Digixx	0:1e4aa22fc1a1	261	return (float)SingleByteRead(ADXL345_DUR_REG)*625;
Digixx	0:1e4aa22fc1a1	262	}
Digixx	0:1e4aa22fc1a1	263
Digixx	0:1e4aa22fc1a1	264	int ADXL345::setTapDuration(short int duration_us) {
Digixx	0:1e4aa22fc1a1	265
Digixx	0:1e4aa22fc1a1	266	short int tapDuration = duration_us / 625;
Digixx	0:1e4aa22fc1a1	267	char tapChar[2];
Digixx	0:1e4aa22fc1a1	268	tapChar[0] = (tapDuration & 0x00FF);
Digixx	0:1e4aa22fc1a1	269	tapChar[1] = (tapDuration >> 8) & 0x00FF;
Digixx	0:1e4aa22fc1a1	270	return multiByteWrite(ADXL345_DUR_REG, tapChar, 2);
Digixx	0:1e4aa22fc1a1	271
Digixx	0:1e4aa22fc1a1	272	}
Digixx	0:1e4aa22fc1a1	273
Digixx	0:1e4aa22fc1a1	274	float ADXL345::getTapLatency(void) {
Digixx	0:1e4aa22fc1a1	275
Digixx	0:1e4aa22fc1a1	276	return (float)SingleByteRead(ADXL345_LATENT_REG)*1.25;
Digixx	0:1e4aa22fc1a1	277	}
Digixx	0:1e4aa22fc1a1	278
Digixx	0:1e4aa22fc1a1	279	int ADXL345::setTapLatency(short int latency_ms) {
Digixx	0:1e4aa22fc1a1	280
Digixx	0:1e4aa22fc1a1	281	latency_ms = latency_ms / 1.25;
Digixx	0:1e4aa22fc1a1	282	char latChar[2];
Digixx	0:1e4aa22fc1a1	283	latChar[0] = (latency_ms & 0x00FF);
Digixx	0:1e4aa22fc1a1	284	latChar[1] = (latency_ms << 8) & 0xFF00;
Digixx	0:1e4aa22fc1a1	285	return multiByteWrite(ADXL345_LATENT_REG, latChar, 2);
Digixx	0:1e4aa22fc1a1	286
Digixx	0:1e4aa22fc1a1	287	}
Digixx	0:1e4aa22fc1a1	288
Digixx	0:1e4aa22fc1a1	289	float ADXL345::getWindowTime(void) {
Digixx	0:1e4aa22fc1a1	290
Digixx	0:1e4aa22fc1a1	291	return (float)SingleByteRead(ADXL345_WINDOW_REG)*1.25;
Digixx	0:1e4aa22fc1a1	292	}
Digixx	0:1e4aa22fc1a1	293
Digixx	0:1e4aa22fc1a1	294	int ADXL345::setWindowTime(short int window_ms) {
Digixx	0:1e4aa22fc1a1	295
Digixx	0:1e4aa22fc1a1	296	window_ms = window_ms / 1.25;
Digixx	0:1e4aa22fc1a1	297	char windowChar[2];
Digixx	0:1e4aa22fc1a1	298	windowChar[0] = (window_ms & 0x00FF);
Digixx	0:1e4aa22fc1a1	299	windowChar[1] = ((window_ms << 8) & 0xFF00);
Digixx	0:1e4aa22fc1a1	300	return multiByteWrite(ADXL345_WINDOW_REG, windowChar, 2);
Digixx	0:1e4aa22fc1a1	301
Digixx	0:1e4aa22fc1a1	302	}
Digixx	0:1e4aa22fc1a1	303
Digixx	0:1e4aa22fc1a1	304	char ADXL345::getActivityThreshold(void) {
Digixx	0:1e4aa22fc1a1	305
Digixx	0:1e4aa22fc1a1	306	return SingleByteRead(ADXL345_THRESH_ACT_REG);
Digixx	0:1e4aa22fc1a1	307	}
Digixx	0:1e4aa22fc1a1	308
Digixx	0:1e4aa22fc1a1	309	int ADXL345::setActivityThreshold(char threshold) {
Digixx	0:1e4aa22fc1a1	310	return SingleByteWrite(ADXL345_THRESH_ACT_REG, threshold);
Digixx	0:1e4aa22fc1a1	311
Digixx	0:1e4aa22fc1a1	312	}
Digixx	0:1e4aa22fc1a1	313
Digixx	0:1e4aa22fc1a1	314	char ADXL345::getInactivityThreshold(void) {
Digixx	0:1e4aa22fc1a1	315	return SingleByteRead(ADXL345_THRESH_INACT_REG);
Digixx	0:1e4aa22fc1a1	316
Digixx	0:1e4aa22fc1a1	317	}
Digixx	0:1e4aa22fc1a1	318
Digixx	0:1e4aa22fc1a1	319	//int FUNCTION(short int * ptr_Output)
Digixx	0:1e4aa22fc1a1	320	//short int FUNCTION ()
Digixx	0:1e4aa22fc1a1	321
Digixx	0:1e4aa22fc1a1	322	int ADXL345::setInactivityThreshold(char threshold) {
Digixx	0:1e4aa22fc1a1	323	return SingleByteWrite(ADXL345_THRESH_INACT_REG, threshold);
Digixx	0:1e4aa22fc1a1	324
Digixx	0:1e4aa22fc1a1	325	}
Digixx	0:1e4aa22fc1a1	326
Digixx	0:1e4aa22fc1a1	327	char ADXL345::getTimeInactivity(void) {
Digixx	0:1e4aa22fc1a1	328
Digixx	0:1e4aa22fc1a1	329	return SingleByteRead(ADXL345_TIME_INACT_REG);
Digixx	0:1e4aa22fc1a1	330
Digixx	0:1e4aa22fc1a1	331	}
Digixx	0:1e4aa22fc1a1	332
Digixx	0:1e4aa22fc1a1	333	int ADXL345::setTimeInactivity(char timeInactivity) {
Digixx	0:1e4aa22fc1a1	334	return SingleByteWrite(ADXL345_TIME_INACT_REG, timeInactivity);
Digixx	0:1e4aa22fc1a1	335
Digixx	0:1e4aa22fc1a1	336	}
Digixx	0:1e4aa22fc1a1	337
Digixx	0:1e4aa22fc1a1	338	char ADXL345::getActivityInactivityControl(void) {
Digixx	0:1e4aa22fc1a1	339
Digixx	0:1e4aa22fc1a1	340	return SingleByteRead(ADXL345_ACT_INACT_CTL_REG);
Digixx	0:1e4aa22fc1a1	341
Digixx	0:1e4aa22fc1a1	342	}
Digixx	0:1e4aa22fc1a1	343
Digixx	0:1e4aa22fc1a1	344	int ADXL345::setActivityInactivityControl(char settings) {
Digixx	0:1e4aa22fc1a1	345	return SingleByteWrite(ADXL345_ACT_INACT_CTL_REG, settings);
Digixx	0:1e4aa22fc1a1	346
Digixx	0:1e4aa22fc1a1	347	}
Digixx	0:1e4aa22fc1a1	348
Digixx	0:1e4aa22fc1a1	349	char ADXL345::getFreefallThreshold(void) {
Digixx	0:1e4aa22fc1a1	350
Digixx	0:1e4aa22fc1a1	351	return SingleByteRead(ADXL345_THRESH_FF_REG);
Digixx	0:1e4aa22fc1a1	352
Digixx	0:1e4aa22fc1a1	353	}
Digixx	0:1e4aa22fc1a1	354
Digixx	0:1e4aa22fc1a1	355	int ADXL345::setFreefallThreshold(char threshold) {
Digixx	0:1e4aa22fc1a1	356	return SingleByteWrite(ADXL345_THRESH_FF_REG, threshold);
Digixx	0:1e4aa22fc1a1	357
Digixx	0:1e4aa22fc1a1	358	}
Digixx	0:1e4aa22fc1a1	359
Digixx	0:1e4aa22fc1a1	360	char ADXL345::getFreefallTime(void) {
Digixx	0:1e4aa22fc1a1	361
Digixx	0:1e4aa22fc1a1	362	return SingleByteRead(ADXL345_TIME_FF_REG)*5;
Digixx	0:1e4aa22fc1a1	363
Digixx	0:1e4aa22fc1a1	364	}
Digixx	0:1e4aa22fc1a1	365
Digixx	0:1e4aa22fc1a1	366	int ADXL345::setFreefallTime(short int freefallTime_ms) {
Digixx	0:1e4aa22fc1a1	367	freefallTime_ms = freefallTime_ms / 5;
Digixx	0:1e4aa22fc1a1	368	char fallChar[2];
Digixx	0:1e4aa22fc1a1	369	fallChar[0] = (freefallTime_ms & 0x00FF);
Digixx	0:1e4aa22fc1a1	370	fallChar[1] = (freefallTime_ms << 8) & 0xFF00;
Digixx	0:1e4aa22fc1a1	371
Digixx	0:1e4aa22fc1a1	372	return multiByteWrite(ADXL345_TIME_FF_REG, fallChar, 2);
Digixx	0:1e4aa22fc1a1	373
Digixx	0:1e4aa22fc1a1	374	}
Digixx	0:1e4aa22fc1a1	375
Digixx	0:1e4aa22fc1a1	376	char ADXL345::getTapAxisControl(void) {
Digixx	0:1e4aa22fc1a1	377
Digixx	0:1e4aa22fc1a1	378	return SingleByteRead(ADXL345_TAP_AXES_REG);
Digixx	0:1e4aa22fc1a1	379
Digixx	0:1e4aa22fc1a1	380	}
Digixx	0:1e4aa22fc1a1	381
Digixx	0:1e4aa22fc1a1	382	int ADXL345::setTapAxisControl(char settings) {
Digixx	0:1e4aa22fc1a1	383	return SingleByteWrite(ADXL345_TAP_AXES_REG, settings);
Digixx	0:1e4aa22fc1a1	384
Digixx	0:1e4aa22fc1a1	385	}
Digixx	0:1e4aa22fc1a1	386
Digixx	0:1e4aa22fc1a1	387	char ADXL345::getTapSource(void) {
Digixx	0:1e4aa22fc1a1	388
Digixx	0:1e4aa22fc1a1	389	return SingleByteRead(ADXL345_ACT_TAP_STATUS_REG);
Digixx	0:1e4aa22fc1a1	390
Digixx	0:1e4aa22fc1a1	391	}
Digixx	0:1e4aa22fc1a1	392
Digixx	0:1e4aa22fc1a1	393
Digixx	0:1e4aa22fc1a1	394
Digixx	0:1e4aa22fc1a1	395	char ADXL345::getInterruptEnableControl(void) {
Digixx	0:1e4aa22fc1a1	396
Digixx	0:1e4aa22fc1a1	397	return SingleByteRead(ADXL345_INT_ENABLE_REG);
Digixx	0:1e4aa22fc1a1	398
Digixx	0:1e4aa22fc1a1	399	}
Digixx	0:1e4aa22fc1a1	400
Digixx	0:1e4aa22fc1a1	401	int ADXL345::setInterruptEnableControl(char settings) {
Digixx	0:1e4aa22fc1a1	402	return SingleByteWrite(ADXL345_INT_ENABLE_REG, settings);
Digixx	0:1e4aa22fc1a1	403
Digixx	0:1e4aa22fc1a1	404	}
Digixx	0:1e4aa22fc1a1	405
Digixx	0:1e4aa22fc1a1	406	char ADXL345::getInterruptMappingControl(void) {
Digixx	0:1e4aa22fc1a1	407
Digixx	0:1e4aa22fc1a1	408	return SingleByteRead(ADXL345_INT_MAP_REG);
Digixx	0:1e4aa22fc1a1	409
Digixx	0:1e4aa22fc1a1	410	}
Digixx	0:1e4aa22fc1a1	411
Digixx	0:1e4aa22fc1a1	412	int ADXL345::setInterruptMappingControl(char settings) {
Digixx	0:1e4aa22fc1a1	413	return SingleByteWrite(ADXL345_INT_MAP_REG, settings);
Digixx	0:1e4aa22fc1a1	414
Digixx	0:1e4aa22fc1a1	415	}
Digixx	0:1e4aa22fc1a1	416
Digixx	0:1e4aa22fc1a1	417	char ADXL345::getInterruptSource(void){
Digixx	0:1e4aa22fc1a1	418
Digixx	0:1e4aa22fc1a1	419	return SingleByteRead(ADXL345_INT_SOURCE_REG);
Digixx	0:1e4aa22fc1a1	420
Digixx	0:1e4aa22fc1a1	421	}
Digixx	0:1e4aa22fc1a1	422
Digixx	0:1e4aa22fc1a1	423
Digixx	0:1e4aa22fc1a1	424
Digixx	0:1e4aa22fc1a1	425

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Type:	Library
Created:	01 Nov 2012
Imports:	41
Forks:	0
Commits:	11
Dependents:	1
Dependencies:	0
Followers:	1

The code in this repository is MIT licensed.

ADXL345.cpp@3:7b83694c7292, 2012-09-13 (annotated)

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