MMA7660FC - Library for MMA7660FC Accelerometer device

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Library for MMA7660FC Accelerometer device

Dependents: TestCode_MMA7660FC 3D_Accelerometer_Tester RTOS-aap-board-modules embed_Grove_3-Axis_Digital_Accelerometer ... more

MMA7660FC.cpp@9:2cc4a317402d, 2013-08-07 (annotated)

Committer:: edodm85
Date:: Wed Aug 07 20:06:38 2013 +0000
Revision:: 9:2cc4a317402d
Parent:: 8:122af194c74b

Disabled the interrupt

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User	Revision	Line number	New contents of line
edodm85	0:eb135a8de811	1	// Author: Edoardo De Marchi
edodm85	0:eb135a8de811	2	/* Copyright (C) 2012 mbed.org, MIT License
edodm85	0:eb135a8de811	3	*
edodm85	0:eb135a8de811	4	* Permission is hereby granted, free of charge, to any person obtaining a copy of this software
edodm85	0:eb135a8de811	5	* and associated documentation files (the "Software"), to deal in the Software without restriction,
edodm85	0:eb135a8de811	6	* including without limitation the rights to use, copy, modify, merge, publish, distribute,
edodm85	0:eb135a8de811	7	* sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is
edodm85	0:eb135a8de811	8	* furnished to do so, subject to the following conditions:
edodm85	0:eb135a8de811	9	*
edodm85	0:eb135a8de811	10	* The above copyright notice and this permission notice shall be included in all copies or
edodm85	0:eb135a8de811	11	* substantial portions of the Software.
edodm85	0:eb135a8de811	12	*
edodm85	0:eb135a8de811	13	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING
edodm85	0:eb135a8de811	14	* BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
edodm85	0:eb135a8de811	15	* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
edodm85	0:eb135a8de811	16	* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
edodm85	0:eb135a8de811	17	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
edodm85	0:eb135a8de811	18	*/
edodm85	0:eb135a8de811	19
edodm85	0:eb135a8de811	20
edodm85	0:eb135a8de811	21	#include "MMA7660FC.h"
edodm85	0:eb135a8de811	22
edodm85	4:6e931d9bbf4b	23	float TILT_XY[64] = {0, 2.69, 5.38, 8.08, 10.81, 13.55, 16.33, 19.16, 22.02, 24.95, 27.95, 31.04, 34.23, 37.54, 41.01, 44.68, 48.59, 52.83, 57.54, 62.95, 69.64, 79.86, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, -79.86, -69.64, -62.95, -57.54, -52.83, -48.59, -44.68, -41.01, -37.54, -34.23, -31.04, -27.95, -24.95, -22.02, -19.16, -16.33, -13.55, -10.81, -8.08, -5.38, -2.69};
edodm85	7:74eb2a4803ba	24	float TILT_Z[64] = {90.00, 87.31, 84.62, 81.92, 79.19, 76.45, 73.67, 70.84, 67.98, 65.05, 62.05, 58.96, 55.77, 52.46, 48.99, 45.32, 41.41, 37.17, 32.46, 27.05, 20.36, 10.14, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, -10.14, -20.36, -27.05, -32.46, -37.17, -41.41, -45.32, -48.99, -52.46, -55.77, -58.96, -62.05, -65.05, -67.98, -70.84, -73.67, -76.45, -79.19, -81.92, -84.62, -87.31};
edodm85	4:6e931d9bbf4b	25
edodm85	4:6e931d9bbf4b	26
edodm85	0:eb135a8de811	27
edodm85	0:eb135a8de811	28	// Connect module at I2C address addr using I2C port pins sda and scl
edodm85	7:74eb2a4803ba	29	MMA7660FC::MMA7660FC(PinName sda, PinName scl, int addr) : m_i2c(sda, scl)
edodm85	0:eb135a8de811	30	{
edodm85	8:122af194c74b	31	SPI_W_Address = addr; // Write address
edodm85	8:122af194c74b	32	SPI_R_Address = SPI_W_Address \| 1; // Read address
edodm85	0:eb135a8de811	33	}
edodm85	0:eb135a8de811	34
edodm85	0:eb135a8de811	35
edodm85	0:eb135a8de811	36	// Destroys instance
edodm85	0:eb135a8de811	37	MMA7660FC::~MMA7660FC()
edodm85	0:eb135a8de811	38	{
edodm85	0:eb135a8de811	39	}
edodm85	0:eb135a8de811	40
edodm85	0:eb135a8de811	41
edodm85	0:eb135a8de811	42	// Device initialization
edodm85	0:eb135a8de811	43	void MMA7660FC::init()
edodm85	8:122af194c74b	44	{
edodm85	9:2cc4a317402d	45	write_reg(INTSU_STATUS, 0x00); // interrupt disable
edodm85	8:122af194c74b	46	write_reg(SR_STATUS, 0x07); // 1 Samples/Second
edodm85	0:eb135a8de811	47	}
edodm85	0:eb135a8de811	48
edodm85	0:eb135a8de811	49
edodm85	4:6e931d9bbf4b	50	// Reads the tilt angle
edodm85	4:6e931d9bbf4b	51	void MMA7660FC::read_Tilt(float x, float y, float *z)
edodm85	0:eb135a8de811	52	{
edodm85	0:eb135a8de811	53	const char Addr_X = OUT_X;
edodm85	0:eb135a8de811	54	char buf[3] = {0,0,0};
edodm85	0:eb135a8de811	55
edodm85	6:10aa804dee97	56	m_i2c.write(SPI_W_Address, &Addr_X, 1); // Pointer to the OUT_X register
edodm85	6:10aa804dee97	57	m_i2c.read(SPI_W_Address, buf, 3); // Read register content into buffer with 6bit
edodm85	0:eb135a8de811	58
edodm85	4:6e931d9bbf4b	59	// returns the x, y, z coordinates transformed into full degrees
edodm85	5:d2f90c0be13f	60	*x = TILT_XY[(int)buf[0]];
edodm85	5:d2f90c0be13f	61	*y = TILT_XY[(int)buf[1]];
edodm85	8:122af194c74b	62	*z = TILT_Z[(int)buf[2]];
edodm85	0:eb135a8de811	63	}
edodm85	0:eb135a8de811	64
edodm85	0:eb135a8de811	65
edodm85	3:df25c72e16be	66	// Reads x data
edodm85	5:d2f90c0be13f	67	int MMA7660FC::read_x()
edodm85	3:df25c72e16be	68	{
edodm85	3:df25c72e16be	69	m_i2c.start(); // Start
edodm85	6:10aa804dee97	70	m_i2c.write(SPI_W_Address); // A write to device
edodm85	3:df25c72e16be	71	m_i2c.write(OUT_X); // Register to read
edodm85	3:df25c72e16be	72	m_i2c.start();
edodm85	6:10aa804dee97	73	m_i2c.write(SPI_R_Address); // Read from device
edodm85	3:df25c72e16be	74	char x = m_i2c.read(0); // Read the data
edodm85	3:df25c72e16be	75	m_i2c.stop();
edodm85	3:df25c72e16be	76
edodm85	5:d2f90c0be13f	77	return (int)x;
edodm85	3:df25c72e16be	78	}
edodm85	3:df25c72e16be	79
edodm85	3:df25c72e16be	80
edodm85	3:df25c72e16be	81	// Reads y data
edodm85	5:d2f90c0be13f	82	int MMA7660FC::read_y()
edodm85	3:df25c72e16be	83	{
edodm85	3:df25c72e16be	84	m_i2c.start(); // Start
edodm85	6:10aa804dee97	85	m_i2c.write(SPI_W_Address); // A write to device
edodm85	3:df25c72e16be	86	m_i2c.write(OUT_Y); // Register to read
edodm85	3:df25c72e16be	87	m_i2c.start();
edodm85	6:10aa804dee97	88	m_i2c.write(SPI_R_Address); // Read from device
edodm85	3:df25c72e16be	89	char y = m_i2c.read(0); // Read the data
edodm85	3:df25c72e16be	90	m_i2c.stop();
edodm85	3:df25c72e16be	91
edodm85	5:d2f90c0be13f	92	return (int)y;
edodm85	3:df25c72e16be	93	}
edodm85	3:df25c72e16be	94
edodm85	3:df25c72e16be	95
edodm85	3:df25c72e16be	96	// Reads z data
edodm85	5:d2f90c0be13f	97	int MMA7660FC::read_z()
edodm85	3:df25c72e16be	98	{
edodm85	3:df25c72e16be	99	m_i2c.start(); // Start
edodm85	6:10aa804dee97	100	m_i2c.write(SPI_W_Address); // A write to device
edodm85	3:df25c72e16be	101	m_i2c.write(OUT_Z); // Register to read
edodm85	3:df25c72e16be	102	m_i2c.start();
edodm85	6:10aa804dee97	103	m_i2c.write(SPI_R_Address); // Read from device
edodm85	3:df25c72e16be	104	char z = m_i2c.read(0); // Read the data
edodm85	3:df25c72e16be	105	m_i2c.stop();
edodm85	3:df25c72e16be	106
edodm85	5:d2f90c0be13f	107	return (int)z;
edodm85	8:122af194c74b	108	}
edodm85	3:df25c72e16be	109
edodm85	8:122af194c74b	110	// Reads MMA7660FC Orientation
edodm85	8:122af194c74b	111	char const* MMA7660FC::read_Side()
edodm85	8:122af194c74b	112	{
edodm85	8:122af194c74b	113	char tiltStatus = read_reg(TILT_STATUS);
edodm85	8:122af194c74b	114
edodm85	8:122af194c74b	115	if((tiltStatus & 0x03) == 0x01)
edodm85	8:122af194c74b	116	return "Front";
edodm85	8:122af194c74b	117	if((tiltStatus & 0x03) == 0x02)
edodm85	8:122af194c74b	118	return "Back";
edodm85	8:122af194c74b	119
edodm85	8:122af194c74b	120	return "Unknown";
edodm85	3:df25c72e16be	121	}
edodm85	3:df25c72e16be	122
edodm85	3:df25c72e16be	123
edodm85	8:122af194c74b	124	// Reads MMA7660FC Orientation
edodm85	8:122af194c74b	125	char const* MMA7660FC::read_Orientation()
edodm85	8:122af194c74b	126	{
edodm85	8:122af194c74b	127	char tiltStatus = read_reg(TILT_STATUS);
edodm85	8:122af194c74b	128
edodm85	8:122af194c74b	129	if((tiltStatus & 0x1c) == 0x04)
edodm85	8:122af194c74b	130	return "Left";
edodm85	8:122af194c74b	131	if((tiltStatus & 0x1c) == 0x08)
edodm85	8:122af194c74b	132	return "Right";
edodm85	8:122af194c74b	133	if((tiltStatus & 0x1c) == 0x14)
edodm85	8:122af194c74b	134	return "Down";
edodm85	8:122af194c74b	135	if((tiltStatus & 0x1c) == 0x18)
edodm85	8:122af194c74b	136	return "Up";
edodm85	8:122af194c74b	137
edodm85	8:122af194c74b	138	return "Unknown";
edodm85	8:122af194c74b	139	}
edodm85	8:122af194c74b	140
edodm85	8:122af194c74b	141
edodm85	8:122af194c74b	142
edodm85	0:eb135a8de811	143	// Read from specified MMA7660FC register
edodm85	0:eb135a8de811	144	char MMA7660FC::read_reg(char addr)
edodm85	8:122af194c74b	145	{
edodm85	0:eb135a8de811	146	m_i2c.start(); // Start
edodm85	6:10aa804dee97	147	m_i2c.write(SPI_W_Address); // A write to device
edodm85	0:eb135a8de811	148	m_i2c.write(addr); // Register to read
edodm85	3:df25c72e16be	149	m_i2c.start();
edodm85	6:10aa804dee97	150	m_i2c.write(SPI_R_Address); // Read from device
edodm85	0:eb135a8de811	151	char c = m_i2c.read(0); // Read the data
edodm85	3:df25c72e16be	152	m_i2c.stop();
edodm85	0:eb135a8de811	153
edodm85	8:122af194c74b	154	return c;
edodm85	0:eb135a8de811	155	}
edodm85	0:eb135a8de811	156
edodm85	0:eb135a8de811	157
edodm85	0:eb135a8de811	158	// Write register (The device must be placed in Standby Mode to change the value of the registers)
edodm85	0:eb135a8de811	159	void MMA7660FC::write_reg(char addr, char data)
edodm85	0:eb135a8de811	160	{
edodm85	0:eb135a8de811	161	char cmd[2] = {0, 0};
edodm85	0:eb135a8de811	162
edodm85	0:eb135a8de811	163	cmd[0] = MODE_STATUS;
edodm85	6:10aa804dee97	164	cmd[1] = 0x00; // Standby Mode on
edodm85	6:10aa804dee97	165	m_i2c.write(SPI_W_Address, cmd, 2);
edodm85	0:eb135a8de811	166
edodm85	0:eb135a8de811	167	cmd[0] = addr;
edodm85	6:10aa804dee97	168	cmd[1] = data; // New value of the register
edodm85	6:10aa804dee97	169	m_i2c.write(SPI_W_Address, cmd, 2);
edodm85	0:eb135a8de811	170
edodm85	0:eb135a8de811	171	cmd[0] = MODE_STATUS;
edodm85	6:10aa804dee97	172	cmd[1] = 0x01; // Active Mode on
edodm85	8:122af194c74b	173	m_i2c.write(SPI_W_Address, cmd, 2);
edodm85	0:eb135a8de811	174	}
edodm85	7:74eb2a4803ba	175
edodm85	7:74eb2a4803ba	176
edodm85	7:74eb2a4803ba	177	// check if the address exist on an I2C bus
edodm85	7:74eb2a4803ba	178	int MMA7660FC::check()
edodm85	8:122af194c74b	179	{
edodm85	7:74eb2a4803ba	180	return m_i2c.write(SPI_W_Address, NULL, 0);
edodm85	7:74eb2a4803ba	181	}

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Type:	Library
Created:	30 Jun 2012
Imports:	357
Forks:	0
Commits:	10
Dependents:	10
Dependencies:	0
Followers:	10

The code in this repository is MIT licensed.

MMA7660FC.cpp@9:2cc4a317402d, 2013-08-07 (annotated)

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