bmd-200_accel_demo - BMD-200 Evaluation board using the on-board accel…

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BMD-200 Evaluation board using the on-board accelerometer (Freescale MMA8653FC). There a couple operating modes (streaming ADC data out the USB COM, moving board in a single axis causes an interrupt, others). Work in progress.

Dependencies: PinDetect mbed-src-bmd-200

MMA845x.cpp@0:6f07db1b8cdc, 2015-07-15 (annotated)

Committer:: dcnichols
Date:: Wed Jul 15 21:25:42 2015 +0000
Revision:: 0:6f07db1b8cdc

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User	Revision	Line number	New contents of line
dcnichols	0:6f07db1b8cdc	1	/**
dcnichols	0:6f07db1b8cdc	2	* @file MMA845x.cpp
dcnichols	0:6f07db1b8cdc	3	* @brief Device driver - MMA845X 3-axis accelerometer IC
dcnichols	0:6f07db1b8cdc	4	* @author sam grove
dcnichols	0:6f07db1b8cdc	5	* @version 1.0
dcnichols	0:6f07db1b8cdc	6	* @see http://cache.freescale.com/files/sensors/doc/data_sheet/MMA8451Q.pdf
dcnichols	0:6f07db1b8cdc	7	* @see http://cache.freescale.com/files/sensors/doc/data_sheet/MMA8452Q.pdf
dcnichols	0:6f07db1b8cdc	8	* @see http://cache.freescale.com/files/sensors/doc/data_sheet/MMA8453Q.pdf
dcnichols	0:6f07db1b8cdc	9	*
dcnichols	0:6f07db1b8cdc	10	* Copyright (c) 2013
dcnichols	0:6f07db1b8cdc	11	*
dcnichols	0:6f07db1b8cdc	12	* Licensed under the Apache License, Version 2.0 (the "License");
dcnichols	0:6f07db1b8cdc	13	* you may not use this file except in compliance with the License.
dcnichols	0:6f07db1b8cdc	14	* You may obtain a copy of the License at
dcnichols	0:6f07db1b8cdc	15	*
dcnichols	0:6f07db1b8cdc	16	* http://www.apache.org/licenses/LICENSE-2.0
dcnichols	0:6f07db1b8cdc	17	*
dcnichols	0:6f07db1b8cdc	18	* Unless required by applicable law or agreed to in writing, software
dcnichols	0:6f07db1b8cdc	19	* distributed under the License is distributed on an "AS IS" BASIS,
dcnichols	0:6f07db1b8cdc	20	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
dcnichols	0:6f07db1b8cdc	21	* See the License for the specific language governing permissions and
dcnichols	0:6f07db1b8cdc	22	* limitations under the License.
dcnichols	0:6f07db1b8cdc	23	*/
dcnichols	0:6f07db1b8cdc	24
dcnichols	0:6f07db1b8cdc	25	#include "MMA845x.h"
dcnichols	0:6f07db1b8cdc	26	#include "mbed.h"
dcnichols	0:6f07db1b8cdc	27
dcnichols	0:6f07db1b8cdc	28
dcnichols	0:6f07db1b8cdc	29	void MMA845x::disable(void)
dcnichols	0:6f07db1b8cdc	30	{
dcnichols	0:6f07db1b8cdc	31	uint8_t reg_val = 0;
dcnichols	0:6f07db1b8cdc	32	// Reset all registers to POR values
dcnichols	0:6f07db1b8cdc	33	MMA845x::writeRegister(CTRL_REG2, 0xF0); //REG 0x2B
dcnichols	0:6f07db1b8cdc	34	wait(0.05);
dcnichols	0:6f07db1b8cdc	35	do{
dcnichols	0:6f07db1b8cdc	36	// wait for the reset bit to clear
dcnichols	0:6f07db1b8cdc	37	reg_val = MMA845x::readRegister(CTRL_REG2) & 0x40;
dcnichols	0:6f07db1b8cdc	38	}while(reg_val);
dcnichols	0:6f07db1b8cdc	39	MMA845x::writeRegister(CTRL_REG1, 0x00); //REG 0x2A 0x98 = ASLP_RATE: 6.25hz Data Rate: 50hz
dcnichols	0:6f07db1b8cdc	40	}
dcnichols	0:6f07db1b8cdc	41
dcnichols	0:6f07db1b8cdc	42	void MMA845x::setIntMode(int intMode)
dcnichols	0:6f07db1b8cdc	43	{
dcnichols	0:6f07db1b8cdc	44	_intMode = intMode;
dcnichols	0:6f07db1b8cdc	45	}
dcnichols	0:6f07db1b8cdc	46
dcnichols	0:6f07db1b8cdc	47	void MMA845x::interrupt_1(void)
dcnichols	0:6f07db1b8cdc	48	{
dcnichols	0:6f07db1b8cdc	49	//_int1_waiting = true;
dcnichols	0:6f07db1b8cdc	50
dcnichols	0:6f07db1b8cdc	51	uint8_t reg_int_sts;
dcnichols	0:6f07db1b8cdc	52	uint8_t reg_sts;
dcnichols	0:6f07db1b8cdc	53	uint8_t reg_pulse_sts;
dcnichols	0:6f07db1b8cdc	54	uint8_t reg_motion_sts;
dcnichols	0:6f07db1b8cdc	55	char reg_data[3][2] = { 0 };
dcnichols	0:6f07db1b8cdc	56	int16_t values[3] = { 0 };
dcnichols	0:6f07db1b8cdc	57	float g_values[3] = { 0 };
dcnichols	0:6f07db1b8cdc	58	reg_int_sts = MMA845x::readRegister(INT_SOURCE); //REG 0x0C
dcnichols	0:6f07db1b8cdc	59	if((reg_int_sts & 0x01)) //Mask register read with SRC_DRDY bit
dcnichols	0:6f07db1b8cdc	60	{
dcnichols	0:6f07db1b8cdc	61	printf("Int1:");
dcnichols	0:6f07db1b8cdc	62	printf(" Data Ready");
dcnichols	0:6f07db1b8cdc	63	reg_sts = MMA845x::readRegister(STATUS); //REG 0x00
dcnichols	0:6f07db1b8cdc	64
dcnichols	0:6f07db1b8cdc	65	reg_pulse_sts = MMA845x::readRegister(PULSE_SRC); //REG 0x22
dcnichols	0:6f07db1b8cdc	66
dcnichols	0:6f07db1b8cdc	67	reg_data[0][0] = MMA845x::readRegister(OUT_X_MSB); //REG 0x01
dcnichols	0:6f07db1b8cdc	68	reg_data[0][1] = MMA845x::readRegister(OUT_X_LSB); //REG 0x02
dcnichols	0:6f07db1b8cdc	69	reg_data[1][0] = MMA845x::readRegister(OUT_Y_MSB); //REG 0x03
dcnichols	0:6f07db1b8cdc	70	reg_data[1][1] = MMA845x::readRegister(OUT_Y_LSB); //REG 0x04
dcnichols	0:6f07db1b8cdc	71	reg_data[2][0] = MMA845x::readRegister(OUT_Z_MSB); //REG 0x05
dcnichols	0:6f07db1b8cdc	72	reg_data[2][1] = MMA845x::readRegister(OUT_Z_LSB); //REG 0x06
dcnichols	0:6f07db1b8cdc	73	//printf(" STATUS: 0x%02X X: %d %d Y: %d %d Z: %d %d\n\r", reg_sts, reg_data[0][0], reg_data[0][1], reg_data[1][0], reg_data[1][1], reg_data[2][0], reg_data[2][1]);
dcnichols	0:6f07db1b8cdc	74
dcnichols	0:6f07db1b8cdc	75	values[0] = ((reg_data[0][0] * 256) + ((unsigned short) reg_data[0][1]));
dcnichols	0:6f07db1b8cdc	76	values[1] = ((reg_data[1][0] * 256) + ((unsigned short) reg_data[1][1]));
dcnichols	0:6f07db1b8cdc	77	values[2] = ((reg_data[2][0] * 256) + ((unsigned short) reg_data[2][1]));
dcnichols	0:6f07db1b8cdc	78
dcnichols	0:6f07db1b8cdc	79	g_values[0] = ((float) values[0]) / 16384.0;
dcnichols	0:6f07db1b8cdc	80	g_values[1] = ((float) values[1]) / 16384.0;
dcnichols	0:6f07db1b8cdc	81	g_values[2] = ((float) values[2]) / 16384.0;
dcnichols	0:6f07db1b8cdc	82
dcnichols	0:6f07db1b8cdc	83	//printf(" STATUS: 0x%02X X: %d Y: %d Z: %d\n\r", reg_sts, values[0], values[1], values[2]);
dcnichols	0:6f07db1b8cdc	84
dcnichols	0:6f07db1b8cdc	85	if (_intMode == 1)
dcnichols	0:6f07db1b8cdc	86	{
dcnichols	0:6f07db1b8cdc	87	printf(" STATUS: 0x%02X X: %.3f Y: %.3f Z: %.3f", reg_sts, g_values[0], g_values[1], g_values[2]);
dcnichols	0:6f07db1b8cdc	88	}
dcnichols	0:6f07db1b8cdc	89	else
dcnichols	0:6f07db1b8cdc	90	{
dcnichols	0:6f07db1b8cdc	91	int bars = abs( values[0] / 512 );
dcnichols	0:6f07db1b8cdc	92	printf(" X: ");
dcnichols	0:6f07db1b8cdc	93	for( int i = 0; i < bars; i++ )
dcnichols	0:6f07db1b8cdc	94	{
dcnichols	0:6f07db1b8cdc	95	printf(">");
dcnichols	0:6f07db1b8cdc	96	}
dcnichols	0:6f07db1b8cdc	97	}
dcnichols	0:6f07db1b8cdc	98
dcnichols	0:6f07db1b8cdc	99	if (reg_pulse_sts & 0x10)
dcnichols	0:6f07db1b8cdc	100	{
dcnichols	0:6f07db1b8cdc	101	printf(" ***********************************************");
dcnichols	0:6f07db1b8cdc	102	_callbackZAxisPulse.call();
dcnichols	0:6f07db1b8cdc	103	if (reg_pulse_sts & 0x01)
dcnichols	0:6f07db1b8cdc	104	{
dcnichols	0:6f07db1b8cdc	105	printf("--------------");
dcnichols	0:6f07db1b8cdc	106	}
dcnichols	0:6f07db1b8cdc	107	}
dcnichols	0:6f07db1b8cdc	108	printf("\n\r");
dcnichols	0:6f07db1b8cdc	109	}
dcnichols	0:6f07db1b8cdc	110	if (reg_int_sts & 0x08) //Pulse interrupt
dcnichols	0:6f07db1b8cdc	111	{
dcnichols	0:6f07db1b8cdc	112
dcnichols	0:6f07db1b8cdc	113	reg_pulse_sts = MMA845x::readRegister(PULSE_SRC); //REG 0x22
dcnichols	0:6f07db1b8cdc	114	if (reg_pulse_sts & 0x40) //Z-axis event
dcnichols	0:6f07db1b8cdc	115	{
dcnichols	0:6f07db1b8cdc	116
dcnichols	0:6f07db1b8cdc	117	if (reg_pulse_sts & 0x08) //Pulse event was double pulse
dcnichols	0:6f07db1b8cdc	118	{
dcnichols	0:6f07db1b8cdc	119
dcnichols	0:6f07db1b8cdc	120
dcnichols	0:6f07db1b8cdc	121	}
dcnichols	0:6f07db1b8cdc	122	if (reg_pulse_sts & 0x04)//Z-axis pulse direction
dcnichols	0:6f07db1b8cdc	123	{
dcnichols	0:6f07db1b8cdc	124
dcnichols	0:6f07db1b8cdc	125	}
dcnichols	0:6f07db1b8cdc	126	_callbackZAxisPulse.call();
dcnichols	0:6f07db1b8cdc	127
dcnichols	0:6f07db1b8cdc	128	}
dcnichols	0:6f07db1b8cdc	129	}
dcnichols	0:6f07db1b8cdc	130	if (reg_int_sts & 0x04) //Motion interrupt
dcnichols	0:6f07db1b8cdc	131	{
dcnichols	0:6f07db1b8cdc	132
dcnichols	0:6f07db1b8cdc	133	reg_motion_sts = MMA845x::readRegister(FF_MT_SRC); //REG 0x16
dcnichols	0:6f07db1b8cdc	134	if (reg_motion_sts & 0x02) //
dcnichols	0:6f07db1b8cdc	135	{
dcnichols	0:6f07db1b8cdc	136	/*
dcnichols	0:6f07db1b8cdc	137	if (reg_motion_sts & 0x08) //
dcnichols	0:6f07db1b8cdc	138	{
dcnichols	0:6f07db1b8cdc	139
dcnichols	0:6f07db1b8cdc	140
dcnichols	0:6f07db1b8cdc	141	}
dcnichols	0:6f07db1b8cdc	142	if (reg_motion_sts & 0x04)//
dcnichols	0:6f07db1b8cdc	143	{
dcnichols	0:6f07db1b8cdc	144
dcnichols	0:6f07db1b8cdc	145	}
dcnichols	0:6f07db1b8cdc	146	*/
dcnichols	0:6f07db1b8cdc	147	_callbackZAxisPulse.call();
dcnichols	0:6f07db1b8cdc	148
dcnichols	0:6f07db1b8cdc	149	}
dcnichols	0:6f07db1b8cdc	150	}
dcnichols	0:6f07db1b8cdc	151	}
dcnichols	0:6f07db1b8cdc	152
dcnichols	0:6f07db1b8cdc	153	/* Call this function when a Z-axis pulse detected
dcnichols	0:6f07db1b8cdc	154	* @param function A C function pointer
dcnichols	0:6f07db1b8cdc	155	*/
dcnichols	0:6f07db1b8cdc	156	void MMA845x::attachZAxisPulse( void (*function)(void) )
dcnichols	0:6f07db1b8cdc	157	{
dcnichols	0:6f07db1b8cdc	158	_callbackZAxisPulse.attach( function );
dcnichols	0:6f07db1b8cdc	159	}
dcnichols	0:6f07db1b8cdc	160
dcnichols	0:6f07db1b8cdc	161	void MMA845x::interrupt_handler(void)
dcnichols	0:6f07db1b8cdc	162	{
dcnichols	0:6f07db1b8cdc	163
dcnichols	0:6f07db1b8cdc	164	uint8_t reg_int_sts;
dcnichols	0:6f07db1b8cdc	165	uint8_t reg_sts;
dcnichols	0:6f07db1b8cdc	166	int reg_data[3] = { 0x00, 0x00, 0x00 };
dcnichols	0:6f07db1b8cdc	167	printf("Int1:");
dcnichols	0:6f07db1b8cdc	168	reg_int_sts = MMA845x::readRegister(INT_SOURCE); //REG 0x0C
dcnichols	0:6f07db1b8cdc	169	if((reg_int_sts & 0x01)) //Mask register read with SRC_DRDY bit
dcnichols	0:6f07db1b8cdc	170	{
dcnichols	0:6f07db1b8cdc	171	printf(" Data Ready");
dcnichols	0:6f07db1b8cdc	172	reg_sts = MMA845x::readRegister(STATUS); //REG 0x00
dcnichols	0:6f07db1b8cdc	173	reg_data[0] = MMA845x::readRegister(OUT_X_MSB); //REG 0x01
dcnichols	0:6f07db1b8cdc	174	reg_data[1] = MMA845x::readRegister(OUT_Y_MSB); //REG 0x03
dcnichols	0:6f07db1b8cdc	175	reg_data[2] = MMA845x::readRegister(OUT_Z_MSB); //REG 0x05
dcnichols	0:6f07db1b8cdc	176	printf(" STATUS: 0x%02X X: %d Y: %d Z: %d\n\r", reg_sts, reg_data[0], reg_data[1], reg_data[2]);
dcnichols	0:6f07db1b8cdc	177	}
dcnichols	0:6f07db1b8cdc	178	}
dcnichols	0:6f07db1b8cdc	179
dcnichols	0:6f07db1b8cdc	180	void MMA845x::init(void) const
dcnichols	0:6f07db1b8cdc	181	{
dcnichols	0:6f07db1b8cdc	182	uint8_t reg_val = 0;
dcnichols	0:6f07db1b8cdc	183
dcnichols	0:6f07db1b8cdc	184	_i2c->frequency(400000);
dcnichols	0:6f07db1b8cdc	185
dcnichols	0:6f07db1b8cdc	186	// Reset all registers to POR values
dcnichols	0:6f07db1b8cdc	187	MMA845x::writeRegister(CTRL_REG2, 0x40); //REG 0x2B
dcnichols	0:6f07db1b8cdc	188	do{
dcnichols	0:6f07db1b8cdc	189	// wait for the reset bit to clear
dcnichols	0:6f07db1b8cdc	190	reg_val = MMA845x::readRegister(CTRL_REG2) & 0x40;
dcnichols	0:6f07db1b8cdc	191	}while(reg_val);
dcnichols	0:6f07db1b8cdc	192
dcnichols	0:6f07db1b8cdc	193	// setup the registers that are common among modes
dcnichols	0:6f07db1b8cdc	194	MMA845x::writeRegister(CTRL_REG1, 0xA0); //REG 0x2A 0x98 = ASLP_RATE: 6.25hz Data Rate: 50hz
dcnichols	0:6f07db1b8cdc	195	MMA845x::writeRegister(CTRL_REG2, 0x18); //REG 0x2B Setup for low-power, no auto-sleep
dcnichols	0:6f07db1b8cdc	196	MMA845x::writeRegister(CTRL_REG3, 0x00); //REG 0x2C No interrupts wake device, active low int, push-pull
dcnichols	0:6f07db1b8cdc	197	MMA845x::writeRegister(CTRL_REG4, 0x00); //REG 0x2D
dcnichols	0:6f07db1b8cdc	198	MMA845x::writeRegister(CTRL_REG5, 0xFD); //REG 0x2E All interrupt sources to INT1
dcnichols	0:6f07db1b8cdc	199
dcnichols	0:6f07db1b8cdc	200	MMA845x::writeRegister(XYZ_DATA_CFG, 0x11); //REG 0x0E HPF / scale +/-2,4,8g
dcnichols	0:6f07db1b8cdc	201	MMA845x::writeRegister(HP_FILTER_CUTOFF, 0x00); //REG 0x0F HPF settings
dcnichols	0:6f07db1b8cdc	202
dcnichols	0:6f07db1b8cdc	203	return;
dcnichols	0:6f07db1b8cdc	204	}
dcnichols	0:6f07db1b8cdc	205
dcnichols	0:6f07db1b8cdc	206	void MMA845x::enableDataReadyMode(void) const
dcnichols	0:6f07db1b8cdc	207	{
dcnichols	0:6f07db1b8cdc	208	MMA845x::init();
dcnichols	0:6f07db1b8cdc	209	//MMA845x::writeRegister(SYSMOD, 0x01); //REG 0x0B This register is read only
dcnichols	0:6f07db1b8cdc	210	//MMA845x::writeRegister(INT_SOURCE, 0x01); //REG 0x0C This register is read only
dcnichols	0:6f07db1b8cdc	211	MMA845x::writeRegister(CTRL_REG4, 0x09); //REG 0x2D Enable data ready interrupt
dcnichols	0:6f07db1b8cdc	212
dcnichols	0:6f07db1b8cdc	213
dcnichols	0:6f07db1b8cdc	214
dcnichols	0:6f07db1b8cdc	215	//MMA845x::writeRegister(CTRL_REG1, 0xA3); //REG 0x2A 0xA3 = ASLP_RATE: 6.25hz Data Rate: 50hz, Fast Read, Active mode
dcnichols	0:6f07db1b8cdc	216
dcnichols	0:6f07db1b8cdc	217	MMA845x::writeRegister(XYZ_DATA_CFG, 0x11); //REG 0x0E HPF / scale +/-2,4,8g - Enable HPF
dcnichols	0:6f07db1b8cdc	218	MMA845x::writeRegister(HP_FILTER_CUTOFF, 0x10); //REG 0x0F HPF settings - HPF for pulse on, 0.25Hz cutoff for 12.5rate
dcnichols	0:6f07db1b8cdc	219
dcnichols	0:6f07db1b8cdc	220
dcnichols	0:6f07db1b8cdc	221	MMA845x::writeRegister(PULSE_CFG, 0x41); //REG 0x21 Setup single pulse in x axis
dcnichols	0:6f07db1b8cdc	222	MMA845x::writeRegister(PULSE_THSX, 0x09); //REG 0x21 Setup pulse threshold in x axis
dcnichols	0:6f07db1b8cdc	223	MMA845x::writeRegister(PULSE_TMLT, 0x14); //REG 0x21 Setup single pulse in x axis
dcnichols	0:6f07db1b8cdc	224	MMA845x::writeRegister(PULSE_LTCY, 0x04); //REG 0x21 Setup single latency in x axis
dcnichols	0:6f07db1b8cdc	225
dcnichols	0:6f07db1b8cdc	226
dcnichols	0:6f07db1b8cdc	227	MMA845x::writeRegister(CTRL_REG1, 0xA1); //REG 0x2A 0x98 = ASLP_RATE: 6.25hz Data Rate: 12.5hz, Normal Read, Active mode
dcnichols	0:6f07db1b8cdc	228
dcnichols	0:6f07db1b8cdc	229	}
dcnichols	0:6f07db1b8cdc	230
dcnichols	0:6f07db1b8cdc	231	void MMA845x::enableMotionMode(void) const
dcnichols	0:6f07db1b8cdc	232	{
dcnichols	0:6f07db1b8cdc	233	MMA845x::init();
dcnichols	0:6f07db1b8cdc	234
dcnichols	0:6f07db1b8cdc	235	MMA845x::writeRegister(CTRL_REG4, 0x04); //REG 0x2D Enable pulse interrupt
dcnichols	0:6f07db1b8cdc	236
dcnichols	0:6f07db1b8cdc	237	MMA845x::writeRegister(XYZ_DATA_CFG, 0xF1); //REG 0x0E HPF / scale +/-4g, Enable HPF for output data
dcnichols	0:6f07db1b8cdc	238	MMA845x::writeRegister(HP_FILTER_CUTOFF, 0x00); //REG 0x0F HPF settings - HPF for pulse on, 4Hz cutoff for 100Hz rate
dcnichols	0:6f07db1b8cdc	239
dcnichols	0:6f07db1b8cdc	240	MMA845x::writeRegister(FF_MT_CFG, 0xC8); //REG 0x21 Setup
dcnichols	0:6f07db1b8cdc	241	MMA845x::writeRegister(FF_MT_THS, 0x01); //REG 0x21 Setup
dcnichols	0:6f07db1b8cdc	242	MMA845x::writeRegister(FF_MT_COUNT, 0x5); //REG 0x21 Setup
dcnichols	0:6f07db1b8cdc	243
dcnichols	0:6f07db1b8cdc	244	MMA845x::writeRegister(CTRL_REG2, 0x03); //REG 0x2B Setup for low power mode, no auto-sleep
dcnichols	0:6f07db1b8cdc	245	MMA845x::writeRegister(CTRL_REG1, 0xA1); //REG 0x2A 0x98 = ASLP_RATE: 6.25hz Data Rate: 12.5Hz, Normal Read, Active mode
dcnichols	0:6f07db1b8cdc	246
dcnichols	0:6f07db1b8cdc	247	}
dcnichols	0:6f07db1b8cdc	248
dcnichols	0:6f07db1b8cdc	249	void MMA845x::enablePulseMode(void) const
dcnichols	0:6f07db1b8cdc	250	{
dcnichols	0:6f07db1b8cdc	251	MMA845x::init();
dcnichols	0:6f07db1b8cdc	252
dcnichols	0:6f07db1b8cdc	253	MMA845x::writeRegister(CTRL_REG4, 0x08); //REG 0x2D Enable pulse interrupt
dcnichols	0:6f07db1b8cdc	254
dcnichols	0:6f07db1b8cdc	255	MMA845x::writeRegister(XYZ_DATA_CFG, 0xF1); //REG 0x0E HPF / scale +/-2,4,8g - Enable HPF
dcnichols	0:6f07db1b8cdc	256	MMA845x::writeRegister(HP_FILTER_CUTOFF, 0x00); //REG 0x0F HPF settings - HPF for pulse on, 4Hz cutoff for 100Hz rate
dcnichols	0:6f07db1b8cdc	257
dcnichols	0:6f07db1b8cdc	258	MMA845x::writeRegister(PULSE_CFG, 0x50); //REG 0x21 Setup single pulse in z axis
dcnichols	0:6f07db1b8cdc	259	MMA845x::writeRegister(PULSE_THSX, 0x06); //REG 0x21 Setup pulse threshold in x axis
dcnichols	0:6f07db1b8cdc	260	MMA845x::writeRegister(PULSE_THSZ, 0x2F); //REG 0x21 Setup pulse threshold in z axis
dcnichols	0:6f07db1b8cdc	261	MMA845x::writeRegister(PULSE_TMLT, 0x28); //REG 0x21 Setup single pulse
dcnichols	0:6f07db1b8cdc	262	MMA845x::writeRegister(PULSE_LTCY, 0x0D); //REG 0x21 Setup single latency
dcnichols	0:6f07db1b8cdc	263	MMA845x::writeRegister(PULSE_WIND, 0x2D); //REG 0x21 Setup double pulse window
dcnichols	0:6f07db1b8cdc	264
dcnichols	0:6f07db1b8cdc	265	MMA845x::writeRegister(CTRL_REG2, 0x00); //REG 0x2B Setup for normal power mode, no auto-sleep
dcnichols	0:6f07db1b8cdc	266	MMA845x::writeRegister(CTRL_REG1, 0x99); //REG 0x2A 0x98 = ASLP_RATE: 6.25hz Data Rate: 100Hz, Normal Read, Active mode
dcnichols	0:6f07db1b8cdc	267
dcnichols	0:6f07db1b8cdc	268	}
dcnichols	0:6f07db1b8cdc	269
dcnichols	0:6f07db1b8cdc	270	void MMA845x::enableOrientationMode(void) const
dcnichols	0:6f07db1b8cdc	271	{
dcnichols	0:6f07db1b8cdc	272	uint16_t who_am_i = MMA845x::readRegister(WHO_AM_I);
dcnichols	0:6f07db1b8cdc	273	if(who_am_i != MMA8451)
dcnichols	0:6f07db1b8cdc	274	{
dcnichols	0:6f07db1b8cdc	275	error("%s %d: Feature not compatible with the connected device.\n", __FILE__, __LINE__);
dcnichols	0:6f07db1b8cdc	276	}
dcnichols	0:6f07db1b8cdc	277
dcnichols	0:6f07db1b8cdc	278	return;
dcnichols	0:6f07db1b8cdc	279	}
dcnichols	0:6f07db1b8cdc	280
dcnichols	0:6f07db1b8cdc	281	void MMA845x::enableTransitMode(void) const{}
dcnichols	0:6f07db1b8cdc	282	void MMA845x::enableAutoSleepMode(void) const{}
dcnichols	0:6f07db1b8cdc	283
dcnichols	0:6f07db1b8cdc	284	void MMA845x::enableFIFOMode(void) const
dcnichols	0:6f07db1b8cdc	285	{
dcnichols	0:6f07db1b8cdc	286	uint16_t who_am_i = MMA845x::readRegister(WHO_AM_I);
dcnichols	0:6f07db1b8cdc	287	if(who_am_i != MMA8451)
dcnichols	0:6f07db1b8cdc	288	{
dcnichols	0:6f07db1b8cdc	289	error("%s %d: Feature not compatible with the connected device.\n", __FILE__, __LINE__);
dcnichols	0:6f07db1b8cdc	290	}
dcnichols	0:6f07db1b8cdc	291
dcnichols	0:6f07db1b8cdc	292	//MMA845x::writeRegister(
dcnichols	0:6f07db1b8cdc	293
dcnichols	0:6f07db1b8cdc	294	return;
dcnichols	0:6f07db1b8cdc	295	}
dcnichols	0:6f07db1b8cdc	296
dcnichols	0:6f07db1b8cdc	297	uint16_t MMA845x::getX(void) const
dcnichols	0:6f07db1b8cdc	298	{
dcnichols	0:6f07db1b8cdc	299	return _data._x;
dcnichols	0:6f07db1b8cdc	300	}
dcnichols	0:6f07db1b8cdc	301
dcnichols	0:6f07db1b8cdc	302	uint16_t MMA845x::getY(void) const
dcnichols	0:6f07db1b8cdc	303	{
dcnichols	0:6f07db1b8cdc	304	return _data._y;
dcnichols	0:6f07db1b8cdc	305	}
dcnichols	0:6f07db1b8cdc	306
dcnichols	0:6f07db1b8cdc	307	uint16_t MMA845x::getZ(void) const
dcnichols	0:6f07db1b8cdc	308	{
dcnichols	0:6f07db1b8cdc	309	return _data._z;
dcnichols	0:6f07db1b8cdc	310	}
dcnichols	0:6f07db1b8cdc	311
dcnichols	0:6f07db1b8cdc	312	MMA845x_DATA MMA845x::getXYZ(void) const
dcnichols	0:6f07db1b8cdc	313	{
dcnichols	0:6f07db1b8cdc	314	return _data;
dcnichols	0:6f07db1b8cdc	315	}
dcnichols	0:6f07db1b8cdc	316
dcnichols	0:6f07db1b8cdc	317	void MMA845x::writeRegister(uint8_t const reg, uint8_t const data) const
dcnichols	0:6f07db1b8cdc	318	{
dcnichols	0:6f07db1b8cdc	319	char buf[2] = {reg, data};
dcnichols	0:6f07db1b8cdc	320	uint8_t result = 0;
dcnichols	0:6f07db1b8cdc	321
dcnichols	0:6f07db1b8cdc	322	/*
dcnichols	0:6f07db1b8cdc	323	__disable_irq(); // Tickers and other timebase events can jack up the I2C bus for some devices
dcnichols	0:6f07db1b8cdc	324	result = _i2c->write(_i2c_addr, buf, 2);
dcnichols	0:6f07db1b8cdc	325	__enable_irq(); // Just need to block during the transaction
dcnichols	0:6f07db1b8cdc	326	*/
dcnichols	0:6f07db1b8cdc	327
dcnichols	0:6f07db1b8cdc	328	result = _i2c->write(_i2c_addr, (const char *)&buf, 2, false);
dcnichols	0:6f07db1b8cdc	329
dcnichols	0:6f07db1b8cdc	330	if(0 != result)
dcnichols	0:6f07db1b8cdc	331	{
dcnichols	0:6f07db1b8cdc	332	error("%s %d: I2c write failed\n", __FILE__, __LINE__);
dcnichols	0:6f07db1b8cdc	333	}
dcnichols	0:6f07db1b8cdc	334
dcnichols	0:6f07db1b8cdc	335	return;
dcnichols	0:6f07db1b8cdc	336	}
dcnichols	0:6f07db1b8cdc	337
dcnichols	0:6f07db1b8cdc	338	uint8_t MMA845x::readRegister(uint8_t const reg) const
dcnichols	0:6f07db1b8cdc	339	{
dcnichols	0:6f07db1b8cdc	340	uint8_t result = 1, data = 0;
dcnichols	0:6f07db1b8cdc	341	/*
dcnichols	0:6f07db1b8cdc	342	__disable_irq(); // Tickers and other timebase events can jack up the I2C bus
dcnichols	0:6f07db1b8cdc	343	_i2c->start();
dcnichols	0:6f07db1b8cdc	344	result &= _i2c->write(_i2c_addr);
dcnichols	0:6f07db1b8cdc	345	result &= _i2c->write(reg);
dcnichols	0:6f07db1b8cdc	346	// issue a repeated start...
dcnichols	0:6f07db1b8cdc	347	_i2c->start();
dcnichols	0:6f07db1b8cdc	348	result &= _i2c->write(_i2c_addr \| 0x01);
dcnichols	0:6f07db1b8cdc	349	// read with nak
dcnichols	0:6f07db1b8cdc	350	data = _i2c->read(0);
dcnichols	0:6f07db1b8cdc	351	_i2c->stop();
dcnichols	0:6f07db1b8cdc	352	__enable_irq(); // Just need to block during the transaction
dcnichols	0:6f07db1b8cdc	353	*/
dcnichols	0:6f07db1b8cdc	354
dcnichols	0:6f07db1b8cdc	355	result &= _i2c->write(_i2c_addr, (const char *)&reg, 1, true);
dcnichols	0:6f07db1b8cdc	356	result &= _i2c->read(_i2c_addr, (char *)&data, 1);
dcnichols	0:6f07db1b8cdc	357
dcnichols	0:6f07db1b8cdc	358	if(1 != result)
dcnichols	0:6f07db1b8cdc	359	{
dcnichols	0:6f07db1b8cdc	360	//error("%s %d: I2C read failed\n", __FILE__, __LINE__);
dcnichols	0:6f07db1b8cdc	361	}
dcnichols	0:6f07db1b8cdc	362
dcnichols	0:6f07db1b8cdc	363	return data;
dcnichols	0:6f07db1b8cdc	364	}
dcnichols	0:6f07db1b8cdc	365
dcnichols	0:6f07db1b8cdc	366	void MMA845x::registerDump(void) const
dcnichols	0:6f07db1b8cdc	367	{
dcnichols	0:6f07db1b8cdc	368	uint8_t reg_val = 0;
dcnichols	0:6f07db1b8cdc	369	printf("Starting register dump...\n\r");
dcnichols	0:6f07db1b8cdc	370
dcnichols	0:6f07db1b8cdc	371	for(int i=0; i<0x31; i++)
dcnichols	0:6f07db1b8cdc	372	{
dcnichols	0:6f07db1b8cdc	373	reg_val = MMA845x::readRegister(i);
dcnichols	0:6f07db1b8cdc	374	printf("Reg 0x%02x: 0x%02x \n\r", i, reg_val);
dcnichols	0:6f07db1b8cdc	375	}
dcnichols	0:6f07db1b8cdc	376
dcnichols	0:6f07db1b8cdc	377	return;
dcnichols	0:6f07db1b8cdc	378	}
dcnichols	0:6f07db1b8cdc	379

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Type:	Program
Created:	15 Jul 2015
Imports:	34
Forks:	0
Commits:	1
Dependents:	0
Dependencies:	2
Followers:	15

MMA845x.cpp@0:6f07db1b8cdc, 2015-07-15 (annotated)

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