programa para ver la posición de la tarjeta por medio del acelerometro que trae incorporado

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MMA8451Q.cpp

00001 /* Copyright (c) 2010-2011 mbed.org, MIT License
00002 *
00003 * Permission is hereby granted, free of charge, to any person obtaining a copy of this software
00004 * and associated documentation files (the "Software"), to deal in the Software without
00005 * restriction, including without limitation the rights to use, copy, modify, merge, publish,
00006 * distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the
00007 * Software is furnished to do so, subject to the following conditions:
00008 *
00009 * The above copyright notice and this permission notice shall be included in all copies or
00010 * substantial portions of the Software.
00011 *
00012 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING
00013 * BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
00014 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
00015 * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
00016 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
00017 */
00018 
00019 #include "MMA8451Q.h"
00020 
00021 #define INT_SOURCE        0x0C 
00022 #define REG_WHO_AM_I      0x0D
00023 #define HP_FILTER_CUTOFF  0x0F 
00024 #define PULSE_CFG         0x21 
00025 #define PULSE_SRC         0x22 
00026 #define PULSE_THSX        0x23 
00027 #define PULSE_THSY        0x24 
00028 #define PULSE_THSZ        0x25 
00029 #define PULSE_TMLT        0x26 
00030 #define PULSE_LTCY        0x27 
00031 #define PULSE_WIND        0x28 
00032 #define REG_CTRL_REG_1    0x2A 
00033 #define CTRL_REG2         0x2B
00034 #define CTRL_REG4         0x2D 
00035 #define CTRL_REG5         0x2E 
00036 #define REG_OUT_X_MSB     0x01
00037 #define REG_OUT_Y_MSB     0x03
00038 #define REG_OUT_Z_MSB     0x05
00039 
00040 #define UINT14_MAX        16383
00041 
00042 MMA8451Q::MMA8451Q(PinName sda, PinName scl, int addr) : m_i2c(sda, scl), m_addr(addr) {
00043     // activate the peripheral
00044     uint8_t data[2] = {REG_CTRL_REG_1, 0x01};
00045     writeRegs(data, 2);
00046 }
00047 
00048 MMA8451Q::~MMA8451Q() { }
00049 
00050 uint8_t MMA8451Q::getWhoAmI() {
00051     uint8_t who_am_i = 0;
00052     readRegs(REG_WHO_AM_I, &who_am_i, 1);
00053     return who_am_i;
00054 }
00055 
00056 float MMA8451Q::getAccX() {
00057 //divide by 4096 b/c MMA output is 4096 counts per g so this f outputs accelorometer value formatted to g (gravity)
00058     return (float(getAccAxis(REG_OUT_X_MSB))/4096.0);
00059 }
00060 
00061 float MMA8451Q::getAccY() {
00062     return (float(getAccAxis(REG_OUT_Y_MSB))/4096.0);
00063 }
00064 
00065 float MMA8451Q::getAccZ() {
00066     return (float(getAccAxis(REG_OUT_Z_MSB))/4096.0);
00067 }
00068 
00069 void MMA8451Q::getAccAllAxis(float * res) {
00070     res[0] = getAccX();
00071     res[1] = getAccY();
00072     res[2] = getAccZ();
00073 }
00074 
00075 int16_t MMA8451Q::getAccAxis(uint8_t addr) {
00076     int16_t acc;
00077     uint8_t res[2];
00078     readRegs(addr, res, 2);
00079 
00080     acc = (res[0] << 6) | (res[1] >> 2);
00081     if (acc > UINT14_MAX/2)
00082         acc -= UINT14_MAX;
00083 
00084     return acc;
00085 }
00086 
00087 void MMA8451Q::setDoubleTap(void){
00088 //Implemented directly from Freescale's AN4072 
00089 //Added to MMA8451Q lib
00090 
00091     uint8_t CTRL_REG1_Data;
00092 //    int adds;
00093    uint8_t data[2] = {REG_CTRL_REG_1, 0x08};
00094     
00095     //400 Hz, Standby Mode
00096     writeRegs(data,2);
00097     
00098     //Enable X, Y and Z Double Pulse with DPA = 0 no double pulse abort    
00099     data[0]=PULSE_CFG;data[1]=0x2A;
00100     writeRegs(data,2);
00101     
00102     //SetThreshold 3g on X and Y and 5g on Z
00103     //Note: Every step is 0.063g
00104     //3 g/0.063g = 48 counts
00105     //5g/0.063g = 79 counts
00106     data[0]=PULSE_THSX;data[1]=0x30;
00107     writeRegs(data,2);//Set X Threshold to 3g 
00108     data[0]=PULSE_THSY;data[1]=0x30;
00109     writeRegs(data,2);//Set Y Threshold to 3g 
00110     data[0]=PULSE_THSZ;data[1]=0x4F;
00111     writeRegs(data,2);//Set Z Threshold to 5g
00112 
00113     //Set Time Limit for Tap Detection to 60 ms LP Mode
00114     //Note: 400 Hz ODR, Time step is 1.25 ms per step
00115     //60 ms/1.25 ms = 48 counts 
00116     data[0]=PULSE_TMLT;data[1]=0x30;
00117     writeRegs(data,2);//60 ms
00118     
00119     //Set Latency Time to 200 ms
00120     //Note: 400 Hz ODR LPMode, Time step is 2.5 ms per step 00 ms/2.5 ms = 80 counts
00121     data[0]=PULSE_LTCY;data[1]=0x50;
00122     writeRegs(data,2);//200 ms
00123     
00124     //Set Time Window for second tap to 300 ms
00125     //Note: 400 Hz ODR LP Mode, Time step is 2.5 ms per step
00126     //300 ms/2.5 ms = 120 counts
00127     data[0]=PULSE_WIND;data[1]=0x78;
00128     writeRegs(data,2);//300 ms
00129     
00130     //Route INT1 to System Interrupt
00131     data[0]=CTRL_REG4;data[1]=0x08;
00132     writeRegs(data,2);//Enable Pulse Interrupt in System CTRL_REG4
00133     data[0]=CTRL_REG5;data[1]=0x08; 
00134     writeRegs(data,2);//Route Pulse Interrupt to INT1 hardware Pin CTRL_REG5
00135 
00136     //Set the device to Active Mode
00137     readRegs(0x2A,&CTRL_REG1_Data,1);//Read out the contents of the register 
00138     CTRL_REG1_Data |= 0x01; //Change the value in the register to Active Mode.
00139     data[0]=REG_CTRL_REG_1; 
00140     data[1]=CTRL_REG1_Data;
00141     writeRegs(data,2);//Write in the updated value to put the device in Active Mode
00142 }
00143 
00144 
00145 void MMA8451Q::readRegs(int addr, uint8_t * data, int len) {
00146     char t[1] = {addr};
00147     m_i2c.write(m_addr, t, 1, true);
00148     m_i2c.read(m_addr, (char *)data, len);
00149 }
00150 
00151 
00152 
00153 void MMA8451Q::writeRegs(uint8_t * data, int len) {
00154     m_i2c.write(m_addr, (char *)data, len);
00155 }