1*1664436fSMatthias Ringwald /**
2*1664436fSMatthias Ringwald * @file hal_adc.c
3*1664436fSMatthias Ringwald *
4*1664436fSMatthias Ringwald * Copyright 2008 Texas Instruments, Inc.
5*1664436fSMatthias Ringwald ***************************************************************************/
6*1664436fSMatthias Ringwald
7*1664436fSMatthias Ringwald #include "hal_adc.h"
8*1664436fSMatthias Ringwald
9*1664436fSMatthias Ringwald #include <msp430x54x.h>
10*1664436fSMatthias Ringwald #include "hal_compat.h"
11*1664436fSMatthias Ringwald
12*1664436fSMatthias Ringwald static int SavedADC12MEM0 = 0, SavedADC12MEM1 = 0, SavedADC12MEM2 = 0;
13*1664436fSMatthias Ringwald static int Acc_x = 0, Acc_y = 0, Acc_z = 0;
14*1664436fSMatthias Ringwald static int Acc_x_offset = 0, Acc_y_offset = 0, Acc_z_offset = 0;
15*1664436fSMatthias Ringwald static long int Vcc = 0, Temperature = 0;
16*1664436fSMatthias Ringwald static long int temperatureOffset = CELSIUS_OFFSET;
17*1664436fSMatthias Ringwald static unsigned char conversionType = CELSIUS, adcMode = ADC_OFF_MODE;
18*1664436fSMatthias Ringwald static unsigned char exit_active_from_ADC12 = 0;
19*1664436fSMatthias Ringwald
20*1664436fSMatthias Ringwald /************************************************************************
21*1664436fSMatthias Ringwald * @brief Turns on and initializes ADC12, accelerometer in order to
22*1664436fSMatthias Ringwald * sample x, y, z-axis inputs.
23*1664436fSMatthias Ringwald *
24*1664436fSMatthias Ringwald * @param none
25*1664436fSMatthias Ringwald *
26*1664436fSMatthias Ringwald * @return none
27*1664436fSMatthias Ringwald *************************************************************************/
halAccelerometerInit(void)28*1664436fSMatthias Ringwald void halAccelerometerInit(void)
29*1664436fSMatthias Ringwald {
30*1664436fSMatthias Ringwald adcMode = ADC_ACC_MODE;
31*1664436fSMatthias Ringwald ACC_PORT_SEL |= ACC_X_PIN + ACC_Y_PIN; //Enable A/D channel inputs
32*1664436fSMatthias Ringwald ACC_PORT_DIR &= ~(ACC_X_PIN + ACC_Y_PIN + ACC_Z_PIN);
33*1664436fSMatthias Ringwald ACC_PORT_DIR |= ACC_PWR_PIN; //Enable ACC_POWER
34*1664436fSMatthias Ringwald ACC_PORT_OUT |= ACC_PWR_PIN;
35*1664436fSMatthias Ringwald
36*1664436fSMatthias Ringwald //Sequence of channels, once, ACLK
37*1664436fSMatthias Ringwald ADC12CTL0 = ADC12ON + ADC12SHT02 + ADC12MSC;
38*1664436fSMatthias Ringwald ADC12CTL1 = ADC12SHP + ADC12CONSEQ_1 + ADC12SSEL_0;
39*1664436fSMatthias Ringwald ADC12CTL2 = ADC12RES_2;
40*1664436fSMatthias Ringwald ADC12MCTL0 = ACC_X_CHANNEL;
41*1664436fSMatthias Ringwald ADC12MCTL1 = ACC_Y_CHANNEL;
42*1664436fSMatthias Ringwald ADC12MCTL2 = ACC_Z_CHANNEL + ADC12EOS;
43*1664436fSMatthias Ringwald
44*1664436fSMatthias Ringwald // Allow the accelerometer to settle before sampling any data
45*1664436fSMatthias Ringwald
46*1664436fSMatthias Ringwald // 4.5.3-20110706-2 doesn't allow for 32-bit delay cycles
47*1664436fSMatthias Ringwald int i;
48*1664436fSMatthias Ringwald for (i=0;i<10;i++){
49*1664436fSMatthias Ringwald __delay_cycles(20000);
50*1664436fSMatthias Ringwald }
51*1664436fSMatthias Ringwald UCSCTL8 |= MODOSCREQEN;
52*1664436fSMatthias Ringwald }
53*1664436fSMatthias Ringwald
54*1664436fSMatthias Ringwald /************************************************************************
55*1664436fSMatthias Ringwald * @brief Calibrates the offset values for x, y, and z axes.
56*1664436fSMatthias Ringwald *
57*1664436fSMatthias Ringwald * @param none
58*1664436fSMatthias Ringwald *
59*1664436fSMatthias Ringwald * @return none
60*1664436fSMatthias Ringwald *************************************************************************/
halAccelerometerCalibrate(void)61*1664436fSMatthias Ringwald void halAccelerometerCalibrate(void)
62*1664436fSMatthias Ringwald {
63*1664436fSMatthias Ringwald unsigned char tempQuit;
64*1664436fSMatthias Ringwald
65*1664436fSMatthias Ringwald tempQuit = exit_active_from_ADC12;
66*1664436fSMatthias Ringwald halAdcSetQuitFromISR( 1 );
67*1664436fSMatthias Ringwald halAdcStartRead();
68*1664436fSMatthias Ringwald
69*1664436fSMatthias Ringwald __bis_SR_register(LPM3_bits + GIE);
70*1664436fSMatthias Ringwald __no_operation();
71*1664436fSMatthias Ringwald
72*1664436fSMatthias Ringwald halAccelerometerReadWithOffset(&Acc_x_offset, &Acc_y_offset, &Acc_z_offset);
73*1664436fSMatthias Ringwald halAdcSetQuitFromISR( tempQuit );
74*1664436fSMatthias Ringwald }
75*1664436fSMatthias Ringwald
76*1664436fSMatthias Ringwald /************************************************************************
77*1664436fSMatthias Ringwald * @brief Set function for the calibrated offsets for the x, y, and z axes.
78*1664436fSMatthias Ringwald *
79*1664436fSMatthias Ringwald * @param x Calibrated offset for the x-axis
80*1664436fSMatthias Ringwald *
81*1664436fSMatthias Ringwald * @param y Calibrated offset for the y-axis
82*1664436fSMatthias Ringwald *
83*1664436fSMatthias Ringwald * @param z Calibrated offset for the z-axis
84*1664436fSMatthias Ringwald *
85*1664436fSMatthias Ringwald * @return none
86*1664436fSMatthias Ringwald *************************************************************************/
halAccelerometerSetCalibratedOffset(int x,int y,int z)87*1664436fSMatthias Ringwald void halAccelerometerSetCalibratedOffset( int x, int y, int z )
88*1664436fSMatthias Ringwald {
89*1664436fSMatthias Ringwald Acc_x_offset = x;
90*1664436fSMatthias Ringwald Acc_y_offset = y;
91*1664436fSMatthias Ringwald Acc_z_offset = z;
92*1664436fSMatthias Ringwald }
93*1664436fSMatthias Ringwald
94*1664436fSMatthias Ringwald /************************************************************************
95*1664436fSMatthias Ringwald * @brief Get function for the x, y, and z axes calibrated offsets
96*1664436fSMatthias Ringwald *
97*1664436fSMatthias Ringwald * @param x Pointer to the calibrated offset for the x-axis
98*1664436fSMatthias Ringwald *
99*1664436fSMatthias Ringwald * @param y Pointer to the calibrated offset for the y-axis
100*1664436fSMatthias Ringwald *
101*1664436fSMatthias Ringwald * @param z Pointer to the calibrated offset for the z-axis
102*1664436fSMatthias Ringwald *
103*1664436fSMatthias Ringwald * @return none
104*1664436fSMatthias Ringwald *************************************************************************/
halAccelerometerGetCalibratedOffset(int * x,int * y,int * z)105*1664436fSMatthias Ringwald void halAccelerometerGetCalibratedOffset(int *x, int *y, int *z)
106*1664436fSMatthias Ringwald {
107*1664436fSMatthias Ringwald *x = Acc_x_offset;
108*1664436fSMatthias Ringwald *y = Acc_y_offset;
109*1664436fSMatthias Ringwald *z = Acc_y_offset;
110*1664436fSMatthias Ringwald }
111*1664436fSMatthias Ringwald
112*1664436fSMatthias Ringwald /************************************************************************
113*1664436fSMatthias Ringwald * @brief Get function for the x, y, and z accelerometer samples,
114*1664436fSMatthias Ringwald * including the calibrated offsets.
115*1664436fSMatthias Ringwald *
116*1664436fSMatthias Ringwald * @param x Pointer to the accelerometer reading (x-axis)
117*1664436fSMatthias Ringwald *
118*1664436fSMatthias Ringwald * @param y Pointer to the accelerometer reading (y-axis)
119*1664436fSMatthias Ringwald *
120*1664436fSMatthias Ringwald * @param z Pointer to the accelerometer reading (z-axis)
121*1664436fSMatthias Ringwald *
122*1664436fSMatthias Ringwald * @return none
123*1664436fSMatthias Ringwald *************************************************************************/
halAccelerometerRead(int * x,int * y,int * z)124*1664436fSMatthias Ringwald void halAccelerometerRead(int *x, int *y, int *z)
125*1664436fSMatthias Ringwald {
126*1664436fSMatthias Ringwald Acc_x = SavedADC12MEM0;
127*1664436fSMatthias Ringwald Acc_y = SavedADC12MEM1;
128*1664436fSMatthias Ringwald Acc_z = SavedADC12MEM2;
129*1664436fSMatthias Ringwald
130*1664436fSMatthias Ringwald *x = Acc_x - Acc_x_offset;
131*1664436fSMatthias Ringwald *y = Acc_y - Acc_y_offset;
132*1664436fSMatthias Ringwald *z = Acc_z - Acc_z_offset;
133*1664436fSMatthias Ringwald }
134*1664436fSMatthias Ringwald
135*1664436fSMatthias Ringwald /************************************************************************
136*1664436fSMatthias Ringwald * @brief Get function for the x, y, and z accelerometer samples,
137*1664436fSMatthias Ringwald * excluding the calibrated offsets.
138*1664436fSMatthias Ringwald *
139*1664436fSMatthias Ringwald * @param x Pointer to the accelerometer reading (x-axis)
140*1664436fSMatthias Ringwald *
141*1664436fSMatthias Ringwald * @param y Pointer to the accelerometer reading (y-axis)
142*1664436fSMatthias Ringwald *
143*1664436fSMatthias Ringwald * @param z Pointer to the accelerometer reading (z-axis)
144*1664436fSMatthias Ringwald *
145*1664436fSMatthias Ringwald * @return none
146*1664436fSMatthias Ringwald *************************************************************************/
halAccelerometerReadWithOffset(int * x,int * y,int * z)147*1664436fSMatthias Ringwald void halAccelerometerReadWithOffset(int *x, int *y, int *z)
148*1664436fSMatthias Ringwald {
149*1664436fSMatthias Ringwald *x = SavedADC12MEM0;
150*1664436fSMatthias Ringwald *y = SavedADC12MEM1;
151*1664436fSMatthias Ringwald *z = SavedADC12MEM2;
152*1664436fSMatthias Ringwald }
153*1664436fSMatthias Ringwald
154*1664436fSMatthias Ringwald /************************************************************************
155*1664436fSMatthias Ringwald * @brief Disables the ADC12, accelerometer that sampled x, y, z-axis inputs.
156*1664436fSMatthias Ringwald *
157*1664436fSMatthias Ringwald * @param none
158*1664436fSMatthias Ringwald *
159*1664436fSMatthias Ringwald * @return none
160*1664436fSMatthias Ringwald *************************************************************************/
halAccelerometerShutDown(void)161*1664436fSMatthias Ringwald void halAccelerometerShutDown(void)
162*1664436fSMatthias Ringwald {
163*1664436fSMatthias Ringwald //Turn off ADC Module
164*1664436fSMatthias Ringwald ADC12CTL0 &= ~( ADC12ON + ADC12ENC );
165*1664436fSMatthias Ringwald ACC_PORT_OUT &= ~ACC_PWR_PIN; //Disable ACC_POWER
166*1664436fSMatthias Ringwald
167*1664436fSMatthias Ringwald //Disable A/D channel inputs
168*1664436fSMatthias Ringwald ACC_PORT_SEL &= ~(ACC_X_PIN + ACC_Y_PIN + ACC_Z_PIN);
169*1664436fSMatthias Ringwald ACC_PORT_DIR |= (ACC_X_PIN + ACC_Y_PIN + ACC_Z_PIN + ACC_PWR_PIN);
170*1664436fSMatthias Ringwald ACC_PORT_OUT &= ~(ACC_X_PIN + ACC_Y_PIN + ACC_Z_PIN + ACC_PWR_PIN);
171*1664436fSMatthias Ringwald
172*1664436fSMatthias Ringwald adcMode = ADC_OFF_MODE;
173*1664436fSMatthias Ringwald }
174*1664436fSMatthias Ringwald
175*1664436fSMatthias Ringwald /************************************************************************
176*1664436fSMatthias Ringwald * @brief Intializes the ADC12 to sample Temperature and Vcc.
177*1664436fSMatthias Ringwald *
178*1664436fSMatthias Ringwald * @param none
179*1664436fSMatthias Ringwald *
180*1664436fSMatthias Ringwald * @return none
181*1664436fSMatthias Ringwald *************************************************************************/
halAdcInitTempVcc(void)182*1664436fSMatthias Ringwald void halAdcInitTempVcc(void)
183*1664436fSMatthias Ringwald {
184*1664436fSMatthias Ringwald //Sequence of channels, once,
185*1664436fSMatthias Ringwald adcMode = ADC_TEMP_MODE;
186*1664436fSMatthias Ringwald UCSCTL8 |= MODOSCREQEN;
187*1664436fSMatthias Ringwald ADC12CTL0 = ADC12ON + ADC12SHT0_15 + ADC12MSC + + ADC12REFON + ADC12REF2_5V;
188*1664436fSMatthias Ringwald ADC12CTL1 = ADC12SHP + ADC12CONSEQ_1 + ADC12SSEL_0;
189*1664436fSMatthias Ringwald ADC12CTL2 = ADC12RES_2;
190*1664436fSMatthias Ringwald
191*1664436fSMatthias Ringwald ADC12MCTL0 = ADC12SREF_1 + TEMP_CHANNEL;
192*1664436fSMatthias Ringwald ADC12MCTL1 = ADC12SREF_1 + VCC_CHANNEL + ADC12EOS;
193*1664436fSMatthias Ringwald }
194*1664436fSMatthias Ringwald
195*1664436fSMatthias Ringwald /************************************************************************
196*1664436fSMatthias Ringwald * @brief Turns off / disable the ADC12.
197*1664436fSMatthias Ringwald *
198*1664436fSMatthias Ringwald * @param none
199*1664436fSMatthias Ringwald *
200*1664436fSMatthias Ringwald * @return none
201*1664436fSMatthias Ringwald *************************************************************************/
halAdcShutDownTempVcc(void)202*1664436fSMatthias Ringwald void halAdcShutDownTempVcc(void)
203*1664436fSMatthias Ringwald {
204*1664436fSMatthias Ringwald ADC12CTL0 &= ~ ( ADC12ON + ADC12ENC + ADC12REFON );
205*1664436fSMatthias Ringwald adcMode = ADC_OFF_MODE;
206*1664436fSMatthias Ringwald }
207*1664436fSMatthias Ringwald
208*1664436fSMatthias Ringwald /************************************************************************
209*1664436fSMatthias Ringwald * @brief Sets the conversion type to either Farenheit (F) or Celsius (C).
210*1664436fSMatthias Ringwald *
211*1664436fSMatthias Ringwald * @param conversion The #define constant CELSIUS or FAHRENHEIT.
212*1664436fSMatthias Ringwald *
213*1664436fSMatthias Ringwald * @return none
214*1664436fSMatthias Ringwald *************************************************************************/
halAdcSetTempConversionType(unsigned char conversion)215*1664436fSMatthias Ringwald void halAdcSetTempConversionType(unsigned char conversion)
216*1664436fSMatthias Ringwald {
217*1664436fSMatthias Ringwald conversionType = conversion;
218*1664436fSMatthias Ringwald }
219*1664436fSMatthias Ringwald
220*1664436fSMatthias Ringwald /************************************************************************
221*1664436fSMatthias Ringwald * @brief Set function for the calibrated temperature offset.
222*1664436fSMatthias Ringwald *
223*1664436fSMatthias Ringwald * @param offset The temperature offset.
224*1664436fSMatthias Ringwald *
225*1664436fSMatthias Ringwald * @return none
226*1664436fSMatthias Ringwald *************************************************************************/
halAdcSetTempOffset(long offset)227*1664436fSMatthias Ringwald void halAdcSetTempOffset(long offset)
228*1664436fSMatthias Ringwald {
229*1664436fSMatthias Ringwald temperatureOffset = offset;
230*1664436fSMatthias Ringwald }
231*1664436fSMatthias Ringwald
232*1664436fSMatthias Ringwald /************************************************************************
233*1664436fSMatthias Ringwald * @brief Get function for the current temperature value.
234*1664436fSMatthias Ringwald *
235*1664436fSMatthias Ringwald * @param none
236*1664436fSMatthias Ringwald *
237*1664436fSMatthias Ringwald * @return The current temperature value.
238*1664436fSMatthias Ringwald *************************************************************************/
halAdcGetTemp(void)239*1664436fSMatthias Ringwald int halAdcGetTemp(void)
240*1664436fSMatthias Ringwald {
241*1664436fSMatthias Ringwald return Temperature;
242*1664436fSMatthias Ringwald }
243*1664436fSMatthias Ringwald
244*1664436fSMatthias Ringwald /************************************************************************
245*1664436fSMatthias Ringwald * @brief Get function for the current Vcc value.
246*1664436fSMatthias Ringwald *
247*1664436fSMatthias Ringwald * @param none
248*1664436fSMatthias Ringwald *
249*1664436fSMatthias Ringwald * @return The current Vcc value.
250*1664436fSMatthias Ringwald *************************************************************************/
halAdcGetVcc(void)251*1664436fSMatthias Ringwald int halAdcGetVcc(void)
252*1664436fSMatthias Ringwald {
253*1664436fSMatthias Ringwald return Vcc;
254*1664436fSMatthias Ringwald }
255*1664436fSMatthias Ringwald
256*1664436fSMatthias Ringwald /************************************************************************
257*1664436fSMatthias Ringwald * @brief Converts the Vcc and Temp readings from the ADC to BCD format.
258*1664436fSMatthias Ringwald *
259*1664436fSMatthias Ringwald * @param none
260*1664436fSMatthias Ringwald *
261*1664436fSMatthias Ringwald * @return none
262*1664436fSMatthias Ringwald *************************************************************************/
halAdcConvertTempVccFromADC(void)263*1664436fSMatthias Ringwald void halAdcConvertTempVccFromADC(void)
264*1664436fSMatthias Ringwald {
265*1664436fSMatthias Ringwald long multiplier, offset;
266*1664436fSMatthias Ringwald
267*1664436fSMatthias Ringwald // Convert Vcc
268*1664436fSMatthias Ringwald Vcc = SavedADC12MEM1;
269*1664436fSMatthias Ringwald Vcc = Vcc * 50;
270*1664436fSMatthias Ringwald Vcc = Vcc / 4096;
271*1664436fSMatthias Ringwald
272*1664436fSMatthias Ringwald // Convert Temperature
273*1664436fSMatthias Ringwald if (conversionType == CELSIUS)
274*1664436fSMatthias Ringwald {
275*1664436fSMatthias Ringwald multiplier = CELSIUS_MUL;
276*1664436fSMatthias Ringwald offset = temperatureOffset;
277*1664436fSMatthias Ringwald }
278*1664436fSMatthias Ringwald else
279*1664436fSMatthias Ringwald {
280*1664436fSMatthias Ringwald multiplier = (long) CELSIUS_MUL * 9 /5 ;
281*1664436fSMatthias Ringwald offset = (long) temperatureOffset * 9 / 5 - 320;
282*1664436fSMatthias Ringwald }
283*1664436fSMatthias Ringwald Temperature = (long) SavedADC12MEM0 * multiplier/4096 - offset;
284*1664436fSMatthias Ringwald }
285*1664436fSMatthias Ringwald
286*1664436fSMatthias Ringwald /************************************************************************
287*1664436fSMatthias Ringwald * @brief Get function for the temperature and Vcc samples in "xxx^C/F" and
288*1664436fSMatthias Ringwald * "x.xV" format.
289*1664436fSMatthias Ringwald *
290*1664436fSMatthias Ringwald * @param TemperatureStr The string that holds the temperature reading
291*1664436fSMatthias Ringwald *
292*1664436fSMatthias Ringwald * @param Vcc The string that holds the Vcc reading
293*1664436fSMatthias Ringwald *
294*1664436fSMatthias Ringwald * @return none
295*1664436fSMatthias Ringwald *************************************************************************/
halAdcReadTempVcc(char * TemperatureStr,char * VccStr)296*1664436fSMatthias Ringwald void halAdcReadTempVcc(char *TemperatureStr, char *VccStr)
297*1664436fSMatthias Ringwald {
298*1664436fSMatthias Ringwald unsigned char i, leadingZero = 0;
299*1664436fSMatthias Ringwald long int dummyTemperature, dummyVcc;
300*1664436fSMatthias Ringwald
301*1664436fSMatthias Ringwald halAdcConvertTempVccFromADC();
302*1664436fSMatthias Ringwald dummyTemperature = Temperature;
303*1664436fSMatthias Ringwald dummyVcc = Vcc;
304*1664436fSMatthias Ringwald for (i = 0; i < 6; i++)
305*1664436fSMatthias Ringwald TemperatureStr[i] = '\0';
306*1664436fSMatthias Ringwald i=0;
307*1664436fSMatthias Ringwald //Check for negative
308*1664436fSMatthias Ringwald if (Temperature < 0)
309*1664436fSMatthias Ringwald {
310*1664436fSMatthias Ringwald TemperatureStr[i++]='-';
311*1664436fSMatthias Ringwald Temperature = -Temperature;
312*1664436fSMatthias Ringwald }
313*1664436fSMatthias Ringwald TemperatureStr[i] ='0';
314*1664436fSMatthias Ringwald if (Temperature >= 1000)
315*1664436fSMatthias Ringwald {
316*1664436fSMatthias Ringwald TemperatureStr[i]='1';
317*1664436fSMatthias Ringwald Temperature -=1000;
318*1664436fSMatthias Ringwald leadingZero = 1;
319*1664436fSMatthias Ringwald }
320*1664436fSMatthias Ringwald if (leadingZero == 1)
321*1664436fSMatthias Ringwald i++;
322*1664436fSMatthias Ringwald //100s digit
323*1664436fSMatthias Ringwald TemperatureStr[i] = '0';
324*1664436fSMatthias Ringwald if (Temperature >= 100)
325*1664436fSMatthias Ringwald {
326*1664436fSMatthias Ringwald do
327*1664436fSMatthias Ringwald {
328*1664436fSMatthias Ringwald TemperatureStr[i]++;
329*1664436fSMatthias Ringwald Temperature -=100;
330*1664436fSMatthias Ringwald }
331*1664436fSMatthias Ringwald while (Temperature >=100);
332*1664436fSMatthias Ringwald leadingZero = 1;
333*1664436fSMatthias Ringwald }
334*1664436fSMatthias Ringwald if (leadingZero == 1)
335*1664436fSMatthias Ringwald i++;
336*1664436fSMatthias Ringwald //10s digit
337*1664436fSMatthias Ringwald TemperatureStr[i] = '0';
338*1664436fSMatthias Ringwald if (Temperature >=10)
339*1664436fSMatthias Ringwald {
340*1664436fSMatthias Ringwald do
341*1664436fSMatthias Ringwald {
342*1664436fSMatthias Ringwald TemperatureStr[i]++;
343*1664436fSMatthias Ringwald Temperature -=10;
344*1664436fSMatthias Ringwald }
345*1664436fSMatthias Ringwald while (Temperature >=10);
346*1664436fSMatthias Ringwald }
347*1664436fSMatthias Ringwald
348*1664436fSMatthias Ringwald TemperatureStr[++i] = '^';
349*1664436fSMatthias Ringwald if (conversionType == CELSIUS)
350*1664436fSMatthias Ringwald TemperatureStr[++i]='C';
351*1664436fSMatthias Ringwald else
352*1664436fSMatthias Ringwald TemperatureStr[++i]='F';
353*1664436fSMatthias Ringwald
354*1664436fSMatthias Ringwald VccStr[0] = '0';
355*1664436fSMatthias Ringwald VccStr[2] = '0';
356*1664436fSMatthias Ringwald while (Vcc >= 10)
357*1664436fSMatthias Ringwald {
358*1664436fSMatthias Ringwald VccStr[0]++;
359*1664436fSMatthias Ringwald Vcc -= 10;
360*1664436fSMatthias Ringwald }
361*1664436fSMatthias Ringwald VccStr[2] += Vcc;
362*1664436fSMatthias Ringwald Temperature = dummyTemperature;
363*1664436fSMatthias Ringwald Vcc = dummyVcc;
364*1664436fSMatthias Ringwald }
365*1664436fSMatthias Ringwald
366*1664436fSMatthias Ringwald /*----------------------------------------------------------------------------*/
367*1664436fSMatthias Ringwald /************************************************************************
368*1664436fSMatthias Ringwald * @brief Starts the ADC conversion.
369*1664436fSMatthias Ringwald *
370*1664436fSMatthias Ringwald * @param none
371*1664436fSMatthias Ringwald *
372*1664436fSMatthias Ringwald * @return none
373*1664436fSMatthias Ringwald *************************************************************************/
halAdcStartRead(void)374*1664436fSMatthias Ringwald void halAdcStartRead(void)
375*1664436fSMatthias Ringwald {
376*1664436fSMatthias Ringwald ADC12IFG &= ~(BIT1+BIT0); // Clear any pending flags
377*1664436fSMatthias Ringwald
378*1664436fSMatthias Ringwald if (adcMode == ADC_ACC_MODE)
379*1664436fSMatthias Ringwald {
380*1664436fSMatthias Ringwald ADC12CTL0 |= ADC12ENC | ADC12SC ;
381*1664436fSMatthias Ringwald ADC12IE |= BIT2;
382*1664436fSMatthias Ringwald }
383*1664436fSMatthias Ringwald else
384*1664436fSMatthias Ringwald {
385*1664436fSMatthias Ringwald ADC12CTL0 |= ADC12REFON; // Turn on ADC12 reference
386*1664436fSMatthias Ringwald
387*1664436fSMatthias Ringwald // Delay to stabilize ADC12 reference assuming the fastest MCLK of 18 MHz.
388*1664436fSMatthias Ringwald // 35 us = 1 / 18 MHz * 630
389*1664436fSMatthias Ringwald __delay_cycles(630);
390*1664436fSMatthias Ringwald
391*1664436fSMatthias Ringwald ADC12IE |= BIT1; // Enable interrupt
392*1664436fSMatthias Ringwald ADC12CTL0 |= ADC12ENC | ADC12SC;
393*1664436fSMatthias Ringwald }
394*1664436fSMatthias Ringwald }
395*1664436fSMatthias Ringwald
396*1664436fSMatthias Ringwald /************************************************************************
397*1664436fSMatthias Ringwald * @brief Sets the flag that causes an exit into active CPU mode from
398*1664436fSMatthias Ringwald * the ADC12 ISR.
399*1664436fSMatthias Ringwald *
400*1664436fSMatthias Ringwald * @param quit
401*1664436fSMatthias Ringwald *
402*1664436fSMatthias Ringwald * - 1 - Exit active from ADC12 ISR
403*1664436fSMatthias Ringwald * - 0 - Remain in LPMx on exit from ADC12ISR
404*1664436fSMatthias Ringwald *
405*1664436fSMatthias Ringwald * @return none
406*1664436fSMatthias Ringwald *************************************************************************/
halAdcSetQuitFromISR(unsigned char quit)407*1664436fSMatthias Ringwald void halAdcSetQuitFromISR(unsigned char quit)
408*1664436fSMatthias Ringwald {
409*1664436fSMatthias Ringwald exit_active_from_ADC12 = quit;
410*1664436fSMatthias Ringwald }
411*1664436fSMatthias Ringwald
412*1664436fSMatthias Ringwald /*----------------------------------------------------------------------------*/
413*1664436fSMatthias Ringwald
414*1664436fSMatthias Ringwald #ifdef __GNUC__
415*1664436fSMatthias Ringwald __attribute__((interrupt(ADC12_VECTOR)))
416*1664436fSMatthias Ringwald #endif
417*1664436fSMatthias Ringwald #ifdef __IAR_SYSTEMS_ICC__
418*1664436fSMatthias Ringwald #pragma vector=ADC12_VECTOR
419*1664436fSMatthias Ringwald __interrupt
420*1664436fSMatthias Ringwald #endif
ADC12_ISR(void)421*1664436fSMatthias Ringwald void ADC12_ISR(void)
422*1664436fSMatthias Ringwald {
423*1664436fSMatthias Ringwald SavedADC12MEM0 = ADC12MEM0; // Store the sampled data
424*1664436fSMatthias Ringwald SavedADC12MEM1 = ADC12MEM1;
425*1664436fSMatthias Ringwald SavedADC12MEM2 = ADC12MEM2;
426*1664436fSMatthias Ringwald ADC12IFG = 0; // Clear the interrupt flags
427*1664436fSMatthias Ringwald ADC12CTL0 &= ~( ADC12ENC | ADC12SC | ADC12REFON);
428*1664436fSMatthias Ringwald if (exit_active_from_ADC12) __bic_SR_register_on_exit(LPM3_bits);
429*1664436fSMatthias Ringwald }
430