Mercurial > templog
changeset 112:5234ccc416e8 tilt
split ds18b20 and fixed sensors
author | Matt Johnston <matt@ucc.asn.au> |
---|---|
date | Wed, 19 Sep 2012 23:23:06 +0800 |
parents | cdb26addf4f2 |
children | d69eb9f3274d |
files | bma180.c bma180.h bma180_internal.h main.c |
diffstat | 4 files changed, 77 insertions(+), 12 deletions(-) [+] |
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line diff
--- a/bma180.c Wed Sep 19 22:40:49 2012 +0800 +++ b/bma180.c Wed Sep 19 23:23:06 2012 +0800 @@ -81,7 +81,7 @@ // Set ee_w bit temp = bma180_read(CTRLREG0); - temp |= 0x10; + temp |= EE_W; bma180_write(CTRLREG0, temp); // Have to set ee_w to write any other registers // Set BW @@ -144,3 +144,21 @@ *temperature = bma180_read(TEMPERATURE); } + +void +bma180_sleep(void) +{ + uint8_t temp; + temp = bma180_read(CTRLREG0); + temp |= SLEEP; + bma180_write(CTRLREG0, temp); // Have to set ee_w to write any other registers +} + +void +bma180_wake(void) +{ + uint8_t temp; + temp = bma180_read(CTRLREG0); + temp &= ~SLEEP; + bma180_write(CTRLREG0, temp); // Have to set ee_w to write any other registers +}
--- a/bma180.h Wed Sep 19 22:40:49 2012 +0800 +++ b/bma180.h Wed Sep 19 23:23:06 2012 +0800 @@ -10,5 +10,7 @@ void bma180_get_reading(uint16_t *x, uint16_t *y, uint16_t *z, uint8_t *temperature); void bma180_init(uint8_t range, uint8_t bw); +void bma180_sleep(void); +void bma180_wake(void); #endif /* BMA180_H_ */
--- a/bma180_internal.h Wed Sep 19 22:40:49 2012 +0800 +++ b/bma180_internal.h Wed Sep 19 23:23:06 2012 +0800 @@ -41,6 +41,9 @@ #define OLSB1 0x35 +#define EE_W (1<<4) +#define SLEEP (1<<1) + //====================// //Range setting #define RANGESHIFT 1
--- a/main.c Wed Sep 19 22:40:49 2012 +0800 +++ b/main.c Wed Sep 19 23:23:06 2012 +0800 @@ -13,6 +13,7 @@ #include "simple_ds18b20.h" #include "onewire.h" +#include "bma180.h" // configuration params // - measurement interval @@ -45,8 +46,11 @@ // adjust emperically, be sure to allow enough stack space too #define TOTAL_MEASUREMENTS 840 +// number of fixed sensors, should match setup_fixed_sensors() +#define N_FIXED_SENSORS 4 + // each sensor slot uses 8 bytes -#define MAX_SENSORS 6 +#define MAX_DS18B20 6 // fixed at 8, have a shorter name #define ID_LEN OW_ROMCODE_SIZE @@ -101,9 +105,13 @@ static char readbuf[30]; static uint8_t have_cmd; +// number of total sensors. non-ds18b20 sensors go at the end of the list. static uint8_t n_sensors; -static uint8_t sensor_id[MAX_SENSORS][ID_LEN]; +// number of ds18b20 sensors +static uint8_t n_ds18b20; +static uint8_t ds18b20_id[MAX_DS18B20][ID_LEN]; +static const char *fixed_sensor_P[N_FIXED_SENSORS]; int uart_putchar(char c, FILE *stream); static void long_delay(int ms); @@ -319,13 +327,27 @@ fprintf_P(crc_stdout, PSTR("wake=%hhu\n"), wake_secs); fprintf_P(crc_stdout, PSTR("tick_secs=%d\n"), TICK); fprintf_P(crc_stdout, PSTR("tick_wake=%d\n"), SLEEP_COMPARE); - fprintf_P(crc_stdout, PSTR("maxsens=%hhu\n"), MAX_SENSORS); + fprintf_P(crc_stdout, PSTR("maxds=%hhu\n"), MAX_DS18B20); fprintf_P(crc_stdout, PSTR("totalmeas=%hu\n"), TOTAL_MEASUREMENTS); fprintf_P(crc_stdout, PSTR("sensors=%hhu\n"), n_sensors); + fprintf_P(crc_stdout, PSTR("n_ds=%hhu\n"), n_ds18b20); for (uint8_t s = 0; s < n_sensors; s++) { fprintf_P(crc_stdout, PSTR("sensor_id%hhu="), s); - printhex(sensor_id[s], ID_LEN, crc_stdout); + const char *type_P; + if (s < n_ds18b20) + { + printhex(ds18b20_id[s], ID_LEN, crc_stdout); + type_P = PSTR("ds\n"); + } + else + { + fprintf_P(crc_stdout, fixed_sensor_P[s-n_ds18b20]); + type_P = PSTR("fixed\n"); + } + fputc('\n', crc_stdout); + fprintf_P(crc_stdout, PSTR("sensor_type%hhu="), s); + fprintf_P(crc_stdout, type_P); fputc('\n', crc_stdout); } fprintf_P(crc_stdout, PSTR("measurements=%hu\n"), n_measurements); @@ -394,7 +416,22 @@ } static void -init_sensors() +init_fixed_sensors(void) +{ + fixed_sensor_P[0] = PSTR("accelx"); + fixed_sensor_P[1] = PSTR("accely"); + fixed_sensor_P[2] = PSTR("accelz"); + fixed_sensor_P[3] = PSTR("acceltemp"); + + // default to 1g, 10hz + bma180_init(0, 0); + bma180_sleep(); + + n_sensors += N_FIXED_SENSORS; +} + +static void +init_ds_sensors() { uint8_t id[OW_ROMCODE_SIZE]; printf_P(PSTR("init sensors\n")); @@ -412,13 +449,14 @@ return; } - if (n_sensors < MAX_SENSORS) + if (n_ds18b20 < MAX_DS18B20) { - memcpy(sensor_id[n_sensors], id, ID_LEN); + memcpy(ds18b20_id[n_sensors], id, ID_LEN); printf_P(PSTR("Added sensor %hhu : "), n_sensors); printhex(id, ID_LEN, stdout); putchar('\n'); n_sensors++; + n_ds18b20++; } else { @@ -449,8 +487,9 @@ printf_P(PSTR("comms %hu\n"), comms_wake); printf_P(PSTR("wake %hhu\n"), wake_secs); printf_P(PSTR("tick %d\n"), TICK); - printf_P(PSTR("sensors %hhu (%hhu)\n"), - n_sensors, MAX_SENSORS); + printf_P(PSTR("sensors %hhu\n"), n_sensors); + printf_P(PSTR("ds18b20 %hhu (%hhu)\n"), + n_ds18b20, MAX_DS18B20); printf_P(PSTR("meas %hu (%hu)\n"), max_measurements, TOTAL_MEASUREMENTS); } @@ -675,7 +714,7 @@ for (uint8_t s = 0; s < n_sensors; s++) { uint16_t reading; - uint8_t ret = simple_ds18b20_read_raw(sensor_id[s], &reading); + uint8_t ret = simple_ds18b20_read_raw(ds18b20_id[s], &reading); if (ret != DS18X20_OK) { reading = VALUE_BROKEN; @@ -766,7 +805,10 @@ load_params(); - init_sensors(); + // ds sensors come before fixed sensors. + init_ds_sensors(); + + init_fixed_sensors(); uart_off();