M5 battery monitor improved (read IP5306 chip)
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@ -36,6 +36,13 @@ void AXP192_showstatus(void);
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#endif // HAS_PMU
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#endif // HAS_PMU
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#ifdef HAS_IP5306
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void printIP5306Stats(void);
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uint8_t IP5306_GetPowerSource(void);
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uint8_t IP5306_GetBatteryLevel(void);
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uint8_t IP5306_GetBatteryFull(void);
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#endif
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// The following map functions were taken from
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// The following map functions were taken from
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//
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//
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// Battery.h - Battery library
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// Battery.h - Battery library
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@ -48,15 +55,20 @@ void AXP192_showstatus(void);
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*
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*
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* c - c / (1 + k*x/v)^3
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* c - c / (1 + k*x/v)^3
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*/
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*/
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static inline uint8_t sigmoidal(uint16_t voltage, uint16_t minVoltage, uint16_t maxVoltage) {
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static inline uint8_t sigmoidal(uint16_t voltage, uint16_t minVoltage,
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uint16_t maxVoltage) {
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// slow
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// slow
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// uint8_t result = 110 - (110 / (1 + pow(1.468 * (voltage - minVoltage)/(maxVoltage - minVoltage), 6)));
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// uint8_t result = 110 - (110 / (1 + pow(1.468 * (voltage -
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// minVoltage)/(maxVoltage - minVoltage), 6)));
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// steep
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// steep
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// uint8_t result = 102 - (102 / (1 + pow(1.621 * (voltage - minVoltage)/(maxVoltage - minVoltage), 8.1)));
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// uint8_t result = 102 - (102 / (1 + pow(1.621 * (voltage -
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// minVoltage)/(maxVoltage - minVoltage), 8.1)));
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// normal
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// normal
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uint8_t result = 105 - (105 / (1 + pow(1.724 * (voltage - minVoltage)/(maxVoltage - minVoltage), 5.5)));
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uint8_t result = 105 - (105 / (1 + pow(1.724 * (voltage - minVoltage) /
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(maxVoltage - minVoltage),
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5.5)));
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return result >= 100 ? 100 : result;
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return result >= 100 ? 100 : result;
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}
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}
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@ -66,8 +78,12 @@ static inline uint8_t sigmoidal(uint16_t voltage, uint16_t minVoltage, uint16_t
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*
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*
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* c - c / [1 + (k*x/v)^4.5]^3
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* c - c / [1 + (k*x/v)^4.5]^3
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*/
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*/
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static inline uint8_t asigmoidal(uint16_t voltage, uint16_t minVoltage, uint16_t maxVoltage) {
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static inline uint8_t asigmoidal(uint16_t voltage, uint16_t minVoltage,
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uint8_t result = 101 - (101 / pow(1 + pow(1.33 * (voltage - minVoltage)/(maxVoltage - minVoltage) ,4.5), 3));
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uint16_t maxVoltage) {
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uint8_t result = 101 - (101 / pow(1 + pow(1.33 * (voltage - minVoltage) /
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(maxVoltage - minVoltage),
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4.5),
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3));
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return result >= 100 ? 100 : result;
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return result >= 100 ? 100 : result;
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}
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}
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@ -77,8 +93,10 @@ static inline uint8_t asigmoidal(uint16_t voltage, uint16_t minVoltage, uint16_t
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*
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*
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* x * 100 / v
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* x * 100 / v
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*/
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*/
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static inline uint8_t linear(uint16_t voltage, uint16_t minVoltage, uint16_t maxVoltage) {
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static inline uint8_t linear(uint16_t voltage, uint16_t minVoltage,
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return (unsigned long)(voltage - minVoltage) * 100 / (maxVoltage - minVoltage);
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uint16_t maxVoltage) {
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return (unsigned long)(voltage - minVoltage) * 100 /
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(maxVoltage - minVoltage);
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}
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}
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uint8_t read_battlevel(mapFn_t mapFunction = &sigmoidal);
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uint8_t read_battlevel(mapFn_t mapFunction = &sigmoidal);
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@ -65,12 +65,14 @@ void doHousekeeping() {
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#endif
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#endif
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// read battery voltage into global variable
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// read battery voltage into global variable
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#if (defined BAT_MEASURE_ADC || defined HAS_PMU)
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#if (defined BAT_MEASURE_ADC || defined HAS_PMU || defined HAS_IP5306)
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batt_level = read_battlevel();
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batt_level = read_battlevel();
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ESP_LOGI(TAG, "Battery: %d%%", batt_level);
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#ifdef HAS_PMU
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#ifdef HAS_PMU
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AXP192_showstatus();
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AXP192_showstatus();
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#endif
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#endif
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#ifdef HAS_IP5306
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printIP5306Stats();
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#endif
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#endif
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#endif
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// display BME680/280 sensor data
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// display BME680/280 sensor data
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@ -280,7 +280,7 @@ void dp_drawPage(time_t t, bool nextpage) {
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// line 4: Battery + GPS status + Wifi channel
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// line 4: Battery + GPS status + Wifi channel
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// B:a.bcV Sats:ab ch:ab
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// B:a.bcV Sats:ab ch:ab
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#if (defined BAT_MEASURE_ADC || defined HAS_PMU)
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#if (defined BAT_MEASURE_ADC || defined HAS_PMU || defined HAS_IP5306)
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if (batt_level == 0)
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if (batt_level == 0)
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dp_printf("No batt ");
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dp_printf("No batt ");
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else if (batt_level < 100)
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else if (batt_level < 100)
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@ -290,6 +290,7 @@ void dp_drawPage(time_t t, bool nextpage) {
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#else
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#else
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dp_printf(" ");
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dp_printf(" ");
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#endif
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#endif
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#if (HAS_GPS)
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#if (HAS_GPS)
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dp_setFont(MY_FONT_SMALL, !gps_hasfix());
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dp_setFont(MY_FONT_SMALL, !gps_hasfix());
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dp_printf("Sats:%.2d", gps.satellites.value());
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dp_printf("Sats:%.2d", gps.satellites.value());
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@ -34,12 +34,12 @@
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#define HAS_DISPLAY 2 // TFT-LCD, support work in progess, not ready yet
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#define HAS_DISPLAY 2 // TFT-LCD, support work in progess, not ready yet
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//#define MY_DISPLAY_FLIP 1 // use if display is rotated
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//#define MY_DISPLAY_FLIP 1 // use if display is rotated
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//#define BAT_MEASURE_ADC ADC1_GPIO35_CHANNEL // battery probe GPIO pin -> ADC1_CHANNEL_7
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//#define BAT_VOLTAGE_DIVIDER 2 // voltage divider 100k/100k on board
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#define HAS_LED NOT_A_PIN // no on board LED (?)
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#define HAS_LED NOT_A_PIN // no on board LED (?)
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#define HAS_BUTTON (39) // on board button A
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#define HAS_BUTTON (39) // on board button A
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#define HAS_IP5306 1
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// GPS settings
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// GPS settings
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#define HAS_GPS 1 // use on board GPS
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#define HAS_GPS 1 // use on board GPS
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#define GPS_SERIAL 9600, SERIAL_8N1, RXD2, TXD2 // UBlox NEO 6M RX, TX
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#define GPS_SERIAL 9600, SERIAL_8N1, RXD2, TXD2 // UBlox NEO 6M RX, TX
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@ -34,8 +34,6 @@
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#define HAS_DISPLAY 2 // TFT-LCD, support work in progess, not ready yet
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#define HAS_DISPLAY 2 // TFT-LCD, support work in progess, not ready yet
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//#define MY_DISPLAY_FLIP 1 // use if display is rotated
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//#define MY_DISPLAY_FLIP 1 // use if display is rotated
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//#define BAT_MEASURE_ADC ADC1_GPIO35_CHANNEL // battery probe GPIO pin -> ADC1_CHANNEL_7
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//#define BAT_VOLTAGE_DIVIDER 2 // voltage divider 100k/100k on board
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#define HAS_LED NOT_A_PIN // no on board LED (?)
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#define HAS_LED NOT_A_PIN // no on board LED (?)
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#define RGB_LED_COUNT 10
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#define RGB_LED_COUNT 10
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@ -43,6 +41,8 @@
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#define HAS_RGB_LED SmartLed rgb_led(LED_SK6812, RGB_LED_COUNT, GPIO_NUM_15) // LED_SK6812 RGB LED on GPIO15
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#define HAS_RGB_LED SmartLed rgb_led(LED_SK6812, RGB_LED_COUNT, GPIO_NUM_15) // LED_SK6812 RGB LED on GPIO15
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#define HAS_BUTTON (39) // on board button A
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#define HAS_BUTTON (39) // on board button A
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#define HAS_IP5306 1
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// GPS settings
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// GPS settings
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#define HAS_GPS 0 // use on board GPS
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#define HAS_GPS 0 // use on board GPS
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#define GPS_SERIAL 9600, SERIAL_8N1, RXD2, TXD2 // UBlox NEO 6M RX, TX
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#define GPS_SERIAL 9600, SERIAL_8N1, RXD2, TXD2 // UBlox NEO 6M RX, TX
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@ -492,6 +492,9 @@ uint8_t myBattLevelCb(void *pUserData) {
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#ifdef HAS_PMU
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#ifdef HAS_PMU
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if (pmu.isVBUSPlug())
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if (pmu.isVBUSPlug())
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lmic_batt_level = MCMD_DEVS_EXT_POWER;
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lmic_batt_level = MCMD_DEVS_EXT_POWER;
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#elif defined HAS_IP5306
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if (IP5306_GetPowerSource())
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lmic_batt_level = MCMD_DEVS_EXT_POWER;
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#else
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#else
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if (batt_percent >= 100)
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if (batt_percent >= 100)
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lmic_batt_level = MCMD_DEVS_EXT_POWER;
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lmic_batt_level = MCMD_DEVS_EXT_POWER;
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@ -258,10 +258,13 @@ void setup() {
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#endif
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#endif
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// initialize battery status
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// initialize battery status
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#if (defined BAT_MEASURE_ADC || defined HAS_PMU)
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#if (defined BAT_MEASURE_ADC || defined HAS_PMU || defined HAS_IP5306)
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strcat_P(features, " BATT");
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strcat_P(features, " BATT");
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calibrate_voltage();
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calibrate_voltage();
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batt_level = read_battlevel();
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batt_level = read_battlevel();
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#ifdef HAS_IP5306
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printIP5306Stats();
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#endif
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#endif
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#endif
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#if (USE_OTA)
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#if (USE_OTA)
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@ -215,6 +215,10 @@ uint8_t read_battlevel(mapFn_t mapFunction) {
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// returns the estimated battery level in values 0 ... 100 [percent]
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// returns the estimated battery level in values 0 ... 100 [percent]
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uint8_t batt_percent;
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uint8_t batt_percent;
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#ifdef HAS_IP5306
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batt_percent = IP5306_GetBatteryLevel();
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#else
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const uint16_t batt_voltage = read_voltage();
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const uint16_t batt_voltage = read_voltage();
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if (batt_voltage <= BAT_MIN_VOLTAGE)
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if (batt_voltage <= BAT_MIN_VOLTAGE)
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@ -224,17 +228,88 @@ uint8_t read_battlevel(mapFn_t mapFunction) {
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else
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else
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batt_percent =
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batt_percent =
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(*mapFunction)(batt_voltage, BAT_MIN_VOLTAGE, BAT_MAX_VOLTAGE);
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(*mapFunction)(batt_voltage, BAT_MIN_VOLTAGE, BAT_MAX_VOLTAGE);
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#endif // HAS_IP5306
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ESP_LOGD(TAG, "batt_voltage = %dmV / batt_percent = %d%%", batt_voltage,
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batt_percent);
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return batt_percent;
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return batt_percent;
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}
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}
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bool batt_sufficient() {
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bool batt_sufficient() {
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#if (defined HAS_PMU || defined BAT_MEASURE_ADC)
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#if (defined HAS_PMU || defined BAT_MEASURE_ADC || defined HAS_IP5306)
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return (batt_level > OTA_MIN_BATT);
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return (batt_level > OTA_MIN_BATT);
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#else
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#else
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return true; // we don't know batt level
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return true; // we don't know batt level
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#endif
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#endif
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}
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}
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#ifdef HAS_IP5306
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// IP5306 code snippet was taken from
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// https://gist.github.com/me-no-dev/7702f08dd578de5efa47caf322250b57
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#define IP5306_REG_SYS_0 0x00
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#define IP5306_REG_SYS_1 0x01
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#define IP5306_REG_SYS_2 0x02
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#define IP5306_REG_CHG_0 0x20
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#define IP5306_REG_CHG_1 0x21
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#define IP5306_REG_CHG_2 0x22
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#define IP5306_REG_CHG_3 0x23
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#define IP5306_REG_CHG_4 0x24
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#define IP5306_REG_READ_0 0x70
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#define IP5306_REG_READ_1 0x71
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#define IP5306_REG_READ_2 0x72
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#define IP5306_REG_READ_3 0x77
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#define IP5306_REG_READ_4 0x78
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#define IP5306_LEDS2PCT(byte) \
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((byte & 0x01 ? 25 : 0) + (byte & 0x02 ? 25 : 0) + (byte & 0x04 ? 25 : 0) + \
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(byte & 0x08 ? 25 : 0))
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uint8_t ip5306_get_bits(uint8_t reg, uint8_t index, uint8_t bits) {
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uint8_t value;
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if (i2c_readBytes(0x75, reg, &value, 1) == 0xff) {
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ESP_LOGW(TAG, "IP5306 get bits fail: 0x%02x", reg);
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return 0;
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}
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return (value >> index) & ((1 << bits) - 1);
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}
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void ip5306_set_bits(uint8_t reg, uint8_t index, uint8_t bits, uint8_t value) {
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uint8_t mask = (1 << bits) - 1, v;
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if (i2c_readBytes(0x75, reg, &v, 1) == 0xff) {
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ESP_LOGW(TAG, "IP5306 register read fail: 0x%02x", reg);
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return;
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}
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v &= ~(mask << index);
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v |= ((value & mask) << index);
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if (i2c_writeBytes(0x75, reg, &v, 1) == 0xff)
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ESP_LOGW(TAG, "IP5306 register write fail: 0x%02x", reg);
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}
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uint8_t IP5306_GetPowerSource(void) {
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ip5306_get_bits(IP5306_REG_READ_0, 3, 1); // 0:BAT, 1:VIN
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}
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uint8_t IP5306_GetBatteryFull(void) {
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ip5306_get_bits(IP5306_REG_READ_1, 3, 1); // 0:CHG/DIS, 1:FULL
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}
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uint8_t IP5306_GetBatteryLevel(void) {
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uint8_t state = (~ip5306_get_bits(IP5306_REG_READ_4, 4, 4)) & 0x0F;
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// LED[0-4] State (inverted)
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return IP5306_LEDS2PCT(state);
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}
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void printIP5306Stats(void) {
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bool usb = IP5306_GetPowerSource();
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bool full = IP5306_GetBatteryFull();
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uint8_t leds = IP5306_GetBatteryLevel();
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ESP_LOGI(TAG,
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"IP5306: Power Source: %s, Battery State: %s, Battery "
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"Level: %u%%",
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usb ? "USB" : "BATTERY",
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full ? "CHARGED" : (usb ? "CHARGING" : "DISCHARGING"),
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IP5306_LEDS2PCT(leds));
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}
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#endif // HAS_IP5306
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