2 * This file is part of Cleanflight and Betaflight.
4 * Cleanflight and Betaflight are free software. You can redistribute
5 * this software and/or modify this software under the terms of the
6 * GNU General Public License as published by the Free Software
7 * Foundation, either version 3 of the License, or (at your option)
10 * Cleanflight and Betaflight are distributed in the hope that they
11 * will be useful, but WITHOUT ANY WARRANTY; without even the implied
12 * warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
13 * See the GNU General Public License for more details.
15 * You should have received a copy of the GNU General Public License
16 * along with this software.
18 * If not, see <http://www.gnu.org/licenses/>.
27 #include "build/build_config.h"
28 #include "build/debug.h"
30 #include "common/maths.h"
31 #include "common/utils.h"
32 #include "common/filter.h"
34 #include "drivers/adc.h"
37 #include "pg/pg_ids.h"
39 #include "sensors/adcinternal.h"
40 #include "sensors/battery.h"
41 #include "sensors/esc_sensor.h"
45 const char * const currentMeterSourceNames
[CURRENT_METER_COUNT
] = {
46 "NONE", "ADC", "VIRTUAL", "ESC", "MSP"
49 const uint8_t currentMeterIds
[] = {
50 CURRENT_METER_ID_BATTERY_1
,
51 #ifdef USE_VIRTUAL_CURRENT_METER
52 CURRENT_METER_ID_VIRTUAL_1
,
55 CURRENT_METER_ID_ESC_COMBINED_1
,
56 CURRENT_METER_ID_ESC_MOTOR_1
,
57 CURRENT_METER_ID_ESC_MOTOR_2
,
58 CURRENT_METER_ID_ESC_MOTOR_3
,
59 CURRENT_METER_ID_ESC_MOTOR_4
,
60 CURRENT_METER_ID_ESC_MOTOR_5
,
61 CURRENT_METER_ID_ESC_MOTOR_6
,
62 CURRENT_METER_ID_ESC_MOTOR_7
,
63 CURRENT_METER_ID_ESC_MOTOR_8
,
64 CURRENT_METER_ID_ESC_MOTOR_9
,
65 CURRENT_METER_ID_ESC_MOTOR_10
,
66 CURRENT_METER_ID_ESC_MOTOR_11
,
67 CURRENT_METER_ID_ESC_MOTOR_12
,
69 #ifdef USE_MSP_CURRENT_METER
70 CURRENT_METER_ID_MSP_1
,
74 const uint8_t supportedCurrentMeterCount
= ARRAYLEN(currentMeterIds
);
77 // ADC/Virtual/ESC/MSP shared
80 void currentMeterReset(currentMeter_t
*meter
)
83 meter
->amperageLatest
= 0;
91 static pt1Filter_t adciBatFilter
;
93 #ifndef CURRENT_METER_SCALE_DEFAULT
94 #define CURRENT_METER_SCALE_DEFAULT 400 // for Allegro ACS758LCB-100U (40mV/A)
97 #ifndef CURRENT_METER_OFFSET_DEFAULT
98 #define CURRENT_METER_OFFSET_DEFAULT 0
101 PG_REGISTER_WITH_RESET_TEMPLATE(currentSensorADCConfig_t
, currentSensorADCConfig
, PG_CURRENT_SENSOR_ADC_CONFIG
, 0);
103 PG_RESET_TEMPLATE(currentSensorADCConfig_t
, currentSensorADCConfig
,
104 .scale
= CURRENT_METER_SCALE_DEFAULT
,
105 .offset
= CURRENT_METER_OFFSET_DEFAULT
,
108 #ifdef USE_VIRTUAL_CURRENT_METER
109 PG_REGISTER(currentSensorVirtualConfig_t
, currentSensorVirtualConfig
, PG_CURRENT_SENSOR_VIRTUAL_CONFIG
, 0);
112 static int32_t currentMeterADCToCentiamps(const uint16_t src
)
115 const currentSensorADCConfig_t
*config
= currentSensorADCConfig();
117 int32_t millivolts
= ((uint32_t)src
* getVrefMv()) / 4096;
118 // y=x/m+b m is scale in (mV/10A) and b is offset in (mA)
119 int32_t centiAmps
= config
->scale
? (millivolts
* 10000 / (int32_t)config
->scale
+ (int32_t)config
->offset
) / 10 : 0;
121 DEBUG_SET(DEBUG_CURRENT_SENSOR
, 0, millivolts
);
122 DEBUG_SET(DEBUG_CURRENT_SENSOR
, 1, centiAmps
);
124 return centiAmps
; // Returns Centiamps to maintain compatability with the rest of the code
127 #if defined(USE_ADC) || defined(USE_VIRTUAL_CURRENT_METER)
128 static void updateCurrentmAhDrawnState(currentMeterMAhDrawnState_t
*state
, int32_t amperageLatest
, int32_t lastUpdateAt
)
130 state
->mAhDrawnF
= state
->mAhDrawnF
+ (amperageLatest
* lastUpdateAt
/ (100.0f
* 1000 * 3600));
131 state
->mAhDrawn
= state
->mAhDrawnF
;
139 currentMeterADCState_t currentMeterADCState
;
141 void currentMeterADCInit(void)
143 memset(¤tMeterADCState
, 0, sizeof(currentMeterADCState_t
));
144 pt1FilterInit(&adciBatFilter
, pt1FilterGain(GET_BATTERY_LPF_FREQUENCY(batteryConfig()->ibatLpfPeriod
), HZ_TO_INTERVAL(50)));
147 void currentMeterADCRefresh(int32_t lastUpdateAt
)
150 const uint16_t iBatSample
= adcGetChannel(ADC_CURRENT
);
151 currentMeterADCState
.amperageLatest
= currentMeterADCToCentiamps(iBatSample
);
152 currentMeterADCState
.amperage
= currentMeterADCToCentiamps(pt1FilterApply(&adciBatFilter
, iBatSample
));
154 updateCurrentmAhDrawnState(¤tMeterADCState
.mahDrawnState
, currentMeterADCState
.amperageLatest
, lastUpdateAt
);
156 UNUSED(lastUpdateAt
);
157 UNUSED(currentMeterADCToCentiamps
);
159 currentMeterADCState
.amperageLatest
= 0;
160 currentMeterADCState
.amperage
= 0;
164 void currentMeterADCRead(currentMeter_t
*meter
)
166 meter
->amperageLatest
= currentMeterADCState
.amperageLatest
;
167 meter
->amperage
= currentMeterADCState
.amperage
;
168 meter
->mAhDrawn
= currentMeterADCState
.mahDrawnState
.mAhDrawn
;
170 DEBUG_SET(DEBUG_CURRENT_SENSOR
, 2, meter
->amperageLatest
);
171 DEBUG_SET(DEBUG_CURRENT_SENSOR
, 3, meter
->mAhDrawn
);
178 #ifdef USE_VIRTUAL_CURRENT_METER
179 currentSensorVirtualState_t currentMeterVirtualState
;
181 void currentMeterVirtualInit(void)
183 memset(¤tMeterVirtualState
, 0, sizeof(currentSensorVirtualState_t
));
186 void currentMeterVirtualRefresh(int32_t lastUpdateAt
, bool armed
, bool throttleLowAndMotorStop
, int32_t throttleOffset
)
188 currentMeterVirtualState
.amperage
= (int32_t)currentSensorVirtualConfig()->offset
;
190 if (throttleLowAndMotorStop
) {
194 int throttleFactor
= throttleOffset
+ (throttleOffset
* throttleOffset
/ 50); // FIXME magic number 50. Possibly use thrustLinearization if configured.
195 currentMeterVirtualState
.amperage
+= throttleFactor
* (int32_t)currentSensorVirtualConfig()->scale
/ 1000;
197 updateCurrentmAhDrawnState(¤tMeterVirtualState
.mahDrawnState
, currentMeterVirtualState
.amperage
, lastUpdateAt
);
200 void currentMeterVirtualRead(currentMeter_t
*meter
)
202 meter
->amperageLatest
= currentMeterVirtualState
.amperage
;
203 meter
->amperage
= currentMeterVirtualState
.amperage
;
204 meter
->mAhDrawn
= currentMeterVirtualState
.mahDrawnState
.mAhDrawn
;
212 #ifdef USE_ESC_SENSOR
213 currentMeterESCState_t currentMeterESCState
;
215 void currentMeterESCInit(void)
217 memset(¤tMeterESCState
, 0, sizeof(currentMeterESCState_t
));
220 void currentMeterESCRefresh(int32_t lastUpdateAt
)
222 UNUSED(lastUpdateAt
);
224 escSensorData_t
*escData
= getEscSensorData(ESC_SENSOR_COMBINED
);
225 if (escData
&& escData
->dataAge
<= ESC_BATTERY_AGE_MAX
) {
226 currentMeterESCState
.amperage
= escData
->current
+ escSensorConfig()->offset
/ 10;
227 currentMeterESCState
.mAhDrawn
= escData
->consumption
+ escSensorConfig()->offset
* millis() / (1000.0f
* 3600);
229 currentMeterESCState
.amperage
= 0;
230 currentMeterESCState
.mAhDrawn
= 0;
234 void currentMeterESCReadCombined(currentMeter_t
*meter
)
236 meter
->amperageLatest
= currentMeterESCState
.amperage
;
237 meter
->amperage
= currentMeterESCState
.amperage
;
238 meter
->mAhDrawn
= currentMeterESCState
.mAhDrawn
;
241 void currentMeterESCReadMotor(uint8_t motorNumber
, currentMeter_t
*meter
)
243 escSensorData_t
*escData
= getEscSensorData(motorNumber
);
244 if (escData
&& escData
->dataAge
<= ESC_BATTERY_AGE_MAX
) {
245 meter
->amperage
= escData
->current
;
246 meter
->amperageLatest
= escData
->current
;
247 meter
->mAhDrawn
= escData
->consumption
;
249 currentMeterReset(meter
);
255 #ifdef USE_MSP_CURRENT_METER
256 #include "common/streambuf.h"
258 #include "msp/msp_protocol.h"
259 #include "msp/msp_serial.h"
261 currentMeterMSPState_t currentMeterMSPState
;
263 void currentMeterMSPSet(uint16_t amperage
, uint16_t mAhDrawn
)
265 // We expect the FC's MSP_ANALOG response handler to call this function
266 currentMeterMSPState
.amperage
= amperage
;
267 currentMeterMSPState
.mAhDrawn
= mAhDrawn
;
270 void currentMeterMSPInit(void)
272 memset(¤tMeterMSPState
, 0, sizeof(currentMeterMSPState_t
));
275 void currentMeterMSPRefresh(timeUs_t currentTimeUs
)
277 // periodically request MSP_ANALOG
278 static timeUs_t streamRequestAt
= 0;
279 if (cmp32(currentTimeUs
, streamRequestAt
) > 0) {
280 streamRequestAt
= currentTimeUs
+ ((1000 * 1000) / 10); // 10hz
282 mspSerialPush(SERIAL_PORT_ALL
, MSP_ANALOG
, NULL
, 0, MSP_DIRECTION_REQUEST
);
286 void currentMeterMSPRead(currentMeter_t
*meter
)
288 meter
->amperageLatest
= currentMeterMSPState
.amperage
;
289 meter
->amperage
= currentMeterMSPState
.amperage
;
290 meter
->mAhDrawn
= currentMeterMSPState
.mAhDrawn
;
295 // API for current meters using IDs
297 // This API is used by MSP, for configuration/status.
300 void currentMeterRead(currentMeterId_e id
, currentMeter_t
*meter
)
302 if (id
== CURRENT_METER_ID_BATTERY_1
) {
303 currentMeterADCRead(meter
);
305 #ifdef USE_VIRTUAL_CURRENT_METER
306 else if (id
== CURRENT_METER_ID_VIRTUAL_1
) {
307 currentMeterVirtualRead(meter
);
310 #ifdef USE_MSP_CURRENT_METER
311 else if (id
== CURRENT_METER_ID_MSP_1
) {
312 currentMeterMSPRead(meter
);
315 #ifdef USE_ESC_SENSOR
316 else if (id
== CURRENT_METER_ID_ESC_COMBINED_1
) {
317 currentMeterESCReadCombined(meter
);
319 else if (id
>= CURRENT_METER_ID_ESC_MOTOR_1
&& id
<= CURRENT_METER_ID_ESC_MOTOR_20
) {
320 int motor
= id
- CURRENT_METER_ID_ESC_MOTOR_1
;
321 currentMeterESCReadMotor(motor
, meter
);
325 currentMeterReset(meter
);