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Rev 1646 | Rev 1775 | ||
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Line 59... | Line 59... | ||
59 | //#include "analog.h" |
59 | //#include "analog.h" |
60 | //#include "rc.h" |
60 | //#include "rc.h" |
Line 61... | Line 61... | ||
61 | 61 | ||
62 | // Necessary for external control and motor test |
62 | // Necessary for external control and motor test |
- | 63 | #include "uart0.h" |
|
- | 64 | ||
- | 65 | // for scope debugging |
|
- | 66 | // #include "rc.h" |
|
63 | #include "uart0.h" |
67 | |
64 | #include "twimaster.h" |
68 | #include "twimaster.h" |
65 | #include "attitude.h" |
69 | #include "attitude.h" |
- | 70 | #include "controlMixer.h" |
|
66 | #include "controlMixer.h" |
71 | #include "commands.h" |
67 | #ifdef USE_MK3MAG |
72 | #ifdef USE_MK3MAG |
68 | #include "gps.h" |
73 | #include "gps.h" |
Line 69... | Line 74... | ||
69 | #endif |
74 | #endif |
Line 74... | Line 79... | ||
74 | * These are no longer maintained, just left at 0. The original implementation just summed the acc. |
79 | * These are no longer maintained, just left at 0. The original implementation just summed the acc. |
75 | * value to them every 2 ms. No filtering or anything. Just a case for an eventual overflow?? Hey??? |
80 | * value to them every 2 ms. No filtering or anything. Just a case for an eventual overflow?? Hey??? |
76 | */ |
81 | */ |
77 | // int16_t naviAccPitch = 0, naviAccRoll = 0, naviCntAcc = 0; |
82 | // int16_t naviAccPitch = 0, naviAccRoll = 0, naviCntAcc = 0; |
Line 78... | Line -... | ||
78 | - | ||
79 | // MK flags |
- | |
80 | uint16_t isFlying = 0; |
- | |
81 | volatile uint8_t MKFlags = 0; |
- | |
82 | 83 | ||
83 | uint8_t gyroPFactor, gyroIFactor; // the PD factors for the attitude control |
84 | uint8_t gyroPFactor, gyroIFactor; // the PD factors for the attitude control |
Line 84... | Line 85... | ||
84 | uint8_t yawPFactor, yawIFactor; // the PD factors for the yaw control |
85 | uint8_t yawPFactor, yawIFactor; // the PD factors for the yaw control |
85 | 86 | ||
Line 115... | Line 116... | ||
115 | 116 | ||
116 | /************************************************************************/ |
117 | /************************************************************************/ |
117 | /* Neutral Readings */ |
118 | /* Neutral Readings */ |
118 | /************************************************************************/ |
119 | /************************************************************************/ |
119 | void flight_setNeutral() { |
- | |
120 | // GPSStickPitch = 0; |
- | |
121 | // GPSStickRoll = 0; |
- | |
122 | 120 | void flight_setNeutral() { |
|
Line 123... | Line 121... | ||
123 | MKFlags |= MKFLAG_CALIBRATE; |
121 | MKFlags |= MKFLAG_CALIBRATE; |
124 | 122 | ||
125 | // not really used here any more. |
123 | // not really used here any more. |
126 | dynamicParams.KalmanK = -1; |
124 | dynamicParams.KalmanK = -1; |
Line 127... | Line 125... | ||
127 | dynamicParams.KalmanMaxDrift = 0; |
125 | dynamicParams.KalmanMaxDrift = 0; |
128 | dynamicParams.KalmanMaxFusion = 32; |
126 | dynamicParams.KalmanMaxFusion = 32; |
Line 129... | Line -... | ||
129 | - | ||
130 | controlMixer_initVariables(); |
- | |
131 | } |
- | |
132 | - | ||
133 | /************************************************************************/ |
- | |
134 | /* Transmit Motor Data via I2C */ |
- | |
135 | /************************************************************************/ |
- | |
136 | void sendMotorData(void) { |
- | |
137 | uint8_t i; |
- | |
138 | if(!(MKFlags & MKFLAG_MOTOR_RUN)) { |
- | |
139 | // If pilot has not started the engines.... |
- | |
140 | MKFlags &= ~(MKFLAG_FLY | MKFLAG_START); // clear flag FLY and START if motors are off |
- | |
141 | for(i = 0; i < MAX_MOTORS; i++) { |
- | |
142 | // and if we are not in motor test mode, cut throttle on all motors. |
- | |
143 | if(!motorTestActive) Motor[i].SetPoint = 0; |
- | |
144 | else Motor[i].SetPoint = motorTest[i]; |
- | |
145 | } |
- | |
146 | if(motorTestActive) motorTestActive--; |
- | |
147 | } |
- | |
148 | - | ||
149 | /* |
- | |
150 | DebugOut.Analog[] = Motor[0].SetPoint; // Front |
- | |
151 | DebugOut.Analog[] = Motor[1].SetPoint; // Rear |
- | |
152 | DebugOut.Analog[] = Motor[3].SetPoint; // Left |
- | |
153 | DebugOut.Analog[] = Motor[2].SetPoint; // Right |
- | |
154 | */ |
- | |
155 | // Start I2C Interrupt Mode |
127 | |
156 | I2C_Start(TWI_STATE_MOTOR_TX); |
128 | controlMixer_initVariables(); |
157 | } |
129 | } |
158 | 130 | ||
159 | void setFlightParameters(uint8_t _Ki, uint8_t _gyroPFactor, uint8_t _gyroIFactor, uint8_t _yawPFactor, uint8_t _yawIFactor) { |
131 | void setFlightParameters(uint8_t _Ki, uint8_t _gyroPFactor, uint8_t _gyroIFactor, uint8_t _yawPFactor, uint8_t _yawIFactor) { |
Line 175... | Line 147... | ||
175 | 147 | ||
176 | void setStableFlightParameters(void) { |
148 | void setStableFlightParameters(void) { |
177 | setFlightParameters(33, 90, 120, 90, 120); |
149 | setFlightParameters(33, 90, 120, 90, 120); |
Line 178... | Line -... | ||
178 | } |
- | |
179 | - | ||
180 | void handleCommands(uint8_t command, uint8_t argument, uint8_t isCommandRepeated) { |
- | |
181 | if(!(MKFlags & MKFLAG_MOTOR_RUN)) { |
- | |
182 | if (command == COMMAND_GYROCAL && !isCommandRepeated) { |
- | |
183 | // Run gyro calibration but do not repeat it. |
- | |
184 | GRN_OFF; |
- | |
185 | - | ||
186 | // TODO: out of here. Anyway, MKFLAG_MOTOR_RUN is cleared. Not enough? |
- | |
187 | // isFlying = 0; |
- | |
188 | // check roll/pitch stick position |
- | |
189 | // if pitch stick is top or roll stick is left or right --> change parameter setting |
- | |
190 | // according to roll/pitch stick position |
- | |
191 | - | ||
192 | if (argument < 6) { |
- | |
193 | // Gyro calinbration, with or without selecting a new parameter-set. |
- | |
194 | if(argument > 0 && argument < 6) { |
- | |
195 | // A valid parameter-set (1..5) was chosen - use it. |
- | |
196 | setActiveParamSet(argument); |
- | |
197 | } |
- | |
198 | ParamSet_ReadFromEEProm(getActiveParamSet()); |
- | |
199 | attitude_setNeutral(); |
- | |
200 | flight_setNeutral(); |
- | |
201 | // Right stick is centered; calibrate it to zero (hmm strictly does not belong here). |
- | |
202 | // If heading hold is active, do not do it. TODO: We also want to re-set old calibration. |
- | |
203 | controlMixer_setNeutral(!argument); |
- | |
204 | beepNumber(getActiveParamSet()); |
- | |
205 | } else if(staticParams.GlobalConfig & (CFG_COMPASS_ACTIVE | CFG_GPS_ACTIVE) && argument == 7) { |
- | |
206 | // If right stick is centered and down |
- | |
207 | compassCalState = 1; |
- | |
208 | beep(1000); |
- | |
209 | } |
- | |
210 | } |
- | |
211 | - | ||
212 | // save the ACC neutral setting to eeprom |
- | |
213 | else { |
- | |
214 | if(command == COMMAND_ACCCAL && !isCommandRepeated) { |
- | |
215 | // Run gyro and acc. meter calibration but do not repeat it. |
- | |
216 | GRN_OFF; |
- | |
217 | analog_calibrateAcc(); |
- | |
218 | attitude_setNeutral(); |
- | |
219 | flight_setNeutral(); |
- | |
220 | controlMixer_setNeutral(1); // Calibrate right stick neutral position. |
- | |
221 | beepNumber(getActiveParamSet()); |
- | |
222 | } |
- | |
223 | } |
- | |
224 | } // end !MOTOR_RUN condition. |
- | |
225 | if (command == COMMAND_START) { |
- | |
226 | isFlying = 1; // TODO: Really???? |
- | |
227 | // if (!controlMixer_isCommandRepeated()) { |
- | |
228 | // attitude_startDynamicCalibration(); // Try sense the effect of the motors on sensors. |
- | |
229 | MKFlags |= (MKFLAG_MOTOR_RUN | MKFLAG_START); // set flag RUN and START. TODO: Is that START flag used at all??? |
- | |
230 | // } else { // Pilot is holding stick, ever after motor start. Continue to sense the effect of the motors on sensors. |
- | |
231 | // attitude_continueDynamicCalibration(); |
- | |
232 | // setPointYaw = 0; |
- | |
233 | // IPartPitch = 0; |
- | |
234 | // IPartRoll = 0; |
- | |
235 | // } |
- | |
236 | } else if (command == COMMAND_STOP) { |
- | |
237 | isFlying = 0; |
- | |
238 | MKFlags &= ~(MKFLAG_MOTOR_RUN); |
- | |
Line 239... | Line 150... | ||
239 | } |
150 | } |
240 | } |
151 | |
241 | 152 | ||
242 | /************************************************************************/ |
153 | /************************************************************************/ |
Line 248... | Line 159... | ||
248 | int16_t yawTerm, throttleTerm, term[2]; |
159 | int16_t yawTerm, throttleTerm, term[2]; |
Line 249... | Line 160... | ||
249 | 160 | ||
250 | // PID controller variables |
161 | // PID controller variables |
251 | int16_t PDPart[2], PDPartYaw, PPart[2]; |
162 | int16_t PDPart[2], PDPartYaw, PPart[2]; |
252 | static int32_t IPart[2] = {0,0}; |
163 | static int32_t IPart[2] = {0,0}; |
Line 253... | Line 164... | ||
253 | static int32_t setPointYaw = 0; |
164 | // static int32_t yawControlRate = 0; |
254 | 165 | ||
255 | // Removed. Too complicated, and apparently not necessary with MEMS gyros anyway. |
166 | // Removed. Too complicated, and apparently not necessary with MEMS gyros anyway. |
Line 263... | Line 174... | ||
263 | static int16_t motorFilters[MAX_MOTORS]; |
174 | static int16_t motorFilters[MAX_MOTORS]; |
Line 264... | Line 175... | ||
264 | 175 | ||
Line 265... | Line 176... | ||
265 | uint8_t i, axis; |
176 | uint8_t i, axis; |
- | 177 | ||
266 | 178 | // Fire the main flight attitude calculation, including integration of angles. |
|
267 | // Fire the main flight attitude calculation, including integration of angles. |
- | |
Line 268... | Line 179... | ||
268 | calculateFlightAttitude(); |
179 | |
269 | GRN_ON; |
180 | calculateFlightAttitude(); |
270 | 181 | ||
271 | /* |
182 | /* |
- | 183 | * TODO: update should: Set the stick variables if good signal, set them to zero if bad. |
|
- | 184 | * Set variables also. |
|
- | 185 | */ |
|
- | 186 | // start part 1: 750-800 usec. |
|
272 | * TODO: update should: Set the stick variables if good signal, set them to zero if bad. |
187 | // start part 1a: 750-800 usec. |
- | 188 | // start part1b: 700 usec |
|
Line 273... | Line 189... | ||
273 | * Set variables also. |
189 | // start part1c: 700 usec!!!!!!!!! WAY too slow. |
- | 190 | controlMixer_update(); |
|
274 | */ |
191 | // end part1c |
- | 192 | ||
Line -... | Line 193... | ||
- | 193 | throttleTerm = controlThrottle; |
|
275 | controlMixer_update(); |
194 | // This check removed. Is done on a per-motor basis, after output matrix multiplication. |
276 | 195 | // if(throttleTerm < staticParams.MinThrottle + 10) throttleTerm = staticParams.MinThrottle + 10; |
|
277 | throttleTerm = controlThrottle; |
196 | // else if(throttleTerm > staticParams.MaxThrottle - 20) throttleTerm = (staticParams.MaxThrottle - 20); |
278 | if(throttleTerm < staticParams.MinThrottle + 10) throttleTerm = staticParams.MinThrottle + 10; |
197 | |
279 | 198 | // end part1b: 700 usec. |
|
- | 199 | /************************************************************************/ |
|
280 | /************************************************************************/ |
200 | /* RC-signal is bad */ |
281 | /* RC-signal is bad */ |
201 | /* This part could be abstracted, as having yet another control input */ |
282 | /* This part could be abstracted, as having yet another control input */ |
202 | /* to the control mixer: An emergency autopilot control. */ |
Line 283... | Line 203... | ||
283 | /* to the control mixer: An emergency autopilot control. */ |
203 | /************************************************************************/ |
284 | /************************************************************************/ |
204 | |
285 | if(controlMixer_getSignalQuality() <= SIGNAL_BAD) { // the rc-frame signal is not reveived or noisy |
205 | if(controlMixer_getSignalQuality() <= SIGNAL_BAD) { // the rc-frame signal is not reveived or noisy |
286 | RED_ON; |
206 | RED_ON; |
287 | beepRCAlarm(); |
207 | beepRCAlarm(); |
288 | 208 | ||
289 | if(emergencyFlightTime) { |
209 | if(emergencyFlightTime) { |
290 | // continue emergency flight |
210 | // continue emergency flight |
291 | emergencyFlightTime--; |
211 | emergencyFlightTime--; |
Line 305... | Line 225... | ||
305 | // signal is acceptable |
225 | // signal is acceptable |
306 | if(controlMixer_getSignalQuality() > SIGNAL_BAD) { |
226 | if(controlMixer_getSignalQuality() > SIGNAL_BAD) { |
307 | // Reset emergency landing control variables. |
227 | // Reset emergency landing control variables. |
308 | MKFlags &= ~(MKFLAG_EMERGENCY_LANDING); // clear flag for emergency landing |
228 | MKFlags &= ~(MKFLAG_EMERGENCY_LANDING); // clear flag for emergency landing |
309 | // The time is in whole seconds. |
229 | // The time is in whole seconds. |
310 | emergencyFlightTime = staticParams.EmergencyGasDuration * 488; |
230 | emergencyFlightTime = (uint16_t)staticParams.EmergencyGasDuration * 488; |
311 | } |
231 | } |
Line 312... | Line 232... | ||
312 | 232 | ||
313 | // If some throttle is given, and the motor-run flag is on, increase the probability that we are flying. |
233 | // If some throttle is given, and the motor-run flag is on, increase the probability that we are flying. |
314 | if(throttleTerm > 40 && (MKFlags & MKFLAG_MOTOR_RUN)) { |
234 | if(throttleTerm > 40 && (MKFlags & MKFLAG_MOTOR_RUN)) { |
Line 319... | Line 239... | ||
319 | * When standing on the ground, do not apply I controls and zero the yaw stick. |
239 | * When standing on the ground, do not apply I controls and zero the yaw stick. |
320 | * Probably to avoid integration effects that will cause the copter to spin |
240 | * Probably to avoid integration effects that will cause the copter to spin |
321 | * or flip when taking off. |
241 | * or flip when taking off. |
322 | */ |
242 | */ |
323 | if(isFlying < 256) { |
243 | if(isFlying < 256) { |
324 | IPart[PITCH] = IPart[ROLL] = 0; |
244 | IPart[PITCH] = IPart[ROLL] = 0; |
325 | // TODO: Don't stomp on other modules' variables!!! |
245 | // TODO: Don't stomp on other modules' variables!!! |
326 | controlYaw = 0; |
246 | // controlYaw = 0; |
- | 247 | PDPartYaw = 0; // instead. |
|
327 | if(isFlying == 250) { |
248 | if(isFlying == 250) { |
- | 249 | // HC_setGround(); |
|
328 | updateCompassCourse = 1; |
250 | updateCompassCourse = 1; |
329 | yawAngle = 0; |
251 | yawAngleDiff = 0; |
330 | setPointYaw = 0; |
- | |
331 | } |
252 | } |
332 | } else { |
253 | } else { |
333 | // DebugOut.Digital[1] = 0; |
- | |
334 | // Set fly flag. TODO: Hmmm what can we trust - the isFlying counter or the flag? |
254 | // Set fly flag. TODO: Hmmm what can we trust - the isFlying counter or the flag? |
335 | // Answer: The counter. The flag is not read from anywhere anyway... except the NC maybe. |
255 | // Answer: The counter. The flag is not read from anywhere anyway... except the NC maybe. |
336 | MKFlags |= (MKFLAG_FLY); |
256 | MKFlags |= (MKFLAG_FLY); |
337 | } |
257 | } |
338 | - | ||
339 | /* |
- | |
340 | * Get the current command (start/stop motors, calibrate), if any. |
- | |
341 | */ |
- | |
342 | uint8_t command = controlMixer_getCommand(); |
- | |
343 | uint8_t repeated = controlMixer_isCommandRepeated(); |
- | |
344 | uint8_t argument = controlMixer_getArgument(); |
- | |
Line 345... | Line 258... | ||
345 | 258 | ||
Line 346... | Line 259... | ||
346 | handleCommands(command, argument, repeated); |
259 | commands_handleCommands(); |
347 | 260 | ||
348 | // if(controlMixer_getSignalQuality() >= SIGNAL_GOOD) { |
261 | // if(controlMixer_getSignalQuality() >= SIGNAL_GOOD) { |
349 | setNormalFlightParameters(); |
262 | setNormalFlightParameters(); |
350 | // } |
- | |
- | 263 | // } |
|
351 | } // end else (not bad signal case) |
264 | } // end else (not bad signal case) |
352 | 265 | // end part1a: 750-800 usec. |
|
353 | /* |
266 | /* |
354 | * Looping the H&I way basically is just a matter of turning off attitude angle measurement |
267 | * Looping the H&I way basically is just a matter of turning off attitude angle measurement |
355 | * by integration (because 300 deg/s gyros are too slow) and turning down the throttle. |
268 | * by integration (because 300 deg/s gyros are too slow) and turning down the throttle. |
Line 367... | Line 280... | ||
367 | if(!(staticParams.GlobalConfig & CFG_COMPASS_FIX)) { |
280 | if(!(staticParams.GlobalConfig & CFG_COMPASS_FIX)) { |
368 | updateCompassCourse = 1; |
281 | updateCompassCourse = 1; |
369 | } |
282 | } |
370 | } |
283 | } |
Line 371... | Line 284... | ||
371 | 284 | ||
Line 372... | Line 285... | ||
372 | setPointYaw = controlYaw; |
285 | // yawControlRate = controlYaw; |
373 | 286 | ||
- | 287 | // Trim drift of yawAngleDiff with controlYaw. |
|
374 | // Trim drift of yawAngle with controlYaw. |
288 | // TODO: We want NO feedback of control related stuff to the attitude related stuff. |
Line 375... | Line 289... | ||
375 | // TODO: We want NO feedback of control related stuff to the attitude related stuff. |
289 | // This seems to be used as: Difference desired <--> real heading. |
376 | yawAngle -= controlYaw; |
290 | yawAngleDiff -= controlYaw; |
377 | 291 | ||
378 | // limit the effect |
292 | // limit the effect |
379 | CHECK_MIN_MAX(yawAngle, -50000, 50000) |
293 | CHECK_MIN_MAX(yawAngleDiff, -50000, 50000); |
380 | 294 | ||
381 | /************************************************************************/ |
- | |
382 | /* Compass is currently not supported. */ |
295 | /************************************************************************/ |
383 | /************************************************************************/ |
296 | /* Compass is currently not supported. */ |
384 | /* |
297 | /************************************************************************/ |
385 | if(staticParams.GlobalConfig & (CFG_COMPASS_ACTIVE|CFG_GPS_ACTIVE)) { |
- | |
386 | updateCompass(); |
298 | if(staticParams.GlobalConfig & (CFG_COMPASS_ACTIVE|CFG_GPS_ACTIVE)) { |
387 | } |
299 | updateCompass(); |
388 | */ |
300 | } |
389 | 301 | ||
390 | #if defined (USE_MK3MAG) |
302 | #if defined (USE_MK3MAG) |
391 | /************************************************************************/ |
- | |
392 | /* GPS is currently not supported. */ |
303 | /************************************************************************/ |
393 | /************************************************************************/ |
304 | /* GPS is currently not supported. */ |
394 | /* |
305 | /************************************************************************/ |
395 | if(staticParams.GlobalConfig & CFG_GPS_ACTIVE) { |
306 | if(staticParams.GlobalConfig & CFG_GPS_ACTIVE) { |
396 | GPS_Main(); |
307 | GPS_Main(); |
397 | MKFlags &= ~(MKFLAG_CALIBRATE | MKFLAG_START); |
308 | MKFlags &= ~(MKFLAG_CALIBRATE | MKFLAG_START); |
398 | } |
309 | } |
399 | else { |
310 | else { |
400 | // GPSStickPitch = 0; |
- | |
401 | // GPSStickRoll = 0; |
311 | // GPSStickPitch = 0; |
402 | } |
- | |
- | 312 | // GPSStickRoll = 0; |
|
- | 313 | } |
|
403 | */ |
314 | #endif |
404 | #endif |
- | |
405 | 315 | // end part 1: 750-800 usec. |
|
- | 316 | // start part 3: 350 - 400 usec. |
|
406 | #define SENSOR_LIMIT (4096 * 4) |
317 | #define SENSOR_LIMIT (4096 * 4) |
407 | 318 | /************************************************************************/ |
|
408 | /************************************************************************/ |
319 | |
409 | /* Calculate control feedback from angle (gyro integral) */ |
320 | /* Calculate control feedback from angle (gyro integral) */ |
410 | /* and angular velocity (gyro signal) */ |
321 | /* and angular velocity (gyro signal) */ |
411 | /************************************************************************/ |
322 | /************************************************************************/ |
412 | // The P-part is the P of the PID controller. That's the angle integrals (not rates). |
323 | // The P-part is the P of the PID controller. That's the angle integrals (not rates). |
413 | for (axis=PITCH; axis<=ROLL; axis++) { |
324 | for (axis=PITCH; axis<=ROLL; axis++) { |
414 | if(looping & (1<<(4+axis))) { |
325 | if(looping & ((1<<4)<<axis)) { |
415 | PPart[axis] = 0; |
326 | PPart[axis] = 0; |
Line 425... | Line 336... | ||
425 | PDPart[axis] = PPart[axis] + (int32_t)((int32_t)rate_PID[axis] * gyroPFactor / (256L / CONTROL_SCALING)) |
336 | PDPart[axis] = PPart[axis] + (int32_t)((int32_t)rate_PID[axis] * gyroPFactor / (256L / CONTROL_SCALING)) |
426 | + (differential[axis] * (int16_t)dynamicParams.GyroD) / 16; |
337 | + (differential[axis] * (int16_t)dynamicParams.GyroD) / 16; |
Line 427... | Line 338... | ||
427 | 338 | ||
428 | CHECK_MIN_MAX(PDPart[axis], -SENSOR_LIMIT, SENSOR_LIMIT); |
339 | CHECK_MIN_MAX(PDPart[axis], -SENSOR_LIMIT, SENSOR_LIMIT); |
429 | } |
340 | } |
- | 341 | ||
430 | 342 | PDPartYaw = |
|
431 | PDPartYaw = (int32_t)(yawRate * 2 * (int32_t)yawPFactor) / (256L / CONTROL_SCALING) |
343 | (int32_t)(yawRate * 2 * (int32_t)yawPFactor) / (256L / CONTROL_SCALING) |
Line 432... | Line 344... | ||
432 | + (int32_t)(yawAngle * yawIFactor) / (2 * (44000 / CONTROL_SCALING)); |
344 | + (int32_t)(yawAngleDiff * yawIFactor) / (2 * (44000 / CONTROL_SCALING)); |
433 | 345 | ||
Line 434... | Line 346... | ||
434 | // limit control feedback |
346 | // limit control feedback |
435 | CHECK_MIN_MAX(PDPartYaw, -SENSOR_LIMIT, SENSOR_LIMIT); |
347 | CHECK_MIN_MAX(PDPartYaw, -SENSOR_LIMIT, SENSOR_LIMIT); |
436 | 348 | ||
437 | /* |
349 | /* |
438 | * Compose throttle term. |
350 | * Compose throttle term. |
439 | * If a Bl-Ctrl is missing, prevent takeoff. |
351 | * If a Bl-Ctrl is missing, prevent takeoff. |
440 | */ |
352 | */ |
441 | if(missingMotor) { |
353 | if(missingMotor) { |
442 | // if we are in the lift off condition. Hmmmmmm when is throttleTerm == 0 anyway??? |
354 | // if we are in the lift off condition. Hmmmmmm when is throttleTerm == 0 anyway??? |
443 | if((isFlying > 1) && (isFlying < 50) && (throttleTerm > 0)) |
355 | if(isFlying > 1 && isFlying < 50 && throttleTerm > 0) |
Line 444... | Line -... | ||
444 | isFlying = 1; // keep within lift off condition |
- | |
445 | throttleTerm = staticParams.MinThrottle; // reduce gas to min to avoid lift of |
- | |
446 | } |
- | |
447 | 356 | isFlying = 1; // keep within lift off condition |
|
448 | /* |
357 | throttleTerm = staticParams.MinThrottle; // reduce gas to min to avoid lift of |
Line 449... | Line 358... | ||
449 | * Height control was here. |
358 | } |
450 | */ |
359 | |
451 | if(throttleTerm > staticParams.MaxThrottle - 20) throttleTerm = (staticParams.MaxThrottle - 20); |
360 | // Scale up to higher resolution. Hmm why is it not (from controlMixer and down) scaled already? |
452 | throttleTerm *= CONTROL_SCALING; |
361 | throttleTerm *= CONTROL_SCALING; |
453 | 362 | ||
454 | /* |
363 | /* |
455 | * Compose yaw term. |
364 | * Compose yaw term. |
456 | * The yaw term is limited: Absolute value is max. = the throttle term / 2. |
365 | * The yaw term is limited: Absolute value is max. = the throttle term / 2. |
457 | * However, at low throttle the yaw term is limited to a fixed value, |
366 | * However, at low throttle the yaw term is limited to a fixed value, |
458 | * and at high throttle it is limited by the throttle reserve (the difference |
367 | * and at high throttle it is limited by the throttle reserve (the difference |
459 | * between current throttle and maximum throttle). |
368 | * between current throttle and maximum throttle). |
460 | */ |
369 | */ |
461 | #define MIN_YAWGAS (40 * CONTROL_SCALING) // yaw also below this gas value |
370 | #define MIN_YAWGAS (40 * CONTROL_SCALING) // yaw also below this gas value |
462 | yawTerm = PDPartYaw - setPointYaw * CONTROL_SCALING; |
371 | yawTerm = PDPartYaw - controlYaw * CONTROL_SCALING; |
463 | // limit yawTerm |
372 | // Limit yawTerm |
464 | if(throttleTerm > MIN_YAWGAS) { |
373 | if(throttleTerm > MIN_YAWGAS) { |
465 | CHECK_MIN_MAX(yawTerm, - (throttleTerm / 2), (throttleTerm / 2)); |
374 | CHECK_MIN_MAX(yawTerm, - (throttleTerm / 2), (throttleTerm / 2)); |
466 | } else { |
375 | } else { |
Line 467... | Line 376... | ||
467 | CHECK_MIN_MAX(yawTerm, - (MIN_YAWGAS / 2), (MIN_YAWGAS / 2)); |
376 | CHECK_MIN_MAX(yawTerm, - (MIN_YAWGAS / 2), (MIN_YAWGAS / 2)); |
Line 484... | Line 393... | ||
484 | } else { |
393 | } else { |
485 | // "HH" mode: Integrate (rate - stick) = the difference between rotation rate and stick pos. |
394 | // "HH" mode: Integrate (rate - stick) = the difference between rotation rate and stick pos. |
486 | // To keep up with a full stick PDPart should be about 156... |
395 | // To keep up with a full stick PDPart should be about 156... |
487 | IPart[axis] += PDPart[axis] - control[axis]; // With gyroIFactor == 0, PDPart is really just a D-part. Integrate D-part (the rot. rate) and the stick pos. |
396 | IPart[axis] += PDPart[axis] - control[axis]; // With gyroIFactor == 0, PDPart is really just a D-part. Integrate D-part (the rot. rate) and the stick pos. |
488 | } |
397 | } |
489 | 398 | ||
490 | // TODO: From which planet comes the 16000? |
399 | // TODO: From which planet comes the 16000? |
491 | CHECK_MIN_MAX(IPart[axis], -(CONTROL_SCALING * 16000L), (CONTROL_SCALING * 16000L)); |
400 | CHECK_MIN_MAX(IPart[axis], -(CONTROL_SCALING * 16000L), (CONTROL_SCALING * 16000L)); |
492 | // Add (P, D) parts minus stick pos. to the scaled-down I part. |
401 | // Add (P, D) parts minus stick pos. to the scaled-down I part. |
493 | term[axis] = PDPart[axis] - control[axis] + IPart[axis] / Ki; // PID-controller for pitch |
402 | term[axis] = PDPart[axis] - control[axis] + IPart[axis] / Ki; // PID-controller for pitch |
494 | 403 | ||
495 | /* |
404 | /* |
496 | * Apply "dynamic stability" - that is: Limit pitch and roll terms to a growing function of throttle and yaw(!). |
405 | * Apply "dynamic stability" - that is: Limit pitch and roll terms to a growing function of throttle and yaw(!). |
497 | * The higher the dynamic stability parameter, the wider the bounds. 64 seems to be a kind of unity |
406 | * The higher the dynamic stability parameter, the wider the bounds. 64 seems to be a kind of unity |
498 | * (max. pitch or roll term is the throttle value). |
407 | * (max. pitch or roll term is the throttle value). |
499 | * TODO: Why a growing function of yaw? |
408 | * TODO: Why a growing function of yaw? |
500 | */ |
409 | */ |
501 | CHECK_MIN_MAX(term[axis], -tmp_int, tmp_int); |
410 | CHECK_MIN_MAX(term[axis], -tmp_int, tmp_int); |
502 | } |
411 | } |
- | 412 | // end part 3: 350 - 400 usec. |
|
Line 503... | Line 413... | ||
503 | 413 | ||
504 | // +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
414 | // +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
505 | // Universal Mixer |
415 | // Universal Mixer |
506 | // Each (pitch, roll, throttle, yaw) term is in the range [0..255 * CONTROL_SCALING]. |
416 | // Each (pitch, roll, throttle, yaw) term is in the range [0..255 * CONTROL_SCALING]. |
- | 417 | // +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
|
- | 418 | ||
- | 419 | DebugOut.Analog[12] = term[PITCH]; |
|
- | 420 | DebugOut.Analog[13] = term[ROLL]; |
|
- | 421 | DebugOut.Analog[14] = yawTerm; |
|
- | 422 | DebugOut.Analog[15] = throttleTerm; |
|
507 | // +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
423 | |
508 | for(i = 0; i < MAX_MOTORS; i++) { |
424 | for(i = 0; i < MAX_MOTORS; i++) { |
509 | int16_t tmp; |
425 | int16_t tmp; |
510 | if(Mixer.Motor[i][MIX_THROTTLE] > 0) { // If a motor has a zero throttle mix, it is not considered. |
426 | if (MKFlags & MKFLAG_MOTOR_RUN && Mixer.Motor[i][MIX_THROTTLE] > 0) { |
511 | tmp = ((int32_t)throttleTerm * Mixer.Motor[i][MIX_THROTTLE]) / 64L; |
427 | tmp = ((int32_t)throttleTerm * Mixer.Motor[i][MIX_THROTTLE]) / 64L; |
512 | tmp += ((int32_t)term[PITCH] * Mixer.Motor[i][MIX_PITCH]) / 64L; |
428 | tmp += ((int32_t)term[PITCH] * Mixer.Motor[i][MIX_PITCH]) / 64L; |
513 | tmp += ((int32_t)term[ROLL] * Mixer.Motor[i][MIX_ROLL]) / 64L; |
429 | tmp += ((int32_t)term[ROLL] * Mixer.Motor[i][MIX_ROLL]) / 64L; |
514 | tmp += ((int32_t)yawTerm * Mixer.Motor[i][MIX_YAW]) / 64L; |
430 | tmp += ((int32_t)yawTerm * Mixer.Motor[i][MIX_YAW]) / 64L; |
- | 431 | motorFilters[i] = motorFilter(tmp, motorFilters[i]); |
|
515 | motorFilters[i] = motorFilter(tmp, motorFilters[i]); |
432 | // Now we scale back down to a 0..255 range. |
- | 433 | tmp = motorFilters[i] / CONTROL_SCALING; |
|
- | 434 | // So this was the THIRD time a throttle was limited. But should the limitation |
|
- | 435 | // apply to the common throttle signal (the one used for setting the "power" of |
|
- | 436 | // all motors together) or should it limit the throttle set for each motor, |
|
- | 437 | // including mix components of pitch, roll and yaw? I think only the common |
|
- | 438 | // throttle should be limited. |
|
- | 439 | // --> WRONG. This caused motors to stall completely in tight maneuvers. |
|
516 | tmp = motorFilters[i] / CONTROL_SCALING; |
440 | // Apply to individual signals instead. |
- | 441 | CHECK_MIN_MAX(tmp, staticParams.MinThrottle, staticParams.MaxThrottle); |
|
517 | CHECK_MIN_MAX(tmp, staticParams.MinThrottle, staticParams.MaxThrottle); |
442 | CHECK_MIN_MAX(tmp, 1, 255); |
518 | Motor[i].SetPoint = tmp; |
443 | motor[i].SetPoint = tmp; |
- | 444 | } |
|
- | 445 | else if (motorTestActive) { |
|
- | 446 | motor[i].SetPoint = motorTest[i]; |
|
519 | } |
447 | } else { |
- | 448 | motor[i].SetPoint = 0; |
|
- | 449 | } |
|
- | 450 | if (i < 4) |
|
520 | else Motor[i].SetPoint = 0; |
451 | DebugOut.Analog[22+i] = motor[i].SetPoint; |
- | 452 | } |
|
521 | } |
453 | I2C_Start(TWI_STATE_MOTOR_TX); |
522 | 454 | ||
523 | // +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
455 | // +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
524 | // Debugging |
456 | // Debugging |
525 | // +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
457 | // +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
526 | if(!(--debugDataTimer)) { |
458 | if(!(--debugDataTimer)) { |
527 | debugDataTimer = 24; // update debug outputs at 488 / 24 = 20.3 Hz. |
459 | debugDataTimer = 24; // update debug outputs at 488 / 24 = 20.3 Hz. |
528 | DebugOut.Analog[0] = (10 * angle[PITCH]) / GYRO_DEG_FACTOR_PITCHROLL; // in 0.1 deg |
460 | DebugOut.Analog[0] = (10 * angle[PITCH]) / GYRO_DEG_FACTOR_PITCHROLL; // in 0.1 deg |
529 | DebugOut.Analog[1] = (10 * angle[ROLL]) / GYRO_DEG_FACTOR_PITCHROLL; // in 0.1 deg |
461 | DebugOut.Analog[1] = (10 * angle[ROLL]) / GYRO_DEG_FACTOR_PITCHROLL; // in 0.1 deg |
Line 530... | Line -... | ||
530 | DebugOut.Analog[2] = yawGyroHeading / GYRO_DEG_FACTOR_YAW; |
- | |
531 | - | ||
532 | // DebugOut.Analog[9] = setPointYaw; |
- | |
533 | // DebugOut.Analog[10] = yawIFactor; |
- | |
534 | // DebugOut.Analog[11] = gyroIFactor; |
- | |
535 | // DebugOut.Analog[12] = RC_getVariable(0); |
- | |
536 | // DebugOut.Analog[13] = dynamicParams.UserParams[0]; |
- | |
537 | // DebugOut.Analog[14] = RC_getVariable(4); |
- | |
538 | // DebugOut.Analog[15] = dynamicParams.UserParams[4]; |
462 | DebugOut.Analog[2] = yawGyroHeading / GYRO_DEG_FACTOR_YAW; |
539 | /* DebugOut.Analog[11] = yawGyroHeading / GYRO_DEG_FACTOR_YAW; */ |
- | |
540 | - | ||
541 | // 12..15 are the controls. |
- | |
542 | // DebugOut.Analog[16] = pitchAxisAcc; |
463 | |
543 | // DebugOut.Analog[17] = rollAxisAcc; |
- | |
544 | DebugOut.Analog[18] = HIRES_GYRO_INTEGRATION_FACTOR; |
- | |
545 | - | ||
546 | DebugOut.Analog[19] = throttleTerm; |
464 | /* |
547 | DebugOut.Analog[20] = term[PITCH]; |
465 | DebugOut.Analog[23] = (yawRate * 2 * (int32_t)yawPFactor) / (256L / CONTROL_SCALING); |
548 | DebugOut.Analog[21] = term[ROLL]; |
- | |
549 | DebugOut.Analog[22] = yawTerm; |
- | |
550 | - | ||
551 | DebugOut.Analog[23] = PPart[PITCH]; // |
- | |
552 | DebugOut.Analog[24] = IPart[PITCH] /Ki; // meget meget lille. |
- | |
553 | DebugOut.Analog[25] = PDPart[PITCH]; // omtrent lig ppart. |
466 | DebugOut.Analog[24] = controlYaw; |
554 | 467 | DebugOut.Analog[25] = yawAngleDiff / 100L; |
|
- | 468 | DebugOut.Analog[26] = accNoisePeak[PITCH]; |
|
Line 555... | Line 469... | ||
555 | DebugOut.Analog[26] = accNoisePeak[PITCH]; |
469 | DebugOut.Analog[27] = accNoisePeak[ROLL]; |
556 | DebugOut.Analog[27] = accNoisePeak[ROLL]; |
470 | */ |
557 | 471 | ||
558 | DebugOut.Analog[30] = gyroNoisePeak[PITCH]; |
472 | DebugOut.Analog[30] = gyroNoisePeak[PITCH]; |