2 * Copyright © 2012 Keith Packard <keithp@keithp.com>
4 * This program is free software; you can redistribute it and/or modify
5 * it under the terms of the GNU General Public License as published by
6 * the Free Software Foundation; either version 2 of the License, or
7 * (at your option) any later version.
9 * This program is distributed in the hope that it will be useful, but
10 * WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12 * General Public License for more details.
14 * You should have received a copy of the GNU General Public License along
15 * with this program; if not, write to the Free Software Foundation, Inc.,
16 * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
22 #define GRAVITY 9.80665
25 #define AO_DATA_ADC (1 << 0)
31 #include <ao_ms5607.h>
32 #define AO_DATA_MS5607 (1 << 1)
34 #define AO_DATA_MS5607 0
38 #include <ao_mpu6000.h>
39 #define AO_DATA_MPU6000 (1 << 2)
41 #define AO_DATA_MPU6000 0
45 #include <ao_mpu9250.h>
46 #define AO_DATA_MPU9250 (1 << 2)
48 #define AO_DATA_MPU9250 0
52 #include <ao_hmc5883.h>
53 #define AO_DATA_HMC5883 (1 << 3)
55 #define AO_DATA_HMC5883 0
59 #include <ao_mma655x.h>
60 #define AO_DATA_MMA655X (1 << 4)
62 #define AO_DATA_MMA655X 0
66 #include <ao_adxl375.h>
67 #define AO_DATA_ADXL375 (1 << 4)
69 #define AO_DATA_ADXL375 0
73 #include <ao_max6691.h>
74 #define AO_DATA_MAX6691 (1 << 4)
76 #define AO_DATA_MAX6691 0
81 #define AO_DATA_ALL (AO_DATA_ADC|AO_DATA_MS5607|AO_DATA_MPU6000|AO_DATA_HMC5883|AO_DATA_MMA655X|AO_DATA_MPU9250|AO_DATA_ADXL375)
89 struct ao_ms5607_sample ms5607_raw;
90 struct ao_ms5607_value ms5607_cooked;
93 struct ao_mpu6000_sample mpu6000;
99 struct ao_mpu9250_sample mpu9250;
102 struct ao_hmc5883_sample hmc5883;
108 struct ao_adxl375_sample adxl375;
111 struct ao_max6691_sample max6691;
114 struct ao_ads131a0x_sample ads131a0x;
118 #define ao_data_ring_next(n) (((n) + 1) & (AO_DATA_RING - 1))
119 #define ao_data_ring_prev(n) (((n) - 1) & (AO_DATA_RING - 1))
121 /* Get a copy of the last complete sample set */
123 ao_data_get(struct ao_data *packet);
125 extern volatile struct ao_data ao_data_ring[AO_DATA_RING];
126 extern volatile uint8_t ao_data_head;
127 extern volatile uint8_t ao_data_present;
128 extern volatile uint8_t ao_data_count;
131 * Mark a section of data as ready, check for data complete
133 #define AO_DATA_PRESENT(bit) (ao_data_present |= (bit))
136 * Wait until it is time to write a sensor sample; this is
137 * signaled by the timer tick
139 #define AO_DATA_WAIT() ao_sleep((void *) &ao_data_count)
141 #endif /* AO_DATA_RING */
143 #if !HAS_BARO && HAS_MS5607
145 /* Either an MS5607 or an MS5611 hooked to a SPI port
150 typedef int32_t pres_t;
152 #define AO_ALT_TYPE int32_t
154 typedef AO_ALT_TYPE alt_t;
156 #define ao_data_pres_cook(packet) ao_ms5607_convert(&packet->ms5607_raw, &packet->ms5607_cooked)
158 #define ao_data_pres(packet) ((packet)->ms5607_cooked.pres)
159 #define ao_data_temp(packet) ((packet)->ms5607_cooked.temp)
161 #define pres_to_altitude(p) ao_pa_to_altitude(p)
165 #if !HAS_BARO && HAS_ADC
169 typedef int16_t pres_t;
170 typedef int16_t alt_t;
172 #define ao_data_pres(packet) ((packet)->adc.pres)
173 #define ao_data_temp(packet) ((packet)->adc.temp)
174 #define pres_to_altitude(p) ao_pres_to_altitude(p)
175 #define ao_data_pres_cook(p)
180 * Need a few macros to pull data from the sensors:
182 * ao_data_accel_sample - pull raw sensor and convert to normalized values
183 * ao_data_accel - pull normalized value (lives in the same memory)
184 * ao_data_set_accel - store normalized value back in the sensor location
185 * ao_data_accel_invert - flip rocket ends for positive acceleration
190 /* This section is for an analog accelerometer hooked to one of the ADC pins. As
191 * those are 5V parts, this also requires that the 5V supply be hooked to to anothe ADC
192 * pin so that the both can be measured to correct for changes between the 3.3V and 5V rails
195 typedef int16_t accel_t;
196 #define ao_data_accel(packet) ((packet)->adc.accel)
197 #define ao_data_set_accel(packet, a) ((packet)->adc.accel = (a))
198 #define ao_data_accel_invert(a) (0x7fff -(a))
201 * Ok, the math here is a bit tricky.
203 * ao_sample_accel: ADC output for acceleration
204 * ao_accel_ref: ADC output for the 5V reference.
205 * ao_cook_accel: Corrected acceleration value
206 * Vcc: 3.3V supply to the CC1111
207 * Vac: 5V supply to the accelerometer
208 * accel: input voltage to accelerometer ADC pin
209 * ref: input voltage to 5V reference ADC pin
212 * Measured acceleration is ratiometric to Vcc:
214 * ao_sample_accel accel
215 * ------------ = -----
218 * Measured 5v reference is also ratiometric to Vcc:
221 * ------------ = -----
225 * ao_accel_ref = 32767 * (ref / Vcc)
227 * Acceleration is measured ratiometric to the 5V supply,
228 * so what we want is:
230 * ao_cook_accel accel
231 * ------------- = -----
239 * ao_sample_accel 32767
240 * = ------------ * ------------
243 * Multiply through by 32767:
245 * ao_sample_accel * 32767
246 * ao_cook_accel = --------------------
249 * Now, the tricky part. Getting this to compile efficiently
250 * and keeping all of the values in-range.
252 * First off, we need to use a shift of 16 instead of * 32767 as SDCC
253 * does the obvious optimizations for byte-granularity shifts:
255 * ao_cook_accel = (ao_sample_accel << 16) / ao_accel_ref
257 * Next, lets check our input ranges:
259 * 0 <= ao_sample_accel <= 0x7fff (singled ended ADC conversion)
260 * 0x7000 <= ao_accel_ref <= 0x7fff (the 5V ref value is close to 0x7fff)
262 * Plugging in our input ranges, we get an output range of 0 - 0x12490,
263 * which is 17 bits. That won't work. If we take the accel ref and shift
264 * by a bit, we'll change its range:
266 * 0xe000 <= ao_accel_ref<<1 <= 0xfffe
268 * ao_cook_accel = (ao_sample_accel << 16) / (ao_accel_ref << 1)
270 * Now the output range is 0 - 0x9248, which nicely fits in 16 bits. It
271 * is, however, one bit too large for our signed computations. So, we
272 * take the result and shift that by a bit:
274 * ao_cook_accel = ((ao_sample_accel << 16) / (ao_accel_ref << 1)) >> 1
276 * This finally creates an output range of 0 - 0x4924. As the ADC only
277 * provides 11 bits of data, we haven't actually lost any precision,
278 * just dropped a bit of noise off the low end.
283 #define ao_data_accel_cook(packet) \
284 ((uint16_t) ((((uint32_t) (packet)->adc.accel << 16) / ((packet)->adc.accel_ref << 1))) >> 1)
288 #define ao_data_accel_cook(packet) ((packet)->adc.accel)
290 #endif /* HAS_ACCEL_REF */
292 #endif /* HAS_ACCEL */
294 #if !HAS_ACCEL && HAS_MMA655X
298 typedef int16_t accel_t;
300 /* MMA655X is hooked up so that positive values represent negative acceleration */
302 #define AO_ACCEL_INVERT 4095
304 #ifndef AO_MMA655X_INVERT
305 #error AO_MMA655X_INVERT not defined
308 #define ao_data_accel(packet) ((packet)->mma655x)
309 #if AO_MMA655X_INVERT
310 #define ao_data_accel_cook(packet) (AO_ACCEL_INVERT - (packet)->mma655x)
312 #define ao_data_accel_cook(packet) ((packet)->mma655x)
314 #define ao_data_set_accel(packet, accel) ((packet)->mma655x = (accel))
315 #define ao_data_accel_invert(accel) (AO_ACCEL_INVERT - (accel))
319 #if !HAS_ACCEL && HAS_ADXL375
323 typedef int16_t accel_t;
325 #ifndef AO_ADXL375_INVERT
326 #error AO_ADXL375_INVERT not defined
329 #define ao_data_accel(packet) ((packet)->adxl375.AO_ADXL375_AXIS)
330 #if AO_ADXL375_INVERT
331 #define ao_data_accel_cook(packet) (-ao_data_accel(packet))
333 #define ao_data_accel_cook(packet) ao_data_accel(packet)
335 #define ao_data_set_accel(packet, accel) (ao_data_accel(packet) = (accel))
336 #define ao_data_accel_invert(accel) (-(accel))
338 #endif /* HAS_ADXL375 */
340 #if !HAS_ACCEL && HAS_MPU6000
344 typedef int16_t accel_t;
346 /* MPU6000 is hooked up so that positive y is positive acceleration */
347 #define ao_data_accel(packet) ((packet)->z_accel)
348 #define ao_data_accel_cook(packet) (-(packet)->mpu6000.accel_y)
349 #define ao_data_set_accel(packet, accel) ((packet)->z_accel = (accel))
350 #define ao_data_accel_invert(a) (-(a))
354 #if !HAS_GYRO && HAS_MPU6000
358 typedef int16_t gyro_t; /* in raw sample units */
359 typedef int16_t angle_t; /* in degrees */
361 /* Y axis is aligned with the direction of motion (along) */
362 /* X axis is aligned in the other board axis (across) */
363 /* Z axis is aligned perpendicular to the board (through) */
365 #define ao_data_along(packet) ((packet)->mpu6000.accel_y)
366 #define ao_data_across(packet) ((packet)->mpu6000.accel_x)
367 #define ao_data_through(packet) ((packet)->mpu6000.accel_z)
369 #define ao_data_roll(packet) ((packet)->mpu6000.gyro_y)
370 #define ao_data_pitch(packet) ((packet)->mpu6000.gyro_x)
371 #define ao_data_yaw(packet) ((packet)->mpu6000.gyro_z)
373 static inline float ao_convert_gyro(float sensor)
375 return ao_mpu6000_gyro(sensor);
378 static inline float ao_convert_accel(int16_t sensor)
380 return ao_mpu6000_accel(sensor);
385 #if !HAS_GYRO && HAS_MPU9250
389 typedef int16_t gyro_t; /* in raw sample units */
390 typedef int16_t angle_t; /* in degrees */
392 /* Y axis is aligned with the direction of motion (along) */
393 /* X axis is aligned in the other board axis (across) */
394 /* Z axis is aligned perpendicular to the board (through) */
396 #ifndef ao_data_along
397 #define ao_data_along(packet) ((packet)->mpu9250.accel_y)
398 #define ao_data_across(packet) ((packet)->mpu9250.accel_x)
399 #define ao_data_through(packet) ((packet)->mpu9250.accel_z)
401 #define ao_data_roll(packet) ((packet)->mpu9250.gyro_y)
402 #define ao_data_pitch(packet) ((packet)->mpu9250.gyro_x)
403 #define ao_data_yaw(packet) ((packet)->mpu9250.gyro_z)
406 static inline float ao_convert_gyro(float sensor)
408 return ao_mpu9250_gyro(sensor);
411 static inline float ao_convert_accel(int16_t sensor)
413 return ao_mpu9250_accel(sensor);
418 #if !HAS_MAG && HAS_HMC5883
422 typedef int16_t ao_mag_t; /* in raw sample units */
424 #define ao_data_mag_along(packet) ((packet)->hmc5883.x)
425 #define ao_data_mag_across(packet) ((packet)->hmc5883.y)
426 #define ao_data_mag_through(packet) ((packet)->hmc5883.z)
430 #if !HAS_MAG && HAS_MPU9250
434 typedef int16_t ao_mag_t; /* in raw sample units */
436 /* Note that this order is different from the accel and gyro. For some
437 * reason, the mag sensor axes aren't the same as the other two
438 * sensors. Also, the Z axis is flipped in sign.
441 #ifndef ao_data_mag_along
442 #define ao_data_mag_along(packet) ((packet)->mpu9250.mag_x)
443 #define ao_data_mag_across(packet) ((packet)->mpu9250.mag_y)
444 #define ao_data_mag_through(packet) ((packet)->mpu9250.mag_z)
452 ao_data_fill(int head) {
453 if (ao_data_present == AO_DATA_ALL) {
455 ao_data_ring[head].ms5607_raw = ao_ms5607_current;
458 ao_data_ring[head].mma655x = ao_mma655x_current;
461 ao_data_ring[head].hmc5883 = ao_hmc5883_current;
464 ao_data_ring[head].mpu6000 = ao_mpu6000_current;
467 ao_data_ring[head].mpu9250 = ao_mpu9250_current;
470 ao_data_ring[head].adxl375 = ao_adxl375_current;
473 ao_data_ring[head].max6691 = ao_max6691_current;
476 ao_data_ring[head].ads131a0x = ao_ads131a0x_current;
478 ao_data_ring[head].tick = ao_tick_count;
479 ao_data_head = ao_data_ring_next(head);
480 ao_wakeup((void *) &ao_data_head);
486 #endif /* _AO_DATA_H_ */