ardupilot/libraries/SITL/SIM_Temperature_TSYS03.cpp

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#include "SIM_config.h"
#if AP_SIM_TSYS03_ENABLED
#include "SIM_Temperature_TSYS03.h"
#include <stdio.h>
#include <GCS_MAVLink/GCS.h>
constexpr const uint8_t SITL::TSYS03::serial[3];
int SITL::TSYS03::rdwr_handle_read(I2C::i2c_rdwr_ioctl_data *&data)
{
// something is expecting a response....
if (data->msgs[0].flags != 0) {
AP_HAL::panic("Unexpected flags");
}
if (data->msgs[1].flags != I2C_M_RD) {
AP_HAL::panic("Unexpected flags");
}
const uint8_t command = data->msgs[0].buf[0];
switch ((Command)command) {
case Command::RESET:
AP_HAL::panic("Bad RESET");
case Command::READ_SERIAL: {
if (state != State::RESET) {
// not sure if this is illegal or not?
AP_HAL::panic("reading serial outside RESET state");
}
if (data->msgs[1].len != 4) {
AP_HAL::panic("Unexpected serial read length");
}
memcpy(data->msgs[1].buf, serial, 3);
uint8_t crc = 0;
for (uint8_t i=0; i<3; i++) {
crc = crc8_dvb(crc, serial[i], 0x31);
}
data->msgs[1].buf[3] = crc;
break;
}
case Command::CONVERT:
AP_HAL::panic("Bad CONVERT");
case Command::READ_ADC: {
if (data->msgs[1].len != 3) {
AP_HAL::panic("Unexpected adc read length");
}
if (state == State::CONVERTING) {
// we've been asked for values while still converting.
// Return zeroes
} else if (state == State::CONVERTED) {
data->msgs[1].buf[1] = adc & 0xff;
data->msgs[1].buf[0] = adc >> 8;
uint8_t crc = 0;
for (uint8_t i=0; i<2; i++) {
crc = crc8_dvb(crc, data->msgs[1].buf[i], 0x31);
}
data->msgs[1].buf[2] = crc;
set_state(State::IDLE);
} else {
// AP_HAL::panic("READ_ADC in bad state");
// this happens at startup
return -1;
}
break;
}
}
return 0;
}
int SITL::TSYS03::rdwr_handle_write(I2C::i2c_rdwr_ioctl_data *&data)
{
// incoming write-only command
const auto &msg = data->msgs[0];
const uint8_t cmd = msg.buf[0];
switch ((Command)cmd) {
case Command::RESET:
set_state(State::RESET);
break;
case Command::READ_SERIAL:
AP_HAL::panic("bad serial read");
case Command::CONVERT:
if (state != State::RESET &&
state != State::CONVERTING &&
state != State::IDLE &&
state != State::READ_SERIAL) {
AP_HAL::panic("Convert outside reset/idle");
}
set_state(State::CONVERTING);
break;
case Command::READ_ADC:
AP_HAL::panic("bad READ_ADC");
}
return 0;
}
int SITL::TSYS03::rdwr(I2C::i2c_rdwr_ioctl_data *&data)
{
if (data->nmsgs == 2) {
return rdwr_handle_read(data);
}
if (data->nmsgs == 1) {
return rdwr_handle_write(data);
}
return -1;
}
// swiped from the driver:
float SITL::TSYS03::temperature_for_adc(const uint16_t _adc) const
{
const float temperature = -40.0 + _adc * 165 / (powf(2, 16) - 1.0);
return temperature;
}
uint16_t SITL::TSYS03::calculate_adc(float temperature) const
{
// bisect to find the adc24 value:
uint16_t min_adc = 0;
uint16_t max_adc = 0xffff;
uint16_t current_adc = (min_adc+(uint64_t)max_adc)/2;
float current_error = fabsf(temperature_for_adc(current_adc) - temperature);
bool bisect_down = false;
// temperature_for_adc(9378708); // should be 10.59
while (labs(int32_t(max_adc - min_adc)) > 1 && current_error > 0.05) {
uint16_t candidate_adc;
if (bisect_down) {
candidate_adc = (min_adc+(uint64_t)current_adc)/2;
} else {
candidate_adc = (max_adc+(uint64_t)current_adc)/2;
}
const float candidate_temp = temperature_for_adc(candidate_adc);
const float candidate_error = fabsf(candidate_temp - temperature);
if (candidate_error > current_error) {
// worse result
if (bisect_down) {
min_adc = candidate_adc;
bisect_down = false;
} else {
max_adc = candidate_adc;
bisect_down = true;
}
} else {
// better result
if (bisect_down) {
max_adc = current_adc;
bisect_down = false;
} else {
min_adc = current_adc;
bisect_down = true;
}
current_adc = candidate_adc;
current_error = candidate_error;
}
}
return current_adc;
}
void SITL::TSYS03::update(const class Aircraft &aircraft)
{
switch (state) {
case State::UNKNOWN:
break;
case State::RESET:
if (time_in_state_ms() > 2) {
set_state(State::IDLE);
}
break;
case State::READ_SERIAL:
break;
case State::IDLE:
break;
case State::CONVERTING:
if (time_in_state_ms() > 5) {
const float temperature = get_sim_temperature(aircraft);
if (!is_equal(last_temperature, temperature)) {
last_temperature = temperature;
adc = calculate_adc(KELVIN_TO_C(temperature));
}
set_state(State::CONVERTED);
}
break;
case State::CONVERTED:
break;
}
}
float SITL::TSYS03::get_sim_temperature(const Aircraft &aircraft) const
{
return aircraft.get_battery_temperature();
}
#endif // AP_SIM_TSYS03_ENABLED