ardupilot/Tools/AP_Periph/esc_apd_telem.cpp

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/*
ESC Telemetry for the APD HV Pro ESC
Protocol is here: https://docs.powerdrives.net/products/hv_pro/uart-telemetry-output
*/
#include "esc_apd_telem.h"
#include <AP_HAL/utility/sparse-endian.h>
#include <AP_Math/crc.h>
#include <AP_Math/definitions.h>
#include <string.h>
#ifdef HAL_PERIPH_ENABLE_ESC_APD
extern const AP_HAL::HAL& hal;
#define TELEM_HEADER 0x9B
#define TELEM_LEN 0x16
ESC_APD_Telem::ESC_APD_Telem (AP_HAL::UARTDriver *_uart, float num_poles) :
uart(_uart),
pole_count(num_poles)
{
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uart->begin(115200);
}
bool ESC_APD_Telem::update() {
uint32_t n = uart->available();
if (n == 0) {
return false;
}
// don't read too much in one loop to prevent too high CPU load
if (n > 50) {
n = 50;
}
bool ret = false;
while (n--) {
uint8_t b = uart->read();
received.bytes[len++] = b;
// check the packet size first
if ((size_t)len >= sizeof(received.packet)) {
// we have a full packet, check the stop byte
if (received.packet.stop == 65535) {
// valid stop byte, check the CRC
if (crc_fletcher16(received.bytes, 18) == received.packet.checksum) {
// valid packet, copy the data we need and reset length
decoded.voltage = le16toh(received.packet.voltage) * 1e-2f;
decoded.temperature = convert_temperature(le16toh(received.packet.temperature));
decoded.current = ((int16_t)le16toh(received.packet.bus_current)) * (1 / 12.5f);
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decoded.rpm = le32toh(received.packet.erpm) / pole_count;
decoded.power_rating_pct = le16toh(received.packet.motor_duty) * 1e-2f;
ret = true;
len = 0;
} else {
// we have an invalid packet, shift it back a byte
shift_buffer();
}
} else {
// invalid stop byte, we've lost sync, shift the packet by 1 byte
shift_buffer();
}
}
}
return ret;
}
// shift the decode buffer left by 1 byte, and rewind the progress
void ESC_APD_Telem::shift_buffer(void) {
memmove(received.bytes, received.bytes + 1, sizeof(received.bytes) - 1);
len--;
}
// convert the raw ESC temperature to a useful value (in Kelvin)
// based on the 1.1 example C code found here https://docs.powerdrives.net/products/hv_pro/uart-telemetry-output
float ESC_APD_Telem::convert_temperature(uint16_t raw) const {
const float series_resistor = 10000;
const float nominal_resistance = 10000;
const float nominal_temperature = 25;
const float b_coefficent = 3455;
const float Rntc = series_resistor / ((4096 / float(raw)) - 1);
float temperature = Rntc / nominal_resistance; // (R/Ro)
temperature = logf(temperature); // ln(R/Ro)
temperature /= b_coefficent; // 1/B * ln(R/Ro)
temperature += 1 / C_TO_KELVIN(nominal_temperature); // + (1/To)
temperature = 1 / temperature; // invert
// the example code rejected anything below 0C, or above 200C, the 200C clamp makes some sense, the below 0C is harder to accept
return temperature;
}
#endif // HAL_PERIPH_ENABLE_ESC_APD