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Ardupilot2/libraries/AP_BattMonitor/AP_BattMonitor_SMBus_Generic.cpp
Joshua Henderson a93b887f5f AP_BattMonitor: move read_block up to SMBus base class
2022-08-30 09:09:54 +10:00

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6.3 KiB
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#include <AP_HAL/AP_HAL.h>
#include <AP_Common/AP_Common.h>
#include <AP_Math/AP_Math.h>
#include "AP_BattMonitor.h"
#include "AP_BattMonitor_SMBus_Generic.h"
uint8_t smbus_cell_ids[] = { 0x3f, // cell 1
0x3e, // cell 2
0x3d, // cell 3
0x3c, // cell 4
0x3b, // cell 5
0x3a, // cell 6
0x39, // cell 7
0x38, // cell 8
0x37, // cell 9
0x36, // cell 10
0x35, // cell 11
0x34, // cell 12
#if CONFIG_HAL_BOARD == HAL_BOARD_SITL
0x33, // cell 13
0x32 // cell 14
#endif
};
#define SMBUS_CELL_COUNT_CHECK_TIMEOUT 15 // check cell count for up to 15 seconds
/*
* Other potentially useful registers, listed here for future use
* #define BATTMONITOR_SMBUS_MAXELL_CHARGE_STATUS 0x0d // relative state of charge
* #define BATTMONITOR_SMBUS_MAXELL_BATTERY_STATUS 0x16 // battery status register including alarms
* #define BATTMONITOR_SMBUS_MAXELL_BATTERY_CYCLE_COUNT 0x17 // cycle count
* #define BATTMONITOR_SMBUS_MAXELL_DESIGN_VOLTAGE 0x19 // design voltage register
* #define BATTMONITOR_SMBUS_MAXELL_MANUFACTURE_DATE 0x1b // manufacturer date
* #define BATTMONITOR_SMBUS_MAXELL_SERIALNUM 0x1c // serial number register
* #define BATTMONITOR_SMBUS_MAXELL_HEALTH_STATUS 0x4f // state of health
* #define BATTMONITOR_SMBUS_MAXELL_SAFETY_ALERT 0x50 // safety alert
* #define BATTMONITOR_SMBUS_MAXELL_SAFETY_STATUS 0x51 // safety status
* #define BATTMONITOR_SMBUS_MAXELL_PF_ALERT 0x52 // safety status
* #define BATTMONITOR_SMBUS_MAXELL_PF_STATUS 0x53 // safety status
*/
// Constructor
AP_BattMonitor_SMBus_Generic::AP_BattMonitor_SMBus_Generic(AP_BattMonitor &mon,
AP_BattMonitor::BattMonitor_State &mon_state,
AP_BattMonitor_Params &params)
: AP_BattMonitor_SMBus(mon, mon_state, params, AP_BATTMONITOR_SMBUS_BUS_EXTERNAL)
{}
void AP_BattMonitor_SMBus_Generic::timer()
{
// check if PEC is supported
if (!check_pec_support()) {
return;
}
uint16_t data;
uint32_t tnow = AP_HAL::micros();
// read voltage (V)
if (read_word(BATTMONITOR_SMBUS_VOLTAGE, data)) {
_state.voltage = (float)data * 0.001f;
_state.last_time_micros = tnow;
_state.healthy = true;
}
// assert that BATTMONITOR_SMBUS_NUM_CELLS_MAX must be no more than smbus_cell_ids
static_assert(BATTMONITOR_SMBUS_NUM_CELLS_MAX <= ARRAY_SIZE(smbus_cell_ids), "BATTMONITOR_SMBUS_NUM_CELLS_MAX must be no more than smbus_cell_ids");
// check cell count
if (!_cell_count_fixed) {
if (_state.healthy) {
// when battery first becomes healthy, start check of cell count
if (_cell_count_check_start_us == 0) {
_cell_count_check_start_us = tnow;
}
if (tnow - _cell_count_check_start_us > (SMBUS_CELL_COUNT_CHECK_TIMEOUT * 1e6)) {
// give up checking cell count after 15sec of continuous healthy battery reads
_cell_count_fixed = true;
}
} else {
// if battery becomes unhealthy restart cell count check
_cell_count_check_start_us = 0;
}
}
// we loop over something limted by
// BATTMONITOR_SMBUS_NUM_CELLS_MAX but assign into something
// limited by AP_BATT_MONITOR_CELLS_MAX - so make sure we won't
// over-write:
static_assert(BATTMONITOR_SMBUS_NUM_CELLS_MAX <= ARRAY_SIZE(_state.cell_voltages.cells), "BATTMONITOR_SMBUS_NUM_CELLS_MAX must be <= number of cells in state voltages");
// read cell voltages
for (uint8_t i = 0; i < (_cell_count_fixed ? _cell_count : BATTMONITOR_SMBUS_NUM_CELLS_MAX); i++) {
if (read_word(smbus_cell_ids[i], data) && (data > 0) && (data < UINT16_MAX)) {
_has_cell_voltages = true;
_state.cell_voltages.cells[i] = data;
_last_cell_update_us[i] = tnow;
if (!_cell_count_fixed) {
_cell_count = MAX(_cell_count, i + 1);
}
} else if ((tnow - _last_cell_update_us[i]) > AP_BATTMONITOR_SMBUS_TIMEOUT_MICROS) {
_state.cell_voltages.cells[i] = UINT16_MAX;
}
}
// timeout after 5 seconds
if ((tnow - _state.last_time_micros) > AP_BATTMONITOR_SMBUS_TIMEOUT_MICROS) {
_state.healthy = false;
return;
}
// read current (A)
if (read_word(BATTMONITOR_SMBUS_CURRENT, data)) {
_state.current_amps = -(float)((int16_t)data) * 0.001f;
_state.last_time_micros = tnow;
}
read_full_charge_capacity();
// FIXME: Perform current integration if the remaining capacity can't be requested
read_remaining_capacity();
read_temp();
read_serial_number();
read_cycle_count();
}
// check if PEC supported with the version value in SpecificationInfo() function
// returns true once PEC is confirmed as working or not working
bool AP_BattMonitor_SMBus_Generic::check_pec_support()
{
// exit immediately if we have already confirmed pec support
if (_pec_confirmed) {
return true;
}
// specification info
uint16_t data;
if (!read_word(BATTMONITOR_SMBUS_SPECIFICATION_INFO, data)) {
return false;
}
// extract version
uint8_t version = (data & 0xF0) >> 4;
// version less than 0011b (i.e. 3) do not support PEC
if (version < 3) {
_pec_supported = false;
_pec_confirmed = true;
return true;
}
// check manufacturer name
uint8_t buff[AP_BATTMONITOR_SMBUS_READ_BLOCK_MAXIMUM_TRANSFER + 1] {};
if (read_block(BATTMONITOR_SMBUS_MANUFACTURE_NAME, buff, sizeof(buff))) {
// Hitachi maxell batteries do not support PEC
if (strcmp((char*)buff, "Hitachi maxell") == 0) {
_pec_supported = false;
_pec_confirmed = true;
return true;
}
}
// assume all other batteries support PEC
_pec_supported = true;
_pec_confirmed = true;
return true;
}
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