portapack-mayhem/firmware/common/max17055.hpp

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/*
* Copyright (C) 2024 jLynx.
*
* This file is part of PortaPack.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; see the file COPYING. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street,
* Boston, MA 02110-1301, USA.
*/
#ifndef __MAX17055_H__
#define __MAX17055_H__
#include <cstdint>
#include <array>
#include <string>
#include "i2c_pp.hpp"
#define MAX17055_POR 0
#define MAX17055_IMin 1
#define MAX17055_IMax 2
#define MAX17055_VMin 3
#define MAX17055_VMax 4
#define MAX17055_TMin 5
#define MAX17055_TMax 6
#define MAX17055_SOC_Min 7
#define MAX17055_SOC_Max 8
#define MAX17055_SOC_Change 9
#define MAX17055_Bat_Status 10
#define MAX17055_Bat_Insert 11
#define MAX17055_Bat_Remove 12
// Design Parameters
//----------------------------------------------
// Define Battery Capacity
#ifndef __MAX17055_Design_Capacity__
#define __MAX17055_Design_Capacity__ 2500 // Battery Capacity
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#endif
// Define Gauge Resistor
#ifndef __MAX17055_Resistor__
#define __MAX17055_Resistor__ 0.01 // Shunt Resistor
#endif
// Define Minimum Voltage
#ifndef __MAX17055_Min_Voltage__
#define __MAX17055_Min_Voltage__ 3.0 // Minimum Voltage
#endif
// Define Maximum Voltage
#ifndef __MAX17055_Max_Voltage__
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#define __MAX17055_Max_Voltage__ 4.17 // Maximum Voltage
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#endif
// Define Empty Voltage
#ifndef __MAX17055_Empty_Voltage__
#define __MAX17055_Empty_Voltage__ 3.0 // Empty Voltage
#endif
// Define Recovery Voltage
#ifndef __MAX17055_Recovery_Voltage__
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#define __MAX17055_Recovery_Voltage__ 3.1 // Recovery Voltage
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#endif
// Define Maximum Current
#ifndef __MAX17055_Max_Current__
#define __MAX17055_Max_Current__ 3.0 // Maximum Current
#endif
// Define Termination Current
#ifndef __MAX17055_Termination_Current__
#define __MAX17055_Termination_Current__ 0.1 // Termination Current
#endif
// Define Minimum Temperature
#ifndef __MAX17055_Min_Temperature__
#define __MAX17055_Min_Temperature__ -20 // Minimum Temperature
#endif
// Define Maximum Temperature
#ifndef __MAX17055_Max_Temperature__
#define __MAX17055_Max_Temperature__ 60 // Maximum Temperature
#endif
// Define Battery Model
#ifndef __MAX17055_Battery_Model__
#define __MAX17055_Battery_Model__ 0 // Battery Model
#endif
// Define Limits
//----------------------------------------------
// Define Minimum SOC
#ifndef __MAX17055_Min_SOC__
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#define __MAX17055_Min_SOC__ 0 // Minimum SOC
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#endif
// Define Maximum SOC
#ifndef __MAX17055_Max_SOC__
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#define __MAX17055_Max_SOC__ 100 // Maximum SOC
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#endif
// Config1 (0x1D) Configuration
//----------------------------------------------
// Enable alert on battery removal when the IC is mounted host side.
// When Ber = 1, a battery-removal condition, as detected by the AIN pin voltage, triggers an alert.
#ifndef MAX17055_Ber
#define MAX17055_Ber 0
#endif
// Enable alert on battery insertion when the IC is mounted host side.
// When Bei = 1, a battery-insertion condition, as detected by the AIN pin voltage, triggers an alert.
#ifndef MAX17055_Bei
#define MAX17055_Bei 0
#endif
// When Aen = 1, violation of any of the alert threshold register values
// by temperature, voltage, or SOC triggers an alert. This bit
// affects the ALRT pin operation only. The Smx, Smn, Tmx,
// Tmn, Vmx, Vmn, Imx, and Imn bits of the Status register
// (00h) are not disabled.
#ifndef MAX17055_Aen
#define MAX17055_Aen 1
#endif
// This allows the host to control the bias of the thermistor switch or
// enable fast detection of battery removal. Set FTHRM = 1
// to always enable the thermistor bias switch. With a standard 10kΩ thermistor,
// this adds an additional ~200μA to the current drain of the circuit.
#ifndef MAX17055_FTHRM
#define MAX17055_FTHRM 0
#endif
// Set to logic 1 to enable the automatic THRM output bias and AIN measurement.
#ifndef MAX17055_ETHRM
#define MAX17055_ETHRM 0
#endif
// Set to logic 1 to force the device to enter shutdown mode if both
// SDA and SCL are held low for more than timeout of the
// ShdnTimer register.
#ifndef MAX17055_COMMSH
#define MAX17055_COMMSH 0
#endif
// Write this bit to logic 1 to force a shutdown of the device after timeout of the ShdnTimer register (default 45s delay).
#ifndef MAX17055_SHDN
#define MAX17055_SHDN 0
#endif
// When set to 1, the fuel gauge requires external temperature measurements to be
// written from the host. When set to 0, the IC's own measurements as used as selected by Config.TSEL.
#ifndef MAX17055_Tex
#define MAX17055_Tex 0
#endif
// Set to 1 and set ETHRM or FTHRM to 1 to enable temperature measurements selected by Config.TSel.
#ifndef MAX17055_Ten
#define MAX17055_Ten 1
#endif
// Set to 1 to enable device shutdown when the IC is mounted host side and the battery is removed.
#ifndef MAX17055_AINSH
#define MAX17055_AINSH 0
#endif
// When IS = 1, current alerts can only be cleared through software. When IS = 0,
// current alerts are cleared automatically when the thresholdis no longer exceeded.
#ifndef MAX17055_IS
#define MAX17055_IS 0
#endif
// When VS = 1, voltage alerts can only be cleared through software. When VS = 0,
// voltage alerts are cleared automatically when the threshold is no longer exceeded.
#ifndef MAX17055_VS
#define MAX17055_VS 0
#endif
// When TS = 1, temperature alerts can only be cleared through software. WhenTS = 0,
// temperature alerts are cleared automatically whenthe threshold is no longer exceeded.
#ifndef MAX17055_TS
#define MAX17055_TS 0
#endif
// When SS = 1, SOC alerts can only be cleared through software. When SS = 0,
// SOC alerts are cleared automatically when the threshold is no longer exceeded.
#ifndef MAX17055_SS
#define MAX17055_SS 0
#endif
// 0 to use internal die temperature. 1 to use temperature information from thermistor.
// ETHRM bit should be set to 1 when TSel is 1.
#ifndef MAX17055_TSel
#define MAX17055_TSel 0
#endif
// Config1 (0xBB) Configuration
//----------------------------------------------
// Set to 1 to enable constant-power mode. If it is set to 0,
// AtRate/AvgCurrent is used for (At)TTE/(At) QResidual/(At)AvSOC/(At)AvCap.
#ifndef MAX17055_CPMode
#define MAX17055_CPMode 0
#endif
// Host sets this bit to 1 in order to initiate firmware to finish processing a newly loaded model.
// Firmware clears this bit to zero to indicate that model loading is finished.
#ifndef MAX17055_LDMDL
#define MAX17055_LDMDL 0
#endif
// Set this bit to 1 to enable temperature based alerts.
// Write this bit to 0 to disable temperature alerts. This bit is set to 1 at power-up.
#ifndef MAX17055_TAIrtEN
#define MAX17055_TAIrtEN 1
#endif
// Set this bit to 1 to enable alert output with the Status.dSOCi bit function.
// Write this bit to 0 to disable alert output with the Status. dSOCi bit. This bit is set to 0 at power-up.
#ifndef MAX17055_dSOCen
#define MAX17055_dSOCen 0
#endif
// When this bit is set to 0, Dynamic Power calculations are disabled and registers
// MaxPeakPower/SusPeakPower/MPPCurrent/ SPPCurrent can be used as general purpose memory.
#ifndef MAX17055_DPEn
#define MAX17055_DPEn 0
#endif
// When this bit is set to 0, AtRate calculations are disabled and registers
// AtQResidual/AtTTE/AtAvSOC/AtAvCap can be used as general purpose memory.
#ifndef MAX17055_AtRateEn
#define MAX17055_AtRateEn 0
#endif
namespace battery {
namespace max17055 {
using address_t = uint8_t;
class MAX17055 {
public:
constexpr MAX17055(I2C& bus, const I2C::address_t bus_address)
: bus(bus), bus_address(bus_address), detected_(false) {}
void init();
bool detect();
bool isDetected() const { return detected_; }
uint16_t readVoltage();
uint8_t readPercentage();
void getBatteryInfo(uint8_t& valid_mask, uint8_t& batteryPercentage, uint16_t& voltage, int32_t& current);
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uint16_t instantVoltage(void);
uint16_t averageVoltage(void);
uint16_t emptyVoltage(void);
uint16_t recoveryVoltage(void);
int32_t instantCurrent(void);
int32_t averageCurrent(void);
uint16_t stateOfCharge(void);
uint16_t averageStateOfCharge(void);
uint16_t instantCapacity(void);
uint16_t designCapacity(void);
uint16_t fullCapacity(void);
uint16_t icTemperature(void);
uint16_t timeToEmpty(void);
uint16_t timeToFull(void);
uint16_t batteryAge(void);
uint16_t chargeCycle(void);
bool statusControl(const uint8_t _Status);
void statusClear(void);
uint16_t chargeTerminationCurrent(void);
uint16_t read_register(const uint8_t reg);
bool write_register(const uint8_t reg, const uint16_t value);
private:
I2C& bus;
const I2C::address_t bus_address;
bool detected_ = false;
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bool readRegister(uint8_t reg, uint16_t& value);
bool readMultipleRegister(uint8_t reg, uint8_t* data, uint8_t length, bool endTransmission);
bool writeMultipleRegister(uint8_t reg, const uint8_t* data, uint8_t length);
bool setEmptyVoltage(uint16_t _Empty_Voltage);
bool setRecoveryVoltage(uint16_t _Recovery_Voltage);
bool setMinVoltage(uint16_t _Minimum_Voltage);
bool setMaxVoltage(uint16_t _Maximum_Voltage);
bool setMaxCurrent(uint16_t _Maximum_Current);
bool setChargeTerminationCurrent(uint16_t _Charge_Termination_Current);
bool setDesignCapacity(const uint16_t _Capacity);
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bool setFullCapRep(const uint16_t _Capacity);
bool setFullCapNom(const uint16_t _Capacity);
bool setRepCap(const uint16_t _Capacity);
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bool setMinSOC(uint8_t _Minimum_SOC);
bool setMaxSOC(uint8_t _Maximum_SOC);
bool setMinTemperature(uint8_t _Minimum_Temperature);
bool setMaxTemperature(uint8_t _Maximum_Temperature);
bool setModelCfg(const uint8_t _Model_ID);
bool setHibCFG(const uint16_t _Config);
void config(void);
};
} /* namespace max17055 */
} // namespace battery
#endif /* __MAX17055_H__ */