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ArduinoCore-samd/bootloaders/zero/board_driver_pmic.c
Sandeep Mistry fff04ace3a Bump input current limit to 2A
2017-11-29 13:49:54 +01:00

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/*
Copyright (c) 2015 Arduino LLC. All right reserved.
Copyright (c) 2015 Atmel Corporation/Thibaut VIARD. All right reserved.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library 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 Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "board_driver_i2c.h"
#include "board_driver_pmic.h"
#ifdef CONFIGURE_PMIC
extern uint8_t rxBuffer[1];
uint8_t readRegister(uint8_t reg) {
i2c_beginTransmission(PMIC_ADDRESS);
i2c_write(reg);
i2c_endTransmission(true);
i2c_requestFrom(PMIC_ADDRESS, 1, true);
return rxBuffer[0];
}
uint8_t writeRegister(uint8_t reg, uint8_t data) {
i2c_beginTransmission(PMIC_ADDRESS);
i2c_write(reg);
i2c_write(data);
i2c_endTransmission(true);
return 2;
}
bool disableWatchdog(void) {
uint8_t DATA = readRegister(CHARGE_TIMER_CONTROL_REGISTER);
writeRegister(CHARGE_TIMER_CONTROL_REGISTER, (DATA & 0b11001110));
return 1;
}
bool setInputVoltageLimit(uint16_t voltage) {
uint8_t DATA = readRegister(INPUT_SOURCE_REGISTER);
uint8_t mask = DATA & 0b10000111;
switch(voltage) {
case 3880:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00000000));
break;
case 3960:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00001000));
break;
case 4040:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00010000));
break;
case 4120:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00011000));
break;
case 4200:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00100000));
break;
case 4280:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00101000));
break;
case 4360:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00110000));
break;
case 4440:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00111000));
break;
case 4520:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b01000000));
break;
case 4600:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b01001000));
break;
case 4680:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b01010000));
break;
case 4760:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b01011000));
break;
case 4840:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b01100000));
break;
case 4920:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b01101000));
break;
case 5000:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b01110000));
break;
case 5080:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b01111000));
break;
default:
return 0; // return error since the value passed didn't match
}
return 1; // value was written successfully
}
bool setInputCurrentLimit(uint16_t current) {
uint8_t DATA = readRegister(INPUT_SOURCE_REGISTER);
uint8_t mask = DATA & 0b11111000;
switch (current) {
case 100:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00000000));
break;
case 150:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00000001));
break;
case 500:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00000010));
break;
case 900:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00000011));
break;
case 1200:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00000100));
break;
case 1500:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00000101));
break;
case 2000:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00000110));
break;
case 3000:
writeRegister(INPUT_SOURCE_REGISTER, (mask | 0b00000111));
break;
default:
return 0; // return error since the value passed didn't match
}
return 1; // value was written successfully
}
bool setChargeCurrent(bool bit7, bool bit6, bool bit5, bool bit4, bool bit3, bool bit2) {
uint8_t current = 0;
if (bit7) current = current | 0b10000000;
if (bit6) current = current | 0b01000000;
if (bit5) current = current | 0b00100000;
if (bit4) current = current | 0b00010000;
if (bit3) current = current | 0b00001000;
if (bit2) current = current | 0b00000100;
uint8_t DATA = readRegister(CHARGE_CURRENT_CONTROL_REGISTER);
uint8_t mask = DATA & 0b00000001;
writeRegister(CHARGE_CURRENT_CONTROL_REGISTER, current | mask);
return 1;
}
bool setChargeVoltage(uint16_t voltage) {
uint8_t DATA = readRegister(CHARGE_VOLTAGE_CONTROL_REGISTER);
uint8_t mask = DATA & 0b000000011;
switch (voltage) {
case 4112:
writeRegister(CHARGE_VOLTAGE_CONTROL_REGISTER, (mask | 0b10011000));
break;
case 4208:
writeRegister(CHARGE_VOLTAGE_CONTROL_REGISTER, (mask | 0b10110000));
break;
default:
return 0; // return error since the value passed didn't match
}
return 1; // value was written successfully
}
bool disableCharge()
{
uint8_t DATA = readRegister(POWERON_CONFIG_REGISTER);
uint8_t mask = DATA & 0b11001111;
writeRegister(POWERON_CONFIG_REGISTER, mask);
return 1;
}
void apply_pmic_newdefaults()
{
disableWatchdog();
//disableDPDM();
disableCharge();
setInputVoltageLimit(4360); // default
setInputCurrentLimit(2000); // 2A
setChargeCurrent(0,0,0,0,0,0); // 512mA
setChargeVoltage(4112); // 4.112V termination voltage
}
void configure_pmic()
{
i2c_init(100000);
apply_pmic_newdefaults();
}
#endif
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