Maxim Integrated
Sample code for the MAX17055 Fuel Gauge with EZ config Initialization API implemented. The MAX17055 is part of the MAX32620FTHR
Dependencies: MAX17055_EZconfig
Diff: main.cpp
- Revision:
- 0:bec440cb42e5
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/main.cpp Thu Feb 07 21:50:03 2019 +0000
@@ -0,0 +1,97 @@
+#include "mbed.h"
+#include "max17055.h"
+
+
+//LED indication
+DigitalOut rled(LED1);
+
+//I2C communications
+I2C i2cBus(P5_7, P6_0);
+
+//Fuel Gauge
+MAX17055 fuelGauge(i2cBus);
+MAX17055::platform_data design_param;
+MAX17055::saved_FG_params_t saved_param;
+
+//MAX77650 PMIC
+#define POWER_HOLD_ON 1
+#define POWER_HOLD_OFF 0
+
+DigitalOut pw_Hold(P2_2, POWER_HOLD_ON); //To enable battery operation from the PMIC
+
+//Battery Parameters Storage from the Fuel Gauge MAX17055
+union max17055_u {
+ struct battery {
+ uint8_t avg_soc_FG; // in Battery Percent
+ float tte_FG; // in seconds
+ float ttf_FG; // in seconds
+ int avg_vcell_FG; // in 78.125uV per bit
+ float avg_curr_FG; // in uAmps
+ float curr_FG; // in uAmps
+ int rep_cap; // in mAh
+ int rep_SOC; // in %
+ } battery;
+} max17055_u;
+
+
+int main(void)
+{
+ rled = true;
+ //These are the calculated parameters for rsense 5mOhm found in the MAX32620FTHR and a 350mAh Li+ Cell.
+ design_param.designcap = 0x015E; //Design Battery Capacity mAh thic can change depending on the batteries implemented see battery data sheet for details.
+ design_param.ichgterm = 0x0070; // Charge Termination Current for the Battery This is specified by the manufacturer.
+ design_param.vempty = 0x9600; // 3V Battery Empty Voltage This is sepecified by design, but manufacturer has a min Empy voltage specification.
+ design_param.vcharge = 4200; // 4.2V Battery Charge Voltage can be obtained from MAX77650 configuration
+ design_param.rsense = 5; //5mOhms for MAX32620, keep in mind the MAX17055EVKIT has a 10mOhm resistor. This is a design specific value. Used Rsense for resgiter calculation results.
+
+ //Saved Parameters
+ //saved_param.cycles = 0; //This value is used for the save parameters function.
+
+ int status; // stores return value of the status of setting up the MAX17055
+ MAX17055::Registers_e array_addresses[7] = {MAX17055::MODELCFG_REG,
+ MAX17055::DESIGNCAP_REG,
+ MAX17055::FULLCAPNOM_REG,
+ MAX17055::DPACC_REG,
+ MAX17055::DQACC_REG,
+ MAX17055::VEMPTY_REG,
+ MAX17055::ICHGTERM_REG
+ };
+
+ status = fuelGauge.init(design_param);
+ printf("Init FuelGauge Function Status= %X \r\n",status); // Status shoudl retun Zero if the are no issues with the initialization.
+
+ if (status == 0)
+ fuelGauge.save_Params(saved_param);
+
+ //Read DesignCap, Ichagterm, Vempty, dqacc, dpacc, MODELCFG, FullCapNom to verify values correspond to the expected stored Values.
+ // FullCapNom[mAh] = (dqacc[mAh]/dpacc[%])*100%
+ uint16_t regValue[7];
+ for(int i = 0 ; i < 7 ; i++) {
+ regValue[i] = fuelGauge.get_regInfo(array_addresses[i]);
+ printf("%X" ,regValue[i]);
+ printf(" ");
+ }
+ rled = false;
+ wait(2);
+
+ while (1) {
+ //This code is an example to ilustrate the performance or the Fuel Gauge. This can change with the design requirements. Use this as a way to troubleshoot the FuelGauge.
+ rled = !rled;
+
+ max17055_u.battery.avg_vcell_FG = fuelGauge.get_avgVcell();
+ max17055_u.battery.avg_curr_FG = fuelGauge.get_AvgCurrent(design_param);
+ max17055_u.battery.curr_FG = fuelGauge.get_Current(design_param);
+ max17055_u.battery.rep_cap = fuelGauge.get_battCAP(design_param);
+ max17055_u.battery.rep_SOC = fuelGauge.get_SOC();
+
+ //This code should work with Arduino Serial Plotter to visualize data
+ printf("%f " ,(max17055_u.battery.avg_vcell_FG/1000000.0)); //V
+ printf("%f " ,max17055_u.battery.avg_curr_FG); //uA
+ printf("%f " ,max17055_u.battery.curr_FG); //uA
+ printf("%d " ,max17055_u.battery.rep_cap); //mAh
+ printf("%d " ,max17055_u.battery.rep_SOC); //%
+ printf("\n");
+
+ wait(1);
+ }
+}