Team: May Team member : Avinav Verma, Dixiao Jiang, MengQian Ding Advisor: Aymen Fayed Client : Powerfilm. Inc
Li-ion battery charging cycle includes three phases: trickle, constant current, and constant voltage. The charging cycles must be strictly followed to prevent battery pack overcharge and fire.
1.We would like to upgrade it to a more powerful processor that will have a higher operating frequency, more flash memory, and more integrated ADCs to enable sensing more signals in the system. 2.The other thing we need to consider is track the max point voltage accurately. The MPPT algorithm needs to be improved to avoid being stuck in local maxima. 3.Make high side current sensor more accurate 4.Send data to from microcontroller to computer so we can monitor charging state
ComponentEstimate cost Resistor, capacitor, inductor, diode, voltage regulator $16 PCB board$30 High side amplifier(LT 1636)$1.5 Microcontroller (Msp430f5152)$1.5 Solar panel (power film foldable charger)$ 80 Battery (Tenargy 5000)$67 Total cost$196
Microprocessor According to the previous project, the MSP430f2013 MCU, which runs at 16MHz with 2kB of flash memory and 4 -16bit ADCs has good performance, however, we want a higher performance microprocessor in our project. The requirements of new microprocessor are : a. higher operating frequency b. more flash memory c. more integrated ADCs to enable sensing more signals Design
Microprocessor cont. Comparison between MCUs: Flash (KB) ADC ADC Channels Numeric Price Freq. (MHz)
dP - O&P algorithm (This year) Whey we chose this method ? It is a improved method of O&P method It does not track wrong direction under rapid change in atmosphere MPPT algorithms
Buck converter
The customer says: We were able to read currents obviously, but as some times we could be as far off as 100mA or more which is not very acceptable for a finished product…….We would like to get accuracy better than 10mA- 50mA, this may require some tuning.
We think the problem is offset voltage of op amp. Then we analysis the circuit including VOS of amp. increase Rs can dramatically reduce current sensor error
We want to send data from MSP430 Target board to computer, so we can reflect our microcontroller’s data on GUI. With this data, we can check our C code program and monitor our circuit. popular solution is to connect the UART of the MSP430 to a USB to UART converter such as the FT232RL and FT2232 from FTDICHIP.
PCB board
Buck_Control and MPPT test
/* * buck_control.c * * Created on: * Author: dxjiang */ #include "msp430f5172.h" #include "PWM.h" //char pwm_limit1=0; void buck_control (unsigned int measurement, unsigned int desired){ signed int delta = measurement - desired; if(delta>0) pwm(0,2); //buck voltage too high; else if(delta<0) pwm(0,2); // buck voltage too low //else pwm_limit1=0; buck voltage right on __delay_cycles(10); //give buck converter time to settle } void mppt(void) { solar_voltage1 = ADC(1); solar_current1 = ADC(2); pwm(0,1); //back 1/2 T solar_voltage2 = ADC(1); solar_current2 = ADC(2); pwm(1,2); //forward T solar_voltage3 = ADC(1); solar_current3 = ADC(2); power_0 = (long)solar_voltage1 * solar_current1; //current power power_1 = (long)solar_voltage2 * solar_current2; //previous 1/2T power power_2 = (long)solar_voltage3 * solar_current3; //forward 1/2T power dP = (long)2*power_0 - power_1-power_2; if(dP==0){ pwm(0,0); } else { if(dP>0){ if(solar_voltage3 > solar_voltage2){ pwm(1,2); //increase T's voltage } else{ pwm(0,2); //decrease T's voltage } else{ //dP<0; if(solar_voltage3 > solar_voltage2){ pwm(0,2); //decrease T's voltage } else{ pwm(0,2); //increase T's voltage } }
we can see data transmit from microcontroller to computer. However, after some good data, there is some garbage signal. We think that’s due to the noise of the MSP430. So we decide to close the pin after the data transmitted. If we want to transmit again, then reopen the pin. In this way, the noise is significant reduced.
To test the circuit, we use Tenergy high discharge Li polymer battery as the target battery to charge. We use TI bq20Z70 with EV2300 to monitor the battery charging.
If you don’t have any idea on how to use a software, check Youtube. Google the error, there always people have same problem as you. Ask as many people as you can when you stuck somewhere. There are always someone can help you. Make PCB board as early as possible
Make a interface that is easier to check the data send to computer Using Li-Ion Phosphate battery instead of traditional Li-Ion Figure out why EVM can’t send battery data to computer