Solar Powered Battery Charger Christine Placek Philip Gonski Group 4 ECE 445 – Spring 2007.
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Transcript of Solar Powered Battery Charger Christine Placek Philip Gonski Group 4 ECE 445 – Spring 2007.
![Page 1: Solar Powered Battery Charger Christine Placek Philip Gonski Group 4 ECE 445 – Spring 2007.](https://reader035.fdocuments.us/reader035/viewer/2022062404/551a447f5503463e778b5087/html5/thumbnails/1.jpg)
Solar Powered Battery Solar Powered Battery ChargerCharger
Christine PlacekChristine Placek
Philip GonskiPhilip GonskiGroup 4Group 4
ECE 445 – Spring 2007ECE 445 – Spring 2007
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ObjectivesObjectives
Operate in various sunlight conditionsOperate in various sunlight conditions Sunny and cloudy daysSunny and cloudy days
Operate for a wide variety of input Operate for a wide variety of input voltagesvoltages 6.8V to 13.5V6.8V to 13.5V
Charge both lithium and nickel chemistriesCharge both lithium and nickel chemistries
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Common Usage: Cell phones, MP3 players, other portable electronics
Energy/weight 160 Wh/kgEnergy/size 270 Wh/LPower/weight 1800 W/kgCharge/discharge efficiency 99.9%Self-discharge rate 5%-10%/monthCycle durability 1200 cyclesNominal Cell Voltage 3.6 V
Li1/2CoO2 + Li1/2C6 ↔ C6 + LiCoO2
Lithium Ion Battery
Source: Wikipedia
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Common Usage: widely used in small electronic devices
Energy/weight 40-60 Wh/kgEnergy/size 50-150 Wh/LPower/weight 150W/kgCharge/discharge efficiency 70%-90%Self-discharge rate 10%/monthCycle durability 2000 cyclesNominal Cell Voltage 1.2 V
Nickel-Cadmium Batteries
2 NiO(OH) + Cd + 2 H2O ↔ 2 Ni(OH)2 + Cd(OH)2
Source: Wikipedia
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Charging Lithium BatteriesCharging Lithium BatteriesVery Strict Regulation of Current vs. Very Strict Regulation of Current vs. VoltageVoltageCharge Voltage at 4.2V or 4.1V most Charge Voltage at 4.2V or 4.1V most commoncommon Our batteries charge at 4.1V to prolong lifetimeOur batteries charge at 4.1V to prolong lifetime
Many Built-in safety precautionsMany Built-in safety precautions Temperature, low voltageTemperature, low voltage
Charge time ~3 hours at 500maCharge time ~3 hours at 500ma Fast chargers skip stage 2 in next slideFast chargers skip stage 2 in next slide
70% charged70% charged
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http://www.batteryuniversity.com/partone-12.htm
GLED ON
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Charging NiCd BatteriesCharging NiCd Batteries
Three types of chargingThree types of charging Slow(.1C->14 to 16hrs)Slow(.1C->14 to 16hrs)
70% efficient70% efficient Quick(.5C->3 to 6hrs)Quick(.5C->3 to 6hrs) Fast(Full charge with topping->1hr)Fast(Full charge with topping->1hr)
90% efficient90% efficient
Pressure and Temperature increasePressure and Temperature increaseFull Charge detected by:Full Charge detected by: Voltage DropVoltage Drop Rate of temperature increaseRate of temperature increase Timeout timersTimeout timers
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http://www.batteryuniversity.com/partone-11.htm
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Circuitry
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Block DiagramBlock Diagram
BuckConverter
Charger
5VRegulator PIC
SolarPanel
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Solar CellSolar CellBuck
ConverterCharger
5VRegulator PIC
SolarPanel
Open Circuit Voltage
(V)
Short Circuit Current (mA)
Power (W)
Fluorescent light (1ft distance)
7.5 10 0.075
Window in 445 lab, sunny day
8.65 24 0.028
Outdoors, direct sunlight
10.6 760 8.06
Outdoors, cloudy day
9.65 145 1.4
Our solar cell: 8in x 12in
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Buck ConverterBuck Converter
Accepts input between 6.8V to 48V
– Low Current Drain ~2.5mARegulates voltage at 5V and 500mA to MAX1501 as determined by main inductor
BuckConverter
Charger
5VRegulator PIC
SolarPanel
LT1777
Vin (10)Vcc (4)
(6) Vsw
(5) Vd
To MAX1501
and 5V reg
(13) FB
GND (1,8,9,16)
Solar panel
Vc (14)
SHDN (3)
SYNC (12)SGND (7)
220uH
1N5819
39kΩ
12.1kΩ 110uF
100pF
12kΩ
100pF2200pF
10uFout
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Charging UnitCharging Unit
MAX1501 linear charger
Charges both Ni and Li chemistries
Low minimum input voltage– 4.5 Volts Li– 5.25 Volts NiCd
High maximum input voltage– 13.5 Volts
Low current drain (5-8 mA)
Safety Features
BuckConverter
Charger
5VRegulator PIC
SolarPanel
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Charger SpecsCharger Specs
Battery mode can be selected (done w/ PIC)
Can choose charge voltage– We use 4.1V for Li
Current set by external circuitry– Our circuit set for 467mA
BuckConverter
Charger
5VRegulator PIC
SolarPanel
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1uF
PIC
10uF
3k
IN (2)
INP (1)
(8) TEMP
GND (3, 13)
(4) SETI
(5) VL
(6) TMAX
(7) FULLI
(12) BATT
(14) SELV
RLED (15)
GLED (16)
MODE (9)
CHGEN (10)
ACOK (11)
MAX1501
Charging battery
1N5819Output of LT1777
Charging UnitCharging UnitBuck
ConverterCharger
5VRegulator PIC
SolarPanel
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Voltage RegulatorVoltage RegulatorMAX6129
Can receive 5.2V to 12.6V from solar cell– Draws only ~5.25uA from supply– 200mV Output voltage dropout
Outputs to the PIC which needs low current and around 5V to remain in operation
http://datasheets.maxim-ic.com/en/ds/MAX6129.pdf
BuckConverter
Charger
5VRegulator PIC
SolarPanel
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PICPIC
Battery type is selected by switch, PIC tells charging chip which battery has been selected
5V Reg(MAX 6129)
PIC(16F877A)
IN (1) (5) OUT
GND (2)
Vdd (11, 32)
Vss (12, 31)
MCLR (1)
OSC1 (9)
OSC2 (10)
B7 (28)
15k
20 MHz
20pF 20pF
B1 (34)
B0 (33)
MAX1501(charger)
MODE (9)
CHGEN (10)
Solarpanel
BuckConverter
Charger
5VRegulator PIC
SolarPanel
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Testing/ResultsTesting/Results
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Circuit PerformanceCircuit Performance
GLED on for fully charged batteryGLED on for fully charged battery Vbatt=4.1 VVbatt=4.1 V
RLED on for discharged batteryRLED on for discharged battery Steady voltage increase across batterySteady voltage increase across battery
Drew about 450mA from supply at 7VDrew about 450mA from supply at 7V Within boundary of solar cell operationWithin boundary of solar cell operation
Low output ripple voltage~20mVppLow output ripple voltage~20mVpp
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Output RippleOutput Ripple
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Charging TimeCharging TimeBattery voltage vs Time
3.85
3.9
3.95
4
4.05
4.1
0 20 40 60 80 100 120 140 160
Time (min)
Bat
tery
vo
ltag
e (V
)
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Power ConsiderationsPower Considerations
Output to battery
1.913W
Buck converter 51.6mW
Charger 41.7mW
5V regulator 82uW
LEDs 197mW
PIC 66.5mW
TOTAL 2.27W
Our solar panel gives
8.06W(peak sunlight)
Charging efficiency:
23.7%
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Solar Panel ConclusionsSolar Panel Conclusions
Although only 2.27W are used, we Although only 2.27W are used, we need a solar panel that gives:need a solar panel that gives: 6.8V (min to turn buck converter on)6.8V (min to turn buck converter on) 450mA (max current draw)450mA (max current draw)
-> 3.06W-> 3.06W
Most smaller solar panels do not give Most smaller solar panels do not give enough currentenough current
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ChallengesChallenges
Inductor couplingInductor coupling
The LT1777 buck converter sometimes The LT1777 buck converter sometimes produced sporadic voltage/currentproduced sporadic voltage/current Appeared to be load-dependentAppeared to be load-dependent
Unable to charge NiCd batteries – buck Unable to charge NiCd batteries – buck converter does not give high enough outputconverter does not give high enough output
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Future RecommendationsFuture RecommendationsBoth Voltage Reference and Buck Converter are Both Voltage Reference and Buck Converter are temperature sensitive!temperature sensitive! Only in very limited proportions, but heat sinking Only in very limited proportions, but heat sinking
should be consideredshould be considered
Choose different buck converterChoose different buck converter--Need output more reliable, higher than 4.5VNeed output more reliable, higher than 4.5V
http://datasheets.maxim-ic.com/en/ds/MAX6129.pdf
www.linear.com
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Power RecommendationsPower Recommendations
Use buck converter that needs less Use buck converter that needs less currentcurrent Then, smaller solar panel can be usedThen, smaller solar panel can be used
Decrease power used by LEDsDecrease power used by LEDs
Find lower-power PIC, or implement in Find lower-power PIC, or implement in different fashiondifferent fashion
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Questions?Questions?
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