STMICROELECTRONICS STEVAL

STEVAL-ISV012V1
Up to 5 W solar battery charger for single-cell Li-ion and
Li-Pol batteries based on the SPV1040 and L6924D
Data brief
Features
■
SPV1040: solar boost converter with
embedded maximum power point tracking
(MPPT)
– Proprietary “perturb & observe” MPPT
algorithm
– Up to 95% efficiency
– Very low input voltage (down to 0.3 V)
– Input reverse polarity protection
– Thermal shut-down
– Overcurrent protection
– Enable pin
■
L6924D: Fully integrated linear charger
solution with power MOSFET, reverse blocking
diode and battery thermal control
– 1% battery voltage regulation accuracy
– Up to 1 A charge current with 7% accuracy
– Closed loop thermal regulation protection
for output current control
– Low battery leakage current
– Embedded quasi-pulse charging mode
maximizes charge rate from solar panel
– Selectable 4.1 V and 4.2 V output voltage
– JEITA compliant with external circuit
– Programmable charge, fast charge (up to 1
A), pre-charge, termination current, precharge mode voltage threshold, charge
timer
– Multifunction pin for flexible charge process
termination
– Status outputs to drive LEDs or host
processor interface
– Battery absence detection
– NTC or PTC thermistor interface for battery
temperature monitoring and protection
– RoHS compliant
July 2011
Doc ID 018897 Rev 2
For further information contact your local STMicroelectronics sales office.
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Description
1
STEVAL-ISV012V1
Description
The STEVAL-ISV012V1 demonstration board is based on the SPV1040 solar voltage boost
converter and the L6924D single cell Li-ion battery charger.
The SPV1040 device is a high efficiency, low power, low voltage, monolithic step-up
converter with an input voltage range from 0.3 V to 5.5 V, and is capable of maximizing the
energy generated by even a single solar cell (or fuel cell), where low input voltage handling
capability is extremely important.
Thanks to the embedded MPPT algorithm, even under varying environmental conditions
(such as irradiation, dirt, temperature) the SPV1040 offers maximum efficiency in terms of
power harvested from the cells and transferred to the output.
The SPV1040 protects itself and other application devices by stopping the PWM switching if
either the maximum current threshold (up to 2 A) is reached or the maximum temperature
limit (up to 155 °C) is exceeded.
The L6924D device is a fully monolithic battery charger dedicated to single cell Lithiumion/Lithium-ion polymer battery packs. It is the ideal solution for space-limited applications
such as PDAs, handheld equipment, cellular phones, and digital cameras.
The L6924D normally works as a linear charger when powered from an external voltage
regulated adapter. The device can also work in “quasi-pulse” charger mode when powered
from a current limited adapter like that of a solar panel. To work in this condition, the
charging current of the device should be set to a level higher than the solar panel maximum
peak current.
Thanks to the L6924D’s very low minimum input voltage (down to 2.5 V), during the fastcharge phase the output voltage of the solar panel drops down to the battery voltage plus
the voltage drop across the power MOSFET of the charger.
The main advantage of the quasi-pulse charging mode is that it shares the simplicity of the
linear approach, where the power dissipated is dramatically reduced, thereby maximizing
the charge rate from the solar panel.
The Li-ion battery solar charger with embedded (MPPT) and quasi-pulse charging mode is
“best-in-class” in terms of system efficiency, allowing battery charging while maximizing
available solar panel power.
In the STEVAL-ISV012V1 demonstration board, the L6924D is supplied by the output stage
of the SPV1040, which is supplied by a 400 mW PV panel.
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Schematic diagrams
Schematic diagrams
L6924D circuit schematic
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Schematic diagrams
Figure 2.
STEVAL-ISV012V1
SPV1040, MPPT boost circuit schematic
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Doc ID 018897 Rev 2
STEVAL-ISV012V1
Figure 4.
Schematic diagrams
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Revision history
3
STEVAL-ISV012V1
Revision history
Table 1.
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Document revision history
Date
Revision
Changes
30-May-2011
1
Initial release.
21-Jul-2011
2
Updated Figure 1: L6924D circuit schematic and Figure 2:
SPV1040, MPPT boost circuit schematic.
Doc ID 018897 Rev 2
STEVAL-ISV012V1
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