CN2759033Y

CN2759033Y - Two-mode type solar charger

Info

Publication number: CN2759033Y
Application number: CN 200420013561
Authority: CN
Inventors: 方玉萍; 傅诚业
Original assignee: 方幸福
Priority date: 2004-12-29
Filing date: 2004-12-29
Publication date: 2006-02-15
Anticipated expiration: 2014-12-29

Abstract

The utility model relates to a two-mode solar charger which is the solar charger with two working modes of step-down charge and boosting charge. A circuit is formed by the ordinal connection of a solar battery, an energy storing wave filtering circuit, a DC-DC converting, charging controlling and protecting circuit and a charging circuit. A super capacitance is used as an energy storer of the solar battery, and the charger of the DC-DC converting, charging controlling and protecting circuit uses a micro power consumption DC-DC converter and has two working modes of the boosting charge and the step-down charge. The utility model has two working modes of the step-down charge and the boosting charge to enhance the utilization rate of sunshine and charging time, and the super capacitance is used as the energy storer of the solar battery. The dependence of the charger on weather and time is reduced, charging efficiency is enhanced, and the two-mode solar charger of the utility model becomes economical and practical charging equipment.

Description

Double mode solar charger

Technical field

The utility model relates to a kind of solar charger, particularly a kind of double mode solar charger with step-down charging and two kinds of mode of operations of boost charge.

Background technology

At present, known solar charger does not possess two kinds of mode of operations of step-down charging and boost charge, and is not quite convenient during use.

Summary of the invention

The purpose of this utility model provides a kind of double mode solar charger with step-down charging and two kinds of mode of operations of boost charge.

The technical solution of the utility model is: double mode solar charger circuit is connected successively by solar cell and accumulation of energy filter circuit, DC-DC conversion and charging control protection electric circuit and charging circuit and forms.Solar cell and accumulation of energy filter circuit are by solar photocell BT1, the current-limiting resistance R of series connection ₀, Schottky diode D ₀Compose in parallel with the super capacitor C1 that connects, K switch 1; super capacitor is as the energy storage device of solar cell; the charger of DC-DC conversion and charging control protection electric circuit is selected the DC-DC transducer of the little power consumption of LT1073 of U.S. 2INEAR company for use, has and boosts and two kinds of working methods of step-down.

The utlity model has two kinds of mode of operations of step-down charging and boost charge, improved the utilance in charging interval at sunshine, with super capacitor as the solar cell energy storage device, reduced the dependence of charger to weather and time, improved charge efficiency, made the double mode solar charger of the utility model become a kind of economical and practical charging device.

Description of drawings

Fig. 1 is the circuit theory diagrams of a kind of embodiment of the utility model.

Specific embodiments

According to shown in Figure 1, a kind of double mode solar charger circuit is connected successively by solar cell and accumulation of energy filter circuit (1), DC-DC conversion and charging control protection electric circuit (2) and charging circuit (3) and forms.

One, solar cell and accumulation of energy filter circuit (1) are by solar photocell BT1 (4), the current-limiting resistance R of series connection ₀(5), Schottky diode D ₀(7) compose in parallel with the super capacitor C1 (6) that connects, K switch 1 (8).Solar photocell BT1 (4) generates electricity (opto-electronic conversion) under solar irradiation, by current-limiting resistance R ₀(5) and Schottky diode D ₀(7) charge to super capacitor C1 (6).Current-limiting resistance R ₀(5) be in order to limit the maximum charging current of solar photocell BT1 (4), Schottky diode D ₀(7) be when preventing that solar photocell BT1 (4) generating voltage is lower than super capacitor C1 (6) voltage, super capacitor C1 (6) discharges to solar photocell BT1 (4), super capacitor C1 (6) selects big capacity super capacitor for use, can when changing because of weather, solar photocell BT1 (4) energy output carry out store energy.

Two; the charger (19) of DC-DC conversion and charging control protection electric circuit (2) is selected the DC-DC transducer of the little power consumption of LT1073 of U.S. 2INEAR company for use; have and boost and two kinds of working methods of step-down; its peripheral cell resistance R 1 (9); R2 (9) forms bleeder circuit and is used for under-voltage protection; resistance R 3 (10) and switch transistor T 1 (18) are formed switching circuit; the output voltage of control charger (19); resistance R 4 (11) is a current-limiting resistance; charger (19) is shielded; inductance L 1 (12) is in when boosting working method at charger (19); produce induced voltage and input voltage and produce output voltage together, Schottky diode D1 (13) is used to prevent rechargeable battery BT2 (16) back discharge.

Three, charging circuit: charging circuit is composed in series by filter capacitor C2 (14), zener diode D2 (15), rechargeable battery BT2 (16) and the current-limiting resistance R5 (17) of parallel connection; filter capacitor C2 (14) is mainly used in the level ripple that reduces charging voltage; zener diode D2 (15) is used to control maximum charging voltage; current-limiting resistance R5 (17) plays metering function, and zener diode D2 (15) and current-limiting resistance R5 (17) constitute voltage stabilizing and current-limiting protection circuit.

The utility model is when solar irradiation is strong, be the charging of step-down working method, when the morning and evening, solar irradiation was more weak or under the cloudy situation, enter the working method of boosting, can guarantee that like this rechargeable battery can omnidistance charge in the hours of daylight, so the utility model solar charger is double mode solar charger.

The utility model mechanical structure adopts the seat formula, and solar panel and pedestal adopt spiral-lock and pivot structure, are convenient to install and remove and adjust the angle that the battery utmost point is awarded plane of illumination.

Claims

1, a kind of double mode solar charger; it is characterized in that double mode solar charger circuit is connected successively by solar cell and accumulation of energy filter circuit (1), DC-DC conversion and charging control protection electric circuit (2) and charging circuit (3) forms, and solar cell and accumulation of energy filter circuit (1) are by the solar photocell BT1 (4), the current-limiting resistance R that connect ₀(5), Schottky diode D ₀(7) compose in parallel with the super capacitor C1 (6) that connects, K switch 1 (8); the charger (19) of DC-DC conversion and charging control protection electric circuit (2) is selected the DC-DC transducer of little power consumption for use, and charging circuit is composed in series by filter capacitor C2 (14), zener diode D2 (15), rechargeable battery BT2 (16) and the current-limiting resistance R5 (17) of parallel connection.

2, double mode solar charger according to claim 1 is characterized in that solar panel and carrier base adopt blooking-hanging type to connect, and adopts pivot structure.