KR20160071616A - Solar charger with function compensation for fixation of charging current by light intensity variations of incident solar light and controlling method therefor - Google Patents

Abstract

An aspect of the present invention relates to a photovoltaic charger which has a function of compensating for fixation of permissible input charging current fixed due to intensity variation of incident sunlight. The photovoltaic charger includes: a photovoltaic cell panel which comprises one or more photovoltaic cell modules and generates electric power by converting incident solar energy into electric energy; a power adjusting unit which receives an input of the generated power output from the photovoltaic cell panel, regulates the generated power to power with voltage required for a portable terminal and outputs the regulated output power; a power output I/F which receives the output power with the regulated voltage, outputted from the power adjusting unit, inputs the output power as charging power via a charging terminal of the portable terminal and provides an interface for the input of the charging power; an output power detecting unit which detects the voltage of the output power with the regulated voltage; and a control unit which controls the operation of the power adjusting unit and the power output I/F, calculates the output current value of the output power according to the voltage detected by the output power detecting unit and resets the power adjusting unit accordingly. The control unit transmits a reset control signal to the power adjusting unit when the calculated output current value is lower than a preestablished current value. The power adjusting unit which receives the reset control signal interrupts the output of the regulated output power.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar charger having a fixed compensation function of a fixed input allowable charging current due to a variation in light amount of an incident solar light and a control method thereof,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar charger and a control method thereof, and more particularly, to a solar charger having a fixed compensation function of a fixed input allowable charging current due to a variation in light amount of incident sunlight, and a control method thereof.

In addition to the development of mobile communication technology, the use of portable terminals has been generalized. Portable terminals are also called smart devices because they provide various functions such as network connection function, MP3 function, mobile broadcast reception function, moving image playback function, and camera function.

Accordingly, the user uses the portable terminal for various purposes such as listening to music, watching movies, playing games, surfing the Internet, etc., and the usage time is rapidly increasing.

Although the low power design and the capacity increase of the battery are required according to the increase of the usage time, the low power design and the capacity increase of the battery are limited by the hardware characteristics of the portable smart device.

As the use time of the portable type terminal increases in outdoor activities such as camping, mountain climbing, and cycling, which is an environment where the battery is not charged enough, the portable terminal is provided with auxiliary power for the device, Portable solar chargers including solar cells that convert energy into electric energy are increasing in popularity. The voltage of the power source generated by the solar battery is adjusted and supplied to the battery of the start device through the built-in USB terminal of the smart device It is used as a charging method. In the case of the portable solar charger, the solar output power generated due to the influence of weather or the like is not uniform due to the characteristics of the solar panel, so that the current value inputted through the built-in USB terminal of the portable terminal changes.

In the portable terminal, in particular, most of the smart phones are provided with an input allowable charge current value based on the input current value when the charge current of the charge current is less than a predetermined value for the purpose of maintaining the efficiency of the built- Is changed and set to a value smaller than the rated current value. Thereafter, even if the charging power source is inputted from the steady current value or the current amount larger than the fixed input allowable charging current value, for example, the rated current value or the current amount, The charging is controlled so that the charging proceeds only with

Accordingly, when the portable solar charger having a large variation in the amount of charge current is used, the generated current value or the amount of current decreases due to the light quantity variation of the incident solar light temporarily caused during charging, for example, shadows or clouds, Even if the current value or the current amount is reduced but the present generation current is restored and the charging current value is restored to the normal current value or the current amount so that the charging power source is input to the portable terminal, There is a problem that the charging efficiency is lowered and the charging time is increased.

Korean Patent Laid-Open Publication No. 10-2010-0128554 (control method of solar charging apparatus and portable terminal using the same)

Therefore, even when the amount of current input to the portable terminal temporarily decreases or fluctuates due to the light amount variation of the incident sunlight, the present invention can prevent the decrease of the charging efficiency and minimize the increase of the charging time, The present invention also provides a solar charger having a fixed compensation function of a fixed input allowable charging current value and a control method thereof.

According to an aspect of the present invention, there is provided a solar charger having a fixed compensation function of a fixed input allowable charging current value caused by a light amount variation of incident solar light in one aspect. The solar charger converts incident solar energy into electric energy A power adjusting unit that receives power generated by the solar cell panel and outputs the adjusted output power by adjusting a power supply voltage required by the portable terminal, A power output I / F for inputting the output power of the portable terminal through the charging terminal of the portable terminal and providing an interface therefor, an output power sensing unit for sensing the voltage of the voltage regulated output power, It controls the operation of the power output I / F and detects the And a controller for calculating an output current value of the output power according to the voltage and resetting the power adjuster accordingly, the controller transmits a reset control signal to the power adjuster when the calculated output current value is smaller than a preset current value And the power control unit receiving the reset control signal stops the output of the adjusted output power. The portable terminal recognizes the new connection of the charger and releases the fixed input allowable current value.

Preferably, the power adjusting unit includes a constant voltage regulator for receiving power from the solar panel and converting the predetermined voltage into a predetermined voltage and outputting the adjusted voltage so that the predetermined voltage is maintained, and a constant voltage regulator installed between the solar panel and the constant voltage regulator, And a setting control unit for receiving the reset control signal from the control unit and controlling the ON / OFF switching of the reset setting unit according to the received reset control signal.

Preferably, the preset current value is a threshold current value that starts fixing the input allowable charging current based on the charging current value input from the portable terminal.

Further, preferably, the power output I / F includes a current adjusting circuit for adjusting an output current value of an output power input to the portable terminal.

Here, the power output I / F may include two or more current control circuits for respectively adjusting output current values of output power inputted to the portable terminal to different values.

 Preferably, the output power sensing unit includes a resistor having a predetermined resistance value, and measures a voltage at both ends of the resistor and transmits the measured voltage to the control unit. The control unit controls the output voltage of the output power sensing unit, The output current value of the output power source is calculated.

Preferably, the controller senses a current of the charging power input to the user terminal through the power output I / F, and switches on / off the charging power input to the user terminal based on the detected current.

Furthermore, it is preferable to include a power generation display unit for visually displaying whether or not the generated power in the solar panel 10 is equal to or greater than a predetermined power amount.

According to another aspect of the present invention, there is provided a method of controlling a solar charger having a fixed compensation function of a fixed input allowable charge current value by a light amount variation of incident sunlight, A voltage monitoring unit for monitoring the regulated output power, receiving a voltage value of the detected output power, and calculating an output current value of the output power based on the detected voltage value, A step of calculating an output current, a step of determining whether the calculated output current value is equal to or greater than a predetermined current value, a step of resetting a voltage adjusting unit to stop output of the adjusted output power when the calculated output current value is less than a predetermined current value And outputting the adjusted output power when the calculated output current value is equal to or greater than a predetermined current value It is carried out, including a controlled power output stage.

Here, the method may further include a step S51 of inputting a set current value to receive the preset current value, wherein the set current value is determined based on a value of a charge current input from the portable terminal, It is preferable that the threshold current value is a starting value.

According to the present invention as described above, when the amount of current input to the portable terminal is temporarily reduced or fluctuated due to the variation in the amount of incident sunlight, the portable terminal can fix the input allowable current value, When the power is less than the predetermined value, the output power of the power adjusting unit or the output of the charging power supply is stopped, and when the value is more than the predetermined value, the output of the output power or the charging power is resumed, It is possible to prevent the reduction of the charging efficiency and to minimize the increase of the charging time.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram of a solar charger according to the present invention having a charge current fixing function for compensating for a variation in light amount of incident solar light. FIG.
2 is a detailed configuration diagram of a voltage regulator according to an embodiment of the present invention;
3 is a circuit configuration diagram of a solar charger according to an embodiment of the present invention;
4 is a circuit configuration diagram of a solar charger according to another embodiment of the present invention;
FIG. 5 is a flowchart of a control process of a solar charger having a charging current fixing function according to a light amount variation of incident solar light of the present invention. FIG.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which the claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

In the detailed description of the present invention, a portable terminal is a terminal capable of charging a battery built in using a solar cell, and may be a digital broadcasting terminal, a personal digital assistant (PDA), a smart phone, Multimedia Player) terminal, an IMT-2000 (International Mobile Telecommunication 2000) terminal, a CDMA (Code Division Multiple Access) terminal, a WCDMA (Global System for Mobile communication) terminal, a UMTS Service terminal, a mobile projector, a portable speaker, a USB camera, a portable game machine, a navigation terminal, and the like, and is used as a concept including a portable information communication device, a multimedia device, and an application device.

The solar charger uses solar panels commercialized in various plate types including various electrodes, antireflection films, n-type silicon doped with n-type impurities, p-type silicon doped with p-type impurities, The electrons are injected into the n-type silicon, the holes are injected into the p-type silicon, and the current is generated through the electrode, thereby converting the light energy into electric energy do. The generated power is adjusted to the voltage / current required by the portable terminal through a rectifier circuit for adjusting the voltage / current, and is input to the portable terminal. In addition to the voltage / current adjustment function, the generator generates a general reverse current flow prevention function, An adjustment circuit is constructed so as to have a compensation function. In the present specification, only the configuration, circuits and functions related to the features of the present invention will be mainly described, and descriptions of other configurations, circuits, and functions of the solar light charger will be omitted.

Hereinafter, a solar charger and a method of controlling the same according to the present invention will be described in detail with reference to the accompanying drawings. The solar charger having a fixed compensation function of the fixed input allowable charging current amount by the light amount variation of incident solar light of the present invention will be described in detail.

FIG. 1 is a configuration diagram of a solar charger having a charging current fixing function according to the variation of light amount of incident solar light according to the present invention, and FIG. 2 is a detailed configuration diagram of a voltage adjusting unit according to an embodiment of the present invention.

Referring to FIG. 1, a solar charger according to the present invention having a charge current fixing function for compensating for a charge current by a light amount variation of incident solar light is provided with a solar battery 10, a power adjuster 20, a power output I / F 30, The control unit 50 includes a power sensing unit 40 and a control unit 50. The control unit 50 transmits a reset control signal to the power control unit 20 when the calculated output current value is smaller than a preset current value And the power regulator 20, which has received the reset control signal, performs an operation of interrupting the output of the regulated output power. The portable terminal recognizes the new connection of the charger and releases the fixed input allowable current value.

In addition, in addition to this, it may include a power generation display unit 60 that visually displays whether or not the generated power in the solar panel 10 is equal to or greater than a preset power amount. It is possible to determine whether to use the solar charger or adjust the installation angle of the solar panel 60 so that the generated power is maximized.

The solar panel 10 comprises at least one solar cell module that converts incident solar energy into electric energy and generates electricity.

The power adjusting unit 20 receives the power generated by the solar panel 10 and outputs the adjusted output power by controlling the voltage of the power required by the portable terminal.

And a DC / DC converter circuit for changing a normal DC power supply voltage to a voltage required by a portable terminal. The DC / DC converter circuit uses a pulse width modulation control (PWM control) So as to perform a voltage regulation function to regulate the voltage to be changed to be constant.

According to an input of an external control signal, for example, a high voltage signal or a low voltage signal input, the above operation is ON / OFF controlled to switch between an operating state and a non-operating state.

Referring to FIG. 2, the power regulator 20 includes a constant voltage regulator 21 that receives power from the solar panel 10 and converts the power into a predetermined voltage, A reset setting unit 22 for ON / OFF switching the power generation power input to the constant voltage regulating unit 21 in the solar panel 10, a reset setting unit 22 for receiving a reset control signal from the control unit 50, And a setting controller 23 for controlling ON / OFF switching of the switch 22.

The reset setting unit 22 may be provided between the solar panel 10 and the constant voltage regulating unit 21 so as to directly switch on / off the power generation power. Alternatively, the reset setting unit 22 may be configured to simply switch the operating power of the constant voltage regulating unit 21 And may be configured to switch the operation state / non-operation state by ON / OFF switching.

The power output I / F 30 receives the voltage-regulated output power from the power regulator 20 and inputs the regulated output power to the charging power source through the charging terminal of the portable terminal and provides an interface for the charging power. In addition, the portable terminal includes a current adjusting circuit for adjusting an output current value of an output power input to the portable terminal. In some embodiments, the current adjusting circuit includes two or more current adjusting circuits, .

The output power detecting unit 40 detects the voltage of the voltage regulated output power source and includes a resistor having a predetermined resistance value. The voltage detecting unit 40 measures the voltage across the resistor, The control unit 50 calculates the output current value of the output power according to the resistance value stored in advance and the voltage value transmitted from the output power sensing unit 40.

The controller 50 controls the operation of the power controller 20 and the power output I / F 30 and calculates the output current value of the output power according to the voltage detected by the output power detector 40, The control unit 20 resets the power control unit 20 and transmits a reset control signal to the power control unit 20 when the calculated output current value is smaller than a preset current value. So that the output of the output power is interrupted.

To this end, the control unit 50 includes a memory for storing various programs and setting values, and is implemented as a microcontroller. Each program and set value can be changed and reset so that a preset current value for transmitting a reset control signal according to the charging specification of the portable terminal to be charged can be set and changed and set and stored. Interface.

The preset current value is set to a threshold current value that starts fixing the input allowable charging current based on the charging current value input from the portable terminal, and the threshold current value is different for each portable device.

Specifically, when a charging power source having a charging current value of a predetermined magnitude or less is input in the portable terminal, the input acceptable charging current value is changed from a current value smaller than the rated current value to a current amount based on the input current value The charging current value is charged to a fixed input allowable current value smaller than the rated current value below the threshold current value and then the constant current amount or current value is set to a value larger than the fixed input allowable charging current value For example, even if the charging power source is inputted with the rated charging current value, the charging is controlled so that the charging proceeds only with a fixed input allowable charging current value or current amount.

For example, in the case of an iPhone, when a charging power source having a current value of 200 mA or less is inputted (120, 100, 50 mA, etc.) in relation to the threshold current value, the current value of the input power source is set to a fixed input- (Galaxy S3), it is determined that the current value of the input power source is fixed to a fixed input allowable charging current value when a charging power source having a current value of 90 mA or less is inputted (60, 50 mA, etc.) Therefore, since the iPhone has a threshold current value of 200 mA, the charger is controlled by setting a preset current value of 200 mA as a reference for generation of the reset control signal, and in the case of S3 (Galaxy S3) Value has a threshold current value of 90 mA, the charger can be controlled by setting a predetermined current value serving as a reference of the reset control signal to 90 mA.

On the other hand, in the case of the present embodiment, a threshold value of a deadly portable terminal having a larger threshold value, that is, a threshold value (200mA) of the iPhone is made to be a preset current value and a relatively small threshold value This is because the portable terminal having a relatively small threshold value (90 mA) can set a predetermined current value as a reference for generation of a reset control signal to its own threshold value (200 mA) larger than the predetermined value (90 mA), it is possible to prevent the input allowable current value from being fixed in advance and to stably charge the battery. When a charger used for a plurality of portable devices is manufactured with one set value as described above, the preset current value is a charger having a predetermined current value using the threshold value of the portable terminal having the largest threshold value, So that it can be used in a terminal.

The controller 50 senses the current of the charging power input to the user terminal through the power output I / F 30, and turns on / off the charging power input to the user terminal based on the detected current. The detection of the current of the charging power source may be performed using a separate sensing unit or may be performed by controlling the I / F 30 based on the voltage value transmitted from the output power sensing unit 40, And the current value of the output power source may be used as the current value of the charging power source. It is possible to judge whether the portable terminal is fully charged or not by controlling the current value of the charging power source or to reduce the current value of the charging power source so that the charging power source is turned off at the power output I / The power supply output I / F 30 can be controlled to be turned off by determining that the power supply I / F 30 suddenly increases or is excessively short-circuited.

FIG. 3 is a circuit diagram of a solar charger according to an embodiment of the present invention, and FIG. 4 is a circuit diagram of a solar charger according to another embodiment of the present invention.

The solar battery charger having the function of compensating the charge current according to the light quantity variation of the incident solar light of the present invention is characterized in that the solar battery module and the components for performing the respective functions are connected to each other And the like.

The main parts will be described to the extent that they do not overlap with the above description with reference to FIG. 3 and FIG.

Referring to FIG. 3, a circuit configuration of the solar charger according to an embodiment of the present invention will be described. A portion constituting the power adjuster 20 is connected to the power generating power supply VIN3 from the solar panel 10 via a right- And the generated power is input to the chipset U1 of the power adjuster while a voltage of 5.1 V is generated by using the Zener diode D3 to apply operating power to the chipset U2 of the controller.

 The power generation power input to the chipset U1 of the power adjustment unit is controlled by the power supply of the voltage required by the portable terminal through the chipset U1 of the power adjustment unit and the resistors R4 and R5 connected thereto. The chipset U1 basically includes a DC / DC converter circuit, and the DC / DC converter circuit uses a pulse width modulation control (PWM control) scheme, in which the voltage to be changed is constant And the resistors R4 and R5 finally adjust the output voltage.

The chipset U1 is configured to turn on and off the above operation according to an input of an external control signal, for example, a high voltage signal or a low voltage signal, to switch between an operating state and a non- EB are connected to the reset control signal output terminal PBO of the chipset U2 of the control unit to receive the control signal.

The power supply output I / F 30 is constituted by a chipset J1 of the power output I / F and resistors R5 and R6 for adjusting the charging current. The chipset J1 is supplied to the final portable terminal So that the charging can be stopped.

The output power sensing unit 40 is composed of a resistor R15 connected to the output of the voltage regulated output power source so as to measure the voltage of the output power source. The voltage across the resistor R15 is transferred to the controller 50, The output current value is calculated by the output power from the voltage across the resistor.

The memory of the chipset U2 constituting the control unit 50 controls the operation of the power adjusting unit 20 and the power output I / F 30 and controls the operation of the output power source A program for calculating the output current value and resetting the power adjuster 20 and for transmitting the reset control signal to the power adjuster 20 when the calculated output current value is smaller than a predetermined current value is built in, And the set values required for storing the data.

The controller 50 senses the current of the charging power input to the user terminal through the power output I / F 30, and turns on / off the charging power input to the user terminal based on the detected current. A control program for controlling the I / F 30 is built in. The output current value of the output power is calculated by the voltage value transmitted from the output power sensing unit 40, Value. ≪ / RTI > If it is determined that the variation of the current value of the charging power source is decreased to a value lower than the set value or has a decreasing rate equal to or higher than a predetermined rate, it is determined whether or not the portable terminal is fully charged. If the current value or the rate of increase of the charging power source is larger than the set current value or the increasing rate value, it is determined that there is a short circuit or the like, and the power supply I / F 30 is controlled to be turned off.

The control unit 50 transmits a reset control signal Low voltage signal to the terminal EB of the chipset U3 of the power supply control unit 20 when the calculated output current value is smaller than a predetermined current value, One chipset U3 performs operations to reset the operation of the chipset and to interrupt the output of the regulated output power.

On the other hand, the power generation display unit 60 for visually displaying whether or not the generated power of the solar panel 10 is equal to or greater than a preset amount of power is implemented in the form of an LED D2 that is turned on according to the adjusted output power.

Referring to FIG. 4, the circuit configuration of the solar charger according to another embodiment of the present invention is compared with the embodiment of FIG. 3, and only the difference will be described. A chipset U4 having a switching controller function, and a chipset U1 and U3 having a switching function, a power management function, and a voltage control function controlled by the control circuit 50, Except for the difference between the implemented difference and the two current adjustment circuits 31 and 32 that respectively adjust the output current values of the output power supplied to the portable terminal by the power output I / F 30 to different values, Which is the same as the embodiment of FIG.

FIG. 5 is a flowchart of a control process of a solar charger having a charge current fixing function according to a light amount variation of incident solar light of the present invention.

The control process of the solar charger of the present invention will be described with reference to FIG. 5 in a range not overlapping with the above description.

5, a user connects the solar charger of the present invention to a USB terminal of a portable terminal using a cable, and a control process and a charging process of the charger are started (S10). Then, the power generation display unit 60 The user visually displays whether the generated electric power is greater than or equal to a predetermined electric power amount in the solar panel 10 through S20. Accordingly, the user adjusts the angle of the solar panel,

Then, a constant voltage regulating step (S30) for outputting regulated output power by regulating the power generation power outputted from the solar panel (10) by the power regulator (20) to a power source of a voltage required by the portable terminal is performed, (S40) for monitoring the regulated output power, receiving the voltage value of the sensed output power, and calculating the output current value of the output power based on the received voltage value.

The control unit 50 performs a step S50 of determining whether the calculated output current value is equal to or greater than a predetermined current value, and when the calculated output current value is less than a predetermined current value, the power control unit 20 is reset (S60) for stopping the output of the output power controlled by the control signal to stop the output of the regulated output power. When the calculated output current value is equal to or greater than a predetermined current value, the regulated power output If the amount of current input to the portable terminal is temporarily reduced or fluctuates by performing step S70, corresponding to the fixed value of the input allowable current value in the portable terminal, the output power or the charging power becomes less than a predetermined value The output power of the power adjusting unit or the output of the charging power is interrupted, Resuming the output by the recognition in a mobile terminal to a new connection of a charger is not fixed to the input allowable current value. A threshold current value for starting the fixing of the input allowable charging current is used based on the charging current value input from the portable terminal with the set current value, and the preset current value input for receiving the preset current value (S51) is performed as a preliminary step.

As has been described above, specific combinations of configurations or steps of the present invention have been described in detail by way of the above embodiments, but other combinations of such configurations and steps are likewise possible. The present invention is not limited to the specific embodiments disclosed herein, and such other combinations are incorporated into the scope of the present invention. Therefore, the present invention is not limited to the above-described embodiments, and various modifications and changes may be made thereto by those skilled in the art to which the present invention belongs.

100: Solar charger 200: Portable terminal
10: solar panel 20: power adjuster
30: Power supply output I / F 40: Output power detection unit
50: control unit 60: power generation display unit

Claims (10)

1. A solar charger having a fixed compensation function of a fixed input allowable charge current value due to a light amount variation of incident solar light,
A solar panel (10) comprising at least one solar cell module for converting incident solar energy into electric energy and generating electricity,
A power controller 20 for receiving the power generated from the solar panel 10 and outputting the adjusted output power by controlling the voltage of the power required by the portable terminal,
A power output I / F 30 for receiving a voltage-regulated output power from the power regulator 20 and inputting the regulated output power through a charging terminal of the portable terminal to a charging power source and providing an interface therefor,
An output power sensing unit 40 for sensing the voltage of the voltage regulated output power,
The power control unit 20 controls the operation of the power control unit 20 and the power output I / F 30 and calculates the output current value of the output power according to the voltage sensed by the output power sensing unit 40, And a control unit 50 for resetting,
When the calculated output current value is smaller than a preset current value, the controller 50 transmits a reset control signal to the power adjuster 20, and the power adjuster 20, which receives the reset control signal, And stops the output of the solar charger. The power control apparatus according to claim 1, wherein the power adjusting unit (20)
A constant voltage regulator 21 for receiving the power generation power input from the solar panel 10 and converting it to a predetermined voltage to adjust and maintain the predetermined voltage,
A reset setting unit 22 provided between the solar panel 10 and the constant voltage regulating unit 21 for switching on / off the power generation power input from the solar panel 10 to the constant voltage regulator 21,
And a setting control unit (23) for receiving a reset control signal from the control unit (50) and controlling on / off switching of the reset setting unit (22). The method according to claim 1,
Wherein the predetermined current value is a threshold current value for starting fixing the input allowable charge current based on a charge current value input from the portable terminal. The method according to claim 1,
Wherein the power output I / F (30) comprises a current regulating circuit for regulating an output current value of an output power input to the portable terminal. 5. The method of claim 4,
Wherein the power output I / F (30) comprises two or more current regulation circuits for respectively adjusting output current values of output power inputted to the portable terminal to different values. The method according to claim 1,
The output power sensing unit 40 includes a resistor having a predetermined resistance value. The output power sensing unit 40 measures a voltage at both ends of the resistor and transmits the voltage to the control unit 50. The control unit 50 outputs the resistance value and the output And calculates the output current value of the output power by the voltage value transmitted from the power sensing unit (40). 2. The apparatus according to claim 1, wherein the controller (50) senses the current of the charging power input to the user terminal through the power output I / F (30) and turns on / off the charging power input to the user terminal And the solar battery charger. 9. The method according to any one of claims 1 to 8,
And a power generation display unit (60) for visually displaying whether or not the generated power in the solar panel (10) is equal to or greater than a preset amount of power. A control method of a solar charger having a fixed compensation function of a fixed input allowable charge current value by a light amount variation of incident solar light,
A constant voltage regulating step (S30) for receiving the power generation power output from the solar panel (10) and outputting the regulated output power by regulating the power to a voltage required by the portable terminal,
An output monitor / output current calculation step (S40) for monitoring the adjusted output power, receiving a voltage value of the sensed output power and calculating an output current value of the output power based on the received voltage value,
A step (S50) of judging whether the calculated output current value is equal to or greater than a predetermined current value,
A voltage regulator reset step (S60) for suspending output of the regulated output power when the calculated output current value is less than a preset current value, and
And a controlled power output step (S70) for outputting the adjusted output power when the calculated output current value is equal to or greater than a predetermined current value. 10. The method of claim 9,
And a setting current value input step (S51) of inputting a preset current value to which the preset current value is input, wherein the set current value is set to a value that is set to a value Wherein the threshold current value is a threshold current value.

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