KR101653788B1 - Apparatus for power generating - Google Patents

Abstract

The present invention discloses a power generation apparatus capable of improving the efficiency of power generation by generating power optimally in both outdoor and indoor areas in generating electric power by employing an optical panel.

Description

[0001] APPARATUS FOR POWER GENERATING [0002]

The present invention relates to a power generation apparatus, and more particularly, to a power generation apparatus that uses an optical panel and generates power optimally in both indoor and outdoor environments in generating power, thereby improving power generation efficiency Generating device.

2. Description of the Related Art In recent years, there has been an active use of a power generation system of a technology that uses an optical panel (for example, a solar panel) to convert solar light into electric energy, that is, electric power and supplies the solar panel to an application system.

However, in such a conventional power generation system, there is a limitation in that it is impossible to convert / generate light from a weak light source in the room, for example, an artificial light source (e.g., a lamp or an illumination) into electric power and supply it to the application system stably and continuously .

Therefore, it is necessary to search for a method to supply electric energy or electric power to the application system stably and continuously even in a room where a strong light source, that is, a room with an artificial light source as well as a room with a weak light source such as a sun.

Therefore, the present invention proposes a method for improving the efficiency of power generation by generating stable and continuous power in the indoor as well as indoors, and in particular by generating power optimally in outdoor and indoor environments .

Patent Registration No. 10-1452776 (Dec. 17, 2014) "Photovoltaic System"

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and it is an object of the present invention to achieve stable and continuous power generation not only in an outdoor environment but also indoors, and in particular, Thereby improving the efficiency of power generation.

According to a first aspect of the present invention, there is provided an electric power generation apparatus comprising: an optical panel for generating power using light of a light source; A path switch unit for selectively opening at least one of the first path and the second path according to whether the power generated by the optical panel is low power or high power and for transmitting the power; A first processor for boosting the power transmitted through the first path to a specific voltage and delivering the voltage to the application system; And a second processing unit for stepping up the power transmitted through the second path to the specific voltage and delivering it to the application system.

Preferably, the pass switch unit determines that the voltage of the power generated by the optical panel is low when the voltage of the power generated by the optical panel is lower than a predetermined reference voltage. If the voltage of the power generated by the optical panel is not lower than the reference voltage, . ≪ / RTI >

Preferably, the first processing section has a limit to which the step-up processing can not be performed with respect to a power equal to or higher than the threshold current value, and the reference voltage is determined based on a current and a voltage of the power generated in the optical panel, May be a voltage value of the power when the threshold current value is a threshold current value.

Preferably, the path switch unit opens the first path when the power generated by the optical panel is low, and opens the second path when the power generated by the optical panel is high power. Both the first path and the second path can be opened.

Preferably, the application system may be a rechargeable battery charged with the power of the specific voltage.

Thus, according to the power generation apparatus of the present invention, when power is generated by employing an optical panel, power generation efficiency can be improved by optimally generating power in both indoor and outdoor environments .

1 is a block diagram illustrating a configuration of a power generation apparatus according to a preferred embodiment of the present invention.
2 is a flowchart illustrating an operation method of a power generation apparatus according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a diagram showing a configuration of a power generation apparatus 100 according to a preferred embodiment of the present invention.

As shown in FIG. 1, the power generation apparatus 100 of the present invention employs an optical panel, and relates to a technique of converting / generating light of a light source into electric energy, that is, electric power, and supplying the light to an application system.

In the case of conventional power generation systems in this technology, solar light of the sun is converted / generated into a strong light source, that is, outdoors with the sun, and supplied to the application system.

However, in the conventional power generation system, it is impossible to convert / generate the light of the artificial light source into electric power in a room with a weak light source, that is, an artificial light source (e.g., a lamp, an illumination, etc.) .

Therefore, it is necessary to search for a method to supply electric energy or electric power to the application system stably and continuously even in a room where a strong light source, that is, a room with an artificial light source as well as a room with a weak light source such as a sun.

Therefore, in the present invention, it is possible to provide a power generation device 100 (hereinafter, referred to as " power generation device 100 ") capable of improving the efficiency of power generation by generating stable and continuous power in the indoor as well as indoors, ).

The power generation apparatus 100 of the present invention will now be described in more detail.

The power generation apparatus 100 according to the present invention includes an optical panel 110 for generating power using light from a light source and a control unit 110 for controlling the power generation of the first A path switch unit 120 for selectively opening at least one of the first path and the second path to transmit the power to the application system 200, And a second processing unit 140 for stepping up the power transmitted through the second path to the specific voltage and transmitting the voltage to the application system 200. [

The light panel 110 generates electric power using light from a light source.

That is, the optical panel 110 is a panel that converts light of a light source into electric energy, that is, electric power, and is typically a solar panel.

Such an optical panel 110 can generate a certain range of power according to the characteristics (e.g., size, efficiency, etc.) of the panel. Hereinafter, a power of a minimum 2.0 V to a maximum 3.2 V I will explain it as generating.

If the power generation apparatus 100 of the present invention is located outdoors, the light panel 110 will absorb / generate a strong light source, i.e., sunlight, outdoors and convert it into electric power.

On the other hand, if the power generation apparatus 100 of the present invention is located indoors, the light panel 110 absorbs light of a weak light source such as an artificial light source (e.g., a lamp or an illumination) / Will generate.

Therefore, the power generated by the light panel 110 outside the room is lower than the power generated by the light panel 100 in the room, except for an exceptional situation (for example, night time) And the electric power generated by the optical panel 110 in the room is smaller than the electric power generated by the optical panel 100 outdoors It can be seen as low power.

The path switch unit 120 selectively opens at least one of the first path and the second path according to whether the power generated by the optical panel 110 is a low power or a high power and transfers the power.

1, the power generation apparatus 100 of the present invention is a path for supplying (delivering) the power generated by the optical panel 110 to the application system, and includes a dual path, that is, 1 path and a second path.

The path switch unit 120 selectively opens at least one of the first path and the second path according to whether the power generated by the optical panel 110 is low power or high power, (The first pass, the second pass, the first pass, and the second pass).

More specifically, the path switch unit 120 determines that the voltage of the power generated by the optical panel 110 is lower than the preset reference voltage V _d , It can be determined that the voltage of the power is higher than the reference voltage V _d .

That is, when the power generated by the optical panel 110 is applied as described above, the path switch unit 120 measures the voltage of the power and when the power is lower than the reference voltage V _d , It is determined that the power is low.

In this case, when the power is determined to be low, it can be considered that the smaller the intensity (voltage, current) of the power generated in the optical panel 110 is, the lower the illuminance is, There is a high possibility that the user 100 is located indoors.

Meanwhile, when the power generated by the optical panel 110 is applied, the path switch unit 120 measures the voltage of the power, and if the power is not lower than the reference voltage V _d , the power generated by the optical panel 110 Is high.

In this case, when it is determined that the power is high, as the intensity (voltage, current) of the power generated by the optical panel 110 is increased, the power is seen to be exposed to a strong light source having high illumination. ) Is likely to be located outdoors.

The path switch unit 120 opens the first path when it is determined that the power generated by the optical panel 110 is low and transmits the power generated by the optical panel 110 through the opened first path And transfers it to the first processing unit 130.

On the other hand, if it is determined that the power generated by the optical panel 110 is high power, the path switch unit 120 opens the second path to power the power generated by the optical panel 110 through the opened second path To the second processing unit 140 (hereinafter, the first embodiment at high power).

Alternatively, if it is determined that the power generated by the optical panel 110 is high power, the path switch unit 120 opens both the first path and the second path so that the power generated by the optical panel 110 is turned on To the first processing unit 130 and the second processing unit 140 through the first path and the second path (hereinafter, the second embodiment at high power).

Here, when adopting the second embodiment at the time of high power in the power generation apparatus 100, the power of the specific voltage (for example, 4.35 V) is applied to the application system 200 described later in comparison with the case of adopting the first embodiment The efficiency of transfer (supply) can be improved. The reason for this will be described later in detail.

Here, the path switch unit 120 can be implemented to perform the above-described operation based on this algorithm by embedding an algorithm for measuring the voltage of the power, determining the high power / low power, and performing the path selective opening , Or may be implemented to perform the above-described operations based on a hardware configuration (design) designed with various switching elements and circuit elements without incorporating a separate algorithm.

The first processing unit 130 boosts the power transmitted through the first path to be opened to a specific voltage (for example, 4.35 V), and transmits the voltage to the application system 200.

The first processor 130 may employ an existing Low Power Harvester chip, and further preferably has an MPPT (Maximum Power Point Tracking) function.

More specifically, the first processor 130 monitors the power transmitted through the first path that is opened according to the MPPT function and tracks the maximum power per unit time, and performs the Low Power Harvesting function (For example, 4.35 V) in accordance with a predetermined voltage (for example, 4.35 V) in accordance with the voltage of the first path.

As a result, the first processing unit 130 may be a processing unit based on the Low Power Harvesting function and suitable for the low power boosting process.

Thereafter, the first processing unit 130 outputs the power that has been stepped up to a specific voltage (for example, 4.35 V) and is transmitted to the application system 200.

Here, it is preferable that the application system 200 is a rechargeable battery which is charged with the power of the above-mentioned specific voltage (e.g., 4.35 V).

For example, the application system 200 may be a charging main battery in a fixed form on a portable device (e.g., a laptop, a smartphone, etc.), or it may be a removable charging auxiliary battery.

Therefore, the electric power that has been stepped up by the first processing unit 130 is supplied (delivered) to the application system 200, so that the application system 200 can charge the rechargeable battery using the supplied electric power.

On the other hand, the first processing unit 130 suitable for the low-power step-up processing has a limit in which the step-up processing can not be performed for a power exceeding the threshold current value (e.g., about 80 mA).

The reference voltage V _d used as a reference for determining whether the power generated from the optical panel 110 is high or low is supplied to the first processing unit 130, (For example, about 80 mA).

That is, the reference voltage V _d is preferably a voltage value of the power when the current of the power is a critical current value (for example, about 80 mA) based on the current and voltage of the power generated in the optical panel 110 .

The power generating apparatus 100 according to the present invention may be configured such that the power generating apparatus 100 is exposed to various light source environments (e.g., outdoor and indoor) in the power generating apparatus 100 generating step A test for finding a voltage value of power when the current of the power generated in the panel 110 is a critical current value (e.g., about 80 mA) (hereinafter referred to as a reference voltage setting test) is repeated several times, (V _d ). Hereinafter, for convenience of explanation, it is assumed that the reference voltage V _d is 2.8V.

At this time, the reference voltage setting test described above may be performed manually by the user or automatically by an automated algorithm.

The second processing unit 140 processes the voltage transmitted through the second path to be opened to a specific voltage (for example, 4.35 V) and transfers the voltage to the application system 200.

The second processor 140 may employ a conventional High Power Booster chip, and may further include an MPPT (Maximum Power Point Tracking) function.

More specifically, the second processing unit 140 monitors the power transmitted through the second path that is opened according to the MPPT function, tracks the maximum power per unit time, and outputs the highest power per unit time as a High Power Boosting function (For example, 4.35 V) in accordance with a predetermined voltage (for example, 4.35 V) in accordance with the voltage of the first path.

As a result, the second processing unit 140 may be referred to as a processing unit based on the High Power Boosting function and suitable for the high power boosting process.

Thereafter, the second processing unit 140 outputs the power that has been stepped up to be a specific voltage (for example, 4.35 V) and is transmitted to the application system 200.

Therefore, the electric power that has been stepped up by the second processing unit 140 is supplied (delivered) to the application system 200, so that the charging system can be charged by using the supplied electric power in the application system 200.

The reason why the MPPT function is applied in the first processing unit 130 and the second processing unit 140 is that the electric power generated in the optical panel 110 is an electric energy generated from the light of a light source (Voltage, current) generated by the optical panel 110 because the intensity (voltage, current) is inevitably non-linear due to various causes such as the wavelength of light (light) So that efficiency of the first processing unit 130 and the second processing unit 140 can be increased.

Accordingly, when the power generated by the optical panel 110 is low, the power generation apparatus 100 of the present invention opens the first path and transmits the power generated by the optical panel 110 to the low power step-up processing (Supply) the voltage to the application system 200 through the first processing unit 130 so as to be a specific voltage (for example, 4.35 V).

When the power generated by the optical panel 110 is high power, the power generation apparatus 100 of the present invention opens only the second path according to the first embodiment, (Supply) the voltage to a specific voltage (for example, 4.35 V) through the second processing unit 140 suitable for high-voltage step-up processing, The power generated in the optical panel 110 is stepped up in parallel so as to be a specific voltage (for example, 4.35 V) through the first processing unit 130 and the second processing unit 140, (Supplied) to the application system 200.

At this time, when adopting the second embodiment at high power in the power generating apparatus 100 of the present invention, the power of the specific voltage (for example, 4.35 V) is applied to the applying system 200 rather than the case of adopting the first embodiment The reason why the efficiency of delivering (supplying) can be improved will be described as follows.

As described above, the electric power generated by the light panel 110 must be non-linear in its intensity (voltage, current). Therefore, even when the power of the optical panel 110 is judged to be high in the path switch unit 120, if the current of the power is abnormally low and the second processing unit 140 suitable for the high-power- (Hereinafter referred to as an abnormal low current state at high power) may occur.

If such an unusual low current situation occurs at such a high power, the power of a specific voltage (for example, 4.35 V) can not normally be delivered to the application system 200 in the case of the above first embodiment at high power .

On the other hand, in the case of the high-power second embodiment described above, since the power of the optical panel 110 is transmitted to the first processing unit 130 and the second processing unit 140, The power of the specific voltage (for example, 4.35 V) is normally transmitted to the application system 200 because the first processing unit 130 can perform the normal boosting process even if the boosting process is impossible in the second processing unit 140. [ .

Therefore, when adopting the second embodiment at high power in the power generation apparatus 100 according to the present invention, even if a high voltage is applied to the application system 200, : 4.35V), so that the power transfer (supply) efficiency can be improved as compared with the case of adopting the first embodiment.

Meanwhile, the power generation apparatus 100 of the present invention may further include a controller 150 for controlling the respective functional units in the power generation apparatus 100, as shown in FIG.

The controller 150 controls the path switch unit 120, the first processing unit 130 and the second processing unit 140 so that the path switch unit 120 and the first processing unit 130 And the second processing unit 140 may perform the above-described functions.

The controller 150 may perform control to optimize the predetermined reference voltage (V _d , 2.8 V) in the path switch unit 120 while the power generating apparatus 100 is in operation have.

For example, when the optical panel 110 adopted by the power generating apparatus 100 is replaced, the characteristics (e.g., size, efficiency, etc.) of the panel are changed. The voltage of the power may be different from the predetermined reference voltage V _d , 2.8 V when the current of the power supplied to the first processing unit 130 and / A situation may occur in which power supplied to the application system 200 from the second processing unit 140 is not stable or is lower than a target specific voltage (e.g., 4.35 V).

The controller 150 monitors the electric power supplied to the applied system 200 from the first processing unit 130 and / or the second processing unit 140 to determine whether the electric power is stable or a specific voltage : 4.35 V), it is possible to perform control to optimize and reset the reference voltage (V _d , 2.8 V) to the path switch unit 120 by automatically performing the above-described reference voltage setting test .

Of course, the controller 150 confirms the charging state of the application system 200, and when the charging system 200 is charged (in a cushioning state), the path switch unit 120, the first processing unit 130, The processing unit 140 may control at least one function unit so that no more power is supplied (supplied) to the application system 200. [

As described above, the power generation apparatus according to the present invention is a path for supplying (delivering) power generated in the optical panel to the application system as a path, a path passing through a processing unit suitable for dual- (High-power) and indoor (low-power) by selectively opening a path suitable for the outdoor (high power) and indoor (low power) It is possible to improve the efficiency of power generation by generating power optimally suitable for both outdoor and indoor use.

Therefore, according to the power generation apparatus of the present invention, power generation efficiency is improved by appropriately generating power appropriately in both outdoor and indoor areas in generating electric power by employing an optical panel.

Hereinafter, an operation method of the power generation apparatus according to the present invention will be described in detail with reference to FIG. Hereinafter, for convenience of description, reference will be made to the reference numerals mentioned in the above-mentioned FIG.

According to the operation method of the power generation apparatus 100 of the present invention, in the optical panel 110, power is converted / generated using the light of the light source (S10).

The power generated by the optical panel 110 outside the room is the same as the power generated by the optical panel 100 in the room except for an exceptional situation (for example, night time) And the electric power generated by the optical panel 110 in the room is smaller than the electric power generated by the optical panel 100 outdoors It can be seen as low power.

According to the method of operating the power generation apparatus 100 of the present invention, when the power generated by the optical panel 110 is applied, the path switch unit 120 can determine whether the power generated by the optical panel 110 is low, (S30).

More specifically, according to the operation method of the power generation apparatus 100 of the present invention, in the path switch unit 120, the voltage of the power generated by the optical panel 110 is lower than a predetermined reference voltage V _d , 2.8 V (S30 Yes), it is determined that the power is low. If the voltage of the power generated by the optical panel 110 is not lower than the reference voltage (V _d , 2.8 V) (S30 No), it can be determined that the power is high.

In this case, when the power is determined to be low, it can be considered that the smaller the intensity (voltage, current) of the power generated in the optical panel 110 is, the lower the illuminance is, There is a high possibility that the user 100 is located indoors.

In this case, when it is determined that the power is high, as the intensity (voltage, current) of the power generated by the optical panel 110 is increased, the power is seen to be exposed to a strong light source having high illumination. ) Is likely to be located outdoors.

According to the operation method of the power generation apparatus 100 of the present invention, when the path switch unit 120 determines that the power generated by the optical panel 110 is low power (Yes in S30) (S40). Then, the power generated by the optical panel 110 is transmitted to the first processor 130 through the opened first path (S45).

According to the operation method of the power generation apparatus 100 of the present invention, the first processing unit 130 boosts the power transmitted through the opened first path to a specific voltage (e.g., 4.35 V) (S50) , And delivers it to the application system 200 (S55).

More specifically, according to the operation method of the power generation apparatus 100 of the present invention, in the first processing unit 130, the power transmitted through the opened first path is monitored according to the MPPT function, (For example, 4.35 V) in accordance with the low power harvesting function, so that the power transmitted through the first pass is boosted to a specific voltage (for example, 4.35 V) .

Accordingly, the electric power boosted by the first processing unit 130 is supplied (delivered) to the application system 200, so that the rechargeable battery can be charged using the supplied electric power in the application system 200 (S57).

According to the operation method of the power generation apparatus 100 of the present invention, when the path switch unit 120 determines that the power generated by the optical panel 110 is high power (S30 No), the second path is opened (S60). Then, the power generated in the optical panel 110 is transmitted to the second processing unit 140 through the opened second path (S65) (hereinafter, the first embodiment at high power).

Alternatively, according to the operation method of the power generation apparatus 100 of the present invention, when the path switch unit 120 determines that the power generated by the optical panel 110 is high power (S30 No) And the power generated in the optical panel 110 may be transmitted to the first processing unit 130 and the second processing unit 140 through the opened first and second paths Second embodiment of the invention).

Hereinafter, for convenience of explanation, the first embodiment at the time of high power will be described.

According to the operation method of the power generation apparatus 100 of the present invention, the second processing unit 140 boosts the power transmitted through the second path that is opened to a specific voltage (e.g., 4.35 V) (S70) To the application system 200 (S75).

More specifically, according to the operation method of the power generation apparatus 100 of the present invention, the second processing unit 140 monitors the power transmitted through the second path that is opened according to the MPPT function, (For example, 4.35 V) according to the High Power Boosting function, so that the power transmitted through the second path is boosted to a specific voltage (for example, 4.35 V) .

The power supplied from the second processing unit 140 is supplied (delivered) to the application system 200 so that the charging system can be charged using the supplied power in the application system 200 (S77).

As described above, the operation method of the power generation apparatus according to the present invention is a path for supplying (delivering) power generated in the optical panel to the application system as a path, a path passing through a processing unit suitable for dual- Power is applied to the applicable system by selectively opening the appropriate path in the outdoor (high electric power) and the indoor (low electric power) by providing the path passing through the processing unit suitable for the high electric power treatment, Not only enables continuous power generation but also improves the efficiency of power generation by optimally generating power suitable for both outdoor and indoor use.

As described above, the operation method of the power generation apparatus according to the present invention improves the efficiency of power generation by generating power optimally in both outdoor and indoor areas in generating electric power by employing an optical panel Effect.

The method of operating the power generation device according to an embodiment of the present invention may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

According to the power generation apparatus of the present invention, power generation efficiency can be improved by appropriately generating optimal power in both outdoor and indoor areas in generating electric power by employing an optical panel, It is an invention that is industrially applicable because it is not only the use of related technology but also the possibility of market or operation of the applicable device as well as the possibility of being practically and practically obvious as it goes beyond the limit.

100: power generation device
110: light panel 120: path switch section
130: first processing section 140: second processing section
150: controller
200: Applicable system

Claims (5)

An optical panel for generating electric power using light of a light source;
A first processing unit dedicated to the low power boosting process for stepping up the power transmitted through the first path to a specific voltage and delivering the power to the application system;
A second processing unit dedicated to high-voltage step-up processing for stepping up the power transmitted through the second path to the specified voltage and transmitting the power to the application system; And
When the power generated by the optical panel is lower than the reference voltage, the first path is opened to transmit power, and when the power is higher than the reference voltage, both the first path and the second path are opened And a path switch unit for transmitting power. delete The method according to claim 1,
Wherein the first processing unit has a limit to which boosting processing can not be performed with respect to a power equal to or larger than a critical current value,
The reference voltage,
Wherein the power generation unit is a voltage value of the power when the current of the power is a critical current value based on a current and a voltage of power generated in the optical panel. delete The method according to claim 1,
Wherein the application system is a rechargeable battery that is charged with the power of the specific voltage.

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