KR101929974B1 - Solar Photovoitaic Generation System - Google Patents

Abstract

The present invention relates to a solar photovoltaic power generation system capable of stably generating power by using diesel in a state that power generation using sunlight is not performed due to uneven natural lighting. According to the present invention, the solar photovoltaic power generation system includes: a solar cell module (100) converting solar energy into electric energy and outputting DC power; a DC/generator (200) generating the DC power using a diesel fuel; a controller (300) selectively connecting the solar cell module (100) or the DC/generator (200) to a storage battery (400); the multiple storage batteries (400) charged with the power generated by the solar cell module (100) or the DC/generator (200); a variable PWM demodulation charging drive (500) charging the storage battery (400) with the power generated by the solar cell module (100) or the DC/generator (200) by distributing the power; a DC/AC inverter (600) converting the DC power, which is output by the storage battery (400), into AC power; a variable phase control driver (700) controlling the optimum output phase angle of the power converted by the DC/AC inverter (600); and a charge/output control unit (800) controlling the controller (300) while controlling the DC/generator (200) in accordance with the power generation state of the solar cell module (100) and controlling the variable phase control driver (700) by checking the power generation state of the solar cell module (100) and the usage amount of a load (1000).

Description

[0001] Solar Photovoitaic Generation System [0002]

The present invention relates to a photovoltaic power generation system capable of stably generating electricity using diesel even in a state where natural light is uneven and power can not be generated by using sunlight.

Generally, many studies have been carried out using natural environments such as the sun, wind, and tidal forces, and a considerable amount of researches have been made and widely used.

However, the development using the natural environment is highly geographically influenced. That is, in order to generate electricity using solar energy, the amount of sunshine must be large, and the wind must be blown in order to generate electricity using wind energy.

Currently, a variety of power generation systems using solar energy are being tried, and a lot of research has been attempted to improve the performance of solar photovoltaic modules.

However, since the efficiency of solar cells is affected by the amount of sunlight, it is very troublesome to generate a constant power regardless of weather and time.

Korean Patent Registration No. 10-1614951

SUMMARY OF THE INVENTION It is an object of the present invention to provide a photovoltaic power generation system capable of stably generating electricity using diesel even when natural light is uneven and power can not be generated using solar light.

Another object of the present invention is to prevent a PWM signal from being wasted because power generated when the PWM signal is a LOW signal is discarded due to being charged in one battery when the HI signal is a LOW signal, And to provide a photovoltaic power generation system capable of maximizing the efficiency of the photovoltaic power generation system.

The photovoltaic generation system according to an embodiment of the present invention includes a solar cell module 100 for converting solar energy into electrical energy to output a DC power source, a DC / generator (not shown) for generating DC power using diesel fuel A controller 300 for selectively connecting the solar cell module 100 and the DC / generator 200 to the storage battery 400 and a power source 300 for generating power from the solar cell module 100 or the DC / A variable PWM demodulation charge drive 500 in which the power generated from the solar cell module 100 or the DC / generator 200 is dispersed and charged in the accumulators 400, A DC / AC inverter 600 for converting the DC power output from the battery 400 to AC power, a variable phase control driver (for controlling the magnitude of an appropriate output phase angle of the power source converted by the DC / AC inverter 600 Generator 200 according to the power generation state of the solar cell module 100, And a charge / discharge control unit 800 for controlling the variable phase control driver 700 by operating the photovoltaic power generation unit 100, the power generation status of the solar cell module 100, checking the usage amount of the load 1000, do.

Preferably, the variable PWM demodulation charge drive 500 is adapted to apply a first PWM signal to the first battery 400 to apply power from the solar cell module 100 or the DC / A switch 520 and a second switch 520 which are activated by a LOW signal in the PWM signal so that the power generated by the solar cell module 100 or the DC / generator 200 is applied to the other battery 400, And a PWM variable control unit 530 for varying the pulse width of the HI signal and the pulse width of the LOW signal in the PWM signal while generating a signal.

The charging / output control unit 800 may include a power generation level confirmation unit 810 for confirming the power generation level of the power generated by the solar cell module 100, a reference level for comparison with the power generation level of the solar cell module 100, A reference power generation level setting unit 820 for setting a power generation level, and a control unit 820 for comparing the reference power generation level with the power generation level of the solar cell module 100 and, if the power generation level does not exceed the reference power generation level, Generator 100 and the controller 300 so that the power generated by the DC / generator 200 is supplied to the battery 400 or the load 1000 when the DC / generator operation unit 830 is operated. And a controller operation unit 840 for operating the controller.

The charge / output control unit 800 may include a charge amount confirmation unit 850 for checking the charge amount of the battery 400 and an appropriate power inserting unit 860 for setting an appropriate amount of power to be supplied to the load 1000 An appropriate output phase angle setting unit 870 for setting an appropriate output phase angle magnitude of the output power corresponding to an appropriate amount of power, and a control unit 860 for comparing the amount of charge determined by the charge amount checking unit 850 with an appropriate amount of power, The charge amount determination unit 880 determines whether the amount of charge matches the appropriate amount of electric power and the charge amount determination unit 880 determines that the DC / When it is determined that the charge amount is equal to an appropriate amount of electric power in the DC / electric power generation operating unit 890 and the charge amount determining unit 890 that operate the DC / generator operating unit 830, the output from the variable phase control driver 700 Variable phase control such that the phase angle magnitude is varied to the proper output phase angle magnitude set In that it comprises a 700 variable phase control panel 900 for manipulating it is characterized.

Preferably, the charge / output controller 800 sets a plurality of proper power amounts with different magnitudes, sets a plurality of proper output phase angle magnitudes to different magnitudes, and outputs appropriate output phase angular magnitudes And a variable power phase angle matching unit 910. The variable power phase determination unit 880 is configured to determine whether the amount of charge corresponds to one of the optimum power amounts, The variable phase control driver 700 is operated so that the output phase angle magnitude of the control driver 700 is adjusted to an appropriate magnitude of the output phase angle matched with the appropriate power amount.

The present invention is advantageous in that electric power can be stably supplied for 24 hours because diesel can be used to generate electricity stably even when natural light is uneven and power generation can not be performed using sunlight.

In addition, since the PWM signal is charged in one battery when the HI signal is the HI signal and is charged in the other battery even when it is the LOW signal in the PWM signal, the power generated during the LOW signal is discarded and waste is prevented, and the charging efficiency can be maximized .

In addition, even if the amount of charge charged in the battery is insufficient at the nighttime than the amount of power required in the load, the charge amount can be appropriately distributed and continuously supplied to the load, so that the load is not reduced and the diesel fuel is not used. Diesel fuel can be saved.

1 illustrates a photovoltaic power generation system according to an embodiment of the present invention.
Figure 2 shows a variable PWM demodulation charge drive of the present invention.
3 shows a technique of charging only a HI signal in a conventional PWM signal.
4 (a), (b) and (c) illustrate embodiments in which the magnitude of the output phase angle of the power supply output by the variable phase control driver of the present invention is adjusted.
5 is a block diagram showing a charge / discharge control unit of the present invention.
6 is a flowchart showing an operation process of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1, the present invention includes a solar cell module 100, a DC / generator 200, a controller 300, a battery 400, a variable PWM demodulation charge drive 500, a DC / AC inverter 600, a variable phase control driver 700, and a charge / output control unit 800.

The solar cell module 100 converts solar energy into electric energy and outputs a DC power, so that the solar cells gather to form a plate. At this time, the power source to be developed is a DC power source.

DC / generator 200 is preferably a diesel generator configured to generate DC power using diesel fuel. This DC / generator 200 is configured to generate appropriate electrical energy that can be charged to the battery 400. [ Accordingly, when the solar cell module 100 is difficult to generate power at night or rainy days, the electric energy generated by the DC / generator 200 can be charged in the battery 400. [

The controller 300 selectively connects the solar cell module 100 and the DC / generator 200 to the storage battery 400, and is configured as an ATS (Automatic Transfer Switch).

The storage battery 400 is composed of a plurality of batteries, and power generated from the solar cell module 100 or the DC / The power sources stored in the batteries 400 can be output to the load 1000, respectively. The battery 400 may be an energy storage device (ESS).

The variable PWM demodulation charging drive 500 causes the power generated by the solar cell module 100 or the DC / generator 200 to be dispersed and charged in the storage batteries 400.

2, the variable PWM demodulation charge drive 500 generates a HI signal (or a PWM signal) from the PWM signal so as to apply the power generated from the solar cell module 100 or the DC / And a second switch (not shown) operated on the LOW signal in the PWM signal so as to apply the power generated from the solar cell module 100 or the DC / generator 200 to the other battery 400 And a PWM variable control unit 530 for varying the pulse width of the HI signal and the pulse width of the LOW signal in the PWM signal while generating the PWM signal.

The first switching device 510 and the second switching device 520 may be configured as FET circuits, and the PWM variable control unit 530 may be configured as an MCU (Micro Controller Unit). When the HI signal is input to the gate G of the first switching device 511, the power is generated from the solar cell module 100 or the DC / And can be supplied to one battery 400. Of course, since the second switching device 520 is connected from the drain D to the source S when the LOW signal is inputted to the gate G, the power generated from the solar cell module 100 or the DC / And may be supplied to the other storage battery 400.

The PWM variable controller 530 appropriately varies the pulse width of the HI signal and the pulse width of the LOW signal so that the power sources can be charged in each of the batteries 400. [ For example, when the pulse width of the HI signal is changed to 70% and the pulse width of the LOW signal is changed to 30% while the entire pulse width including the HI signal and the LOW signal is 100%, one 70% of the electric energy is charged in the battery 400 of the battery 400, and 30% of the electric energy is charged in the other battery 400 by the LOW signal.

Therefore, since the batteries 400 are charged when the power is always generated by the solar cell module 100 or the DC / generator 200 and when the HI signal or the LOW signal is generated, the 100% . That is, the battery 400 can be fully charged without being wasted when the generated power is the LOW signal.

As shown in FIG. 3, in the conventional PWM signal, only the HI signal turns on the switching element of the PWM signal to charge the battery. In the LOW signal, the switching element is turned off to charge the battery. Do not. That is, when the signal is a LOW signal, the power generated from the solar cell module 100 or the DC / generator 200 can not be charged and is discarded and wasted.

As shown in FIG. 1, the DC / AC inverter 600 converts DC power output by the battery 400 into AC power. AC power converted by the DC / AC inverter 600 is supplied to the load 1000 and used.

The variable phase control driver 700 adjusts the output phase angle magnitude (phase control width) of the power source to be converted in the DC / AC inverter 600.

As shown in Fig. 4 (a), if the variable phase control driver 700 does not perform phase control, about 100% of power can be supplied to the load by the hatched portion. 4 (b), when the generator power and the charging power are large, the variable phase control driver 700 adjusts the magnitude of the output phase angle with respect to the power source, so that the width of the phase control decreases, % Of load power can be supplied. In this case, the variable phase control driver 700 can reduce the width of the phase control by adjusting the magnitude of the output phase angle with respect to the power source even when the load power is consumed. As shown in FIG. 4C, when the load power is small, the magnitude of the output phase angle with respect to the power source can be adjusted to increase the width of the phase control, so that the load power of about 20% can be supplied by the hatched portion. Here, even when the consumption of the load power is small, the variable phase control driver 700 can increase the width of the phase control.

As the width of the phase control is adjusted by adjusting the magnitude of the output phase angle with respect to the power source by the variable phase control driver 700, power less than the amount of power required at the load 1000 at night is continuously supplied until sunrise . Accordingly, since the power is supplied in a small amount at the night when solar power can not be generated, but is supplied without a strap, the load 1000 can be continuously operated without being shut down.

1, the charge / discharge control unit 800 operates the controller 300 while controlling the DC / generator 200 according to the power generation state of the solar cell module 100, And checks the amount of use of the load 1000 to control the variable phase control driver 700. [

5, the charge / discharge control unit 800 includes a power generation level check unit 810 for checking the power generation level of the power generated by the solar cell module 100, A reference power generation level setting unit 820 for setting a reference power generation level to be compared with the power generation level of the solar cell module 100, Generator operation unit 830 that operates the DC / generator 200 and the DC / generator operation unit 830 when the DC / generator operation unit 830 is operated so that the power generated by the DC / generator 200 is supplied to the battery 400 or the load 1000 And a controller operation unit 840 for operating the controller 300.

Here, the power generation level and the reference power generation level may be current or voltage.

The power generation level confirming unit 810 can be connected to the solar cell module 100 and can be confirmed through a sensor (not shown) or a circuit (not shown) for measuring current or voltage.

The DC / generator operating portion 820 operates the DC / generator 200 to produce electrical energy.

When the controller operation unit 840 operates the controller 300, the controller 300 is operated.

Therefore, when the power generation level of the power generated by the solar cell module 100 during the day is higher than the reference power generation level, the charge / output control unit 800 is not operated. When the power generation level of the power generated by the solar cell module 100 at night is below the reference power generation level, the controller operation unit 840 of the charge / discharge control unit 800 operates the controller 300 to operate the solar cell module 100 And operates the DC / generator operating unit 830 while connecting the DC / Thereby, the power generated by the DC / generator 200 operated by the DC / generator operating portion 830 is charged to the battery 400 or supplied to the load 1000. [ Of course, when the power generated by the solar cell module 100 exceeds the reference power generation level by the sunrise, the charge / output control unit 800 operates the controller 300 to stop the operation of the DC / generator operation unit 830 DC / generator 200 is disconnected.

As described above, since power is generated by the solar cell module 100 during the daytime and by the DC / generator 200 during the nighttime, the power can be generated for 24 hours, so that the power supply can be smoothly performed during daytime or nighttime.

The charge / output control unit 800 includes a charge amount confirmation unit 850 for confirming the charge amount of the battery 400, an appropriate power inserting unit 860 for setting an appropriate amount of power to be supplied to the load 1000, And an appropriate output phase angle setting unit 870 for setting an appropriate output phase angle magnitude of the output power corresponding to an appropriate amount of power, The charge amount determination unit 880 determines whether or not the DC / generator 200 matches the appropriate amount of electric power, and if the charge amount is equal to an appropriate amount of electric power in the charge amount determination unit 880, Generator control unit 890 for operating the generator operation unit 830 and the charge amount determination unit 890 determine that the amount of charge corresponds to an appropriate amount of power, The variable phase control driver 700 is controlled so that each of the magnitudes is varied to a predetermined proper output phase angle magnitude, And a variable phase manipulation unit 900 for manipulating the variable phase manipulation unit 900.

The charge amount confirmation unit 850 can be confirmed by a sensor (not shown) or a circuit (not shown) connected to the battery 400 and measuring a current or a voltage. The charge amount confirmed in the charge amount confirmation unit 850 is the charge amount of the battery 400 that can be supplied during the night.

The appropriate amount of power set in the appropriate power sleeping section 860 is the amount of power that should be used during the night at the load 1000. [

The magnitude of the appropriate output phase angle set in the phase control expanding section 870 can be set to a size (width) smaller than the entire width of the phase angle.

The DC / generator operating section 890 operates the DC / generator operating section 830 to disable the DC / generator 200. That is, since the DC / generator 200 is not operated before the charge power of the battery 400 is consumed, the energy can be saved.

The variable phase manipulation unit 900 may be manipulated by the variable phase control driver 700 to vary the output phase angle magnitude to an appropriate output phase angle magnitude.

Therefore, since the charging power of the battery 400 is continuously supplied at the nighttime than the amount of power required by the load 1000, the performance of the load 1000 is lowered, but the load 1000 can be continuously operated have.

In addition, the charge / output control unit 800 sets a plurality of proper power amounts with different magnitudes, sets a plurality of proper output phase angle magnitudes to different magnitudes, and matches the proper output phase angle magnitudes with the appropriate power magnitudes And an appropriate power optimum phase angle matching unit 910.

The charge amount determination unit 880 is configured to determine whether the charge amount matches any one of the appropriate amounts of power.

The variable phase manipulation unit 910 manipulates the variable phase control driver 700 so that the output phase angle magnitude in the variable phase control driver 700 is adjusted to an appropriate output phase angle magnitude matched to an appropriate power amount.

For example, the proper output phase angle magnitude can be set to a size (width) of 80%, 70%, 60%, 50%, 40%, 30%, 20%, etc. in a state where the entire width is 100%. These appropriate output phase angle magnitudes, which are set to different magnitudes, match one-to-one with the appropriate power quantities.

Therefore, when the width of the phase control for the power source output to the load 1000 at an appropriate output phase angle magnitude matched to the appropriate amount of power determined to match the charge amount in the charge amount determination unit 880 is smaller than the width of the variable phase control driver 700 ). ≪ / RTI >

The charge / output control unit 800 controls the DC / generator operation unit 830 to operate the DC / generator 200 when the charge amount determination unit 880 determines that the amount of charge does not match an appropriate amount of power can do.

6, the operation process of the present invention will be described.

First, the power generation level for the power generated by the power generation level determination unit 810 in the state where power is generated in the solar cell module 100 is confirmed. When the identified power generation level exceeds the reference power generation level, the controller 300 is switched to power the power generated by the solar cell module 100 to be charged into the battery 400 or supplied to the load 1000. [

At this time, if the power generation level does not exceed the reference power generation level, the controller 300 is switched to power the power generated by the DC / generator 200 to charge the battery 400 or supply the power to the load 1000.

The first switch 510 is activated when the HI signal is a PWM signal by the PWM demodulation charge drive 500 so that the power generated from the solar cell module 100 or the DC / . When the PWM signal is a LOW signal, the second switch 520 is operated to charge the other battery 400 with the power generated by the solar cell module 100 or the DC / generator 200.

Thus, the generated power can be charged without being discarded when it is a LOW signal in the PWM signal.

Also, when the power source to be generated or the charging power source of the battery 400 is supplied to the load 1000, the output phase angle magnitude of the power source can be adjusted in the variable phase control driver 700.

Therefore, as the output phase angle magnitude of the power supplied to the load 1000 is adjusted while the power supplied to the load 1000 is not sufficient during the night, the power can be continuously supplied to the load 1000 during the night have.

Thereby, the performance of the load 1000 can be fully operated during the night without being completely shut down even if the performance is not perfect.

As described above, the present invention is a very useful invention that can be widely applied to a photovoltaic power generation system because power can be generated stably for 24 hours even when natural light is uneven and power can not be generated using solar light can do.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is to be understood, therefore, that the embodiments described above are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

100: solar cell module 200: DC / generator
300: Controller 400: Battery
500: variable PWM demodulation charge drive 510: first switch
520: second switch 530: PWM variable control unit
600: DC / AC inverter 700: Variable phase control driver
800: charge / output control unit 810: power generation level confirmation unit
820: Reference power generation level setting unit 830: DC /
840: Controller operation unit 850:
860: Proper Power Clearing Government 870: Proper Output Phase Phase Governor
880 charge amount determination unit 890 DC /
900: variable phase manipulation unit 910: suitable power phase matching unit
1000: Load

Claims (5)

delete A solar cell module 100 for converting solar energy into electric energy and outputting DC power,
A DC / generator 200 for generating DC power using diesel fuel,
A controller 300 for selectively connecting the solar cell module 100 and the DC / generator 200 to the storage battery 400,
A plurality of batteries 400 charged with power generated from the solar cell module 100 or the DC / generator 200,
A variable PWM demodulation charging drive 500 for allowing the power generated from the solar cell module 100 or the DC / generator 200 to be dispersed and charged in the storage batteries 400,
A DC / AC inverter 600 for converting the DC power output by the battery 400 into an AC power source,
A variable phase control driver 700 for adjusting the magnitude of an appropriate output phase angle of the power source converted by the DC / AC inverter 600,
The controller 300 is operated while controlling the DC / generator 200 according to the power generation status of the solar cell module 100, the power generation status of the solar cell module 100 is checked, the usage amount of the load 1000 is checked, And a charge / output control unit (800) for controlling the phase control driver (700)
The variable PWM demodulation charge drive 500
A first switch 510 operated on the HI signal in the PWM signal to apply the power generated from the solar cell module 100 or the DC / generator 200 to one battery 400,
A second switch 520 which is operated from the PWM signal to the LOW signal so as to apply the power generated from the solar cell module 100 or the DC / generator 200 to the other battery 400,
And a PWM variable control unit (530) for varying the pulse width of the HI signal and the pulse width of the LOW signal in the PWM signal while generating the PWM signal.
A solar cell module 100 for converting solar energy into electric energy and outputting DC power,
A DC / generator 200 for generating DC power using diesel fuel,
A controller 300 for selectively connecting the solar cell module 100 and the DC / generator 200 to the storage battery 400,
A plurality of batteries 400 charged with power generated from the solar cell module 100 or the DC / generator 200,
A variable PWM demodulation charging drive 500 for allowing the power generated from the solar cell module 100 or the DC / generator 200 to be dispersed and charged in the storage batteries 400,
A DC / AC inverter 600 for converting the DC power output by the battery 400 into an AC power source,
A variable phase control driver 700 for adjusting the magnitude of an appropriate output phase angle of the power source converted by the DC / AC inverter 600,
The controller 300 is operated while controlling the DC / generator 200 according to the power generation state of the solar cell module 100, the power generation status of the solar cell module 100 is checked, the amount of the load 1000 is checked, And a charge / output control unit (800) for controlling the phase control driver (700)
The charge / discharge control unit 800
A power generation level checking unit 810 for checking the power generation level of the power generated by the solar cell module 100,
A reference power generation level setting unit 820 for setting a reference power generation level to be compared with a power generation level of the solar cell module 100,
A DC / generator operating portion 830 for operating the DC / generator 200 if the power generation level of the solar cell module 100 is compared with the reference power generation level and the power generation level does not exceed the reference power generation level,
And a controller operation unit 840 that operates the controller 300 so that the power generated by the DC / generator 200 is supplied to the battery 400 or the load 1000 when the DC / generator operation unit 830 is operated A solar power generation system characterized by.
The charge / discharge control unit (800) of claim 3, wherein the charge /
A charge amount confirmation unit 850 for confirming the charge amount of the battery 400,
An appropriate power inserting section 860 for setting an appropriate amount of power to be supplied to the load 1000,
An appropriate output phase difference setting unit 870 for setting an appropriate output phase angle magnitude of the output power corresponding to an appropriate power amount,
A charge amount determination unit 880 that compares the amount of charge determined by the charge amount confirmation unit 850 with an appropriate amount of power to determine whether the amount of charge matches an appropriate amount of power,
Generator control unit 890 that operates the DC / generator operation unit 830 so that the DC / generator 200 is not operated if the charge amount determination unit 880 determines that the amount of charge matches the appropriate amount of power ,
The variable phase control driver 700 controls the variable phase control driver 700 such that the output phase angle magnitude is varied to a predetermined optimum output phase magnitude, And a variable phase manipulation unit (900) for manipulating the variable phase manipulation unit (900).
The charge / output control unit 800 may further include a plurality of charge / discharge control units 800, each of which has a plurality of charge / discharge control units 800, And an appropriate power phase matching unit 910 for matching magnitudes,
The charge amount determination unit 880 is configured to determine whether the charge amount matches any one of the appropriate amounts of power,
The variable phase control unit 910 operates the variable phase control driver 700 so that the output phase angle magnitude in the variable phase control driver 700 is adjusted to an appropriate output phase angle magnitude matched to an appropriate power amount. Power generation system.

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