KR101585461B1 - Power source supply control apparatus for supplying power source of solar light power generation and commercial power source - Google Patents

Abstract

A power supply control device for supplying a photovoltaic power supply and a commercial power supply is provided.

A power supply controller for supplying a photovoltaic power supply and a commercial power supply includes a comparator for determining whether a voltage output from the solar cell is equal to or higher than a preset voltage, A charging unit that receives a voltage from the solar cell and adjusts a charging voltage of the battery supplied to the load; And a commercial power supply unit for supplying commercial power to the load when the voltage output from the solar cell is less than a predetermined voltage, wherein the comparing unit, the charging unit, and the commercial power supply unit are Xscale-based control means, And a terminal for transmitting and receiving bus information data and a GPS terminal provided in a plurality of buses.

PV Power, Commercial Power, Battery, Charge Voltage, Power Supply

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a power supply control apparatus for supplying a solar power source and a commercial power source,

The present invention relates to a power supply controller for supplying a photovoltaic power supply and a commercial power supply, and more particularly, to a power supply controller capable of supplying a photovoltaic power supply and a commercial power supply while reducing power consumption.

Let's look at a device that supplies power to a load (bus control system) using solar power and commercial power.

1 is a block diagram showing a conventional power supply controller for supplying a photovoltaic power supply and a commercial power supply. 1, a power supply controller for supplying a photovoltaic power supply and a commercial power supply includes a charge controller 20, a battery 30, an AC / DC converter 50, and a DC selector 60, And supplies power to a PC-based bus information system (BIS, 70) using a photovoltaic power supply or a commercial power supply.

The solar battery 10, the charge controller 20, the battery 30, and the DC selector 60 operate to supply power to the bus control system 70. In this case, When the commercial power source is used, the AC / DC converter 50 and the DC selector 60 operate to supply power to the bus control system 70.

That is, in the daytime, solar power generation of the solar cell 10 can be used. In this case, the generated power is charged into the battery 30 by the charge controller 20, (60) and supplies it to the bus control system (70). When it is not possible to supply power to the bus control system 70 from the power source charged in the battery 30, a commercial power source such as AC 220V is converted from the AC / DC converter 50 to the DC power source, And supplies the DC power to the bus control system 70.

The power supply control device as described above is configured such that the charging controller 20, the AC / DC converter 50, and the DC selector 60 are configured in a PC-based environment, So that a large amount of power is consumed.

An aspect of the present invention is to provide a power supply control device capable of reducing consumption of power supplied from a solar battery or a commercial power supply.

According to an aspect of the present invention, there is provided a solar cell comprising: a comparator for determining whether a voltage output from a solar cell is equal to or higher than a preset voltage; A charging unit for adjusting a charging voltage of a battery supplied to a load; And a commercial power supply unit for supplying commercial power to the load when the voltage output from the solar cell is less than a predetermined voltage, wherein the comparing unit, the charging unit, and the commercial power supply unit are Xscale-based control means, And a terminal for transmitting and receiving bus information data and a GPS terminal provided on a plurality of buses.

In an embodiment of the present invention, the comparison unit, the charging unit, and the commercial power supply unit are integrated into one board or integrated into one chip, and the power supply control unit Lt; / RTI >

In another embodiment of the present invention, the load includes an Xscale-based terminal, and a power supply controller for supplying a photovoltaic power source and a commercial power source.

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According to the present invention, by providing a power supply control device capable of reducing the consumption of power supplied from a solar battery or a commercial power supply, it is possible to supply power stably while consuming a small amount of power even in a load requiring a large amount of power have.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention may be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. The shape and the size of the elements in the drawings may be exaggerated for clarity and the same elements are denoted by the same reference numerals in the drawings.

2 is a block diagram showing a power supply control apparatus for supplying a solar power generation power and a commercial power according to the present invention. 2, the power supply controller for supplying the photovoltaic power supply and the commercial power supply includes a control unit 300 and a battery 400 and is connected to the bus control system 500 ).

When the solar power generation power source is used, the solar cell 100, the control unit 300, and the battery 400 operate to supply power to the bus control system 500. When the commercial power supply is used, the controller 300 operates to supply power to the bus control system 500.

That is, in the daytime, solar power generation of the solar cell 100 can be used. In this case, the power generated by the solar cell 100 is charged by the control unit 300 to the battery 400, And supplies it to the system 500. If it is not possible to supply power to the bus control system 500 from a power source charged in the battery 400 as in the night, the control unit 300 converts the commercial power such as AC 220V to DC power, .

The control unit 300 includes a comparing unit 310, a charging unit 320, and a commercial power supply unit 330, each of which will be described below.

The comparator 310 determines whether the voltage output from the solar cell 100 is equal to or higher than a predetermined voltage. When the solar cell of the solar cell 100 can be used as in the daytime, the voltage output from the solar cell 100 is high and the voltage charged in the battery 400 is increased. At this time, the voltage output from the solar cell 100 It is possible to supply a voltage that allows the bus control system 500 to operate.

The charging unit 320 receives the voltage from the solar cell 100 and supplies the charging voltage of the battery 400 supplied to the bus control system 500 to the battery 400, (400).

The commercial power supply unit 330 supplies the commercial power supply 200 to the bus control system 500 when the voltage output from the solar cell 100 is lower than a predetermined voltage. When solar power generation of the solar cell 100 can not be used as in the nighttime, there is no voltage output from the solar cell 100, so that the voltage of the battery 400 is insufficient to supply power to the load 500 At this time, the commercial power supply unit 330 receives the power supply command from the comparison unit 310 and supplies the commercial power supply 200 with a voltage that can operate the bus control system 500.

The comparison unit 310, the charging unit 320, and the commercial power supply unit 330 are Xscale-based control units that are integrated into one board or integrated into one chip, It is possible to provide stable power supply irrespective of whether or not power can be supplied to the power source 500. In this case, an XScale-based CPU is used as a CPU used in the process of being integrated into one board or integrated into one chip. XScale is a kind of CPU, and because it consumes low power, it is generally used for PDA, BLACKBERRY terminal, mobile phone and portable device.

In connection with the Xscale-based CPU, since the Xscale-based CPU consumes much less power than the conventional PC-based CPU, even if the same power is supplied, the comparator 310, If the charging unit 320 and the commercial power supply unit 330 are configured as an Xscale-based CPU, power consumption can be significantly reduced.

In addition, if the comparator 310, the charger 320, and the commercial power supply 330 are integrated on one board or integrated into one chip, the power consumption can be significantly reduced .

In addition, if the comparator 310, the charging unit 320, and the commercial power supply unit 330 are configured as an Xscale-based CPU and integrated into one board or integrated into one chip, Can be significantly reduced.

Meanwhile, in the present invention, the bus control system 500 used as a load informs the operating system of the bus and informs the citizens of the operation status of the bus, route information, transfer information, dispatch interval, vehicle location, Thereby improving the user's convenience and improving the efficiency of the business by providing the transportation company with information such as the vehicle management, the operation history, and the payment status of the card terminal.

3 and 4, a bus information data transmission method in the bus control system 500 can be examined. The bus control system 500 using dedicated local communication and the bus control system 500 using a provider network according to the means for transmitting bus information data.

3 is a schematic diagram illustrating a bus control system using dedicated local area communication according to the present invention. 3, a bus control system using DSRC (Dedicated Short Range Communication) is a system in which vehicle terminals are mounted on respective buses 601, 602 and 603, while roadside stations 604 605, and 606 are installed to wirelessly transmit bus information data between the vehicle terminal and the roadside bases 604, 605, and 606.

The communication coverage is usually 100 m or less and uses a point-to-point or point-to-multi-point communication method in a narrow radio cell area. When the buses 601, 602, When the roadside base stations 604, 605 and 606 enter the coverage of the roadside bases 604, 605 and 605 and the driving information transmitted from the vehicle terminal is received by the roadside bases 604, 605 and 606, It is possible to control the buses 601, 602 and 603 by grasping the position information of the buses 601, 602 and 603 through the terminal in the general command room 608 according to the positions of the base stations 604, 605 and 606, The vehicle terminal can receive the positional information from the roadside base stations 604, 605, and 606, and can announce the route in the bus.

The stop guide information terminal 607 receives and displays the position information of the buses 601, 602, and 603 from the terminal of the general command room 608 through a private network.

4 is a schematic diagram showing a bus control system using a provider network according to the present invention. 4, a bus control system using a carrier network (CDMA, wireless paging network, etc.) includes a GPS receiver (Global Positioning System) mounted on each bus 609 and 610, 609, and 610, as well as bus information related to other vehicle operations, to a terminal of the general command room 612 using a carrier communication network such as a conventional CDMA (Code Division Multiple Access).

By using GPS receiver, it is possible to collect more precise location information and provide improved service (route guidance, dispatch interval guide, etc.), and to transmit bus information data using a carrier network already operating such as CDMA So that it is not necessary to construct a separate base station and it is also possible to transmit operation information and location information of various buses to a terminal of the general command room 612 at the same time through a single channel.

The terminal 611 in the buses 609 and 610 displays the location information and the operating state of the bus and the bus company 613 receives the real time bus information and the operating history data from the terminal of the general command room 612 through the terminal .

In addition, the user receives real-time bus information, route information, and transfer information from the terminal of the general command room 612 through the wired Internet, the wireless Internet, and the ARS through the terminal.

The power supply control device for supplying the photovoltaic power supply and the commercial power supply according to the present invention includes an Xscale-based CPU, integrated into one board or integrated into one chip, It consumes a small amount of power itself, so a large amount of power can be supplied to the load.

The present invention is not limited to the above-described embodiments and the accompanying drawings. 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, .

1 is a block diagram showing a conventional power supply controller for supplying a photovoltaic power supply and a commercial power supply.

2 is a block diagram showing a power supply control apparatus for supplying a solar power generation power and a commercial power according to the present invention.

3 is a schematic diagram illustrating a bus control system using dedicated local area communication according to the present invention.

4 is a schematic diagram showing a bus control system using a provider network according to the present invention.

                 Description of the Related Art

100: Solar cell 200: Commercial power source

300: control unit 310: comparison unit

320: charger 330: commercial power supply

400: Battery 500: Bus control system

601, 602, 603, 609, 610: buses 604, 605, 606:

607: stop guide terminal 608, 612: general command room

611: Vehicle terminal 613: Bus company

614: Wired Internet 615: Wireless Internet

616: ARS

Claims (4)

A comparison unit for determining whether a voltage output from the solar cell is higher than a preset voltage; A charging unit that receives a voltage from the solar cell and adjusts a charging voltage of the battery supplied to the load when the voltage output from the solar cell is equal to or higher than a preset voltage; And A commercial power supply for supplying commercial power to the load when the voltage output from the solar cell is less than a preset voltage; Lt; / RTI > The comparing unit, the charging unit, and the commercial power supply unit are Xscale-based control means, Wherein the load includes a GPS terminal provided on a plurality of buses and a terminal for transmitting and receiving bus information data. The method according to claim 1, Wherein the comparing unit, the charging unit, and the commercial power supply unit are integrated into one board or integrated into one chip. The method according to claim 1, And the load includes an Xscale-based terminal. The power supply control apparatus for supplying the photovoltaic power supply and the commercial power supply. delete

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