KR100905130B1 - Solar Array Simulator for Small Satellite and method thereof - Google Patents

Abstract

The present invention relates to an apparatus and method for simulating a solar panel output power for a small satellite, and a simulation result for a power supply unit and a solar panel for supplying power to a system of a small satellite according to the present invention. The simulation condition data for the solar panel is read from the storage unit and the storage unit where the data is stored to generate current-voltage simulation data of the solar panel output power, and control voltage is transferred to the power supply unit according to the generated current-voltage simulation data. It characterized in that it comprises a power control unit for controlling to output.

Small satellites, solar panels, output power, simulation, simulation

Description

Solar panel output power simulation device and method for small satellites {Solar Array Simulator for Small Satellite and method}

1 is an illustration of the current (I)-voltage (V) characteristic curve of the output power of a typical solar panel;

2 is a block diagram of a small satellite solar panel output power simulation apparatus according to an embodiment of the present invention,

3 is a block diagram of a power supply unit of a small satellite solar panel output power simulation apparatus according to the present invention,

4 is a circuit diagram of a current adjustment unit of a small satellite solar panel output power simulation apparatus according to the present invention,

5 is an exemplary screen display of a small satellite solar panel output power simulation apparatus according to the present invention,

6 is a flowchart illustrating a method for simulating a solar panel output power of a solar panel output power simulating device for a small satellite according to the present invention.

The present invention relates to a device for simulating the output power of a small satellite solar panel to verify the system power performance of a small satellite and a solar panel output power simulation method performed in a small satellite solar panel output power simulation apparatus. will be.

The solar panel output power generator typically uses the current (I) -voltage (V) data of the power output from the small satellite solar panel to verify the performance of the power meter among the subsystems and system-level equipment test items of the small satellite. It is the equipment to simulate.

Currently, solar panel output power simplicity is commercially available from several measurement equipment companies, but most of the solar panel output power simulation device for medium and large satellites. In addition, conventional solar panel output power simulation devices have various functions and high output precision as they are commercial equipment, but they are not only high power of 400W or more, but also expensive equipment ranging from tens of millions to hundreds of millions of won. Accordingly, in order to develop a low-cost small satellite, the purchase and use of a solar panel output power simulation apparatus is a big burden.

In order to solve this problem, the inventors of the present application have a need to develop a solar panel output power simulation apparatus that can be used at the laboratory level even though it does not have the same function or precision as commercial equipment.

The present invention has been proposed in the background as described above, and an object of the present invention is to provide an apparatus for simulating the output power of a solar panel for a small satellite easy to design and manufacture.

Another object of the present invention relates to a solar panel output power simulation method implemented in a small satellite solar panel output power simulation apparatus.

In order to achieve the above object, a small satellite solar panel output power simulation device according to an aspect of the present invention includes a power supply unit for supplying power to a system of a small satellite, a storage unit for storing simulation condition data for a solar panel, and a storage unit And a power controller configured to read simulation condition data of the solar panel from the unit to generate current-voltage simulation data of the solar panel output power and to output a control voltage to the power supply according to the generated current-voltage simulation data. Characterized in that.

According to an aspect of the present invention, a small satellite solar panel output power simulating device according to an aspect of the present invention includes a power supply unit for supplying power to a system of a small satellite, a storage unit for storing simulation condition data for the solar panel, and the power supply unit. It is implemented by including a power control unit to control the output of the control voltage to the furnace, it can be sufficiently used at the laboratory or laboratory level.

The small satellite solar panel output power simulating value according to an additional aspect of the present invention includes a load current (I) and a load voltage (V) to which a power control unit is fed back from a power supply and the solar panel output. Comparing the current-voltage simulation data of the power, if the difference is larger than the threshold value, it is characterized by calculating a new control voltage and outputting it to the power supply.

According to one aspect of the present invention, a small satellite solar panel output power simplicity according to an aspect of the present invention feeds back a load current (I) and a load voltage (V), thereby providing a current of the solar panel output power. It can be controlled to satisfy the voltage simulation data.

According to another aspect of the present invention, a solar panel output power simulation method performed in a small satellite solar panel output power simulation apparatus includes the steps of: reading simulation condition data for a solar panel from the storage unit; Generating current-voltage simulation data of the solar panel output power by using and outputting a control voltage to the power supply according to the current-voltage simulation data.

The foregoing and further aspects of the present invention will become apparent from the following examples. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce the present invention.

1 is an exemplary view of a current (I)-voltage (V) characteristic curve of the output power of a typical solar panel.

As shown in the drawing, a general solar panel is not a constant voltage or a constant current source, but a power source that exhibits nonlinear current characteristics according to the voltage of the power. Also, the current (I) -voltage (V) characteristic curves (①, ②, ③) of the output power of the solar panel depend on the temperature of the solar panel and the incident angle of sunlight.

In order to correctly simulate the current (I) -voltage (V) characteristic curve of the solar panel of FIG. 1, the small satellite solar panel output power simulation apparatus of the present invention is applied to the current (I) -voltage (V) characteristic curve of the solar panel. Use mathematical models for In addition, by using a mathematical model to measure the power of the load is implemented to control the output power to meet the required conditions.

2 is a block diagram of a small satellite solar panel output power simulation apparatus according to an embodiment of the present invention, Figure 3 is a block diagram of the power supply of the small satellite solar panel output power simulation apparatus according to the present invention.

As shown in FIG. 2, the small satellite solar panel output power simulation apparatus 200 of the present invention includes a storage unit 250, a power supply unit 260, and a control unit 270. Can be.

The storage unit 250 stores an executable program and related data. Preferably, the storage unit 250 includes a static random access memory (SRAM) having a capacity of several megabits and a flash memory having a capacity of several tens of megabits. It can be implemented in one chip. Preferably, the storage unit 250 may store the simulation condition data for the solar panel. Here, the simulation condition data for the solar panel includes the power characteristics of the solar panel, the temperature, the incident angle of the sunlight. The power characteristics of solar panels also include short circuit current, open voltage, current at maximum power point, and voltage.

The power supply unit 260 supplies the power according to the current-voltage simulation data of the solar panel to the system of the small satellite, that is, the load 100. Hereinafter, the configuration and operation of the power supply unit 260 will be described with reference to FIG. 3.

Referring to FIG. 3, the power supply unit 260 may convert a voltage input from a power supply voltage supply unit 261 and a power supply voltage supply unit 261 to supply power to a system of a small satellite as a control voltage input from the power control unit 271. It may be implemented to include a voltage converter 262 and a current adjuster 263 to convert.

The power supply voltage supply 261 may be implemented with a conventional DC power supply for outputting a power supply voltage of, for example, 20V-30V. The voltage converter 262 boosts and outputs a voltage input from the power supply voltage supply unit 261, and feeds back the output voltage to output a fixed voltage, for example, 55 V, to output a first DC-. And a second DC-DC converter for _stepping down and outputting the voltage input from the DC converter and the first DC-DC converter to the control voltage V _con1 input from the power control unit 271. The current adjuster 263 outputs a current to the load 100 according to the control voltage V _con2 input from the power controller 271.

Referring again to FIG. 2, the controller 270 may be implemented as a microprocessor in which a ROM, a RAM, and a peripheral device are integrated therein. As shown, the control unit 270 reads simulation condition data for the solar panel from the storage unit 250 to generate current-voltage simulation data of the solar panel output power, and generates electric power according to the generated current-voltage simulation data. It is implemented by including a power control unit 271 for outputting a control voltage to the supply unit 260.

In one embodiment, the power control unit 271 needs a mathematical model to generate current-voltage simulation data of the solar panel output power from the simulation condition data for the solar panel. In this specification, the mathematical model cited one of the models proposed by the 'Solar Cell Array Design Handbook', and the following Equation 1 is used.

Where I is the generated current according to the load voltage, V is the load voltage, I _sc is the short circuit current, V _oc is the open voltage, and I _mp and V _mp are the current and voltage at the maximum power point, respectively.

However, the short-circuit current (I _sc ), the open voltage (V _oc ), the current at the maximum power point (I _mp ) and the voltage at the maximum power point (V _mp ) are, for example, when the satellite is in orbit. It will change from time to time, depending on your position or position on the track. Therefore, the output power replica of the small satellite panel of the present invention should be simulated in consideration of such effects. In order to include the effects of solar panel temperature and solar incident angle in the mathematical model according to Equation 1, each variable short-circuit current (I _sc ), open voltage (V _oc ), current at maximum power point (I _mp ), The value of the voltage V _mp at the maximum power point must be changed. The change in temperature at each point is linear and most solar panel datasheets specify temperature coefficients. For the open-circuit voltage (V _oc) and short circuit current (I _sc) it was Although not express the correct data, the open-circuit voltage (V _oc) of the sunlight incident angle of the logarithm of the sun incident intensity, short-circuit current (I _sc) It is known to be directly proportional to the angle of incidence of the sun. Extending this fact to the current at the maximum power point (I _mp ) and the voltage at the maximum power point (V _mp ), we can finally obtain Equation 2 for the following solar panel characteristic points.

Where subscript 0 denotes a reference condition (28 ° C., 1353 W / m ² ), where α is a temperature coefficient for voltage, β is a temperature coefficient for current, T is the temperature of the solar panel, and G is the solar incident intensity. The power controller 271 performs a correction on a characteristic point of the solar panel using the temperature and the solar incident angle information of the solar panel and applies the correction data to the current (I) -voltage (V) curve model to apply the current load to the current load situation. The output power of the required solar panel is simulated.

According to an additional characteristic aspect of the present invention, the power control unit 271 includes a load current I and a load voltage V and a current of the solar panel output power that are fed back from the power supply unit 260. The voltage simulation data may be compared to calculate a new control voltage and output to the power controller 271 when the difference is greater than the threshold value. Referring to FIG. 3, the power controller 271 receives a high side voltage V _L + and a low side voltage V _L − of a load 100 to receive a load voltage. The V _L may be measured, and the load current I _L may be measured by receiving a voltage V _I corresponding to the load current I _L from the current regulator 263. In addition, the power control unit 271 outputs the control voltage V _CON1 and the control voltage V _CON2 to the power supply unit 260.

According to a further characteristic aspect of the present invention, the small satellite solar panel output power simulation apparatus 200 according to the present invention operates an operation unit 210 for receiving data and an operation command from a user, and operation of the small satellite solar panel output power simulation apparatus. The display unit 220 displaying a state and the operation unit 210 may further include a data processing unit 272 which receives simulation condition data for the solar panel from the storage unit 250. This allows the user to directly modify the simulation condition data and to easily add the desired functions.

In addition, as shown in FIG. 2, the small satellite solar panel output power simulation apparatus 200 of the present invention includes a communication unit 230, an optical disk, and a removable external memory card that support data communication with other external devices through the Internet. It may be implemented including an external medium interface unit 240 for exchanging data with an external storage medium such as.

In one embodiment, the small satellite solar panel output power simulation apparatus 200 of the present invention typically includes a personal PC including a well-known personal PC, a power supply device, a microcontroller, an analog digital converter, and a digital analog converter. And a control circuit device that is responsible for the interface between the power supply.

Here, the analog-to-digital converter may be implemented as a four-channel MCP3204 analog digital converter using the SPI communication method, the digital-to-analog converter may be implemented as a two-channel MCP4922 using SPI communication. Both devices have simple peripheral circuitry for operation and are inexpensive and easy to obtain through purchase or sample application. The microcontroller is preferably implemented to support RS-232 serial communication and to control A / D and D / A converters with SPI communication.

4 is a circuit diagram of a current adjustment unit of a small satellite solar panel output power simulation apparatus according to the present invention.

As shown, the current regulator is designed in the simplest form consisting of an operational amplifier 410, a MOS field effect transistor (MOSFET) 420, a resistor (R _S ) 430. The load current I _L flowing through the MOS FET 420 passes through the resistor R _s 430 and generates a potential difference of V _IL . At this time, V _IL through the operational amplifier 410 should be equal to the control voltage V _CON2 . The current adjusting unit transmits the load current I _L to the power control unit 271 of FIG. 2 to receive the control voltage V _CON2 from the power control unit 271 of FIG. 2.

5 is an exemplary view showing a screen of the small satellite solar panel output power simulation apparatus according to the present invention.

As shown, the small satellite solar panel output power simulation device inputs the power characteristic input window 510, the temperature coefficient input window 520, the temperature of the solar panel and the storage address of the solar incident angle data file of the solar panel. The input window 530 and the current status notification window 540 may be displayed on the screen.

6 is a flowchart illustrating a method for simulating a solar panel output power of a solar panel output power simulating device for a small satellite according to the present invention.

In this embodiment, the solar panel output power simulating device includes a power supply unit for supplying power to a system of a small satellite, a storage unit for storing simulation condition data for the solar panel, and a power control unit for controlling the control voltage to be output to the power supply unit. It is assumed to be implemented.

Hereinafter, referring to FIG. 6, in one embodiment, in the solar panel output power simulation method of the small satellite solar panel output power simulation apparatus according to the present invention, the power control unit stores simulation condition data for the solar panel. Generating a current-voltage simulation data of the solar panel output power using the step S601 read from the unit and the simulation condition data read (S602), and a control voltage according to the current-voltage simulation data. Output to the power supply unit (S603) can be implemented.

In step (S601) in which the power control unit reads simulation condition data for the solar panel from the storage unit, the simulation condition data for the solar panel includes power characteristics of the solar panel, temperature, angle of incidence of sunlight, and the like. Power characteristics include short circuit current, open voltage, current at maximum power point, and voltage.

On the other hand, the step of the power control unit to generate the current-voltage simulation data of the solar panel output power using the simulation condition data (S602) by performing the calculation according to the above equation (1) the current-voltage simulation data of the solar panel output power It may be implemented to generate a, and may be implemented to generate the current-voltage simulation data of the solar panel output power by performing the calculation according to the above equation (2).

In a further embodiment of the present invention, the solar panel output power simulation method of the small satellite solar panel output power simulation apparatus according to the present invention, the load current (I) that the power control unit is fed back from the power supply (I) ) And the load voltage (V) is input (S604) and the received load current (I) and load voltage (V) and the current-voltage simulation data of the solar panel output power are compared (S605). The method may further include a step (S606) of checking whether it is greater than the threshold value and a step (S607) of calculating and outputting a new control voltage to the power supply unit when the difference is greater than the threshold value.

Accordingly, the small satellite solar panel output power simulator can be controlled to satisfy the current-voltage simulation data of the solar panel output power by feeding back the load current (I) and the load voltage (V). have.

In the solar panel output power simulation method of the small satellite solar panel output power simulation apparatus according to the present invention, if the difference value is smaller than the threshold value as a result of the check in step S606 (S608) If the system shutdown signal is not input, the method may include checking whether the reset flag is 1 (S609). Here, the power control unit processes the reset flag as 1 when, for example, the solar panel output power simulation test for the current simulation condition data ends and the solar panel output power simulation test for the other simulation condition data is executed. If the reset flag is not 1, the power controller repeatedly performs step S603 of outputting the control voltage to the power supply unit according to the current-voltage simulation data, and if the reset flag is 1, repeats all steps. On the other hand, the power control unit terminates the system if a system shutdown signal is input.

As described above, a small satellite solar panel output power simplicity according to the present invention is implemented to be cheap and easy to manufacture has a useful effect that can be used sufficiently at the laboratory or laboratory level.

In addition, the small satellite solar panel output power simulation apparatus according to the present invention feed-back the load current (I) and the load voltage (V) to satisfy the current-voltage simulation data of the solar panel output power. There is a useful effect to control.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many various obvious modifications are possible without departing from the scope of the invention from this description. Therefore, it should be interpreted by the claims described to include many such variations.

Claims (15)

In the apparatus for simulating the output power of a small satellite solar panel to verify the system power performance of the small satellite, the small satellite solar panel output power simulation apparatus is: A power supply unit supplying a voltage to the system of the small satellite; A storage unit for storing simulation condition data for the solar panel; And A power controller which reads simulation condition data of the solar panel from the storage unit, generates current-voltage simulation data of solar panel output power, and outputs a control voltage to the power supply unit according to the generated current-voltage simulation data; Small satellite panel power output simulation device, characterized in that it comprises a. The method of claim 1, wherein the power control unit: The load current I and the load voltage V fed back from the power supply are compared with the current-voltage simulation data of the solar panel output power and a new control voltage when the difference is greater than a threshold value. Small satellite satellite panel output power simulation apparatus, characterized in that for outputting to the power supply. According to claim 1, wherein the small satellite solar panel output power simulation device is: An operation unit which receives data and operation commands from a user; A display unit displaying an operation state of the small satellite solar panel output power simulation apparatus; A data processor which receives simulation condition data of the solar panel from the manipulation unit and stores the simulation condition data in the storage unit; Small satellite satellite panel output power simulation device further comprising a. The method of claim 1, wherein the power supply unit: A power supply voltage supply unit for generating a voltage and supplying the voltage to the voltage conversion unit; A voltage converter converting the voltage input from the power supply voltage supply unit into a control voltage input from the power control unit and supplying the voltage to the system of the small satellite; And A current adjuster configured to output a load current according to a control voltage input from the power controller; Small satellite panel power output simulation device, characterized in that it comprises a. The method of claim 4, wherein the voltage conversion unit: A first DC-DC converter for boosting and outputting a voltage input from the power supply voltage supply unit, and feeding back an output voltage to output a fixed voltage; And A second DC-DC converter for stepping down and outputting a voltage input from the first DC-DC converter to a control voltage input from the power controller; Small satellite panel power output simulation device, characterized in that it comprises a. The apparatus of claim 1, wherein the simulation condition data for the solar panel includes power characteristics of the solar panel, a temperature, and an incident angle of sunlight. The method of claim 6, Power characteristics of the solar panel, A small satellite solar panel output power simulation apparatus comprising a short circuit current, an open circuit voltage, a current at a maximum power point, and a voltage. The small satellite according to claim 7, wherein the power control unit generates current-voltage simulation data of the solar panel output power by performing calculation according to Equation 1 from simulation condition data of the solar panel. Solar panel output power simulation device. (Equation 1)

here, I: generated current according to load voltage, V: load voltage, I _sc : short circuit current, V _oc : open voltage, I _mp , V _mp : current, voltage at maximum power point. The power control unit of claim 7, wherein the power controller generates current-voltage simulation data of solar panel output power by performing calculation according to Equation 2 from simulation condition data of the solar panel. Solar panel output power simulation device for satellites. (Equation 2)

Here, the subscript 0 means the reference condition (28 ℃, 1353 W / m ² ), α: temperature coefficient for voltage, β: temperature coefficient for current, T is the temperature of the solar panel, G: sunlight incident intensity. In the solar panel output power simulation method performed in a small satellite solar panel output power simulation apparatus, The solar panel output power simulation apparatus includes a power supply unit for supplying power to a system of a small satellite, a storage unit for storing simulation condition data for the solar panel, a power control unit for controlling to output a control voltage to the power supply unit, The solar panel output power simulation method executed in the solar panel output power simulation apparatus is: Reading, by the power control unit, simulation condition data for the solar panel from the storage unit; Generating, by the power control unit, current-voltage simulation data of solar panel output power using the read simulation condition data; And Outputting, by the power controller, a control voltage to the power supply according to the current-voltage simulation data; A solar panel output power simulation method performed in a small satellite solar panel output power simulation apparatus comprising a. The method of claim 10, wherein the solar panel output power simulation method comprises: Receiving, by the power control unit, a load current (I) and a load voltage (V) fed back from the power supply unit; Comparing, by the power control unit, the received load current I and the load voltage V with current-voltage simulation data of the solar panel output power to determine whether the difference is greater than a threshold value; And Calculating, by the power controller, a new control voltage and outputting the new control voltage to the power supply unit when the difference is greater than a threshold value; A solar panel output power simulation method that is executed in a small satellite solar panel output power simulation apparatus further comprising. The method of claim 10, wherein the power control unit in the step of reading the simulation condition data for the solar panel from the storage unit, Simulation method data for the solar panel is a solar panel output power simulation method executed in a small satellite solar panel output power simulation device, characterized in that the power characteristics of the solar panel, the temperature, the incident angle of sunlight. The method of claim 12, Power characteristics of the solar panel, A solar panel output power simulation method implemented in a small satellite solar panel output power simulation apparatus comprising short circuit current, open voltage, current at maximum power point and voltage. The method of claim 13, wherein the power control unit generates current-voltage simulation data of solar panel output power using simulation condition data. In the solar cell output power simulation apparatus for a small satellite, characterized in that the step of generating a current-voltage simulation data of the solar panel output power by performing the calculation according to the following equation (1) from the simulation condition data for the solar panel Solar panel output power simulation method performed. (Equation 1)

here, I: generated current according to load voltage, V: load voltage, I _sc : short circuit current, V _oc : open voltage, I _mp , V _mp : current, voltage at maximum power point. The method of claim 13, wherein the power control unit generates current-voltage simulation data of solar panel output power using simulation condition data. In the solar cell output power simulation apparatus for a small satellite, characterized in that the step of generating the current-voltage simulation data of the solar panel output power by performing the calculation according to Equation (2) from the simulation condition data for the solar panel Solar panel output power simulation method performed. (Equation 2)

Here, the subscript 0 means the reference condition (28 ℃, 1353 W / m ² ), α: temperature coefficient for voltage, β: temperature coefficient for current, T is the temperature of the solar panel, G: sunlight incident intensity.

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