KR100688165B1 - Power Supply System Enable of Over Current Control and the Controlling Method for the Same - Google Patents

Abstract

The present invention relates to a power supply system capable of overcurrent control according to temperature and an overcurrent control method thereof, including: an inverter module for supplying three-phase power to an electric device, an overcurrent detector for bypassing current output from the inverter module; And a microcomputer that controls the connection state of the resistor constituting the overcurrent detector according to temperature so that the value of the bypassed current is changed according to the temperature, so that the resistance value is changed according to temperature, and accordingly, the overcurrent detector The current value bypassed in VZ is also changed to prevent an error from occurring during overcurrent detection, and at the same time, accurate overcurrent control is possible for each ambient temperature.

Inverter module, overcurrent detector, microcomputer

Description

Power supply system capable of overcurrent control according to temperature and its overcurrent control method {Power Supply System Enable of Over Current Control and the Controlling Method for the Same}             

1 is a block diagram showing the internal configuration of a conventional power supply system,

Figure 2 is a block diagram showing the internal configuration of a power supply system capable of overcurrent control according to the temperature according to the present invention,

3 is a flowchart illustrating a flow of an overcurrent control method of a power supply system according to the present invention.

<Explanation of symbols on main parts of the drawings>

30: inverter module 40: overcurrent detection unit

41: switch 50: microcomputer

Rsc1, Rsc2: resistance

The present invention relates to a power supply system capable of controlling overcurrent according to temperature, and an overcurrent control method thereof. In particular, an overcurrent is bypassed in a power supply system that detects whether an overcurrent is output and determines whether the inverter module is on or off. The present invention relates to a power supply system and an overcurrent control method capable of controlling the overcurrent according to the temperature at which the overcurrent can be measured even if the resistance value of the resistor changes with temperature.

Referring to FIG. 1, a power supply system using a conventional inverter module is as follows. At this time, as shown, the inverter module 10 is a means for outputting a three-phase power having the u, v, w phases, the three-phase power output from the inverter module 10 is supplied to the three-phase motor.

The output terminal of each phase output from the inverter module 10 has a current limit value, the higher the inverter module 10 has a higher current limit value is a more expensive device. However, if the load of the motor increases or for other reasons the current value of the power output from the inverter module 10 is higher than the set current limit value, the output stage is broken.

Therefore, in the case of a power supply system using an existing inverter module, as shown in the figure, it is further configured to include an overcurrent detection unit 20 for bypassing the value of the power output to the output terminal of each phase is output. . That is, the power on the u, v, w output from the inverter module 10 is bypassed to the resistor Rsc of the overcurrent sensing unit 20, respectively, as shown in the overcurrent sensing stage 11 of the inverter module 20. Is entered.

The inverter module 10 checks whether the overcurrent is output according to the current inputted to the overcurrent detecting terminal 11 and operates a protection function when the overcurrent is output to block the operation of the inverter module.

However, in the conventional power supply system, the value of the resistance Rsc of the overcurrent sensing unit is changed according to the ambient temperature of the inverter module, and thus the value of the bypassed current is changed. Therefore, there is a problem in that the current limit value recognized by the inverter module 10 as an overcurrent must also be increased / decreased nonlinearly.

In addition, when the difference in the external temperature, such as the cooling and heating operation environment is severe, the current limit is changed, there is a problem that the protection function is operated even in the current value, not actually overcurrent.

The present invention has been made to solve the above-mentioned problems of the prior art, the object of which is to control the overcurrent according to the temperature that can maximize the operating range to operate within the allowable current value guaranteed by the inverter module regardless of the external temperature It is to provide a possible power supply system and an overcurrent control method thereof.

According to a feature of the power supply system capable of controlling the overcurrent according to the temperature according to the present invention for solving the above problems, the inverter module for supplying three-phase power to the electric device, and bypassing the current output from the inverter module By controlling the connection state of the over-current detection unit and the resistor constituting the over-current detection unit according to the temperature, it is characterized by consisting of a microcomputer to compensate for the change in the value of the bypassed current according to the temperature.

In addition, the over-current control method of the power supply system according to the temperature according to the present invention, the first step of changing the connection state of at least one or more resistors by which the power supplied from the inverter module to the electrical device is changed according to the temperature, and A second step in which the bypassed current value of the power supplied from the inverter module according to the changed connection state in the first step is compensated according to the temperature, and whether the overcurrent is output from the inverter module according to the current value compensated in the second step It is characterized by consisting of a third step.

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

Figure 2 is a diagram showing a power supply system capable of overcurrent control according to the temperature according to the present invention. As shown in the drawing, the power supply system according to the present invention includes an inverter module 30 for supplying three-phase power to a three-phase motor and the like, and an overcurrent sensing unit for bypassing three-phase power supplied from the inverter module 30. 40, and the microcomputer 50 for controlling the overcurrent detection unit.

At this time, the inverter module 30 outputs the three-phase power of the u, v, w phase to the outside, and the overcurrent detector 40 outputs the output of the power of the u, v, w phase And at least one resistor (Rsc1, Rsc2) for bypassing the current of the output power connected to the. On the other hand, the output terminals o1, o2, o3 output between u, v, w are actually mounted inside the inverter module 30, but is shown outside the inverter module for convenience in FIG.

In addition, the connection state of the resistors Rsc1 and Rsc2 of the overcurrent detecting unit 40 changes according to temperature. When the external temperature of the inverter module 30 is high, the resistances are connected in parallel, and the external temperature of the inverter module 30 is increased. If is low, the parallel connection will be shorted. Accordingly, the overcurrent detecting unit 40 further includes a switch 41 for changing the connection state of the resistors Rsc1 and Rsc2 according to temperature.

The microcomputer 50 measures the external temperature of the inverter module 30 and controls the on / off of the switch 41 accordingly. That is, the microcomputer measures the external temperature of the inverter module 30 so that the resistance values made of the current sensing resistors Rsc1 and Rsc2 during cooling and heating operation are changed.

When the inverter module 30 is an air conditioner inverter module mounted inside the air conditioner, the resistance value is decreased during the cooling operation having a high outside temperature to increase the current value bypassed, and during the heating operation having a low outside temperature. Increasing the resistance value lowers the bypassed current value. Therefore, it is compensated that the value of the bypassed current also changes as the external temperature of the inverter module changes.

In other words, the resistance value changes nonlinearly with temperature. Therefore, the microcomputer 50 of the power supply system according to the present invention during the heating operation with low outside temperature increases the resistance value by shorting the connection of the resistors Rsc1 and Rsc2 so that the current value bypassed is reduced to reduce the resistance change. Compensate for changes in the current value accordingly.

On the other hand, the current bypassed by the overcurrent detector 40 is input to the overcurrent detector 31 of the inverter module 30, the inverter module 30 in accordance with the temperature in the overcurrent detector 40 The overcurrent output of the inverter module 30 is determined according to the compensated bypass current value, and the protection function is operated when the overcurrent is output to reduce the output or stop the operation.

Hereinafter, assuming that Rsc1 is 56 mA and Rsc2 is 80 mA, the resistance connection state and overall resistance value of the overcurrent sensing unit 40 during cooling and heating will be described.

First, when the air conditioner equipped with the inverter module 30 is cooled, the microcomputer 50 turns on the switch 41 of the overcurrent detecting unit 40 because the external temperature is higher than the set temperature.

In this case, Rsc1 and Rsc2 are connected in parallel, and the total value of Rtotal is shown in Equation 1 below.

Therefore, Rtotal has a resistance value of 33 mA and the current flowing in the overcurrent detector 40 increases.

Meanwhile, when the air conditioner equipped with the inverter module 30 is heated, the microcomputer 50 turns off the switch 41 of the overcurrent detecting unit 40 because the external temperature is lower than the set temperature.

In this case, Rsc1 and Rsc2 are short-circuited with each other, and the value of the premise Rtotal is shown in Equation 2 below.

Therefore, when Rtotal has a value equal to 56 mA of Rsc1, the current flowing in the overcurrent sensing unit decreases.

Hereinafter, an overcurrent control method of a power supply system according to the present invention will be described with reference to FIG. 3.

First, in the first step, the microcomputer measures the external temperature of the inverter module using a connected thermometer or the like (S1).

In the second step, the microcomputer checks whether the measured external temperature is equal to or higher than a set temperature (S2). At this time, if necessary, the overcurrent control method of the power supply system according to the present invention further includes a step of checking whether the air conditioner equipped with the inverter module is a cooling mode or a heating mode before comparing the external temperature with the set money. can do.

That is, if the air conditioner is in the cooling mode, the external temperature will be about 25 ° C. or more. In this case, the set temperature may be set to about 25 ° C. On the other hand, if the air conditioner is a heating mode, the external temperature will be approximately 10 ° C or less, wherein the set temperature will be approximately 10 ° C or less. Therefore, the set temperature in the second step may be set to different values after the step of checking whether the air conditioner is the cooling mode or the heating mode. In the present embodiment, the step of distinguishing the set temperature according to whether the cooling / heating mode is omitted, but for finer power control it may further include a cooling / heating mode determination step, and changing the set temperature value. At this time, the set language is increased when cooling, and the set temperature is lowered when heating.

If the external temperature is higher than the set temperature in the second step, in the third step, the microcomputer turns on the overcurrent detector so that the resistors Rsc1 and Rsc2 of the overcurrent detector are connected in parallel to each other (S3). However, if the external temperature in the second step is lower than the set temperature, in the fourth step, the microcomputer switches off the overcurrent detector so that the resistors Rsc1 and Rsc2 of the overcurrent detector are shorted to each other (S4).

On the other hand, the current output from the inverter module by the resistance connected in parallel or shorted through the third and fourth stages are bypassed in the fifth stage (S5), the bypassed current is the overcurrent of the inverter module in the sixth stage Re-input to the inverter module through the sensing stage (S6).

In the seventh step, the inverter module checks whether the input current is an overcurrent exceeding a preset current limit (S7), and if the overcurrent is activated, the protection function is operated in the eighth step to reduce the output of the inverter module or the inverter module. Is to be turned off (S8). However, if there is no overcurrent, the process returns to the first step and continuously checks whether the overcurrent is output.

On the other hand, the power supply system according to the present invention is also applicable to a cogeneration system, a cogeneration system is a system that generates power using a cogeneration generator and at the same time using the waste heat. The cogeneration system includes an engine, a cogeneration generator for generating electric power using the rotational force output from the engine, and a heat supply means for supplying waste heat of the engine to a heat demand such as a hot water supply or an air conditioner. The power generated by the cogeneration generator is used to operate various electric devices such as a lamp or an air conditioner. The heat supply means recovers the waste heat of the cooling water cooling the engine and the waste heat of the exhaust gas exhausted from the engine, and supplies the waste heat to the hot water supply or air conditioner.

At this time, when the inverter module according to the present invention operates as the cogeneration generator, the temperature-specific overcurrent control method of the present invention is equally applicable to the cogeneration system.

The power supply system and the overcurrent control method capable of controlling the overcurrent according to the temperature of the present invention configured as described above and the inverter module for supplying three-phase power to the electric device, and the overcurrent sensing to bypass the current output from the inverter module And a microcomputer that controls the connection state of the resistor constituting the overcurrent detector according to temperature to compensate for the change in the bypassed current value according to the temperature, so that the resistance value changes with temperature and accordingly the overcurrent The current value bypassed by the sensing unit is also changed to prevent an error from occurring during overcurrent detection, and at the same time, it is possible to accurately control overcurrent for each ambient temperature.

Claims (8)

An inverter module for supplying three-phase power to an electric device; An overcurrent detector for bypassing the current output from the inverter module; By controlling the connection state of the resistor constituting the overcurrent detection unit according to the temperature is configured to include a microcomputer to compensate for the change in the value of the bypassed current according to the temperature, The overcurrent detector is configured to input the bypassed current to the inverter module, The inverter module is a power supply system capable of controlling the over-current according to the temperature, characterized in that configured to determine whether the over-current according to the current bypassed by the over-current detecting unit. delete The method of claim 1, The overcurrent detector includes at least one resistor through which a current output from the inverter module passes; And a switch configured to allow the resistors to be connected to each other in parallel or shorted according to temperature. The method of claim 3, wherein The microcomputer turns on the switch when the external temperature of the inverter module is higher than the set value so that the one or more resistors are connected in parallel to each other. When the external temperature is lower than the set value, the microcomputer turns off the switch so that the resistance is shorted to each other. Power supply system capable of controlling the overcurrent according to the temperature, characterized in that for outputting. A first step of changing a connection state of at least one resistor in which power supplied from the inverter module to the electric device is bypassed according to temperature; A second step in which the bypassed current value of the power supplied from the inverter module is compensated according to the temperature according to the connection state changed in the first step; And a third step of checking whether an overcurrent is output from the inverter module according to the current value compensated in the second step. The first step includes the steps of measuring the temperature outside the inverter module; At least one resistor is connected in parallel when the external temperature measured in the measuring process is higher than the set temperature, and if the lower than the set temperature, the parallel connection of the resistance is short-circuited; Over current control method delete The method of claim 5, wherein The third step includes the step of inputting the current compensated in the second step into the inverter module; And a step of checking whether the inverter module outputs the overcurrent according to the input current. The method of claim 7, wherein The overcurrent control method of the power supply system according to the temperature is characterized in that it further comprises the step of shutting off the power supply to prevent damage to the inverter module when it is confirmed that the overcurrent is output in the third step. According to the overcurrent control method of the power supply system.

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