KR101172144B1 - A Electric Power Converting Device - Google Patents

Abstract

The present invention relates to a power conversion device, the configuration of which comprises a first terminal unit for receiving external power into the device, a conversion unit for converting the power of the first terminal unit, and the electrical communication with the conversion unit and the external electricity A second terminal portion in communication with the device, a third terminal portion in communication with the first terminal portion and in electrical communication with the electrical device, and a voltage in communication with the third terminal portion to detect a voltage through a signal flowing in and out of the electrical apparatus Detection unit; And, it may be configured to include a current detector for communicating with the second terminal portion and the third terminal portion for detecting the current through the signal flowing in and out of the electrical device.

Description

Electric power converting device {A Electric Power Converting Device}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power conversion device, and more particularly, to a power conversion device in which current and voltage are intermediated in a circuit in which terminals are discriminated from each other such as disconnection, short circuit, overcurrent, and leakage current.

In general, power conversion devices can be found in any device that requires electricity. The power conversion device is to transfer power from a power supply, generally through some conditioning and regulation circuitry.

A typical application of the power converter is to convert the power supplied by the power supply to power suitable for use in consumer electrical equipment.

The power conversion circuit may be implemented in a distributed system and applied to various applications such as communication and computer systems, but may be implemented as a single system.

However, the above-described prior art has the following problems.

The conventional power converter simply converts and supplies power according to the characteristics of the device mounted at the terminal terminal, and there is no device to detect when a device is disconnected, short-circuited, overcurrent, or short-circuit. This falling problem occurs.

As described above, to check for disconnection, short circuit, overcurrent, short circuit, etc. of the device, a separate current detection device or voltage detection device is attached to the terminal, and the device is inspected by inspecting the disconnection, short circuit, etc. of the device attached to the terminal. There is a problem that becomes complicated and large.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, to provide a power conversion device for controlling the inflow of power by quickly detecting a change in disconnection, short circuit, overcurrent, short circuit, etc. of the device. will be.

In addition, another object of the present invention is to provide a power conversion device that converts power and safely supplies power while detecting a change in disconnection, short circuit, overcurrent, short circuit, and the like of the device.

According to a feature of the present invention for achieving the above object, the power conversion device of the present invention, the first terminal unit for receiving the external power into the device, the conversion unit for converting the power of the first terminal unit, A second terminal part in electrical communication with the conversion unit and in communication with an external electric device, a third terminal part in communication with the first terminal part and in electrical communication with the electric device, and in communication with the third terminal part to the electric device And a voltage detector for detecting a voltage through a signal flowing in and out, and a current detector for communicating a current through the signal flowing into and out of the electrical device by being connected to the second terminal and the third terminal. have.

The voltage detecting unit may further include a control unit which blocks the input of power when the voltage detected by the third terminal unit is different from the reference value of the electric device.

The controller may be configured to update the detected voltage to a reference value when the voltage detected by the voltage detector differs from the reference value of the electrical device in the third terminal unit.

The control unit may be further provided to control the supply of power when the current detected by the current detection unit is different from the reference value of the electrical device between the second terminal unit and the third terminal unit.

The controller may be configured to update the detected current to a reference value when the current detected by the current detector differs from the reference value of the electrical device in the second terminal portion and the third terminal portion.

The power converter according to the present invention has the following effects.

In the power conversion device that converts and provides the power suitable for the device, a current / voltage detection device capable of inspecting the change of the device is provided, and the power supply can be controlled by determining whether the device is abnormal in real time. The efficiency is increased.

1 is a block diagram showing the configuration of a power conversion apparatus according to the present invention.
FIG. 2 is a flowchart illustrating an operation process of the power converter of FIG. 1.

Hereinafter, exemplary embodiments of a power conversion apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

In the power conversion apparatus according to the present invention, as shown in FIG. 1, the first terminal unit 10 which receives an external power source S into the device, and the power supply of the first terminal unit 10 are switched 80. A conversion unit 20 for converting the power to be sent to the second terminal unit according to a signal of the second terminal unit; and a second terminal unit 30 in electrical communication with the conversion unit 20 and in communication with an external electric device E; The third terminal portion 40 communicates with the first terminal portion 10 and is in electrical communication with the electrical device E, and the signal communicates with the third terminal portion 40 and flows into and out of the electrical device E. The voltage detector 50 which detects a voltage, and the current detector 60 which communicates with the second terminal unit 30 and the third terminal unit 40 and detects a current through a signal flowing into and out of the electric device E. It may be characterized by including a).

First, the first terminal unit 10 is provided in the power converter of the present invention. The first terminal unit 10 is provided with a conversion unit 20. The conversion unit 20 serves to convert power so that power supplied from the power source S to the power conversion device of the present invention can be input to the electric device E under the control of the switch 80.

In addition, the conversion unit 20 is provided with a second terminal unit 30. As shown in FIG. 1, the second terminal unit 30 serves as a path for introducing the power converted by the conversion unit 20 into the electric device E.

The third terminal part 40 is provided at one end of the second terminal part 30. The third terminal part 40 serves as a passage through which the signal introduced into the electric device E through the second terminal part 30 flows into the power conversion device of the present invention.

The third terminal 40 is provided with a voltage detector 50. The voltage detector 50 measures a voltage change generated by the electric device E through a signal flowing in and out of the electric device E.

In addition, a current detection unit 60 is provided between the second terminal unit 30 and the third terminal unit 40. The current detector 60 measures the current change generated in the electric device E through a signal flowing in and out of the electric device E.

The controller 70 is provided in the voltage detector 50 and the current detector 60. The controller 70 is in electrical communication with the voltage detector 50 and the current detector 60, so that the voltage or current detected by the voltage detector 50 or the current detector 60 is the second terminal unit ( 30) and when the difference between the reference value of the current or the voltage of the electric device (E) between the third terminal portion 40 to cut off the power input to the electric device (E) through the second terminal portion (30) Play a role.

Of course, a switch 80 may be provided in the conversion unit 20, which is the front end of the second terminal unit 30, to be driven in conjunction with the control unit 70. In addition, the second terminal unit 30 and the third terminal unit 40 may be provided in pairs, such that a plurality of electric devices E may be connected at the same time.

In addition, the controller 70 updates a reference value based on the new voltage and current signals detected by the voltage detector 50 and the current detector 60. As shown in FIG. 2, when the electric device E of the third terminal part 40 is stabilized again after the change occurs, the power conversion device of the present invention is stably corresponding thereto.

Hereinafter, the operation of the power converter according to the present invention having the above configuration will be described in detail.

First, the electric device E is connected to the power converter of the present invention. That is, the second terminal unit 30 of the power converter and the power inlet of the electric device (E), and the third terminal unit 40 of the power converter device and the power discharge unit of the electric device (E).

After the first terminal unit 10 is connected to the power source S, the power source S is supplied to the power supply device. Then, the external power source S flows into the first terminal portion 10 of the power supply device.

The power S introduced into the first terminal unit 10 is converted while passing through the conversion unit 20, and the converted power is supplied to the second terminal unit 30 and supplied to each electric device E. .

The power supplied to the electric device E is again introduced into the power supply device of the present invention through the third terminal portion 40. At this time, the voltage detector 50 and the current detector 60 detect the voltage and current of the power discharged from the electric device E through the second terminal unit 30 and the third terminal unit 40.

Information detected by the voltage detector 50 and the current detector 60 is transmitted to the controller 70, and the controller 70, as shown in FIG. 2, the second terminal unit 30 and the In comparison with the reference value of the change of the voltage and current of the electric device E connected through the third terminal unit 40, if there is an abnormality, the control unit cuts off the power supplied from the second terminal unit 30.

That is, according to the power supply device, it is possible to determine the abnormality of the electrical device in real time.
The operation of the controller will be described in more detail with reference to FIG. 2.
The operation of the control unit may be operated in one of control modes of an output control mode and an input control mode. First, when the control unit is in the input control mode, the voltage detector 60 detects the presence or absence of a voltage signal of the third terminal unit 40. To the control unit.
Second, when the controller is in the output control operation, the current control command value and the previous control command value are compared (the current control command value and the previous control command value are parameter values indicating a current or previous power supply state and are ON. (Or one of OFF values), the current control command value is the same as the previous control command value, and the current control command value is the power supply state (when the current control command value is the ON value) and the overcurrent is detected in the current detector 50. In the case where the switch unit 80 is forcibly shut off by sensing, the state of the switch unit 80 is transmitted to the control unit, and after indicating that it is an overcurrent or a short circuit, the previous control command value is stored as the current control command value.
Third, when the controller is in the output control operation, the current control command value and the previous control command value are the same, the current control command value is the power supply state (when the current control command value is the ON value), and the current detector 50 detects the overcurrent. When the low switch unit 80 is not forcibly cut off, the current detecting unit 50 detects whether there is no current, and in the case of no current, supplies power to the second terminal unit 30 and indicates that there is no current or disconnection. In the case of no current, the electric power is supplied to the second terminal unit 30, and the previous control command value is stored as the current control command value.
Fourth, when the current control command value and the previous control command value are the same when the controller is in the output control operation, the current control command value is in the power-off state (when the current control command value is the OFF value) and the voltage detection unit 60 generates the first control command value. If the voltage signal of the three-terminal unit 40 is detected, it indicates a short circuit because it corresponds to a short circuit. If the voltage signal is not detected, the switch unit 80 issues an operation stop command to the converter unit. Maintaining the power supply cutoff state to the two terminal unit 30, and stores the previous control command value as the current control command value.
Fifth, when the current control command value and the previous control command value are different from each other when the controller is in the output control operation, the current control command value is in a power supply state and the voltage signal of the third terminal unit 40 is If detected, it is a short circuit because the voltage signal was detected even though the previous power supply was OFF. Therefore, in this case, it may indicate that a short circuit. When the voltage signal is not detected, power is supplied to the second terminal unit 30 through the switch unit 80 by the operation unit of the conversion unit, and the previous control command value is stored as the current control command value.
Sixth, if the current control command value and the previous control command value is different when the control unit is in the output control operation, and if the current control command value is the power supply cut-off state, the control unit 80 as a command to stop the conversion unit is switched. The power supply is cut off to the second terminal unit 30, and the previous control command value is stored as the current control command value.
Signals such as no current or disconnection, overcurrent or short circuit, or short circuit are transmitted to the controller.
As described above, when the controller is in the output control mode, it is possible to compare the current control command value and the previous control command value, detect signal values of the current detector and the voltage detector, and control / monitor the normal output of the converter.

In addition, when the control unit is in the input control mode, by checking the normal power input state of the electrical device through the current detector and the voltage detector, it is easier to control / monitor the output and input bidirectional operation.

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The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

10: first terminal portion 20: conversion portion
30: second terminal portion 40: third terminal portion
50: current detector 60: voltage detector
70: control unit 80: switch
SO: Power EL: Electric
A: Is the control input mode?
B: Compare current status command value and previous status command value in control output mode?
C: Current command value in control output mode?
D: Has the switch part been forcibly turned off due to overcurrent detection in the current detection part?
E: No current detection in current detector?
F: Power is supplied to the second terminal by the switching unit through the switch unit.
G: Signaling the state of the switch unit through the control unit.
H: read of voltage detector
I: Power is supplied to the second terminal by the conversion unit through the switch unit.
J: Alram Output “No Current or Disconnection!”
K: Alram output “Overcurrent or short circuit!”
L: Signal transmission through the control unit.
M: Signal detection at the voltage detector?
N: Alram output “leak!”
O: The power supply to the second terminal is cut off by switching off the converter via the switch.
P: Current status command value in control unit output mode?
Q: Is the signal detected by the voltage detector?
R: The power supply to the second terminal is cut off by switching off the converter via the switch.
S: Power is supplied to the second terminal through the operation of the conversion unit through the switch unit.
T: Alram output “leak!”
U: Update and save the previous status command value with the current status command value in the control output mode.

Claims (6)

A first terminal unit configured to receive external power into the device;
A conversion unit for converting power of the first terminal unit;
A second terminal unit in electrical communication with the conversion unit and in communication with an external electric device;
A third terminal part in communication with the first terminal part and in electrical communication with the electric device;
A voltage detector communicating with the third terminal to detect a voltage through a signal flowing into and out of the electric device;
A current detection unit communicating with the second terminal unit and the third terminal unit and detecting a current through a signal flowing in and out of the electric device; And
When the voltage detected by the voltage detector differs from the reference value of the electrical device in the third terminal unit, the input of the power is cut off,
And a control unit controlled to cut off power supply when a current detected by the current detection unit is different from a reference value of the electric device between the second terminal unit and the third terminal unit.
The control unit,
Is operated in one of the control mode of the output control mode for controlling the power output of the converter and the input control mode for monitoring the power input of the electrical device,
In the case of the output control mode, after comparing the current control command value and the previous control command value, at least one of disconnection, short circuit, overcurrent and short circuit is determined according to signals detected from the current detector and the voltage detector,
In the input control mode, the power conversion device, characterized in that for detecting the normal power input to the electrical device by detecting the signal of the voltage detector. delete delete delete delete The method of claim 1,
And the current control command value and the previous control command value are parameter values indicating a current or previous power supply state and are one of an ON or OFF value.

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