KR101284364B1 - A voltage sensing circuit device for confirming whether a load exist or not - Google Patents

Abstract

PURPOSE: A voltage detection circuit device capable of checking the existence of a load is provided to easily detect and determine the existence of a load in the off state of a switch by the on/off of AC power. CONSTITUTION: A voltage detection circuit device includes an AC input line (100), an AC output line (200), a switch unit (300), and a voltage detection circuit unit (400). Two AC input lines provide AC power. Two AC output lines provide the AC power for a connected load (10). The switch unit is connected between the AC input line and the AC output line and switches the AC power supplied through the AC input line. The voltage detection circuit unit is connected to the switch unit and the AC output line in parallel and drives a detected voltage according to the existence of a load. [Reference numerals] (10) Load; (100) AC input line; (200) AC output line; (300) Switch unit; (400) Voltage detection circuit unit; (500) Control unit (MCU)

Description

A VOLTAGE SENSING CIRCUIT DEVICE FOR CONFIRMING WHETHER A LOAD EXIST OR NOT}

The present invention relates to a voltage detection circuit device capable of confirming the presence or absence of a load, and more particularly, in an apparatus for supplying and controlling AC power to a load through an on / off switch of an AC power supply, whether or not a load is present even when the switch is turned off. The present invention relates to a voltage detection circuit device capable of confirming the presence or absence of a load for detecting and determining.

In general, only one of the two lines of the AC line is used for ON / OFF to control the AC power to be turned on or off for the AC power ON / OFF. In other words, for the sake of safety, one of the two AC lines is grounded to supply power. For the grounded side, the potential difference becomes zero and the other line has a potential. do. At this time, the grounded one of the two AC lines is called a neutral and the other is called a live.

1 is a block diagram showing a configuration of a current detection circuit device capable of confirming the presence or absence of a conventional load as a functional block. As shown in Fig. 1, the current detection circuit device capable of confirming the presence or absence of a conventional load includes an AC input line 1 composed of two lines, a relay switch 2, a current detection circuit 3, and two AC output line 4 composed of a line, and a load 5 can be configured. That is, the relay switch 2 is connected and connected between the AC input line 1 and the AC output line 4, the load 5 is connected and connected to the AC output line 4, and the relay switch 2 and the AC are connected. The current detection circuit 3 is connected between the output lines 4. Here, the current detection circuit 3 is composed of a current measuring sensor such as a transformer and a hall type sensor.

In the conventional method of configuring the current detection circuit 3 as described above, it was possible to confirm whether the load 5 was connected only when the relay switch 2 was in the ON state. The presence or absence of the load 5 could not be detected. As a result, there is a problem that it is inefficient when the presence or absence of the load 5 is to be determined for the purpose of saving power even when the relay switch 2 is turned off.

The present invention has been proposed to solve the above problems of the conventionally proposed methods, the detection of the presence of the load even in the off state of the switch in the device for supplying AC power to the load through the switch on / off of the AC power It is an object of the present invention to provide a voltage detection circuit device capable of confirming the presence or absence of a load, which can be determined.

In addition, the present invention is configured by a voltage detection method instead of a conventional current detection method, so that the presence or absence of connection connection of the load can be checked even when the switch is in the off state, and the efficiency of control for saving power in the off state of the switch, etc. It is another object of the present invention to provide a voltage detection circuit device capable of confirming the presence or absence of a load, which can be increased.

The voltage detection circuit device capable of confirming the presence or absence of a load according to a feature of the present invention for achieving the above object,

Two AC input lines for supplying AC power;

Two AC output lines for supplying AC power to the connecting load;

A switch unit connected between the AC input line and one line connecting the AC output line to switch on / off of AC power supplied through the AC input line; And

And a voltage detecting circuit portion connected in parallel with the switch portion and the AC output line and driven at a detected voltage according to the presence or absence of a connection connection of the load.

Preferably, the switch unit,

It may be configured as a power relay switch for the on / off switching of the AC power supplied through the AC input line.

Preferably, the voltage detection circuit unit,

A FET driver for driving at a voltage detected according to the connection connection of the load; And

And a photocoupler driver for sequentially driving the voltage applied according to the driving operation of the FET driver to output a result signal according to whether the load is connected or not.

More preferably, the FET driver,

A FET for driving at a detected voltage according to the connection of the load;

A high voltage current blocking resistor connected in parallel to the gate terminal of the FET; And

The resistor for current control connected to the source terminal of the said FET can be comprised.

Even more preferably, the driving conditions of the FET,

Driving only at connection connection of the load including on / off of the switch unit,

If the load is not connected, it is not driven.

More preferably, the photocoupler driving unit,

A photocoupler connected to the FET driver;

A resistor connected to the collector (C) terminal of the photo TR in the photocoupler; And

It may be configured to include a resistor and a capacitor each connected in parallel to the emitter (E) terminal of the photo TR in the photocoupler.

Even more preferably, a resistor and a capacitor each connected in parallel to the emitter terminal in the photocoupler,

It may function as a filter circuit for filtering the resulting signal output from the photocoupler by the DC value.

More preferably, the result signal is,

It is an on / off pulse value signal capable of determining whether the load is connected or not.

Even more preferably, the result signal is

The readout may be performed by a control unit (MCU) connected to the output rear end of the photocoupler.

Preferably, the AC input line,

The AC_IN_L line may be connected to one end of the switch unit and the AC_IN_N line may be grounded.

More preferably, in the AC input line,

The AC_IN_L line functions as a live line for supplying AC power through the switch unit.

The AC_IN_N line may function as a neutral line of the ground ground of the AC power source.

More preferably, the AC output line,

The AC_OUT_L line may be connected to the other end of the switch unit and the AC_OUT_N line may be grounded.

Even more preferably, in the AC output line,

The AC_OUT_L line functions as a live line for receiving AC power through the switch unit.

The AC_OUT_N line may function as a neutral line of the ground ground of the AC power source.

According to the voltage detection circuit device that can confirm the presence or absence of the load proposed in the present invention, in the device that controls the supply of AC power to the load through the switch on / off of the AC power to detect and determine the presence of the load even in the off state of the switch You can do it.

In addition, according to the present invention, by configuring the voltage detection method instead of the conventional current detection method, it is possible to confirm the presence or absence of the connection connection of the load even in the off state of the switch, as well as control for power saving in the off state of the switch, etc. Efficiency can be increased.

1 is a block diagram showing the configuration of a current detection circuit device capable of confirming the presence or absence of a conventional load as a functional block.
2 is a block diagram showing the configuration of a voltage detection circuit device capable of confirming the presence or absence of a load according to an embodiment of the present invention.
3 is a diagram illustrating a detailed configuration of a voltage detection circuit unit in the voltage detection circuit device capable of confirming the presence or absence of a load according to an embodiment of the present invention.
4 is a diagram illustrating a circuit configuration of a voltage detecting circuit device capable of confirming the presence or absence of a load according to an embodiment of the present invention.
5 is a view showing an operating condition that can confirm the presence or absence of the load in the voltage detection circuit device capable of confirming the presence or absence of a load according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . In addition, the term 'comprising' of an element means that the element may further include other elements, not to exclude other elements unless specifically stated otherwise.

2 is a block diagram showing the configuration of a voltage detection circuit device capable of confirming the presence or absence of a load according to an embodiment of the present invention, Figure 3 is a voltage capable of confirming the presence or absence of a load according to an embodiment of the present invention It is a figure which shows the detailed structure of a voltage detection circuit part in a detection circuit apparatus. As shown in FIG. 2 and FIG. 3, the voltage detection circuit device capable of confirming the presence or absence of a load according to an embodiment of the present invention includes an AC input line 100, an AC output line 200, and a switch unit 300. And it may be configured to include a voltage detection circuit unit (400).

The AC input line 100 is composed of two connection lines for supplying AC power. As shown in FIG. 4, the AC input line 100 includes an AC_IN_L line 101 connected to one end of the switch unit 300 and an AC_IN_N line 102 grounded. That is, the AC_IN_L line 101 in the AC input line 100 functions as a live line for supplying AC power through the switch unit 300, and the AC_IN_N line 102 is a neutral of the ground ground of the AC power source. It will function as a (Neutral) line. In general, only one of the two lines of the AC line is used to control the on / off of the AC power source on / off.

The AC output line 200 is composed of two connection lines for supplying AC power to the load 10 to be connected. That is, as illustrated in FIG. 4, the AC output line 200 includes an AC_OUT_L line 201 connected to the other end of the switch unit 300 and an AC_OUT_N line 202 grounded. In the AC output line 200, the AC_OUT_L line 201 functions as a live line for receiving AC power through the switch unit 300, and the AC_OUT_N line 202 is a neutral of the ground ground of the AC power supply. Neutral) line.

The switch unit 300 is connected between one line connecting the AC input line 100 and the AC output line 200 to perform on / off switching of AC power supplied through the AC input line 100. do. The switch unit 300 may be configured as a power relay switch for on / off switching of AC power supplied through the AC input line 100. That is, the switch unit 300 is connected between the AC_IN_L line 101 of the AC input line 100 and the AC_OUT_L line 201 of the AC output line 200, as shown in FIG. The AC power according to the on / off control of 300 may be supplied to the load 10.

The voltage detection circuit unit 400 is connected in parallel with the switch unit 300 and the AC output line 200, and drives with the detected voltage depending on whether or not the connection of the load 10 is connected. That is, the present invention adopts a voltage detection method using the voltage detection circuit unit 400 rather than the current detection method as a method for detecting the presence of a load. This voltage detection method uses a principle that voltage is detected when no current flows but when one of the AC lines is connected when the load 10 is connected. The detailed configuration of the voltage detection circuit unit 400 will be described in detail with reference to FIG. 4.

4 is a diagram illustrating a circuit configuration of a voltage detection circuit device capable of confirming the presence or absence of a load according to an embodiment of the present invention, and FIG. 5 is a voltage detection circuit capable of confirming the presence or absence of a load according to an embodiment of the present invention. A diagram showing operating conditions for checking the presence or absence of a load on the device. As shown in FIG. 4, in the voltage detection circuit device capable of confirming the presence or absence of a load according to an embodiment of the present invention, the voltage detection circuit unit 400 is driven with a voltage detected according to a connection connection of the load 10. FET driver 410 and a photocoupler driver 420 for sequentially driving the voltage applied according to the driving operation of the FET driver 410 and outputting a result signal according to the presence or absence of connection connection of the load 10. Can be configured.

The FET driver 410 includes a FET 411 driven at a detection voltage according to a connection connection of the load 10, high voltage current blocking resistors R1 and R2 connected in parallel to the gate terminal of the FET 411, And a current control resistor R3 connected to the source terminal of the FET 411. Here, the driving conditions of the FET 411 is driven only when the connection of the load 10 including the on / off of the switch unit 300, as shown in Figure 5, the connection of the load 10 is not already Do not drive when connected. That is, the FET 411 may be driven if only the condition of the load 10 is connected to the FET 411 under any condition of on / off of the switch unit 300. Unlike the conventional current detection method, when there is a connection connection of the load 10 even in the off condition of the switch unit 300, the voltage is detected as long as one of the AC lines is connected. Although the short circuit due to the switch 300 is off, the gate voltage of the FET 411 is detected and operated according to the presence or absence of the load 10.

The photocoupler driver 420 includes a photocoupler 421 connected to the FET driver 410, a resistor R4 connected to a collector C terminal of the photo TR in the photocoupler 421, and a photocoupler ( A resistor R5 and a capacitor C1 each connected in parallel to the emitter E terminal of the photo TR in the 421 may be configured. The resistor R5 and the capacitor C1, each of which is connected in parallel to the emitter terminals in the photocoupler 421, may function as a filter circuit 422 for filtering the resultant signal output from the photocoupler 421 to a DC value. have. The result signal at this time is composed of an on / off pulse value signal that can determine the presence or absence of the connection connection of the load 10. In addition, the result signal may be read-processed by the control unit 500 (MCU) connected to the output rear end of the photocoupler 421.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics of the invention.

100: AC input line 101: AC_IN_L line
102: AC_IN_N line 200: AC output line
201: AC_OUT_L line 202: AC_OUT_N line
300: switch unit 400: voltage detection circuit unit
410: FET driver 411: FET
420: photo coupler drive unit 421: photo coupler
422: filter circuit 500: control unit (MCU)
R1, R2, R3, R4, R5: Resistor C1: Capacitor

Claims (13)

As a voltage detection circuit device that can confirm the presence or absence of a load,
Two AC input lines 100 for supplying AC power;
Two AC output lines 200 for supplying AC power to a load 10 to be connected;
A switch unit 300 connected between the AC input line 100 and one line connecting the AC output line 200 to switch on / off of AC power supplied through the AC input line 100. ); And
It is characterized in that it comprises a voltage detection circuit 400 connected in parallel with the switch unit 300 and the AC output line 200, and driving at a detected voltage according to the connection connection of the load 10, Voltage detection circuit device that can check the presence or absence of load.
The method of claim 1, wherein the switch unit 300,
And a power relay switch for on / off switching of AC power supplied through the AC input line (100).
The method of claim 1, wherein the voltage detection circuit 400,
A FET driver 410 driving at a voltage detected according to a connection connection of the load 10; And
And a photocoupler driver 420 which sequentially drives the voltage applied according to the driving operation of the FET driver 410 and outputs a result signal according to whether there is a connection connection of the load 10. A voltage detection circuit device that can check the presence or absence of a load.
The method of claim 3, wherein the FET driver 410,
A FET 411 driving at a detected voltage according to a connection connection of the load 10;
High-voltage current blocking resistors R1 and R2 connected in parallel to the gate terminal of the FET 411; And
And a current control resistor (R3) connected to the source terminal of the FET (411).
The driving condition of the FET 411 according to claim 4,
Drive only when the connection of the load 10 including the on / off of the switch unit 300,
When the connection of the load (10) is not connected is not driven, the voltage detection circuit device that can confirm the presence or absence of the load.
The method of claim 3, wherein the photocoupler driving unit 420,
A photocoupler 421 connected to the FET driver 410;
A resistor (R4) connected to the collector (C) terminal of the photo TR in the photocoupler 421; And
A voltage detecting circuit capable of confirming the presence or absence of a load, comprising a resistor (R5) and a capacitor (C1) each connected in parallel to the emitter (E) terminal of the photo TR in the photocoupler 421. Device.
The resistor (R5) and the capacitor (C1) of claim 6, wherein the resistor (R5) and the capacitor (C1) connected in parallel to the emitter terminals in the photocoupler (421), respectively,
And a filter circuit (422) for filtering the resultant signal output from the photocoupler (421) to a DC value.
The method of claim 6, wherein the result signal,
The on / off pulse value signal which can determine the presence or absence of the connection connection of the said load (10), The voltage detection circuit apparatus which can confirm the presence or absence of the load.
The method of claim 8, wherein the result signal,
Read processing is performed by a control unit (500) (MCU) connected to the output rear end of the photocoupler (421), the voltage detection circuit device that can confirm the presence or absence of a load.
10. The method of any one of claims 1 to 9, wherein the AC input line 100,
And an AC_IN_L line (101) connected to one end of the switch unit (300) and an AC_IN_N line (102) which is grounded to ground.
The method of claim 10, wherein in the AC input line 100,
The AC_IN_L line 101 functions as a live line for supplying AC power through the switch unit 300.
And the AC_IN_N line (102) functions as a neutral line of the ground ground of the AC power source.
The method of claim 10, wherein the AC output line 200,
And an AC_OUT_L line (201) for connecting to the other end of the switch unit (300) and an AC_OUT_N line (202) for grounding.
The method of claim 12, wherein in the AC output line 200,
The AC_OUT_L line 201 functions as a live line for receiving AC power through the switch unit 300.
And the AC_OUT_N line (202) functions as a neutral line of the ground ground of the AC power supply.

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