KR100744907B1 - Power apparatus with standby power - Google Patents

Abstract

A power apparatus with standby power is provided to detect an AC power by offering an additional rectifying passage replacing a broken electric current passage of AC(Alternating Current) power when a power switch is off. A power apparatus with standby power includes a first rectifying unit(100), a second rectifying unit(200), a power switch(SW), a rectifying passage circuit(300), and an AC detecting unit(400). The first rectifying unit(100) rectifies the AC power of an AC power unit(50) to supply a main voltage(Vm). The second rectifying unit(200) rectifies the AC power of the AC power unit(50) to supply a standby voltage(Vs). The power switch(SW) is connected to an AC live line between the AC power unit(50) and the first rectifying unit(100). The rectifying passage circuit(300) normally forms an electric current closed loop of the AC power through a half wave rectifying passage when the power switch(SW) is off. The AC detecting unit(400) supplies a detecting signal(Sd) having the normal or the abnormal information of the AC power by detecting the AC power through an AC neutral line of the AC power and a live connection node.

Description

POWER APPARATUS WITH STANDBY POWER {POWER APPARATUS WITH STANDBY POWER}

1 is a configuration diagram of a power supply of a conventional electronic product.

2A and 2B are current flow charts of the power supply device of FIG.

3 is a block diagram of a power supply unit having a standby power source according to the present invention;

4A and 4B are current flow charts of the power supply device of FIG. 3;

Explanation of symbols on the main parts of the drawings

50: AC power supply unit 100: first rectifying unit

200: second rectifier 300: rectifier path circuit

400: AC detection unit SW: power switch

AL-line: AC live line AN-line: AC neutral line

LCN: Live connection node HRP: Half wave rectification path

D10: rectifier diode R10: resistor (R10)

Vm: Main voltage Vs: Standby voltage

Sd: Detection signal

The present invention relates to a power supply device applied to an electronic product such as a PDP having a standby power supply, and particularly, by providing a separate rectifying path that can replace a current path of AC power that is cut off when the power switch is turned off, By preventing the detection waveform of the AC power supply from being deformed by the switching of the power switch, the AC power supply can be detected more accurately, and thus the case where the AC power supply is low voltage can be detected accurately, so that the AC power supply can be generated at low voltage. The present invention relates to a power supply having a standby power source that can contribute to preventing system damage.

In general, a power supply device applied to an electronic product such as a PDP TV includes a main power unit for supplying power required during normal operation, and a standby power supply for supplying standby power in a standby state. power) section.

The main power supply unit and the standby power supply unit of the power supply unit rectify the AC power supplies the main power supply and the standby power supply, respectively. If the AC power source is low voltage, the main power supply unit cannot supply a normal main power supply. Therefore, the electronic device may malfunction and cause damage to the system. To be monitored.

In general, a system uses a MICOM to control internal devices such as a power supply device in a digitally controlled manner, while analogue is required when a low cost or a complex and simple set of sequences is required. As a control method, internal devices such as a power supply device can be controlled according to an analog signal.

In addition, when the ground (GROUND) of the main power supply and standby power supply is separated, a separate rectifying diode is used in the standby power supply. On the other hand, in case of not using a separate rectifier diode used in the standby power supply unit for low cost, a circuit may be commonly configured in the ground of the main power supply unit and the standby power supply unit.

As described above, a conventional power supply device in which the ground of the main power supply unit and the standby low power supply unit is common and an analog control method is applied will be described with reference to FIG. 1.

1 is a configuration diagram of a power supply device of a conventional electronic product.

The power supply device of the conventional electronic product shown in FIG. 1 includes rectifying the AC power of the AC power supply unit 5 to supply a main voltage Vm to the main power supply unit, and rectifying the AC power supply. A second rectifying unit 12 for supplying the standby voltage Vs to the standby power unit, and a detection signal including information on whether the AC power of the AC power unit 5 is a normal voltage or an abnormal low voltage by detecting the AC power ( Connected to an AC detection line 13 providing Sd and an AC live line AL-line between the AC power source PS and the first rectifying unit 11 to be supplied to the first rectifying unit 11. It includes a power switch (SW) for turning on or off the AC power.

In this case, when the main power supply unit needs to supply main power, the power switch SW is turned on, and the AC power is rectified by the first rectifying unit 11. In contrast, when the main power supply unit does not need to supply the main power supply, for example, in the standby state or the main power supply protection state, the power switch SW is turned off so that the AC power is supplied to the first rectifying unit 11. ) Is not supplied.

In such a conventional power supply device, the AC detector 13 always operates the AC power normally regardless of the switching state of the power switch SW, in order to protect the system by cutting off the main power when the AC power is low voltage. Should be detected.

By the way, although the AC detector can detect AC power normally when the power switch is on, there is a problem that the AC detector cannot detect AC power normally when the power switch is off.

The reason why such a problem occurs will be described with reference to FIG. 2.

2 (a) and 2 (b) are current flow charts of the power supply device of FIG. 2.

When the power switch SW is turned on as shown in (a) of FIG. 2, after the AC power of the AC power supply unit 5 passes through the power switch SW, the first rectifying unit 11 is used. It can be rectified normally by, so that the current closed loop of the AC power source can be formed normally, and eventually, the AC detector 13 can detect the AC power source normally.

However, when the power switch SW is turned off as shown in (b) of FIG. 2, the AC power supply PS is cut off by the power switch SW, so that the first rectifying unit 11 is closed. By the power switch SW which is not normally rectified by the OFF state, and the current closed loop of the AC power source is not normally formed, and thus the detection waveform of the AC power source is modified according to the on / off state of the power switch. As a result, there is a problem that the AC detection unit cannot detect the AC power normally.

The present invention has been proposed to solve the above problems, the object of which is to provide a separate rectifying path that can replace the current path of the AC power is cut off when the power switch is off, the detection of the AC power The present invention provides a power supply device having a standby power supply capable of detecting AC power more accurately by preventing waveforms from being deformed by switching of a power switch.

In order to achieve the above object of the present invention, a power supply apparatus having a standby power supply of the present invention, the first rectifier for rectifying the AC power supply of the AC power supply unit to supply a main voltage; A second rectifying unit rectifying AC power of the AC power supply unit to supply a standby voltage; A power switch connected to an AC live line between the AC power supply unit and the first rectifying unit to turn on or off the AC power supply; A rectification path circuit for forming a half-wave rectification path from the live connection node between the AC power supply and the power switch to ground to normally form a current closed loop of the AC power through the half-wave rectification path when the power switch is off; And an AC detector for detecting the AC power through the live connection node and the AC neutral line of the AC power and providing a detection signal having normal or abnormal information of the AC power.

The rectifying path circuit may include one or more rectifying diodes connected in a reverse direction between the live connection node and the ground.

The rectifier path circuit may include: a rectifier diode connected in a reverse direction between the live connection node and ground; And a resistor connected in series with the rectifying diode at an anode or a cathode of the rectifying diode.

The resistance may have a resistance value larger than an equivalent resistance value from the live connection node to the first rectifier.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

3 is a configuration diagram of a power supply device having a standby power source according to the present invention.

Referring to FIG. 3, the power supply apparatus according to the present invention includes a first rectifying unit 100 rectifying AC power of the AC power supply unit 50 to supply a main voltage Vm, and an AC power supply of the AC power supply unit 50. Is connected to a second rectifier 200 for supplying a standby voltage Vs and an AC live line (AL-line) between the AC power supply unit 50 and the first rectifier unit 100 to rectify the AC power. A half-wave rectification path HRP is formed from the live connection node LCN between the AC power supply unit 50 and the power switch SW to ground to the power switch SW for turning on or off, and the power switch SW. In the off state, the rectifying path circuit 300 normally forms the current closed loop of the AC power supply through the half-wave rectifying path HRP, and the live connection node LCN and the AC neutral line AC− of the AC power supply. the AC power is detected through a line) to detect a detection signal Sd having normal or abnormal information of the AC power. It includes an AC detector 400 for a ball.

The rectifying path circuit 300 may include one or more rectifying diodes D10 connected in a reverse direction between the live connection node LCN and ground.

For example, when the rectifying path circuit 300 includes one rectifying diode D1, the cathode of the rectifying diode D10 is connected to the live connection node LCN, and the rectifying diode D10 is connected. The anode of is connected to ground.

In addition, when the first rectifying unit 100 is made of a bridge diode having four diodes, the rectifying diode D10 preferably has the same characteristics as that of the diode included in the bridge diode, that is, the same capacitance.

In contrast, when the rectifying diode D10 is a diode having a smaller capacitance than the diode included in the bridge diode, the rectifying diode D10 may be configured as follows.

The rectifier path circuit 300 includes a rectifier diode D10 connected in a reverse direction between the live connection node LCN and ground, and an anode or cathode terminal of the rectifier diode D10 and the rectifier diode D10. It may include a resistor (R10) connected in series.

For example, one end of the resistor (R10) is connected to the live connection node (LCN), the other end of the resistor (R10) is connected to the cathode of the rectifying diode (D10), of the rectifying diode (D1) The anode is connected to ground.

In particular, the resistor R10 preferably has a resistance value larger than the equivalent resistance value of the live connection node LCN to the first rectifier 100.

4A and 4B are current flow charts of the power supply device of FIG. 3.

FIG. 4A shows the current path and the detection waveform when the power switch SW is on, and FIG. 4B shows the current path and the detection waveform when the power switch SW is off. have.

Hereinafter, the operation and effects of the present invention will be described in detail with reference to the accompanying drawings.

3 and 4, the operation of the power supply device having the standby power source of the present invention will be described. First, referring to FIG. 3, the second rectifying unit 200 of the present invention rectifies AC power of the AC power supply unit 50 to supply the standby voltage Vs.

Next, the power switch SW of the present invention is connected to an AC live line AL-line between the AC power supply 50 and the first rectifier 100 to turn on or off the AC power.

In this case, the power switch SW maintains a switching on state when it is to be normally operated in a system to which the power supply device of the present invention is applied. In contrast, when the main power supply unit does not need to supply the main power supply, for example, in the standby state or the main power supply protection state, the power switch SW is switched off.

Hereinafter, when the power switch of the present invention is in an on state and an off state, the operation of the present invention will be described for each case.

First, when the power switch SW is in an on state, since AC power is supplied to the first rectifying unit 100 of the present invention through the power switch SW, the first rectifying unit 100 may include an AC power supply unit ( AC power of 50) is rectified to supply the main voltage (Vm).

At this time, the current by the AC power of the AC power supply unit 50, as shown in Figure 4 (a), through the AC power supply unit 50, the power switch (SW), the first rectifying unit 100 and the load It flows to the ground, and then flows to the AC power supply unit 50 through the ground of the first rectifying unit 100, through which the current closed loop of the AC power supply is formed.

That is, in the normal operation mode, the current flowing through the AC live line flows to the AC neutral line through a path formed through the first rectifier, which is the main bridge diode.

In this case, the AC detector 400 of the present invention detects the AC power through the live connection node (LCN) and the AC neutral line (AN-line) of the AC power, and normal or abnormal information of the AC power. It provides a detection signal (Sd) having a.

Next, when the power switch SW is in the off state, since the AC power is not supplied to the first rectifier 100 of the present invention by the power switch SW, the first rectifier 100 of the present invention is , AC power supply of the AC power supply unit 50 may not be rectified.

At this time, the current by the AC power of the AC power supply unit 50, as shown in Figure 4 (b), the AC power supply unit 50, the live connection node (LCN), rectification path circuit 300 and grounding After that, the first rectifier 100 is connected to the ground, the first rectifier 100, and the AC power supply 50, and through this path, a current closed loop of the AC power is formed.

Specifically, the rectified path circuit 300 of the present invention forms a half-wave rectified path HRP from the live connection node LCN between the AC power supply unit 50 and the power switch SW to ground, thereby providing the power. When the switch SW is off, the first rectifying unit 100 is dashed to normally form a current closed loop of the AC power supply through the half-wave rectifying path HRP.

Accordingly, the AC detection unit 400 of the present invention detects the AC power through the live connection node (LCN) and the AC neutral line (AN-line) of the AC power, the normal or abnormal of the AC power supply Provides a detection signal Sd having information

That is, in the standby mode, the current through the AC neutral line (NEUTRAL line) is formed as a current path through the rectifying path circuit 300 of the present invention, instead of passing through the first rectifier due to the power switch off, Even when the power switch is in the off state, the detection waveform of the normal AC power source may be formed in the same manner as the power switch is in the on state. In this case, the AC detection unit may accurately detect the AC power source.

In this case, the AC detector 400 of the present invention detects the AC power through the live connection node (LCN) and the AC neutral line (AN-line) of the AC power, and normal or abnormal information of the AC power. It provides a detection signal (Sd) having a.

As described above, in the power supply apparatus of the present invention, the rectifier path circuit 300 is added to replace the AC live line path of the AC power source even in the standby mode in which the power switch is turned off. The added rectifying path circuit 300 forms a current path, so that the detection waveform of the AC power source can be normally formed in the same way as the above-described power switch is turned on. Accordingly, the AC detector detects the AC power source normally. You can do it.

That is, even when the power switch is turned off in the standby mode, since the detection waveform of the AC detection unit may be kept the same as in the normal operation mode (PS_ON MODE), the AC detection unit may be turned on or off. Regardless of whether the AC power source can be detected accurately.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, but is defined by the claims, and the apparatus of the present invention may be substituted, modified, and modified in various ways without departing from the spirit of the present invention. It is apparent to those skilled in the art that modifications are possible.

According to the present invention as described above, in a power supply device applied to an electronic product having a standby power supply, by providing a separate rectifying path that can replace the current path of the AC power is cut off when the power switch is off, By preventing the detection waveform of the AC power supply from being deformed by the switching of the power switch, the AC power supply can be detected more accurately.

Claims (4)

A first rectifying unit rectifying AC power of the AC power supply unit to supply a main voltage; A second rectifying unit rectifying AC power of the AC power supply unit to supply a standby voltage; A power switch connected to an AC live line between the AC power supply unit and the first rectifying unit to turn on or off the AC power supply; A rectification path circuit for forming a half-wave rectification path from the live connection node between the AC power supply and the power switch to ground to normally form a current closed loop of the AC power through the half-wave rectification path when the power switch is off; And An AC detector which detects the AC power through the live connection node and the AC neutral line of the AC power and provides a detection signal having normal or abnormal information of the AC power Power supply having a standby power source having a. The rectifying path circuit of claim 1, wherein And at least one rectifier diode connected in a reverse direction between the live connection node and ground. The rectifying path circuit of claim 1, wherein A rectifier diode connected in a reverse direction between the live connection node and ground; And A resistor connected in series with the rectifying diode at an anode or cathode terminal of the rectifying diode Power supply having a standby power, characterized in that it comprises a. The method of claim 3, wherein the resistance is, And a resistance value larger than an equivalent resistance value from the live connection node to the first rectifier.

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