KR100771622B1 - Apparatus for PFC Over Voltage Protection - Google Patents

Abstract

The present invention relates to a PFC overvoltage cutoff device applied to a power supply device, comprising: a power supply unit supplying driving power; A PFC circuit unit for supplying stable current by correcting power efficiency output from the power supply unit through an embedded PFC controller IC; A protection circuit unit for detecting an overvoltage generation signal supplied from the PFC circuit unit and immediately stopping oscillation of the PFC controller IC, wherein the protection circuit unit includes: a photo coupler which is turned on by detecting the overvoltage generation signal; One side is connected to the photo coupler and the other side is connected to the PFC controller IC, and includes a diode to apply a ground (GND) voltage to the cathode terminal according to the turn on of the photo coupler. Therefore, by immediately stopping the oscillation of the PFC controller IC at the same time as the overvoltage detection, minimizing the IC shutdown delay time after the overvoltage detection to prevent overheating, thereby preventing component damage of the device. In addition, it has the effect of increasing the completeness of the power supply device and reducing field defects.

Power Supplies, PFC, Overvoltage, Shutdown, IC, OVP, Power, Protection Circuit, Photo Coupler

Description

FPC Over Voltage Protection Device {Apparatus for PFC Over Voltage Protection}

1 is a block diagram showing a conventional PFC overvoltage cutoff device.

Figure 2 is a block diagram showing a PFC overvoltage cutoff device according to the present invention.

Figure 3 is a circuit diagram showing in detail the PFC over-voltage blocking device according to the present invention.

4 is a control flowchart showing the operation of the PFC over-voltage blocking device according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: power supply unit 110: PFC circuit unit

120: PFC controller IC 130: protection circuit

140: micom PH1: photo coupler

D1: Diode CT: CT Terminal

The present invention relates to a PFC overvoltage cutoff device, and more particularly, to a PFC overvoltage cutoff device applied to a power supply.

Power supplies, in particular large capacity power supplies, are generally applied with PFC (Power Factor Correction) circuits. The PFC circuit is a 'power efficiency calibration device', in which a power saving circuit is added to the power supply to improve power efficiency. For example, it regulates the power supplied to components such as lighting transformers and ballasts that may cause instantaneous power leakage.

Therefore, even with the same power supply, when there is a PFC circuit, it is possible to supply a more stable current to each part, to reduce unnecessary power consumption, and to unnecessarily waste current into heat It is possible to prevent the rise, and lowering the temperature accordingly can lower the speed of the fan to lower the noise, there is an advantage that can reduce the electromagnetic waves.

1 is a block diagram illustrating a conventional PFC over voltage protection (OVP) blocking device.

As shown, the power supply unit 10 receives the AC power supply (AC) through the rectification and smoothing action to supply the drive power supply (VCC) of the DC power supply DC, the PFC circuit unit 20 is a built-in PFC controller IC Through 21, the power efficiency output from the power supply unit 10 is corrected to supply a stable current.

On the other hand, the MICOM 30 detects the overvoltage generation signal generated by the PFC circuit unit 20, and accordingly interrupts the supply power of the power supply unit 10 to stop the oscillation of the PFC controller IC 21. Other loads such as the PFC circuit section 20 are protected from overvoltage.

However, the conventional PFC overvoltage cutoff device detects the PFC overvoltage using a conventional microcomputer, and at this time, the microcontroller stops oscillation of the PFC controller IC by cutting off the power supply of the power supply unit after the overvoltage detection. Due to the delay, the voltage rises to approximately 600V above the initial overvoltage cutoff voltage (typically 440V), and this process is repeated several times to damage various components of the device (e.g., standby rectifying capacitors, etc.). There was a problem letting.

Accordingly, the present invention is to solve the above-mentioned conventional problems, to provide a PFC overvoltage cut-off device to minimize the IC blocking delay time after the overvoltage detection to prevent overheating, thereby preventing damage to the components of the device accordingly. Has its purpose.

PFC overvoltage cut-off device according to the present invention for achieving the above object, the power supply for supplying a drive power; A PFC circuit unit for supplying stable current by correcting power efficiency output from the power supply unit through an embedded PFC controller IC; And a protection circuit section for detecting an overvoltage generation signal supplied from the PFC circuit section and immediately stopping oscillation of the PFC controller IC.

The protection circuit unit may include: a photo coupler turned on by detecting the overvoltage generation signal; One side is connected to the photo coupler and the other side is connected to the PFC controller IC, and includes a diode to apply a ground (GND) voltage to the cathode terminal according to the turn on of the photo coupler.

The other side of the diode is connected to the CT terminal of the PFC controller IC, and the diode has its cathode terminal formed toward the PFC controller IC. When the ground voltage is applied to the cathode terminal, the voltage applied to the CT terminal of the PFC controller IC is preferably about DC 0.2V as the forward voltage of the diode.

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

2 is a block diagram illustrating a PFC overvoltage cutoff device according to the present invention, and FIG. 3 is a circuit diagram showing the PFC overvoltage cutoff device according to the present invention in detail.

As shown, the present invention includes a power supply unit 100, a PFC circuit unit 110, a PFC controller IC 120, a protection circuit unit 130, and a MICOM 140.

The power supply unit 100 includes a rectifier circuit and the like as a general power supply, generates AC power through DC rectification and smoothing by receiving AC power, and drives DC power. Supply (VCC).

The PFC circuit unit 110 includes a PFC controller IC 120. As described above, the PFC circuit is a device for calibrating power efficiency, and a power saving circuit is added to the power supply to improve power efficiency.

Therefore, the PFC circuit unit 110 corrects the power efficiency output from the power supply unit 100 through the built-in PFC controller IC 120 to supply a stable current.

The protection circuit unit 130 detects an overvoltage generation signal generated from the PFC circuit unit 110 toward the microcomputer 140 and immediately stops oscillation of the PFC controller IC 120.

To this end, the protection circuit 130 includes a photo-coupler (PH1) and a diode (D1).

The photo coupler PH1 is turned on by detecting the overvoltage generation signal.

One side of the diode D1 is connected to the photo coupler PH1 and the other side is connected to the PFC controller IC 120, and ground (GND) is connected to the cathode terminal (−) according to the turn-on of the photo coupler PH1. Voltage is applied.

In this case, the other side of the diode D1 is connected to the CT terminal CT of the PFC controller IC 120.

In addition, the cathode of the diode D1 is formed toward the PFC controller IC 120.

When the ground voltage is applied to the cathode terminal (-), the voltage applied to the CT terminal CT of the PFC controller IC 120 is preferably a forward voltage of the diode D1.

Furthermore, the forward voltage of the diode is approximately 0.2V DC.

4 is a control flowchart showing the operation of the PFC over-voltage blocking device according to the present invention, with reference to this will be described in more detail the operation of the present invention configured as described above.

As shown, the present invention, first, receives the AC power source AC from the power supply unit 100 through the rectifying and smoothing action to supply the DC driving power source (DC) to each part.

Thereafter, the PFC circuit unit 110 supplies a stable current by correcting the power efficiency output from the power supply unit 100 through the built-in PFC controller IC 120.

In the state in which the device is normally operated as described above, when overvoltage occurs in the device, the protection circuit unit 130 detects the overvoltage generation signal generated from the PFC circuit unit 110 to the microcomputer 140, and immediately the PFC controller IC ( Stop oscillation of 120).

When an overvoltage is generated from the PFC circuit unit 110, the photo coupler PH1 detects the overvoltage generation signal and is turned on (S200 to S210).

That is, when the PFC output overvoltage is sensed due to the first feedback terminal open, the PFC output overvoltage generation signal is transmitted to the microcomputer 140 on the secondary side while current flows through the photocoupler PH1.

In response to the turn-on of the photo coupler PH1, the ground GND voltage is applied to the cathode terminal − of the diode D1 (S220).

In this case, the diode D1 has one side connected to the photo coupler PH1 and the other side connected to the PFC controller IC 120. In particular, the cathode terminal (−) is formed toward the PFC controller IC 120. When the ground voltage is applied to the cathode terminal (-), the forward voltage of the diode D1 is applied to the CT terminal CT of the PFC controller IC 120 (S230).

In addition, the forward voltage of the diode is approximately 0.2V DC.

Therefore, when a voltage of 0.2 V of the CT terminal is applied, the gate output waveform of the PFC controller IC 120 does not go out, thereby stopping the oscillation of the IC (S240).

As such, by stopping the oscillation of the PFC controller IC 120 at the same time as the overvoltage is detected through the protection circuit unit 130, the IC blocking delay time is minimized after the overvoltage is detected to prevent overheating and damage to the components of the device. Will be prevented.

The present invention described above can be applied not only to a general power supply device, but also to flat panel display devices such as PDPs and LCDs requiring power supply, as well as to projection TVs, general TVs, monitors, and other video devices. The same applies to digital TVs and satellite TVs. In addition, it can of course be applied to all NTSC, PAL, SECAM method.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the above-described embodiments, and the present invention is not limited to the above-described embodiments without departing from the spirit of the present invention as claimed in the claims. Anyone skilled in the art can, of course, make various changes and make such changes as fall within the stated claims.

As described above, according to the PFC overvoltage cutoff device according to the present invention, by stopping the power supply by the microcomputer, the oscillation of the PFC controller IC is immediately stopped, thereby minimizing the IC shutdown delay time after the overvoltage detection to prevent overheating and In addition, there is an effect to prevent component damage of the device accordingly.

In addition, it has the effect of increasing the completeness of the power supply device and reducing field defects.

Claims (6)

A power supply unit supplying driving power; A PFC circuit unit for supplying a stable current by correcting the power efficiency output from the power supply unit through a built-in PFC (Power Factor Correction) controller IC; And a protection circuit section for detecting an overvoltage generation signal supplied from said PFC circuit section and stopping oscillation of said PFC controller IC. The method of claim 1, The protection circuit part A photo coupler turned on by detecting the overvoltage generation signal; And a diode having one side connected to the photo coupler and the other side connected to the PFC controller IC, wherein a ground (GND) voltage is applied to the cathode terminal according to the turn-on of the photo coupler. The method of claim 2, The other side of the diode PFC over-voltage cut-off device characterized in that it is connected to the CT terminal of the PFC controller IC. The method of claim 2, The diode, And a cathode terminal of which is formed toward the PFC controller IC. The method of claim 2, And a ground voltage applied to the cathode terminal. The voltage applied to the CT terminal of the PFC controller IC is a forward voltage of the diode. The method of claim 5, The forward voltage of the diode is a DC PFC overvoltage blocking device, characterized in that 0.2V.

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