KR20110007864A - Apparatus for protecting under voltage in supplying voltage - Google Patents

Abstract

PURPOSE: An apparatus for protecting the supply of a low voltage is provided to stop the entire system by stopping the operation of a voltage converting part when the application of an input alternating current voltage value is low. CONSTITUTION: A voltage converting part(102) rectifies and stores an alternating current supplied from alternating current source(102a). The voltage converting part includes a rectifying diode(102b), a main capacitor, and an AC/DC converter(102c) and a DC/DC converter(102d). A low voltage comparing part compares the stored alternating current voltage value with a reference alternating current voltage value in order to turn on the operation of a switching device(SW). A low voltage supply preventing part(108) receives the turn-on signal of the switch device and selectively stops the operation of the voltage converting part.

Description

Apparatus for protecting under voltage in supplying voltage}

Embodiments relate to low voltage supply protection devices.

In general, power supplies have been provided to provide adequate power to the load.

Here, the power supply device uses at least one of an AC / DC converter for converting an AC voltage into a DC voltage or a DC / DC converter for converting a DC voltage into a DC voltage of another level to supply appropriate power to a load.

Recently, power supplies have been designed to include low voltage supply protection devices to block low voltages from being supplied to the load.

That is, the research on the low voltage supply protection device improved to stop the operation of the load receiving the DC voltage by blocking the supply to the load when the input AC voltage value is lower than the reference AC voltage value has been continuously conducted. .

The low voltage supply protection device according to the embodiment may stop the operation of the entire system by stopping the operation of the voltage converter when the input AC voltage value is lower than the reference AC voltage value.

The low voltage supply protection device according to the embodiment rectifies the AC current supplied from the AC voltage source, converts the rectified and stored AC input voltage into a DC input voltage, and converts the converted DC input voltage into a DC input voltage of another level, thereby outputting a DC output voltage. A voltage converter for outputting the voltage, a standby power mode operation unit for receiving the full-wave rectified DC voltage supplied from the AC voltage source and operating in the standby power mode, and rectifying the AC current supplied from the AC voltage source and storing the stored AC voltage value. The low voltage comparator which turns on the operation of the switching element when the reference AC voltage value is lower than the already set reference AC voltage value, and the operation of the voltage converter by receiving the turn-on signal of the switching element selectively through the low voltage comparator. Voltage supply to selectively stop It includes chapters.

The low voltage supply protection device according to the embodiment has the effect of stopping the operation of the entire system by stopping the operation of the voltage converter when the input AC voltage value is lower than the reference AC voltage value.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

<Examples>

1 is a circuit diagram showing a low voltage supply protection device according to an embodiment of the present invention.

Referring to FIG. 1, a low voltage supply protection device 100 according to an embodiment of the present invention may include a voltage converter 102, a standby power mode operation unit 104, a low voltage comparison unit 106, and a low voltage supply prevention unit ( 108) and the like.

The voltage converter 102 rectifies and stores the AC current supplied from the AC voltage source 102a, converts the stored AC input voltage into a DC input voltage, and converts the converted DC input voltage into a DC input voltage having a different level. It is provided to output an output voltage.

More specifically, the voltage converter 102 includes an AC voltage source 102a, at least one rectifier diode 102b, at least one main capacitor Cin, an AC / DC converter 102c, and a DC / DC converter 102d. And the like.

At least one rectifying diode 102b may be provided to be electrically connected with the alternating voltage source 102a to rectify an alternating current supplied from the alternating voltage source 102a.

At least one main capacitor Cin may be provided to be electrically connected to the at least one rectifying diode 102b to store an AC input voltage rectified by the at least one rectifying diode 102b.

The AC / DC converter 102c may be provided to be electrically connected to at least one main capacitor Cin to convert an AC input voltage stored in the at least one main capacitor Cin into a DC input voltage.

The DC / DC Converter 102d may be provided to convert the DC input voltage converted by the AC / DC Converter 102c into a DC input voltage of another level to output a DC output voltage.

At this time, although not shown, the voltage converter 102 forms an alternating current supplied from the alternating current voltage source 102a using a PFC (Power Factor Correction) circuit, and equalizes the magnitude and phase of the same ratio as the alternating current input voltage. The power factor correction AC input voltage can be supplied to the AC / DC converter 102c.

The standby power mode operation unit 104 is provided to operate in the standby power mode by receiving a full-wave rectified DC voltage supplied from an AC voltage source 102a.

The low voltage comparator 106 rectifies the alternating current supplied from the alternating current voltage source 102a and compares the stored alternating current voltage value with a reference alternating current voltage value already set, which is later described. It is provided to turn on the operation of the switching element SW.

In more detail, the low voltage comparator 106 includes at least one other rectifier diode D1 and D2, at least one resistor R1 and R2, at least one capacitor C1 and C2, and an inverting amplifier OP-AMP. , A power supply voltage source VCC, at least one other resistor R3 and R4, at least one other capacitor C3, a switching element SW, or the like.

At least the other rectifier diodes D1 and D2 may be provided to rectify the AC current output from the standby power mode operation unit 104.

In this case, the at least one other rectifying diode D1 and D2 may include a first rectifying diode D1 and a second rectifying diode D2 connected in parallel with each other.

At least one resistor (R1, R2) may be provided so that one end is electrically connected to at least one other rectifying diode (D1, D2), the other end is grounded.

In this case, the at least one resistor (R1, R2) may include a first resistor (R1) and a second resistor (R2) connected in series with each other.

At least one capacitor C1, C2 may be provided to be electrically connected in parallel with the at least one resistor R1, R2.

In this case, at least one capacitor C1 and C2 may include a first capacitor C1 and a second capacitor C2.

The first capacitor C1 may be electrically connected to an input side (−) and an input side (+) of the inverting amplifier OP-AMP, which will be described later, and the second capacitor C2 is connected to the first capacitor C1. It may be electrically connected and may be electrically connected to an output terminal of an inverting amplifier (OP-AMP).

The inverting amplifier OP-AMP has an input side (-) terminal electrically connected to one end of at least one resistor R1 and R2 and one end of at least one capacitor C1 and C2 and an input side (+) terminal to at least one end. The AC voltage value stored in the at least one capacitor C1 and C2 is grounded while being electrically connected to the other end of the resistors R1 and R2 and the other end of the at least one capacitor C1 and C2. When lower than the already set reference AC voltage value, it is provided to output an AC voltage value stored in at least one capacitor C1, C2.

In this case, the power supply voltage source VCC may be electrically connected to the inverting amplifier OP-AMP to supply operating power to the inverting amplifier OP-AMP.

At least one other resistor (R3, R4) may be provided so that one end is electrically connected to at least one capacitor (C1, C2), the output terminal of the inverting amplifier (OP-AMP), the other end is grounded. .

In this case, at least one of the resistors R3 and R4 may include a third resistor R3 and a fourth resistor R4.

The third resistor R3 may be electrically connected to the output terminal of the inverting amplifier OP-AMP and the second capacitor C2, and one end of the fourth resistor R4 may have an output terminal and a first terminal of the inverting amplifier OP-AMP. It is electrically connected to a resistor (R3) and the other end is electrically connected to the (+) input side of the inverting amplifier (OP-AMP) and can be grounded.

At least one other capacitor C3 may be provided to be electrically connected in parallel with at least the other resistors R3 and R4.

In this case, the at least one other capacitor C3 may include a third capacitor C3 electrically connected in parallel with the fourth resistor R4.

The switching element SW is electrically connected to at least one other capacitor C3 and distributed to the at least one other capacitor C3 to turn on the stored AC voltage value to the low voltage supply protection unit 108 to be described later. It may be provided to supply a turn on signal.

Here, the switching element SW may be electrically connected to the third capacitor C3 and may be turned on by using an AC voltage value distributed and stored in the third capacitor C3.

In this case, the switching device SW may include at least one of a bipolar junction transistor (BJT), a metal oxide semiconductor field effect transistor (MOSFET), and an insulated gate bipolar transistor (IGBT).

The low voltage supply prevention unit 108 is provided to selectively stop the operation of the voltage conversion unit 102 by selectively receiving the turn-on signal of the switching element SW through the low voltage comparison unit 106.

That is, the low voltage supply prevention unit 108 may selectively stop the operation of the AC / DC converter 102c by receiving the turn-on signal of the switching element SW through the low voltage comparison unit 106.

As such, the low voltage supply protection device 100 according to an embodiment of the present invention includes a low voltage comparison unit 106, a low voltage supply prevention unit 108, and the like.

Therefore, the low voltage supply protection device 100 according to an embodiment of the present invention compares the current AC voltage value through the low voltage comparison unit 106 with a value that has already passed through the resistance distribution circuit and the reference AC voltage value. When the AC voltage is lower than the AC voltage, the turn-on signal may be supplied to the low voltage supply prevention unit 108, and the operation of the voltage converter 102 may be selectively stopped through the low voltage supply prevention unit 108.

Accordingly, the low voltage supply protection device 100 according to the embodiment of the present invention may stop the operation of the voltage converter 102 when the input AC voltage value is lower than the reference AC voltage value, thereby preventing the operation of the entire system. The operation can be stopped.

Those skilled in the art to which the present invention pertains will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

1 is a circuit diagram showing a low voltage supply protection device according to an embodiment of the present invention.

Description of the main parts of the drawing

100: low voltage supply protection device # 102: voltage converter

102a: AC voltage source 102b: at least one rectifier diode

102c: AC / DC Converter 102d: DC / DC Converter

104: standby power mode operation unit # 106: low voltage comparison unit

108: low voltage supply prevention unit

Claims (10)

A voltage converter configured to rectify an AC current supplied from an AC voltage source, convert the rectified and stored AC input voltage into a DC input voltage, and convert the converted DC input voltage into a DC input voltage having a different level to output a DC output voltage; A standby power mode operation unit which receives a full-wave rectified DC voltage supplied from the AC voltage source and operates in a standby power mode; A low voltage comparator for rectifying the AC current supplied from the AC voltage source and comparing the stored AC voltage value with a reference AC voltage value already set and turning on the operation of the switching element when it is lower than the preset AC voltage value, and a low voltage And a low voltage supply prevention unit selectively receiving the turn-on signal of the switching element through the comparing unit to selectively stop the operation of the voltage conversion unit. The method of claim 1, The voltage converter, An AC voltage source; At least one rectifier diode electrically connected to the AC voltage source to rectify an AC current supplied from the AC voltage source; At least one main capacitor electrically connected to the at least one rectifying diode to store an AC input voltage rectified by the at least one rectifying diode; An AC / DC converter electrically connected to the at least one main capacitor to convert an AC input voltage stored in the at least one main capacitor into a DC input voltage; And And a DC / DC converter configured to convert a DC input voltage converted by the AC / DC converter into a DC input voltage having a different level and output a DC output voltage. The method of claim 1, The low voltage comparison unit, At least one other rectifier diode for rectifying an alternating current output from the standby power mode operation unit; At least one resistor, one end of which is electrically connected to the at least one other rectifying diode and the other end of which is grounded; At least one capacitor electrically connected in parallel with the at least one resistor; An input side (-) terminal is electrically connected to one end of the at least one resistor and the at least one capacitor, and an input side (+) terminal is electrically connected to the other end of the at least one resistor and the other end of the at least one capacitor. An inverting amplifier configured to output an AC voltage value stored in the at least one capacitor when the AC voltage value stored in the at least one capacitor is lower than the already set reference AC voltage value by comparing the AC voltage value stored in the at least one capacitor with the already set reference AC voltage value. Wow; A power supply voltage source electrically connected to the inverting amplifier to supply operating power to the inverting amplifier; At least one resistor electrically connected to the at least one capacitor and electrically connected to the output terminal of the inverting amplifier, the other end being grounded; At least one other capacitor electrically connected in parallel with the at least one other resistor; And And a switching element electrically connected to the at least one other capacitor to supply a turn-on signal to the low voltage supply prevention part while turning on the AC voltage value distributed and stored in the at least one other capacitor. The method of claim 3, wherein The at least one other rectifier diode, A low voltage supply protection device comprising a first rectifying diode and a second rectifying diode connected in parallel with each other. The method of claim 3, wherein The at least one resistor, A low voltage supply protection device comprising a first resistor and a second resistor in series with each other. The method of claim 3, wherein The at least one capacitor, A first capacitor electrically connected to an input side (−) and an input side (+) of the inverting amplifier; And And a second capacitor electrically connected to the first capacitor and electrically connected to an output terminal of the inverting amplifier. The method of claim 6, The at least one other resistor is, A third resistor electrically connected to an output terminal of the inverting amplifier and the second capacitor; And And a fourth resistor having one end electrically connected to an output end of the inverting amplifier and the third resistor, and the other end electrically connected to the inverting amplifier input side (+) and having a grounded fourth resistor. The method of claim 7, wherein The at least one other capacitor is, And a third capacitor electrically connected in parallel with the fourth resistor. The method of claim 8, The switching element is electrically connected to the third capacitor. The method of claim 1, The switching device includes at least one of a Bipolar Junction Transistor (BJT), a Metal Oxide Semiconductor Field Effect Transistor (MOSFET), and an Insulated Gate Bipolar Transistor (IGBT).

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