KR960006373Y1 - Voltage auto converting circuit - Google Patents

Abstract

None.

Description

Power automatic switching circuit

1 is a circuit diagram showing an automatic power supply switching circuit according to the present invention.

* Explanation of symbols for main parts of the drawings

10: power supply voltage means 20: first power transformer

30: second power transformer 40: smoothing means

50: adjustment means 60: determination means

70: control means 80: switching means

61: comparator

The present invention relates to a circuit for automatically switching a power input terminal according to the size of an AC supply power input in a power supply device.

In general, domestic homes and factories are supplied with only one AC power of 110V and 220V or both kinds of AC power depending on the region. Therefore, ordinary home appliances have a built-in power supply that can combine 110V and 220V AC power so that the power input passage can be selected by a switch according to the AC power used.

However, since the power supply of the conventional 110V / 220V home appliance is to operate the power selection switch attached to the home appliance after the user recognizes the voltage of the AC power supplied to the user to select the power input passage In case of changing the input path, the user needs to know the voltage of AC power first.In addition, if user selects 110V AC power input path and applies 220V AC power, it is attached to 110V AC power input side. The fuse was blown by an AC power supply of 220V, and there was a problem in that the system could not be driven.

Therefore, an object of the present invention is a power supply device that can combine two AC power sources of different voltage sizes, the power supply that can provide the reliability and convenience of the product by automatically switching the input path according to the size of the AC power supply An automatic switching circuit is provided.

In order to achieve the above object, the present invention selects one input tap among a first power transformer having an input tap capable of applying two or more AC powers of different voltages, and an input tap of the first power transformer. A power supply having a switching means, comprising: a power supply voltage supply means for supplying at least two AC supply power; A second power transformer for changing the voltage supplied from the power voltage supply means at a constant ratio; Smoothing means for smoothing the voltage supplied from the second power transformer; Judging means for judging the magnitude of the supply power supply voltage by comparing the input voltage and the reference voltage applied by the smoothing means; And control means for controlling the switching means by the output signal of the judging means and adjusting means for adjusting the output voltage of the smoothing means to supply a constant voltage necessary for driving the judging means and the control means. It is characterized by.

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

1 is a circuit diagram of another embodiment of the present invention, the configuration is as follows.

The first power transformer 20 includes second to third terminals including a reference terminal connected to an output terminal of the power voltage supply means 10 on the secondary side.

The switching means 80 connects the reference contact P1 to the output terminal of the power voltage supply means 10, and connects the second contact P2 to the second terminal T2 of the first power transformer 20. The third contact point P3 is connected to the third terminal T3 of the first power transformer 20.

The second power transformer 30 is configured to connect the primary side to the output terminal of the power voltage supply means 10 and the secondary side to the input terminal of the smoothing means 40 which will be described later.

The smoothing means 40 connects a bridge rectifier circuit composed of a diode to the secondary side of the second power transformer 30, and one output of the bridge rectifier circuit is connected to the ground terminal GND through a capacitor C1. The other output is configured to connect directly to ground (GND).

The adjusting means 50 is composed of a zener diode ZD1 and a resistor R1 connected in series so as to have a connection point A1 between the output terminal of the smoothing means 40 and the ground terminal GND.

The judging means 60 includes resistors R2 and R3 connected in series so as to have a connection point A2 between the output terminal of the smoothing means 40 and the ground terminal GND, and the connection point A1 and the ground terminal GND. Resistors R4 and R5 connected in series to have a connection point A3 therebetween, and a comparator 61 connecting the connection point A2 to a (+) input terminal and the connection point A3 to a (-) input terminal. It is composed.

The control means 70 connects the ground terminal GND to the emitter, and connects the output terminal of the determination means 60 to the base of the transistor Q1 to which the supply power Vcc is applied through the resistor R7 to the collector. The diode D1 connected to the resistor R6 and connected to the ground terminal GND at the anode terminal and applying the supply power Vcc to the cathode terminal through the resistor R6 is connected to the transistor Q1. It is configured to be connected in parallel.

Next, the operation of FIG. 1 will be described.

The power supply voltage supply means 10 is for supplying any two or more alternating current supply powers that can be supplied depending on the region, and is set to supply power supply voltages of 110V and 220V suitable for the current domestic situation. .

When the AC supply power is not applied from the power supply voltage supply means 10, the switching means 80 always has a reference contact P1 connected to an output terminal of the power supply voltage supply means 10 and the third contact point P3. It is set to be connected.

When the AC supply power is applied from the power supply voltage supply means 10, the AC supply power is converted into a predetermined voltage through the second power transformer 30 and applied to the smoothing means 40, and the radio wave in the smoothing means 40. Output smooth power supply through the type bridge diode circuit and the capacitor (C1).

The adjusting means 50 is for adjusting the supply power output from the smoothing means 40 to be suitable for driving the determination means 60 and the control means 70 to be described later, and the output of the smoothing means 40. The voltage is adjusted by dividing the resistor R1 and the zener diode ZD1 respectively. That is, the applied voltage and the reference voltage VCC of the comparator 61 in the determination means 60 are set respectively.

The judging means 60 applies the voltage applied to the resistor R1 of the adjusting means 50 as the applied voltage and applies the voltage applied to the zener diode ZD1 as the reference voltage VCC. The reference voltage VCC connected to is set appropriately for the comparator 61 through the resistors R4 and R5 and applied to the negative input terminal of the comparator 61 through the connection point A3, and the smoothing means 40 The applied voltage applied at the connection point between the output terminal of < RTI ID = 0.0 > and < / RTI > The comparator 61 compares the applied voltage applied at the connection point A2 and the reference voltage applied at the connection point A3, so that when the applied voltage A2 is larger than the reference voltage A3 (A2A3), the high logic level is applied. Outputs a low logic level when the applied voltage A2 is equal to or smaller than the reference voltage A3 (A2A3).

Therefore, when the output of the comparator 61 is at the high logic level, the control means 70 applies high logic to the base of the transistor Q1 through the resistor R6, and thus the transistor Q1 is turned on. As a result, the low logic of the ground terminal GND is applied to the switching means 80, and the reference contact P1 connected to the third contact point P3 is automatically switched to the second contact point P2. On the other hand, if the output of the comparator 61 is at a low logic level, the transistor Q1 is turned off through the resistor R6, and the power supply Vcc is applied to the switching means 80 to supply the second contact point P2. The connection state of the reference contact point P1, which is connected to, does not change.

As described above, the present invention is a power supply device for a home appliance of 110V / 220V, which automatically selects a corresponding input path among 110V and 220V input paths according to the voltage level of the supplied AC power. There is an advantage to improve the convenience of the user.

Claims (1)

Switching means for selecting one of the input taps of the first power transformer 20 and the input tap of the first power transformer 20 having an input tap to which two or more AC power sources of different voltages may be applied, respectively. In the automatic power supply switching circuit provided with (80), the output of the second transformer (30) for filtering the voltage applied through the power supply voltage supply means (10) is connected to the capacitor (C1) via a bridge diode, and the capacitor The resistors R1 and R2 are connected in parallel to the connection point of (C1), and the connection point A2 of the resistor R2 and the resistor R3 is connected to the non-inverting terminal (+) of the comparator 61, The voltage supply terminal Vcc, the zener diode ZD1, and the resistor R4 are connected in parallel to the other point A1 of the resistor R1, and the connection point A3 of the resistor R4 and the resistor R5 is connected to the comparator. Is connected to the inverting terminal (-) of (61), the output terminal of the comparator (61) is connected to the base of the transistor (Q1) via a resistor (R6), and the transistor The emitter of (Q1) is connected to the anode of the diode (D1) and grounded, and the collector of the transistor (Q1) is connected to the cathode of the diode (D1), the voltage supply terminal (Vcc), and the switching means (80). Power supply automatic switching circuit.