KR200157748Y1 - Electrostatic compensation circuit - Google Patents

Abstract

The present invention provides a power outage compensation circuit that cuts off a large portion of power consumption and performs only a timer or a reservation function in the microcomputer when the power is temporarily cut off due to a power failure or an unplugged cord. In this circuit, when the abnormal voltage is generated, a signal is detected and sent to the microcomputer, and the microcomputer enters a low power consumption mode and the compensation power is supplied to the microcomputer. This is done by connecting a reset IC to be output to the microcomputer.

Description

Power failure compensation circuit

1 is a conventional electrostatic compensation circuit diagram.

2 is a power failure compensation circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

IC ₁ , IC ₂ : Reset IC 1: Microcomputer

The present invention relates to a power failure compensation circuit used in home appliances such as VCR, and especially when a power is cut off momentarily due to a power failure or unplugging a cord, Basically, the present invention relates to a power failure compensation circuit that performs only a timer or a reservation function in the microcomputer.

In general, when a set of VLC or other devices operates normally, an abnormal voltage such as a power failure occurs, the power failure compensation circuit is used as a means for continuously performing basic operations of the cell when the power supply is temporarily cut off and then supplied again. I use it.

At this time, the set circuit detects the abnormal voltage and sends an abnormal signal to the microcomputer, and the MIMO saves the basic data before the abnormal signal is detected in the RAM and performs compensation such as timer and reservation function. In addition to supplying microcomputers and cutting off power to other high power consumption parts, power consumption on the cell is minimized.

Conventional electrostatic compensation circuit 2 as shown in FIG. 1 includes transistors Q ₁ (Q ₂ ), resistors R ₁ to R ₇ , diodes D ₁ (D ₂ ), zener diodes (ZD), and capacitors (C). ₁ ) and outputs a signal of the corresponding level to the microcomputer 1 according to the input voltage state.

Here, IC ₁ is a reset IC, 3 is a compensation power supply such as a battery or a capacitor, and D ₃ is a diode for preventing the current of the compensation power from flowing into another circuit part.

In such a conventional electrostatic compensation circuit, the diode D ₂ is connected to the ground side during normal operation, so that the potential at the point B is about -0.6V.

At this time, the zener diode (ZD) value is set so that the potential of the point A is slightly larger than or close to 0V, and the transistor Q ₁ is turned on during normal operation. Accordingly, the resistor R \ 6 and the diode D ₁ so) to the base current of the transistor into the (Q ₁₎ transistor (Q ₂₎ flows through the transistor (Q ₂₎ on a microcomputer (1), the high level is input.

When the high level is input to the microcomputer 1 as described above, the microcomputer 1 detects that the normal voltage is input. At this time, the compensation power supply 3 is not supplied to the microcomputer 1.

In case of an abnormal voltage of a power failure lamp, the voltage at the two output terminals V ₁ (-V ₂ ) of the power supply unit drops so that the potential at the point A decreases. However, the potential at point B is maintained at about -0.6V until the outputs of both output stages become 0V.

Therefore, the potential of point A is, because the transistor (Q ₁₎ at a time point which is lower than 0V off the base current of the transistor (Q ₂₎ is not able to flow into the resistor (R ₆₎ and the diode (D ₁₎ the transistor (Q ₂ ) Is also off.

At this time, the charge charged in the capacitor C ₁ is discharged to accelerate the turning off of the transistor Q ₂ .

Therefore, since the output of the compensation circuit 2 becomes low level as the transistor Q ₁ is turned off, the microcomputer 1 detects it and switches to a low power consumption mode, whereby the microcomputer 1 performs a basic operation. The power source 3 is supplied to the microcomputer 1.

Here, the cell is switched to the low power consumption mode in the case of an abnormal voltage. Most of the power supply in the compensation circuit uses a battery for charging and discharging or a high capacity capacitor. These power supplies are not permanent power, and thus cannot function as a power supply after a certain time. Since it is a temporary power supply, all the modes except for the basic operation of the cell (timer operation and reservation function, etc.) should be stopped to minimize the power consumption of the two power sources.

When the compensation power supply 3 is lower than the reset IC (IC ₁ ) voltage, the cell is reset. Therefore, the compensation power supply 3 should be higher than the reset IC (IC ₁ ). In this case, there is an advantage of maintaining the compensation time for a long time, but there is a disadvantage in that the cost increases, and in the case of using a capacitor, the compensation time is short, but the cost is reduced compared to the rechargeable battery and can be directly mounted on the circuit board.

However, in the prior art as described above, not only is the configuration of the compensation circuit 2 complicated, but also the cost of using a large amount of components increases.

The present invention has been devised to solve the above-mentioned shortcomings, and the compensating circuit is composed of a simple circuit instead of using a large number of components, and performs a basic operation of the set continuously when an abnormal voltage such as a blackout occurs. The purpose is to provide a circuit.

In the blackout compensation circuit that detects an abnormal voltage such as a power failure to achieve the above object and switches the microcomputer to a low power consumption mode, a portion of which power consumption is high when an abnormal voltage such as a power failure occurs between the microcomputer and the output of the power supply unit. It characterized in that it is configured by connecting the power failure compensation means to cut off the power supply and to maintain only the basic operation continuously.

Hereinafter, with reference to the accompanying drawings an embodiment of the subject innovation electrostatic compensation circuit will be described in detail.

2 is a circuit diagram of the present invention, when an abnormal voltage is detected, a signal is detected and sent to the microcomputer 1, the microcomputer 1 is switched to a low power consumption mode, and the compensation power source 3 is supplied to the microcomputer 1 so that the microcomputer ( 1) is a circuit for performing only the basic operation, the power failure compensation to output the level of the signal to the microcomputer (1) when an abnormal voltage occurs between the output terminal (V) (-V ₂ ) and the microcomputer (1) means of one-chip connection hayeoseo reset the IC (IC ₂₎ to be configured for the drawing reference numeral ₁ of the IC is IC, 3 for the reset power supply compensation, D ₃ is a reverse current preventing diode.

According to the present invention configured as described above, a high level is output from the reset IC (IC ₂ ) to the microcomputer 1 so that the microcomputer 1 senses that a normal voltage is input.

However, if the power cord is disconnected or an abnormal voltage such as a power failure occurs, the voltage at the output terminal V ₁ (-V ₂ ) of the power supply unit drops. At this time, the voltage applied to the reset IC (IC ₂ ) is a constant voltage (for example, For example, below 4.5V), the output of the reset IC (IC ₂ ) becomes a low level.

Therefore, the microcomputer 1 detects this and enters a low power consumption mode. At this time, the power from the compensation power supply 3 is supplied to the microcomputer 1 to basically perform only a timer and a reservation function in the microcomputer 1. To ensure that

As described above, the present invention detects an abnormal state when an abnormal voltage is generated and outputs it to the microcomputer 1 by using a simple reset IC (IC ₂ ) without using a complicated compensation circuit. Not only is it simpler, it is also cost effective.

Claims (1)

In a circuit in which a signal is detected when an abnormal voltage is generated to the microcomputer, the microcomputer is switched to a low power consumption mode and compensation power is supplied to the microcomputer. When an abnormal voltage occurs between an output terminal of the power supply unit and the microcomputer, a signal having a predetermined level is transferred to the microcomputer. An electrostatic compensation circuit comprising a reset IC for outputting.