KR200149046Y1 - Decision device of interruption of electric power - Google Patents

Abstract

The present invention relates to a power failure time determination device for determining a power failure time from when a power failure is applied to a home appliance applied to home appliances, the first A / D conversion for converting the output voltage to a digital signal of a predetermined level Means, a voltage charging / discharging means for charging to a predetermined capacity or performing a discharge operation corresponding to a self time constant based on a predetermined control signal, and converting the voltage discharged from the voltage charging / discharging means into a digital signal having a predetermined level. The second A / D conversion means for outputting and controlling the voltage charging and discharging means to perform a discharge operation while there is no input signal from the first A / D conversion means, and at this time from the second A / D conversion means If a predetermined level of signal is input from the first A / D conversion means while continuously searching for the input signal of the second A / D conversion means, And from a control processor to determine the power outage time based on the digital signal input it is characterized in that configured.

Description

Power failure time judging device

The present invention relates to a power failure time determination device, and more particularly, to a power failure time determination device that is applied to home appliances to determine the power failure time from when the power failure to energization.

Current household appliances that use electricity have evolved very rapidly in terms of their functionality or practicality as new technologies are developed. For example, most home appliances have their own predetermined timers for counting the time, so that their use time can be reserved in advance, such as when a user uses a product to go out or see other things. This can be very useful when you can't manage the product up close.

In other words, when the user frequently falls asleep with the television receiver turned on, for example, the user wants to automatically turn off the power of the television receiver at a designated time. The user selects an off timer function provided by the product. When the time to be turned off is specified, the predetermined control processor counts the time and automatically shuts off the power of the television set at that time, thereby avoiding troublesome operation such as the user having to turn off the power of the television set manually. Make it possible. In addition, the power of the television receiver is automatically turned on at any time, making it possible to use it more effectively than a commercial alarm clock, which is often used to wake up in the morning.

By the way, the automatic on or off function of the home appliances as described above can be used only when electricity is being supplied to the home appliance, and when a power failure occurs, a timer that counts the time stops and then goes out of power. Even if the electricity is supplied due to the time lapse, even if the timer is not driven or driven, the time for the power failure cannot be compensated for, for example, the automatic on or off function set by the user cannot be performed properly.

Therefore, the present invention was created in view of the above circumstances, and when a home appliance is in use during a power outage and is energized, the time of outage is calculated and reflected in the time counted by itself when the power is applied. It is an object of the present invention to provide an apparatus for determining a power outage time that can significantly improve reliability.

1 is a view showing a circuit configuration of a power failure time determining apparatus according to an embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

10: control processor 11, 12: A / D converter

SW1, SW2: switch

R1, R2: Resistor C: Capacitor

An apparatus for determining a power failure time according to an embodiment of the present invention for achieving the above object includes first A / D conversion means for converting and outputting an input voltage into a digital signal having a predetermined level, and a predetermined capacitance based on a predetermined control signal. A voltage charging and discharging means for charging a battery or performing a discharge operation corresponding to its own time constant, second A / D conversion means for converting and outputting a voltage discharged from the voltage charging and discharging means into a digital signal of a predetermined level; While there is no input signal from the first A / D converting means, the voltage charging and discharging means is controlled to perform a discharge operation. At this time, the input signal from the second A / D converting means is continuously searched for, and then the first A is changed. When a predetermined level signal is input from the / D conversion means, the power failure time is determined based on the digital signal input from the second A / D conversion means. It is characterized in that it is configured by a control processor.

That is, according to the above-described configuration, when the power failure occurs, the power failure time until the power is supplied can be calculated to compensate for the time when the power is supplied.

Next, the operation of one embodiment according to the present invention will be described with reference to FIG. 1.

1 is a view showing the configuration of a power failure time determining apparatus according to an embodiment of the present invention, in which reference numeral 10 is a control processor for controlling the operation of the overall device, and 11, 12 are analog signals as digital signals. An A / D converter for conversion, and reference numerals SW1 and SW2 are switches for performing an intermittent operation according to a predetermined control signal applied from the control processor 10.

Here, the A / D converter 11 is for converting and outputting a digital signal of a predetermined level with respect to a voltage signal applied from a power source Vcc and stepped down by a resistor R1. When a digital signal of a predetermined level is applied from the A / D cotton ring machine 11, it is recognized as being energized.

The other A / D converter 12 is an A / D converter for converting and outputting a digital signal of a predetermined level based on a voltage applied from a time constant circuit composed of a resistor R2 and a capacitor C. The processor 10 determines and calculates the power failure time based on the level signal applied from the A / D converter 12.

Next, the operation according to the present invention having the above configuration will be described in more detail.

First, in a normal state in which power is applied to the product, the A / D converter 11 generates a DC voltage signal having a predetermined level from the normal power supply Vcc and outputs the DC voltage signal to the control processor 10. Then, the control processor 10 short-circuits the switch SW1 and opens another switch SW2.

Subsequently, as the switch SW1 is shorted, the normal power is applied to the resistor R2 and the capacitor C, so that the capacitor C is charged to a voltage of a predetermined level by the power source.

Subsequently, when a power failure occurs, the control processor 10 opens the switch SW1 based on the residual power supply. When the switch SW1 is opened, the capacitor C is applied to the resistance value of the resistor R2. The discharge will correspond. At this time, if the resistance value is large, the discharge time is short. If the resistance value is small, the discharge time is long, so that the discharge time of the capacitor C can be adjusted by converting the resistance value of the resistor R2.

Subsequently, when the switch SW1 is opened and normal power is not applied as described above, the control processor 10 is energized at a moment when the capacitor C discharges, the control processor 10 receives a predetermined amount from the A / D converter 11. When the level of the DC signal is applied, the control processor 10 is to short-circuit control the switch (SW2).

Then, as the switch SW2 is short-circuited, a predetermined level of discharge current charged to the capacitor C by the A / D converter 12 is applied, and this A / D converter 12 is based on this applied current. The output is converted into a DC signal of a predetermined level.

Subsequently, the control processor 10 compares the level of the DC signal applied from the A / D converter 12 with the level of the DC signal converted and outputted when the maximum voltage is charged in the predetermined capacitor C, for example. The blackout time is calculated based on the car.

When the control processor 10 calculates the power failure time, the switch SW1 is immediately shorted and another switch SW2 is opened. The capacitor C is normally applied as the switch SW1 is shorted. The voltage is charged at a predetermined level.

Then, the control processor 10, for example, if a power failure occurs in a state in which the on-timer function is set in the television receiver, and then powers on again after a predetermined time has elapsed, the control processor 10 calculates the time during the power failure to perform the on-timer function. The on-timer function can be normally performed by correcting the current time based on the time and driving a predetermined time counting timer.

That is, according to the above-described configuration, the capacitor is charged in a predetermined capacity in a normal operation state, and when the power is interrupted, the capacitor is discharged. When the power is again supplied, the power failure is based on the amount of charge discharged during the power failure. The time can be calculated.

On the other hand, the present invention is not limited to the above embodiment, and various modifications can be made within the scope without departing from the technical gist of the present invention.

As described above, according to the present invention, when a power failure occurs and the power is supplied, the calculated time during the power failure is calculated, and the current time is automatically corrected and counted when the power is supplied to the calculated time, thereby significantly improving the reliability of the product. It is possible to realize the power failure time determination device that can be achieved.

Claims (2)

First A / D conversion means for converting and outputting an input voltage into a digital signal having a predetermined level; A voltage charging and discharging means which is charged with a predetermined capacity based on a predetermined control signal or performs a discharge operation corresponding to its own time constant; Second A / D conversion means for converting and outputting the voltage discharged from the voltage charging and discharging means into a digital signal having a predetermined level; While there is no input signal from the first A / D converting means, the voltage charging and discharging means is controlled to perform a discharge operation. At this time, the input signal from the second A / D converting means is continuously searched for, and then the first A is changed. And a control processor for determining a power failure time based on the digital signal input from the second A / D conversion means when a signal of a predetermined level is input from the / D conversion means. The apparatus of claim 1, wherein the control processor controls the voltage to be continuously supplied to the voltage charging and discharging means while a signal of a predetermined level is input from the first A / D converter.