KR200157444Y1 - Power switch circuit in wire remote control - Google Patents

Abstract

The present invention provides a Schmitt trigger for inverting the high / low signal generated from the text switch, a two-division circuit for dividing the signal generated from the Schmitt trigger, a Schmitt trigger for inverting the divided signal, and the inverted signal. Power supply to the microcomputer is not supplied when the system is powered on by providing a power switching circuit in a wired remote control composed of an AND gate that outputs a high / low signal and a switching regulator that turns the system power on and off according to the output of the AND gate. Power key can be recognized at, and the work that is being performed at the time of power off is completed to save necessary data and then the system is powered off to prevent power consumption.

Description

Power Switching Circuit in Wired Remote Control

1 is a power supply switching circuit diagram of the present invention

* Explanation of symbols for the main parts of the drawings

10: dividing circuit 20: switching regulator

MICOM: Micom TS: Tact Switch

ST _1, ST ₂ : Schmitt trigger AND: End gate

The present invention can be applied to a system that can reduce power consumption by not supplying power to the microcomputer at system startup, or to a wired remote controller that can be used for industrial electronic devices and home appliances that need to store work that is being performed when the power is turned off. The present invention relates to a power switching circuit, and in particular, the present invention enables the power key to be recognized even when the power supply to the microcomputer is not supplied when the system is turned on. The present invention relates to a power supply switching circuit in a wired remote controller that enables power off of a system after storing necessary data to prevent power consumption.

The power switch of the conventional wired remote controller can be divided into two types.

First, the general on / off switch that directly turns the power on or off, and secondly, the microcomputer recognizes the key value when the power key is pressed by connecting a dedicated remote control chip with the microcomputer. To supply power.

However, the power switch of the conventional remote control is a simple power switch in the case of the former, the power is turned on even when the power supply is not supplied to the microcomputer.

However, if the power is turned off during the work, there is a problem that the work being done is not finished and the data cannot be saved.

On the other hand, in the latter case, once the microcomputer has to wait for which key is pressed all the time, and the microcomputer has to be supplied with power all the time, there is a problem in that much power is consumed.

The present invention was made to solve the conventional problems as described above, the purpose of which is to recognize the power key even when the power supply is not supplied to the microcomputer when the system power on, and also to save the data on the work that was being performed when the power off power It can be turned off to prevent a lot of power consumption.

In more detail, one input port of the microcomputer and two output ports provide one input port of the microcomputer from high (H) to low (L) and low to high when the power is turned off. In addition, one of the two output ports of the microcomputer recognizes the power off key at the input port and controls the power key not to operate while saving the working data while the other output port is powered. Even after the power-on key is turned on, even if the power-off key is input, the power is not turned off so that power consumption can be prevented by storing and turning off the data on the work being performed.

When the present invention is described in detail by the accompanying drawings as follows.

1 is a power supply switching circuit diagram of the present invention, as shown in FIG. 1, a text switch TS for turning on / off by on / off control to generate a high / low signal; A schmitt trigger (ST ₁ ) for inverting and outputting the signal generated from the text switch; A two-dividing circuit (10) for dividing the signal generated from the Schmitt trigger (ST ₁ ) by two; A schmitt trigger (ST ₂ ) for inverting and outputting the signal divided by the two-dividing circuit (10); An AND gate outputting a high / low signal according to the signal inverted through the Schmitt trigger ST ₂ ; A switching regulator 20 for supplying power and turning on the power of the system when the output of the AND gate is low, and turning off the power of the system when the output of the AND gate AND is high; Output port OP ₁ is turned low when power is supplied from the switching regulator 20, and output port OP ₂ is turned low when a power off signal is input from the switching regulator 20. The two-dividing circuit 10 is cleared, and the MICOM is configured to turn off the system after finishing the work being performed and storing necessary data.

Referring to the effect of the present invention configured as described above are as follows.

First, when the output terminal (③) of the AND gate (AND) goes low (L), the switching regulator 20 receives + 12V power and outputs 5V power to the system to turn on the power of the system. If the output terminal ③ of the AND gate AND becomes high (H), the switching regulator 20 cuts off the power of 5V output to the system to turn off the power of the system.

Next, an operation process of turning on / off the power of the system by the high / low signal of the input terminal (1) of the AND gate AND will be described.

First of all, in the initial state in which no key or the text switch TS is pressed, the input of the schmitt trigger ST ₁ is high (H), and a high signal is input to the other terminal (②) of the AND gate (AND). Is input.

In addition, the inverted high signal ST ₁ inverts the input high signal and then outputs a low signal to the two-dividing circuit 10, and the two-dividing circuit 10 transmits the schmitt trigger ST ₁ . After receiving the low signal outputted from the output divided by the Schmitt trigger (ST ₂ ). On the other hand, the Schmitt trigger (ST ₂ ) receives the low signal output from the two-dividing circuit 10, inverts to a high signal and outputs to one side (①) terminal of the AND gate (AND).

Then, the AND gate AND outputs a high signal to the switching regulator 20.

In this way, the switching regulator 20 cuts off the power of 5V output to the system by the high signal output from the AND gate AND.

In this state, when the text switch TS is pressed and released, the clock signal of the two-dividing circuit 10 is input through the Schmitt trigger ST ₁ , and a high signal is outputted to the output terminal Q thereof. As the high signal outputted at (10) is inverted to a low signal by the Schmitt trigger (ST ₁ ), one input terminal (①) of the AND gate (AND) becomes low, and the low gate (AND) outputs a low signal. Done.

As the low signal is output from the AND gate (AND), the switching regulator 20 receives + 12V of power and outputs 5V of power to the system to operate the system normally by turning on the power of the system. At the same time, it supplies 5V power to MICOM.

Therefore, in the MICOM supplied with power, the output port OP ₁ is used to make a low L at the input of the A-point AND gate AND.

In this state, pressing and releasing the text switch TS again generates a clock through the schmitt trigger ST ₁ , and the generated clock signal is converted from the high state to the low state by the two-dividing circuit 10. Then, the switching regulator 20 outputs a power off signal to the MICOM.

At this time, the MICOM recognizes that the input port IP has been changed state from high to low and knows that the power off signal is input.

However, the system will not power off immediately at this time. Because as soon as the system is turned on, the A point of the MICOM output port (OP ₁ ) is set low, so even if the B point becomes high, the C point is still low and the system continues to be turned on. ON) state.

When MICOM recognizes the power off signal through its input port IP, the D point is made low by using the output port OP ₂ of MICOM, and the two-division circuit 10 Clear it to prevent another key operation.

Therefore, since no input affects the output of the dividing circuit 10 while the clear (CL) pin of the dividing circuit 10 is low, after finishing the work being performed and storing the necessary data, The power key does not work while the system is off.

Then, the MICOM finishes the work being performed in a short time and stores the necessary data. Then, the MICOM output port OP ₁ is made high and the C point is made high so that the switching regulator 20 ) Turns off the power supply to the system by cutting off the 5V supply to the system.

In this way, the present invention can be performed continuously by referring to the previous work to turn on the system by pressing and releasing the text switch.

If you press and release the text switch once again, the microcomputer will finish the work you were doing, save the necessary data, and turn off the system.

The present invention operated as described above has the effect of enabling the microcomputer to turn on the power supply without unnecessary power supply, and finishing the work being performed and storing necessary data, and then turning off the power of the system.

Claims (1)

A text switch that is turned on / off by on / off control to generate a high / low signal; A schmitt trigger for inverting and outputting the signal generated from the text switch; A two-dividing circuit for dividing the signal generated from the Schmitt trigger by two; A schmitt trigger for inverting and outputting the signal divided by the two-dividing circuit; An AND gate outputting a high / low signal according to the signal inverted through the Schmitt trigger; A switching regulator for supplying power when the output of the AND gate is low and turning on the power of the system, and turning off the system when the output of the AND gate is high; When the power is input from the switching regulator, the output port is set low. When the power off signal is input from the switching regulator, the output port is set low. And a microcomputer that turns off the power of the system after storing necessary data.