KR0169776B1 - Method for preventing wrong operation of remote controller - Google Patents

Abstract

The present invention relates to a method for preventing the malfunction of the remote control to check the time of the input signal to distinguish whether the input signal is a signal of the remote control or external noise to prevent the malfunction of the remote control, Timer1 process that determines whether the repeat code is received within 180ms, which is the normal operation time of the remote control repeat code by counting the timer built in the CPU, and determines whether the input signal is the normal signal of the remote control when the remote control repeat code is within 180ms. The timer 2 process is used, and by using two or more timers as described above, the output waveform of the remote controller is accurately detected from fluorescent lamps or external noise, thereby preventing the remote controller from malfunctioning.

Description

How to prevent malfunction of the remote control

1 is an exemplary diagram showing a conventional remote control output waveform.

2 is a flowchart of a main process and a timer 1 process according to the present invention.

3 is a flowchart of a timer 2 process according to the present invention.

4 is an exemplary diagram showing remote control repetition code processing using a CPU according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Reader Code 2: Custom Code

3: data code 4: repeat code

5: CPU Core 6: RAM (Ramdom Access Memory)

The present invention relates to a method for preventing a malfunction of a remote controller, and more particularly, by checking the time of an input signal to distinguish whether an input signal is a signal of a remote controller or external noise to prevent a malfunction of the remote controller. It is about a method.

Referring to FIG. 1, the conventional case is an exemplary view showing a conventional remote control output waveform, and the remote control signal is composed of a reader code, a custom code, a data code, and a repetition code. Is used to send a repeated signal, i.e. up or down the volume or channel.

However, since the waveform of the remote control repetitive signal is similar to the waveform emitted from the fluorescent lamp, the remote control may be operated without operating the remote controller.

Accordingly, the present invention is to overcome the above-mentioned conventional problems, an object of the present invention is to provide a malfunction prevention of the remote control by accurately distinguishing the output waveform of the remote control and the fluorescent lamp or external noise by using two or more timers. have.

As an example for achieving the object of the present invention, a method for preventing the malfunction of the remote control is to read the repeat counter every 30ms to determine whether the repeat code of the remote control within a normal time interval of 180ms counter value will be 6 If the repetition code is input within 180ms, go through Timer2 process, and if the repetition counter is 6 and the repetition code has not been entered for about 180ms, set the repetition counter and the repetition allowance flag to 0 and then enter the repetition code. Is not recognized.

As another example for achieving the object of the present invention, a method for preventing a malfunction of the remote control is to determine whether the repetition code of the remote control is within 180ms of the normal time interval to increase the counter value by reading the repeating counter every 30ms If it is determined that the repetition counter is 6, and the repetition code is input before 6, the input signal is read to determine whether it is the reader code. If it is verified that the input signal is the reader code and the input signal is the reader code, the leader flag and the repeat permission flag are set to 1, the repeat flag and the repeat counter are set to 0, and the input signal is the repetitive code to confirm that it is the repetitive code. If you see a step that is not repeated code A negative return step, a determination of whether or not the repeat permission flag is 1, if 1, go to the next step, if not 1, return to the first step, and the repeat counter is 0 when it is determined that the repeat permission flag is 1. In this case, the repetition flag is set to 1, and a step is sent to the main process of FIG. 2 in order to perform an operation on a key previously performed by the remote controller.

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

Referring to FIG. 1, the output waveform of the remote controller has a custom code for 27 ms in succession with a reader code of 13.5 ms (mm second) and a data code for 27 ms in succession with the custom code.

40.5ms after the data code is entered, the repeat code comes in, so that 108ms after the reader code signal is input, the repeat code is in the structure that has a structure.

2 and 3 illustrate a repetitive code processing algorithm of a remote control signal showing a method for accurately detecting a repetitive signal of a remote control according to the present invention. FIG. 2 shows a main process and a timer 1 process.

The main process of FIG. 2 determines whether the repeat flag is 1 (S20), and if it is 1, performs an operation on the remote controller key previously performed (S2). If the repeat flag is not 1, the repeat flag is Repeatedly read the signal until it becomes 1.

The timer 1 process of FIG. 2 is performed once every 30ms, and there is a repeating counter, which adds 1 every time the timer 1 process is performed (S22), and it is determined whether the repeating counter is 6 If the repeat counter is set to 0 and 6 is not reached, return to step S22 to continue counting the repeat counter (S23), and if the repeat counter is 6 in the step S23, the repeat counter and the repeat are allowed. It consists of a step S24 of making the flag zero.

In the timer 2 process of FIG. 3, the first step is to determine whether the input signal is the reader code (S30). When it is confirmed that the reader code is the reader code, the process proceeds to the next step. .

In the next step S31, if it is confirmed in step S30 that the reader code is the reader flag and the repetition permission flag is set to 1, the repetition flag and the repetition counter are set to 0.

In the next step (S32), if it is confirmed that the input signal is a repetitive code (S33), if it is confirmed that the repetition code, go to the next step, and if it is determined that the repetition code is not, go back to the first step (S30) and read the reader code.

In the next step (S33), since it is confirmed that the signal input in the step (S32) is a repetition code, it is determined whether the repeat permission flag is 1, and if it is 1, go to the next step, and if not 1, the first step (S30) Will go back.

In step S34, when the repetition permission flag is determined to be 1 in step S33, the repetition counter is set to 0, and the repetition flag is set to 1, thereby continuing to the main process of FIG. 2.

4 shows the relationship between Timer 1, Timer 2 and CPU. The CPU accepts the signals of Timer 1 and 2 and checks the interrupted time when the signal of Timer 1 is interrupted. If it takes time, set the allow loop flag to 0.

Because the repetitive signal of the normal remote controller starts as shown in FIG. 1, the reader code starts coming in 108 ms later, and the repetitive code received after 180 ms cannot be seen as a normal signal.

When the timer 2 signal is interrupted and enters the CPU, the time interval of the repetition code is within 180 ms, and thus the process shown in FIG. 3 is performed. The CPU core 5 receives the interrupt signals from the timers 1 and 2, and distinguishes the time check between the interrupts and the input signal into a reader code, a custom code, a data code, and a repetition code. Therefore, the states of the leader flag, the repeat flag, the repeat permission flag, and the repeat counter are determined.

As described above, the method for preventing the malfunction of the remote controller according to the present invention can distinguish the repetitive code of the remote controller from the fluorescent lamp and the external noise by extracting a timer having a certain time pattern among the various signals input to the remote controller receiver. There is an effect to prevent the remote control malfunction due to fluorescent lights and external noise.

Claims (2)

In the timer 1 process, which is a process of determining whether the repetition code of the remote controller is within 180 ms, which is a normal time interval, reading the repetition counter every 30 ms and increasing the counter value (S22), and determining whether the repetition counter is 6 (S23). In step S23, when the repetition code is inputted within 6 ms, that is, the timer 2 process is performed, and when the repetition counter reaches 6, the acknowledgment that the repetition code has not been input for about 180 ms is performed. When the repetition code has not been input for about 180 ms at 6, the repetition counter and the repetition permission flag are set to 0, and the subsequent repetition code is not accepted. Way. In the timer 1 process for determining whether the repetition code of the remote controller is within 180 ms, which is a normal time interval, reading the repetition counter every 30 ms to increase the counter value (S22), and determining whether the repetition counter is 6 (S23). If the repetitive code is input before 6, the input signal is read to determine whether it is a reader code. If the reader code is not the reader code, the signal is input again and the process proceeds to the next step (S30). If it is confirmed in S30 that the leader code is a leader flag and the repeat permission flag to 1 and the repeat flag and the repeat counter are set to 0 (S31), and if the input signal is a repetitive code, it is confirmed that the repetition code is next. If it is determined that the step is not repeated code, the step (S32) to return to the first step (S30), and the repeatable code It is determined whether he is 1, and if it is 1, the process proceeds to the next step, and if it is not 1, the process returns to the first step S30 (S33) and the repeat counter when it is determined that the repeat permission flag is 1 in the step S33. To 0 and repeat flag 1 to send to the main process of FIG. 2 to perform an operation on a key performed by the remote controller, S34. .