JPH0777468B2 - Memory remote control - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a memory remote controller having a learning function of receiving and analyzing a remote control signal, storing the same in a memory, and reproducing and transmitting the remote control signal based on the data in the memory.

<Prior Art> In a memory remote controller, a remote controller signal is received and analyzed, converted into data, and stored in a memory. Conventionally, as shown in FIG.
The remote control signal received in step 1 is pulse-shaped by the waveform shaping circuit 2 having a built-in one-shot circuit into a pulse signal, and based on this pulse signal, the envelope signal from which the carrier wave is removed is shaped, and these signals are the given to the microcomputer 3 _0, the microcomputer 3 _0,
Based on both signals, necessary data such as the carrier frequency of the received remote control signal is measured and calculated and stored in a memory (not shown).

Normally, in the memory remote controller, the logic of digital data “0” and “1” is determined depending on the period from the rising of the pulse of the received remote control signal to the next rising.
As shown in the figure, there is one that performs a special logic determination that determines the rising edge of the pulse signal as "1" and the falling edge as "0" within a certain period of time T. Further, the determination of this special logic is performed. There are a remote control signal modulated by a carrier wave and a remote control signal having no carrier wave in the case of using.

FIG. 6 is a signal waveform diagram for explaining the operation when the remote control signal of the carrier modulation system using the judgment of this special logic is analyzed by the conventional memory remote control shown in FIG. The figure (A) is the logic of the received remote control signal, the figure (B) is the received remote control signal, the figure (C) is an enlarged view thereof, and the figure (D) is the pulse signal pulse-shaped by the waveform shaping circuit 2. , (E) shows an envelope signal from which a carrier wave is removed, and (F) shows a reproduced remote control signal.

In the waveform shaping circuit 2 including the one-shot circuit, the sixth
Based on the rising edge of the received remote control signal shown in FIG. 6 (C), a pulse signal having a constant pulse width shown in FIG. 6 (D) is output, and rising in synchronization with the rising edge of this pulse signal, The envelope signal of FIG. 6 (E) which falls when the pulse signal does not exist for the predetermined period α is output.

In this way, the waveform shaping circuit 2 detects the rising edge of the received remote control signal, but the falling edge corresponding to the logic "0" of the remote control signal is also detected as the rising edge of the carrier wave because there is a carrier wave. Therefore, it can be processed in the same way as in the case of pulse position modulated (PPM) remote control signals generally used in Japan.

That is, the microcomputer 3 _0, counts the number of pulses N for the period of the high level of the envelope signal,
One cycle t1 of the envelope signal and the low-level period t2 of the envelope signal are measured, and the frequency f of the carrier wave is calculated according to the following equation based on these measurements.

f = (N−1) / (t1−t2−α) Data such as the carrier frequency of the remote control signal thus analyzed is stored in the memory, and based on the data in this memory, FIG. 6 (f) As shown in, the remote control signal can be faithfully reproduced and transmitted.

On the other hand, FIG. 7 is a signal waveform diagram for explaining the operation in the case of analyzing a remote control signal that does not have a carrier wave using the judgment of the special logic, and FIG. 7 (A) shows the received remote control signal. Logic, the figure (B) is the received remote control signal, the figure (C) is the pulse signal pulse-shaped by the waveform shaping circuit, the figure (D) is the envelope signal, the figure (E) is the reproduced remote control signal. Are shown respectively.

In this case, since there is no carrier wave, the falling edge corresponding to the logic "0" of the remote control signal is not detected, and therefore the reproduced remote control signal is erroneous as shown in FIG. 7 (E). Will be things.

In the conventional memory remote controller which detects the rising edge of the remote control signal and converts the remote control signal into data in this way, the rising edge of the pulse signal within a certain period T used in European countries is "1" and the falling edge is "0". In the case of a remote control signal that does not have a carrier wave that uses the determination of a special logic for each determination, there is a drawback that a faithful remote control signal cannot be reproduced.

<Objects of the Invention> The present invention has been made in view of the above points, and even in the case of a remote control signal of a specific format, for example, a remote control signal having no carrier wave using a special logic judgment, The purpose is to faithfully reproduce the remote control signal.

<Structure of the Invention> In order to achieve the above-mentioned object, in the present invention, a waveform shaping circuit that waveform-shapes a received remote control signal to output a pulse signal and an envelope signal, and based on the pulse signal and the envelope signal, In a memory remote controller including a microcomputer that converts the remote control signal into data and stores the data in a memory, and reproduces the remote control signal based on the data stored in the memory, the microcomputer can receive the remote control signal or receive the remote control signal. An input port to be input, means for determining whether or not the received remote control signal is a remote control signal of a specific format based on the pulse signal and the envelope signal, and when the remote control signal of the specific format is, For the remote control signal input to the input port Based on the means for storing the remote control signal as data and storing it in the memory,
And a means for reproducing the remote control signal of the specific format.

According to the above configuration, based on the pulse signal and the envelope signal from the waveform shaping circuit, whether the remote control signal has a specific format, for example, whether the remote control signal does not have a carrier wave using the above-described special logic determination. When the remote control signal has a specific format, the remote control signal is converted into data based on the remote control signal directly input to the input port and stored in the memory. Based on the data in the memory, the specific format is determined. Since the remote control signal of is reproduced, the faithful reproduction of the remote control signal becomes possible.

<Example> Hereinafter, an example of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a block diagram of a main part of one embodiment of the present invention, and the same reference numerals are attached to the parts corresponding to the conventional example of FIG.

In the memory remote controller of this embodiment, the remote controller received by the photodiode 1 is applied to the waveform shaping circuit 2 having a built-in one-shot circuit, and the waveform shaping circuit 2 performs waveform shaping in the same manner as in the prior art to obtain a pulse signal and an envelope. The signal is output to the microcomputer 3. In the microcomputer 3, as in the conventional case, necessary data such as the carrier frequency of the received remote control signal is measured and calculated based on these signals and stored in a memory (not shown), and the remote control is performed based on the data in this memory. It is designed to play a signal.

Further, in the memory remote controller of this embodiment, a special logic used in European countries and the like for judging the rising edge of the pulse signal within a certain period T shown in FIG. Even in the case of a remote control signal that does not have a carrier wave that uses judgment, the faithful remote control signal can be reproduced as follows.

The microcomputer 3 uses the above special logic for the received remote control signal based on the input port 4 to which the remote control signal received by the photodiode 1 is directly input and the pulse signal and the envelope signal from the waveform shaping circuit 2. Remote control signal without carrier, i.e.
A means for determining whether the remote control signal has a specific format, and when the remote control signal has a specific format, based on the remote control signal input to the input port 4, the remote control signal is converted into data and stored in a memory. It is provided with a signal to be stored and means for reproducing the remote control signal of the specific format based on the data of the remote control.

Next, with the memory remote controller having such a configuration,
An operation in the case of analyzing a remote control signal having no carrier wave using a special logic determination will be described based on the signal waveform diagram of FIG. 2 and the flowchart of FIG. 2A is the logic of the received remote control signal, FIG. 2B is the received remote control signal, FIG. 2C is the pulse signal pulse-shaped by the waveform shaping circuit 2, and FIG. 2D shows the envelope signal, and FIG. 2E shows the reproduced remote control signal.

The waveform shaping circuit incorporating the one-shot circuit outputs a pulse signal having a constant pulse width shown in FIG. 2 (C) based on the rising edge of the received remote control signal shown in FIG. 2 (B), Further, it outputs the envelope signal of FIG. 2D which rises in synchronization with the rise of the pulse signal and falls when the pulse signal does not exist for a predetermined period.

In this way, since the waveform shaping circuit 2 detects the rising edge of the received remote control signal, the falling edge corresponding to the logic "0" of the remote control signal is not detected.

Therefore, in this embodiment, as shown in the flow chart of FIG. 3, when a signal is input at step n1, the process proceeds to step n2 and whether or not there is one pulse signal during the high level period of the envelope signal. Judge whether it is not one,
That is, when the number is large, it is determined that the remote control signal having the carrier wave is not the remote control signal of the specific format, and the process proceeds to step n5 to obtain the normal memory operation similar to the conventional one, that is, based on the pulse signal and the envelope signal. The data such as the obtained carrier frequency is stored in the memory, and the process ends.

When it is determined in step n2 that there is one pulse signal during the high level period of the envelope signal, it is determined that the remote control signal has a specific format, that is, the remote control signal does not have a carrier wave using a special logic determination. Move to step n3. At step n3, low-level periods T1, T of the remote control signal shown in FIG. 2 (B) input directly to the input port 4 of the microcomputer.
2, T1, T3 ... Are measured and converted into data, and the process proceeds to step n4.
In step n4, the data directly measured from the remote control signal is stored in the memory, and the data obtained based on the envelope signal and the pulse signal is stored in the memory as in the conventional case, and the process ends.

As described above, when the remote control signal has a specific format, it is converted into data based on the remote control signal directly input to the input port 4 and stored in the memory.

Then, when reproducing the remote control signal, FIG.
As shown in, the fall of the remote control signal is stored in the memory from the time of the next rise to the low level period.
It is done sequentially before T1, T2, T1, T3 .... That is, in the conventional example shown in FIG. 7, the remote control signal is sequentially lowered at a constant period β from the rising of the remote control signal, but in this embodiment, the remote control signal's fall is stored in the memory from the next rising time. The low level period T
It is performed sequentially before 1, T2, T1, T3 ....

As a result, as shown in FIG. 2 (E), the reproduced remote control signal becomes a faithful reproduction of the received remote control signal of FIG. 2 (B), which is different from the conventional example of FIG. , The falling edge of the received signal is also reproduced accurately.

<Effects of the Invention> As described above, according to the present invention, when the remote control signal has a specific format, the remote control signal is directly analyzed, converted into data, and stored in the memory, and the remote control is performed based on the data in the memory. Since the signal is played back, in the conventional example in which the remote control signal is converted into data based on only the envelope signal and the pulse signal, the remote control signal of a specific format that could not be faithfully played back is also faithfully played. You can do it.

[Brief description of drawings]

FIG. 1 is a block diagram of an essential part of one embodiment of the present invention, FIG. 2 is a signal waveform diagram used for explaining the operation of the embodiment of FIG. 1, and FIG.
FIG. 4 is a flow chart for explaining the operation of the embodiment of FIG. 1, FIG. 4 is a block diagram of a conventional example, FIG. 5 is a diagram for explaining judgment of special logic, and FIGS. 6 and 7 are FIG. 10 is a signal waveform diagram for explaining the operation of a conventional example. 2 ... Waveform shaping circuit, 3 ... Microcomputer.

Claims (1)

[Claims] 1. A waveform shaping circuit for shaping a waveform of a received remote control signal to output a pulse signal and an envelope signal, and based on the pulse signal and the envelope signal, converting the remote control signal into data and storing the data in a memory, A memory remote controller including a microcomputer for reproducing the remote controller signal based on data stored in a memory, wherein the microcomputer has an input port to which the received remote controller signal is input, the pulse signal and the envelope signal. On the basis of, the means for determining whether the received remote control signal is a remote control signal of a specific format, and when the remote control signal of the specific format, based on the remote control signal input to the input port, Before converting the remote control signal into data A memory remote controller, comprising: a means for storing in a memory; and a means for reproducing a remote control signal of the specific format based on the data in the memory.