JPS6324397A - Digital remote control transmitter - Google Patents

Abstract

(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a digital remote control transmission device, and particularly to an improvement in its transmission method.

[Conventional technology]

Generally, the block configuration of a digital remote control system is as shown in FIG. In Figure 3, 3
1 is a transmitting circuit, 32 is a receiving circuit, 33 is a light emitting diode or other light emitting element, and 34 is a photodiode or other light receiving element.

In FIG. 3, first the information to be sent is sent to the transmitting circuit 31.
and modulate it by a light emitting diode 33.
It is converted into an optical signal and transmitted. The transmitted optical signal is received by the photodiode 34, demodulated by the receiving circuit 32, and the command is decoded.

Figure 4 shows a transmission method already developed by the applicant for this type of system, and the distinction between 1-bit information "0" and "1" is as shown in the figure. This is done by the time interval of pulses. That is, in Fig. 4, the pulse interval, that is, the shorter time from the rise of a pulse to the rise of the next pulse (41 in Fig. 4)
The longer one (42 in FIG. 4) corresponds to bit "0" and the longer one (42 in FIG. 4) corresponds to bit "1". This bit “O”,
As shown in FIG. 5, several bits of "1" are combined to form one word, and the type of instruction is distinguished according to the data code of this word. In the example shown in FIG. 5, one word is composed of 8 bits.

[Problem that the invention seeks to solve]

However, with this transmission method, “
The length of the word may be shortened depending on the number of 0's (or 1's). Therefore, the receiving side does not know the length of one word, making it difficult to decode the data.

Furthermore, in order to avoid interference between digital remote control systems, for example, in the conventional example shown in FIG. The instruction code is set to 3, and a method is used in which the type of system is distinguished by a custom code. Furthermore, the fifth
6 in the figure indicates the repetition period.

However, in this type of field, remote control devices with various bit configurations are currently in practical use, and "0" and "1" may occur between different systems.
If the judgment criteria are similar and the number of bits in one word is different, interference will occur between the two systems, which may make them unusable as a remote control device.

This invention was made at the dawn of time to address these problems with the present invention.
It is an object of the present invention to provide a digital remote control transmission device in which word length is constant and moreover, a large number of independent digital remote systems can be used.

[Means for solving problems]

The digital remote control transmission device according to the present invention provides a synchronization pulse train having a constant period, inserts a data pulse between each synchronization pulse, and transmits one bit of information.
The distinction between 0'' and 1'' is made according to the time interval between the synchronization pulse and the data pulse, and also the period with no data pulse and the period with two or more data pulses between the custom code and instruction code. It is designed to provide periods depending on the combination.

[Effect]

In the present invention, the data pulse is inserted between synchronization pulse trains with a constant period, and each bit is set to "0" depending on the time interval between the synchronization pulse and the data pulse.

A distinction of "1" is made, and a period with no data pulse and a period of 2 data pulses between the custom code and the instruction code are made.
Since two or more periods are provided, and identification between remote control systems is performed by matching these periods, the length of one word is constant, making it easy to decode data, and furthermore, between remote control systems. Interference can be reduced and many independent remote control systems can be installed.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings. 1st
The figure shows a digital remote control transmission device according to an embodiment of the present invention. In the figure, 21 is a synchronization pulse, 22 is a data pulse, 1 is a period of 1 bit, 2 is a custom code, and 3 is a data code (instruction code). , 4 is a separation period for separating custom code and instruction code,
5 is one word of the transmission code, and 6 is the repetition period.

In this embodiment, the distinction between bits "0" and "1" is as shown in FIG.
This is done by regarding it as "0" when 5 is l m s, and as "1" when it is 2 ms. Note that the period of the synchronization pulse is 3 ms.

In the embodiment shown in FIG. 1, a 4-bit custom code 2 (
1001'') in the example in Figure 1, then a separation period 4 for separating the custom code and instruction code, and then a 5-bit instruction code 3 (in the example in Figure 1, ``1001'') is transmitted.
01001”) is transmitted.

In this case, if the number of bits of the transmission code 5 is the same, the length of one word is Q, 5ms during the synchronization pulse, regardless of the number of data "0" (or "1"). Always 36.5ms (-3ms”; c12
+Q, 5m5) and is constant.

Also, change transmission code 5 to custom code 2 and instruction code 3.
and a period 4 indicating the boundary between them, so even if the overall number of bits of the transmission code is the same, if you change the number of bits allocated to custom code 2 and instruction code 3, you can create a code system that does not interfere with each other. can be made. That is, many code systems can be created using transmission codes with the same number of bits.

Furthermore, since the period indicating the boundary between custom code 2 and instruction code 3 is composed of a combination of period (A) and period (B) with two data pulses, period (A) , (B), it is possible to obtain a code system that does not interfere with each other.

In the example of FIG. 1, it is "ABA", and if period 4 is 3 bits, eight types of code systems can be created with period 4 alone. Since this period 4 can be extended as necessary, more code systems that do not interfere with each other can be created.

In the above embodiment, the period of the synchronizing pulse example was defined as 3 ms, the rising time of the synchronizing pulse and data pulse corresponding to focus "0" was defined as l m s, and bit "1" was defined as 2 ms, but this is different from bit ' If Oゝ and "1" can be distinguished, they can be freely changed depending on the purpose.

In addition, in the above embodiment, custom code 2 and instruction code 3
Although the period 4 used to separate the synchronization pulses is set to only three periods of the synchronization pulse, it can be set to two or more periods depending on the purpose.

In addition, period 4 is a combination of a data pulse interval (A) and a period with two data pulses (B), but the number of data pulses in period B can be selected to be two or more as necessary. .

Further, the combination of periods A and B is not limited to ABA, and can be arbitrarily changed as necessary.

In addition, in order to improve the noise resistance of the transmission system, the synchronization pulse and data pulse are set at a certain frequency (for example, 33kHz).
It is also possible to transmit by applying modulation to narrow the frequency band.

Furthermore, in order to make it easier for the receiving side to detect the arrival of a transmission signal, a long lead pulse among the pulses may be inserted before the transmission code.

Furthermore, by making the synchronization pulse 21 and the data pulse 22 different in pulse length, it is possible to easily distinguish between the two pulses on the receiving side.

Furthermore, by making the number of bits different between the custom code 2 and the instruction code, it is possible to easily distinguish between the two on the receiving side.

Further, in the above embodiment, the custom code 2 is transmitted first and the instruction code 3 is transmitted later, but the instruction code 3 may be transmitted first.

〔Effect of the invention〕

As described above, according to the digital remote control transmission device according to the present invention, in remote control data transmission, the length of one word is constant, interference between remote control systems is reduced, and independent remote control Since a large number of systems can be installed, the practical effect is extremely large.

[Brief explanation of the drawing]

Fig. 1 is a diagram showing the code structure of a remote control transmission device according to an embodiment of the present invention, Fig. 2 is a diagram showing the distinction between bits “0” and “1”, and Fig. 3 is a diagram showing the code structure of a remote control transmission device according to an embodiment of the present invention. The schematic block diagrams of FIGS. 4 and 5 are diagrams showing a conventional remote control transmission system. In the figure, 21 is a synchronization pulse, 22 is a data pulse,
1 is 1 bit period, 2 is custom code, 3 is data code (instruction code), 4 is separation period, 5 is 1 word,
6 is the repetition period.

Claims (5)

[Claims] (1) Consists of a synchronization pulse train with a constant period and a data pulse inserted between the synchronization pulses, and bit information is determined by the time interval between the synchronization pulse and the data pulse.
In a digital remote control transmission device that transmits a transmission code consisting of a predetermined number of bits that distinguish between 0 and 1, the transmission code is used as a custom code and a controlled object to avoid interference between different remote control systems. A separation period is provided to separate the custom code and the instruction code, consisting of a period in which no data pulse is inserted between the synchronization pulse trains and a period in which at least two data pulses are inserted. A digital remote control transmission device characterized by: (2) The digital remote control transmission device according to claim 1, wherein the synchronization pulse and the data pulse have different pulse widths. (3) The digital remote control transmission device according to claim 1, wherein the synchronization pulse and the data pulse are modulated at a specific frequency. (4) The digital remote control transmission device according to claim 1, wherein the custom code and the instruction code have different bit numbers. (5) A patent characterized in that interference between digital remote control systems is avoided by combining a period in which no pulses are inserted between the custom code and instruction code, and a period in which at least two pulses are inserted. A digital remote control transmission device according to claim 1.