CH683054A5 - Transmission system for IR remote control unit - Google Patents

Abstract

A keyboard (12) provides input to actuate a transmitte (10) that has a microprocessor (14) coupled to an output stage (20) with an infrared diode (D2) receiving an input from a voltage supply (16). When logic signals (S1, S2) meet predetermined conditions the supply is activated and the transmission is made. Data telegrams are generated within a defined period. When the mey on the hand-held controller is held in a depressed state the transmission is repeated several times at specific intervals.

Description

1

CH 683 054 A5

2nd

description

The present invention relates to a method for transmitting data sequences by means of infrared transmitters.

In particular for the transmission of binary-coded data groups resp. Data sequences, i.e. Data, which by input resp. So-called transmission protocols are used. A station sends such data sequences, for example by means of high-frequency waves, and a receiving station evaluates the received data sequences, for which it needs to know the transmission protocol. This essentially determines the form and content of the transmitted data and only makes it evaluable.

A large number of such protocols are known and are used in the entire data transmission technology. The large number of different protocols is mainly explained by the variety of uses, such as data transmission from computer information or pure control information for devices. In particular, data security, integrity and transmission speed are decisive influencing factors, some of which are hinder each other. The transmission medium must also be taken into account.

The object of the present invention is to find a transmission protocol which is particularly suitable for transmission by means of infrared transmitters which have only a limited energy supply.

The object is achieved according to the invention in that a burst pause modulation method is used, the number of burst periods per burst packet and the burst spacing being selected in order to use an infrared transmitter with an energy supply which is smaller than for a continuous Transmission power necessary, and that predetermined information is transmitted by different, defined lengths of the burst distances.

Preferred embodiments of the invention provide that 16 periods are used per burst packet, and the interval between breaks is at least 10 times the burst packet length.

A further preferred embodiment provides that four different information units with four different burst distances are used, with one information unit each for identifying the start or. the end of the data sequence and to represent the state of 0 and 1 is used.

The method according to the invention is preferably used for data transmission from an infrared transmitter to one or more infrared receivers.

The method according to the invention makes it possible to reliably transmit data sequences even with transmitters with a weak energy supply. It is now possible for the transmitter to refresh its energy store during the burst intervals in order to send out the next burst packet with sufficient power. The energy store no longer has to be dimensioned so large to ensure uninterrupted transmission power. Smaller-sized energy stores are also noticeably smaller in size and weight than larger energy stores, which means reduced dimensions and weight, and thus greater ease of use, especially for handheld transmitters.

An exemplary embodiment of the invention is explained in more detail below with reference to drawings.

Show it

1 shows a light-time diagram of a method according to the invention;

2 shows a data sequence to be transmitted.

In Fig. 1, the time course of a burst-pause modulation method according to the invention is shown schematically. For example, a burst packet of duration Tb has 4 periods, i.e. 4 short flashes of light are emitted by the IR transmitter diode. After a period of time Tp, a burst packet is sent out again. The burst distances Tp are now selected so that the transmitter has enough time, namely Tp, to prepare the energy for sending out the following burst packet, if it does not always have a sufficient energy reserve. This means that transmitters with a weak energy source can be used to emit such infrared signals by not continuously emitting a weak signal, but only by sending a stronger signal, the burst, for a limited period of time. In particular, the dimensions and the weight of the transmitting device can thus be reduced, since the energy source, particularly in hand-held transmitters, is usually the heaviest and most inflexible element in terms of dimensions.

According to the invention, the information is now stored in burst spacing Tp. 2 shows, for example, a data sequence to be transmitted, which consists of a start signal B of a sequence of eight bit information units and an end signal E. The signals are recognized by the receiver as follows. The start signal has a burst spacing of 30 * Tb, the end signal has a burst spacing of 15 * Tb, the O signal 20 * Tb and the 1 signal 25 * Tb as burst spacing. The receiver thus evaluates the burst distances Tb between the received burst packets and forwards them to an evaluation circuit in accordance with the above coding.

Claims (4)

Claims 1. A method for the transmission of data sequences by means of an infrared transmitter, characterized in that a burst pause modulation method is used, the number of burst periods per burst packet and the burst spacings being selected in order to use an infrared transmitter with an energy supply, which is smaller 5 10th 15 20th 25th 30th 35 40 45 50 55 60 65 2nd 3rd CH 683 054 A5 than necessary for a continuous transmission power, and that predetermined information is communicated by different, defined lengths of the burst distances. 2. The method according to claim 1, characterized in that 16 periods are used per burst packet, and the burst spacing is at least 10 times the burst packet length. 3. The method according to any one of claims 1 or 2, characterized in that four different information units are used with four different burst distances, each having an information unit to identify the beginning or. the end of the data sequence and to represent the state 0 and 1 is used. 4. Application of the method according to one of claims 1 to 3 for data transmission from an infrared transmitter to one or more infrared receivers. 5 10th 15 20th 25th 30th 35 40 45 50 55 60 65 3rd