DE3832485A1 - Data processing system with a central computer and a number of remote data terminals - Google Patents

Abstract

In a system consisting of a central computer (1) and a number of data terminals (3) which are arranged remote from the computer by at least some metres it is proposed that both computer (1) and data terminals (3) have transmitters and receivers (2), (4) for infrared signals, the data are transmitted via IR beams and the computer interacts successively with each data terminal and that the frequency of the IR beam is at least 150 kHz and preferably more than 500 kHz and the data are modulated onto the IR beams by means of frequency modulation. <IMAGE>

Description

The invention relates to a data ver workstation with a central computer and several of them by at least a few Data terminals located meters away, especially terminals that use the computer to transmit the data in connection stand.

Data processing systems in the form of a Central computer, with several on a data cable Transmission of the information connected Data terminals are known. As data terminals come in addition to the monitor and input principally existing keypad printer and memory are still considered. Because of data transmission using a cable is at the installation of every data terminal additionally routing one to the computer line required. This means at a not inconsiderable additional Effort when installing the data terminals On the other hand, it prohibits problem-free spatial adjustment and a position change after installation.

Proceeding from this, the invention has Further development of such data processing to the task that that cabling the data terminals with the central computer becomes superfluous.

This object is achieved according to the invention through that the computer and the data end advise transmitters and receivers for infrared signals le have that the data transmission over IR rays occur and the computer suk cessively cooperate with every data terminal works that the frequency of the IR beam min at least 150 kHz, preferably more than 500 kHz and the data by frequency mo dulation are imprinted on the IR rays.

The placement of transmitter and receiver both in the computer and the respective one Data terminals allowed the bidirectional Exchange of information between central offices unit and periphery. To transmit who the infrared rays used. Because of the different content of the between every data terminal and the computer the computer works to exchange data successively with the individual data terminals together. In what way the Switch between the individual data ends equipment is made for available In principle any invention and irrelevant. So can the length of stay be the same length for every data terminal, but also depending, for example on the frequency of data exchange  and the amount of data selected differently be so that experience has shown that it is special frequently data-transmitting data terminals be queried preferentially.

From the fact that the calculator with cooperate with several data terminals must necessarily follow that the transfer speed, more precisely the number of bits transmitted per second, which one referred to as the baud rate compared to the infra known from other areas red signal transmissions significantly higher have to be. Only then is it guaranteed that the transfer of data at a single gen terminal, during the naturally a cooperation with the other da is not possible, very much must be short to block the on location to avoid. Otherwise it would be a satisfactory work at the terminals not possible anymore. The monitors have in conventional systems a size of 1000 Characters and more. He has considerations give that baud rates of more than 64 kbaud are desirable and necessary. To forfeit clearing the high transmission speed speed is the frequency of the IR beam at least 150 kHz. The high baud rate demands a correspondingly large band wide and consequently also one accordingly high carrier frequency. With increasing Bandwidth corresponds to the carrier frequency to choose higher. The higher the fre quenz, the better the transmission quality and top only through the possibilities specified by the components  technical feasibility limited. Therefore are preferred as well technically demonstrable realizable Fre frequencies of 500 kHz and more.

In addition to realizing high baud rates additionally the transmission of data via long distances take place. This is necessary maneuverable enough to the signal-to-noise ratio choose so that at the desired baud advise safe reception of the signals is possible. This requires an ent speaking large signal-to-noise ratio. To reach The invention proposes achieving these objectives furthermore the frequency modulation of the IR beam before.

The decisive advantage of the invention appropriate data processing system exists in that even at a distance of several meters of wiring the da tenendgeräte with the computer not he is required. You reach a reason legendary cheaper installation and high spatial mobility. Here is the term "data terminal" in the sense to interpret the invention quite generally and includes in addition to those from monitors and Keyboards existing terminals Spei cher, printers, small computers like shop kas in department stores, etc. The idea of the invention is also for both bit synchronous as well as asynchronous data transmission ver valuable.

In a practical training course without restricting generality for the computer a transmitter with all-round character  teristics used, d. H. all of the signals sent by the computer from all data terminals simultaneously be received. After submitting a corresponding activation and discovery signals are exchanged Data only with a certain data terminal. For channels with all-round character teristik is the change between the individual data terminals on electro switchover and switching very quickly changeable.

Use is particularly advantageous Phase Locked Loop (PLL) demodulator in the receiver, which is known to be around an arrangement for phase synchronization setting an oscillator. He can be used for frequency demodulation and has the characteristics of a band pass filter around a medium, here the Carrier frequency. It only reacts selectively to a certain frequency range. The Advantages of using a PLL demodule lators lie in the fact that he is about the demodulator properties as Fil ter acts so that the use of coils, Capacitors and other networks over become fluid.

Beyond the proposed measures would be an amplitude demodulation in the Beneficiary receiver through which one he could know whether the received signal from Sender or one of the many think possible sources of interference. The demodulator  causes only those signals to continue processing be processed, the amplitude of which be agreed to exceed predeterminable value. On this way, a major disturbance distance that the transmission of Signals over correspondingly long distances and thus allows longer ranges.

More details, features and advantages the invention can be the following Take the description part by using the drawing an embodiment of the Invention is explained in more detail.

she shows in a schematically represented block diagram an arrangement according to the invention.

A central computer ( 1 ) is equipped with a transmitting / receiving system ( 2 ) for infrared signals.

At a greater distance, ie at least a few meters, there are several data terminals ( 3 ), which in turn are equipped with systems ( 4 ) which also receive and transmit infrared signals. Here, the term data terminal ( 3 ) is to be interpreted in its entirety and includes in particular len existing monitor and keyboard.

The wireless transmission of data is advantageous in several respects, since on the one hand it makes the laying of data cables unnecessary and on the other hand allows the subsequent spatial change of the data terminals ( 3 ) relative to the central computer ( 1 ).

Claims (4)

1. Data processing system with a central computer and several of them arranged at least a few meters away from data terminals, in particular terminals which are connected to the computer for transmitting the data, characterized in that the computer ( 1 ) and data terminals ( 3rd ) Transmitter and receiver ( 2 ), ( 4 ) for infrared signals, that the data is transmitted via IR rays and the computer ( 1 ) works successively with each data terminal device that the frequency of the IR beam is at least 150 kHz, preferably more than 500 kHz is and the data are imprinted on the IR rays by frequency modulation. 2. Plant according to claim 1, characterized in that the transmitter ( 2 ) of the computer ( 1 ) has an all-round characteristic. 3. Plant according to claim 1 or 2, ge identified by a PLL demodulator in the receiver.   4. Plant according to one of claims 1 to 3, marked by Amplitude demodulation.