DE1162408B - Device for parallel-to-series conversion and series-to-parallel conversion of binary coded signals - Google Patents

Description

Device for parallel-to-series conversion and series-to-parallel conversion of binary coded signals In systems for the remote transmission of binary coded information it is common practice to use the binary units of the information in question to be stored in a register at the sending location. They then turn into a second, remote transfer of the existing register at the receiving location. If for long-distance transmission only a single transmission channel is available, i.e. only the information can be transmitted in the form of telegrams, it is necessary to use a time sequence of telegraphy signals corresponding to binary units in the register (»series«) to create; It is also necessary to receive the telegraph signals from the To store the corresponding binary units in the register available there. One speaks of a »parallel to series conversion« and one that is necessary at the broadcasting location "Series-parallel conversion" necessary at the receiving location.

In known devices for parallel-series conversion and series-parallel conversion the binary units are initially set at the sending location by means of suitable gates transferred to a shift register. After this is done, the pulses are released a pulse generator controlling the shift register and causing it thereby the cyclical overstoring of the binary units from a memory of the Shift register to the next.

Appear at the output of the last .Speichers of the shift register the binary units corresponding to the telegraph signals of the series.

A shift register is also available at the receiving location. One through special measures for synchronous operation with the pulse generator of the transmitter forced The pulse generator also controls this shift register. The telegraph signals the binary units corresponding to the series are each stored in the first memory of the shift register. After all binary units of the telegram are accommodated in the shift register, they are transferred to the one at the receiving location other existing registers intended for final storage.

The parallel-to-series conversion or series-to-parallel conversion with the help of shift registers requires a large amount of active components; the The number of multivibrators required for a shift register is at least the same as large as the number of telegraph signals required for the long-distance transmission of information are needed.

In general, active components such as multivibrators are more sensitive to interference as passive components, such as B. diodes or circuits in which preferably Diodes and resistors are used. The pursuit of less susceptible to interference Circuits leads to the devices according to the invention described below, which enable parallel-to-series conversion or allow the series-parallel conversion to be carried out.

The device according to the invention for parallel-series conversion or Series-parallel conversion, in which the signals display the desired information (e.g. series) from the signals of the specified representation of the information (e.g. B. Register) obtained by logical combination with signals from a pulse distributor is characterized in that the signals at the outputs of the pulse distributor with a binary counter and one connected to the outputs of the binary counter passive and preferably constructed as a diode matrix coincidence network in such a way that the i-th output of the network, and only the i-th output of the network carries a signal when the binary counter has counted up to the binary number i.

The F i g. 1 and 3 show devices for parallel-to-series conversion, for example at the place of transmission, the F i g. 2 and 4 devices for series-parallel conversion at the receiving location.

In Fig. 1 are 1 bistable serving as a memory of a register Multivibrators. Binary coded information can be sent to the register by signals can be entered in 2. The binary units of information are in the lines 3 represented by potentials, for example from -10 V for binary units of the value L ("L signals") and 0 V for binary units of the value 0 ("0 signals").

Entering a suitable signal in 4 clears the register and thus for entering a prepared new information. the Lines 3 lead to inputs of the AND gates 5. To further inputs of the AND gates also lead the lines 6. An L signal in one of the lines 3 then appears and only then in the corresponding output line 7 of an AND gate if at the same time an L signal is present in the corresponding line 6. One sees to it that in successive time intervals of each of the lines 6 once an L signal is entered - in the first time interval of the first of the lines 6, in the second Time interval of the second of the lines 6 and so on the corresponding AND gates for the signals from the multivibrators 1 of the register permeable. In the output line 9 of the OR gate 8, in which the output lines merge from the AND gates 5, then appear those stored in parallel in the register binary units of information in chronological order, d. H. as a series.

The device, which supplies L-signals to the lines 6 one after the other, consists of the binary counter connected together from the multivibrators 10 and the coincidence network 11, preferably constructed as a diode matrix, which is designed in a known manner so that the i-th (i = 1, 2,3.. The device consisting of the binary counter and the matrix 11 can be called "pulse distributor". The clock pulses are fed to the binary counter from a pulse generator 15 via the AND gate 14, which is opened by an L signal input in 16.

By inputting a suitable signal in 13, the binary counter can open Be set to zero. The parallel-series conversion takes place by opening the AND gate 14 for a number corresponding to the number of binary units of information of clock pulses.

The device for series-parallel conversion at the receiving location is shown in FIG. 2. The digits 10 to 16 designate the parts of the pulse distributor which are already shown in FIG. 1 and described above. The output lines 6 lead to inputs of the AND gates 17. A line leads to further inputs of these AND gates, into which the signals of the series are inserted at 18. Assuming that the pulse distributor at the sending location and the pulse distributor at the receiving location are forced to run synchronously by special measures, an L signal will appear at the output of the i-th and only if the i-th binary unit of the series and the signal in the i-th of the lines 6 are simultaneously L signals. 19 are bistable multivibrators that serve as memory at the receiving location. They must be deleted by a suitable signal in 20 before information is received. The inputs of the bistable multivibrators 19 are fed one after the other via the lines 21, the signals of the series. After the end of the long-distance transmission, the output lines 22 of the multivibrators carry the potentials which correspond to the binary units of the received information at the same time, ie "in parallel".

The same pulse distributor is used at both the sending and receiving locations Use; only the multivibrators of the binary counter are active components of the pulse distributor for parallel-to-series conversion or series-to-parallel conversion necessary. A binary counter with only n multivibrators allows the conversion of Information in up to 21r-1 binary units.

If all passive components are combined in one block, then this is achieved one to the representations of FIG. 3 and 4. F i g. 3 shows the facility at the transmission site. The binary counter and the means for supplying it with clock pulses are shown (10, 12, 13, 14, 15, 16) and the register (1, 2, 3, 4). All passive components are to be thought of as combined in the block marked 23. The chronological sequence of the Binary signals appears at 9.

The facility at the receiving location is shown in FIG. 4 shown with the Binary counter, the means for supplying it with clock pulses (10, 12, 13, 14, 15, 16) and the register (19, 20). All passive components are in the 24 designated block to think united. In 18 the signals of the series are inserted. The signals from the register appear at outputs 22.

Facilities in which the conversions are carried out with the aid of shift registers in contrast, require a much larger number of multivibrators that must be equal to the number of binary units to be transmitted. The inventive The method thus saves active components.

Claims (1)

Claim: Device for parallel-to-series conversion or series-to-parallel conversion, in which the binary coded signals of the desired representation of the information (e.g. series) from the signals of the predetermined representation of the information (e.g. register) through Logical combination with signals of a pulse distributor can be obtained, characterized in that the signals at the outputs of the pulse distributor (10, 11) with a binary counter (10) and a passive coincidence network (11) connected to the outputs of the binary counter and preferably constructed as a diode matrix be formed in such a way that the i-th output of the network and only the i-th output of the network carries a signal when the binary counter (10) has counted up to the binary number i.