SU964693A1 - Signal transmitting device - Google Patents

Description

(54) DEVICE FOR SIGNAL TRANSFER

The invention relates to telemechanics, in particular to high-speed computing devices, and is intended to compress and transmit information.

A device is known for compressing information, containing on the transmitting side an element and an information selection unit, an information input unit in a communication channel, on the receiving side there are decoders, the outputs of which are connected to the recording unit 1.

However, a danor device is characterized by low speed, complexity, due to the presence of adaptive samplers, which requires a preliminary analysis of encoded input continuous functions.

The closest in technical essence to the invention is a device for transmitting information, containing a multiplication unit, one of the inputs of which is connected to the output of the reference generation unit, and the other with the output of the base number accumulator, adder, input that is connected to you. and the output is to the input of the communication channel, and the inputs of the dividing units are connected to the output of the communication channel 2.

However, the known device has a low speed, due to the need to perform the calculation of the pair products In | in the multiplication block. In addition, the known device requires performing an adder / modulo of the sequential type in the form of a counter. The input of which receives the unitary codes of paired products B, which leads to a considerable investment of time.

The aim of the invention is to increase speed.

This goal is achieved by the fact that

15 of the device for transmitting signals comprising a sampler, a base number accumulator, an adder, the output of which is connected to the input of the communication channel, the first output of the block

20 forms for 1 sampling is connected to the first input of the adder, the second output of the block of formation of samples is connected to the input of the 11 basic accumulator 1 number, the output of which is connected to

25 second input adder.

This makes it possible to increase the speed by eliminating the multiplication unit and obtaining the output code in the parallel type adder in

30 real time in the process of forming unitary codes. input counts. The drawing shows the structures on the device diagram. The device includes a block 1 of the formation of the reference, the drive 2 base numbers, the adder 3 ,. communication channel 4 and blocks 5 / (- 5x multiplication. The device operates as follows. The continuous functions to be transmitted are sampled in equal time intervals 1 and quantized in amplitude. In the first block, a discrete sequence of pulses is formed during the block, for example Each pulse of the unitary reference code representing the signal of the 1st level of the j-ro measurement or channel is fed to the first input of sum 3, the value of the logical unit of which results in the addition of the corresponding base number B (select According to the channel j from accumulator 2, with the previously accumulated sum of these numbers in adder 3. As the current count arrives at the admittance input of the adder by the unitary code 1, i.e. in the form of the number of pulses, the number of is equal to the sum of the base numbers taken once. This corresponds to the product of W. The adder is constructed in such a way that it only summarizes the normalized codes, i.e. there are no digits for the whole part of the result. In the adder 3, after performing all the operations of addition, the number of the normalized representation of the system of residual classes is formed. normalized to where V. o. setting the base number for the j-ro channel, with mj, satisfies the comparison solution mj res-p (niod j) KmodPj), j, rfle.aPp ijyyiaxf a P-nPj, and VY / P 2 -1,, 2, 3, ...- the number of bits of the fractional part of the number of the two-dimensional representation. The result of the compaction information in adder 3 is a fractional part of the sum, which is equal to. The number moving from the output of the adder to the input of channel 4 of the communication contains information on all numbers by channels. At the receiving end of the communication channel in blocks 5-5 (the measured values of the signals are unambiguously restored by implementing the decoding procedure according to the following dependence, where E is the symbol of an integer function rounded down; B, | P / P., -. The base numbers B are constant and can be set permanently from the resistors of the multiplying device. Since the width is known as the base numbers B; , and the code is semi The integer part of the product is performed by sampling the corresponding output bits. For example, in a four-channel telemechanical system, the amplitudes of the measured signals are quantized by 4,6,10 and 12, respectively. We choose a system of such mutually simple numbers P, j, so that the maximum values the ordinates for each of the channels were no more than the corresponding, coding module ru, i.e., 4p, C1x CPg) /, l, 1i1b. According to the selected system P; define a generic coding module P, i.e. capacity of code P 5.7.11.13 5005. Definition. the value of t is such obfa3OM so that the product of the ratio P / p; by the required number t was comparable with the unit modulo ...,; w, i | (rtiodP,); , ,, 4 l (vnodp3); ij h; : and -lg in ,. (); v «-; , ID. („SZR4); P14: 5. Then the basic numbers of the normalized representation are equal to Гв т .. р - 5, 27.273; f. . fv t Wa Ёo у-т - о, 1 о - --9эв4е; 2. P4 Let the measured values for each channel be Xji 4, respectively; .

We determine the number., In the form of sum

,, t6a3o, 3c- | jb43ol - t0.8

,,)

At the end of the SwtH connection, after storage from the NnJo number, the values of the ordinates are uniquely restored.

--tUNKloBi3-eiO, .rooi 4;

 10,9999-7-193 6;

E.-111MHZo, 3-ttO, 999P-455 - / O;

4-- tUNOoB - 10,9999 ..

The device is fully implemented on discrete microcircuits of the average level of integration, characterized by a simple structure and high reliability. The block of basic numbers is performed on typical semi-permanent memory devices with burnable jumpers. When working with a reading device in the form of an analog-digital converter, the time of pulsed balancing of information occurs synchronously with the measurement process. As a result, no additional time is required for the information compression procedure. In addition, the device implements a non-adaptive al; GORTHIM compaction information that does not require a preliminary analysis of the encoded input continuous functions. Multiplication operations in blocks 5-5j are performed in parallel, which ensures high performance of the decoding scheme at the receiving end of the communication channel.

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Claims (1)

Invention Formula A device for transmitting signals containing a sampling unit, a base number accumulator, an adder, the output of which is connected to the channel input. A connection characterized in that, in order to improve speed, the first output of the sampler unit is connected to 0 to the first input of the adder, the second output of the block of formation of samples is connected to the input of the base number accumulator, the input of which is connected to the second input of the adder. five Sources of information taken into account in the examination: 1, USSR Copyright Certificate; 345503, class G 08 S 19/16, 1970, 2, USSR Copyright Certificate 0 i 430428, Cl, G 08 C 19/28, 1973 (prototype), S, Uch