SU1061283A1 - Transmitter of interval-code signals - Google Patents

Abstract

A TRANSMITTER OF INTERVAL-CODED SIGNALS containing a series-connected encoder, a comparison unit, a control unit and a start-stop driver, the first pulse input and output of the control unit connected to the overflow output and the counting input of the first register-input, the first information output of which is connected to the code input the comparison unit, and the control output and clock inputs of the control unit are connected to the corresponding input and outputs of the clock generator, which In order to increase the CKOj signal transmission, a second register counter and additional comparison blocks are introduced, while the information outputs of the first and second register registers are connected to the code inputs of the respective comparison blocks, the bit inputs of which are connected to the additional the outputs of the encoder, and the outputs - to the information inputs of the block, the control, the second pulse input and the output of which are connected respectively to the output of the complete and the counting input of the second register-W counter. cr 1C 00 OE

Description

The invention relates to the transmission of information and can be used in telemechanical communication systems and digital automation systems.

A known interval-code signal transmitter comprising a serially connected encoder, a comparison unit, a control unit and a parcel generation and reception unit for the receipt signal, the control unit being connected to a clock generator 1.

A disadvantage of the known device is the low speed of information transfer, due to the time spent on the conversion of information.

Closest to the present invention is an interval-code signal transmitter comprising a serially connected encoder, a comparison unit, a control unit and a start-stop parcel driver, with the pulse input and the output of the control unit connected to the overflow output and the counting input of the first register counter, respectively whose information output is connected to the code input of the comparator unit, and the control output and clock inputs of the control unit are connected to the corresponding input and outputs of the generator ora 2 clock.

The disadvantage of this device is the low information transfer rate due to the introduction of redundancy to ensure the required reliability.

The purpose of the invention is to increase the speed of signal transmission.

The goal is achieved by the fact that the transmitter contains interval-coded signals containing serially connected encoder, comparator, control unit and driver of start-stop parcels, with the first pulse input and the output of the control unit connected to the overflow output and the counting input of the first register counter, respectively , the first information output of which is connected to the code input of the comparison unit, and the control output and clock inputs of the control unit are connected to the corresponding input and outputs eratora clock pulses entered the second register-counter and additional comparator units, the first data outputs. and the second counter-registers are connected to the code inputs of the respective comparison units, the bit inputs of which are connected to the additional outputs of the encoder, and the outputs - to the information inputs of the control unit, the second pulse input and output of which are connected respectively to the overflow output and the counting input of the second register counter .

FIG. Figure 1 shows a structural electrical circuit of an interval-code transmitter; in fig. 2 is a functional block diagram of the control unit; in fig. 3 timing diagrams explaining the operation of the proposed device.

The device contains an encoder 1, a control block 2, a start-stop parcel driver 3, a 4-clock pulse generator, a comparison block 5, a first register counter 6 and a second register counter 7.

The control unit contains triggers 8-11, elements AND 12 and 13, elements OR 14-16 and two channels, each of which consists of comparison blocks 17 and 18, counters 19 and 20, triggers 21-26 elements OR 27-33, elements OR-NOT 34 and 35, element AND-NO 36, elements AND 37-47.

The device works as follows.

By the signal "Transmitting the control unit 2 by switching the trigger 8 turns on the 4 clock pulse generator, opens the positive pulse supply circuit from the generator output 4 clock pulses through the AND 45 element to the counting input of the first register-counter 6 and generates a signal through the AND 12 and OR 15 elements in the shaper 3 start-stop parcels for issuing in the communication line of the first launch parcel (pulse of positive polarity). The negative pulse output circuit to the counting input of the second register counter 7, the control unit 2, forms at the moment the first pulse passes to the first register counter 6 by switching over this trigger of the trigger 9, the signal from the direct output of which opens the element 45, providing the supply of negative pulses to the counting input of the second register-counter 7. By the same signal, by opening the elements 37,39, 38, the analysis of the information supplied to the information inputs of the control unit 2 from the outputs of the first group of the block is permitted 5 comparison.

Thus, the false entry "units into the second register-counter 7" and "false output of a sequence of interval-code signals to the communication line, if there is at least one K-bit of the first group of the encoder 1 of zero information, is eliminated. False output of a sequence of interval-code signals to the communication line when transmitting zero information, the second group is prevented by trigger 10, which allows the analysis of information from the outputs of the second group of comparison blocks 5 by switching over the first negative pulse outputted to the second counter-register 7. T that is, when the second register counter 7 occupies the first non-zero state.

Registers counters 6 and 7, the summation (subtraction) of the positive and negative impulses, respectively, begin sequentially; in the order of increasing (decreasing) the weight of all combinations of a binary (binary) code, each of which from the information outputs of the first register-counter 6 goes in parallel to the first inputs of the first group of comparison blocks 5, and from the information outputs of the second register-counter 7 - to the code inputs of the second group of comparison blocks 5, while analyzing the information received from the outputs of the first group of comparison blocks 5, and generating sequences of interval-code signals, the control unit 2 produces in flax half-periods of the pulse repetition output from the generator 4, the clock, and the analysis information coming from the outputs of the second group 5 the comparison blocks, and formation sequences interval-code signals - in its positive half-periods.

Thus, an increase in the speed of information transfer is twice achieved due to dividing into two independent identical channels, which carry out the conversion and transmission of information in different periods of pulse following from the output of the 4 clock pulse generator. Control unit 2 is also 2-channel: channel I performs the conversion and transmission of information from the first group of bits of tweeter 1, and channel II performs the conversion and transmission of information from the second group of bits.

The operation of one channel of the device, including the first register 6, the first group of blocks 5 of the comparison, the channel I of the control unit 2 and the features of the operation of the device as a whole, are considered.

The transfer of information to the communication line is carried out by forming coBOi ynnosti (sequences) of elementary signals and pauses (intervals of delays) between them of specified durations from signals from the outputs of comparison units 5. Each sequence contains information according to which the receiving device writes the allocated K-bit and 1 code combinations to the corresponding K-bit buffer registers.

When the code combination of the first register-counter 6 coincides with one - (or several) of the K-bit combinations of the first group of tweeter 1, one (or several) of comparison blocks 5 outputs potential signals to the inputs of blocks 17 and 18 of the channel I comparison of control block 2 , to the other inputs of which information is given from the outputs of counters 19 and 20. In general, the number of comparison blocks 17 and 18 and counters 19 and 20, also their width depends on p and w, where m is the number of distinctive qualities contained in the elementary signal transmitted to the communication line moreover, the maximum possible number of blocks 17 and 18 comparisons and, respectively, counters 19 and 20 cannot exceed w. The bit size of blocks 17 and 18 of comparison and counters 19 and 20 is determined by the number of outputs of blocks 5

0 comparisons of devices connected to the inputs of each of the m blocks 17 and 18 of the comparison block 2 of the control.

In the time diagrams given (Fig. 3 b, c), the transmission of information 110011111001010011110111 (Fig. 3 b) and

5 000000101100001010000111 (Fig. 3c) is carried out by pulses of positive and negative polarity, i.e. m 2, then at n 4 the width of the comparison elements 17 and 18 and accordingly the counters 19 and 20, as well as their number in the block channel 2 controls is two.

When transmitting the first half of the code combination (Fig. 3 b) of the form - |, j, the first match occurs when the first positive pulse arrives

5 (Fig. 3a) to the first register-counter 6, when a combination of type 001 appears at its outputs, while the fourth comparison unit 5 outputs a potential signal to the input 4 of channel I of control unit 2.

This signal through the element OR 29 arrives at the element AND 37, opening it at the second input (at the first input it is opened by the signal from the output of the trigger 9), and at the element OR-NOT 35, the zero output of which through the AND-NE element 36 opens element And 37 at the third entrance. This item

5 turns out to be an open signal "Unit from the output of the element OR-NOT 34 through the element OR 28 and on the fourth input, as a result of which the element AND 41 opens," Unit from the output of which into the negative half-cycle of pulses from the output of the clock generator 4 through the elements OR 32 , 16 enters the start-start shaper 3 to form the first negative pulse of the first sequence into the link and to the trigger 24, which, when switched, locks the element I 45, prohibiting the passage of pulses to the input of the first p Registrar counter 6 opens element 47 and creates a circuit for following positive impulses from the output of the clock generator 4 to the counter input of counter 20 and element 42. In the positive period of impulses following the signal from the output of element 42 the trigger 25 switches closes the element AND 41. When two positive pulses arrive at the counter 20, the comparison unit 18 outputs a single signal through the elements OR 30 and 38 to the opening of the element AND 43, "The unit from the output of which in the negative half-cycle of pulses through The elements OR 33 and 15 enters the start-stop send generator 3 to issue the second positive last pulse of the first sequence to the communication line, toggle trigger 26, which, returning to the initial state in a positive pulse following period, returns trigger 25 and a counter 20 the zero state affects the trigger 25, which, when switched, forms a chain of following positive pulses to the input of the first register-counter 6. Thus, the first sequence is formed by a length of 2fo, where t is the period pulses from the output of the clock generator 4 (FIG. 3 a) and is limited to two pulses: a negative first and a positive starting second. In the general case, the length of the sequence and the number of elementary signals of different qualities in it depend on the specific combination of signals entering the control unit 2 from the outputs of the comparison units 5. A second sequence of interval-coded signals will be formed into the communication line, when a combination of type 011 is recorded in the first register-counter 6, and the second comparison unit 5 outputs the potential s and drives to the second input of channel 1 of the control unit 2. This, through the OR element 27, opens the element AND 39, which in the negative half-cycle of pulses from the generator output 4 clocks switches the trigger 22, and through the elements OR 33 and 15 issues a command to the driver 3 start-stop packages for transmission to the link of the positive impulse. The trigger 22, acting on the inputs of the elements And 45 and 46, switches the pulse following circuit from the generator output 4 clock pulses to the input of the counter 19 and opens the element 40, which in the positive half-period switches the trigger 23, the closing element And 39. In addition, the signal c the output of the OR element 27 is inverted by the OR-NOT element 34, as a result of which an opening potential appears at the output of the AND-NE element 36, which enters the inputs of the AND 37 and 38 elements. through elemen t OR 28 and the element AND 38 enters the input of the element AND 43, which in the negative half period issues a command through the element OR 33 and 15 to the driver 3 start-stop parcels to transmit a positive last pulse of the second sequence to the communication line. sets the trigger 22 to the initial state and switches the trigger 26 to the single state. The trigger 22 again switches the pulse following circuit from the output of the generator of such pulses 4 to the input of the first register-counter 6, and the trigger 26 switches to the zero state on the next positive pulse, resets trigger 23 and counter 19. A third sequence of length TO and limited by positive pulses is formed into the communication line when the outputs of the first register counter 6 to the comparison blocks 5 are output A combination of the type 110, wherein the signal to the first input of the channel I of control unit 2 outputs the first comparison unit 5. The operation of the control unit 2 during the formation of this sequence is similar to the formation of the first sequence with the difference that the signal to transmit the second positive pulse of the sequence to the communication line is formed by the unit, 17 comparison when a single pulse from the generator output 4 clock pulses arrives at counter 19, i.e. That is, after issuing the first pulse to the communication line. The fourth sequence transmits a code combination of the form 111, and the signal comes from the third comparison unit 5 to the third input of channel I of control unit 2. The algorithm of formation by the control unit 2 of this sequence into the communication line is similar to the transmission of the second sequence. The difference is that the comparison unit 18 generates a signal for the OR 30 element when not two, but one pulse arrives at the counter 20. In the general case, the number of sequences of interval-code signals can vary from one, if in all n-to-bit The first cells of the digitizer 1 contain the same k-bit pattern of the combination, up to 2 with n 2 or. to n if n 2. After transmitting the last sequence, the first register-counter 6 counts the control time interval, which should be the number of pulses from the generator and clock pulses needed to completely fill the first register-counter 6 from the state corresponding to the transmission of the last sequence. According to the overflow pulse, coming from the output of the first register-counter 6 in the positive half-period, the control unit 2 generates a signal to the shaper 3 of start-stop packages for transmission to the communication line of the last parcel (pulse), which limits the control time interval. This signal is emitted through the OR elements 32 and 16 in the negative half-cycle of the 4-clock pulse generator from the output of the E 44 element, which in the previous positive period was prepared to be turned on by the signal from the trigger 21 of the I channel of the control unit 2, switched by the "Initial first register" signal - counter 6. According to the overflow pulse that enters the negative half-period from the output to the negative half-ariid of the second register register 7 (half a hour later than the output from the first clock pulse later and July V. m to i a / h. I and iivij "v4 lizhAh h - - -. 1 --- I of the register-counter 6), the control unit 2 (channel P) sends to the driver 3 start-stop packages a signal to transmit to STOPNYAIKYYKLCH 1, P1 palledIl J. Link of the last parcel (pulse) limiting the control time interval corresponding to the transfer of the second half of the information of the encoder 1, then resets the device to its original state by the elements OR 14, And 13 and the trigger I. If in one or several k-bit cells of the encoder 1 contains zero information, then instead of sending, the control time intervals are sent to the communication line by the control unit 2, a sequence of interval-code signals is output in accordance with the combination VM - --- --- .. „on the nations coming to the control unit 2 from the outputs of the comparison units 5, and then reset the device to its original state. The technical and economic effect of the image is to increase the speed of information transfer without taking special measures to increase the reliability of the transmitted information.

case-sensitive 6 & AkhtaA / x

Claims (1)

INTERVAL CODE SIGNAL TRANSMITTER containing a sequentially connected encoder, a comparison unit, a control unit and a start-stop package generator, the first pulse input and output of the control unit being connected respectively to the overflow output and the counting input of the first register counter, the first information output of which is connected to the code input of the comparison unit, and the control output and the clock inputs of the control unit are connected to the corresponding inputs and outputs of the clock generator, characterized we note that, in order to increase the speed of signal transmission, a second register-counter and additional comparison blocks are introduced, while the information outputs of the first and second register-counters are connected to the code inputs of the corresponding comparison blocks, the bit inputs of which are connected to the additional outputs of the encoder, and the outputs - with information inputs of the block, control, the second pulse input and output of which _ are connected respectively with the overflow output and the counting input of the second register counter. SU .... 1061283