SU598238A1 - Switching apparatus - Google Patents

Description

(54) COMMUNICATION DEVICE

one

The invention relates to the field of automation and telemechanics and can be used to build multichannel telemetric systems with time division channels, in particular, to build onboard systems that commute the output signals of a significant number of different onboard devices with analog and digital outputs that need to be transmitted to Earth one at a time. kangshu communication.

Switching devices are known that contain n analog and discrete inputs, a pulse distributor, c keys, a null organ, N elements, a measuring and an output device, and the outputs of the pulse distributor are connected to the control inputs of each of the n keys, the signal inputs of which are connected to "The inputs of the switching device, and the outputs connected in parallel, are connected simultaneously to the inputs of the zero-organ and the measuring device, the output zero of the organ is connected to the parallel-connected inputs of the elements I, to d ugim inputs of which are connected outputs of the pulse distributor, the outputs of each of the elements rt

And they are connected to the inputs of the output device fll.

Known switching devices containing two groups of analog and n groups of discrete inputs, one pulse distributor, one driver of a synchronized signal, two groups of keys, a reset pulse shaper, a pulse generator, the first and output elements of the ILM, the first one; the output of the pulse distributor is connected to the input fopi of the synchronization signal, the output of which is connected to the corresponding input of the output element OR, the incoming outputs of the distributor: the pulses are connected to the corresponding unit. By controlling the inputs of the first and second groups of keys, the KOTOpaiX signal inputs are connected to the analog inputs of the device and they are connected to the corresponding inputs of the output element OR 23.

Known to have low bandwidth.

Claims (2)

The goal is to increase the throughput capacity of the device when an analog-coding converter, a second pulse distributor, a second driver with a clock signal, “And three-input element groups, And, a two-input element And, and a second OR element, and each of the outputs of the first pulse distributor, connected to the first group of keys, connected to the corresponding input of the second element OR, the output of which is connected to one of the inputs of the two-input element AND, the second input of the last is connected to the output m analog-to-code converter, and the output with the corresponding input of the output element OR, while the parallel connected inputs of the keys of the first group are connected to the signal input of the analog-code converter, the control input of which is connected to the output of the pulse generator, connected, in addition, to the counter the input of the first trigger of the second pulse distributor, the first output of which is connected to one of the inputs of the first two-input element. OR and to the input of the second generator of the synchronizing signal, the outputs of which are respectively connected to the counting input of the first trigger of the first pulse distributor and with one of the inputs of the output element or, the subsequent outputs of the second pulse distributor are connected to the corresponding inputs of all three-input elements And, to the rest of the inputs of which are connected the output of the first distributor of pulses and rt groups of discrete inputs of the switching device, and the outputs of all three input elements AND are connected to the inputs of the output OR-stand, and the last second distributor output connected to the input pulses .formirovatel second reset pulse, the output of which is connected both to a second input of the first two-input OR gate and to the reset inputs of all triggers a second pulse distributor, FIG. 1 is a block diagram of the proposed switching device; Fig. 2 shows the time dependences of the input, output, and intermediate signals, respectively,. The device contains the first distributor of 1 pulses, the first shaper 2 of the synchronizing signal two groups 3 and 4, respectively, analog, keys, the second element OR 5 p-groups of three input elements AND 6 ,,: analog-to-code converter 7, two-input element And 8, the second the distributor 9 pulses, the second shaper 10 of the synchronizing signal, the shaper 11 of the reset pulse, the output element OR 12, the first element AND LI. 13 and generator 14 pulse. In FIG. 1, the following are labeled imj — the number of inputs of the first analog group, m 2 — the number of inputs of the second analog group, “—number of input code groups, —number of bits of the output device code, 2 — number of outputs of the first impulse distributor . The switching device operates as follows. The first pulse distributor 1 is triggered from the leading edges of the clock pulses coming from the first element OR 13, and generates control signals that appear successively at each of its outputs while at the first output of the first pulse distributor 1 the signal duration is ii (FIG. 2 ) equal to 3 tj + 2t, and on all other outputs the duration of the signals i-iif L i is equal to i) t is the duration of the pause between the control signals. Signal Vj. is fed to the input of the first generator 2 of the synchronizing signal, which generates the synchronizing signal of the message P of amplitude Vj and duration 3 tj + This signal. different in duration from all words of the message, through the output element OR 12 enters the communication channel and serves to recognize the transmitted message. Under the influence of the subsequent output signals of the first distributor 1, the pulses alternately close normally open analog switches 3, as a result of which the inputs of the first analog group of inputs of the device with signals V i-i are connected in series for a time. t j to the signal input of the analog-to-analog converter 7 (FIG. 2, Oz). Similarly, normally open analog switches 4 are closed when signals appear at the corresponding outputs of the first distributor 1 pulses, but in this case the input analog signals of the second group of inputs V-gx, j..i are received through analog switches 4 directly to the Separate inputs of the output element OR 12 (fig. 2 Vj ,, ,, ,, V. mi J The second pulse distributor 9 is started from a generator of 14 km pulses and forms control signals of duration t with pauses between them of the same duration, and the duration t depends on the frequencies Generator pulses 14 are shown (for clarity in FIG. 2, signals V9.j are shown at the unit output of the first trigger of the second pulse distributor 9). At each output of the second pulse distributor 9, signals Vy-jg 2-2 appear alternately. from the first output to the second shaper 10 of the synchronizing signal, the output of which generates the synchronizing signal of the word Rc (V | jj in Fig. 2), which comes through the output element OR 12 to the output of the device. The synchronizing signal Pj is different from the rest of the signals of all words in amplitude and is necessary for recognizing individual words of the message. The operation of the analog-code converter is synchronized by pulses of the generator 14 pulses / and when an analog signal arrives at the input of the analog-code converter 7, it issues a K-discharge serial code Vjr, the first code pulse of which is 2 times less than the beginning of the word from the inputs of the two-input element AND 8 control signals of duration J, coming from the first distributor 1 pulses through the second element OR 5, this code comes through the two-input element AND and the output elements OR 8 and 12 to the output devices together with the synchronization signal of the word Tz, the word forms a separate message word (Fig. 2, Y, 2). In the absence of control signals at the input of the two-input element OR, the latter does not transmit signals from the output of the analog-to-code converter 7, which may affect the operation of the device as a whole. Converting the parallel input code of individual groups of device inputs into a serial one is carried out using three-input elements 6, and code outputs of duration tj appear at the outputs of the three input signals: the input code signal, the control signal of the first distributor and the control signal of the second distributor divider 9, If at the last "-2th group of device inputs there is an encoded signal V (rm +2) -1, Vg (and +2) -2, ..., V {" +2) -K, then it enters the inputs of the corresponding group of three-input elements and b. The control signal Vj.j from the last output 2 of the first distributor 1 of pulses goes to all the second inputs of three-input elements AND 6. The third inputs of each of the elements And all the time the control signals V, .j V..j, alternately arrive. ., Vj from the individual outputs of the second distributor 9. If the input signal corresponds to (UZ, (n +2) -1, Vjx (+2) -K in FIG. 2), the output V of the corresponding three-input element And 6 appears , j, V, .K with a duration of 2. If the input signal U (n +2) -2 corresponds to o, then the output of the circuit corresponds to the circuit AND the signal V (no The output signals of individual groups of circuits AND successively arrive at the output element OR 12, at the output of which they, together with the synchronization signals P, form separate words of the message. The full message V.2 f, coming from the device output to the communication channel, begins with the synchronizing message signal P, messages with a duration of 3 t (-f 2 12 and contains analog and coded words with a duration of t | each. and a pause between them of duration z and all words, including analog, begin with a synchronizing signal Pj words of duration 1 j The synchronization pulses controlling the operation of the first distributor i are formed using the second distributor 9, the former AND of the reset pulse and the first element OR 13, The control pulses from the last K -z-ro output, the second distributor 9 pulses arrive at the input of the shaper 11 of the reset pulse, the output patterns of which Ujj coincide in time with the falling edges of the pulses Vi) The pulses Y and set the trigger line of the second distributor 9 pulses at the end of each message word and go to one of the inputs of the first element OR 13, its other input receives control signals Ty.j from the first output of the second distributor 9 pulses As a result, at the output of the first element OR 13, the synchronous pulses y, j appear, which arrive at the counting input of the trigger line of the first distributor 1, and the durations t I and t 2 between the leading edges of the sync pulses of 15 are determined by PTS .enno duration control signals and pauses therebetween. In the device, the pauses between the individual words of the message are reduced to the value of the pause between code pulses, which significantly improves the capacity of the device. The conversion of a parallel input code to a serial one using the second pulse distributor allows using only one message word for transmitting a single coded signal, which also improves the capacity of the device. The invention of the switching device, the two groups of analog and rt di-scraper groups, the first pulse distributor, the first driver of the clock signal, two groups of keys, pulse shaper / reset generator, pulse generator, the first and output elements OR, and the first output of the first distributor pulses co-connected with the input of the first synchronization signal generator, the output of which is connected to the corresponding input of the output element OR, the subsequent outputs of the first distributor The pulses are connected to the corresponding control inputs of the first and second groups of keys, the serial inputs of which are connected to the analog inputs of the switching device, and the outputs are connected to the corresponding 1f 1M inputs of the output element OR, with The purpose of increasing throughput cnO capacity is additionally introducing a code converter, a second pulse distributor, a second generator of a clock signal of groups of three-input elements AND, a two-input element AND, and a second element OR, and Each of the outputs of the first pulse distributor connected to the first group of keys is connected to the corresponding input of the second: OR element, the output of which is Knib4eH to one of the inputs of the two-input Eglement I, the second input of which is connected to the output of the analog code converter, and the output - with the corresponding input of the output element IL, the outputs of the keys of the first group are connected to the signal input of the analog-code converter, the control input of which is connected to the output of the pulse generator connected to Moreover, to the counting input of the first trigger of the second pulse distributor, the first output of which is connected to one of the inputs of the first OR element and to the input of the second generator of the synchronizing signal, whose outputs are respectively connected to the counting input of the first trigger of the first pulse distributor and with one of the inputs of the output element OR, the subsequent outputs of the second pulse distributor are connected to the corresponding inputs of all three-input elements AND, the remaining inputs of which are connected to the outputs of the first p the distributor of pulses and groups of orphaned inputs of the switching device, with the outputs of all three-input elements AND connected to the inputs of the output element OR, and the last output of the second pulse distributor connected to the input of the reset impulse generator, the output of which is connected simultaneously to the second input of the first two-input element OR and to the reset inputs of all triggers of the second pulse distributor. Sources of information taken into account in the examination of the invention: 1. White, fГ.E. Katz B.M. Multipoint Infinite: Teitmep Typiu Push Detectors; M. ,, Energie, 1974, p.14, pp. A-4 2. Author's rededelsvto number 506942, cl. H 03 K 17/0, 28..08.74. shtude