SU928666A2 - Phase starting signal receiving device - Google Patents

Description

The invention relates to techniques for transmitting discrete messages and can be used in channels for transmitting discrete information with variable parameters. . According to the main author. St. P 72076 a device for receiving phase start signals is known, which contains a resolution interval pulse generator, a matching unit, a driver, a key, a frequency divider and. ; latch signals phase start and 1. However, the known device has low noise immunity in multi-channel reception of discrete information. The purpose of the invention is to increase interference resistance when multi-channel reception of discrete information. The goal is achieved by the fact that n additional processing channels, each of which consists of front pulse generator and selector, and (n + 1) additional keys, are added to the device for receiving the phase start signal and (n + 1) additional keys, to the control inputs of which the corresponding outputs of the input unit are connected. control, and the outputs of the additional keys are connected to the inputs of the entered element OR, whose output through the input of the received message, entered sequentially connected by the analyzer, to a bistable element m and element And no i connected to the first input of the input signal generator Reset, to the second input of which the output of the analyzer of the end of the received message is connected, while the inputs of the front pulse generator and the front pulse formers of the additional channels are combined with the signal inputs of the corresponding channels additional keys, selector and selector outputs, and additional processing channels are connected to the corresponding inputs of the control unit (n + 2) whose output is connected to the input of the driver the resolution interval pulses, the additional output of which is connected to another input of the AND element, the output of the OR element is connected to the corresponding input of the matching block, the output of the phase-start signal lock is connected to the corresponding input of the bistable element, and the output of the reset signal generator is connected to the second key input and to the corresponding control unit input. The drawing shows a structural electrical circuit of the proposed device. The device for receiving phase start signals contains processing channel 1, n additional processing channels 2-1 -2-p, each consisting of a front-side 3 pulse generator and a selector, an OR 5 element, a matching block 6, a key 7, and a resolution interval-side driver 8. master oscillator 9, frequency divider 25 you 10, latch 11 phase start signals, bistable element 12, element I 13, shaper 1 signal Reset, analyzer 15 of the end of the received message, (n + 1) additional keys 16 (1b., - 16p ), control block 17. The device works as follows. From the outputs of the analyzed channels, signals in the form of a pulse sequence containing synchronizing pulses to establish the synchronization of the signals and pulses of the special starting combination simultaneously arrive at the serially connected drivers of the 3 front pulses and selectors of the k corresponding processing channels. When there is a signal in one of the processing channels, a pulse appears at the output of the corresponding selector C, which arrives at the input of the control unit 17. The latter opens the corresponding additional key 16, allowing the signal to pass through the element OR 5 to the coincidence unit 6, and the unit control 17 is blocked, thereby preventing the simultaneous activation of additional keys of the 16 remaining processing channels. In addition, with (n + 2) -th output of the control unit 17 to the control

Key output 7 receives a signal, times

Claims (1)

This signal is bistable, decisive pulse propagation from master oscillator 9 to the input of frequency divider 10. At the output of frequency divider 10, a periodic sequence of pulses appears, the fronts of which coincide with the fronts of the received signals in the received signal. From the output of frequency divider 10, the pulse sequence (clock synchronization voltage) is fed to the input of latch 11 of the phase-start signals. The signal from the corresponding output of the control unit 17 is also fed to the input of the imaging unit 8, which sets the duration of the reception interval of the starting combination. The duration of this interval is chosen taking into account the possible variation in the moments of the appearance of pulses arriving at its input. When this pulse appears at the second input of the coincidence unit 6, the latter opens, and the received signal from the output of the element OR 5 is fed to the latch 11 of the phase-start signals. where the start combination is decrypted. If decoding of the start-up combination has occurred, then the output of the latch 11 of the phase-start signals at the moment of the end of the start-up combination appears a pulse corresponding to the beginning of the reception of the information part of the message, which then goes to the external device, which registers the message being pressed. Simultaneously, the control voltage is transferred to the bi-stable element 12 from the other output of the latch 11 of the phase-start signals, transferring the bistable element 12 to one of two stable states, characterized by issuing a inhibitory signal to the first input of the element 13. To the second input of which is from another output shaper 8 receives a signal about the end of the reception interval of the start-up combination, formed by its falling edge. Element And 13 is closed and the signal on, the driver 1 is not supplied. From the output of the element OR 5, the signal also arrives at the external device and the analyzer 15 of the end of the received message, which, after the end of the session, produces a signal arriving at the bistable element 12 and shaper I. Under the influence of the element 12, it goes into another stable state, the opening element AND 13 And the driver 14 generates a waste pulse, which ensures the switch of the key 1, the frequency divider 10 and the control unit 17 to the initial state. If decoding of the start-up combination did not occur, then the control voltage from the output of the latch 11 of the phase-start signals to the bistable element 12 is not applied, and it remains in that stable state, which is characterized by the supply of an enabling signal to the first input of the element And 13-Owing to of this, the signal about the end of the reception interval of the starting combination through the element I 13 enters the driver I, the functions of which are similar to those discussed above. The analysis of this channel is terminated and the device returns to its original state. Thus, the use of the proposed device for multi-channel reception of short messages from different correspondents improves the noise immunity of receiving discrete information by the system as a whole, since when a signal arrives through one of the processing channels, it is impossible to connect two or more processing channels to an external device. registering received messages. The invention of the device for receiving signals of phase start according to the author. St. ff 72076, which is due to the fact that, in order to improve noise immunity in the case of multichannel discrete information, it has introduced additional processing channels, each of which consists of front-connected pulse generator and a selector, and (n + 1) additional keys, to the control inputs of which the corresponding outputs of the input control unit are connected, and the outputs of the additional keys are connected to the inputs of the entered OR element, the output of which is through inputted serially connected analyzes the jam of the end of the received message, the bistable element and the element I is connected to the first input of the input signal generator Reset, to the second input of which the analyzer output of the end of the received message is connected, the inputs of the front pulse generator and the front pulse drivers of additional processing channels are combined with the signal inputs of the corresponding additional keys, selector and selector outputs and additional processing channels are connected to the corresponding inputs of the control unit (n + 2) whose output is connected to the input of the resolution interval pulse generator, the auxiliary output of which is connected to another input of the AND element, the output of the OR element is connected to the corresponding input of the coincidence unit, the output of the phase-start lock signal is connected to the corresponding input; the house of the bistable element, and the output of the signal conditioner 01. The reset is connected to the second key input and to the corresponding input of the control unit. Sources of information, 1 | rin fye into account in the examination. 1. USSR author's certificate / R, CL: H O L 7/02, 1978 (prototype).