SU782151A1 - Time interval-to-digital code converter - Google Patents

Description

one

The invention relates to radio engineering and can be used in radar and telemetry devices.

A time interval converter into a code containing a scaling circuit, a stable pulse generator, a coincidence circuit trigger and an inverter is known, the converter input being connected to the trigger input and the matching system input, the second input of which is connected through the inverter to the higher bit output of the scaling circuit Yes, the scaling circuit is connected to another trigger input, the trigger output and the output of the matching circuit are connected to the inputs of the second matching circuit, the output of which is connected to the input of the matching circuit , The second input of which is connected to the output of the pulse generator and stable.

The closest in technical essence to the present invention is a time interval converter into a digital code, containing the first element I connected in series, the main counter and the storage device, the second input of which is connected via auxiliary counter to

the output of the second element is And, the first inputs of both elements And are connected to the output of the master oscillator, and the second inputs are connected to the outputs of the control trigger, the first output of the auxiliary counter is connected to the setting circuit of the initial state of the main counter, and the second output to the installation

0 to trigger control input 2J.

A disadvantage of the known devices is the functional limitation, inasmuch as they do not provide for the conversion of signals coming directly from the receiving devices of the radio lines and representing a series of alternating measuring and reference pulses.

The purpose of the invention is to extend the functionality of the time slot converter to a digital code.

The goal is achieved by a time converter that transmits 25 digits into a digital code containing a master oscillator, the output of which is connected to the first inputs of two main elements AND, the outputs of which are connected to the counting inputs of the main and, respectively,

the first input of the last is connected to the installation input of the main counter, the second output of the auxiliary counter is connected to the first INPUT of the control trigger, direct and inverse. The outputs of which are connected to the second inputs of the first and second "main or main elements And respectively, additionally triggering and switching triggers are introduced, two AND elements and an OR element, and

the device input bus is connected to the first inputs of the additional elements AND and the triggering trigger, the direct output of which is connected to the input of the switching generator; the outputs of the first and second additional elements I are connected respectively to the installation input of the auxiliary counter and the first input of the OR element, the output of which is connected to the second input of the control trigger, the first output of the main counter connects - .. .1 It is connected to the second input of the OR element, the third output of the auxiliary counter is connected to the second input at the triggering trigger and the first input of the switching trigger, whose second input is connected to the second output

. auxiliary counter, direct and

The inverse outputs of the switching trigger are connected to the second inputs of the first and second additional elements AND, respectively.

FIG. 1 shows a converter block diagram; in fig. 2 rBlaeMeHHHe Diagrams. .

The time interval to code converter contains the generator ipaTop 1, the main elements 2 and 3, and the main counter 4, the auxiliary

counter 5 ,. control trigger b, switching trigger 7, trigger. trigger 8, additional elements 9 and 10 AND / element 11 OR, and information conversion element 12.

The master oscillator 1 sbeDyenchencho Ryo; elements 2 and 3 And with the inputs of the main multi-digit storage counter 4, intended for digitally encoding the value of a time interval of 1 interval, and B1 auger: -: -; but the counter 5 providing synchronization of the converter operation. The second inputs of elements 2 and 3 AND podklyucheyy to the outlets of the trigger 6 control. The first output of the counter 5 is connected to the installation input of the counter 4, the second to the first inputs of the control trigger b and the switching trigger 7, and the third output to the other input of the trigger 7 and the first input

 triggering the start of the trigger 8, second) in turn - the trigger 8 is connected to the first inputs:,., elements 9 and 10 of the AND and k66d bus of the converter, and the output - with the generator 1.. Other inputs of elements 9 and 10 And

-connected with the corresponding trigger outputs 7. The output of element 9 AND pdc1ccx to the device, the new input of counter 5 and the first input of information conversion element 11, the second input of which is connected to the first output, counter 4, and the output to the output bus of the conversion bus. The output of the element 10 AND through the element 11 OR connected by another input to the second output of the counter 4, is connected to the second input of the trigger 6 of the control.

FIG. 2 accept the following notation:

OI - reference impulse

AI - measuring pulse

T is the period of the clock interval 5 of the input signal,

ty - the position of the measuring pulse relative to the reference,

 Tiih "respectively, the lower and the vertical of the measuring boundary

momentum inside the interval. The input signal 13 has a pulse modulation time structure. For the purpose of frame synchronization of transmitting and 5 receiving devices, there are clock intervals in the input signal, in which there is no measuring pulse (frame pauses).

14, 15 and 16 - output signals of the trigger 6,7 and 8, respectively. 17 - output signal of the element 9 And, 18 and 19 - signals, respectively, on the first and second outputs of the auxiliary counter 5.

20 - signal at the input element 5 10 I.

  Converter time intervals in the digital code works as follows.

The proposed device is 0 synchronizing due to the fact that the total capacity of the counters 4 and 5 is chosen such that during the personnel pause the control trigger 6 is set to the logical state O, J5KO "1 mutation trigger 7 - to logical state 1, trigger trigger 8 - the state O and the converter after the first frame pause in the input signal are included in synchronism. After that, the first reference pulse (OI; input signal for-; triggering trigger 8 is set to logical state 1, energizes master oscillator 1, as well as through element 9 of signals 17 and sets to initial (zero) state

auxiliary counter 5 and arrives at the start of information conversion element 12.., The generator 1 pulses through element 3 and enters the input of counter 5. After time t., pulse 18 from the first output of counter 5 is reset to the initial (zero) state of the main counter 4 and after time t

Claims (2)

pulse 19 from the second output of the counter 5 switches the triggers 6 and 7. When t t. From the moment tg, the time interval t begins to be converted into a digital code, characterized by the pulses from generator 1. through element 2 I begin to flow to the input of the main counter 4, the counting continues until the next (measuring) pulse, which, through element 10 AND and element 11 OR, switches control trigger 6 to the logical state O. If there is no measuring pulse (frame pause) in the clock interval, at the moment of time tu (and ty7 1ts + to, t) dit overflow counts 4. Impulse 21 of overflow of counter 4 through element 12 OR also switches control trigger 6 into. logical state O. The output of the generator 1 from the input of the counter 4 is switched to the input of the counter 5, which continues to count and after time t the pulse 22 from its third output triggers 7 and 8 are reset. When this occurs, the oscillator oscillations break down and the device enters a static state in anticipation of the start of the next clock interval. The value of the code taken from the output of the main counter 4 is proportional to the value of the time interval t. This code is fed to the input of the information conversion element 12, where it is transformed into a form convenient for further use by consumers (information display devices, processings, memory devices, etc.). Introduction to the well-known converter of triggering and switching triggers, two AND elements, the OR element and new connections allowed us to expand the functionality of the time interval converter into a digital code, namely, it allowed to use it to convert the common signal time. pulse modulation (VIM-signal) immediately after receiving radio lines without preliminary processing it in a part of the selection of synchronizing and measuring pulses, which generally allows us to simplify information processing devices that include the present converter (by eliminating the preprocessing device and : selection of signals), and also to increase the reliability of these devices, the claims of the Inverter of time intervals into a digital code containing a master oscillator, the output of which It is connected to the first inputs of the two main elements And, the outputs of which are connected to the counting inputs of the main and auxiliary meters, respectively; the first output of the latter is connected to the installation input of the main counter; the second inputs of the first and second main elements And, respectively, characterized in that, in order to expand the functionality, in addition Triggering and switching triggers, two AND elements and an OR element, the input bus of the device connected to the first inputs of the additional AND elements and the triggering trigger, whose direct output is connected to the input of the master oscillator, the outputs of the first and second additional AND elements are connected respectively to the installation input auxiliary counter and the first input of the OR element, the output of which is connected to the second input of the control trigger, the first output of the main counter is connected to the second input of the element AND And, the third auxiliary counter output is connected to the second input of initiating a trigger and the first input of the switching flip-flop, a second input coupled to the second output of the auxiliary counter, the forward and inverted outputs of the switching flip-flop are connected to second inputs of the first and second additional elements and respectively. Sources of information taken into account during the examination 1. USSR author's certificate No. 268039, cl. H 03 K 13/02, 1967. 2. USSR author's certificate number 508923, cl. H 03 K 13/02, 1974. ysi AI OI on Btinod IIR on