SU746912A1 - Digital differential time-pulse modulator - Google Patents

Description

(54) DIGITAL DIFFERENTIAL TIME IMMEDIQUE MODULATOR

Claims (2)

The invention also relates to a pulse technique and can be used as part of automatic control systems for technical objects. A device is known that converts the difference in the number of pulses arriving at two inputs into an ultrahigh-modulated signal 1. A disadvantage of this device is that it does not divide the output impulse according to the corresponding output icattaJfawCTo has Target narrow functionality; A device containing a clock pulse generator, two synchronization blocks, two counters, four elements And, a trigger, the first inputs of both counters are connected to the corresponding output of the clock generator, the second inputs of counters are connected to the outputs of the corresponding synchronization blocks, the first inputs of which are connected to The input signal bus, and the second and third inputs are connected to the corresponding outputs of the Clock Generator: Impressions 2. The disadvantages of this device are narrow functionality. The aim of the invention is to extend the functionality. -; The goal is achieved by the fact that a device containing a clock pulse generator has two synchronization blocks, a four-way clock AND, a trigger, two counters, the first inputs of which are connected to the corresponding clock pulse generator, the second inputs from the corresponding clock blocks, the first the KOTOpbix inputs are connected to the input signal bus, and the and / or third inputs are connected to the corresponding outputs of the clock generator, three triggers, two OR elements, two keys and two rear elements are entered The first and second counters are connected respectively to the single inputs of the first and second triggers, the zero output of the first and. the unit output of the second flip-flop is connected to the inputs of the first element AND, the zero output of the second and the unit output of the first trigger are connected to the inputs of the second element AND, the outputs of the first and second elements AND are connected to the control inputs of the first and second keys, the outputs of which through the first element OR connected to the counting input of the third trigger, the output of the first key is connected to zero, and the output of the second to the single input of the fourth trigger, the outputs of the clock pulse generator through the second element OR and the first element nt delay connected to the signal inputs of both keys, the output of the first delay element through the second delay element connected to the zero inputs of the first and second triggers single output of the third trigger connected to the first inputs of the third and fourth elements And the second inputs of which are connected respectively to the zero and single outputs of the fourth trigger Y- .The drawing shows the block diagram of the proposed device. Digital differential time pulse modulator contains 1 clock pulse generator, synchronization blocks 2 and 3, counters 4 and 5, triggers 6-9, elements 10 and 11 for the holders, elements OR 12 and 13, keys 14 and 15, elements AND 16- 19, inputs 20 and 21 and outputs 22 and 23, the inputs 24 of counters 4 and 5 are connected to the output 25 of the clock generator 1, the inputs 26 of counters 4 and 5 are connected to the outputs of blocks 2 and 3 of synchronization, respectively, the inputs 27 and 28 of blocks 2 and 3 synchronization connected to the outputs 29 and 30 of the generator 1 clock pulses, the inputs 31 of the blocks 2 and 3 synchronization connection There are no buses with 20 and 21 input signals, the outputs of counters 4 and 5 are connected to single inputs of triggers 6 and 7, respectively, 1 left output of trigger 6 and single output of trigger 7 are connected to inputs of element And 1 zero output of trigger 7 and single output of trigger 6 connected to the inputs of the element AND the outputs of the elements 16 and 17 are connected respectively to the control inputs of the keys 14 and 15; Which inputs through the OR element 13 are connected to the counting input of the trigger 8, the output of the key 15 is connected to zero, and the output of the second to the single inputs of the trigger 9, the output of the clock generator 1 through the element OR 12 and the delay element 10 is connected to the signal inputs of the keys 14 and 15, the output of the delay element 10 is connected via the delay element 11 to the zero inputs of the trigger 6 and 7, the single output of the trigger 8 is connected to one of the inputs of the elements 18 and 19, the other inputs of which are connected to the zero and single outputs of the trigger 9, the outputs of the electronic AND 18 and 19 connect woo with women exit. - 22 and 23 signals. Digital differential time pulse modulator works as follows. A clock pulse generator 1 continuously outputs short single-pole pulses with a period T at output 30. These same pulses, delayed by time T / 3 and 2T / 3, appear at output 29 and 25 of generator I, respectively. Pulse arriving at input 31 synchronization unit 2, is stored in it and arrives. at its output synchronously with the next pulse. from output 29 of generator 1. Anapogichno impulse arriving at input 31 of synchronization unit 3 arrives at its output synchronously with the next impulse from output 30. Synchronization blocks eliminate the possibility of failures due to coincidence of impulses at inputs 20 or 21 with impulse on Exit 25 of generator 1. Counters 4 and 5 are identical and are ordinary n-bit binary binary checks with two counting inputs. Triggers 6-9 have pulse inputs and potential outputs: after a pulse arriving at a single input, the trigger is set to a single state in which a single potential is present at a single output, the potential is present at a single output. Elements 10 and 11 provide a delay of the input pulses for the time tjo, respectively, with u + 11 T / 3; time 10 must be sufficient to complete the successive processes of the transition of the counter from state 11 ... 1 to zero, cf the trigger of the trigger, the AND element and the opening of the key controlled by it; the time q must be sufficient for the pulse from the output of element 10 to pass through the keys 14 or 15. In the initial state, the counters 4 and 5, as well as the triggers 6-9, are set to zero. In this case, the keys 14 and 15 are closed, and the signals at the outputs 22 and 23 are missing. The proposed digital differential time pulse modulator generates pulses at output 23 in the case if the number of pulses Njo, post-impacted at input 20, is greater than the number of impulses received at input 21, i.e. ) t. 5. At the output of 22, the pulses are formed at 5 X O with a duration determined by the same formula. With both outputs, there are no pulses. The device operation process will be considered first for the case of 5 0. When the inputs 20 and 21 do not receive pulses. Then to the inputs of counters 4 and 5, the pulses come only from the output 25 of the Generator 1. Overflow pulses on the inputs of the counters will occur at the same time, with a period of T-2, flashing triggers 6 and 7 into one state. The switches 13 and 14 remain closed, and the pulse from the output 25 of the generator T, which caused the counters to overflow, passed through the element 12 or elements 10 and delay, returns triggers 6 and 7 to zero before the inputs. The counters will receive a regular impulse, i.e., the device will return to its original state. Thus, the output signal in this mode is zero, which corresponds to equality. Let 6 O, i.e., input 20 received 5 pulses more than input 21. The input pulses are input through blocks 2 and 3 of the cross-synchronization into counters 4 and 5, and at the same time they import the inputs to 24 of these counters. Counter 4 will overflow before counter 5 by a time equal to T 6. If counter 4 overflows, a pulse from its output will switch trigger b to one, the key 15 will open, and key 14 will be closed. The pulse coming from the output of the delay element 10 will pass through the key 1 and will set the trigger 8 and 9 in the unit, which will lead to the fact that the unit 23 is set at the output 23. A pulse transmitted through delay element 11 will return trigger 6 to its initial state. After a time of 5 T, counter 5 will overflow, trigger 7 will be set to one, key 14 will open, and key 15 will close. Using the output of the delay element 10 will switch the triggers 8 and 9 to the initial state. Thus, the unit at upstream 23 was within the time T 5. At 6 °, the first overflow will be idle 5K 5, and the pulse from the output, delay element 10, 1 through the key 14, will activate trigger 8 in one state leaving trigger 9 at zero. In this case, the unit turns on output 2 This unit disappears after 6 T after the counter 4 overflows, and the impulse that passes through the key 14 returns the triggers 8 and 9 to the initial state. Expansion of the functionality of the device, namely obtaining the pulse output signal time, allows to significantly extend its crushing area. 2 claims Digital differential time pulse modulator containing a clock pulse generator, two synchronization blocks, four elements And, a trigger, two counters ;, the first inputs of which are connected to the corresponding generator output, clock pulses, the second inputs of the counters are connected to the outputs of the corresponding synchronization units, the first inputs of which are connected to the input signal bus, and the second and third inputs are connected to the corresponding clock generator outputs, characterized in that increase the functionality of the device, it introduced three flip-flops, two OR elements, two keys and two delay elements, the outputs of the first and second counters are connected respectively to the single inputs of the first and second triggers, the first output of the first and the single output of the second triggers are connected to the inputs of the first element And, the zero output of the second and the single trigger of the first trigger - with the inputs of the second element And, the outputs of the first and second elements And connected to the control inputs of the first and stojpbr respectively o keys whose outputs through the first OR element are connected to the counting input of the third trigger, the output of the first key is connected to zero, and the output of the second key to the single input: the fourth trigger input outputs of the clock generator through the second OR element and the first delay element are connected: to signal inputs both keys, the output of the first element-delay through the second delay element is connected to the zero inputs of the first and second triggers, the single output of the third trigger is connected to the first inputs of the third and fourth elements in And, the second inputs of which are connected respectively with zero and single outputs of the fourth trigger. Information sources. GFIs of examination taken into account 1. USSR author's certificate No. 305577, cl. H 03 K 7/10, 02.20.70. 2. Authors certificate of the USSR. N 403044, cl. H 03 K 7/08, 17.06.71 (prototype). P s.w5iae; - &-; P