SU961120A1 - Apparatus for timing pulse trains - Google Patents

Description

The invention relates to a pulse technique and can be used in synchronizers and other devices for synchronizing random pulse sequences.

A device is known for synchronizing ^{1 * * * 5} sequences, containing] D — a trigger sensor of the reference part. and two synchronization blocks £ 1].

However, in this device, “the range of durations of synchronized pulses is limited to ₁₀ .

Closest to the invention, the technical solution is a device for synchronizing pulse sequences, which contains a D-trigger — Ger-reference frequency sensor and two synchronization units containing the first RS triggers, NAND elements and second RS triggers. The single inputs of the second RS - 20 triggers are connected to the buses of the synchronized sequences, and the direct outputs are connected to the first inputs of the first AND-NOT elements, the second inputs of which are connected to the first inputs of the second AND-NOT elements and the outputs of the NOT elements, the inputs of which are connected to the outputs D-trigger sensor. The direct outputs of the first RS-triggers are connected to the first inputs of the third AND-NOT elements and to the first inputs of the fourth AND-NOT elements. The outputs of the first INE elements are connected to the second inputs of the third AND-NOT elements and to the individual inputs of the first RS-triggers. The zero inputs of the first triggers are connected to the outputs of the second AND-NOT elements, the second inputs of which are connected to the inverse outputs of the second RS-triggers, the zero inputs of which are connected to the outputs of the third AND-NOT elements. The second inputs of the fourth AND-NOT elements are connected to the first inputs of the second AND-NOT elements entering the opposite synchronization blocks, and the outputs are connected to the output buses G21

The disadvantages of this device are ^! The limited ranges of synchronized frequencies and durations of pulses of synchronized sequences *

The purpose of the invention is the expansion of the functionality of the device.

The circuit is achieved in that the device for synchronizing pulse sequences containing a reference frequency sensor, two synchronization units, each of which contains a first trigger connected through the first and second AND-NOT elements to the inputs of the second trigger, the first output of which is connected with the first input of the third AND-NOT element, the second output of the second trigger is connected to the first input of the fourth AND-NOT element, the second input of which is connected to the output of the first AND-NOT element, and the output of the fourth AND-NOT element the first input of the first trigger, the second input of the second NAND element of each synchronization block is the first input of the block and connected to the corresponding output of the reference frequency sensor, the second input of the synchronization block 25 is connected to the bus of the synchronized sequence, the input of the reference frequency sensor is connected to the third inputs synchronization blocks, and in each synchronization block, in addition, a coincidence element and a trigger are introduced, the first input of which is the third input of the synchronization block, the second input is connected to the output of the main element AND, and the first output of the additional trigger is connected to the first input of the additional element AND, the second input of which is connected to the first, the output of the second main trigger, the third input is connected to the first output of the first main trigger and to the second input of the third main element AND NOT, and the fourth input is connected to the first input of the second main trigger and to the third input of the third main element AND, the output of the additional element AND is NOT connected to the second input of the first main trigger, the second input of the first main element INE is the second input of the synchronization unit.

The drawing shows a functional diagram of a device for synchronizing pulse sequences.

The device contains a reference frequency sensor 1 on the D-flip-flop, synchronization blocks 2, each of which contains 3-5 triggers, AND-NOT 6-10 elements, shi-raperpogius tans the state. When trigger 4 is received, cut 961120 4

Well 11 clock pulses, output buses 12 and 13, buses 1'4 and 15 of synchronized sequences.

The device operates as follows.

The input of the sensor 1 from the bus 11 receives the frequency of the clock pulses R _about . At the outputs of the sensor 1 produces two mismatching pulse sequences of negative pulses F _o / 2 and Fo / 2, shifted in. phase for a period of frequency F _o with a pulse duration noy for a period of frequency ζ ,.

In the initial state, trigger 4 of block 2 is in a state of zero, trigger 5 is in a state of logical unit, trigger 3 is in a state of logical unit. In this case, the input potential of the AND-NOT 8 element from the direct output of the trigger 5 receives the resolving potential. The first positive impulse of frequency F4 from bus 14 passes through an open AND-NOT 8 element and trigger 4 into the input of the AND-NOT 7 element that is direct from the direct output.

The trailing edge of the frequency pulse F ^ trigger 5 through the open elements INE 8 and 7 is set to zero, while from its inverse output to the inputs of the elements AND-NOT 6, 9 and 10 receives the resolving potential.

The first positive pulse of frequency Fo / 2 from the output of sensor 1 passes through an open AND-NOT 6 element and sets trigger 4 to its initial zero state. After that, from the inverse output of the trigger 4 to the inputs of the elements AND-NOT 9 and 10 receives the resolving potential. ...

When simultaneously triggering a trigger 3 of a positive pulse of frequency F _o through a single output and through the open elements of NAND 9 and 6 of a negative pulse of frequency 1 * ^ / 2 at the zero input, trigger 3 is set to zero and through an open element of I-НО 10 sets trigger 5 is in the initial single state. After that, the inhibitory potential arrives at the inputs of AND-NOT elements 9, 10, and 6 from the zero output of trigger 5. When consistent. the installation of triggers 3 and 5, respectively, into zero and single states at the outputs of AND-NOT elements 9 and 10 short negative pulses are formed. In a single state, trigger 5 is located until the next negative edge of the synchronized pulse sequence appears on bus 14.

At the end of the positive pulse 5 s of the frequency Fo on bus 11, trigger 3 is set to the initial single state.

Thus, for each negative edge of the pulse sequential ^{, 0} ty arriving. on the bus 14, on the output chic 12 produces one negative pulse that coincides in time with the pulse at the output of the sensor 1.

Similarly, the pulse sequence * 5 with the frequency F _Oi arriving at bus 15 is synchronized. The synchronization is performed with the frequency Fq / 2 shifted relative to the frequency F _o / 2 by the period of the frequency F _o , which leads to the appearance of two devices on the 20 output buses 12 and 13 pulse sequences F ^ and spaced in time by the frequency period Fo ·,

Thus, the proposed device 25 provides synchronization of pulse sequences with frequencies not exceeding Fq / 2, while the duration of the synchronized pulses is not limited, since the synchronization is carried out on their negative fronts.

Claims (2)

The invention relates to a pulse technique and can be used in synchronizers and in other devices of the APL for synchronizing random pulses. A device for day synchronization of sequences is known, which contains a D-trigger-sensor reference frequency. and two tl synchronization blocks. However, in this device A) the range of durations of synchronized pulses is bounded. The closest technical solution to the invention is a device for synchronization of pulse sequences, which contains a D-trigger-frequency reference sensor and two synchronization blocks containing the first RS triggers, AND-N elements and second RS triggers. The single inputs of the second RS-flip-flops are connected to the buses of the synchronized sequences, and the direct outputs are connected with the first inputs of the first AND-NOT elements, the second inputs of which are connected to the first inputs of the second AND-NOT elements and the outputs of the NOT elements whose inputs are connected to the outputs of the D-trigger sensor. The direct outputs of the first RS triggers are connected to the first inputs of the third NAND element and to the first inputs of the fourth NAND element. The outputs of the first INE elements are connected to the second inputs of the third NAND elements and to the single inputs of the first RS triggers. The zero inputs of the first PS triggers are connected to the outputs of the second NAND elements, the second inputs of which are connected to the inverse outputs of the second RS triggers, the zero inputs of which are connected to the outputs of the third NAND elements. The second inputs of the fourth AND-NOT elements are connected to the first inputs of the second AND-NOT elements included in the opposite synchronization blocks, and the outputs are connected to the output G2 D. The disadvantages of this device include the limited frequency sync HHSHpyejvflax frequencies and the number of pulses of the synchronized clock signals that are synchronized. The circuit of the invention is the expansion of the functional capabilities of the device. The delivered circuit is reached by the fact that the device for synchronization of pulse sequences, containing a reference frequency sensor, two synchronization units, each of which contains a first trigger connected through J the first and second IS-NOT elements to the inputs of the second trigger, the first output of which is connected to the first the input of the third element NAND, the second output of the second trigger is connected to the first input of the fourth element NAND, the second input of which is connected to the output of the first element NAND, and the output of the fourth element NAND is connected with the first input of the first trigger, the second input of the second element IS-NOT of each synchronization unit is the first input of the unit and connected to the corresponding output of the frequency sensor, the second input of the synchronization unit is connected to the bus of the synchronized sequence, the input of the reference frequency sensor is connected to the third inputs of the blocks synchronization, and in each synchronization block the coincidence element is additionally introduced and the trigger whose first input is the third input of the synchronization block, the second input is shed with the output of the main main element IS-NOT, and the first output of the additional trigger is connected to the first input of the additional element IS-NOT, the second input of which is connected to the first I output of the second main trigger, the third input is connected to the first output of the first main trigger and to the second input of the third the main element IS-NOT, and the fourth input is connected to the first input of the second main trigger and to the third input of the third main element IS-NOT, the output of the additional element IS-NOT is connected to the second input of the first main trigger, The second input of the first AND-NOT main element is the second input of the synchronization unit. The drawing shows the functional diagram of the device for synchronizing pulse sequences. The device contains a sensor 1 of the reference frequency on the D-trigger, synchronization blocks 2, each of which contains triggers 3-5, the elements AND-NOT 6-10, the bus 11 sync pulses, output tires 12 and 13, tires 14 and 15 synchronized sequences. The device works as follows. The frequency of the clock pulses F is fed to the input of the sensor 1 from the bus 11. At the outputs of the Sensor 1, two mismatched pulse sequences of negative pulses RD / 2 and FO / 2 are shifted. phase for the period of the FO frequency with a pulse duration equal to half a period of frequency 1. In the initial state, trigger 4 of the petrol unit 2 is in the state of logical zero, trigger 5 in the state of logical one, trigger 3 in the state of logical one. At the same time, the input potential of the output element IS-HE 8 from the direct output of trigger 5 enters. The first positive impulse of the frequency P from the bus 14 passes through the open element AND-HE 8 and sets the trigger 4 to the one-unit state. At the same time from the direct output of the trigger 4 to the input of the element AND-NOT 7 enters the resolving potential. The falling edge of the frequency F, the trigger 5, is set to the zero state through the open elements InE 8 and 7, and the potential is fed to the inputs of the AND-NE elements 6, 9 and 10 from its inverse output. The first positive pulse of the frequency Po / 2 from the output of the sensor 1 passes through the open element IS-HE 6 and sets the trigger 4 to the initial zero state. After that, from the trigger output of trigger 4, the resolving potential comes to the inputs of the AND-HE elements 9 and 1O. At simultaneous action on the trigger 3 of the positive frequency pulse FO on a single and through the open elements AND-NOT p and 6 of the negative frequency pulse / 2 on the zero input, the trigger 3 is set to the zero state and through the open element IS-NOT 10 sets to the initial single state Trigger 5. Then the inputs of the elements Y-HE 9, 10 and 6 from the zero output of the trigger 5 enters the prohibitive potential. With successive installation of triggers 3 and 5, respectively, S is zero and one states at the outputs of the element) In I-HE 9 and 10, short negative pulses are generated in the event (at a standstill 596, trigger 5 occurs until the next negative front synchronized on bus 14 pulse sequence. At the end of the positive pulse of frequency Ро on bus 11, trigger 3 is set to the initial unit state (live. Thus, for each negative signal, the next sequential TV arrives. on bus 14, on One chic 12 produces a single negative pulse, which coincides in time with the pulse at the output of sensor 1. A pulse is synchronously synchronized to the FO frequency at the bus 15. The synchronization is performed by the frequency PQ / 2 shifted relative to the frequency Fo / 2 for an hour FQ tota, which leads to the appearance on the output buses 12 and 13 of the device two pulsed sequences F a separated in time by the period of the frequency FO-. Thus, the proposed device ensures the synchronization of the sequences of imp However, the clock speed of synchronized pulses is not limited, since synchronization is carried out along their negative fronts. Invention device for synchronizing pulse sequences, containing a reference frequency sensor, two synchronicity units, each of which contains the first trigger connected through the first and second elements AND-NOT to the inputs of the second trigger, the first output of which is connected to the first input of the third element AND-NOT, the second output of the second trigger 0 Yuchen to the first input of the fourth element AND-NOT, the second input of which is connected to the output of the first anette HTA AND-NOT, and the output of the fourth INE element connected to the first input of the first trigger, the second input of the second element AND-NOT of each synchronization unit is the first input of the unit and connected to the corresponding output of the onojv frequency sensor, the second input of the synchronization unit is connected to a synchronized sequence control panel, characterized in that, in order to expand its functionality, the input of the reference frequency sensor is connected to a trv-t t To the inputs of the synchronization blocks, and a matching element and a trigger are additionally added to each synchronization block, the first input of which is the third input of the synchronization block, the second input is connected to the output of the third main IS element, and the first output of the additional trigger is connected to the first input flax-about element IS-NOT, the second input of which is connected to the first output of the second main trigger, the third input is connected to the first output of the first main trigger and to the second vxio the house of the third main element IS-NOT, and even The rear input is connected to the first input of the second main trigger and to the third input of the third main AND-NOT element, the output of the additional AND-NE element is connected to the second input of the first main trigger, and the Second input of the first INE main element is the second input of the syn. : phonization. Sources of information taken into account in the examination of 1, Author's certificate of CX; CP NO 321931, cl. N OZ K 5/00, 197D. 2. USSR author's certificate No. 611294, cl. N OZ K S / OO, 1978.