SU841101A1 - Shaper of difference frequency of pulse trains - Google Patents

Description

The invention relates to a pulse technique and can be used in digital circuits using differential frequency signals, in particular in discriminators.

Known pulse frequency difference generator, comprising three RS-flip-flops, in which, the input of the first RS-flip-flop is connected to the output of the second RS-flip-flop, and the first input of the third RS-flip-flop is connected to the first input of the second RS-flip-flop, the output of which is connected to the second input of the third RS-flip-flop, the third input of which is connected to the output of the first RS-flip-flop, and the output of the third RS-flip-flop is connected to the second input of the second RS-flip-flop [1].

The disadvantage of such a generator of differences in the frequency of the pulse sequence is the limited functionality, namely, the inability to control the duration of the output pulses.

Also known is a shaper of the difference frequency of pulse sequences containing the first and second clocked triggers with reset inputs, the clock inputs of which are connected respectively to the first and second inputs of the shaper of the difference frequency of the pulse sequences [2].

A disadvantage of the known shaper is the inability to control the duration of the output pulses.

The purpose of the invention is the provision of control of the duration of the output pulses.

This goal is achieved by the fact that in the shaper of the differential frequency of the pulse sequences containing the first and second clocked triggers with inputs, reset, the clock inputs of which are connected respectively to the first and second inputs of the shaper of the differential frequency of the pulse (sequences, the third and fourth clocked triggers and RS- a trigger whose direct and inverse outputs are connected to the D-inputs, respectively, of the first and second clocked trigger, the outputs of which are connected by ic D-inputs, respectively of the third and fourth clocked ι triggers, the clock inputs of which are connected to the 'additional input of the differential frequency generator of pulse sequences, the outputs of which are connected to the direct outputs of the third and fourth clocks, respectively, whose inverse outputs are connected to the reset inputs of the first and second clocks, respectively the clock inputs of which are connected respectively to the inputs of the installation of ebros RS-trigger.

The drawing shows a structural diagram of the proposed device. The pulse frequency difference generator former comprises the first 1, second 2, third 3 clock triggers and the clock inputs of the first clock triggers and the fourth 4 RS-trigger 5, 1 and second 2 respectively connected to the first 6 and second 7 inputs of the differential pulse frequency generator, direct and the inverse outputs of the RS flip-flop 5 are connected to the D-inputs of the first 1 and second 20 2 clock triggers respectively, the outputs of which are connected to the D-inputs of the third 3 and fourth 4 clock triggers, respectively ers, the clock inputs of which are connected to an additional input 8 8 25 of the differential frequency generator of pulse sequences, outputs 9 and 10 of which are connected to the direct outputs of the third 3 and fourth 4 ^p clock triggers, respectively, whose inverse outputs are connected to 30 reset inputs of the first 1 and second 2 clocked triggers, the clock inputs of which are connected respectively to the inputs of the installation and reset of the RS-trigger 5. 35

The device operates as follows.

Pulse sequences F _d and F ^ arrive in parallel to the inputs b and 7 of the device. Let F _{4 be} F _a . 40

Pulses with a frequency F ^ arriving at the input by a differential from 'Ό''to''1''set the RS trigger 5 to a single state. Due to the delay in switching on the RS-trigger 5, the same pulse:. the difference from `` 0 '' to 1 sets trigger 1 to zero. IM pulses with a frequency of F ₂ arriving at the input set solder from '' 0 '' to '' 1 '' triggers 5 and 2 to the zero state. The pulse arriving after this at input 6 with a frequency F ^ · sets trigger 5 to a single state, and the next pulse of this sequence sets trigger 1 to a single state. 55

The first pulse of the normalizing frequency is F ^ opM. after setting trigger '1 to a single state, entering the inputs of triggers 3 and 4 by a difference from * * 0 *' to '4' ', sets trigger 4 to zero, and trigger 3 to a single state, the pulse from the inverse output of which is from 1 at 0 sets trigger 1 to zero.

The next pulse of the normalizing frequency sets trigger 3 to zero, and the state of trigger 4 changes.

Thus, at the output 9, pulses are formed with a frequency equal to the difference F ₄ - Fq. and a duration equal to the F _HopM period. , and at the output 10 there are no pulses. If Εχ 7 F ₄ , then the obtained differences and normalization are carried out similarly, only pulses are formed at output 10, and at output 9 are absent. ·

Claims (2)

The invention relates to a pulse technique and can be used in digital circuits using differential frequency signals, in particular in discriminators. Known shaper differential frequency pulse sequences, containing three RS-flip-flop, in which, the input of the first RS-triggers connected to the output of the second RS-flip-flop, and the first input of the third RS-flip-flop connected to the first input of the second RS-trigger, the output of which is connected to the second input of the third The RS flip-flop, the third input of which is connected to the output of the first RS flip-flop, and the output of the third RS flip-flop is connected to the second input of the second RS flip-flop 1. The disadvantage of such a shaper of the frequency difference of the pulse sequence is limited functionality, namely the inability to control the duration of the output pulses. Also known is the shaper of the differential frequency of the pulse sequences, which contains the first and second triggers with reset inputs, the clock inputs of which are connected respectively to the first and second inputs of the differential shaper, the frequency of the pulse sequences 2. A disadvantage of the known former is the impossibility of controlling the duration of the output pulses. The purpose of the invention is to provide control of the duration of the output pulses. The outcome goal is achieved by forcing into the differential frequency spruce of pulse sequences containing the first and second clocked triggers with inputs of reset, the clock inputs of which are connected respectively to the first and second inputs of the difference generator; the first pulse frequency ( sequences, the third and fourth clocked triggers and the RS trigger are introduced, the direct and inverse outputs of the KOTopcjro are connected to the D inputs of the first and the second clocked trigger, the outputs of which are connected by ic D-inputs of the third and fourth clocks respectively (Triggers, clock inputs of which are connected to the auxiliary input of the differential frequency generator of the pulse sequences, the outputs of which are connected to the direct outputs of the third and the fourth clocked triggers, inverse outputs of which are connected to the reset inputs of the first and second clocked triggers, respectively, the clock inputs of which are connected respectively to the inputs of the set ki reset RS-flip-flop. The drawing shows a block diagram of the proposed device. The differential frequency shaper of postposts contains the first 1, second 2, third 3 and fourth 4 clocked triggers and RS flip-flop 5, the clock inputs of the first 1 and second 2 clocked triggers are connected respectively to the first 6 and seven 7 inputs of the differential frequency generator of the pulse sequence The direct and inverse ELIXOdes of the RS-flip-flop 5 are connected to the D-inputs of the first 1 and the second of the 2-activatable, respectively, outputs of which are connected to the D-inputs of the corresponding third 3 and fourth of the four-tapped trigger c, clock inputs of which are connected to additional input 8 of the differential frequency generator of pulse sequences, outputs 9 and 10 of which are connected to the direct outputs of the third 3 and fourth triggers, respectively, the inverse outputs of which are connected to the reset inputs of the first 1 and second 2 clocked respectively flip-flops, clock inputs of which are connected respectively to the inputs of the installation and reset of the RS-flip-flop 5, the device operates as follows and inputs b and 7 are devices. Let F Fj, Pulses with frequency F, arriving at the input by a difference from O to B, set RS flip-flop 5 to one state. Due to the delay, the RS-trigger 5 is turned on the same pulse:. 1 sets the differential to triggers 1 to the zero state, pulses with a frequency F,. arriving at the input, set from O to H triggers 5 and 2 to the zero state. A pulse with a frequency F arriving at the input 6 after this sets the trigger 5 into one state, and the next pulse of this sequence sets three germ 1 into the state one. The first impulse of the normalizing frequency. after setting the trigger 1 e, the unit state, arriving at the inputs of the triggers 3 and 4, the differential from Ov, sets the trigger 4 to zero, and the trigger 3 in the single state, the pulse from the inverse output of which by the differential from 1 to O sets the trigger 1 to the zero state The next normalization frequency pulse sets trigger 3 to the zero state, and trigger state 4 changes. Thus, at output 9, form coziness pulses with a frequency equal to the difference F - Frj and a duration equal to the period. and output 10 pulses are missing. If FQ .. F, then the resulting differences and normalization are carried out in a similar way, only pulses are generated at output 10, and at output 9 are absent. DETAILED DESCRIPTION OF THE INVENTION Claims of a pulse frequency difference shaper comprising first and second clocked triggers with reset inputs, clock inputs of which are connected respectively to the first and second inputs of a pulse sequence differential frequency shaper, characterized in that, in order to control the duration of the output pulses, the third and fourth clocked triggers and RS-flip-flop, the direct and inverse outputs of which are connected to the D inputs of the first and second respectively The clocked trigger, the outputs of which are connected to the D inputs of the third and fourth clocked triggers, respectively, the clock inputs of which are connected to the auxiliary input of the differential frequency generator of pulse sequences, the outputs of which are connected to the direct outputs of the third and fourth clocked triggers, respectively, the inverse outputs of which are connected with the reset inputs of the first and second clocked triggers, respectively, the clock inputs of which are connected respectively to the installation inputs and reset-rs-flip-flop. Sources accepted attention in the examination 1. USSR author's certificate 529548, cl. H 03 K 5/01, 22,01.75. 2.i TopcKoe certificate of the USSR 262168, cl. H 03 K 5/00, 25.10,68 (prototype).