SU991594A1 - Vf device for shaping pulse trains - Google Patents

Description

The invention relates to imperial technology and can be used in electronic installations. A known generator of tonal bursts, the pulse frequency of which is determined by the resonant frequency of the oscillating circuit, contains a duration and interval control circuit, an excitation circuit and a load circuit 1. The disadvantage of this device is the inability of the for-. the coupling of the constant component of the signal at the output of the device and the limitation of the frequency of the output signal by one resonant frequency of the oscillatory circuit. The closest technical solution to the invention is a device for generating a series of pulses containing a generator, a counter, a mutant trigger, elements, and an ILI2. A disadvantage of the known device is the complexity and possibility of forming pulses of only a rectangular shape. The purpose of the invention is to simplify the device nga and expand the func tioning capabilities by forming a series of pulses for controlling analog radio electronic devices. The goal is achieved by being installed. containing the generator of electrical signals, two triggers, two two-input elements And, the output of the SECOND trigger is connected to the second input of the first element And, and the pulse counter, the generator of electrical signals is made in the form of a harmonic signal generator, and a wideband phase rotator is additionally added to the device , shaper of rectangular pulses using harmonic signals, shaper of leading fronts of rectangular pulses, peak detector, common key, adder and У1-INPUT element AND, The generator is connected to the input of the phase shifter, the first output of which is connected to the first input of the adder and through the peak detector to the second input of the adder, the output of which is connected to the signal input of the key 4aj the second output of the phase shifter. series-connected square pulse shaper and front-edge pulse shaper are connected to.

the first inputs of the first and second elements and the output of the first element I is connected to the first input of the first trigger, the first output of which is connected to the control input of the controlled key and the second input of the second element I, the output of which is connected to the counting input of the pulse counter, the second output of the first trigger connected to the input of the pulse counter to zero, the outputs through the K1-INPUT element and connected to the second inputs of the first and second triggers. The goal is also achieved by the fact that in a device for forming a series of pulses containing an electrical signal generator, two flip-flops, two two-input elements AND, the output of the second flip-flop is connected to the second input of the first element AND and the counter of PULSES, the electrical signal generator is generator of harmonic signals, and a wideband phase rotator is inserted into the device, a driver of rectangular pulses from harmonic signals, a driver of front fronts of rectangular impulses A peak detector, two controllable keys, an adder and an input element are And, the output of the electrical signal generator is connected to the input of the phase shifter, the first output of which is connected to the signal input of the first key and through the peak detector with a signal input of the second key, the outputs of which connected to the corresponding inputs of the adder, the second output of the phase shifter is sequentially connected to the first rectangular impulse generator and connected to the first inputs of the first rectangular impulse generator second and second elements, the output of the first element I is connected to the first input of the first trigger, the first output of which is connected to the control input of the first controlled key and the second input of the second element AND whose output is connected to the counting input of the pulse counter, the second output of the first the trigger is connected to the control input of the second control key and the input of the installation of the pulse counter to zero, the outputs of which are connected to the second inputs of the first and second triggers through the I input element I. , FIG. 1 shows a block diagram of a device for forming a series of pulses (tl-th variant); in fig. 2 - time diagrams that show his work; in fig. 3 is a block diagram of a control device for generating a series of pulses (the 2nd version of Fig. 4 is timing diagrams explaining its operation. V

A device for forming a series of pulses (Fig. 1) contains a generator 1 of harmonic signals, a wideband phase shifter 2, a peak detector 3, an adder 4, a control key 5, a shaper 6 rectangular pulses, a shaper 7

the leading edges of rectangular pulses, the elements of And 8 and 9, triggers 10 and 11, the counter 12 pulses and

Claims (2)

and an input element AND 13. The device for forming a series of pulses of FIG. i) operates as follows. In the initial state, from the output of the generator 1 to the input of the phase shifter 2, a harmonic signal arrives. From the first output of the phase shifter, a harmonic signal (Fig. 2, but supplied to the first input of the adder 4 and to the input of the peak detector 3. From the output of the peak detector 3, a constant voltage equal to the amplitude of the harmonic signal goes to the second input of the adder 4, from the output of the adder 4, the voltage equal to the sum of the harmonic signal and its amplitude (Fig. 2, b) is fed to the signal input of the control key 5. From the second output of the phase shifter 2, the harmonic oscillation enters the input of the forcing .6 (Fig. 2, the phase leading oscillation on ne Its output to 90 Shaper b forms rectangular-shaped pulses from them (Fig. 2, d), which are fed to the shaper 7 front edges of the pulses. Shorter pulses from the shaper 7 (Fig. 2, e) are fed to the first inputs two-input elements AND 8 and 9. The outputs of the counter 12 are connected to the inputs of the AND-input element AND 13 so that when counting the number of pulses N 1, where N is the required number of pulses in the series of the output signal, the output pulse And 13 is formed high voltage level. In the initial state, the time t (Fig. 2), the trigger 10 and 11 are in the zero state, i.e., their first (single) outputs have a low voltage level, and the second (zero) ones high uro-. high tension The low voltage level at the single output of the trigger 11 locks the E 8 element at the second input, and the low voltage level at the single: the output of the trigger 10 locks the And 9 element at the second input and the key at the controlled input 5. At the same time, the output voltage device is missing. A high voltage level at the zero output of the trigger 10 ensures that the pulse counter 12 is set to zero. From the output of the element And 13 low level, the voltage goes to the zero inputs of the trigger 10 and 11. When it arrives at time 4: the external trigger pulse 11 is triggered to the single input of the trigger 11 (FIG. 2, the trigger 11 changes to the second stable state, The level of which is set at its unit output is a high level, for example, pgni (Fig. 2, g, / which arrives at the second input of the element 8.). The element 8 also turns out to be open and the next impulse arriving at time t from the output of the form. front-end rotator 7 through open element AND 8 per unit The initial input of the trigger 10 sets it to the single state (Fig. 2, h). & CO 2 the voltage level from the single output of the trigger 10 is supplied to the control key input of the Key 5. The key 5 opens at the output of the device connected to the output of the key 5 / in the output signal (Fig. 2., i). Considering the time point feji for the origin, and the amplitude of the signal at the first output of the phase shifter 2 (Fig.2, and equal to O f and taking into account the initial phase of this The output waveform can be represented by the equation. ausm-, and - and cosWt where U is the angular frequency of the output signal of the generator 1. At the same time, t5, the voltage level from the single output of the trigger 10 opens the element I 9 through the second input, and through I 9 to the counting input the counter 12 pulses from the shaper output will be received (Fig. 2, k). In this case, from the zero output of the trigger 10 to the installation input of the counter 12, a low voltage level will be supplied and the counter 12 Starts the counting of the pulses arriving at its counting input. Upon receipt of the input of the counter 12, the number of pulses equal to N at the time point and (Fig. 2, k) at the output of the element 1.3.1 (Fig. 2, L) is a high voltage level impulse that arrives at the zero inputs of the flip-flops 10 and 11. Triggers 10 and 11 go to the zero state and low levels at the voltage levels at their single outputs lock the key 5 and the elements AND 8 and AND 9. The signal; at the output of the key 5, and therefore, at the output of the device stops .c (, FIG. 2, i). During the time between the instants of time —Dg and 1; on the output of the device, the required quantity of pulses is formed. The voltage level from the zero output of the trigger 10 enters the installation input of the counter 12 and zeroes the latter. At the same time, a low voltage level is restored at the output of the AND unit 13. The device returns to its initial state and after the next start, a pulse is generated at the output of the next pulse series W. A device for forming a series of pulses (Fig. 3) contains a generator of 14 harmonic signals, a phase detector 15. peak detector 16, sum- .. iwfaTop 17, controllable keys 18. and 17, driver 19) u1X) flax x pulses, shaper 20 leading edges of rectangular pulses first and second two-input elements And 21 and And 22, first and second triggers 23 and 24, pulse counter 25, And -vogovy element And 26, key 27, Device for forming a series of pulses (Fig . 3) works as follows. In the initial state, from the output of the generator 14 to the input of the wideband phase shifter 15, a harmonic signal arrives, the frequency of which is set in the working frequency range of the phase shifter 15. Harmonic signals from the first output of the phase shifter 15 (Fig. 4a) are fed to the signal input of the control key 18 and A peak voltage equal to the amplitude of the harmonic signals is established at the input of the peak detector 16, at the output of which, and hence at the signal input of the switch 27 (Fig. 4 b. From the second output of the phase shifter 15 to the input A rectangular pulse body 19 receives a harmonic signal (Fig. 4, c), which is out of phase from oscillations at its first output to 90 Shaper 19 generates rectangular pulses (Fig. 4, g that arrive at the input of the shaper 20 of the leading edges of the pulses. Short pulses from the output of the imaging unit 20 Sfig 4, e) go to the first inputs of the two-input elements and 21 and I. 22. The outputs of the counter 25 are connected to the inputs of the VI-input elements 26 so that when counting the number of pulses NN + 1 (N / i - the required number of pulses. In the series of the output signal, the output of the element And 26 there was a pulse of high voltage level. In the initial state, the time moment is 1 ° (Fig. 4), the triggers 23 and 24 are in the zero state. The voltage level at the single output of the flip-flop 24 is low and closes the I-21 element at the second input. The low voltage level at the single output of the trigger 23 locks the element 22 at the second input and the key 18 at the control input. The high voltage at the zero output of the trigger 23 ensures that the counter of the pulses is set to zero and unlocks the key at the control input 27. At the same time, the output of the switch 27, as well as the output of the adder 17 and the output of the device Po, is a voltage equal to the voltage of the amplitude of the harmonic signal. From the output of the element And 26, the voltage level goes to the zero inputs of the flip-flops -23 and 24. At the time t, an external trigger pulse arrives at the first (single) input of the flip-flop 24 (Fig. 4, e). . This impulse translates the trigger 24 into a single state (Fig. 4, g), and a high voltage level arrives at the second input of the element 21 from a single output of the trigger 24. Element And 21 turns out to be open, and the next impulse, arriving at time t from the output of the forward front 20 through the open element AND 21 to the first (single) input of the trigger 23, sets it to the single state (Fig. 4, 3). ). The high voltage level from the single output of the trigger 2.3 is applied to the control input of the key 18, and the low voltage level from the second (zero) output of the trigger 23 goes to the control input of the key 27. The key 27 is locked, the key 18 is unlocked, and at its output and a harmonic signal appears at the output of the adder 17 and at the output of the device (Fig. 4, i). Received at time t at the time reference, i.e. t О and taking into account the initial phase of the output signal (Fig. 4, and) form, it can be described by the cosine equation. Jg, i and cos out, where o is the output signal amplitude (D) is the angular frequency. In the absence of an external trigger pulse and the end of a series of generated pulses, a voltage level equal to the amplitude of the cosinusoid generated is present at the device output. At the same time, at the time point Lb, the high level of voltage from a single output of the trigger 23 opens, on the second input, an element 22, through which to the counting input. the counter 25 receives pulses from the output of the imaging unit 20 (FIG. 4, k). From a zero exit of the trigger 23 on. the zero input of the counter 25 is supplied with a low voltage level, and the counter 25 starts counting the pulses arriving at its input. When the number of pulses N arrives at the input of the counter 25 at the time point c (Fig. 4, k), the output of the element 26 (Fig. 4, l) results in a high voltage pulse, which is fed to the zero inputs of the flip-flops 23 and 24. The triggers 23 and 24 go to the zero state, the low voltage level at their single outputs locks the key 18 and And 21 and 22 elements, and the high voltage level at the zero output of the trigger 23 opens the key 27 and sets the counter 25 to zero. At the output of the adder and device, a again constant voltage is established, equal to the amplitude of the cosine signal (Fig. 4, i). During the time between the instants of time tj, and the output of the device, the required N number of cosine pulses are generated. The inputs of the element 26 from the outputs of the counter 25 receive signals of low voltage, the output of the element 26 also establishes a low voltage level. The device returns to its initial state and after the trigger 24 of the next external trigger pulse arrives at the single input, it forms at the output the next series with the number of pulses in the series equal to N. Thus, the proposed device (its variants, in comparison with the known - rational possibilities while at the same time simplifying it. Claim 1. A device for generating a series of pulses containing an electrical signal generator, two triggers, two two-input elements And, the output of the second The igger is connected to the second, the input of the first element and, and a pulse counter, characterized in that, in order to simplify the device and extend its functionality by forming a series of sine-square pulses, the electrical signal generator is made in the form of a harmonic signal generator, and the device is additionally entered wideband phase shifter, square pulse shaper from harmonic signals, square edge shaper, peak detector, control key, sum An AND input element is And, the generator output is connected to the input of the phase shifter, the first output of which is connected to the first input of the adder and through the peak detector to the second input of the adder, the output of which is connected to the signal input of the key, the second output of the phase shifter through the series connected rectangular shaper pulses and the front-edge generator of rectangular pulses are connected to the first inputs of the first and second elements, and the output of the first element I is connected to the first input of the first trigger, the first the course is connected to the control input of the controllable key and the second input of the second element I, the output of which is connected to the counting input of the pulse counter, the second output of the first trigger is connected to the input of the installation I of the pulse counter to zero, outputs to which through the I input Element And connected to the second inputs of the first. And the second trigger. 2. A device for forming a series of pulses, containing an electrical signal generator, two triggers, two two-input elements AND, the output of the second trigger connected to the second input of the first element AND, and a pulse counter, characterized in that, in order to simplify the device and extend the functionality by forming a series of cosine pulses, a generator, electrical signals are made in the form of a harmonic signal generator, and a wideband phase shifter is added to the device. Square pulse shaper of harmonic signals, front edge shaper of a square pulse, a peak detector, two controllable keys, an adder, and an input element And, the output of the electrical signal generator connected to the phase-output generator, the first output of which is connected to the signal input the first key and through the peak detector. - with the signal input of the second key, the outputs of which are connected to the corresponding inputs of the adder, the second output of the phase shifter through the series-connected form The rectangular pulse shaper and the front edge shaper of the rectangular pulses are middle with the first inputs of the first and second elements AND, the output of the first element AND is connected to the first input of the first trigger, the first output — which is connected to the control input of the first controlled key and the second the input of the second element And the output of which is connected to the counting input of the pulse counter, the second output of the first trigger is connected to the control input of the second controlled key and the input of the installation of the pulse counter to zero, the outputs and otorrhea through-input AND gate connected to the second inputs of said first -and second triggers. The information taken into account in examination 1, US Patent No. 3873937, cl. 331-75, - 1978; 2. USSR author's certificate 566324, cl. H 03 K 3/84, 1975. I, tf t, Z FIG. five