SU1599971A1 - Generator of pulse sequences - Google Patents

Abstract

The invention can be used in a pulse and computing technique where it is necessary to form a variable pulse sequence. The aim of the invention is to enhance the functionality by adjusting the phase shift between the pulse sequences. The goal is achieved by introducing a comparison unit 18, a single pulse shaper 21, a pulse shaper 22, triggers 8.9, NOT 19 element, AND 17 element and OR 20 pulse generator. The pulse sequence generator also contains a reference frequency generator counters 2 , 3 pulses, trigger 4, elements AND 13-16 and elements OR 10-12. 1 il.

Description

The invention relates to a pulsed technique and can be used to generate pulses, duty cycle, repetition rate and the initial phase of which varies according to a given law.

The aim of the invention is the expansion of functionality by regulating the phase shift .:

The drawing shows a functional ⁴ diagram of a pulse generator.

The pulse generator of the guests contains the generator 1 of the reference frequency, the first and second counters 2 'and 3 pulses, the first trigger 4, the counting input of the counter 2 pulses is connected to the output of the generator 1 of the reference frequency, the information inputs of the first and second counters 2 and 3 pulses are connected respectively, to the first and second buses 5.6 of setting the device code, the outputs of trigger 4 are the outputs 7 of the pulse sequence generator, the second trigger 8 ', the third trigger 9, the first, second and third elements OR 10 _- [12, first, second, third , Fourth and fifth AND gates 13-17, the comparison unit 18, NOT element 19 ,, · fourth OR gate 20, pulse generator 21 and a single driver 22 pulses.

The first inputs of the comparison unit 18 are connected to the code setting bus 23, the second inputs of the comparison unit 18 are connected to the corresponding information outputs of the pulse counter 2, the output of the comparison unit 18 is connected •. with the first inputs of the elements And 13, 14, the input of the pulse shaper 22 is connected to the first control bus 24, the direct output of the trigger 8 is connected. with the second inputs of the elements And 13 and 14, the direct output of the trigger 9 is connected to the third input of the element And 13, and the inverse the output is to the third input of the And 14 element, the direct output of the trigger 4 is connected to the fourth input of the And 13 element, the inverse output is to the fourth input of the And 14 element, the output of And 13 is connected to the first inputs of the OR elements 10, 11 and 20, the output of And element 14 is connected to the second inputs of the elements OR 11 and 20, the first input od AND gate 17 is connected to the output _h pulse generator 22 and S-phodu latch 8, the second input 15

OR 12, the output by the input input of the counter record · the second input 'of the element by the output of the element the third input ~ and the second first input' 1599971 to the control bus 25, and the output to the S-input of trigger 9, the transfer output of the pulse counter 2 is connected to the third input and fourth input OR elements 10 and 20, respectively, the output of the OR element 10 is connected to the counting input of the pulse counter 3 and the first inputs of the elements 15 and 16, the output of the OR element 11 is connected to the R-inputs of the trigger 8 and trigger 9, the output of the OR element 20 is connected to the input of the counter record 2 pulses, counter transfer output 3 impu LSS is connected to the second input of the AND 16 element, the input of the HE 19 element and the first input of the horn element is connected to 3 pulses, And 15 is connected to

NOT 19, the output of the single pulse shaper 21 is connected to the house of the OR elements 11, 20 by the input of the OR element 10 and. the home of the OR element 20.

’The pulse generator is as follows. When the power is turned on, trigger 4 is set to a single state, the driver 21 generates a single pulse, zeroing the shift resolution trigger 8 and the shift direction trigger 9 and assigning to the counters Ζ, 3 pulses values that determine the frequency and duty cycle of the generated pulses (Fig. 2 considers the case, when the duty cycle is equal to two).

As the counter 2 receives the pulses generated by the generator 1 at the counting high-frequency counting counter at the transfer output of the counter 2, a pulse appears, passing through the element, the counting input of the counter 3.

.but the same pulse is transmitted through OR 20 to the input of chick 2, and through the And 15 element to the input of the trigger 4 to zero. When the counter 3 is full, a unit level signal appears at its transfer output, and a signal at the output of the HE 19 element zero level.

^: As a result, a unit level signal appears at the output of the And 16 'element, which sets trigger 4 to a single state55. Since the signal is unit level, passing through the element

OR 12, is fed to the recording input of the counter 3 pulses, the output is OR 10 to the Simultaneous recording element of the count 5 of the nose of the last signal appears at the zero level, and at the output of the element NOT 19 - the signal at the unit level. The impulse that appears at the output of the element OR 10, passing through the element And 15 sets the trigger to the zero position. Subsequent pulses (before the counter 3 overflows), coming through the And 15 element to the input of trigger 4, do not change the state of the latter.

At the time of the counter 3 overflow, the signal appears again at the output of the And 16 element, which sets the trigger 4 to a single state. The described process 15 is repeated again. At the output of trigger 4, a sequence of pulses is formed.

When the phase shift of the generated pulses to the control bus 24 of the device receives a signal allowing the phase shift, the control bus 25 receives a signal that determines the direction ^{of the} phase shift (at a unit level - the shift by -f, with zero by tf), and the group inputs 23 receives the value of the code γ. The change in signal 'on bus 25 should precede the change in signal on bus 24.

Shaper 22 generates a pulse that sets the trigger 8 in a single state. The same pulse arrives at the input of the element And 17 and in the case when the specified element is open by the level of a single signal on the bus 25 of the device (phase shift by ->), trigger 9 is set to a single state. If the element And 17 is closed, then the trigger 9 remains in the zero state.

When the phase is shifted by ~ φ, the And 13 element is unlocked by signals coming from the direct outputs of the triggers 8 and 9, and the And 14 element is blocked by the zero signal coming from the inverse output of the trigger 9. When the phase is shifted by + φ, the And 13 element is blocked and the element is unlocked And 14.

As the counter 2 is full, the moments of equality of the codes arriving at the inputs of the unit of 18. comparison occur, in connection with which the output of the last signal appears at the unit level, arriving at the corresponding inputs of the elements And 13 and 14.

In the case of a phase shift by ->, and provided that the trigger 4 is in a single state, the signal from the output of the And 13 element through the OR 10 element is fed to the counting input of the pulse counter £, through the OR 20 element to the recording input of the counter 2, and through element OR 11 - to the inputs of the installation to zero triggers 8 and 9.

In the case of a phase shift by + f and provided that the trigger 4 is in the zero state, the signal from the output of the element And 14 through the element OR 20. arrives at the input of the counter 2, and through the element OR 11 - to the inputs of the installation of zero triggers 8 and 9.

When the triggers 8 and 9 are reset, the phase shift process ends.

Thus, pulse generator sequences are generated in this generator, in which the number of pulses in the pause sequence between sequences is programmed and the phase shift of the pulse sequences is regulated.

Claims (1)

Claim A pulse sequence generator comprising a pulse generator, first and second pulse counters, the information inputs of which are connected respectively to the first and second buses for setting the code, the first trigger, the first, second, third and fourth elements AND, the first, second. ³ 5 and a third OR element, characterized in that, in order to expand the functionality, a single pulse shaper, a second and third triggers, a pulse shaper, a NOT element, a fifth AND element, a fourth OR element, and a counting input of the first pulse counter are introduced into it connected to the output of the pulse generator, the first inputs of the comparison unit are connected to the third bus for setting the code, the second inputs of the comparison unit are connected to the information outputs of the first pulse counter, the output of the comparison unit is connected to the first the inputs of the first and second elements And, and the input of the pulse shaper is connected to the first control bus, the output is formed. pulse generator is connected to the first input of the fifth element And, the second input of which is connected to the second control bus, the output of the pulse shaper is connected to the S-input of the second trigger, the direct output of the second trigger is connected to the second inputs of the first and second elements And, the third input of the first element And connected to $ direct output of the third trigger, the inverse output of which is connected to the third input of the second element And, the four inputs of the first and second elements And are connected to the outputs of the device and with direct and inverse outputs of the first three hera, respectively, the output of the first AND element is connected to the first inputs of the first, second, and fourth OR elements, the output 15 of the second AND element is connected to the second inputs of the second and fourth OR elements, the third inputs of which are connected to the output of a single pulse former, to the first input 20 of the third OR element and the second input of the first OR element, the third input of the last of which is connected to the output of the transfer of the first pulse counter and the fourth input of the fourth OR element, the output of which is connected to the recording input th pulse counter, while the output of the second OR element is connected to the R-inputs of the second and third triggers, the S-input of the third trigger is connected to the output of the fifth AND element, and the output of the first OR element is connected to the counting input of the second pulse counter and to the first inputs of the third and of the fourth AND element, the outputs of which are connected to the R- and S-inputs of the first trigger, the second input of the third And element through the НО element is connected to the overflow output of the second pulse counter, the second input of the fourth element I. and the second input of the third element OR, whose output is connected to the input of the second counter records' ^ um Gulsim ·