SU1226619A1 - Pulse sequence generator - Google Patents

Abstract

The invention can be used in the circuits of devices for automation and control, monitoring and diagnostics. The purpose of the invention is to expand the functionality. The device contains pulse counters 1 and 2, block 3 decoders, multiplexers 4 and 5 and bus 6 and 7 of the input and output. The introduction of a decoder unit, a pulse counter 1, and the formation of new connections between the elements of the device allowed the generation of sequences with a variable pulse frequency over the same output bus. 1 il. l tsD 05 O)

Description

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The invention relates to a pulse-n-th technique and can be used in the circuits of devices for automation and control, monitoring and diagnostics.

The purpose of the invention is to expand the functionality by providing a variable pulse frequency on a single output bus.

The drawing shows a structural diagram of a pulse trainer.

The pulse trainer contains an additional pulse counter 1, a pulse counter 2, a decoder block 3, the first multiplexer 4, the second multiplexer 4, the second multiplexer 5 and the input 6 and output bus 7.

The input bus 6 is connected to the input of pulse counter 1, the outputs of which are connected to the information inputs of multiplexer 4 and through the decoder block 3 to the information inputs of multiplexer 5 whose output is connected to the input of counter 2 of pulses whose outputs are connected to the address inputs of multiplexers 4 and 5, the output of the first of which: connected to the output bus 7.

The device works as follows.

Let us consider the construction and operation of the shaper of the next pulse sequence with the following frequency, Ф / 8; F / 4; F / 16 and F / 4 and duration in cycles of the reference frequency F 36; 24; 128; 67 accordingly.

 We determine the transition points from one frequency to another in binary code.

36

36 + 24 60 2 2 +2 +2; 60 + 128 188

2Ч2 +2 + 2Ч2

188 + 67 +2 +24242 2% 2 +2

The counter input of the counter 1 receives the reference clock frequency bus 6.

In accordance with the above sequence of pulse frequency changes, the first information input of multiplexer 4 is connected to the third output of counter 1 (the lower digit of the counter corresponds to the lower output number), the second and fourth inputs to the second output of counter 1, and the third to the fourth output of counter 1 .

Block 3 decoders selects the transition point from one tracking frequency

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five

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pulses to another, and the duration of the interval is determined by the number of pulses of the reference frequency Φ, and is a set of decoders, the number of which is equal to the number of intervals with different pulse frequency.

The construction of decoders can be different. The simplest is the set of elements I.

When switched on after the completion of one counting cycle of counter 1, the device automatically returns to its initial state, in which the zero state of the outputs of counter 1 corresponds to the zero state of the outputs of counter 2.

Consequently, in the initial state, the output bus 7 of the driver, through multiplexer 4, receives pulses with the following frequency F / 8.

The thirty-sixth clock frequency f is allocated by the first decoder of the decoder block 3 and through the first information input of the multiplexer 5 enters the counting input of the counter 2, increasing its state by 1. In the multiplexers 4 and 5, the second information inputs are connected to the outputs, those. pulses with a frequency of the following f / 4

The sixty clock is allocated by the second decoder of the block 3 of the decoders and changes the state of the counter 2 through the multiplexer 5, and the pulses with the repetition frequency F / 16 begin to pass to the output of the imaging unit.

After the arrival of the hundred and eighty eighth cycle of the reference frequency Φ, the state of the counter 2 changes to the output of the former, pulses are received at a frequency of Ф / 4.

Two hundred and fifty fifth impulses. Counter 2 is set to the initial state, and the last impulse - to the initial state counter 1.

If in the output pulse sequence at a certain interval a constant signal level is necessary, the corresponding information input of multiplexer 4 is connected to a DC source or zero bus, depending on what level of the signal must be obtained at the output of the driver.

Thus, the pulse shaper allows

31226619

Claims (1)

to form sequences from multiplexers, the output of the latter by a variable frequency of which they are connected to the input of counters on a single bus, which expands ka pulses, distinguishing and - the range of its application for shaping 5 Functional capabilities, pulse pulses in it. A block of decoders and an additional pulse counter are entered, the inventive formula of which is connected to the input bus, and the outputs are connected to information The shaper of a sequence of 10 inputs of the first multiplexer of pulses, containing a pulse counter, and through a block of decoders to ow, the outputs of which are connected to the ad-information inputs of the second interlaced inputs of the first and second multiplexer,