SU957424A1 - Pulse generator - Google Patents

Description

one

The invention relates to a pulse technique and can be used in the field of radio communications as a source of a modulating signal, in the field of radar and sonar.

Known digital functional generators of periodic signals are: catches containing a reversible counter connected to the output of the OR element connected by inputs to the outputs of the AND elements, the first inputs of which are connected to the output of a fixed frequency generator made on the clock generator and the de / frequency sensor, and the second the inputs are connected to the unit outputs of the ring shift register, the argument counter connected by a counting input to the output of a generator of fixed frequencies, and the bit inputs to zero outputs count an end shift register whose clock input is connected to the output of the argument counter, l},

However, the generator has limited functionality since it cannot synchronize from an external signal. The presence of a frequency divider implies the operation of a generator with a fixed frequency grid, which limits the accuracy of the reproduced functions, and the relative complexity of control limits its speed.

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The closest in technical essence to the present invention is a pulse generator containing a reversible counter, the addition and subtraction inputs of which are connected to the outputs of the first and second elements AND, respectively, and the outputs through the decoder are connected to the inputs of the second element And the trigger, and the source of clock pulses connected to

20 inputs of the first and most expensive elements And 2.

Claims (2)

The generator does not provide for the formation of series, pulses, which limits its functional capabilities. The purpose of the invention is to extend the functionality of the pulse generator by ensuring the formation of a series of symmetrical pulses. The goal is achieved by introducing a sequentially connected memory device and a digital-analog converter into the pulse generator, the clock input of which is connected to the output of the clock source, while the memory inputs are connected to the outputs of the reversing counter, and two trigger outputs are connected respectively to the inputs the first and second elements I. The drawing shows the functional diagram of the pulse generator. The generator consists of a source of 1 clock pulses, a trigger 2, the first 3 and second k elements, respectively, a reversible counter 5, a decoder 6 minimum and maximum code combinations, and serially connected memory 7 and digital-analog converter 8, the output of which is output generator. The output of the source of 1 clock pulses is connected to the first inputs of the first 3 and second And elements and to the clock input of the D / A converter of the Azovate 8. The E | triggers of the trigger 2 are connected to the second outputs of the first 3 and second k elements And, whose outputs are connected to the inputs of the addition and subtraction of the reversible counter 5c responsibly, the outputs of which are connected to the corresponding inputs of the memory device 7 and the decoder 6 connected in parallel to the minimum and maximum code combinations, the output of which is connected to the third input v The k element and the other output is with the trigger input 2. The other trigger input 2 is the generator sync input. Using the trigger 2, the first and second elements AND 3 and 4, the decoder 6, the generator is synchronized by an external signal and the clock pulses received at the inputs of the addition or subtraction of the reversible counter 5 during the formation of the signal. 9 Using a memory device 7, the code sequences are converted into a sequence of codes of the generated pulse and then converted into an analog signal. The generator works in the following way. In the initial state, the trigger 2 is in the zero state and from the output of the decoder 6 to the third input of the second element I, as well as from the output of trigger 2 to the second input of the first element 3 And logical O. Consequently, the clock pulses to the input of the reversible counter 5 are coming in. After the clock pulse acts on the input of the trigger 2, it will be set to the state of the clock pulses through the first element 3 And begin to arrive at the input of the addition of the reversible counter 5, sequentially increasing its state. When the reversing counter 5 is completely filled, logical 1 will be found at the outputs of its bits, which will replace the logical 1 with a logical O at the output of the decoder 6, This replacement of the logical level causes the Trigger 2 to overturn to its O state, which is in its the queue causes the switching of clock pulses to the input of the subtraction of the reversible counter 5. Another clock pulse causes a decrease in the state of the reversible counter 5 by 1, which leads to the restoration of the logic level 1, at the output of the decoder 7. As it arrives clock pulses, this state is successively reduced until it becomes zero. This causes the replacement of logical 1 with logical 0 at the output of the decoder 6 and, therefore, the prohibition of further passing of clock pulses to the reversible counter 5. Thus, both AND elements are closed, and the reversible counter 5 remains in the zero state. This state cxei is maintained until the next clock pulse arrives, after which the process is repeated. During the operation of the reversible counter 5, the sequence of binary codes from its outputs samples the sequence of binary code words from memory 7. This readable sequence is a sample of the source function to be generated, represented in binary code. Since after the arrival of the sync pulse at the input of trigger 2, the reversible counter 5 operates in the summation mode and then switches to the subtraction mode, the code words are read out accordingly from the memory 7 so that the output forms symmetrical with respect to the average interval. The duration of the generated pulses depends on the frequency of the following clock pulses from the output of the source of 1 clock pulses, and their period is determined by the period of synchronization pulses. The proposed generator can be effectively used as a source of a pulsed signal of a given shape in various areas of the national economy, in particular in radio communications, as a generator of a modulating signal. Claims An impulse generator comprising a reversible counter, the addition and subtraction inputs of which are connected to the outputs of the first and second elements AND, respectively, and the outputs through a decoder are connected to the inputs of the second, element And trigger, and a source of clock pulses connected to the inputs of the first and second elements And, characterized in that, in order to expand the functional possibilities by ensuring the formation of a series of symmetric pulses, serially connected memory devices are introduced into it o and a digital-to-analog converter, the clock input of which is connected to the output of the clock source, while the memory inputs are connected to the outputs of the reversible counter, and two trigger outputs are connected to the inputs of the first and second elements, respectively. Sources of information taken into account examination 1. USSR author's certificate If kBSkkQ, cl. G About F 1/02, ig. 2. USSR author's certificate of application number 2895986 / 18-21, kp. H 03 K 5/153, 2.03.80.