SU767794A1 - Device for forming pulses on the screen of light-beam oscillograph - Google Patents

Description

(54) DEVICE FOR PULSE FORMATION

ON THE SCREEN OF A RADIATION OSCILLOGRAPH $. in r> · - b- »·

The invention relates to automation and computer technology and can be used to register fast processes in binary decimal code with a large amount of information.

Currently, the registration of fast-moving ⁵ processes in binary decimal code is carried out using various devices - recording information on digital cathode ray tubes (CRT), recording numbers directly from a digital CRT on photosensitive paper, recording on magnetic recorders, followed by a speed transformation during playback and representation of the decimal code on various kinds of registrars and other devices (1].

However, significant disadvantages are inherent in all of them: the amount of information recorded is small, and with a large amount of information, it is very complex equipment or _2β information processing is lengthy, and most importantly, it is not possible to simultaneously register the same process in analog form on one medium.

The closest technical solution is a binary-decimal code registration device on a light-beam oscilloscope, containing an encoder, a pulse shaper connected to one of the encoder inputs, a current amplifier, and a recorder connected in series with it [2].

The known device allows you to register a binary-decimal code, but it has the following disadvantages: when determining a code digit, counting processing of information is necessary, i.e., summing the levels of both significant pulses according to their weights and amplitudes and pulses close in level at high polling frequencies is difficult to distinguish In view of the frequency distortions associated with the limited capabilities of the recorders, 'indirectly leads to additional processing errors.

The aim of the invention is to expand the scope of the device due to the formation of bipolar pulses.

This goal is achieved by the fact that the decoder and two blocks t

OR elements, the inputs of which are connected to the outputs of the encoder, and the outputs with a current amplifier, and the decoder is connected to the information inputs of the encoder.

In FIG. 1 shows a block diagram of a device; in FIG. 2 is a schematic diagram of an encoder and OR elements connected to it; in FIG. 3 is a timing diagram of the operation of the device.

The device comprises a decoder 1 connected to an encoder 2 connected to a pulse shaper 3, two blocks 4 and 5 of OR elements, an amplifier 6 of the current, and a light-beam oscilloscope 7.

The encoder 2 is made on the elements 8-21 And and voltage dividers on the resistors 22-35, the elements OR blocks 4 and 5 are made on the diodes 36-49.

The device operates as follows.

The decimal code from the decoder 1, which receives the binary decimal code (Fig. 3, diagrams 50-53), is fed to the encoder (Fig. 3, diagrams 54-62). The pulse shaper 3 generates, according to an external trigger, synchronized with the input code, the pulses shown in FIG. .3 (charts 63-65). In FIG. 3 positions 66, 67 - pulses displayed on photo paper, 68-76 time charts.

The pulses of information in the decimal code and the clock pulses arriving at the encoder 2 are synchronized on the elements 8-21 I, normalized by the amplitude by voltage dividers on the resistors 22-35 (Fig. 2) and fed to blocks 4 and 5 of the OR elements. The pulses from the OR elements are fed to the input of the current amplifier 6, which makes it possible to obtain pulses of different polarity767794 4 types on the oscilloscope. In FIG. 3, diagram 77 illustrates the shape of the pulses displayed on photo paper depending on the significance of a decimal digit. Zero is characterized by the absence of a signal on the oscilloscope.

The proposed device allows to simplify the processing of recorded information in decimal code due to the fact that there is no need for counting information processing and, in addition, to reduce the number of signal levels, which reduces the error of processing the experiment.

Claims (2)

(54) DEVICE FOR LIGHT SCREEN The invention relates to automation and computer technology and can be used to register fast processes in a binary-decimal code with a large amount of information. Currently, registration of fast-moving processes in a binary-ten code is carried out using various information transmitting devices on digital electron-beam tubes (CRT), digit recording directly from digital ETP to photosensitive paper, recording on magnetic recorders, followed by transformation during playback. speeds and the representation of the decimal code on various kinds of recorders and other devices 1). However, all of them have significant drawbacks: the amount of information recorded is small, and with a large amount of information there is very complex equipment or long processing of information, and the most important is that there is no possibility of parallel recording of the same process in analog form on one medium. THE MOVEMENT OF PULSES OF THE OCTIGLOGRAPH CSO | t |; C; #. R-f. one . ; .-: - .J..l. The closest technical solution is a binary-decimal code registration device on a light-beam oscilloscope containing an encoder, a clock pulse generator connected to one of the encoder's inputs, a current amplifier and a series-connected c. registrar 2. The known device allows registering a binary-decimal code, but at the same time it has the following disadvantages: in determining the digit of the code, the information must be counted, i.e. the summation of the levels of both significant pulses according to their weights and amplitudes and close ones Pulses at high polling frequencies are difficult to distinguish due to the frequency distortions associated with the limited capabilities of the recorders, which indirectly leads to additional processing errors. The aim of the invention is to expand the field of application of the device due to the formation of opposite-polarity pulses. The goal is achieved by the fact that a decoder and two blocks of OR elements are entered into the device, the inputs of which are connected to the outputs of the encoder, and the outputs with the current amplifier, and the decoder is connected to the information inputs of the encoder. FIG. 1 is a block diagram of the device; in fig. 2 is a schematic diagram of the encoder and the elements OR connected to it in FIG. 3 - time diagram of the device. The device contains a decoder 1 connected to an encoder 2 connected to a shaper of 3 clock pulses, two blocks 4 and 5 of the OR elements, a current amplifier 6 and a light beam oscilloscope 7. The encoder 2 is made on the elements 8-21 AND and voltage dividers on resistors 22 -35 elements OR of blocks 4 and 5 are made on daods 36-49. The device works as follows. The decimal code from the decoder 1, to which the binary-decimal code (Fig. 3 of FIG. 50-53) is fed, is fed to the encoder (Fig. 3, charts 54-62). The clock pulse generator 3 generates, by an external trigger, which is synchronized with the input code, and through three channels, the pulses are represented by the bufftie in FIG. .3 (diagrams 63-65). FIG. 3 positions 66, 67 - pulses displayed on photo paper, 68-76 time diagrams. Received ishfrator 2, information pulses in decimal code and clock pulses are synchronized on elements 8-21 AND are normalized. By amplitude of voltage dividers on resistors 22-35 (Fig. 2) and arrive at blocks 4 and 5 of the OR elements. The pulses from the OR elements are fed to the input of the current amplifier 6, which allows you to receive pulses of different fields 4 on the oscilloscope. ti. FIG. 3, diagram 77 illustrates the shape of the pulses displayed on photographic paper, depending on the significance of the digit of the decimal code. Zero is characterized by the absence of a signal on an oscilloscope. The proposed device allows us to simplify the processing of the recorded information in a decimal code due to the fact that there is no need for counting information processing and, in addition, to reduce the number of signal levels, which reduces the experimental processing error. The invention The device for generating pulses on the screen of a light-beam oscilloscope, containing a clock pulse generator connected to the control input of the encoder, and a current amplifier connected to the light-beam oscilloscope, with the aim of expanding application areas of the device due to the formation of bipolar pulses of variable amplitude, it contains a decoder connected to the information inputs of the phrases, and two blocks of ILU elements whose inputs are connected to the outputs, cipher ora, and the outputs - with a current amplifier. Sources of information taken into account in the examination 1. Instruments and equipment of the experiment, 1975, No. 6, p. 259.-. 2.Novitsky P.V., et al. Pythoric instruments with frequency output. M., Energie, 1970, p. 271-272 (prototype). L ftfe "XLf: - :. 3BeBiMSs "ias" y Ai3 sacie; ii4 ..: Jix.-. „Sss-x