SU640341A1 - Information display - Google Patents

Description

Analog-to-digital converter 1 is connected to a memory unit 2, which by its outputs is connected to the first decoder 3 and the switch 22 of a block for converting a difference of codes in a time interval 9, the latter is connected to the outputs of a unit 13 unravlenn.

The matrix indicator nanel) 4 is connected to the outputs of the decoder 3 and the decoder 5, and the inputs of the diverter 5 are connected to the outputs of counter 6, the input of which is connected to the output of the element I, and one of the inputs of which is energized with frequency / p and the other two inputs connected to the outputs of the marker formation circuits 7 and 8 and to the inputs of the time interval generator 12. The time interval measurement unit 10 is connected to the outputs of the time interval generator 12 and the code-time interval converter 9 and the scaling block 11.

The operation of the device is as follows.

The input signal is fed to an analog-to-digital converter 1. The codes of the instantaneous values of the signal with the tempo chosen by the operator are recorded in memory block 2.

Upon completion of the process of recording information from memory block 2 through the first decoder 3, the matrix display panel 4 is output through its horizontal tires with a tempo determined by the panel matrix (fp) performance. At the same time, the counter 6 through the second decoder 5 is drying, connecting alternately connecting vertical bars with a matrix of the display panel 4. At the intersection point of the vertical and horizontal tires that are connected at the moment, a point appears. Thus, the oscillogram synthesis on the matrix panel occurs.

When the control signal arrives from the blocks 7, 8 of the formation of the marker signals and one of the inputs of the element 14, the counter 6 stops for several cycles of frequency / p (the number of passed cycles determines the degree of loudness modulation), which results in a brighter glow of two oscillogram points , and the position of these points (markers) is determined by the signal formation units of the marker, controlled by the "left" and "right" sigals.

At the moment when the counter 6 stops, the code that is currently present at the input of the first decoder 3, through the switch 22, on the arrival of a resolution from the formation of the marker 7 or 8, is written into one of the memory registers 15 or 16 of the code-time interval 9.

Thus, during one full cycle of operation of the counter 6, the marker is formed twice by blocks 7 and 8 for the first and second points, between which it is necessary to determine the coordinate difference, and the codes of these points by the Y coordinate are respectively occupied by memory registers 15 and 16 code time 11nte |) shaft 9, the operation of which takes place as follows.

Codes recorded in registers 15 and 16 are iodized to the first inputs of comparison circuits 17, 18, respectively. To the second inputs of the comparison circuits, the outputs of the corresponding bits of counter 19 are connected. When the counter 19 is filled with a frequency, the codes in the counter are compared with the codes in registers 15, 16. At the time of comparison of the codes, the corresponding comparison circuit generates an equality signal, which through the OR 20 element change in trigger state 21.

Thus, during the full cycle of operation of the counter 6, the output of the trigger 21 forms a time interval proportional to the difference between the codes in registers 15 and 16, and hence the coordinate difference along the Y axis between two points of the waveform marked with markers.

At the same time, the signal from the outputs of the signal conditioning units of the marker 7 and 8 is fed to the inputs of the generator 12 time intervals, which is an OR element 23, the output of which is connected to the counting input of the trigger 24.

Upon arrival of the signal from blocks 7 and 8 of the formation of the marker signals, a change in the state of the trigger 24 occurs. As a result, a haphene interval is formed that is proportional to the X-axis coordinate difference between two points indicated by the markers.

Time intervals from the code-time converter 9 and the time interval 12 generator arrive in block 10 of time intervals, where they are measured while simultaneously connecting the measurement results to the axes X and Y axes. determined by the positivity of the amplitude and sweep switches.

The measurement of time intervals is based on a count of the number of pulses of known frequency associated with the scale, counters 27 and 28 for the measured time intervals.

The measurement result is displayed on a digital display module (MI) 29.

In the case when the scale factor is a multiple of 10, a comma on the indicator board is transferred.

The synchronization of the operation of the whole circuit is carried out by the block 13, representing the trigger 25 and the element

And 26. The input of the trigger 25 receives an overflow pulse from the counter 6, which changes the state of the trigger 25 once per cycle of the counter.

In the case when the "1 potential at the output of the trigger 25 unlocks the switch 22, information is allowed to be written into the memory registers 15 and 16 of the time-code converter, the interval 9.

At the same time, the control unit element AND 26 is locked and the frequency fp does not pass to the counter 19, the OR 23 element of the generator of 12 time intervals is locked, and the time interval measurement unit stores the result of the previous measurement, the display mode.

In the case when "1 potential at the output of flip-flop 25 locks the switch 22, the OR 23 element of block 12 and AND 26 of control block 13 is opened and the coordinate difference between the two points indicated by markers is measured -" measurement mode.

Thus, the proposed device allows to obtain scaled samples, which allows to increase the efficiency of the operator.

Claims (2)

1. Oscilloscope on electroluminescent diodes. Electron et microelectron. Ind 1972, No. 161, 33-42 p. (French). 2.Kulman. Control circuit for solid-state matrix display devices for analog signals. Electronics, No. 9, 1972. From switch amp Vledo Virabo B / ieSo