DE1946014B2 - Method for displaying the course over time of a series of measured values in digital form on the screen of a display device - Google Patents

Description

allowable shift frequency lying clock frequency, that output stages, which from the address counter 17 the rotational frequency of the shift register can be controlled equal to that. With the shift register of the one-frame repetition frequency at the output point and output register 9, the shift register 8 is in of the shift register. Connected in series so that the two registers make one The number of stages in the shift register is therefore greater than the 5 ring buffers form.

Bit number of all measured values. In a number of From the input and output register 9 are the

Therefore no information is given for levels. The respective measured values cyclically on the screen of the empty steps are therefore shown as empty positions. The electron drawing runs over this. So that their number and the number of stages of the beam line by line, whereby it is as low as possible when the dark shift register is returned, they are keyed to io. In principle it is possible to use the time axis the issuing point preferably with one in the line direction. It is more advantageous However, the frequency is close to the lower limit frequency if the time axis is perpendicular to the lines pushed past. The shift clock frequency is therefore running. In this case, the saved different, depending on whether the information is digitally converted over time. For this holding positions or the spaces on the output 15 can begin with the start of the scanning of a line of the output point of the shift register are pending. The sliding preset counters 3 with the respective digital value of the clock frequency can then be particularly easily obtained input and output register 9 loaded and with the if they are counted down when the blank pulses from the clock generator 5 are pushed past len become the same at the output point of the shift register, while the electron beam is selected to be dark at the line frequency. This is then gassed ao is distracted. When the counter is expediently reached, when the lower limit frequency is close to "0", the preset counter 3 indicates the pulse is below the line frequency. central 2 from a signal with which the electrons-On hand of the drawing are in the following the beam is brightly keyed. This type of digital time invention, as well as other advantages and additions, is characterized by its simplicity and implementation described and explained in more detail. «5 accuracy. The representation in histograms Fig. 1 shows an arrangement for implementation is also possible by the electron beam of of the new procedure; in the beginning of a line until reaching the NuIl-F i g. 2 are pulse diagrams to clarify the position of the preset counter 3 is lighted, of the new procedure shown; Of course, a preset counter can also be used. Fig. 3 shows an arrangement for highlighting 30 to be turned from the beginning of the scanning of a several points in one line; in line to the clock pulses supplied to it on sum-F i g. 4 shows a circuit for comparing mated values and when the preset digital digital values are reached. value emits a light button.

In Fig. 1, 1 denotes a display device which The individual words that are extracted from the main memory 7

is connected to a pulse center 2. The 35 of the process computer in the image repetition memory display device 1 and the pulse center 2 can be transmitted rather 4, can be transmitted in parallel be part of a normal commercial industrial or serial in the input and output register 9 einfernsehanlage. The camera of such a type can be written. From there they are in places The television system is replaced by a preset counter 3 pushed into the shift register 8, which is and an image repetition memory 4 which forms a ring memory from 40 and output register 9. At least the dynamic shift register 8 consists of a shift register 8, an input and output register 9 and an address counter 17 consists. Units in integrated MOS technology. Such Image repetition memory 4 and preselection counter 3 dynamic shift registers must always be with a are controlled by a clock generator 5. The minimum shift clock frequency can be controlled, otherwise Clock pulses are also transmitted to a coaster 6 45 lose their content. The number of stored, horizontally and vertically deflected words is less than the number of lines of the viewing frequency of the electron beam of the display device 1, so that if the capacity of the ring feeds and the pulse center 2 and the address memory would be the same as the stored information, counter 14 feeds If the clock frequency z. B. after output of the last word of a playback-8 MHz, then the shift clock frequency will be blocked by frequency division of the line 50 cycle Abienk frequency of 15625 Hz and by dividing it would have to until the next Bud is written. In Ratio of the refresh rate of about 50 Hz this time the stored data could be lost. One will build the divider so that one can walk.

first divides by 512, then the horizontal To avoid this, is the capacity of the ring

deflection frequency and by dividing by 312 the 55 memory greater than required. The Be To achieve refresh rate. rich, in which to that in Fig. 1 illustrated eyes

Mh 7 is the main memory of a process computer look data should be, is shown hatched The number of vacancies can vary in size Measuring points are stored. Should be the readings. The capacity of the ring buffer can, for. B. s < a certain measuring point are displayed, so 60 are chosen large that, if de first the corresponding memory area of the display device would have to be displayed, ge Process computer can be selected. This can be stored in just about any words. In the Usually with an operating instruction about this case, the ring buffer could with constant perform a control unit. Thereupon be controlled via clock frequency. The number of steps If the process computer carries the measured values from the Ar- 65 it can also be smaller; then must, if di additional memory 7 to the input and output register 9 spaces through the input and output register 9 ge of the refresh memory 4. This consists in being pushed, the clock frequency in the same Vei essentially from a shift register and content and ratio are reduced so that the circulation time de

Information in the ring buffer equal to the frame rate clock frequency for shifting the data through the

of the display device is. It is useful to have ¹ Za-8 MHz = 125 kHz for each input and output register

empty space of a word is a must. So there are at least 256 x 8 clocks with

Provide shift register stage. In this case, 125 kHz can be used for shifting, after which all

to move the spaces through the input and 5 stored values are output. Then must

Output register 9 the horizontal deflection frequency as the time until the start of the next output cycle

Shift clock frequency are used, as these are bridged. This time is 56-64 μβ. Who-

is close to the lower shift clock frequency. The um- bels in the ring memory 56 are selected, so

Control of the shift clock frequency results in further shifts following the shift at 125 kHz

management example the address control 17 by means of 10 56 clocks with the line frequency of 15.625 kHz. There

the AND gates 10 and 11. the lower limit frequency for the shift clock pulses

Using the pulse shown in FIG. B. 10 kHz, the number of spaces can

diagrams, one cycle cycle will be reduced even further in the following. For example, can

explained in more detail. they are 45. In this case the shift clock

After the electron beam of the viewing device 1 15 frequency 12.5 kHz. In the exemplary embodiment a picture has been drawn, it is triggered by a synchronization pulse V der entered in line α with the capacity of the shift register +56 bits and that of the input and output register 8 bits. From the coaster unit 6 back to the upper edge of the screen, for reasons of control, it may be more beneficial to have the guided one. The movement in the line direction is synchronized with the capacity of the shift register to ground the pulses shown in line b to +55 bits. _ao heights. In this case, 257 × 8 digits must be shifted with In the first lines of the picture no measured value 125 kHz and 55 digits with 15.625 kHz can be displayed, since the electron beam becomes several.

Zene periods are needed to move from the lower to the When loading the ring buffer, the upper edge of the image will be reached and the data pending during this and output register 9 will only be blanked at a certain time. During this time, with the 25 a certain stand, z. B. 5, the address counter horizontal deflection vacancies through the input 17, which is set to 0 with the frame sync pulse V and output register 9 is shifted. Line c shows that was taken over in parallel or in series. In the general time course of the output signal of the address mean, the input and output register 9 is not counter 17, which blocks gate 11 and which is controlled directly by the process computer, releases gate 10. The shift clocks are therefore synchronized but via a buffer memory, which in turn is chronological with the line frequency. While the first is loading upon request. After the five pulses, the input and output register 9 is loaded with storage of the first word, the further data can be loaded from the shift register 8. 1st are continuously accepted in one word until the pre and output registers 9 no longer contain spaces in the shift registers 8 and 9, can be determined, then the will be shown. The two contents then run to the preset counter 3 and circulate in shift registers in the manner described.
the display device 1 shown. At the same time, the new method can change the control signal for gates 10 and 11, so that line skipping applied by conventional televisions is now maintained at the shift clock frequency equal to the output method. It will then not be the frequency of the generator S is. In the illustrated example, the locations of the ring memory consecutively in the series management example have a word four places, so that after occupied or called, instead, when the shift clock frequency is increased by a factor of 4, only the memory locations are evened out in one pass. Are all measured values from the incoming and outgoing party and on the other pass only those with output register9 a preset counter3 issued or 45 odd-numbered addresses assigned or read. If a certain status of the address counter 17 is reduced, if the number of addresses is sufficient, the shift clock frequency is reversed again, as is the number of lines on the screen, and only one place per line is odd, because then the shifted continuously. In line d of FIG. 2 is the next but one memory location in time that can be read. Course of the shift clock pulses shown. In this case, the shift clock frequency should not be required that the frequency of the shift clock should be equal to the product of the number of digits in a word and the pulses for shifting data from the line frequency; Output register 9 product of line frequency and double number of digits is constant, it can also be a word with a high frequency . Curve-writing visual devices sequence shifted 55 into the input and output register 9 should not only serve to display certain measured values and then invariably display them until a new one is inserted, but it should also have a longer pulse pause, if similar to the analog recorder, the respective word newest measured value cannot be represented by the pause the lower clock frequency limit. After the main godparent is not reached. this is achieved by the following:

In the exemplary embodiment, the oldest measured value was deleted for the purpose of more than 60 new measured values

For a clearer representation, it is assumed that one word is removed from all other measured values by one memory location

only has four digits. In practice, the words will be moved and the new reading will be in the

have more positions, e.g. B. eight, so that a measured value is stored free first memory location, se

with greater accuracy, e.g. B. of at least 1% that after writing a new value in the

can be represented. In the case of industrial television 65 frame repetition memory, what in equidistant time

systems, the line period is 64 y & and the spacing is done, the curve shown is in Rieh

number of lines 312. The frame repetition time is direction of the time axis is shifted. In the picture

therefore 312-64 μ &. It follows from this that the sliding screens are not only measured backwards

9 10

events, but also the latest measured values - the last word in this, then register 8 shown. switched back to a ring buffer, and that

In the main patent it was also suggested that register 9 is not after deletion of the one stored in it to re-store the measured values, but ready to accept new data in the oldest value, more often only the addresses have to be converted 5 The same procedure can be used if the or to modify the address count. For newest data, in the last lines of an image this proposed method will be presented in each case. In this case the data oldest value is replaced by the new measured value so it is written into places in the shift register, that its input address is constant. The one that follows the data shown in the last line and output registers will be set at ein and io, respectively. Then the shift register becomes the same Address loaded. The registered letter is shortened by a word length so that the new always permitted if a new measured value is preceded by the address whose content is in the last word and the address counter has this status. After line of picture is shown. The content of the Speidem The new value must be written in. The initial memory cell with the lowest address is deleted, have address 0. If the address counter counts each digit 15, several shift registers can also be pardes Frame repetition memory, then the allele can operate, the clock generator 5, the Address modification can be achieved in that address counter 17 and possibly the gates 10 in the address counter one of the number of digits one and 11 for all shift words switched as a ring memory the same number of pulses with a very high register can be common. It can be done with it Counting frequency are counted. In which a storage unit organized in parallel can be implemented here, In the described embodiment, the address counts. On the display device, several

only counts the number of words, so that it is sufficient to display diagrams. For this purpose are the to each the address counter only one additional pulse of measured values belonging to a diagram in one each to feed. This increases the addresses of all ring buffers stored, each with a preset counter saved values by 1. Which is assigned to 25 shortly before. The video output signals of the pre-stored The measured value will expediently have different amplitudes until the post-dial counter is entered Measured value considered as the most recent value. so that the curves shown also differ

Another method can be loaded in which the most recently written word has the lowest address and is slightly differentiated. In addition, the output signal can be that for writing a new word 30 the preset counter in special cases, e.g. B. at tes the shift register is changed during a circulation cycle exceeding a setpoint or in the event of an alarm with by the length of a word. To do this, a low frequency, e.g. B. 1 to 5 Hz, modulated, there are two possibilities, depending on whether they are so that the corresponding curve flashes and the latest values are displayed in the first lines or in the last lines of an image that stand out from the other curves. 35 Another type of multi graph be-words are the latest in the first lines of _ste ht is that the screen shown in several fields of the image, then for writing a field is divided and each a diagram ζ. Β. the shift register is assigned to a new word during a changeover to a measuring point. For the measured values run cycle extended by the length of one word. a ring buffer is provided for each curve. All of this is in FIG. 1 run by the dashed eingezeich- 40 ring memory in synchronism, but are ministered compound of the shift register 9 to a jenigen side by side laying curves zugeord shift register 18 and _{n is} from this to Schieberegi- et are phase shifted. All that is needed is a pre-selection box8 drawn in. The shift register 18 is may be connected with counters, the time-division multiplex BiIddenselben to the "different clock pulses as the registers 8 and 9 Toggle repetition memory. Solgesteuert. Further, a switch S is provided for len 45th example shown four curves in four fields who is actuated by the address counter 17. The inputting in the form of quadrants on the image and output register 9 is controlled so that new screens are divided up, so at the beginning of the AbData, the most recent value will be written before the most recent value "first line of the preset counter with the. At the same time, the switch S is thrown, so that the content of the first address of the first image reproduction is loaded through the register 18, the latest data is loaded, and it is shifted to the above. As a result, a circumscribed way of generating a light button signal is lengthened. Because of the running cycle by one line period, so that the address stores the phase shift between the first ring of the words stored in the registers and the second, that in the first is increased by 1. After the data stored in the second ring buffer has passed through the register 18, the switch S is not turned back until the electron beam passes in front of the, so that the register 9 is immediately reconnected to the first diagram field in the second read-out register 8 is. * and entered into the preset counter, so that too

It is also possible to use the register 18 to generate a bright point in the second field. Beirr pulled. In this case, the switch 5 between scanning the next line is the preset counter! the registers 8 and 9 attached. The latest data with the content of the second memory location of the first th are loaded into the input and output register 9 in the ring memory, and after an ent and stored there until the previously speaking time, the electron beam is bright newest measured value occurs at the end of register 8. groped. At the transition of the electron beam into there! Then registers 8 and 9 are combined with one another. The second diagram field becomes the preset counter a « bound, the clock pulses are connected to the second ring memory for register 9 65 and with the released and the content of register 9 is loaded into the content of the second memory location. Currency c the register 8 shifted. At the same time, the two in the upper half go through de in this way All other saved values are in register 9. If the screen is lying down, curves are displayed

11 12

run the two associated with the lower curves through that achieved after each playback Ring buffer once to send without a signal. a predetermined number of pixels that are HeI the first two image repeat memories are switched over and that queried, the preset counter is sent to the third after playing a certain number of Image repetition memory connected, which 5 images the numbers of the lines with the light button The image points shown in the lower left part of the screen can be changed. Issued differently Curve is assigned. The two in the bottom means that the light and dark ones Half of the screen to be displayed curves th pixels are counted and that after the the relative starting point of the counter will then be used according to the two upper course changes generated. io is pushed. The number of lines is 312 and is

If the frame rate is a separate 50 Hz ring buffer for each series of measured values, then the Marcher and preset counters are available, so the marking can be divided so that eleven points each Curves shifted against each other and slightly with one - with medium brightness and the next eleven points to be compared to each other. For this purpose, you can write with full brightness. The counter, given comparison curves in the computer, the number of 15 with full and medium brightness and can be displayed if necessary. counts the points shown is free running. Begins

As in Fig. 3 is shown, the preselection is a curve with the first light-scanned image point, counter for the individual curves preferably through then after 312 lines the fourth point of a line is Replaces central counter 20, which is lighted with each character. The remaining seven points werlenimpuls as the start signal of clock pulses shown high at the beginning of the next curve, see above counts, when the final score is reached, that the line marking moves four points in the direction resets and the supply of further clock pulses of the curve request is shifted, d. i.e., the line locks, until a new start signal or the next marking moves along the curve to the curve line return pulse appears. For each start to be represented, namely a piece moves at a picture aperture A circular memory 25 repetition frequency of 50 Hz and one image point is again provided for the series of measured values. Its output register 21 or 22 is number of 256 in about 1.3 seconds through the entire with the continuously scrolling counter 20 over a curve.

Comparator 23 or 24 linked, which is connected via a line. It is of course not necessary that with

ment al or al emits a light button signal when the line marking the lengths of the

Counter reading and the content of the output register 30 and the lines described with middle

are the same. Because the counters from 0 to the final value brightness described are the same. For example

counts through, it can contain all the valences of data words - is it possible to highlight the dots in fifteen lines

record in one count. The number of write and the pixels of the following six

The comparator and the output register can write any lines with medium brightness. In the-

be great. In this case, the line marking moves in 1.7 seconds

For each point to be compared there is a circuit from the beginning of the curve to the end of the curve. It is also provided that dash-dotted markings are also possible for a simple equivalent circuit, with and in the exemplary embodiment according to FIG. 4, for example, in that eighteen points are written with full from three NAND gates Nl, Nl and / V3 and two brightness, the following five negation terms / 1 and II . The outputs 40 points with medium brightness, then three points of the equivalent circuits Al, Al, / 4 3 ... are again combined with full brightness and again five via a coincidence gate U , at points with medium brightness. The signals for this whose output α a signal appears if the can easily be equal from a counter with an identical data word. Decoding circuit can be obtained. In this case

If there are different curves 45 on the screen, a marking moves in 2.6 see over the image,

so they must, especially if they are The speed at which the marker is about

overlap, let distinguish. When the image wanders, it can also be changed

of intersections, it is often difficult to understand that with the image retrace pulse one or more

veins clearly a certain series of measured values rere impulses additionally fed to the counter or

assign. Every curve along its 50 must therefore be suppressed.

the entire line. Advantageous on the steep of the hiking marking of the curves are represented by a different in black and white curves can curves intensity can also be identified in color in the manner of dotted or dashed lines. To do this, or also marked with a dash-dotted line. Such a ken the control-fixed marking raster output by the raster counter is often sufficient, 55 impulses a color change, z. B. from red to ven to be distinguished from each other. Often, especially yellow, so that the red-yellow curve appears dashed, When the curves are viewed from a distance there is also the appearance of colored curves such a marking is also not possible with the aid of commercially available industrial television sets Sufficient for a clear assignment in the case of kri- possible. For this purpose, the light button signals from the front table Curve intersections is reached. 60 counter simultaneously on three channels, namely

According to a further development of the invention, the code is supplied. Should z. B. the curves in six

Recognition of the curves improved by displaying the different colors, so can

The three basic colors in the (J) code, the complementary

changes, d. This means that the lightly keyed bars are displayed in a täricolor in (J) code. Will

Walk the curve along the curve. E ^ e curve can switch 65 light button signals to another channel,

therefore not only by the line spacing, but z. B. when a setpoint is exceeded, appears

also recognized by the different speed the corresponding part of the curve in a different color ^v

will. This wandering of the marking is therefore preferably noticeable, e.g. B. red, is.

For this purpose 2 sheets of drawings

Claims (10)

Patent claims: 1. Method for displaying the time course of a series of measured values in digital form as a diagram on the screen of a display device, in which the measured values are stored in a frame repetition memory, from which they are cyclically fed to the display device and in which after a new measured value has arrived the respective oldest measured value is deleted, all other measured values are shifted by one memory location and the new measured value in the free first memory location stored wi ^r d is guided line by line over the screen of the display unit of the electron beam at the and the direction perpendicular to the line direction, the direction of The time axis is in which at the beginning of the scanning of each line a preset counter is loaded with the value to be displayed in this line and stored in the image repetition memory, at which, while the electron beam is scanned lightly or darkly across the screen, the preset counter clock pulses are fed and in which the current strength of the electron beam is changed after the preset number of pulses has been reached, according to patent 1 808 245, characterized in that to display measured values less than the number of lines of a display device (1) when using a shift register (8, 9) connected as a ring memory the number of stages of the shift register (8, 9) by a number of blanks greater than the number of positions of all measured values is selected with a lowest permissible shift clock frequency as the image repetition memory and that the parts containing the measured values are selected with a clock frequency which is equal to the product of the line frequency and the Number of digits of a word, and the blanks are shifted past the output point (9) of the shift register with a clock frequency above the lowest permissible shift frequency such that the rotation frequency of the shift register is equal to the image repetition frequency. 2. The method according to claim 1, characterized in that the blanks at the dispensing point at a frequency near the lower cutoff frequency will. 3. The method according to claim 2, characterized in that d ^f i spaces rn ·; a clock frequency which is equal to the line frequency, are shifted past the output point of the shift register. 4. A method for displaying the course over time of a number of those available in digital form Measured values as a diagram on the screen of a display device, in which the measured values are stored in a refresh memory, from which they are cyclically transmitted to the display device are supplied and the oldest in each case after the arrival of a new measured value Measured values is deleted, all other measured values are shifted to one memory location and the new measured value is stored in the free first storage disk in the case of the display device the electron beam is guided line by line across the screen and the direction is perpendicular to the line direction is the direction of the time axis at which each line is scanned at the beginning a preset counter with the one to be displayed in this line and stored in the image repetition memory Value is loaded at which, while the electron beam is light or dark-keyed runs across the screen, the preset counter clock pulses are fed and after When the preset number of pulses is reached, the current strength of the electron beam is changed, according to patent 1 808 245, characterized in that a. synchronous with the shift register (8, 9) Address counter (17) is switched on, which reads data from the memory and writes it new data controls, and that before or after the writing of new data, the length of the shift register is changed by the length of one word during a circulation cycle. 5. The method according to claim 4, characterized in that new data in a part (9) of the shift register (8) are written, which has the length of a word and to the Writing new data the shift register is changed during a circulation cycle. 6. Ancestors according to claim 4 or 5, characterized in that the latest data in the first lines of the image are displayed and the shift register (8,9) by the length of a Word is extended during a circulation cycle. 7. The method according to claim 4 or 5, characterized in that the latest data in the last lines of the image are displayed and the shift register during a circulation cycle is shortened by the length of a word. 8. A method for displaying the course over time of a number of those available in digital form Measured values as a diagram on the screen of a display device, in which the measured values are stored in a refresh memory, from which they are cyclically fed to the display device and in the after When a new measured value arrives, the oldest measured value is deleted, all other measured values be shifted by one memory location and the new measured value in the free first Storage space is stored in which the electron beam line by line in the viewing device the screen is guided and the direction perpendicular to the line direction is the direction of the The time axis is, in which at the beginning of the scanning of each line a preset counter with the one in this one Line to be displayed and the value stored in the frame repetition memory is loaded, at the one while the electron beam is scanned lightly or darkly across the screen, the Preset counter clock pulses are supplied and when the preset number of pulses has been reached the current strength of the electron beam is changed, according to patent 1 808 245, thereby characterized in that in each case after the mapping of a predetermined number of pixels Brightness of the pixels is switched and that after the reproduction of a certain number of images the pixels of other lines are light-scanned. ³ 4 9. Arrangement for carrying out the Vex- reaching the preset number of pulses the current. Driving according to claim 8, characterized in that the strength of the electron beam is changed. net that an image repetition memory controlled by the line pulses can basically A counter is provided which, after each one, borrows all circulating memories, such as record and drum parts Number of line lypulses control s or runtime memory can be used. It can signals for the light key and the shift register can also be used cyclically. In general up to counts to a number that is not in an integer number, each line of the display device draws a measured value Relative to the number of lines. orderly. The number of stored 10. Method for displaying the temporal assured measured value not as large as the number of lines Over the course of a number of preselected in digital form Measured values as a diagram on the rend of the image rewind in display devices a larger one Screen of a display device in which the number of lines to be measured is blanked. For viewing devices, values in a frame repetition memory whose number of lines cannot be changed, e.g. B. at the from which they work cyclically according to the line grid method according to the visual standard device are supplied and in the after viewing devices, are therefore in a number of lines When a new measured value is reached, the oldest in each case no analog values are displayed. When using Measured value is deleted, all other measured values shift registers with any lower, permissible value can be shifted to a memory location and shift clock frequency as a circular memory the new measured value in the free first memory capacity are chosen to be just large enough that the Space is stored in which the measured values to be displayed in the display device 20 can be stored Electron beam line by line over the image. The measured values are obtained from the shift register screen is guided and the direction output vertically in such a way that after the image return pulse to the row direction is the direction of the time axis that is given in the first memory location of the shift register which a stored value is output at the beginning of the scanning of each line and in one of the Preset counter with which the first 25 lines are shown in this line. On the next line ! ends and the content of the next memory location is stored in the image repetition memory Value is loaded at which, while represents and so on up to the last memory location of the the electron beam lightly or darkly keyed shift register. Then the shift clock pulses runs across the screen, the preset counter is blocked and only again after the image return pulse Clock pulses are supplied and released after 30, so that the content of the first memory is reached the preset number of pulses is placed back in one of the first lines of the image Amperage of the electron beam is changed, is displayed. according to patent 1 808 245, characterized in that dynamic shift registers are in that integrated MOS technology is available on the market for displaying several curves, Data of the individual curves in one 35 each which have a large capacity with a small construction volume Frame refresh memories are entered, but shift clock pulses with a minimum of whose output registers require a comparison switching frequency below which the stored device is connected, which a light button signal from information can be lost. With such if the content of the output register is equal to shift registers, the method described can be used is the reading of a counter that does not 40 during the continuous display of data scanning a line clock pulses from 0 to are carried out, since in the time in which the clock pixel number summed up per line. pulses are blocked, those stored in the shift register Information is deleted. _ Arrangements are known, e.g. B. from the French 45 French patent specification 1 460 925, which is used as image reproduction The main patent 1 808 245 relates to a method of fetching memory containing a drum memory, for displaying the temporal progression of a series from which the digital values to be displayed are cyclically read out from measured values in digital form and fed to digital-to-analog converters with a diagram on the screen of a display device , which in turn control the display tube, to which the measured values are stored in an image repetition 50 By readdressing the drum memory, memories can be stored from which they are cyclically shifted the curves shown, are fed to the display device and in which, according to the present invention, the task is to arrive new measured value the oldest reasons, a method of the measured value described at the beginning is deleted, all other measured values to find the kind in which a shift register with a storage space are shifted and the new 55 lowest permissible shift clock frequency is used The measured value can be stored in the first free memory location. According to the invention, this object is saved the direction of the shift register connected to the vertical memory with a shift clock frequency that is permissible to set up the direction of the time axis as a picture repeat as known "and that at the beginning of the fetch memory the number of levels in the shift register tas'tune each line a preset counter with the in in order to select a number of blanks larger than the position of this line and in the image repetition number of all measured values and that the value stored in the fetch memory is loaded, 6 ₅ the positions with the measured values with a cycle that while the electron beam is light or dark frequency, which runs across the screen equal to the product of line frequency, is the preselection and number of digits of a word and the »empty counter clock pulses are supplied and that after setting with such a value above the lowest