DE2025130A1 - Rows and columns proportional jerk setting of the electron beam in data viewing devices - Google Patents

Description

Row and column proportional resetting of the electron

Beam in data display devices

The invention relates to an arrangement for displaying characters and pictorial representations on the screen a cathode ray tube or the like Display device and a signal source, e.g. keyboard or computer. Means for converting the digital signals into the beam movement are present, which essentially consist of a frame buffer, character generator and digital-to-analog converter, and at which counters connected upstream by means of the digital-to-analog converter (Register) the Oignale for deflecting the beam in the sense of a The characters are composed of straight lines in vertical, horizontal and oblique directions.

In many applications for such data display devices, for example programming, creation of tables or in the information service, it happens that the available line length is not completely filled with characters. In the case of a rigid organization of lines, ie a constant number of characters per line, it is known in these cases to fill the memory for the rest of the line with blanks and therefore not to fully utilize it. Assuming an average utilization of $ 50 of the line length, approx. 50% of the storage space is lost. In such devices with fixed-cycle circulating storage media, for example, with alphanumeric line-by-line recording, the write mode and the storage area can be rigidly coupled line-by-line, ie even if the lines are not fully used, the unused storage locations cannot be used for other purposes. As a result, the existing storage capacity of a display device is fully utilized. This disadvantage of the known devices will be discussed later

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entered into more detail. In a group control system for data display terminals Under certain conditions, central η lines can be staggered by several Kuthodenatstrahl display parts are exploited «In these However, known arrangements cannot only use the assigned texts in the identical picture area, e.g. in the upper part of the data display device are displayed.

The invention is based on the object of an arrangement to create with which the electron beam is controlled in each case can be made from any coordinate in a sub other constant given by the storage medium Time can be steered as precisely as possible into a target coordinate can. The invention is preferably based on an arrangement already proposed in which the writing of Characters according to the stylus method in difference coordinates on the screen of a normal television picture tube with electric Deflection system takes place.

This object is solved by the invention ,, that the X- and Y-Koordinatenregrster respectively nachgenchaltet a register which takes in recognizing the end condition for the .Schreiben in a row the status of the coordinate register and forms the rear Sets voltage _v corresponding to the difference of the X or Y Kourdinate of the target point and the current writing position and that the register is followed by a digital-to-analog converter _p via which the deflection in the horizontal direction, ie. is influenced in the X-direction or in the vertical, ie in the Y-direction, with the aim of controlling the beam in a constant time given for all possible coordinate differences »

The advantages achieved by the invention are, in particular, that, since the electron beam can be controlled from any writing position by control characters from the memory to any other writing point, the size of the storage volume can be reduced in a single densifying device, depending on the number of writing points required for many formats kaan _D

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or with a group control a limited number of. Writing areas distributed over many lines of the screen can be. This invention also has the advantage of better utilization of the storage capacity of the data display device to enable. The user is allowed to set the number of characters per line and thus for the given total number of characters determine the number of lines on the display device itself. The additional effort in a data display device is very low. When resetting the write beam to the beginning of the next line from any position of the previous line e.g. there is a deviation that is smaller is than the line width of the beam and which does not affect the quality of the image.

The invention is explained below with reference to the drawing. The figure shows a block diagram of one that has already been proposed Arrangement for displaying characters on the screen of a cathode ray tube, which by adding an arrangement according to the invention offers the possibility of the number of characters per line and thus for a given total number of characters determine the number of lines on the display device itself.

In Pig. 1 the input keyboard is denoted by 23. These supplies digital signals for entered characters, e.g. in CCITT code no.5 to a register 22, as well as control signals lines 21 to counter 20. Counter 20 serves primarily Line to count each character transferred from the keyboard 23 into the register and consecutively the next to be occupied Preset the position of the memory. A signal stored in the register is transferred from the Control circuit 24 transferred to the frame memory 25. The refresh memory 25 consists in the illustrated embodiment of 5 circulating memories 26 to 30. In the Circulating memories 26 to 30 are, for example, ultrasonic transit time memories such as those used in telephone exchanges and the like are already known. The one from the clock

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encoder "M synchronously advanced counter 33, whose digit capacity corresponds to the capacity of the memory 25 for the characters to be entered, gives the consecutive number in each case one output at the output 32 of the transit time memory 25 Sign. The respective status of the counter 33 and the counter 20 is in a comparison circuit 34 and in the event of a tie emit a mark pulse to the control circuit 24, whereby a new character is written into the run-time memory 25 can be.

The stored in the runtime memory 25 (frame memory) Characters are passed to the image generator 35 in accordance with the image format. The image generator -35 contains a read-only memory 36 for the character symbols. The read-only memory supplies a sequence of difference coordinates represented as binary signals. Every character submitted represents a word of 12 bits, with the coordinate being represented by 9 bits. One bit of this indicates whether the Beam must be scanned light or dark. Further bits are used to distinguish whether it is an address or a general coordinate, end coordinate or a special character acts. The character output by the image repeater 36 for the coordinate is initially in a Register, which is designated with 37. A signal via the AND gate 38 to the register 37 takes place in parallel the stored difference coordinate, which is represented by 9 bits is expressed, with division into the register stages 41 to 45 · The registers 42, 43 each contain the 3 bits for the difference coordinates X and Y. The register levels 41, 44 store the sign for X and Y, while the register stage 45 stores the brightness value. is the respective difference coordinate is different from 0, an interrogation circuit 46 or 47 ensures that the corresponding Number of pulses of the clock generator 31, which is supplied via the line 48, via electronic switches 50, 51 is fed to a further electronic switch 52, 53 in each case. The arrangement is made such that

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registers 42 and 43 are counted empty. Are these both empty, i.e. X = O and Y = O, then the AND gate 38 a release signal for the new coordinate in register 37. That of the respective difference coordinate X and Y corresponding pulse series is depending on their sign via electronic switches 52 and 53, which are switched under the influence of the sign signal in the register stages 41 and 44, to one of the two Lines 54 and 55 for the acceleration pulses in the X direction and 56, 57 for the acceleration pulses in Y direction directed. The counters 58 and 59 are thereby of the pulses transmitted via the lines 54, 55 or 56, 57 in the goalkeeper or reverse direction according to the associated sign advanced and provide registers for storing the respective beam position coordinates The counters 58 and 59 are also on the lines connected to the counter 33, from which it sends signals to inevitable presetting according to the changeover to a new line as well as for the screen return. Together with the acceleration pulses, which are transmitted via the Lines 54 to 57 are transmitted, there is a (parallel) transmission of the counts 58 and 59 to the digital-to-analog converter 61, 62 via the lines 67, 68. The arrangement is expediently made in such a way that outputs 58, 59 are connected to corresponding inputs of the digital-to-analog converters 61, 62.

In the already proposed method for displaying characters composed of straight lines on the » Screen of a cathode ray tube, the shift takes place a writing point, which is indicated by a flashing mark, to the left, right, up or down by the status of the counter 20 is inevitably changed. In any case, the positive comparison between the state of the counter 20 and the status of the counter 33 by means of the comparison circuit 34 indicates the position of the mark on the screen. The counter 20 is primarily used to each Characters transferred from the keyboard 23 to the register 22

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to count. The advancement of the counter 20 takes place in the way that the count of the counter is influenced so directly by means of control keys on the keyboard.

In the circuit arrangement according to the invention, the X or Y coordinate register (counter) 58, 59 is followed by a register 1, 2 which, when the end condition is recognized, for example for writing in a line, the status of the X counter 58 or Y ~ counter 59 takes over and forms the reset voltage therefrom, which corresponds to the difference between the X or Y coordinate of the target point and the current writing point the beam movements in the horizontal direction, ie in the X direction, or in the vertical direction, ie in the Y direction, is influenced. The resetting of the beam is initiated by a control character in memory 25.

When resetting, the deflection coil becomes a holding voltage corresponding to the next write point and a reset voltage pulse imprinted. If you want to go back from any point, you have to change the reset voltage pulse. There are two possibilities: firstly, the tent can be changed with constant voltage, secondly the tent can be changed. a change in the back tension takes place at a constant Time depending on the position of the start and destination coordinates. The duration of the reset pulse at constant voltage is not linearly dependent on the respective return path. This Although the method is possible in principle, it is difficult to implement precisely because of the non-linearity. Therefore will suggested the buck voltage at constant time ai change, as there is a linear relationship between the reset voltage U and the return path is given »

1 figure

1 claim

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Claims (1)

Claim Arrangement for displaying characters and pictorial representations on the screen of a cathode ray tube or the like »in which, in addition to a display device and a signal source, e.g. keyboard or computer, means for converting the digital signals into the beam movement are present, which essentially consist of a refresh memory, a character generator and Digital-to-analog converter exist, and in which by means of the superiors the digital-to-analog converters ( switched off counters (registers) the signals for deflecting the beam in the sense of a composition of the characters straight lines in vertical »horizontal and oblique direction, thereby g e k en η ζ e i c h η e t, that the X- (58) and Y-coordinate register (59) respectively one Register (1, 2) is connected downstream which, when the e.g. End condition for writing in a line takes over the status of the X- (58) or the Y-coordinate register (59) and from this the reset voltage forms the difference between the X or Y coordinate of the target point and the current one Write point corresponds and that the register (1, 2) is followed by a digital-to-analog converter (3, 4) via the beam deflection in the horizontal direction, i.e. in the X-direction or in the vertical direction, i.e. in the Y-direction is influenced with the aim of the constant time given for all possible coordinate differences Steer beam to «target point. VPA 9/411/1303 Rng / Lk 109849/15 59 Blank page