DE1549918A1 - Circuit arrangement for positioning control of the electron beam of a screen tube that writes characters - Google Patents

Description

Circuit arrangement for the positioning control of the electron beam a character write screen tube It is known to effect the positioning of the impingement of the electron beam of a sign written tube on the screen with the aid of an x and y-register, wherein the x register in coded representation of 'the x Coordinate and the y-register in the same representation contains the y-coordinate of the point , and the x-register via a digital / analog converter contains the x (horizontal) deflection means, the y register via a digital / analog converter the y- (vertical; deflection means controls. The aforementioned impact point does not need to be actually present , then namely, If the beam is indeed positioned, but r #: t is darkened, which, as is known, e.g., then happens, if the point determined by the position coordinate values is only a reference point for positioning a character to be written , but does not itself belong to this character.

It is also known to change the contents of such coordinate registers by incremental signals from a roller ball encoder or the like (for example , a so-called "joy stick", a control stick that can be swiveled in all directions ) is used instead. The roller ball is rotated by twisting its dome protruding from an operating surface in any vectorial direction related to the surface , and the x and y components of such a rotation are picked up as rotational quantities by friction rollers resting on the roller ball. Each friction roller is connected to a pulse generator disc. Upon rotation of the cap to the right beispieisweise the associated one of the x-direction Impulsgeberecheibe incremental signals that are the contents of the "x-register gradual enlarge forth upon rotation of the cap to the left against supplies generated by said disc incremental signals gradually reduce the content of the x-register . The registers mentioned can be designed as binary counters , for example , and the incremental signals can be up or down counting pulses . It is also known to generate composite representations on the screen by transferring position (and possibly also character shape or vector generation and He.lltast-) data from an image repetition memory to a register one after the other and with cyclical repetition, and furthermore, In to also include the contents of a track ball-register pair of the aforementioned type such representation cycle so that the overall image in accordance with the content is written replay memory, as well but a mark can be shifted by Rollkugelbetätlgung on the screen, to serve a14 at a desired location marker . To move a -solches flag over the entire area of the image display, coordinate registers trackball are inan the same coordinate Varlationsbereich like him have fed by the replay memory coordinate register, particularly so the same number of digits of 2.B.

9 digits. The square B shown in Fig: 1, in the lower left corner of which the coordinate starting point 0 lies, represents such a range of variation , and the left (: or lower) edge of the square corresponds to the value 000000000 of x (or y) , and the right (or upper) edge your value 111111111 of x (or y). A circular one. Screen 8S man as will lay convened inscribed circle in the square, as shown. In the out-of-circle surface BS surface portions of the square can then thus no representations are generated, although they belong to the coordinate variation range. "The extracted from the image repetition store coordinate values can be kept from the outset so, always daß.sie in the area of the fall screen 8S. However, the Kaordinatenwerte indicated by the trackball registers may run out of the screen-circular surface addition tes in the corner part surfaces of the Quadra-B. A specified by such coordinate values point is in the Fig.-i in the upper right corner part surface the square marks B and designated P. for simplicity, it is assumed that this "rolling ball" point, when it is on the screen is unblanked itself and so itself or as part of a small character, the mark det education This marking can therefore be completely activated when the trackball is actuated, moving out of the screen to P, for example Vera. disappear, and it is soon no longer known how one has to move the trackball in order to make the marking reappear on the screen by adjusting it as briefly as possible. If, for example, if the invisible "trackball point" was at P, you would turn the trackball to the right and thus generate positive incremental signals that would increase the content of the R. run along the right edge of the square B, then - by transitioning the register content to 000000000 - lie on the left edge of the square, and from there run to the right again according to the arrows w2, and you can see that the trackball is rotated for a considerable amount of time must until the marking appears in the upper edge of the screen BS. In the case of diagonal rotation of the ball, it may be necessary, for example, from point P 'to cover the paths w3 and w4 until the mark is visible on the edge of the screen. The positions of the coordinate "register" are often formed by bistable trigger circuits, and this has the consequence that a mark that was previously visible on the screen can also disappear when the device is switched off. which are known to have no "memory" in the usual embodiment, a random position, which can also be such that the resulting coordinate values are outside the screen. to be relieved.

The invention accordingly relates to a circuit arrangement. to the Position control of the electron beam of a display tube that writes characters with a register whose content indicating a position coordinate is replaced by incremental Signals from a Rolikugelgeber or the like can be enlarged or reduced.

According to the invention it is provided that the register, which with. his Maximum content the largest and, with its minimum content, the smallest adjustable coordinate value indicates, with counter logic circuits, the register content in a known manner increase in the manner of a counter with positive incremental signals and with reduce negative incremental signals associated with such training is that when a negative incremental signal is supplied after adjustment the minimum content and if a positive, w.; incremental signal after setting the maximum content one between these two values. Set register content.

In particular, the invention provides that in the known manner for binary counting trained counter logic circuits the logic gate, which at the register position 1111 ... and supply of a positive counting pulse the highest Registration office to 1101e, as well as the logic gate, which at the register position 0000 ... and supply of a negative counting pulse the highest Register position to "i" does not exist., In Fig. 2 is an embodiment the circuit arrangement according to the invention shown.

Fig. 2 shows only those necessary for understanding the invention Circuit elements. The x and y coordinate registers associated with a trackball should be 9-digit registers consisting of bistable flip-flops, each operated in a known manner by counter logic circuits such as a binary counter the up or down count pulses supplied by the lowest digit counting up or down. These impulses are carried out in a known manner the pulse generator of a trackball generated. It's only using the ninth register the logic gates controlling them are shown, these should be at the x and at the y registers have the same training.

FF9 is the ninth register position forming bistable multivibrator with set input S and reset input according to AND circuit K1. The numbers 1, 2 ... 8 noted at eight inputs of the AND circuit mean that input 1a1 is the 11111 output of the toggle circuit of the 1st register position, input 2 to the 3'1f ° output of the toggle circuit of the 2nd register position. Registration office, etc., is connected. The number 9 at the nine input means that it is connected to the '* O "output of the flip-flop circuit of the ninth register position shown. The tenth input v receives up counting pulses from the trackball. The reset input R of FF9 has the output of an and Circuit K2. If you can see from the numbering of the inputs of this AND circuit, eight inputs are connected to the "0" outputs of register positions 1 ... &, the ninth input is connected to the "1" output of register position g The tenth input r receives downward counting pulses from the trackball. If the register is in position 011111111 and an upward counting pulse v is received, then the AND condition of gate K1 is fulfilled, and the ninth position, namely toggle switch FF9, is set to "1" as required. If register position 100000000 is present and a countdown pulse r is received, then the AND condition of gate K2 is met and toggle switchg FF9 is set to "0" as required. With normal binary counter logic, the flip-flop FF9 must be assigned an AND gate K3 to the ninth position. which, when the counter is at 111111111 and an upward counting pulse is received, resets the ninth digit to "0", and also an AND gate K4, which, when the counter is at 000000000 and a downward counting pulse is received, the ninth digit is set to "1". The AND gates K1 and K4 must then be connected to the set input S via an OR gate DI and the AND gates K2 and K3 to the reset input of FF9 via an OR gate D2 (dashed connections).

The gates K3, K4, Dl and D2, that is to say the circuit part framed by dash-dotted lines, are, however, omitted in the embodiment of the invention and are therefore to be thought of as missing in FIG. This means that if the register is set to 111111111 and an upward counting pulse is received, the contents of the register do not change to 000000000 as normal, but to 100000000, and that when the register is set to 000000000 and a downward counting pulse is received, the contents of the register do not as normal goes to 11111111.1, but to 011111111. That means the following again: -If the "trackball point", for example from P in Fig. 1 on the path w1, is pushed into the right edge of the square B (content 111111111 of the x Register), a subsequent trackball right impulse does not jump to the left edge of the square B, but to the vertical center axis of the screen BS. If the point is moved to the left edge of the square B (content 000000000 of the x register), another trackball left impulse acts that it also jumps almost into the vertical central axis of the screen (more precisely into a parallel to it , which lies at a distance of 1/512 of the side length of the square B to the left of the central axis). If the point reaches the upper edge of square B, another positive rolikugel impulse, which has reached the y-register, moves it into the horizontal central axis of the screen, and it also arrives (with the aforementioned small deviation) there if it was in the lower margin of QuL.draies B and a ' negative trackball pulse for the f-register follows. Device of the Point, e.g. on route 11F3, in Eu. '"; z r # dee Quadrar3 B, so he jumps from there to the middle of the screen or similar So the brand's reappearance on the screen will even with "wrong", so initially the invisible point The direction of rotation of the farther away from the screen / Trackball reached relatively quickly, with the mark then abruptly on one of the main axes of the screen seems, which is generally favorable to their discovery. The embodiment of the circuit arrangement described above also results in the specified simplification of the register Counting logic.

Claims (2)

Claims r1.) Circuit arrangement for the positioning control of the electron beam of a character-writing screen tube with a register whose content indicating a position coordinate can be enlarged or reduced by incremental signals of a roller ball encoder or the like, characterized in that the register, which with its maximum content has the largest and with its minimum content indicates the smallest adjustable coordinate value, with counter logic circuits that increase the register content in a manner known per se in the manner of a counter for positive incremental signals and reduce it for negative incremental signals Signal after setting the minimum content and if a positive incremental signal is supplied after setting the maximum content, set a register content between these two values. 2. Circuit arrangement according to claim 1, characterized in that in the counter logic circuits designed in a known manner for binary counting, the logic gate (K3), which in the register position 1111 ... and supply of a positive counting pulse, the highest register position to "0'1 and the logic gate (K4), which sets the highest register position to "1" when the register is set to 0000 ... and a negative counting pulse is supplied, are not available.