DE1906412B2 - Character generator with delay line - Google Patents

Description

The invention relates to a character generator for generating the control electrodes of a cathode ray tube feedable analog signals for the representation of the lines of a character on their Screen, by tracing the character contours with the electron beam, whereby a delay line Passing impulse in the drawing-specific cable runs above these voltages induced for the deflection of the electron beam and its light-dark scanning.

Such character generators have to depend on the shape of a on the screen of the Cathode ray tube to be represented character corresponding signals for the horizontal or vertical deflection provide. The timing of these signals is determined by the shape of the sign certainly. Furthermore, the blanking must also be used for parts of the lettering that are not to be displayed Be guaranteed.

It is known to use a delay line with a winding to meet these requirements formed inductance to use, with this winding running through a Pulse inductively in various coils coupled to this winding Deflection voltages are generated. These coils are designed specifically for each character with different winding pitches.

The deflection voltages are induced in these coils for the display of the character on the screen. The use of coils means both construction and cost Expenditure.

The invention is therefore based on the object of a character generator using a delay line to create, which is structurally simpler without coils and cheaper can be realized. According to the invention, this object is achieved in that the lines of conductors each a circuit card assigned to a specific character and that each line pull is carried out in a plane of the circuit board and that the circuit board is in the direction of the axis of the The winding, which embodies the inductances, of the delay line made up of inductances and capacitances is aligned.

According to a further advantageous embodiment of the invention, there are three cable runs on a circuit card intended for the analog signals for light-dark scanning, for horizontal and vertical deflection. Furthermore, the circuit cards are advantageously designed in multiple layers, each of the three Cable runs in a circuit board run in one layer each.

An embodiment of the invention is shown in the drawing and will be described in more detail below described. It shows

F i g. 1 two circuit cards arranged over a delay line,

F i g. 2 shows an electrical block diagram of a circuit arrangement for character selection,

F i g. 3 shows a symbolic representation of a delay line according to FIG. 1,

F i g. 4 is a schematic representation of a system for displaying characters on multiple display devices.

Fig. 1 shows an embodiment of the character generator with a delay line. In the delay line of FIG. 3 lead from the an input terminal in series inductances 3 via a resistor 7 to the second input terminal, the connection points between the inductances via capacitors 5 with connected to the second input terminal. In Fig. 1 are the inductances through turns of wire realized on a flat shape 9. Likewise, in FIG. 1 the already in F i g. 3 tightened capacities 5 and the terminating resistor 7 recognize. There are a large number of them vertically above the flat shape 9 mounted by printed circuit cardsil. Only circuit cards 13 and 15 are shown for illustration. On each printed circuit board there are three isolated electrical cables. For the circuit board 13 these are the lines 17, 19 and 21. From the schematic Representation of this circuit card cannot be seen that this (in the manner of a multilayer) consists of two Layers exist, whereby a spatially separated arrangement of the three cable runs is made possible.

When a pulse is transmitted through the winding 3 of the delay line, the lines of conductors the circuit boards induce voltages. The voltages of the three lines of a printed After appropriate selection and reinforcement, the circuit board becomes the control electrodes of the cathode ray tube fed. In the described embodiment of the invention, the voltages of the three cable runs for the X-deflection, the Y-deflection and the light-dark keying of the cathode ray tube used.

Other embodiments are also analogous to the delay line shown in FIG. 1 the same conceivable: so z. B. the delay line also in the form of a printed circuit board be made with the cable runs on the top and bottom through plated holes are connected. The cable runs are applied to a layer of high electricity constant; whereby the necessary capacities develop between the cable runs and the ground level. The delay line made of cylindrical multiple bent lines can also be just as well Consist of rods that are isolated from each other.

In the following, the circuit board 13 is intended to explain the mode of operation of the character generator with a delay line according to FIG. 1 serve:

When a pulse generator (not shown in Fig. 1) sends a pulse to turns 3 of the delay line sends, is attached in each of the thin cable runs above the delay line Circuit card 13 induces a voltage. Depending on the distance between the cable runs of the points on the delay line where the pulse travels is the induced voltage assume different values. For example, the one in the line 17 of the circuit board 13 induced voltage in the section 23 assume a greater value than in the section 25. Although a mathematical determination of the induced voltage values is possible, it is recommended for economic reasons Reasons to determine the course of the cable runs experimentally.

Depending on the induced voltage as a function of time, the display on the Change the cathode ray tube.

So z. B. the voltages of the cable runs

17, 19 and 21 of the circuit board 13 for the Z deflection, the Y-deflection and the light-dark tactile function of the cathode ray tube are used. the The voltage of the line train 17 will have a curve from a constant high level over a uniform one Fall to a low level, over a steady rise to a high level, etc. exhibit. The cable run 21 shows a meandering rectangular course between two different ones Levels. The line run 19 shows a course similar to that of the line run 17. The abrupt one The meandering course of the cable run 21 is due to the on-off characteristic for the control the light-dark keying of the cathode ray tube is justified. The course of the lines 17 and 19 corresponds to the generation of the characters on the Screen deflection voltages. An abrupt one would be used to form sharp corners Course of these cable runs than for the formation of slightly rounded corners, in one that is more pleasant to the eye Form, required.

Lines 111, 112, 113 ... In3 in Fig. 2 are capacitively coupled to the delay line. Each line is shown schematically as a circuit board line run in FIG. 1 to be understood. So represent e.g. B. the lines 111, 112 and 113, the lines 21, 19 and 17. The lines 111, 113 ... In3 each form an input to the AND elements 211, 212, 213 ... 2 η 3. The other inputs of the AND elements 211, 212, 213 ... 2 η 3 are selection lines 301. The outputs of the AND elements 211, 221 ... 2nl form the inputs of the OR element 303; the outputs of AND gates 212, 222.. .2n2 form the inputs to the OR element 305; the outputs of the AND elements 213, 223 ... 2n3 form the inputs to the OR element 307. The outputs of the OR elements 303, 305 and 307 each form the input of the amplifier 309, 311 and 313, respectively. The output of the amplifier 309 controls the light / dark keying, the output of the amplifier 311 controls the X-deflection and the output of the amplifier 313 controls the Y-deflection of the cathode ray tube 315.

As with the description of the mode of operation of FIG. 1 mentioned, is indicated by a pulse in the delay line induces a corresponding voltage in the lines 111 to 1 η 3. The induced The voltage depends on the distance between the cable run on the printed circuit board and the Delay line. Depending on which line 5 <> To be displayed on the screen of the cathode ray tube 315, one of the selection lines becomes 301 activated. This creates the corresponding AND elements to which these selection lines lead, made conductive, and the desired character is displayed on the screen of the cathode ray tube. Is z. B. the selection line 301, which is connected to the AND gates 211, 212 and 213, activated, the outputs of these AND elements carry the corresponding voltage values of the lines 111,112 and 113, respectively.

The output voltages of the OR elements 303, 305 and 307 assigned to the outputs of the AND elements 211, 212 and 213 are amplified by the amplifiers 309, 311 and 313 and used for the control functions of the cathode ray tube 15. As an extension of this exemplary embodiment, it is conceivable that several cathode ray tubes are also used for character display. A corresponding circuit is shown in FIG. The lines 111, 112 ... In3 are (as in Fig. 2) connected to a plurality of deflection control units 102a , 102 & ... 102 «, each of which is assigned a cathode ray tube 315a, 315 £> ... 315n. The deflection control units are controlled by the selection lines 301a, 301b ... 301 η controlled. By appropriately activating the selection lines 301α, 301 & ... 301n, it is possible for either the same characters, different characters or any combination of the same or different characters to be displayed on the cathode ray tubes.

Claims (8)

Patent claims: 1. Character generator with delay line for generating the control electrodes of a Cathode ray tube feedable analog signals for the representation of the lines of a character on their screen by tracing the character contours with the electron beam, with a pulse passing through the delay line in the character-specific lines attached above it, voltages for the deflection of the electron beam as well as its helical-dark scanning induced, characterized in that the cable runs (17, 19, 21 ...) are arranged on a circuit card (13, 15) assigned to a specific character and that each line (17, 19, 21) is carried out in a plane of the circuit board and that the Circuit card in the direction of the axis of the winding (9) embodying the inductances (3) of the Inductors (3) and capacitances (5) built up delay line is aligned. 2. Character generator according to claim I _5, characterized in that three lines for the analog signals for HeIl-Dunkel keying, for horizontal and vertical deflection are provided on a circuit card. 3. Character generator according to one of claims 1 and 2, characterized in that the circuit cards are multilayered, with each of the three lines of a circuit board in each runs on a layer level. 4. Character generator according to one of claims 1 to 3, characterized in that the winding the delay line is designed as a flat coil (9). 5. character generator according to claim 2 or 3, characterized in that the cable run for the light-dark keying has a meandering rectangular shape. 6. character generator according to claim 2, 3 or 5, characterized in that the horizontal or. Cable runs associated with vertical deflection have a meandering trapezoidal course exhibit. 7. Character generator according to one of claims 1 to 6, characterized in that the lines of the circuit cards (111, 112, 113; 121, 122, 123 .. .InI, In2, In3) in a deflection control unit (102) with each an AND element (211,212,213; 221, 222, 223 ... 2 «I ₅ 2 η 2, 2 η 3) are connected and that the outputs of the AND elements, which take up the lines for the horizontal deflection, are connected to a first OR -Element (305) and that the outputs of the AND elements, which take up the line runs for the vertical deflection, to a second OR element (307) and that the outputs of the AND elements, which take up the lines for the light-dark scanning, lead to a third OR element (303), and that the OR elements (305, 307, 303) are each connected to the control electrodes of the cathode ray tube (315) via an amplifier (309, 311, 313), the selection of the Signals from a circuit card assigned to a specific character are carried out via selection lines (301) which are each connected to the AND elements (2 η 1, 2 η 2, 2 η 3), which receive the lines of a circuit card assigned to a character. 8. Character generator according to claims 1 to 6, characterized in that in a system with several cathode ray tubes (315 a, 315 & ... 315 n), each of which has a deflection control unit (102 a, 102 ö ... 102 ri ) , the circuit boards are connected to all deflection control units so that the same and / or different characters can be displayed on the cathode ray tube screens by means of separate selection lines (301 a, 301 b ... 30In) assigned to the individual deflection control units. 1 sheet of drawings