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method and arrangement for displaying characters on the visual display screen of a braunschen roehre
method and arrangement for displaying characters on the visual display screen of a braunschen roehre
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机译:在不伦瑞克视觉显示屏上显示字符的方法和装置
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781,340. Cathode-ray tube circuits. INTERNATIONAL BUSINESS MACHINES CORPORATION. June 13, 1955 [June 16, 1954], No. 16923/55. Class 40 (7). In a character reproducing system, the character or characters is/are displayed as a succession of discrete spots on the screen of a cathode-ray tube and the positions of the spots are represented by electrical signals in code form which are converted into control voltages for the beam of the C.R. tube. Any character is represented by a succession of dots selected from a rectangular mosaic of dot positions comprising seven horizontal rows of five dots, and the horizontal and vertical positions of a dot are represented by two threeunit binary signals, the position of the spot 124, for example, of Fig. 2 being defined by signals 011 and 110, respectively denoting 3 and 6 in the binary code and defining the co-ordinate position of the spot 124. In the arrangement described, the beam is not restored to a zero or normal position between the reproduction of successive spots, and the code converting system is arranged to produce from successive groups of code signals the voltages necessary to deflect the beam from a spot to the next in the sequence. The sytem may be devised to reproduce single characters, but in the arrangement described two horizontal rows, each comprising four characters, are cyclically displayed. The beam is blanked during its movement from spot to spot and in the case of the reproduction of rows of characters the larger deflections defining the position of the characters are produced electromagnetically, whilst electrostatic deflection is employed for the smaller spot-to-spot movements for the reproduction of the individual characters. General operation. The arrangement is set into operation by the closure of a switch 89 so that a control circuit 66 operates a switch 45 having outputs 46 ... 53 leading to buffer circuits 9 ... 16 connected to registers 1 ... 8 which are set with eight characters to be reproduced in two horizontal rows on the screen of the C.R.T. 69. Selection from sixteen characters is effected by a four-unit binary code which is fed to a buffer register circuit 18 with outputs to a character selection network 19 having sixteen outputs 28 ... 43 corresponding to the respective characters. A coding network 55 is arranged to provide for each character a number of pairs of three-unit binary signals X0, X1, X2 and Y0, Y1, Y2 representing in code form the co-ordinate positions of the spots selected to represent the configuration of a character, the maximum number required being 20, and the average number being 14. The pulses at X0, X1, X2 and Y0, Y1, Y2 are arranged to be those which move the spot to the next position in the sequence so that the beam of the C.R.T. is not restored to an initial or zero position between successive spots. The X0, X1, X2 and Y0, Y1, Y2 signals are fed to X, Y decoders 60, 61 producing outputs corresponding to successive positions of the beam and these control voltages are added in mixer circuits 62, 63 to which are applied voltages Xb, Xc, Xd and Ya determining the horizontal position of the character in the upper or lower row on the screen of the tube 69. The ring control circuit 57 which is operated by a start pulse on conductor 90 from the generator 66 produces an impulse on conductor 85 which triggers the circuit 56 into operation and pulses at 500 kc/s. via generators 88, 66 and over conductor 58 to operate the ring circuit 56 to produce pulses on the leads 101 ... 120 to operate the network to provide the appropriate sequence of X0, X1, X2 and Y0, Y1, Y2 signals corresponding to the character. The impulse on conductor 85 at the beginning of a character is applied over line 84 to switch on a flip-flop 81 providing one input to a gate 80. The operating pulses on conductor 58 which occur at intervals of 2 microseconds are also applied over conductor 82 directly to switch off flip-flop 75 and also through a delay circuit 83 with a time of 1.3 microseconds so that the delayed pulse opens gate 80 providing a pulse to switch on flip-flop 75 for a period of 0.7 microseconds until the next pulse from conductor 82 switches it off. The output of the flip-flop 75 in the off condition blanks the beam of the C.R.T. 69 so that 1.3 microseconds after the application of a control pulse to the ring circuit 56 the beam is switched on for a period of 0.7 microseconds. The ring circuit may be operated to produce twenty pulses for the control of the network 55, but preferably the coding network is arranged so that a pulse is provided at the end of a character over conductor 86 to switch off flip-flop 81 and to restore the decoders 60, 61 to their zero positions. Over conductor 91 a pulse is applied to the character generator control circuit 66. The ring circuit is restored to its normal or start condition in which it passes a pulse over conductor 93 to the control circuit 57 which again applies a start pulse over conductor 85 to the ring circuit 56 provided that a stop pulse has not been applied from the generator 66 over the conductor 92. The sequence switch 45 is operated by the potentials on Xa, Xb, Xc, Xd and Ya, Yb which determine the horizontal positions and the respective row of the reproduced characters. The positioning voltages applied to the.mixers 62, 63 are limited to the Xb, Xc, Xd voltages for the 2nd, 3rd and 4th characters and a Ya voltage to position the beam for the second row of characters. The coding network 55 may, as shown in Fig. 4, comprise a number of matrices of interconnected diode rectifiers 142, 144, 145, 146, 147 ... connected to the conductors 101, 102 ... according to the pulses necessary to move the beam to the successive spot positions. The gates GT135 ... GT140 are provided with one input from the conductor 28, 29 ... appropriate to the character and the potentials on X0, X1, X2 and Y0, Y1, Y2 are generated as pulses are applied in succession to the elements 101, 102 ... A diode 148 connected to the conductor following the final member of the sequence necessary to define a particular character produces a pulse from the gate GT141 to operate the circuit 150 to produce an impulse on the conductor 86. Other coding networks comprise relays of magnetic cores through and around which conductors are threaded in accordance with the appropriate sequences of X, Y positioning signals. As indicated by Fig. 7 (not shown) the conductors for the various characters may be threaded through and around the holes of a single row of magnetic rings, the conductors for the several characters being connected through rectifiers to the X0, X1, X2 and Y0, Y1, Y2 outputs. The rectifiers of the characters not required are disabled by applying an appropriate negative bias and the bias applied for the character required is such that pulses are selectively generated for the conductors threaded through the core when pulses are applied in succession over the conductors 101 ... 110 ... 120. Specifications 735,586, [Group XL (b)], 768,183, [Group XIX], and U.S.A. Specifications 2,275,017, 2,283,383 and 2,404,918 are referred to.
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