SU798962A1 - Symbol generator - Google Patents

Description

(54). SYMBOL GENERATOR

Claims (2)

The invention relates to automation and computer technology and can be used in devices displaying information on a screen of a cathode ray tube (CRT). Symbol generators are known to be used to form various symbols on a CRT screen, for example, letters and numbers, consisting of straight line segments. One of the known symbol generators contains a memory block of characters, a memory interrogator, dual current keys connected by inputs to the memory block and output 1 through integrators to amplifiers of horizontal and vertical beam deflection. However, this generator does not provide the possibility of rotation of the generated symbols on any given point. The closest technical solution to the proposed one is a symbol rator, which contains a block of permanent memory, representing a diode, magnetic or integral matrix, storing the number of segments in binary form. constituting symbols, voltage switches, and voltage integrators 21. Such symbol generators make it possible to generate only symbols that are specifically oriented relative to the coordinate axes, which limits their use. The aim of the invention is to expand the field of application of the generator by allowing the rotation of the generated symbols to any given angle. The goal is achieved by the fact that the calculator of projections of rotated segments and analog multiplexers are entered into the symbol generator, whose address inputs are connected to the fixed memory unit, information inputs to the projection computer of rotated segments, and outputs to voltage integrators. FIG. 1 is a block diagram of a symbol generator; in fig. 2 - segments from which a symbol can be formed rotated by a given angle; in fig. 3 - the form of the generated symbol. The symbol generator contains a block of 1 permanent memory, analog multiplexers 2 and 3, a calculator: an simulator of 4 projections of rotated segments, and integrators 5 and 6 voltages. The address input of block 1 and the input of calculator 4 are the inputs of the character generator, and the integrator 5 moves and the b outputs of the character generator. On the address input unit 1 comes in the form of a code number of the character to be formed. In this case, block 1 starts sequentially compiling the coded numbers of the segments that the selected character consists of. These numbers are sent to the address inputs of multiplexers 2 and 3, so that signals from the corresponding analog inputs are passed to the outputs of the multiplexers. The voltages to the information inputs of the multiplexers come from the outputs of the calculator 4, and with which they are formed in accordance with the voltages received at its input corresponding to the sine and cosine of the angle of rotation. The stresses generated by the calculator 4 correspond to the projections of the formed segments on the coordinate axes. These voltages are provided by multiplexers 2 and are fed to the inputs of the integrators 5 and 6. The latter form sawtooth voltages, the rate of change of which corresponds to the input voltage of the integrators. From the outputs of the integrators 5 and b, the voltages are fed to amplifiers of the deflection system of a CRT. The proposed symbol generator can form symbols consisting of segments of certain directions. The number of these directions may be, for example, equal to 8. In this case, the set of segments from which the symbol is formed corresponds to that shown in FIG. 2. where AO + A are the original segments, and BQ + By are segments that are turned on. set angle 3. The angles between the directions of the segments A and the Y axis are denoted by oij., And the angles between the directions of the segments B and the Y axis are indicated by | (see figure 2). FIG. 3 shows an example of a symbol composed of such a set of segments, with FIG. 3a shows the symbol in the initial position, and FIG. 3 b - the symbol turned on the hugo. The calculator 4 is designed to form stresses proportional to the projections on the X and Y coordinate axes of the rotated B segments (3 + B. The projections of the B segment are determined by the formulas Vu5 Kslnjf and Byi, Kcbsji, where K is the proportionality coefficient and The Y axis and the B | 1 segment (see Fig. 2). Since oit + {Ь or Bxi Ksin (oii + J5), BY; Kcos (oit + | 5), (sinotL cos / 5 + sinjb), Byi K ( coscidi cosjb - 5 i ntii, si). Since the angle of the oil is predetermined and fixed; it is necessary to designate: SF n 06 1, .1, then: Kl cos / i + Kmsinjb, Wu; Ktso5 3, - K) sin fb Thus, the calculation of the projections of rotated segments is reduced to the operation m multiplying the sine and koshiHica angle of rotation by constant coefficients, addition and subtraction of the obtained works. Such operations are performed in analog form by adders on operational amplifiers, on which the calculator 4 can be performed. Providing the function of forming symbols rotated at any given angle favorably distinguishes the proposed symbol generator from the well-known ones, since the use of such a heterorator as part of a display device greatly expands the possibilities of transforming the form of the selected information, allows to increase the efficiency of its perception. Claims The symbol generator, which contains a block of permanent memory and two voltage integrators, is characterized in that, in order to expand the field of application of the generator by allowing rotation of generated symbols to any given angle of generated symbols, it contains a calculator of projections of rotated segments and analog multiplexers, whose address inputs are connected to the fixed memory unit, information inputs to the calculator, projections of rotated segments, and a-outputs to voltage integrators. . Sources of information taken into account during the examination 1. USSR author's certificate No. 450204, cl. G 06 K 15/20, 1974. 2.M soedov P.G. and Sokolov A. f. Information display, M., 1971, pp.92-94 (prototype).