SU1150635A2 - Device for reading graphic information - Google Patents

Abstract

DEVICE FOR READING GRA4 "CHESSXY INFORMATION on author.St. No. 734752, characterized in that, in order to increase the resolution of the device, in it each pulse distributor contains a block of And elements and a shift register, the outputs of which are the outputs of the pulse distributor and connected to one of the inputs of the And elements, the other outputs of which are controllable The inputs of the pulse distributor, and the outputs of the block of elements AND connect with the installation inputs of the shift register, the inputs of which are pulse inputs of the distribution distributor.

Description

1 The invention relates to automation and computer technology and can be used to enter graphic information into a computer. According to the main auth. No. 734752, a device for reading graphic information is known, which contains switches, the outputs of which are respectively connected to orthogonal tablet conductors, one switch inputs are connected to the outputs of pulse distributors, pickup coordinates are connected via serially connected amplifier-shaper and the gate node to any input of the block control, the other input of which is connected to the output of the pulse generator connected to the pulse inputs of the pulse distributors, gates node unit, the unit for determining the coordinates, the outputs of the control unit are connected to controlling the inputs of the switches, pulse distributors, logic block and coordinate determination unit, as well as the unit for changing the amplitude of the current pulses, one input of which is connected to the output of the pulse generator, the other to the output logic block, and outputs - with other inputs of switches i. . However, the known device does not fully realize the possibilities (in terms of resolution) of the method of reading graphic information embedded in it, i.e. the resolution of the device remains insufficient. This happens by the following reason. Near each conductor of the tablet there is a so-called dead zone, which is formed due to the final geometrical dimensions of the conductors (from the cross section), as well as the limited amplification factor of the amplifier and the level of interference cutoff. All these factors taken together impose a limitation on the resolution of the device. The purpose of the invention is to increase the resolution of a device for reading graphic information. This goal is achieved by that, in the graphic information reading device, each pulse distributor contains a block of elements And a shift register, outputs 5 of which are outputs of the pulse distributor and are connected to one of the inputs of the block of elements And, the other outputs of which are the control inputs of the pulse distributor, and the outputs of the AND block are connected to the setup inputs of the shift register, the synchronization inputs of which are the pulse inputs of the pulse distributor. FIG. 1 shows a block diagram of the proposed device for reading graphic information with AND additionally inserted into the distributors; in fig. 2 shows the principle of increasing the resolution of a device for reading graphic information; in fig. 3 - part of the functional diagram of the distributor (for example on the X coordinate) with additional elements I. The device (Fig. 1) consists of a tablet 1, a puller 2 coordinates, an amplifier-former 3, a gating node 4, a pulse generator 5, a control unit 6, logic block 7, distributors 8 pulses containing shift registers 9 and blocks 10 of elements AND, switches 11, block 12 for changing the amplitude of pulses and block 13 for determining coordinates. In Fig. 2, the following symbols are accepted; E-1, +1 - part of the tablet conductors along the X coordinate (for convenience of consideration); shaded areas near the conductors of the -L-zone L — the width of the non-sensitivity of the smaller discrete section of the exact coordinate value: n-1, n, 1, 2, 3, 4, the boundaries of these discrete areas; A1, A2 - the position of the coding points of the graph (center of the coordinate remover); L is the distance between the plate conductors. FIG. 3 the following notation is accepted: T, Tf, T ti, T J42 triggers register 9 distributor 8; position 10 is a block of elements AND; Positions 14 and 15 are the inputs of the distributor 8, to which the signals from the control unit 6 are supplied. The principle of increasing the resolution of the proposed device is explained in FIG. 2. Suppose that the coding point A1 of the graph (or that the same center of the puller) is in the dead zone D of the conductor of the plate I, i.e. at the site mezkdu conductors and f + 1. In this case, when carrying out a rough count cycle, the value of the coordinate signal in the puller inductance coil will be zero. Let the discreteness of quantization A of an exact reference be chosen such that several samples fall in the dead zone of the conductors of the tablet. When an exact reading of the value of the coordinate X is taken, the center of the puller in any discrete L is determined by the change in polarity of the induced EMF signal in the puller, i.e. if the point At is in the second sampling of the mezkda by the boundaries 1 and 2, then the polarity of the signal in the puller should occur after the second pair of precision pulses is fed to the conductors t and f +1. Let us assume that the EMF of a differential electromagnetic field in a puller has a positive polarity if the center of the puller is to the right of the boundaries of the preceding discretes and, and negative for the boundaries of the discretes to the left. Thus, using the information about the change in the polarity of the signal in the coil of the coordinate remover, it can be said that the point A1 will be in the second sample, i.e. between boundaries 1 and 2. It follows that in order to determine in which discrete the puller center is located, it is necessary to have information about which nearest discrete boundaries it is in. But inside the dead zone, the boundary between the sampling points g cannot be established, since in the puller when the conductor is excited, the EMF signal from it will be zero. Therefore, in the puller coil, an emf signal will be induced, obtained only as a result of excitation of the conductor +1 and as a result, a polarity of the signal induced in the coil puller cannot occur within the dead zone, which means that the puller center is not determined in which position (encoded point At The resolution of the device turns out to be uneven (it falls inside the dead band), and this is practically unacceptable. Therefore, you have to choose the discretes A Accurate reading, at least not already dead zone. Resolving the device's ability can be enhanced by eliminating the influence of the dead zone. It is suggested to do this as follows. If the coding point is in the dead zone of any conductor (that is, at a rough reading, in In this case, when it is excited by a current pulse, the signal in the puller inductance coil will be equal to zero), then the coordinate value is accurately read, jHo are simultaneously excited Ie not and, but f-1 and + 1. In this case, the influence of the insensitivity zone of the conductor P is eliminated, and by applying current pulses to these conductors, one can set the limits of discrete 1, 2, n, ht, as well as the boundary corresponding to the middle each conductor tablet. A device for reading graphic information operates as follows. Combine the center of the puller 2 with a point of the graph, the coordinates of X and which should be determined. In this case, the control unit 6 generates signals, ensuring the operation of the entire device as a whole. The coordinates X and Y of the coded point of the graph are determined in each cycle of the device and go to block 13. With the help of a button located in the housing of puller 2, a signal is sent to block 13. This signal gives the values of X and Y coordinates to external devices for example a computer. Consideration of the operation of the device for simplicity will be carried out only when determining the X coordinate. At the command of the control unit 6, the pulses of the generator 5 arrive at the shift register input 9 of the distributor 8. The signals from the trigger output of the register of the distributor alternately open the corresponding keys of the cutter 11. Once the signal in the puller 2 coordinates will change its polarity after amplification and shaping by amplifier 3. it. enters unit 4 from Trobirovaki, and from its output in unit 6 of the control. From the output of the control unit 6, the polarity change signal is fed to the input 14 of the distributor 8. At the same time, the TflVi and TD triggers take state 1 and thereby prepare the switch 11 keys for applying signals from the pulse amplitude change unit 12 to them. For an example, take point A2 in FIG. 2. The element And, corresponding to the trigger Tr, will be opened by the potential of the trigger Tg, which overturned with the latter when the conductor is excited +1. Therefore, the polarity impulse at the input 14 of the distributor 8 will set the trigger T | also in 1. On this the rough reading cycle will be completed, i.e. Point A2 is found to be between conductors i to +1 (Fig. 2). Next, a precise reading cycle is carried out by simultaneously supplying current pulses from block 12 of changing the amplitude of pulses to conductors r and p4-1. A secondary change in the polarity of the signal in the puller means the end of the determination of the value of the X coordinate. The device proceeds to determine the value; the co-ordinates of the V.V. if the coding point is in the dead zone (for example, point A1 in Fig. 2), then the first polarity change pulse is fed to the input 15 of the elements AND of the block 10 (Fig. 3), and not to the input 14. In this case (for the example shown in Fig. 2), the triggers T, n Tg + are set to 1. Therefore, with an accurate reading, the switch 11 will issue current pulses to the conductors f-1 and f-t-l. The necessary correction of the coordinate value when the coding point is found in discrete ti-l, n and on the center of the tablet's conductor is performed in block 13 for determining the coordinates. Thus, the proposed device in comparison with the prototype has at least twice the resolution.

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Claims (1)

DEVICE FOR READING GRAPHIC INFORMATION according to ed. P 734752, characterized in that, in order to increase the resolution of the device, each pulse distributor contains a block of AND elements and a shift register, the outputs of which are outputs of the pulse distributor and are connected to one of the inputs of the block of AND elements, the other outputs of which are the control inputs of the pulse distributor, and the outputs of the block of elements And are connected to the installation inputs of the shift register, the synchronization inputs of which are pulse inputs of the pulse distributor.