SU932519A1 - Graphic information readout device - Google Patents

Description

(54) DEVICE FOR READING GRAPHIC INFORMATION

one

The invention relates to the field of avichomatics and computer technology, in particular, devices for reading graphic information, and is intended for retrieving information from drawings of printed wiring boards.

A device is known that includes a tablet with coordinate tires, a coarse coding block, a control unit, a coarse coarser, a sensor probe, a gating unit, a comparator, a binary code to Gre converter, a shift register, a Gre code to binary code converter , coarse reference register, precision reference register, precision reference encoding unit, shaper of exact counting shaper, AND switch

The disadvantage of this device is its low reliability.

Closest to the proposed device is a device containing a tablet with coordinate buses connected to a switching unit, a block of

the equipments, the corresponding inputs of which are connected to the coordinate pickup unit and the measurement option setting unit, and the outputs are connected to the corresponding inputs of the switching unit, the coordinate formation unit, the coding noise tolerance block, the outputs of the measurement option setting unit, and the switching unit, the outputs of the coordinate generation unit are connected to the corresponding inputs of the coding noise block and the coordinate output block, the output

The coding noise block is connected to the corresponding input of the coordinate output unit, the output of the coordinate output unit is connected to the information output of the device 2.

Claims (2)

The drawback of the device lies in the low reliability of reading graphic information. 39 Chain of the invention - improving the reliability of reading graphic information. The delivered circuit is achieved by the fact that the device containing the control unit, whose input is connected to the coordinate remover, and the output is connected to a switch connected to the plan, to the coordinate generation unit and to the dJtHOMy input of the interchangeable coding unit, the other input to which is connected to the unit coordinate formation, and the output is connected to the coordinate output unit connected to the coordinate formation unit and to the control panel and the interface block, the first register is entered, connected to the coordinate output and interface blocks , the subtraction unit inputs, which are connected to the first register and to the coordinate output unit, a pulse shaper connected to the first register and to the coordinate extraction unit, the second and third registers, the inputs of which are connected to the pulse shaper and to the subtractor, and the outputs are connected to by the subtraction unit, and the logical node connected, to the second and to the third registers, to the subtraction unit and to the pulse shaper. In this case, the logical node contains decoders connected to the input of the node and to the inputs of the AND element whose output is united with the display element. FIG. 1 shows a block diagram of the proposed device; in fig. 2 options for the location of conductors of printed circuit boards. The device includes a tablet 1, a commutator 2, a control unit 3, a coordinate remover 4, a coordinate generation unit 5, a noise-resistant coding unit 6, a coordinate issuance unit 7, an orthogonality control unit 8, a first register 9, a keyboard control unit 1O with a keyboard, wives The block 8 contains a logical node 12, made in the form of decoders connected to the element And whose output is connected to the display element, the pulse generator 13, the subtraction unit 14, the second 15 and the third 16 registers. The device works as follows. In the initial state, from block 3, pulses are received successively on all coordinate tires of plate 1 through switch 2. At the same time, the same pulses arrive in block 5, where 94 current coordinates X and Y are formed, corresponding to the tire numbers to which pulses are applied at this time. When the puller touches the 4 coordinates of the point of intersection of the coordinate tires, a signal is generated in it, which enters the block 3, which produces signals that fix the coordinates X and V of the read point of the drawing in block 5. After that, the signals coming from block 5 and block 3 start block 6, eliminating errors associated with bouncing occurring at the moment when the probe touches the intersection point of the co-original OAH. When the co-ordinate unit is read correctly, unit 6 generates a signal allowing the receipt of information about the coordinates of the readout point from unit 5 in the information register of unit 7. The control unit of unit 7 for issuing coordinates is triggered by the same signal. The conductors in the drawing of the MofyT PCB are set in one of the eight directions (Fig. 2). In a successive comparison of the dinatuses of the points A, B, B and G, there are three possible cases of change in the coordinates: DU is an arbitrary real,, real number} DH is an arbitrary real NUMBER}. The service unit building block of block 7 generates service codes from "oxen (in the specific case: an array of contact pads, an array of conductors, an end of a conductor, an end of an array, a diaphragm), & according to the pressed key located on the 1O remote control. These codes are transmitted to the register 9 with the latest transmission through block 11 to external devices. The orthogonality check is performed by reading the array of conductors in the following order. When the control unit of the unit 7 starts up and when the key is pressed earlier, the array of conductors generates a signal at the above node, through which the pulse shaper 13 is triggered, generating sync pulses that provide orthogonality control in the following sequence: X2-XI and XX; Y2 - Y1Y ;. .LH DU; where XI, U1 are the coordinates of the last 5.9 scoring point stored in the information register of block 7; X2, Y2 - the coordinates of the previous point read, stored in the register 9 HF,. AU - the difference of coordinates, stored with after subtraction in the intermediate registers x 15 and 16. The subtraction is carried out in block 14 of the subtraction. The above information is supplied to node 12. Moreover, the coordinates of the first point of any conductor (A and D) are entered into register 9 without control. All subsequent readout points of the conductor are controlled relative to the previous ones. If the comparison of the coordinates satisfies one of the tapes, then the node 12 generates a signal according to which in the imaging unit 13 of the pulses the sync pulses are generated that ensure the contents of the register 9 through the unit 11 to the external devices and the contents of the unit 7 to the register 9. If the comparison of coordinates does not satisfy the above, 1m conditions, the logic node 12 turns on the error signaling as long as the coordinates that meet the above conditions are not read. The orthogonality check is performed for the top points l to one conductor (ABC or DEJ) (fng. 2). After reading the last point of each conductor, the end of a conductor key is pressed. The implementation of this symbol in block 7 makes it possible. the transition from the end of one conductor to the beginning of the next (for example, from point D to point D) in any direction without control. When comparing a graphical information, errors occur that are associated with the & Accuracy of the drawing and with the erroneous touch of the coordinate remover of the reading points of the drawing. Based on the research carried out, the number of such errors for one drawing can be 15-25%. The elimination of such errors is associated with the additional costs of the reader itself and the computer processing the information read. 196 Application in the proposed device of the orthogonality control unit in the buffer register allows control of the read information, which significantly increases the reliability of the read information and, in turn, increases the reliability of the device. Claims i. A device for reading graphic information containing a control unit, the input of which is connected to a coordinate remover, and the output is connected to a switch connected to Spanner 1, to a unit of formation of coordinates and to one input of a noise-resistant KOfdirovanie, the other input of which is connected to a unit of formation of coordinates, and the output is connected to a coordinate output unit connected to a coordinate generation unit and a control panel, and an interface unit, characterized in that, in order to increase the reading reliability of the graphic information, it contains the first register connected to the units for issuing coordinates and conjugations, the calculating unit, whose inputs are connected to the first register and the unit for issuing coordinates, pulse generator connected to the first register with the unit for issuing coordinates, the second and third registers, whose inputs connected to the pulse shaper and to the subtraction unit, and the outputs connected to the subtractor, the logical node connected to the second and third registers, to the subtractor and to the pulse shaper. 2- The device according to claim 1, characterized in that the logical node comprises decoders connected to the input of the node and to the inputs of the element I, the output of which is connected to the element of indication. Sources of information taken into account during the examination 1. USSR author's certificate No. 441576, cl. G 06 K 11 / GS, 1974. 2. USSR author's certificate number 534771, cl. Q 06 K 11 / GS, 1976. s / g / / g / d4 Hg ha Hb Xfi AJ 5We2