SU714441A1 - Device for forming marker - Google Patents

Description

, 1:.: The invention relates to automation and B1 | numeral technique and can be found in display systems and editors and instructions of the necessary piece of information. Formal marker devices used in display systems are known. The indication and editing of a given information in such devices is carried out by moving the marker on the screen, the parameter, the electron-beam tube. One of them contains a platen on which a handle (joystick) or ball is mounted, spun to mechanically enter the marker. The handles of the ball are mechanically connected to two angles of rotation in the code but both axes. The outputs of these converters are connected to the corresponding registers of the marker coordinate code on both axes. As a result of the knob turning or rotating the slot, the angle code is set at the output of the converters corresponding to the handle or container position. This code is written to the marker coordinate code registers but both axes.

The device on the device is displayed, 1 "W coordinate per unit size, Os m set & A marker B overlay, corresponds to the 8th lower level grip of the shcher {T}. ; . ;

The disadvantage of the NWS is the presence of mechanically remanufacturing units to reduce the reliability of the device.

The closest yo tehyncheskoy essence tc yredlozhennomu invention is a device contains) ka "ts1venya Sheth with matrix vzanmoizolnrovznnrs t6ko1d5yod boiling portions connected with the input unit, decoder, counter, NS glsov generator, the comparison unit, the first n second registers g.Nedostatkom known device Operational device 1 is low, due to the presence of mecha- nesome non-moving nodes.

The purpose of the proposed technical solution is to increase the reliability of the device by eliminating mechanized Unrelocated nodes.

The goal is achieved by the fact that in the device the input of the input unit is connected to the output of the decoder, and the output is connected to one input of the first register and the first input of the comparison unit, the second input of which is connected to the output of the first register, and the output is connected to the second register A generator, one counter output connected to the decoder, the second to the third input of the comparison unit and another input of the first register.

The block diagram of the device under consideration, made in accordance with the present invention, is shown in the drawing. The device comprises a tablet 1 with a matrix of mutually isolated conductive sections 2, an input unit 3, a decoder 4, a counter 5, a pulse generator 6, a comparison unit 7, the first register 8 and the second register 9 .

. Conductive areas 2 of tablet 1 are connected to input unit 3. Input of input unit 3 is connected to output of decoder 4, and output to ONE input of first register 8 and first input of comparison unit 7. Second input of comparison unit 7 is connected to output of first register 8, and the output is to the second register 9. The input of the counter 5 is connected to the generator 6. One output of the counter 5 is connected to the decoder 4, the second to the third input of the comparison block 7 and the other input of the first register 8.

 Tablet 1 with a matrix of anti-insulated conductive sections 2 is designed to introduce a marker marker.

The input unit 3 is designed to determine the contact of the operator of any conductive section 2,

The decoder 4 is designed to convert a binary code to a conductor 2 of the code into a decimal code. Counter 5 serves to binary the codes of the conductive sections 2. Pulse generator 6 is designed to generate pulses applied to the input of counter 5 and synchronizing the operation of the entire marker generation device. Comparison unit 7 is intended to compare the codes of the preceding and subsequent conductive sections 2, which the operator has touched. The first register 8 is intended to store the binary code of the brush conductor of section 2, which the operator has touched. The second register 9 is for storing 1 and the marker position code.

The device works as follows. The operator touches any conductive area 2 of plate 1. Pulse generator 6 generates a sequence of pulses that go to counter 5. Counter 5 counts the pulses and issues a binary code of the counted number of pulses. This binary code is the code of the conductive section 2 of the plate 1. This code enters the decoder 4. The decoder 4 converts the two code of the counter 5 into the decimal code and selects the conductive section 2 according to the counter code 5. Each passing pulse of the pulse generator 6 changes the code of counter 5 to one.

In this case, the decoder 4 sequentially selects the conductive areas 2. The output

The decoder 4 enters the input unit 3, which selects the corresponding conductive section 2 and detects whether the operator of this section has touched or not touched. As soon as the input unit 3 selects the conductive section 2, which the operator has touched, at its output, a signal is sent to one input of the first register 8 and the first input of the comparison unit 7. The output signal from unit 3 permits the comparison in the block

Comparison 7 xc., V of the counter 5 with the code of the first register 8. In; from the moment of time in 5, a two-way code of the conductive section 2, which the operator is currently concerned with, is stored. In the first register 8 is stored the binary code of the conductive section 2, which the operator previously concerned. If the operator én | e doesn’t concern the conductive sections 2 at all, then in the first register 8 a randomly written code is stored, for example, as a result of

power up the device. Comparison block 7 bitwise compares the codes of counter 5 and the first register 8. If the difference of these codes is greater than or less than the low-order unit, or is equal to zero, then the comparison block

7 does not produce an output signal. If the difference between these codes is I, then the comparison unit 7 generates a pulse, which goes to the second register 9. As a result, the code of the second register 9 is changed to Hail. This causes the marker to move on the screen. At the end of the code comparison, the signal of the input unit 3 by the code of the counter 5 is written into the first register 8. Thus, the code of the conductive section 2 is stored in the first register 8,

which the operator has touched. Next, Descriptor 4 polls the next conductive part. 2 plates 1, and the cycle described above is repeated. When you move the operator’s finger over the planet 1, it is consistent

concerns each conductive portion 2, the code of which differ by no more than natl, which causes the marker to move on the screen. In this case, the direction of movement of the marker on the screen fully corresponds to the direction of movement of the operator’s finger on the tablet. 1. Tablet 1 dimensions and the number of conductive areas 2 can vary widely and vary depending on the 57 specific engineering psychology requirements for input devices. The minimum length of the marker movement is equal to the resolution of the display device. Thus, by changing the code in the second register 9, the marker is moved across the screen of the display device. Comparative tests of this device with known ones have shown its high reliability.

Claims (2)

1. Soloveyadk I.Ye. Drobkin R.I. and Yarmarkin K.K. Electronic Devices for Displaying Information in Automated Communication Systems. M., Holy Hour, 1973, p. 73-81. ; 2.Johson R-w..Dioritae data dispea-s s-sstems an assessment. Computers and Automation; -J964 ,, p ..- l2-, 1 that in order to increase the reliability of the device in it, the input of the input unit is connected to the descrambler, and the bridge is connected to one input of the first register on the nepBbtM input of the comparison unit, the second input of which connected to the output of the first register, G output - to the second. The rum register, the input of the chippipe are connected to the royerator, one output of the counter is connected to the decryptor, the second to the third input of the comparison unit and the other input of the first register. Source information taken into account during the examination