SU1677862A1 - Sensor switch - Google Patents

Abstract

The invention relates to a pulse technique and can be used in input and output devices. The aim of the invention is to expand the functionality by providing control from the computer, achieved by introducing the second element I 4 into a known device, and the first and second elements 13 and 14 with three states into each sensing cell 5 of the first and second elements and the second and third One of the registers 9 and 10, the synchronization inputs of which are connected respectively to the recording and control inputs of the corresponding sensor cell 5, in each sensor cell 5 the input input is connected to the control input of the second el The three-state terminal 14, the output of which is connected to the bi-directional bus 21, the enable bus 15 is connected to the first input of the first element 4, the read bus 20 is connected to the read inputs of all the sensory cells 5, the mask bus 19 is connected to the control inputs of all the sensory cells 5, the reset bus 17 is connected to the reset inputs of all the sensor cells 5, and the write bus 18 is connected to the record inputs of all the sensor cells 5. 1 sludge. fe

Description

The invention relates to a pulse technique and can be used in input and output devices.

The aim of the invention is to extend the functionality by providing control from the computer, achieved by introducing the second element I into the known device, and into each sensor cell of the first and second elements with three states, as well as the second and third one-bit registers which are connected respectively to the recording and control inputs of the corresponding sensor cell, in each sensor cell the read input is connected to the control input of the second element with three any E,

the output of which is connected to a bi-directional bus, the enable bus is connected to the first input of the first element I, the read bus is connected to the read inputs of all the sensory cells, the mask bus is connected to the control inputs of all the sensory cells, the reset bus is connected to the reset inputs of all the sensory cells, and the write bus connected to the inputs of all sensory cells.

The drawing shows a structural electrical circuit of a switching device.

The device contains a generator 1, a delay element 2, the first element And 3, the second element And 4, M sensory cells 5, each of which consists of a sensor

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pad 6, an integrating element 7, a first one-bit register 8, a second one-bit register 9, a third one-bit register 10, a one-bit counter 11. key 12, the first element 13 of the states, the second element 14 with three states, switching bus 15, sync bus 16, reset bus 17, write bus 18, mask bus 19, read bus 20, bi-directional bus 21, output bus 22.

The device works as follows.

If there is a signal on the bus 15, the pulses of the positive polarity of the generator 1 are fed through the second element 4 to the control input of the third state of the first element 13 with three states and the delay element 2 providing the delay of the positive front of these pulses delays of signal propagation through the first element 13 with three states and the integrating element 7. At the information input of the first element 13 with three states there is a single signal level. In the absence of a generator pulse 1, the first element 13 with three states produces at its output a signal corresponding to the input one, i.e. the level of the logical unit, and charges the capacitor of the integrating element 7 through its output resistance. When a positive pulse arrives from the generator 1, the first element 13 with three states passes to the third state and the discharge of the capacitor of the integrating element 7 begins through the discharge resistance in this integrating element 7. The discharge constant circuit is chosen so that before the arrival of a positive the front of the pulse at the synchronization input of the first one-bit register 8 (on the synchronization bus 16, when operating without a computer, a logical unit is present), the capacitor managed to discharge and logging units in the first one-bit register 8 did not occur. When a finger touches the touch pad 6, the capacitance of the capacitor of the integrating element 7 increases and its discharge does not have time to complete before the arrival of a positive pulse at the synchronization input of the first one-bit register 8 and thus installs it into a single state. Single counter 11 changes its state.

When you touch it again, the processes are repeated and the one-bit counter 11 again changes its state. Entering

information of the one-bit counter 11 to the second one-bit register 9 is produced by applying a signal to the write bus 18. When the third one-bit register 10 is in a single state, this information is fed through the key 12 to the output bus 22. If necessary, the output of information to the output bus 22 is blocked zero entry in the third

a one-bit register 10. The recording of both the zero and one states in the third one-bit register 10 is effected by applying a signal to the mask bus 19 with the corresponding one-bit state.

counter 11.

The operation of the computer differs from that described above in that there is no signal on the enable bus 15 and therefore the first element 13 with three states transmits all the time information from the 21 bidirectional buses connected to the computer to the information input of the first one-bit register 8. Before entering information into the first

one-bit register 8 via the reset bus 17; a signal is received that sets the first one-bit register 8 to zero and the one-bit counter 11. When a signal appears on the sync bus

16, the pulses from the generator 1 through the delay element 2 and the first element I 3 are fed to the synchronization input of the first one-bit register 8 and information from the bi-directional bus 21 is entered into it. With

of a single information there is a change in the state of a one-bit counter 11, i.e. it is set to one. The information is rewritten into the second one-bit register 9, or into the third one-bit register 10 in the same way as when working without a computer. Information about the state of the output lines 21 and 22 is read into the computer when the signal arrives at the read line 20.

Claims (1)

The invention of a switching control device with a sensor control comprising a generator and a delay element connected in series, the first element I, the first input of which is connected to the turn-on bus, and the sensor cells, reset inputs, polling inputs, synchronization inputs and control inputs of which, respectively, are combined, each sensor cell consists of a sensor pad, through an integrating element connected to the information input of the first one-bit register, the synchronization input of which is connected to the input synchronization of the sensor cell, the output of the first one-bit register is connected to the information input of the one-bit counter, the reset input of which is connected to the reset input of the sensor cell, as well as a key whose output is connected to the output of the sensor cell, which is functionality by providing control from the computer, a second And element is entered into it, and into each sensor cell the first and second elements with three states, the second and third one-bit registers than the generator output is connected to the second input of the first element And, the output of which is connected to the polling input of the first sensor cell, the output of the delay element is connected to the first input of the second element And, the second input of which is connected to the synchronization bus, and the output is connected to the synchronization input of the first sensor cell, in each sensor cell, the reset input of the first one-bit register is connected to the reset input of the one-bit counter, the output of which connected to the information inputs of the second and third single-digit registers; the control input of the first element with three states is connected to the polling input of the sensor cell; the input of the integrating element is connected to the output of the first elements of the speed states whose information input is connected to the bi-directional bus and the output of the second element with three states, the synchronization inputs of the second and third one-bit registers are connected respectively to the write and control inputs, the first and second key inputs are connected respectively to the outputs of the second and third one-bit registers, the key output is connected to the information input of the second element with three states mi, the control input of which is connected to the sensing input of the sensor the cells, the write inputs of the touch cells are connected to the write bus, the read inputs of the touch cells are connected to the read bus, the reset input of the first touch cell is connected to the reset bus, and the input The control of the first sensor cell is connected to the mask bus. 2019P18