SU745013A1 - Device for scanning in matrix-type light-to-signal converters - Google Patents

Description

The invention relates to the field of television technology, in particular, to devices for scanning electric matrix circuits. Matrix connection schemes underlie the construction of contactless switching devices, systems of telemetry sensors, storage devices, basic vacuum sensors for television signals, etc.

Known matrix circuits of TV-sultry sensors, implemented in the form of a connection of sensitive elements using the XY coordinate bus of the first video communication circuit in the form of keys £ 1}.

Such compounds generate perek- ¹ restnye communication manifested both in steady and unsteady modes in. They cause the appearance of crosstalk and cause a decrease in the signal-to-noise ratio due to shunting of the load by spurious leaks.

The aim of the invention is to eliminate crosstalk during the interrogation of matrix devices.

This goal is achieved by ί that the current source is connected to the first input of the switch, the first output of which is connected to the input of the horizontal unit, the second input of the switch is connected to the horizontal unit, 'the second output of the switch is connected to the input of the memory unit, the output of which is connected to the first the input of the analog division unit, the third output of the switch is connected to the second input of the analog division unit. .

Applying the well-known transformation - grounding of the counted buses in the matrix using the grounding keys of the vertical sweep unit and thereby dividing it into a number of independent columns, it can be shown (by simple algebraic calculations that the resistance of the element being polled will be equal to:, U .о ^G: and-and `` gae K - the resistance of the element being surveyed;

I am the resistance of all elements of this column connected in parallel, including the interviewee;

Y is the voltage of the power source;

t is the voltage on the element being interviewed.

Since the supply voltage by applying voltage of the generator constant, and U-value and can be measured directly on the corresponding conductive stolbtsevoy bus ₁₅ when polling the corresponding element, the only difficulty is the resistivity measurement of all the parallel-connected elements of the column that is characteristic ₂₀ ized by the amount of interference. In the proposed device, the resistance measurement of parallel connected elements of the column is performed da the time of the line blanking pulse by connecting ₂ 5 current generators. The removed voltage, proportional to R, is introduced into the memory block, from where it enters the analog dividing device during the active line duration. thirty

Since the crosstalk is common to the elements of each stolbtsevoy bus, the order of scanning in this device must ^ be changed compared to the conventional: * exploded byst- ₃₅ ing survey must be carried out by vertical keys (keys traditionally vertical nye feeding, since they work with horizontal frequency, and horizontal - signal - work with a clock frequency of ₄ θ). In this device, the vertical register and the horizontal one are as if swapped.

The drawing shows a block diagram of a device. 45

The power source 1 through the power supply grounding keys of the shift register included in the vertical scan unit 2 is connected to the corresponding horizontal buses 3 of the matrix of _5Q elements 4.

The horizontal scan unit 5 consists of a shift register and signal keys connected to the vertical buses 6.

The switch 7 has two inputs a, b ₍ respectively, signal and control and three outputs c, d, d respectively matrix, interference channel, signal.

The device operates as follows. During the line blanking pulse, the current generator 8 is connected to the corresponding column bus through the input a and the output in 'of the switch 7 and the keys of the horizontal unit 5. At the same time, the current generator 8 is connected to the input of the memory unit 9 through the second output r of the switch 7. From the output of the memory unit 9, the signal is input to a divisible analog divider 10.

Then, in an element-wise scan along the column by switching the voltage source 1 using the vertical scanning unit 2, the current source 8 is disconnected by the switch 7 from the matrix vertical buses 6, and the corresponding matrix vertical bus through the output to the switch 7, which in this case is an input for the element-by-element polling signal, and the output d of the switch is connected to the input input of the divider of the analog device, c. which produces the desired signal.

The proposed device allows to simplify the manufacturing technology of the photosensitive matrix, which can be implemented on the simplest linear photo-couplers, and can be used in low-cost television sensors of industrial television. ’

Claims (1)

one . The invention relates to the field of television technology, in particular, to devices for scanning electrical matrix circuits. Matrix wiring diagrams underlie the construction of contactless switching devices, telemetering sensor systems, for example, television signal vacuum signal sensors, etc. Matrix circuits of television sensors are known, which are realized in the form of a connection of sensitive elements with the help of X-Y coordinate buses and video communication circuits in the form of keys 17. Such connections generate cross-links that appear in both the established and in native modes. They cause the occurrence of crosstalk and cause a decrease in the signal-to-noise ratio due to the shunting of the load by parasitic leaks. The aim of the invention is to eliminate crosstalk when polling matrix devices. This goal is achieved by connecting the current source to the first input of the switch, the output of which is connected to the input of the rc unit, and the second input of the switch is connected to the horizontal scanning unit, the second output of the switch is connected to the input of the memory unit, the output of which is connected to the first input the analog division unit, the third output of the switch is connected to the second input of the analog division unit. Gfimen in the matrix, known as з 6 6 - 6 & , / Uh resistance of the item being surveyed; resistance of all parallel-connected elements of this column, including the interrogated voltage of the power source; voltage on the item being polled. Since the supply voltage due to the use of a voltage generator is constant, and the value of Uh can be measured directly on the corresponding column bus when interrogating the corresponding element, the only difficulty is measuring the resistance of all parallel-connected elements of the column, which characterizes the magnitude of the noise. In the present device, the measurement of the resistance in parallel of the connection of column elements is carried out and the horizontal damping time by connecting a current generator. A removable voltage proportional to R is inputted into a memory block, from which, during active time, the line enters an analog dividing device. Since the crosstalk is common to the elements of each column bus, the sweep order in this device should be changed compared to the usual: element-by-element quick polling must be performed by vertical keys (traditionally vertical supply keys, since they work with a horizontal frequency , and horizontal - signal - work with a clock frequency). In this device, the vertical register and the horizontal, as it were, change places. The drawing shows a block diagram of the device. The power source 1 is connected to the corresponding horizontal buses 3 of the matrix of elements 4 via the power supply cut-off keys of the shift register included in the vertical scanning unit 2. The horizontal scan unit 5 consists of a shift register and signal keys connected to vertical ladders 6 .; Switch 7 has two inputs a, b, respectively, signaling and control, and three outputs, c, d, g, respectively, matrix, signal interference channel. The device works as follows. During the horizontal damping pulse, the current generator 8 is connected to the corresponding column bus through input a and the output to the switch 7 and key 1Ey of the horizontal scanning unit 5. The QoiHOBpeMeHHO current generator 8 is connected via the second output g of the switch 7 to the input of the memory block 9. From the output of the block Memory 9, the signal is fed to the input of a divisible analog deliggel 1O. Then, when scanning element by element along the column by switching voltage source 1 with the help of vertical scanning unit 2, current source 8 is disconnected by switch 7 from the matrix vertical bus 6, and the corresponding matrix vertical bus through the output to switch 7, which in this case is an input for the element signal interrogation, and the output d of the switch is connected to / to the input input of the analog device divider, c. which produces the desired signal. . . The proposed device allows to simplify the manufacturing technology of the photosensitive array, which can be implemented on the simplest linear photodotal networks, and can be used in low-cost television sensors of industrial television. Claims1.1) A device for scanning in matrix converters a light signal containing a voltage source connected to a vertical sweep unit, the output of which is connected to a horizontal 1 bus-matrix, a horizontal scanning unit, the output of which is connected to vertical matrix matrix, This means that, in order to reduce crosstalk, the current source is connected to the first input of the switch, the first output of which is connected to the input of the horizontal scanning unit, the second input of the switch Inonii horizontal isolator heel unit, the second output switch connected to the input of memory output 57460136 When connected to the first input of the block Information sources, analog division, the third output to the "-1find in attention at the expert Mutator X is united with the second input of the bpo-l, yEEE ctntm tnapchlQ69, ka analog division. p. 53-54 ({phototope).