SU813492A2 - Device for displaying information on oscilloscope screen - Google Patents

Description

The invention relates to automation and computer technology, in particular to devices for displaying information. from

According to the main author. St. No. 377761, a device is known that contains coordinate address counters and digital-to-analog X and U coordinate converters connected to them, a trigger θ connected by a single output through a diode to a digital-analog output ^: coordinate U converter, whose input corresponding to the high-order bit is connected to the power bus , and connected by the zero input to the 15th input of the coordinate counter of the address Y, and by a single one - to the input bus of the device Щ.

The disadvantage of this device is a decrease in the clarity of the indication * 0 of large amounts of information, since for a time of 35-50% of the duration of the cycle of access to the memory, from the arrival of the signal Change the address to read. “From the memory of new information, the beam on the screen of the oscilloscope goes down beyond the screen, which reduces the brightness of the raster by 35-50%, with a large amount of information the luminous point on the screen of the oscilloscope is blurred 'O due to the background from the traces of the beam with its frequent taps beyond the raster, and halving the amplitude of the signal supplied to the input of the oscilloscope, degrades the noise immunity of the device.

The purpose of the invention is to increase the clarity of information display.

This goal is achieved by the fact that a register on D-triggers is entered into the device for each of the X and Y coordinates, one of the inputs of which is connected to the outputs correspondingly. current coordinate counter of addresses, other inputs - with the input of the device, and outputs - with the inputs of the corresponding digital-to-analog converter.

The drawing shows a diagram of the device.

The device contains an input bus 1 of the signal for changing the address, coordinate counters 2 and 3 of the address, a digital-to-analog converter 4, an input bus X of an oscilloscope 5, a trigger 6, a diode 7, a digital-to-analog converter 8, an input bus of the oscilloscope 9, an information input 10, an additional senior bit 11 converter 8, registers 12 and 13 on the D-trigger and input 14 of the device (signal bus, information output).

The device operates as follows.

When applying to the counting’s input of the coordinate counters 2 and 3, the address change on the bus 1, the counters switch, the next number in the memory cube of the memory device (not shown) is accessed. After a time determined by the time of information retrieval from the memory, a readout of 1 or 0 appears at the information input of device 10. By the signal, information is supplied to bus 14 (synchronization inputs of registers 12 and 13 and trigger b), the address code is written into the registers access to the memory from coordinate counters of addresses 2 and 3, and information read from the memory is written to trigger δ. Digital to analog. the converter 4 supplies the input X 5 of the oscilloscope 15 with a voltage proportional to the digital address code on the register 12 of the cube 0, which is in voltage, from the single output of the trigger 6 through the diode 7 fixes the voltage at the output of the digital-to-analog converter 8 and at the input X 9 of the oscilloscope 15 at a low level, regardless of the digital code on register 13, leading the beam on the oscilloscope screen down, outside the raster, for the time until the next signal arrives, information is output in the next clock cycle. When reading information 1 from a memory cube by a signal, information is transmitted on the bus

If, when reading from the memory, information will be read, then the signal on the data bus 14 trigger 6 is installed, thin 0, the low level trigger b is set to state 1, while the high voltage level from the single output of trigger 6 locks the diode 7, digital-to-analog converter 8 (for example, consisting of a resistor matrix R-2R) with an additional high-order bit 11 on the resistor .16 And the diode 17 inputs the input: X 9 of the oscilloscope 15 to a voltage proportional to the digital code on register 13, combined with the voltage drop across the diode 17 and voltage generated from the power supply + E and the voltage divider formed by the resistor 16 and the output resistance of the digital-to-analog converter 8. The beam on the screen of the oscilloscope occupies a certain position, indicating a luminous dot on the screen that corresponds to information 1 at this address. At the beginning of the next clock cycle in the memory, the input bus 1 receives a signal that the address changes, the next number is accessed, then due to the use of registers 12 and 13 and. trigger 6 with a D-input signal signal information on bus 14 there is a simultaneous change of the address code at the outputs of registers 12 and 13 and the number code at the output of trigger 6, which completely eliminates the non-information emissions of the oscilloscope beam beyond the raster.

The voltage at the output of the digital-to-analog Converter 4 may vary depending on the digital code on the register 12 in the range from low to high voltage level. The voltage at the output of the digital-to-analog converter 8 when reading information from the memory 0 has a low voltage level, and when reading information, 1 the voltage depends on the digital code on register 13 and is summed with the voltage drop across the diode 17 and the voltage from the voltage divider formed from the resistor 16 and the output resistance of the digital-to-analog converter 8. The voltage drop across the diode 17 and the output resistance of the digital-to-analog converter 8 are independent of the address code supplied to its inputs, therefore Two voltages serve as raster bias voltage and bias voltage of the digital to analog converter. the oscilloscope screen without decreasing its amplitude. ' Due to the bias voltage of the raster with indication 0, the beam is output beyond the raster or the screen of the oscilloscope.

Claims (1)

The invention relates to automation and computing, in particular to devices for displaying information. According to the main author. St. No. 377761, a device is known that contains address address counters and digital-to-analog converters of coordinates X and Y connected to them, a trigger connected by a single output through a diode with an output of a digital-analog converter of coordinate Y, whose input corresponding to the higher bit is connected to the power bus, and connected by a zero input to the counting input of the coordinate counter of the address Y, and single inputs to the input bus of the device ij. The disadvantage of this device is a reduction in the clarity of displaying large arrays of information, since at the time of 35-50% of the duration of the tact of accessing the memory, from the arrival of the signal. The address changes before reading from the memory of the information, the beam on the oscilloscope screen goes down beyond the screen, 35-50% reduces the brightness of the raster; with a large array of information, the light is dotted on the oscilloscope screen, gets blurred due to the background from the beam traces during its frequent taps beyond the raster limits, and halving the amplitude of the signal applied to the input At the oscilloscope, impairs the noise immunity of the device. The purpose of the invention is to increase the clarity of information display. The goal is achieved by the fact that the device for each of the coordinates X and Y introduced a register on d-flip-flops, one of the inputs of which are connected to the outputs corresponding. the address coordinate counter, the other inputs are with the input of the device, and the outputs are with the inputs of the corresponding digital-to-analog converter. The drawing shows a diagram of the device. The device contains an input bus 1 of the address change signal, coordinate counters 2 and 3 addresses, a digital-to-analog converter 4, an input bus X of the oscilloscope 5, a trigger 6, a diode 7, a digital-analog converter 8, an input bus of the oscilloscope 9, information input 10, is an additional high-order 11 converter 8, registers 12 and 13 on the D-trigger and input 14 of the device bus signal (information). The device works as follows. When the coordinate counters 2 and 3 are fed to the counting input, the address change via bus 1, the CI counters are switched, the next number in the cube is used, the address of the MU of the memory device (not shown). After a time determined by the sampling time of information from the charger, a readout of 1 or O appears at the information input of the device 10. By outputting information sent on the bus 14 of the synchronization of registers 12 and 13 and trigger b), the address code is written to the registers access to the memory from the coordinate counters of the address 2 and 3, and the trigger b is recorded from the memory read information. Digital to analog. Converter 4 outputs an oscilloscope 15 to a voltage proportional to the digital address code in register 12. If information O is read from the memory cube, the information on the bus 14 triggers 6 to go to O, low the voltage level from the single output of trigger b through diode 7 fixes the voltage at the output of the digital-to-analog converter 8 and at the input X9 of the oscilloscope 15 at a low level, regardless of the digital code on the register 13, leading the beam on the oscilloscope down, beyond the raster,and the time until the arrival signal sledukvdego information output in the next clock cycle referring to the memory. When information 1 is read from the memory cube via the information signal via bus 14, Trigger b is set to state 1, while a high level from a single output of trigger 6 blocks the diode 7, a digital-to-analog converter 8 (for example, resistor matrix R-2R) with an extra high-bit 11 on the resistor .16 and diode 17, the input: X 9 of the oscilloscope 15 voltage proportional to the digital code on the register 13, folded with the voltage drop across the diode 17 and the voltage across the sensor from power supply + E and divides Ate voltage across resistor 16 and output resistance of digital-to-analog converter 8. Beam on the raff oscilloscope screen occupies a certain position, indicated by the light point on the screen corresponding to information 1 in this address, at the beginning of the next memory ramp 1 the signal of change of the address comes, there is an appeal to the following number, then thanks to Use in registers 12 and 13 and. trigger b with a D input signal outputting information via bus 14, the address code at the outputs of registers 12 and 13 and the number code at the output of trigger 6 simultaneously change, which completely eliminates non-information emissions of the oscilloscope beam outside the raster. The voltage at the output of the digital-to-analog converter 4 may vary, depending on the digital code on the register 12, from low to high voltage levels. The voltage at the output of the digital-analog converter 8 when reading information from memory O has a low voltage level, and when reading information, 1 voltage depends on a digital code on register 13 and is summed up with a voltage drop across the diode 17 and voltage with the voltage divider formed from the resistor 16 and the output resistance of the digital-to-analog converter 8. The voltage drop across the diode 17. And the output resistance of the digital-to-converter converter 8 does not depend on the address code supplied to its inputs by the poet these two voltages is performed role raster bias voltage and bias voltage of the digital to analog converter. the oscilloscope screen without reducing its amplitude. Due to the raster offset voltage when the O is indicated, the beam is output outside the raster or the scope of the oscilloscope screen. The invention is a device for displaying information on an oscilloscope screen according to the author. 377761, characterized in that, in order to increase the clarity of displaying information, a register on D-flip-flops is entered into it for each of the X and Y coordinates, one of the inputs of which is connected to the outputs of the corresponding address coordinate counter, the other inputs to the device's input, and the outputs are with the inputs of the corresponding digital-to-analog converter. Sources of information taken into account in the examination 1. USSR author's certificate 377761, c. 06 F 3/14, 1970 (prototype).