CS201313B1 - Device for polar representation of the quantities on the oscilloscope picture tube - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device that allows polar displays to be displayed on an oscilloscope screen to monitor their size and relationship.

The prior art device for polar imaging of quantities utilizes the knowledge of fast and easy readability of the ring deformation. Deformation of the circle is a carrier of information about the monitored quantity. The device creates a circle on the oscilloscope screen with the axes of its individual segments and at the same time it allows deformation of these segments depending on the monitored quantity. This device is part of a special imaging system for various types of interrelated images that are controlled by a computer. The very polar representation of quantities by this device, which is very large, is uneconomical.

The above drawbacks are overcome by the polar quantity display device according to the invention, wherein the first output of the control unit is connected via an input signal switch and a filter to the first inputs of the first and second modulators. The second output of the control unit is connected via the harmonic signal generator to the second input of the first modulator and the third output of the control unit is connected via the second harmonic signal generator to the second

Yatop Miho Modulator *

The fourth output of the control unit is connected to the input of the saw generator. The fifth output of the control unit is connected to the first input of the first output signal switch, to the second input of which the output of the first modulator is connected. The sixth output of the control unit is connected to the first input of the second output signal switch, to the second input of which the output of the second modulator is connected. The outputs of the saw generator are connected to the third inputs of both output signal switches.

The advantage of the described device is its simplicity and can be built directly into the oscilloscope, so that it forms a compact unit with it and does not significantly affect its energy consumption. In addition, the device is portable and easy to operate.

The attached drawing shows a device according to the invention and its block diagram, wherein the first output of the control unit 1 is connected via an input signal switch 4 and a filter 5 to the first inputs of the first and second modulators 6 and 7. the harmonic signal to the second input of the first modulator 6 and the third output of the control unit 1 is connected via the second harmonic signal generator 3 to the second input of the second modulator 7. The fourth output of the control unit 1 is connected to the sawtooth generator 10. The fifth output of the control unit 1 is connected to the first input of the first output signal switch 8, the second input of which is connected to the output of the modulators 6. The sixth output of the control unit 1 is connected to the first input of the second output signal switch 9. The outputs of the saw generator 10 are connected to the third inputs of the two output signal switches 8 and 9.

Said device operates in such a way that voltages proportional to the monitored quantities are connected to inputs VI to Vn. By the switch 4 of the input signals controlled by the control unit 1, these voltages are gradually connected to the input of the low-pass filter 5. The signal from the output of the filter 5 is applied to the first inputs of the first and second modulators 6 and 7. The harmonic signal generators 2 and 3 controlled by the control unit 1 produce harmonic signals phase-shifted by an angle π / 2 relative to each other. The output of the modulator 6 is coupled to one input of the output signal switch 8 controlled by the control unit 1.

The second input of the output signal switch 8 is connected to the output of the saw waveform generator 10 controlled by the control unit 1. The output of the modulator 7 is connected to one input of the output signal switch 9 controlled by the control unit 1. The output of the output signal switch 8 is connected to the vertical input y of the connected oscilloscope and the output of the output signal switch 9 is connected to the horizontal input x. The output signal switch 8 alternately connects to the oscilloscope vertical input y the modulated harmonic signal required for polar display and saw waveforms for axis display. The output signal switch 9 alternately connects to the horizontal input x the modulated harmonic signal required for the polar display and the saw waveform to form a linear time base.

The device can be used in the analysis of biosignals, in laboratory practice and in industry, where it allows simultaneous monitoring of several quantities, or their interaction on one screen of the oscilloscope.

Claims (1)

SUBJECT OF THE INVENTION A device for polar display of quantities on the oscilloscope screen, characterized in that the first output of the control unit (1) is connected via the input signal switch (4) and the filter (5) to the first input of the first modulator (6) and 7), wherein the second output of the control unit (1) is connected to the second input of the first modulator (6) via the harmonic signal generator (2) and the third output of the control unit (1) is connected to the second input of the second a modulator (7), while the fourth output of the control unit (1) is connected to the input of the saw waveform generator (10), the fifth output of the control unit (1) is connected to the first input of the first output signal switch (8) and the sixth output ) is connected to the first input of the second output signal switch (9), and to the second input of the first switch (8) at the second modulator (7) is connected to the second input of the second output signal switch (9), while the third input of the first output signal switch (8) and the third input of the second output switch (9) are connected to the second input of the second output signal switch signals are connected to the outputs of the saw waveform generator (10).