SU647985A1 - Cathode ray tube - Google Patents

Description

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The invention relates to electron beam tubes and a cuff to be used to visualize the distribution of a radio indicator in an object entered for diagnostic purposes.

A known electron beam tube consisting of a cathode, an anode, a focusing electrode, and a deflection of two plates l.

Lack of this device is not very sensitive due to the influence of the anode on the control narte between the plates.

Also known is an electron beam tube with a grounded screen grid, containing a cathode, an anode, focusing electrons, and t2l plate deflection. However, when visualizing the distribution of the radioactive indicator in the object, a screen grid shadow appears on the screen, which reduces the invention.

The purpose of the invention is to beat the image quality. : - This is achieved by the fact that in the proposed device on both sides of the screen grid are located OTKJIOHJI systela connected to sources of antiphase sinusoidal voltage.

The drawing shows the proposed device.

The electron-beam tube 1 contains a screen grid 2, a cathode 3, an anode 4, a focusing electrode 5 and deflecting plates 6. The deflecting systems 7 and 8 are located along

O, both sides of screen grid 2 and connected to sources of antiphase sinusoidal voltage. . Arrange st in paeofaeT slesduisch) 1Sh way.

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When registering the gamma quantum of the object under study, the coordinate amplifiers 10 generate positional signals arriving at the deflection plates b, from the amplifier 11

0 signal of the illumination enters the resolving potential 2, and the electron beam hits the specified point of the screen of the electron-beam tube. 1, corresponding to the East of the arrival of gamma 5 quantum. The deviation of the touch system 7 is set so that the lines of force of the generated by it are perpendicular to the direction of the fibers of the screen grid 2. The deflecting system 7 receives a variable sinusoidal

0

1 April from one of the windings of the transformer 9, the deflecting system 8 is installed in parallel to the Khtskay system 7 and connected to. the second winding of transfomagrar 9, turned on antiphase first. Thus, the electron beam of the tube 1 acts in series of variable, equal and oppositely directed fields of the deflecting systems 7 and 8, acting before and after the screen grid 2 in the direction perpendicular to its fibers. This leads to the fact that at given coordinates X and Y the electron beam passes rso by different trajectories determined by the nejpeMeHHofo phase of the voltage supplied to the deflecting systems 1 and 8, however, it falls into one point of the screen of the tube 1 Due to this, there is no shadow from the screen grid 2 on the screen of the cathode ray tube 1, since the electron beam, along with hitting the fiber on the grid at other points in time, hits the same point on the screen after passing through the gap between the fibers.

Thus, the quality of the image of the distribution of the radioactive indicator in the object is improved, thereby the diagnostic capabilities of the display device as a whole are expanded, and the reliability of the radiological information increases.

Claims (2)

1. US patent 3697753, cl. 250-P, 5, 1974. 2. US patent 3042842, cl. 315-18, 1973.