SU918989A1 - Device for cathode ray tube beam focusing and deflection - Google Patents

Description

(54) DEVICE FOR FOCUSING AND DEFLECTION OF THE BEAM IN THE ELECTRON BELT TUBE

I

The invention relates to npoMbnuneifrnosti means of communication and can be used to create highly stable and highly sensitive devices to focus and deflect the beam in the cathode, tubes used in modern television portable cameras, where the requirements of efficiency and high stability are among the most important.

There are known devices for focusing and deflecting the beam in cathode-ray tubes, using either an electromagnetic system or a system with permanent magnets as a focusing system. The use of permanent magnet devices is more preferable for working in KaMepiax of a portable type, since the absence of the need for constant current to create a focusing magnetic field simplifies the power supply unit of the camera, reduces weight, improves the stability and reliability of the camera l3.

However, this device has insufficient sensitivity. to deviation

It is also known a device for focusing and deflecting a beam in a cathode ray tube, which contains a magnetic focusing system in the alternate Ha6qpa alternating hard magnetic and soft magnetic rings with a decreasing width of the soft magnetic rings along the axis

10 system and deflecting system, made in the form of two pairs of saddle-shaped coils located in two mutually perpendicular planes, Magnetic rings of the focusing system,

ts located between magnetically strong and serving to form the necessary axial distribution law of the magnetic focusing field and the amplitude of its azimuthal asymmetry,

20 simultaneously serve as the magnetic circuit of the diverting system 2J,

The disadvantage of this device is that the sensitivity to deflection is not high enough. This is due to the fact that due to the presence of intense longitudinal magnetic fields, a significant deterioration of the properties of highly permeable magnetic materials occurs.

transverse direction, which dramatically reduces the positive effect of their use as a magnetic deflection system. The use of low permeable materials does not allow 10 to create highly sensitive devices for focusing and deflecting the beam.

The purpose of the invention is to increase the sensitivity to deviation.

This goal is achieved by the fact that 15, in a focusing and deflecting device in a cathode ray tube containing a focusing system, made in an alternating set of hard magnetic and soft magnetic rings with a decreasing magnet soft rings along the axis of the system, and a deflecting system made in two pairs of saddle-shaped coils located in two mutually perpendicular planes between the focusing and deflecting systems an additional set of magnetically and non-magnetic rings with decreasing widths th nonmagnetic kolyh sistemy.30 along the axis

An additional set of rings, placed inside the nonmaterial case of the focusing system, is in a much smaller longitudinal biasing field than the magnetically soft rings 5 of the focusing system, directly

adjacent to the longitudinally magnetized hard magnetic rings. In connection with this, in the manufacture of magnetically soft additional rings, it is possible to use highly permeable magnetic materials, which are effective conductors of the magnetic flux of the deflecting system, which significantly increased its sensitivity.

The distribution of the magnet width of the soft rings along the axis of the focusing system provides the necessary axial distribution of the focusing magnetic field .50

The fact that the magnetically soft rings of the focusing system are at the same time the magnetic circuit of the deflecting system, although not sufficiently effective, allows an additional set of rings to be used to increase the sensitivity of the device in order to increase the sensitivity of the device.

places of the greatest width of the magnets of the rings of the focusing system at large distances from each other.

The drawing schematically depicts a single device, a longitudinal section: cut.

A device for focusing and deflecting a beam in a cathode ray tube contains into a focusing system, made up of a set of hard magnetic and magnetically soft rings 1 and 2, assembled and fixed by a non-magnetic washer 3 on a mounting non-magnetic sleeve 4; a deflecting system 5 placed inside a focusing device made in the form of two pairs of saddle-shaped coils located in two mutually perpendicular planes; a complementary set of soft and non-magnetic rings 6 and 7 placed between the focusing and deflecting systems. The rings of this set, additionally / placed in the device, are rigidly fastened and set together relative to each other during the assembly process. The entire device is placed in a screen 8 made of a soft magnetic material.

The operating mode of the system is provided as follows.

When magnetically distributing flexible rings of various widths along the axis of the focusing system as a result of magnetization in the direction indicated in the drawing, a permanent magnetic focusing field of a given configuration is created. After assembling the pre-magnetized focusing system with a deflecting and additional Ha6qpoM rings, the device is installed in the chamber and the sawtooth the deflecting currents are achieved by the operating mode of the device — focusing and effective deflection of the beam in the cathode ray tube using a combination of constant focusing magnetic field and a variable deflection field.

Claims (2)

1. Kryzhanovsky V.D. and Kostykov Yu, and Television color and black and white. M., St. Don, 1980; with. 58-66. 2. USSR Author's Certificate No. 287О98, cl. H Ol 3 29/76, 1970.