HU177275B - Circuit array for damping parasitic oscillations in vertical deflection coil of television set - Google Patents

Description

Circuit arrangement for attenuation of parasitic vibrations in the vertical deflection coil of television sets

The present invention relates to a circuit arrangement for damping parasitic vibrations in the vertical deflection coil of television sets.

The first requirement for television deflection coils is to ensure good image geometry. With this in mind, the manufacturing companies design their deflection coils, and at the same time, can only partially ensure that the deflection coil does not cause any disturbing rattles,

Currently, television sets have a widespread deflection assembly with a horizontal saddle coil and a vertical toroidal coil. When using such deflector assemblies, there is a damping rattling on the left side of the television screen (at the beginning of the line offset) from the edge of the screen to the center. If this ripple rings off after two to three periods, the viewer will see two to three black and white, vertical, vertical lines on the left side of the screen, which can be disturbing. With good deflection coils, this flare will fade after a period, and since the horizontal deflection is larger than the screen size, the flare is not visible.

It has been discovered that the aforementioned finger wide swells are caused by parasitic vibrations of the vertical toroidal deflection coil.

According to the invention, said inconvenience is eliminated by placing a low-speed coil at the edge of the half-coils of the vertical deflection coil of the toroidal system; their ends are connected to each other.

These low-speed coils are damped with real resistance, which can also be the wire resistance of the coils.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT The present invention will now be described in more detail with reference to the following drawing.

Figure 1 illustrates the magnetic fluxes generated by the vertical and horizontal deflection coils.

Figure 2 is a schematic diagram of an exemplary embodiment of the present invention.

The magnetic fluxes generated by the vertical and horizontal deflection coils are shown in Figure 1. In order to ensure good image geometry, the vertical deflection coil on the Tor toroidal iron is spaced long, so it can theoretically be divided into a V center roll and a V peripheral roll. AV, passes through the central part of the vertical deflection coil generating total magnetic flux Φν: Φνι Φν.- AV +, part of the outer coil flux _Φ ν is only part: Φν; partial flux passes through. The partial flux Φνι closes by exiting the extreme winding portion V ₂ . A portion of the horizontal deflection flux horizont _Η is coupled to the vertical deflection coil. Due to the positioning of the coils, the fluηι sub flux of the center coil threads is practically non-intersecting, so no coupling occurs. Threads of V ₃ extreme windings Φη; partial flux intersects, so that the horizontal and vertical deflector units are coupled.

The oldη generated by the downside of the row return pulse; partial flux transmits power to the V. extreme windings. A V; The inductance of the extreme winding portion, with the scattered capacitance of the threads, forms an oscillating circuit having a frequency of 300 kHz to 600 kHz, which draws energy from the horizontal deflection when the retraction pulse is run. and vibrates at the beginning of the line offset for 2-7 periods. The oscillation of the extreme winding portion V1 has an effect on the resulting magnetic field and consequently on the rate of deflection of the electron beam. Vibrating parasitic oscillations of the outer coil portions V at the beginning of the line offset, between 300 kHz and 600 kHz, produce a series of finger-wide vertical lines that appear on the left side of the screen towards the center of the image tube over 2 7 periods.

The parasitic vibration of the vertical deflection coil may cause further disturbance in addition to the rate modulation of the horizontal deflection. Such is the voltage induced on the left side of the screen by the slanting waveguide on the raster lines and by the scattered magnetic field of the parasitic vibrations in the video leads and the tubes leading to the tube electrodes, which cause light modulation on the left side of the screen.

Reference is now made to Figure 2. In many cases, disturbing vibrations for the TV viewer can be eliminated by damping the oscillation circuit formed by the vertical deflector in 20 V coils. Experiments have shown that neither the full deflection coil nor the damping of the half coils with resistance results in satisfactory results. This is because the rattling occurs at the extreme windings of V, and these are not tightly coupled to the full V half winding. A useful solution is the damping of the extreme windings V,. In all respects, it is satisfactory if a few threaded coupling coils Cs are applied to each end coil V _{2 of each} coil V, which is suitably damped by a real value R of resistance, which may also be the wire resistance of the damping coil. As a result of attenuation of the V, peripheral coils, the ripple of raster lines on the left side of the screen is eliminated simultaneously with the elimination of the horizontal deflection velocity modulation, and the disturbing light modulation caused by the magnetic field generated by the parasite vibrations of the vertical coil.

Claims (2)

1. A circuit arrangement for damping parasitic vibrations in the vertical deflection coil of a television set which appears at the start of a deflection and decays during a deflection, characterized in that it has at least an a small coil coupling coil (Cs) is provided. An embodiment of a circuit arrangement according to claim 1, characterized in that the low real resistance (R) of the damping device is constituted by the wiring of the damping coupling coil (Cs).