DE1905977A1 - Degaussing circuit - Google Patents

Description

Dipl.-Phys. Leo Thul
Patent attorney
Stuttgart - Feuerbach
Short street 8

G. Duddridge 7

INTERNATIONAL STANDARD ELECTRIC CORPORATION / 320 Park Avenue,

NEW YORK 22, N.Y., USA.

Degaussing circuit

The priority of application no. O6j5O6 / 68 of February 8, 1968 in the UK is claimed.

The invention relates to a circuit arrangement for demagnetization of magnetizing materials using a degaussing coil, as well as switching device and controllable semiconductors, in particular for color television tubes with shadow masks.

Magnetized material is mainly demagnetized by one generates in this an alternating magnetic field of such intensity that. the material becomes magnetically saturated, whereupon the magnetic field is progressively reduced to zero so that no remanent field remains in the material.

This degaussing cycle results from the control the current flowing through a degaussing coil and generating the desired decaying alternating magnetic field. ■ ·

Demagnetization circuits find a special application in color television receivers that have a color picture tube with directional Color separation (shadow mask tube), since the Color purity disadvantageous due to the presence in the vicinity of the receiver stray magnetic fields can be influenced (cf. e.g. DAS 1 269 162, 1 282 679, 1 247 380 and 1 280 915). '

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While it is possible to compensate for the earth's magnetic field for a specific location of the receiver, each one can renewed change of the position of the receiver to the earth field or any magnetic field generated in the vicinity of the receiver, such as- ' in turn, cause an adverse effect on the color purity of the recipient. . Vv

To eliminate such stray magnetic fields, ' Degaussing circuits used for the receiver; at ν which have a degaussing coil. in a suitable manner around the " Picture tube lies, and where resistors with positive and / -. or negative temperature coefficients can be used to reduce the to achieve the required degaussing cycle. Such a circuit is effective when the receiver is switched on.

In circuits of this type that have a degaussing cycle can only go through when the receiver is switched on, the Recipient with each subsequent deterioration in color purity (which can already be caused if, for example, in the vicinity, in the neighboring room or even in the neighboring house with a vacuum cleaner work is being carried out) must be switched off until the resistors with variable temperature coefficients have cooled down, whereupon the receiver has to be switched on again. (See e.g. Brit. Pat. Very. 1.048 452, I-.069 330, I.09I 659, USA Pat. Very. 2.921226, 2.962-622, 3.IO6 658, 3.240 985, 3.249 795, 3.317 781.

The invention is based on the object of a degaussing circuit indicate the one degaussing cycle delivers in every operating state of the receiver without its operation having to be interrupted. This object is achieved in that the degaussing coil in Series is connected with two parallel, oppositely polarized holder arrangements, of which at least one in one, nem conductive state that initiates a degaussing cycle can be controlled. In a further development of the invention, the controllable switch arrangement be a thyristor.

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Embodiments of the invention are shown in the drawing and are described in more detail below. Show it

Fig.l in schematic form a circuit diagram of an inventive Degaussing circuit in which the power supply from a direct current source.

Fig.2 shows a circuit in which the power supply is off an AC power source.

FIG. 5 shows a representation of current profiles to explain the mode of operation of the circuit shown in FIG.

The demagnetization circuit shown in Fig.l has two Terminals 1 and 2 for connection to the corresponding negative and positive poles of a DC power source. Using the circuit in a color television receiver can be the current source from a suitable, DC voltage carrying circuit point of the receiver and ground or chassis. A resistor 3 is connected to terminal 1. A capacitor 4 is connected between the end of the resistor 3 facing away from terminal 1 and terminal 2. In addition, the terminal 1 is facing away At the end of the resistor 3 a kind of switch 5 * e.g. electronic Switch and a degaussing coil 6 connected. at Using the circuit in a color television receiver, the degaussing coil 6 is appropriately attached to the shadow mask the picture tube arranged. The switch 5 consists of one Pair of parallel-connected, oppositely polarized switch arrangements 7 and 8, each conducting in one direction may be a thyristor and switch 8 may be a diode, e.g. Silicon or selenium diode,

When the receiver is connected to the power supply, the capacitor 4 is first charged to the voltage level of the terminal 1 via the resistor 3 with a long time constant, the switch 5 still being open. With a supply voltage of 30 volts, a typical suitable value for the resistor 3 is 30 k -CX .. If the switch 5 is closed, the degaussing cycle is initiated. The closing of the switch 5 can be done in such a way that a suitable

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Voltage is applied to the control electrode (gate) of the thyristor 7 and this control pulse is maintained for the duration of the degaussing cycle ¹ . A typical value for the duration is, for example, in the order of one second or less.

If the switch 5 is closed, the capacitor 4 and the demagnetizing coil 6 form an LC oscillation circuit. L and C are chosen so that the circuit oscillates from 500 Hz to 2 kHz. The values are chosen taking into account the resistance component of the degaussing coil so that the voltage amplitude of the oscillation drops to 1% of the initial value after one hundred to five hundred oscillations.

) For the initial peak current, 500 ampere-turns are for the Demagnetizing coil required. This number is used for the Demagnetization chosen.

The current flowing through the resistor J> stream must be less als'der holding current of the thyristor 7, so that the thyristor 7 at the _end: the degauss is turned off.

Another degaussing cycle can begin after the capacitor 4 has been recharged.

Instead of the diode 8, a second thyristor or a single arrangement can also be used, which consists of one in two directions controllable thyristor can exist. Λ.

The circuit shown in Pig. 2 has terminals 11 and 12 for connection to an AC power source. Is this circuit built into a color television receiver, this power source can from the main power supply and then a Have a frequency of e.g. 60 Hz. Between terminals II and 12 is a degaussing coil 13 and one in one direction controllable thyristor 14 switched (or a pair of thyristors / with opposite polarity connected in parallel). With "a color television receiver, it would be appropriately placed on the shadow mask

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attached to the picture tube. The control electrode 15 of the two-way controllable thyristor 14 can be controlled by a suitable circuit 16 which supplies the control electrode 15 with a control pulse which is phase / time-dependent on the frequency of the supply current source. Therefore, if a switch 17 is closed, the current flows through the degaussing coil IJ and is converted into the successive half-waves shown in Pig. 3. The current drops to a minimum at the end of demagnetization cycle ¹ . If the switch 17 is closed again, the cycle can be repeated.

A resistor 1.8 is shown in dashed lines in FIG. This is supposed to mean that this resistance is a particular resistance which is the resistance component of the degaussing coil. The resistance value is determined by the maximum current required, which is an initial number of ampere turns of 500 must correspond.

The known degaussing circuits with resistors of variable temperature coefficients require a degaussing coil from about 500 to 1000 turns in order to generate 500 ampere-turns with the low magnitude of the initial current.

According to the circuit of FIG. 2, due to the reduction in the current flow, it is possible to allow an initial current of 50 amperes to flow through a thyristor, which is intended for a nominal amount / of y amperes, since this current level only exists at the beginning. Because of this high amperage, it is possible to reduce the number of turns of the degaussing coil from a few hundred to about ten. This capability, of course, results in a significant and useful reduction in the cost of the degaussing coil.

I Bl. Drawing. (3 Fig.) 4 claims

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Claims (4)

Claims Circuit arrangement for the demagnetization of magnetized materials, which has a demagnetization coil, as well as switching device and controllable semiconductors, in particular for color television tubes with shadow mask, characterized in that the demagnetization coil (6) is connected in series with two parallel-connected, oppositely polarized switch assemblies (7 * 8), at least one of which is controllable in a conductive state that initiates a degaussing cycle. _; 2. Circuit arrangement according to claim 1, d a d u r c h g e indicates, that the controllable switch arrangement is a thyristor. J5. Circuit arrangement according to Claim 1 or 2, characterized characterized in that the power supply source is a direct current source which has a capacitor (4) connected in parallel to the series circuit arrangement (6,7 * 8) charge a certain potential, which is via an oscillating circuit is discharged, which is in the conductive state of the switch arrangement is formed by the capacitor (4) and the degaussing coil (6). 4. Circuit arrangement according to claim 2, characterized in that the Stromversorguhgsquelle is an alternating current source and both switch arrangements are thyristors, which 'from a control circuit in one certain phase / time relationship to the alternating voltage, corresponding to ' the initiation of the degaussing cycleV alternately can be controlled into a conductive state. ZEW / P GrPf (VI) str-krä.
4.2.1969 909837/1005