DE972129C - Circuit arrangement for operating electron beam tubes with electromagnetic beam concentration - Google Patents

Description

There is often a need to use cathode ray tubes when the supply voltage fluctuates to operate. When the electron beam is focused with the help of electromagnetic electron lenses then considerable difficulties arise when the supply voltage fluctuates. If namely the anode voltage fluctuates proportionally with the supply voltage, the coil current should change proportionally to the square root of the voltage fluctuation to increase the concentration of the To leave the electron beam unchanged. The circuits previously used to operate Cathode ray tubes therefore usually have the disadvantage that when the supply voltage fluctuates the sharpness of the electron beam undesirably deteriorates.

A known arrangement for operating cathode ray tubes with magnetic beam concentration avoids the aforementioned deficiency in that the current from the possibly ao fluctuating voltage source only partially over the coil of the electromagnetic lens, but on the other hand a voltage stabilizing one Gas discharge tube is performed. It is therefore necessary to add an additional «5 Current to be taken specifically to compensate for voltage fluctuations. But this must be in are perceived as a disadvantage in many cases,

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especially when the voltage source has a relatively large focusing current should deliver.

In another already known arrangement for compensating for the fluctuations in the supply voltage becomes a resistor combination with a non-linear voltage characteristic active circuit containing one or two electron tubes is used. Such a circuit ίο, however, if a larger continuous current is to flow through the concentrating coil, use larger, expensive tubes are required, which also require a special heating power and consequently a relatively high heating of the entire device, which is undesirable in many cases cause.

The aim of the present invention is to provide an arrangement by means of which the supply voltage fluctuations be compensated while avoiding the deficiencies that are inherent in the known circuits. It was here Particular importance is attached to the fact that an additional compensation current is not required and that, furthermore, the arrangement is characterized by particular simplicity combined with less Susceptibility to failure and low construction and operating costs.

In a circuit arrangement for operating cathode ray tubes with electromagnetic beam concentration, in which the concentration field in the vicinity of the operating point is composed essentially of a constant component and one proportional to the supply voltage and in which means are provided so that when the supply voltage changes the ^ -fold the current through the concentrating coil practically changes only by the ψχ -fold, therefore, according to the invention, these means are formed by a resistor-resistor combination which is connected in series with the ohmic resistance R _{s of} the concentrating coil and which consists of a hydrogen ferric resistance EW and a parallel resistor R ₁ .

It is advisable to adapt the size of the parallel resistance Rp and the coil resistance R _s to the characteristics of the ferrous hydrogen resistance used in such a way that the formula is fulfilled in the vicinity of the operating point:

R _s + R _?

Here, / _s denotes the coil current, U _gcs the voltage drop across the resistor combination, R _p and R _s denote the magnitude of the parallel resistance R _n and the coil resistance R _s , while I ₀ denotes the section on the / axis indicated in FIG. which arises when one draws a tangent to the current-voltage curve of the ferrous hydrogen resistance at the working point in the current-voltage diagram of the ferrous hydrogen resistance. The current / _s through the concentrating coil is made up of the constant component in the linear range of the ferric hydrogen resistance

and the component proportional to the supply voltage

R _s + R _v

together.

In the following the invention is explained with reference to figures. It shows

Fig. Ι a basic circuit diagram of the resistor combination,

Fig. 2 shows the current-voltage diagram of a ferric hydrogen resistor.

Fig. Ι shows the circuit arrangement of an embodiment of the invention, wherein in the circuit of the concentrating coil S, a ferrous hydrogen resistor EW is switched on, which has a characteristic according to FIG. The currents, voltages and resistances shown in the figure have the following values:

U = 100 V
J ₀ = 60 mA R ₁ , - iöooOhm / _s = 85 mA R _s = 700 Ohm I _p = 25 mA

When the supply voltage U z. B. increased by 10% from 100 to 110 volts, the coil current should increase for 1 _s to 89.3 mA in order to leave the concentration of the electron beam unchanged. The resistance values assumed above resulted in a coil current of 89.5 mA. It turns out that the actual value of 89.5 mA corresponds practically with the nominal value 89.3 mA and therefore the arrangement solves the task with completely sufficient accuracy, since a deviation of 1 to 2% in the coil current is normally not yet possible makes disturbing noticeable.

Fig. 2 shows the current-voltage diagram of the ferrous hydrogen resistance used. The working range between 20 and 60 volts is assumed to be straight, and the tangent to this working range cuts off the value I ₀ = 60 mA on the ordinate.

In order to be able to adapt the field of the Koiizentrierspule to the changed conditions (as a result of the unavoidable tube tolerances) in certain cases, for example when changing a cathode ray tube, it is advantageous to provide an adjustable control device. For this purpose, either the resistance R _p or the resulting coil resistance R _{s can be used} within small limits, e.g. B. +5%, be variable. The easiest way to make the latter changeable is to have a parallel resistor, which can be changed within small limits, parallel to the concentrating coil.

.stand sets. In the above formula, the resistance resulting from the ohmic resistance of the concentrating coil and the ohmic resistance of this auxiliary resistor is then to be inserted for R _3.

Claims (4)

PATENT CLAIMS: 1. Circuit arrangement for the operation of cathode ray tubes with electromagnetic beam concentration, in which, with fluctuating supply voltage, the concentration field in the vicinity of the operating point is composed essentially of a constant component and a component proportional to the supply voltage and in which means are provided so that when the supply voltage changes the x-fold the current through the concentrating coil practically only changes by the y _x -fold, characterized in that these means are formed by a resistor combination which is connected in series with the ohmic resistance (R ₈ ) of the concentrating coil and which is off a ferrous hydrogen resistor (EJV) and a parallel resistor (R ₁ ,) . 2. Arrangement according to claim i, characterized in that the size of the resistors (Rp or R ₈ ) are adapted to the characteristics of the ferrous hydrogen resistance used in such a way that the following equation is approximately fulfilled: S ' wherein / _s the Spuleustrom, U _ges the voltage drop across the resistor combination, R _1, and R _8, the size of the parallel resistance R _1, and the coil resistance R _8, during / "refers to the portion shown in Fig. 2 on the / -axis , which arises when one draws a tangent to the current-voltage curve of the hydrogen ferric resistance at the operating point in the current-voltage diagram of the hydrogen ferric resistance, means. 3. Arrangement according to claim χ "and 2, characterized characterized in that an adjustable resistor is placed parallel to the concentrating coil is. 4. Arrangement according to claim 1 to 3, characterized in that the resistor R _{11 is} variable. Considered publications:
U.S. Patent Nos. 22: 9194, 2291682. For this purpose, 1 sheet of drawings O »» 522/36 5.5 »