DE1438080A1 - Circuit arrangement with a gas discharge tube - Google Patents

Description

Dr. P.

l'iitrntiinwalt

0.PHIlIP ₈ -GLOELLAMPENFABRIEKa. - ffl.J7.279

File: PH 17.279

Registration from ι ^ _- September 1962

Circuit arrangement with a gas discharge tube

The invention relates to circuit arrangements with a gas discharge tube.

Ea is well known for obtaining a stabilized Use voltage gas discharge tubes. The operating voltage of suitably selected gas discharge tubes, e.g. neon tubes, is namely only slightly dependent on the current I through the tube. However, experiments have indicated that the running voltage V is only approximately constant. Even carefully constructed tubes still show a non-negligible differential resistance -jy up.

The invention aims to obviate this disadvantage, and aie is characterized by the fact that a light-sensitive resistor parallel to or in line with the one containing the gas discharge tube Is connected in a circuit, so that a stabilized voltage occurs on the light-sensitive resistor or on the series connection of the gas discharge tube and the light-sensitive resistor

The invention is based on the knowledge that the from ionized gases in a gas discharge tube, the amount of light emitted with the current through the tube increases and especially when appropriate Chosen construction and gas filling increases almost linearly with the current. This dependence of the amount of light emitted on the i ^ trom is exploited by the fact that the light falls on a light-sensitive Lent resistance drops, which is connected in parallel with or in series with the circuit containing the gas discharge tube. A photosensitive resistor, e.g. a cadmium sulphide resistor As is known, has the property that its worth from the striking Depends on the amount of light and this value increases with increasing

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with decreasing amount of light and with decreasing amount of light.

When a gas discharge tube is connected in parallel with a light-sensitive resistor, the result is that a such power distribution across the two components of the parallel connection it is set so that the voltage across the parallel connection remains almost constant. This parallel connection is used with Tension control of the stabilizing element used. Under Voltage control is to be understood as the internal resistance of the the source of supply in question is small in relation to its load resistance. '

When holding a gas discharge tube with a photosensitive resistor has the mentioned property for The result is that the voltage across the gas discharge tube is not constant, but the voltage across the series connection or across the light-sensitive V7ider3tand is almost constant. This series connection becomes a stabilization element when current is controlled used. Current control means that the internal resistance of the relevant supply source is high in relation to is on their load resistance.

The invention is explained in more detail below with reference to a few figures.

Fig. 1 shows a basic circuit diagram of the voltage stabilizer according to the invention with a parallel connection of a gas discharge tube and a light-sensitive Y / ideratandes. . '

Fig. 2 shows the change in voltage across the discharge tube without a light-sensitive resistor or via the parallel connection of a gas discharge tube and a light-sensitive one V / lderstandes.

Fig. 3 shows an embodiment of a voltage stabilizer naoh the ΕγΤ & Α84 $ '^ * ⁹⁶ BADORIGINAL

PH.17.279

? ig. 4 finally shows a basic circuit diagram of the Spanmuigsetabllisators according to the invention with a series connection a gas discharge tube and a photosensitive resistor

In the basic circuit diagram of Pie · 1, there are two terminals 1 and 2 a variable voltage U, e.g. a not good. Smoothed alternating voltage or one afflicted with hum interference DC voltage, connected. This tension is over a Resistor "5 is applied to a parallel connection of a neon tube 3, for example of the 85 A2 type, and a cadraium sulphide resistor 4. Bs it turns out that the voltage V is above this combination is almost constant on a large current spread, which is shown in Fig. will be shown. The curve 10 in this figure shows the measured deviation .DELTA.V of the operating voltage of the neon tube 3 at a current I. in relation to the running voltage at a very low current. The curve 20 shows the measured deviation AV over the parallel connection of the neon tube 3 and the cadmium sulphide resistor 4 ale Function of the total current flowing through this parallel connection Ι «

If necessary, a resistor 18 can be kept in series with the gas discharge tube 3, e.g. if otherwise as a result of the Difference between the voltage U and the operating voltage of the tube through which an excessive current would flow through the latter.

In the circuit diagram of FIG. 3, the parallel connection is the Neon tube 3 of the so-called Stabilovolt type and the cadmium sulphide resistor 4 in such a way with the base of a transistor large loss measurement, e.g. of the type ASZ 16, connected that they both the outer collector base circle and the outer ^ n

Bmitter base circuit of the transistor is like one. iei a practical

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PH.17.279 '' - 4 -

In another embodiment, the variable direct voltage U _{1 was} 300 V and the variable reference voltage U «320 V. The resistor 8 had a value of approximately 4000.0. . The voltage across the parallel circuit 3 »4 was again almost constant (about 260 V) as was the voltage across the load 7 in the emitter circuit (due to the transient properties).

4, the variable current source 15 sends a current I through the series connection of the gas discharge tube 3 and the light-sensitive resistors o 4. Depending on the way in which the value of the Y / resistor 4 changes with the current I either a stabilized voltage V is taken from the series circuit or a stabilized voltage V is taken from the resistor 4. The amount of light generated by the tube 3 increases as the atrom I and, as a result, the voltage drop across the tube increase. Therefore the resistance 4 decreases and with a suitably selected dimensioning it can be achieved that either the product of the resistance 4 and the current I becomes constant, or this product decreases to such an extent that ee compensates for the increasing voltage drop across the tube 3.

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Claims (3)

uhm NEW CLAIMS! Voltage stabilization circuit with an electric light source and a photosensitive element emitted by the light source is controlled, characterized in that the light source is an eleaent with a voltage stabilization characteristic, e.g. a gas discharge tube, It is used that the load is connected in parallel to a circuit containing this light source in such a way that the current changes by the light source according to the load current changes, and that the photosensitive element is in series with or parallel to the Light source is switched so that its change in resistance brings about a correction of the voltage of the circuit mentioned. 2. Voltage stabilization circuit according to claim 1, characterized characterized that the stabilized voltage of the parallel connection the light-sensitive element and the light source or the parallel connection of the photosensitive element and the series connection of a resistor and the light source is taken. 3. voltage stabilization circuit according to claim * 1, characterized characterized duss the stabilized voltage of the current source connected series connection of the light source and the light-sensitive Element is removed. BATH 009820/0496 Blank page