DE1079199B - Portable lamp with a gas discharge lamp - Google Patents

Description

GERMAN

The invention relates to a portable lamp with a gas discharge lamp which is connected to the high-voltage winding a transformer is connected, the low-voltage winding via an intermittent transistor vibration generator from a battery that is made to swing up and down low voltage, according to patent 1,053,102.

The intermittent operation of the oscillation-generating transistor arrangement, which both is applicable to the generation of continuous and flashing light, brings compared to the well-known blocking oscillator or chopper way of working with breaker continuous working the amazing Advantage that there is a much higher light output or better utilization of the Can achieve battery capacity.

According to the main patent, the automatic breaker is a transistor vibrator with a oscillation frequency far above the usual mains frequency and becomes so intermittent Swinging up and down brought that the time interval between two pulse trains large against the duration is a pulse train.

The further development of this portable lamp with a gas discharge lamp has now resulted in that a particularly good utilization of the battery capacity can be achieved if according to the invention the duration of the impulses is one to five hundredths of the time interval between two impulses in the oscillation pulse sequence given by the intermittent operation of the transistor oscillator.

The “recovery times” of the battery are therefore 20 to 100 times the absolute duration of an individual Vibration pulse. During these rest periods, the battery voltage rises again, so that when Onset of the next brief impulse, practically the full "open circuit voltage" of the battery is restored is reached. As practical measurements have shown, this results in an extraordinary degree of protection the battery.

In a preferred embodiment of the lamp according to the invention, the pulse repetition frequency is 30 to 40Hz. If you choose a fluorescent tube with a long afterglow period, you can get in achieve completely uniform light.

If the power supply of the lamp comes from an arrangement in which a transistor with a negative resistance characteristic works in an unstable tilted position, the circuit according to a further embodiment of the lamp according to the invention is advantageously designed so that the tilting process is carried out by a control electrode of the portable lamp
with a gas discharge lamp

Addendum to patent 1,053,102

Applicant:

Dr. Oskar Vierling,

Ebermannstadt via Forchheim,

Pretzfeider Str. 174

Dr. Oskar Vierling, Ebermannstadt via Forchheim,
has been named as the inventor

Transistor connected capacitor triggered and thereby the ignition voltage of the gas discharge tube is achieved.

In a further embodiment of the invention The luminaire uses an autotransformer with three winding parts connected in series, of which the first as feedback in the control circuit of the transistor oscillator acts and the second is traversed by the working current of the transistor oscillator is, while the third together with the first and second the voltage for the operation of the gas discharge tube supplies.

In the drawing, the invention is illustrated by way of example; show it

FIGS. 1 to 3 each show a circuit example of the intermittent oscillation and oscillation Transistor oscillator,

4 shows a schematic illustration of the gas discharge lamp.

Switching transistors are used in FIGS. 1 and 2, the two circuits being approximately the same bring the same results. 1 is a resistance of around 10 ohms, 2 is a capacitor of 1 μΩ, 3 an autotransformer with a ferrite core that transforms very high. The capacitor 2 charges itself through the transistor up to its um-jump point. The discharge of the capacitor then sets in via the transistor 4 and induces a high voltage peak in the transformer 3. About the high-resistance winding of 3, this voltage peak is fed to the fluorescent tube.

S09176W239

After the fluorescent tube has been ignited, the voltage in the transformer breaks down to the operating voltage together. The transformer is so dimensioned that it simultaneously has the effect of Otherwise it brings scatter transformers present in fluorescent tubes. To with smaller tensions To be able to work, the switching transistor must not be too high-resistance. The transformer can be installed in the collector or emitter circuit and does not need to be designed as an autotransformer.

The fluorescent tube used must have a considerable length because of the good efficiency. In order to be able to accommodate it in a small lamp, it is used as a filament or as. Spiral wound. In this case, the helix is designed contrary to the previously usual arrangement according to FIG. 4, so that there are no sharp kinks at the feed ends. The connections are preferably provided as plug connections, but can also be designed as screw connections. The use of the helical shape results in a strong concentration in a small space. The use of the spiral shape results in a strong luminosity, which is mainly directed in two directions. In FIG. 3, a feedback circuit with an autotransformer is now shown, which is also particularly well suited for the above-mentioned purpose. The resistance? is small or a few hundred ohms depending on the number of turns of the winding 6ß. If the resistor 7 is small, the capacitor 8 can be absent. The resistor 9 is 10 ohms or more, depending on the requirements of the transistor design, and is used for reliable oscillation. The windings 6ß and 6 b are so dimensioned that the power conversion is carried out here, and the transistor 10 receives only a small voltage and is not heavily loaded. The transformer can also be connected as a normal transformer, in which case the capacitor 8 is required in parallel with resistor.7. The arrangement of Figure 3 worked well with a battery voltage of 4.5 volts, drawing a current of 85 mA. With the existing fluorescent tube, a calm light at 35 Hz was achieved. The pulse duration was 3% of the pulse repetition time. The pulse voltage is 760 V and decreased to 550 V after ignition during operation. The pulse power was 3.2 W, measured on 100kOhm. If the pulse frequency is set to very low values, then arises in place

from continuous light a flickering light that is useful for many purposes.

Claims (4)

Patent claims: 1. Portable lamp with a gas discharge lamp connected to the high-voltage winding of a Transformer is connected, its low-voltage winding via an intermittent transistor oscillators from a battery that are made to oscillate up and down Voltage is fed, according to patent 1 053 102, characterized in that the duration of the pulses one to five hundredths of the time interval between two impulses in the intermittent one Working of the transistor oscillator given oscillation pulse sequence is. 2. Lamp according to claim 1, characterized in that the pulse repetition frequency 30 to 40Hz. 3. Luminaire according to claim 1, wherein the power supply takes place from an arrangement in which a transistor with a negative resistance characteristic works in an unstable tilted position, as a result characterized in that the flip-over process is connected to a control electrode of the transistor The capacitor is triggered and the ignition voltage of the gas discharge tube is reached will. 4. Lamp according to claim 1, characterized by an autotransformer with three series-connected Winding parts, of which the first acts as feedback in the control circuit of the transistor oscillator and the second is traversed by the operating current of the transistor oscillator, while the third, together with the first and second, the voltage for operating the gas discharge tube supplies. Considered publications:
German Patent No. 633,793;
Austrian Patent No. 185 405;
"Radio-electronics", December 1955, pp. 61/62;
"Radio und Fernsehen", 1955, issue 23, p. 723;
"Funkschau", 1955, issue 14, p. 304;
"Radio-Mentor", 1956, issue 1, p. 10;
"Wireless-World", December 1955, pp. 582 to 586; "FTZ", 1954, issue 11, pp. 581 to 588. 1 sheet of drawings © SOi 7 «9/239 3.60