NL9101970A - STABILIZATION SWITCH FOR TL TUBES. - Google Patents

Description

BACKGROUND OF THE INVENTION

The present invention relates to stabilization circuitry for fluorescent tubes and more particularly to a stabilization circuit for fluorescent tubes which allows a defective fluorescent tube to still function and which prevents the fluorescent tube from flickering during switching on. .

Fluorescent tubes use a starter stabilizer to heat the tungsten filaments present at the two ends of a fluorescent tube, thereby activating the mercury vapor contained in the tube by means of an electro- flow from the cathode so that the fluorescent material applied to the inside of the tube emits light. In this embodiment, after a certain period of use, the starter may rapidly recharge, causing the tungsten filaments at the two ends of a fluorescent tube to either be constantly heated or extinguished, resulting in damage to the fluorescent layer. In these circumstances it is necessary to replace the starter and the fluorescent tube. Furthermore, it often happens that a fluorescent tube flickers when switched on.

Summary of the invention

The said conditions have led to the realization of the present invention. The object of the present invention is to provide a stabilization circuit for fluorescent tubes, with which a fluorescent tube can be directly switched on without the lamp flickering.

Furthermore, it is an object of the present invention to provide a stabilization circuit for fluorescent tubes, which makes the use of a starter superfluous and which allows a fluorescent tube to continue to function when the tungsten filaments are burned out or damaged.

In order to achieve the above objectives, a fluorescent tube stabilization circuit of the present invention includes two transistor switches, which alternately switch on and off to drive two charging circuits, providing a pulse voltage twice as high as the supply voltage for charging of a fluorescent tube so that it emits light.

A resonant circuit is provided to produce a damped oscillation, which ensures that the output voltage to the fluorescent tube is reduced to a nominal value immediately after the fluorescent tube is turned on.

Brief description of the drawing

An embodiment of the present invention will be described in more detail below with reference to the accompanying drawing of the figure, which shows a circuit diagram according to the present invention.

Detailed description of the preferred embodiment

The figure shows a stabilization circuit for fluorescent tubes according to the present invention, the stabilization circuit consisting of transistors GB1, GB2, capacitors C1, C2, resistors RBI, RB2, a choke L and a fluorescent tube R. The entire circuit contains a total of five terminals, terminals 1 and 2 being inputs for the alternating current. The positive end of the capacitor C1 is coupled to the terminal 1. The resistor RB1 is connected between the terminal 1 and the base of the transistor GB1. The transmitter of the transistor GB2, the positive end of the capacitor C2, one end of the choke L and the positive end of the resistor RB2 are coupled to the terminal 2, respectively. The other end of the resistor RB2 is coupled to the base of the transistor GB2. The receiver of the transistor GB1, the negative end of the capacitor C2 and the other end of the fluorescent tube R are coupled to the terminal 4, respectively. The combined circuitry of the fluorescent tube stabilizing circuit forms two charge circuits and a resonant circuit, the operation of which is explained below. When alternating current is applied between terminals 1 and 2 and when terminal 1 is positive and terminal 2 is negative, transistor GB1 is immediately turned on and transistor 2 is turned off, i.e. transistors GB1 and GB2 compensate for each other. The terminals 1, 3 and 2 therefore form a charging circuit for charging the capacitor C1 to the voltage V12 at the terminals 1 and 2. If the terminal 2 is negative and the terminal 1 is positive, when applying alternating current the transistor GB1 becomes off and transistor GB2 turned on; terminals 2, 4 and 3 form a circuit which allows the voltage on capacitor C1 and voltage V12 of the current source to be combined to charge capacitor C2. Therefore, a transition voltage twice as high as the voltage of the current source can be realized at the terminals 2 and 4; this transition voltage is a pulse voltage which is discharged to the choke L and the fluorescent tube R in order to immediately switch on the fluorescent tube R. At the same time, a discharge current is passed through the choke L to cause the choke L to produce an impedance which causes the current to lag. Since the capacitor C2, the choke L and the fluorescent tube R are connected in parallel so that they form a resonant circuit, the capacitor C2 generates a damped oscillation during discharge, so that the fluorescent tube will no longer flicker when it is in order to produce light is charged. Since the present invention makes the use of tungsten filament unnecessary and a fluorescent tube is started by means of a transitional pulse voltage before a normal voltage is supplied, a broken fluorescent tube can still be used even when the tungsten filament of the pipe is burned or damaged.

Claims (1)

Stabilizing circuit for fluorescent tubes, provided with two transistors, two capacitors, two resistors, a choke and a fluorescent tube, the transistors being switched on and off alternately, characterized in that when the first transistor is switched on and the second transistor is turned off, a first charging circuit is formed for charging the first capacitor until the voltage of the current source is reached; when the first transistor is turned off and the second transistor is turned on, a second charging circuit is formed for charging the second capacitor until the voltage of the current source plus the terminal voltage at the first capacitor is reached, in order to apply a pulse terminal voltage to the second capacitor positions twice as high as the supply voltage, as a result of which the impulse clamp voltage can immediately ignite the fluorescent tube via the choke; the capacitors, the choke and the fluorescent tube form a resonant circuit, which creates a damped oscillation, which prevents the fluorescent tube from flickering when switched on; and that the choke causes the current to flow through the fluorescent tube to reduce the voltage on the fluorescent tube to a nominal value after the fluorescent tube has been turned on.