DE29510587U1 - Fluorescent lighting circuit - Google Patents

Description

IFile:ANM\CH4701B2] 26.06.1995 _## „ ^ „„

FLUORESCENT LAMP INGNITION CIRCLHf ».,* 5 &iacgr;&iacgr; I I &iacgr;&id;%·
Zon-Fon CHENG I \l J * &iacgr; ! "* * **· !

Description
Fluorescent lamp ignition circuit

The present invention relates to fluorescent lamp ignition circuits, and in particular to such a fluorescent lamp ignition circuit which maintains operation of the fluorescent lamp in the event of defective electrodes.

Conventional fluorescent lamps are usually equipped with an ignition circuit consisting of a ballast and a starter for ignition control. The ignition circuit only works effectively if the electrodes are maintained. If the starter, ballast or any of the electrodes of the fluorescent lamp are damaged, the fluorescent lamp becomes unusable. Furthermore, the starter ages quickly with long-term use, which is why the fluorescent lamp flickers during ignition.

The present invention has been created to provide a fluorescent lamp ignition circuit which eliminates the above-mentioned disadvantages. It is an object of the present invention to provide a fluorescent lamp ignition circuit which eliminates the use of a starter. It is another object of the present invention to provide a fluorescent lamp ignition circuit which maintains the operation of the fluorescent lamp when the electrodes of the fluorescent lamp are damaged. It is another object of the present invention to provide a fluorescent lamp ignition circuit which reliably turns on the fluorescent lamp without causing the fluorescent lamp to flicker.

lFile:ANM\CH4701 B2 ] 26.06.1995 FLUORESCENT LAMP INGNiTiON CIRCUff Zon-Fon CHENG J

TTW »·

According to the present invention, the fluorescent lamp ignition circuit comprises a fluorescent lamp having two opposing electrodes connected in series to a ballast, a capacitor connected in parallel to the fluorescent lamp via an ignition switch, and a control circuit connected between the ignition switch and an AC power source for automatically controlling on/off the ignition switch. A relay, thyristor or thermal switch can be used as the ignition switch.

Further details and advantageous features emerge from the following description with reference to the attached drawing.

It shows:

Fig. 1 shows a fluorescent lamp ignition circuit according to the present invention;

Fig. 2 shows a fluorescent lamp ignition circuit according to the prior art;

Fig. 3 the structure of a regular fluorescent lamp;

Fig. 4 is a schematic drawing of the position of the electrode at one end of a fluorescent lamp;

Fig. 5 shows an open circuit of the electrode of the fluorescent lamp ignition circuit according to the present invention;

Fig. 6 is a control timing diagram according to the present invention;

Fig. 7 is an applied circuit diagram of the fluorescent lamp lighting circuit according to the present invention;

.Sötte·-2-:..

[Fi)e:ANM\CH4701 B2 ] 26.05.1995 FLUORESCENT LAMP !NGNITION CIRCUtf Zon-Fon CHENG t

·♦

Fig. 8 is a circuit diagram of an alternative form of the present invention;

Fig. 9 is a circuit diagram of another alternative form of the present invention;

Fig. 10 is a circuit diagram of another alternative form of the present invention;

Fig. 11 is a circuit diagram of another alternative form of the present invention;

Fig. 12 is a circuit diagram of another alternative form

of the present invention; and
15

Fig. 13 is a circuit diagram of another alternative form of the present invention.

Referring to Fig. 1, the two electrodes at the two opposite ends of the fluorescent lamp LAMP are connected in a short circuit loop and then connected in series with the fluorescent ballast L, an ignition switch SW and a capacitor C are connected in parallel with the fluorescent lamp LAMP, and a power switch AC SW is connected in series with the short circuit loop opposite the fluorescent ballast L. The present invention maintains the electrodes of the fluorescent lamp for preheating and uses a surge voltage to momentarily operate the electrodes so that it causes them to emit electrons from the cathode which impinge on mercury vapor in the lamp tube so that the mercury vapor provides ultraviolet light which causes the phosphor coated on the inner surface of the lamp tube to emit visible light.

lFlle:ANM\CH4701 B2 ] 26.06.1995 FLUORESCENT LAMP INGNlTlON CIRCLÜT Zon-Fon CHENG &iacgr;

Fig. 3 shows a regular fluorescent lamp, in which the reference numeral 1 denotes the glass tubes; the reference numeral 2 denotes the phosphor material; the reference numeral 3 denotes the mercury vapor; the reference numeral 4 denotes argon; the reference numeral 5 denotes the electrode; the reference numeral 6 denotes the base; the reference numeral 7 denotes the tube pins; the reference numeral 8 denotes the exhaust tube; the reference numeral 9 denotes the pinch.

Referring to Fig. 4, since the electrodes are short-circuited, they are in operation and emit electrons even if one of the points A, B or C is switched to an open-circuit state. Therefore, the lamp can still be switched on even if the electrode circuit 10 is open (see Fig. 5).

Fig. 6 shows the control timing chart according to the present invention. In the X stage, the electrodes are heated; in the Y stage, the switch is turned off and the fluorescent lamp is turned on instantly; in the Z stage, the fluorescent lamp is reliably kept in the on state. When the fluorescent lamp is turned on, it does not flicker. Even if the electrodes are defective, the fluorescent lamp can still be turned on. The capacity of the capacitor must be large enough to withstand the surge of an AC power source. When the power switch AC SW is turned on, the ignition switch SW is turned on immediately after a short delay time. When the ignition switch SW is turned on, the capacitor C and the ballast loop L generate a resonance, causing the capacitor C to output a resonance signal to trigger the electrodes to emit electrons and thus turn on the fluorescent lamp.

lFile:ANM\CH4701B2] 26.06.1995 FLUORESCENT LAMP IGNITION CIRCUIT Zon-Fon CHENG ·

Figures 7 and 8 show two applied circuits according to the present invention. The fluorescent lamp LAMP of the circuit shown in Figure 7 has two tube pins at each end. The fluorescent lamp LAMP of the circuit shown in Figure 8 has only one tube pin at each end.

Fig. 9 shows another alternative form of fluorescent lamp ignition circuit, in which a relay 12 is used to serve as the ignition switch, and a control circuit 11 is connected in parallel to the two opposite ends of an AC power source so as to control the relay 12. When the AC power source is turned on, the control circuit 11 switches the relay 12 on/off after a time delay of a predetermined length.

Fig. 10 shows another alternative form of fluorescent lamp ignition circuit, in which the thyristor Tr is used to serve as the ignition switch and is controlled by the control circuit 11. When the AC power source is turned on, the control circuit 11 turns on the thyristor after a time delay of a predetermined length.

Fig. 11 shows another alternative form of fluorescent lamp ignition circuit, in which the control circuit 11, the thyristor Tr and the capacitor C are installed inside a housing 13.

This arrangement facilitates maintenance work.

Fig. 12 shows another alternative form of fluorescent lamp ignition circuit, in which the control circuit 11, the relay 12 and the capacitor C are installed inside a housing 13.

\Fite-.ANM\CH4701 B2 ] 26.06.1995 FLUORESCENT LAMP iNGNITION CIRCLE? Zon-Fon CHENG &Idigr;

Fig. 13 shows another alternative form of fluorescent lamp lighting circuit, in which a thermal switch PTC is connected in series with the capacitor C. When the AC source is switched on, the thermal switch PTC is switched on to charge the capacitor C, so that the fluorescent lamp LAMP is switched on by surge voltage when the thermal switch PTC is switched off.

The invention provides a fluorescent lamp ignition circuit with a fluorescent lamp having two opposing electrodes connected in series to a ballast, a capacitor connected in parallel to the fluorescent lamp via an ignition switch, and a control circuit connected between the ignition switch and an AC power source for automatically controlling the ignition switch on/off.

': :I*setfe **6:-:.&Ggr;

Claims (6)

Expectations 1. Fluorescent lamp ignition circuit comprising a fluorescent lamp having two opposing electrodes connected in series to a ballast, a capacitor connected in parallel to a fluorescent lamp via the ignition switch, and a control circuit connected between the ignition switch and an AC power source for automatically controlling the ignition switch on/off. 2. Fluorescent lamp ignition circuit according to claim 1, characterized in that the ignition switch is a relay is. 3. Fluorescent lamp ignition circuit according to claim 1, characterized characterized in that the ignition switch is a thyristor. 20 4. A fluorescent lamp ignition circuit according to claim 1, further comprising a housing inside which the control circuit, the capacitor and the ignition switch are housed. 5. Fluorescent lamp ignition circuit according to claim 1, characterized in that the ignition switch is a thermal switch. 6. Fluorescent lamp ignition circuit according to claim 1, characterized in that the fluorescent lamp has a tube pin at each end which is connected to the respective electrode.