KR840000854B1 - Lighting device for fluorescont lamp - Google Patents

Abstract

A fluorescent lamp starter consists of a bridge rectifier (B1) which(-) has a tap that is connected to a high-frequency oscillator comprised of a transistor (Q1), resistors (R2, R3) and a condenser (C3); a bridge rectifier installed betwen the emitter and collector of the transistor (Q1); and transistors (Q2, Q3) to excite the current. The high frequency is applied to the transformer (T2) through a transformer (T1) and a diode (D2).

Description

Fluorescent lamp lighting device

1 is an overall configuration diagram of the present invention.

2 is a waveform diagram and (i) is a high frequency oscillation output voltage waveform diagram.

(Ii) is a collector voltage waveform diagram of Q ₁ of the high frequency oscillation start circuit.

(Ⅲ) is a base voltage waveform of Q ₁ of the high-frequency oscillation starting circuit.

(Iii) is full wave rectification waveform diagram.

3 is a transcore issis characteristics.

The present invention relates to a fluorescent lamp lighting device in the prior art, but the fluorescent lamp lighting device in many cases, but the use of the ballast chocolate coil has a lot of closures such as poor lighting and power consumption due to the voltage drop and rise, and recently improved electronic lighting device Although the lighting time is shortened and the lighting start state is improved, the illuminance, which is the basic element of fluorescent light dimming, is significantly lowered from the regulated power supply voltage. Therefore, the standard illuminance cannot be satisfied. There is a growing disadvantage.

The present invention is to provide a lighting device containing a number of advantages such as reducing power consumption, significant power factor, improved illuminance, instantaneous light, and at the same time to solve the above drawbacks in the conventional fluorescent lamp lighting device attached to the accompanying drawings. When described in detail as follows.

Making the direct-current power supply by rectifying the AC power to the rectifier circuit of the known DC and ground of the power source + polar, polar to connect one end of the inductor L _1, the inductor L other hanpok the diode D ₁ the anode side of the _first, the resistance (R ₃ ) Connect to emitter and bridge diode a points of transistors Q ₁ , Q ₂ and Q ₃ . The cathode side of the diode D ₁ resistors R _1, R _2, and connect the other end of the resistor R ₁ is connected to ground. Another width of the resistor R ₂ is connected to the + pole of kaepesiteo C ₃ in series and the capacitor C ₃ - to the pole connected to the base (Base) and the other width of the resistance R ₃ of the transistor Q _1. The collector of transistor Q ₁ is connected to the point c of the anode shaft of the diode D ₂ and bit ridge diode (B _2), and b points of the bridge diodes (B ₂₎ is connected to the fifth terminal of the transformer T ₁ and the bridge dimi Eau The point of (B ₂ ) is connected to terminal 6 of transformer T ₁ . Terminal ₁ of transformer T ₁ is connected to the width of capacitor C ₄ and terminal 1 of transformer T ₂ , and terminal ₂ of transformer T ₁ is connected to the collector of transistor Q ₂ . The base of transistor Q ₂ is connected to the transformer T ₂ of the fourth terminal and the resistor R ₄ and the transformer 3 terminals T ₁ is connected to the collector of the transistor Q ₃ and the transistor Q ₃ base transformer T ₂ of the 5 terminal and It is connected to the resistor R _5.

Transformers fourth terminal of T ₁ is connected to the third terminal of the capacitor C ₄ and the other width of the transformer T ₂ and second terminal of the transformer T ₂ are connected to ground.

The cathode side of diode D ₂ is connected to the connection points of resistors R ₄ , R ₅ and R ₆ and the other side of resistor R ₆ to ground. Connect terminal 6 of transformer T ₂ to inductor L ₂ , connect the other end of inductor L ₂ to terminal 1 of fluorescent lamp (FL), and connect terminal 7 of transformer T _{2 to} terminal ₂ of fluorescent lamp. . Transformers eight terminals of T ₂ is connected to the fourth terminal of the fluorescent lamp (FL) and a transformer 9 terminal of T ₂ is connected to the inductor L ₃ and the inductor L other of ₃ 3 of the fluorescent lamp (FL) Configure the connection to the terminal.

The entire circuit of the present invention can be classified into a collector tuned oscillator circuit, a high frequency parallel resonant circuit, a boost load circuit, an inverter biasing circuit, a high frequency oscillation start circuit, and a rectifier circuit. Since the rectifier circuit (B ₁ ) contains a mech in the rectifier power source rectified by the rectifier circuit (B ₁ ), this mech voltage is divided according to the ratio of the resistance values of the resistors R ₁ , R ₂ and R ₃ of the high frequency oscillation starter circuit, and the base of the transistor Q ₁ Is applied to.

The transistor Q ₁ is ON a second degree (ⅲ) base (Base) in a low frequency cycle of the AC power supplied by the type waveform by from t ₀ and from up to t ₁ t ₂ t ₃ OFF and away from t ₁ t ₂ Becomes Therefore, during this switching period, the inverter circuit centered on the transistors Q ₂ , Q ₃ and the transformer T ₂ of the collector tuned oscillation circuit has a high frequency oscillation action. At this time, the high frequency oscillation current is maintained in the bridge diode (B ₂ ) because the high frequency oscillation current is maintained at the secondary windings 5 and 6 of the transformer T ₁ in the inverter biasing circuit to sufficiently supply the load current of the fluorescent lamp. The full-wave rectified high-frequency meg current acts to increase the base current of the oscillating inverter transistor Q ₂ or Q ₃ , which raises its collector current to a predetermined sufficient value.

Therefore, the collector current is in parallel resonance with the primary winding inductance of the transformer T ₂ and the capacitor C ₄ of the high frequency parallel resonance circuit. At the same time, the output winding of the transformer T ₂ is organically boosted so that the load fluorescent lamp is discharged and lit through the interduct L ₂ and L ₃ . By the way, high frequency oscillation. Inverter Field. Characteristics and Roles of Transformer T _{2 Since} the most essential element in the transistor inverter of the present invention, it will be briefly modified. The transformer T ₂ is a saturation transformer using a core having a PH curve of a square hysteresis as shown in FIG. 3, and enables the transistor inverter of the present invention to have a stable and reliable oscillation operation.

The excitation current of the transformer T ₂ flows in the winding between terminals 1 and 2 or the winding between terminals 3 and 4, and the magnetization force H increases as shown in FIG. When the magnetic flux density reaches point A while increasing in the direction, the magnetic flux density does not change even when the excitation current increases, and eventually becomes a self-saturation state. According to this principle, the oscillation operation of the present transistor inverter will be briefly described.

To the transformer primary winding of T ₂ is the terminal number 1-2 (N ₁₂₎ and the terminal number between 2-3 (N ₂₃₎ between the first terminal in 1-2 divided into the same number of turns each of the (N ₁₂₎ When the excitation current starts to flow, voltage is induced in the terminal number 4-5 winding (N ₄₅ ) of the transformer T ₂ so that the collector current of the inverter transistor Q ₂ flows, and this increasing base current increases the magnetic collector current. As a result, the primary excitation current of the transformer T ₂ is led in the magnetic saturation state, so the magnetic flux in the same direction is drastically reduced and the main race current is also drastically reduced.

As a result, Q ₂ transitions from saturated to unsaturated. That is a decrease in the collector current ic Q _{2 2.} Thus when flowing woman begins to current is reduced, so the N ₁₂ is an electromotive force that is the counter electromotive force generated for trying to continue to flow the ic ₂ by the winding inductance Tansu This is to reduce the base current of Q ₂ opposed to flow a base current of Q ₂ Result. As a result, Q ₂ turns OFF and Q ₃ turns ON momentarily. If this condition continues, H in FIG. 3 is reversed, and B (low speed density) reaches point B along the direction of the arrow. The magnetic saturation of the shape occurs and Q ₂ is turned on and Q ₃ is turned off. Thus, the inverting operation is repeated repeatedly so that the inverter has a high frequency oscillation action.

As described above, the present invention adds a high frequency oscillation attempt circuit, thereby greatly reducing power consumption. That is, since the low voltage (t ₀ -t ₁ , t ₂ -t ₃ 1) does not generate light output among the periods of the power frequency that fall short of the discharge voltage, the present invention does not need to transmit the fluorescent lamp to the inverter circuit. By adding the oscillation start circuit, as shown in Fig. 2, the power supply is turned off during the period of low voltage, and the high frequency oscillation voltage (or current) linear width is not gradually grown during the period of high voltage. As can be seen from (iii), the oscillation transition was rapidly grown to supply sufficient voltage (or current) to discharge the fluorescent lamp.

Therefore, the power supply is cut off during the period of low voltage, so the power consumption is reduced as it is cut off, and the high frequency voltage is applied to the both ends of the fluorescent lamps. It is a useful design that prevents deterioration of elements by compensating for the quickness of the lighting of the conventional electronic lighting device and configuring the protection circuits by configuring the electronic circuits.

Claims (1)

As shown in the drawings and as described in the specification, a high-frequency oscillation starting circuit composed of a transistor Q ₁ , a resistor R ₂ , R ₃ , and a capacitor C ₃ is provided at the negative terminal of the bridge rectifier B1. In the transistor Q ₁ , a bridge rectifier circuit B ₂ and a transformer T ₁ are formed between the emitter and the collector, and are connected to the transistors Q ₂ and Q ₃ through the diode D ₂ , (T ₁ ) and a diode (D ₂ ) fluorescent lamp lighting device characterized in that configured to apply a high frequency power supply to the transformer (T ₂ ).

Images