KR830001600Y1 - Inverter type fluorescent lamp lighting device - Google Patents

Abstract

No content.

Description

Inverter type fluorescent lamp lighting device

1 is a basic circuit diagram of an inverter fluorescent lamp lighting device.

2 shows the minority carrier density in operation in the unsaturated and saturated regions of a transistor,

3 is a diagram of a switching operation of a transistor,

4 shows a basic circuit diagram of the present invention.

The present invention relates to a fluorescent lamp lighting device and in particular to an inverter type inspection device.

Conventionally, there is a conventional method of using a choke coil in a lighting device of a fluorescent lamp, and a method of converting alternating current into direct current and using a voltage multiplication circuit is known from Korean Patent Publication No. 78-561, and using a ferrite core. Inverters and the like by known transistors are known.

However, in the case of using the choke coil, not only the efficiency is lowered, but also the weight is heavy, and the hum in the iron core of the choke coil causes noisy surroundings and stimulates nerves, and alters the alternating current into a direct current. In the case of lighting with voltage, there is a lot of loss due to the insertion of a resistor for limiting the current, and accordingly, the change of power is severe according to the change of the input voltage. In addition, according to Patent Publication No. 81-1421, in order to solve the above-mentioned shortcomings, the voltage of each of the base and the emitter of the first transistor is passed from the secondary winding of the transformer through the diode to the voltage drop. In connecting the emitter and the collector of the auxiliary transistor, respectively, the base of the auxiliary transistor is to connect the voltage drop to the secondary winding of the current transformer connected to the diode or the secondary secondary winding whose polarities are opposite to each other. In addition, the part of the second transistor is intended to have the same configuration.

However, in the above inverter type lighting device, the inductance values of the resistor and the transformer are adjusted to generate a phase difference between the base current and the collector current so as to eliminate the time for the two transistors to be turned on at the same time. There is a problem to solve the lighting inevitably accurate adjustment by the resistance error.

The present invention has been devised in consideration of this point, and has been designed to simplify the high efficiency and high-speed lighting circuit according to the high efficiency and voltage fluctuation of the inverter type lighting device.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 shows a basic circuit of a conventional inverter fluorescent lamp lighting device, in which the emitters and transistors of transistors Q ₁ and Q ₂ are connected, and the + input of the transistor Q ₁ is also connected to transistor Q _2. Emitter is connected to the input. On the other hand, the base of the transistor Q ₂ is grounded with a current transformer T, and the base of the transistor Q ₁ is connected to one end of the fluorescent lamp FL through the current transformer T and the coil L. The other end of the (FL) is connected between the capacitor (C ₁ ) and the capacitor (C ₂ ), the capacitor (C ₁ ) is connected to the + power input and the capacitor (C ₂ ) is connected to the-power input. In addition, C ₂ , C ₄ means a capacitor.

In the circuit configuration as described above, the operation of the transistors Q ₁ and Q ₂ is determined by the minority carrier in the base. In the switching operation, the voltage between the collector and the base shows a voltage of-, which causes the minority carrier in the base. The density accumulates above the carrier density contributing to the collector current.

That is, as shown in FIG. 2, the carrier density accumulated in the base continues as shown in FIG. 3 even when the base current does not flow, that is, when the transistors Q ₁ and Q ₂ should be turned off. This causes the collector current to flow and consumes a lot of power.

In other words, the above-described formation allows the transistor Q ₁ and the transistor Q ₂ to operate simultaneously, so that not only a lot of power is consumed but also the transistor is destroyed in severe cases. In the present invention, in order to solve the above problems, the circuit configuration as shown in FIG. 4 is solved. That is, the positive input power and - between the input is a first winding and a diode a second winding of the (D ₂₎ and the transformer of the diode (D ₁₎ and a current transformer between the power supply in series and a diode (D ₁₎ and a current transformer the primary winding and between the base transistor (Q ₁₎ a diode (D ₃₎ is connected and, and a diode (D ₂₎ and a diode (D ₄₎ between the base between the current transformer secondary winding and the transistor (Q ₂₎ connected have.

Since the transistor Q ₁ is turned on, the input voltage V (B ₁ ) is equal to the sum of the voltage of the diode D ₂ and the voltage between the base and the emitter, and the following equation is established. .

In the above formula, VCB is the voltage between collector bases, VBE is the voltage between base emitters, and VD _i and VD ₃ are forward voltages of diodes D ₁ and D ₃ .

As described above, the base collector voltage is applied with a voltage of " 0 " instead of a voltage of -0, so that there is no accumulation of carriers in the base, so that storage time does not appear. Therefore, the time that Q ₁ and Q ₂ are turned on at the same time is eliminated. In the transistor (Q _1, Q ₂₎ transistors (Q _1, Q ₂₎ a negative base current due to the rise time (tr) of each diode (D _1, D ₂₎ through the current transformer first winding and a second winding This eliminates the need for a separate reverse current diode. Therefore, according to the present invention, it is a practical design for industrial production with low manufacturing cost and simplicity of circuit.

Claims (1)

+ The primary winding of the transformer is known in that the emitter of transistor Q ₁ having a collector connected to the input power source connected to the collector of transistor Q ₂ having an emitter ground is connected via diode D ₃ . It is connected to the base of one transistor Q ₁ and connected to the collector with a diode D ₁ , the secondary winding is connected to the base of the transistor Q ₂ via a diode D ₄ and the diode D ₂ is Fluorescent lamp lighting device, characterized in that connected to the primary winding and the collector.