KR20010003556A - Power curcuit for Vacuum Fluorescent Display - Google Patents

Abstract

PURPOSE: A power circuit for fluorescent display tube is provided to generate a high voltage in an easy manner while reducing wire windings of a transformer. CONSTITUTION: A power circuit comprises an input control unit(10) for generating an oscillation frequency in a fly-back method using an input voltage(vin); a transformer(20) being switched by the oscillation frequency generated from the input control unit and which outputs a plurality of AC voltages in proportion to the winding ratio; and a plurality of voltage doubler rectifier units(30-32) for selectively outputting a DC high voltage with respect to the AC voltage output from the transformer. The transformer with multiple output ports, is connected to the voltage doubler rectifier circuit with separate ground, thus obtaining a high voltage with reduced power loss.

Description

Power curcuit for Vacuum Fluorescent Display

The power supply circuit of the fluorescent display tube of the present invention, and more particularly, the power according to the distribution capacity between the windings by connecting a double voltage rectifier circuit separated from the ground to a single transformer of the power supply circuit for supplying driving power to the fluorescent display tube The present invention relates to a power supply circuit of a fluorescent display tube capable of obtaining a high voltage with low loss.

Typically, the power supply circuit of the fluorescent display tube is configured by a positive power supply type Ring Choke Convert (RCC) method as shown in FIG. 1, wherein the power supply circuit has a smoothing capacitor (VC) from an input voltage VCC. Through the C1 and C2 and the starting resistor R1, the current flows to the base of the transistor Q2 to conduct the transistor Q2.

Therefore, the current flowing from the emitter of the transistor Q2 is applied to the base terminal of the transistor Q1 to conduct the transistor Q1. At this time, the transistors Q2 and Q1 are used as relatively high power transistors by Darlington connection.

Therefore, since the current flows through the primary winding NP of the transformer form T / F1 due to the conduction of the transistor Q1, the voltage V1 is generated, and the generated voltage is generated by the transformer form T / F1. Since the voltage is generated by being induced in the secondary winding Ns Nb, the transistors Q2 and Q1 become conductive again by the voltage generated in the secondary winding Nb.

By performing such a series of operations repeatedly, the voltage VBB applied to the grid and the anode of the fluorescent display tube and the EF applied to both ends of the filament of the fluorescent display tube from the secondary side of the transformo T / F1. The voltages F1 and F2 are output.

As described above, the power supply circuit for supplying a driving voltage to a module of a fluorescent display tube is distributed with transformers (T / F1) and other circuit components, and the scattered components may cause variations in voltage applied to the module or components. In this case, when the voltage fluctuates, the filament voltage applied to both ends of the filament of the fluorescent display tube is changed, which causes the characteristic of the fluorescent display tube.

In addition, the power circuit is only used in a three-pole or four-pole fluorescent tube equipped with a grid for accelerating hot electrons emitted from the filament, but cannot be used in a two-pole fluorescent tube without a grid requiring high voltage. .

This is because bipolar fluorescent tubes do not have a grid for accelerating the emitted electrons, so a high potential difference (high voltage) is required to reach electrons emitted from the cathode.

Therefore, since the power supply circuit cannot be used at all in the 2-pole fluorescent display tube, a high voltage power supply circuit capable of generating a high voltage separately is required in the 2-pole fluorescent display tube.

Accordingly, an object of the present invention is to provide a power circuit that can obtain a high voltage with low power loss by connecting a double voltage rectifier circuit separated from the ground to a single transformer capable of supplying a high voltage to a two-pole fluorescent display tube.

1 is a power circuit diagram of a conventional fluorescent display tube

2 is a power circuit diagram of a fluorescent display tube of the present invention;

In order to achieve the above object, the present invention includes an input control unit for generating an oscillation frequency of the input voltage by the blanking method; A transformer for switching an oscillation frequency generated by the input controller and outputting an AC voltage proportional to a turns ratio; Characterized in that it consists of a plurality of double voltage rectifier for outputting a DC high voltage with respect to the AC voltage output from the transformer.

According to the present invention, a plurality of double-voltage rectifiers for selecting a high voltage corresponding to an even multiple of the peak voltage that separates the output ground as an output voltage are connected to an output terminal of a transformer for outputting a plurality of AC voltages according to the turns ratio. By doing so, high voltages can be obtained to reduce power loss due to distribution capacitance between windings through the plurality of double voltage rectifiers, and high voltages required when connecting a plurality of high voltages in series as necessary.

Hereinafter, described in detail with reference to the accompanying drawings, preferred embodiments of the present invention.

2 is a power supply circuit diagram of a fluorescent display tube according to the present invention, comprising: an input control unit 10 for generating an oscillation frequency by retracting an input voltage vin; A transformer for outputting a plurality of AC voltages proportional to the turns ratio while switching by the oscillation frequency generated by the input control unit 10; It is composed of a plurality of voltage rectifiers 30-32 for outputting a plurality of alternating voltages output from the transformer form 20 at a direct current high voltage.

The input controller 10 is configured to generate an oscillation frequency for switching the transformer form 20 in a fly back manner (ring choke converter / pulse width modulation).

The output stage of the transformer form 20 is composed of multiple output stages.

The double voltage rectifier 30-32 selectively outputs a DC voltage corresponding to an even multiple of the peak voltage Vpp with respect to the multiple output AC voltage of the transformer form 20, and the output terminal is an output ground (GND1-GND3). It consists of separating.

The peak voltage is to select 2Vpp, 4Vpp, 6Vpp.

According to the present invention configured as described above, when the input voltage Vin is input to the input control unit 10, the input control unit 10 oscillates the input voltage Vin in a return mode by a ringing choke converter / pulse width modulation. Will generate

The oscillation frequency generated by the input control unit 10 is input of the transformer form 20 to switch the transformer form 20, by the switching a plurality of output proportional to the turns ratio at the output of the transformer form 20 AC voltage is output.

The plurality of AC voltages output as described above are rectified to double voltage through a plurality of double voltage rectifier circuits 30-32 to output a DC voltage. The output voltage of DC voltage 2Vpp, 4Vpp, 6Vpp corresponding to even times of peak voltage (Vpp) is selected to generate high voltage.

In addition, the high voltage output terminal of the double voltage rectifying circuit 30-32 forms three different ground (GND) levels. When the high voltage output terminal of the double voltage rectifying circuit 30-32 is connected in series, the ground ( From the GND1) to the output terminal 300V of the double voltage rectifying circuit 30, it is possible to generate a high voltage of 1 KV.

As described above, the present invention is easily connected through the plurality of double voltage rectifiers by connecting a plurality of double voltage rectifiers having separate output grounds to an output terminal of a transformer for outputting a plurality of AC voltages according to the turns ratio. High voltage can be generated and the number of turns of the transformer can be reduced, thereby miniaturizing.

In addition, it is possible to reduce the number of windings of the transformer, thereby reducing the distribution capacity of the windings to reduce the power loss according to the distribution capacity of the windings, and to obtain the high voltage required when connecting a plurality of high voltages in series as necessary. Will provide an effect.

Claims (4)

An input controller configured to generate an oscillation frequency of the input voltage by a blanking method; A transformer for switching an oscillation frequency generated by the input controller and outputting an AC voltage proportional to a turns ratio; And a plurality of double voltage rectifiers for selectively outputting a DC voltage with respect to an AC voltage output from the transformer. The method of claim 1, wherein the input control unit is configured to generate an oscillation frequency for switching the transformer form the flyback method (ringing choke converter / pulse width modulation) the input voltage (vin) A power supply circuit of the fluorescent display tube. The power supply circuit of a fluorescent display tube according to claim 1, wherein the output stage of the transformer is composed of multiple output stages. The method of claim 1, wherein the double voltage rectifier selectively outputs a DC voltage corresponding to an even multiple of the peak voltage Vpp with respect to the multiple output AC voltage of the transformer and the output terminal separates the output grounds GND1-GND3. A power supply circuit for a fluorescent display tube, which is configured.