KR19990019089A - Inverter Noise Prevention Circuit - Google Patents

Abstract

The present invention by synchronizing the driving frequency of the input voltage of the piezoelectric transformer with the input voltage, switching elements in which the input voltage is switched in order to suppress the interference phenomenon between the frequencies and the coil connected to the output of the switching element in parallel A switching part connected and switched, a piezoelectric transformer part in which an input is connected in parallel to the switching part, an output of the piezoelectric transformer part is applied to generate a cold cathode tube, and an output of the cold cathode tube is detected and applied, An output of the switching element is detected, and the oscillation unit is controlled so that the switching element is switched, the distribution unit to which the frequency of the oscillator output is distributed, and the frequency distributed by the distribution unit is applied, the switching unit is controlled.

Description

Inverter Noise Prevention Circuit

The present invention relates to an inverter noise suppression circuit, and more particularly, a DC / DC in front of a transformer configured as a piezoelectric body and switching means for switching the output of the DC / DC are controlled by one control means. Therefore, the present invention relates to an inverter noise suppression circuit in which noise is prevented.

Generally, an inverter that generates an output voltage by inducing an input voltage by using a transformer formed of a piezoelectric transformer (PZT) and drives a cold cathode tube (CCFL) used for screen brightness of a notebook computer. In the power supply device, the frequency of the input voltage input to the piezoelectric transformer is controlled so that the output voltage of the piezoelectric transformer is controlled. Excessive fluctuations in the input voltage affect the output voltage. As a result, the stability of the input voltage applied to the piezoelectric transformer is a major problem of the inverter.

Therefore, a DC / DC circuit, which is a constant voltage circuit, is used for input so that the input voltage of the transformer is regulated and stabilized, and the DC / DC circuit is displayed on the screen by the interference phenomenon between the controlled frequency and the driving frequency of the piezoelectric transformer. Noise is sometimes generated, but the present invention is intended to prevent this.

1 is an inverter circuit diagram according to the prior art.

The inverter according to the related art is configured by regulating the switching element Q1 and the first oscillation unit 10a in which the output of the switching element Q1 is detected and the switching element Q1 is controlled so that the input voltage Vi is stabilized. A constant voltage unit 10 which is a DC / DC circuit, a switching unit Q2 to which an output of the constant voltage unit 10 is switched, and a piezoelectric transformer unit 20 into which voltage is input by switching of the switching unit Q2. ), A cold cathode tube 30 to which light is generated by the output of the piezoelectric transformer 20, a comparator 40 to which the output of the cold cathode tube 30 is detected, and applied, and the comparator 40. The second oscillator 50 is controlled by the output of the second oscillator 50, and the output of the second oscillator 50 is composed of a drive unit 60 is operated to drive the switching unit (Q2).

In the inverter according to the related art configured as described above, when the current flowing in the cold cathode tube 30 is small due to the voltage output from the piezoelectric transformer 20, the voltage applied to the cold cathode tube 30 is reduced, and a comparator is used. The voltage applied to 40 becomes small. Therefore, the output of the comparator 40 becomes high and controlled by the variable resistor R _T of the second oscillator 50 so that the frequency applied to the piezoelectric transformer 20 is reduced. Since the boosting ratio is increased by this, the voltage applied to the cold cathode tube 30 is increased accordingly.

In addition, when the current flowing through the cold cathode tube 30 is large due to the voltage output from the piezoelectric transformer 20, the current becomes smaller than when the current flows through the cold cathode tube 30. Accordingly, the cold cathode tube 30 is controlled by the variable resistor R _T of the second oscillator 50 so that the frequency applied to the piezoelectric transformer 20 is increased, so that the boosting ratio is decreased by the increased frequency. The voltage applied to is reduced.

On the other hand, the second switching element Q1 is detected by the output of the switching element Q1 so that the input voltage is regulated and stabilized for stable operation at the voltage applied to the piezoelectric transformer 20 through the coil (L) The constant voltage unit 10, which is a DC / DC circuit controlled by the oscillation unit 10a and outputting a stable voltage, is used. The constant voltage unit 10 includes an oscillation circuit (not shown) so that the voltage is switched. The voltage applied to the coil L is switched to stabilize by the pulse output from the circuit.

However, in the inverter circuit according to the related art operating as described above, since the frequency operated by the constant voltage unit and the frequency caused by switching of the switching unit generate interference with each other, an interference occurs in the input voltage of the piezoelectric transformer, resulting in noise caused by parasitic oscillation. This causes a problem that an abnormal screen of a notebook computer is generated accordingly.

Therefore, the present invention has been made to solve the above-mentioned conventional problems. The main object of the present invention is to synchronize the driving frequency of the input voltage and the input voltage of the piezoelectric transformer, thereby suppressing interference between frequencies, thereby preventing noise. To provide a prevention circuit.

A feature of the present invention for achieving the above object is a switching element for switching the input voltage, the switching unit is connected in parallel to the coil connected to the output of the switching element and the piezoelectric element is connected in parallel to the switching unit A transformer, a cold cathode tube to which light is generated by the output of the piezoelectric transformer, and an output of the cold cathode tube is detected and applied, an output of a switching element is detected, and an oscillation unit controlled to switch the switching element; It is to provide an inverter noise suppression circuit comprising a distribution unit to which the frequency of the oscillator output is distributed and a driving unit to which the frequency distributed by the distribution unit is applied and the switching unit is controlled.

1 is an inverter circuit diagram according to the prior art;

2 is an inverter noise suppression circuit according to the present invention.

* Explanation of symbols for main parts of the drawings

10: constant voltage part 20: piezoelectric transformer part

30: cold cathode tube 40: oscillation unit

50: distribution unit 60: drive unit

Hereinafter, a preferred embodiment of the inverter noise suppression circuit according to the present invention will be described in detail with reference to the accompanying drawings.

2 is an inverter noise prevention circuit diagram according to the present invention.

Inverter noise suppression circuit according to the present invention is a switching element (Q1) is switched in parallel to the switching element (Q1) and the coil (L) connected to the output of the switching element (Q1) is switched in the input voltage (Vi). And a piezoelectric transformer 20 having an input connected in parallel to the switching unit Q2, an output of the piezoelectric transformer 20, and a cold cathode tube 30 to generate light, and the cold cathode tube ( 30 is detected and applied, the output of the switching element Q1 is detected, the oscillator 40 is controlled so that the switching element Q1 is switched, and the distribution unit in which the frequency of the oscillator 40 output is distributed And a driving unit 60 to which the frequency distributed by the distribution unit 50 is applied, and the switching unit Q2 is controlled.

The following describes the operating state of the present invention configured as described above.

Switching element Q1 by oscillator 40 where the output of switching element Q1 is detected so that the input voltage is regulated and stabilized for stable operation at the voltage applied to piezoelectric transformer 20 through coil L. Is controlled to output a stable voltage, thereby minimizing fluctuations in the voltage applied to the piezoelectric transformer 20, and the switching element Q1 is oscillating part 40 to which the output of the cold cathode tube 30 is detected and applied. By frequency).

In addition, the frequency of the voltage input to the piezoelectric transformer 20 switched by a smaller driving frequency than the driving frequency of the switching element Q1 is the frequency output from the oscillator 40 as described above. It is distributed as much as set at and applied to the driving unit 60, so that the switching unit Q2 is controlled.

Therefore, the frequency interference phenomenon is reduced because the frequency generated by one oscillator 40 is applied in synchronization with the frequency of the switching unit Q2 which generates the input voltage of the switching element Q1 and the piezoelectric transformer 20. .

As described in detail above, the inverter noise suppression circuit according to the present invention is prevented from parasitic oscillation because the switching frequency of the input voltage operated at different driving frequencies and the input voltage of the piezoelectric transformer are controlled to be synchronized by the same oscillation circuit. The noise is prevented on the screen of the book computer.

The present invention is not limited to the above embodiments, and it is apparent that many modifications are possible by those skilled in the art within the technical spirit of the present invention.

Claims (1)

Switching element in which an input voltage is switched Switching unit connected in parallel to a coil connected to the output of the switching element Switching unit The piezoelectric transformer unit input is connected in parallel to the switching unit The output of the piezoelectric transformer is applied to the cold Cathode tube The output of the cold cathode tube is detected and applied, the output of the switching element is detected, the oscillation unit controlled so that the switching element is switched, the distribution unit to which the frequency of the oscillator output is distributed and the frequency distributed by the distribution unit is applied, Inverter noise preventing circuit, characterized in that the switching unit is configured to control the drive.