JP2661338B2 - Self-excited piezoelectric transformer converter - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a converter, and more particularly to a self-excited piezoelectric transformer converter of a self-excited oscillation system using a piezoelectric transformer.

[Conventional technology]

The piezoelectric transformer has an equivalent circuit as shown in FIG. That is, reactor L34, capacitor C32, resistor R3
5 is connected in series between the input and output terminals, a capacitor C31 is connected in parallel with the input terminal, and a capacitor C33 is connected in parallel with the output. As a device using such a piezoelectric tongue lance, there is a continuous ignition device using a self-excited piezoelectric transformer converter as shown in FIG. A conventional self-excited piezoelectric transformer converter includes an input power supply E, transistors TR1 and TR2, resistors R1 to R7, capacitors C1 to C3, a diode D1, and a coil L1. , On the primary side of the piezoelectric transformer T1.

The secondary output of the piezoelectric transformer T1 is connected to a diode D
It was rectified by 2, D3 and capacitor C4.

[Problems to be solved by the invention]

In a conventional self-commutated piezoelectric transformer converter, because a self-excited oscillation at the primary side of the piezoelectric transformer T1, the switching frequency f ₁ of the self-excited oscillation is not necessarily coincide with the resonance frequency f ₀ that has a piezoelectric transformer T1 . Therefore, it is not possible to switch at least the amplification degree of a high resonance frequency f ₀ of the piezoelectric transformer, there has been a drawback that the maximum output voltage piezoelectric transformer amplification degree decreases can not be output.

SUMMARY OF THE INVENTION An object of the present invention is to provide a self-excited piezoelectric transformer converter capable of solving the above drawbacks and extracting the maximum output voltage from the piezoelectric transformer.

[Means for solving the problem]

The present invention relates to a self-excited oscillation drive circuit that provides mechanical vibration, a piezoelectric transformer that converts mechanical vibration generated by driving the drive circuit into a voltage and outputs the voltage, and a rectifier that rectifies and smoothes the output voltage of the piezoelectric transformer. In a self-excited piezoelectric transformer converter having a smoothing circuit, an amplifier for amplifying an output voltage of the piezoelectric transformer and feeding back to the drive circuit is provided, and the drive circuit drives the piezoelectric transformer at a resonance frequency of the piezoelectric transformer. Features.

〔Example〕

Next, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a circuit block diagram showing one embodiment of the present invention.

This self-excited piezoelectric transformer converter has an input power supply 1
, Drive circuit 2, piezoelectric transformer 3, rectifying and smoothing circuit 4
, A load 5, and an amplifier 6.

The input power supply 1 is a power supply for operating the drive circuit 2.

The drive circuit 2 is a self-excited oscillation type drive circuit that drives the piezoelectric transformer 3. The drive circuit 2 is controlled by a signal from the amplifier 6.

The piezoelectric transformer 3 transmits energy due to mechanical vibration of the primary side of the piezoelectric transformer driven by the drive circuit 2 to the secondary side, generates a voltage, and supplies the voltage to the rectifying / smoothing circuit 4. The output voltage is also supplied to the amplifier 6.

The rectifying and smoothing circuit 4 rectifies and smoothes the output voltage generated by the piezoelectric transformer 3 and supplies the output voltage to the load 5.

The amplifier 6 amplifies the output voltage of the piezoelectric transformer 3 and
This is a feedback circuit that feeds back to the drive circuit 2. Since the feedback circuit of the amplifier 6 is provided, it is possible to extract the maximum output voltage from the piezoelectric transformer 3.

FIG. 2 is a diagram showing operating conditions of the present embodiment, and FIG.
FIG. 3 is a diagram illustrating frequency characteristics of the piezoelectric transformer according to the embodiment. Next, the operation of this embodiment will be described with reference to FIGS. As shown in FIG.
Is the amplification degree C, the piezoelectric transformer 3 is the amplification degree A, and the amplifier 6 is the amplification degree C. When power is supplied from the input power supply 1 to the drive circuit 2, the drive circuit 2 drives the piezoelectric transformer 3. By this driving, a voltage is output from the piezoelectric transformer 3, rectified and smoothed by the piezoelectric transformer 4, and supplied to the load 5.
A part of the output voltage of the piezoelectric transformer 3 is amplified by the amplifier 6 and is fed back to the drive circuit 2. Here, the piezoelectric transformer 3 oscillates at the self-resonant frequency f ₀ when the condition of amplification degree A · B · C> 1 is satisfied. FIG. 3 shows the frequency characteristics of the piezoelectric transformer 3. As shown in this figure, the amplification degree when the resonance frequency f ₀ (gain) is the highest. Therefore, it is possible to extract the maximum output voltage from the piezoelectric transformer 3.

〔The invention's effect〕

As described above, according to the present invention, since the output of the piezoelectric transformer is fed back to the self-excited oscillation drive circuit, the drive circuit can be switched at the resonance frequency of the piezoelectric transformer, and the highest voltage can be obtained from the piezoelectric transformer. There is.

[Brief description of the drawings]

FIG. 1 is a circuit block diagram showing an embodiment of the present invention, FIG. 2 is a diagram for explaining the degree of amplification of the device of FIG. 1, and FIG. 3 is a diagram showing the frequency characteristics of the piezoelectric transformer of FIG. FIG. 4 is a diagram showing an equivalent circuit of the piezoelectric transformer, and FIG. 5 is a circuit diagram showing a conventional technique. DESCRIPTION OF SYMBOLS 1 ... Input power supply 2 ... Driving circuit 3 ... Piezoelectric transformer 4 ... Rectification smoothing circuit 5 ... Load 6 ... Amplifier

Claims (1)

(57) [Claims] 1. A self-excited oscillation driving circuit for applying mechanical vibration, a piezoelectric transformer for converting mechanical vibration by driving the driving circuit into a voltage and outputting the voltage, and rectifying and smoothing an output voltage of the piezoelectric transformer. In a self-excited piezoelectric transformer converter having a rectifying and smoothing circuit, an amplifier for amplifying an output voltage of the piezoelectric transformer and feeding back to the driving circuit is provided, and the driving circuit drives the piezoelectric transformer at a resonance frequency of the piezoelectric transformer. A self-excited piezoelectric transformer converter characterized by the following.