JPH07176805A - Piezoelectric transformer and discharge tube lighting driving device - Google Patents

Abstract

PURPOSE:To make it possible to carry out the polarization of a piezo-electric transformer in a low voltage by a method wherein the polarization part in the lengthwise direction on the output side of the piezoelectric transformer is split into a plurality of at least two or more. CONSTITUTION:A piezoelectric transformer 6 makes it possible to lead out three power supplies, whose output voltage values and output current values are different from one another, from one piezoelectric transformer. The transformer 6 consists of an input side 7A and an output side 7B and input electrodes 7a and 7b are respectively affixed on both surfaces of the upper and lower surfaces of the side 7A. The lengthwise direction of the side 7B is split into electrodes 7c to 7f. The electrode 7c is first set on an earth side, the electrode 7e is set on a positive side and a voltage is applied between the electrodes 7c and 7e to polarize. Then, the electrode 7e is set on the earth side, the electrode 7f is set on the positive side and a voltage is applied between the electrodes 7e and 7f to polarize. Moreover, the electrode 7f is set on the earth side, the electrode 7d is set on the positive side and a voltage is applied between the electrodes 7f and 7d to complete the polarization of the transformer 6.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a piezoelectric transformer and a discharge tube driving apparatus using the same, and more particularly, to reduce the facility for manufacturing by constructing an electrode on the output side to be polarized with a low voltage. The present invention provides a piezoelectric transformer that reduces the manufacturing unit price and performs a stable output operation, and a discharge tube lighting drive device that stably drives a discharge tube using the transformer.

[0002]

2. Description of the Related Art Recently, small and portable micro computers
Electronic devices of so-called laptop and palmtop types such as computer, word processor, etc. are rapidly spreading, and liquid crystal display devices are frequently used in their display sections instead of cathode ray tubes (CRTs).

A cold cathode discharge tube is often used as a light source of the liquid crystal display device, and a high voltage is usually required to drive the discharge tube, but recently, a piezoelectric transformer is used as a transformer for generating a high voltage. An example of a lighting drive device using the above is disclosed in JP-A-5-114492. This device uses a thin and lightweight piezoelectric transformer instead of the conventional electromagnetic conversion type high frequency inverter transformer to reduce the size of the driving device.

[0004]

In the piezoelectric transformer used in the drive device disclosed in the above publication, an input signal is applied in the form of an input voltage and / or an input current to the thickness direction polarized portion on the drive side. Then, the output voltage and / or the output current, which is the output signal, is taken out from the lengthwise polarization portion on the output side, and the vibration amplitude increases as the input voltage and the input current increase. The relationship between the input signal and the output signal is gradually changing from linear to non-linear, and when a piezoelectric transformer is driven in a non-linear region to obtain high output, a so-called jump phenomenon appears.
Output waveform is distorted, operating point is low output voltage and / or
It has a problem of moving to a low output current point.

Further, as the material of the piezoelectric transformer, a hard material having a relatively high density is used due to its characteristics, and the voltage value for polarization of these materials is 1 mm in material thickness.
Since a high electric field of 2-3 kVDC is used, the equipment becomes large-scale.

In addition, since a high voltage is naturally handled during the manufacture of the piezoelectric transformer, there is a danger to the operator, so that the polarization operation requires remote control. Therefore, there is a problem that the manufacturing unit price of the piezoelectric transformer becomes high.

An object of the present invention is to provide a piezoelectric transformer having a low manufacturing unit price, which has a structure capable of performing polarization at a low voltage, thereby making the manufacturing facility highly safe, small-scale and labor-saving. .

Further, the present invention also provides a piezoelectric transformer which is stable in operation. Further, by using this piezoelectric transformer, a discharge tube lighting drive device which is stable in operation at low cost is provided.

[0009]

In the piezoelectric transformer according to the present invention, first, the polarized portion in the lengthwise direction on the output side is divided into at least two or more, and then the divided polarized portion is provided with a relatively low voltage. Complete the polarization process.

Further, a polyimide film or the like having an acoustic impedance different from that of the piezoelectric transformer is adhered to the piezoelectric transformer, and the peripheral portion of the film is fixed to the case to form a semi-assembled body.

The piezoelectric transformer configured as described above is
The discharge tube lighting drive device is configured by being connected to the power supply unit and the oscillation unit.

[0012]

In the piezoelectric transformer according to the present invention, the polarization part on the output side is divided into at least two or more parts, so that the polarization work can be performed with a relatively low voltage, and a large-scale facility for polarization is not required. Therefore, a low price piezoelectric transformer can be manufactured.

Further, by attaching a polyimide film forming a conductive portion electrically connected to the input side electrode and the plurality of output side electrode portions to the piezoelectric transformer, the damping coefficient can be arbitrarily selected and the output waveform Distortion and movement of the operating point to the low output point can be arbitrarily suppressed.

Further, the discharge tube lighting drive device using the piezoelectric transformer described above can obtain a required output from any one of a plurality of electrodes on the output side of the piezoelectric transformer, and the discharge tube is connected to the output electrode. As a result, the discharge tube can be stably turned on.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS In describing the embodiments of the present invention, a basic discharge tube lighting drive device using a piezoelectric transformer will be described. FIG. 1 is a circuit diagram of the basic discharge tube driving device, 1 is a cold cathode discharge tube, one electrode 1a of which is connected to a central annular electrode 2c of a piezoelectric transformer 2, and the other electrode 1b is A power supply unit 3 connected to the electrode 2d on the output side 2B of the piezoelectric transformer and normally rated at 12V or 6V
Is connected to the double-sided electrodes 2a-2b on the input side 2A of the piezoelectric transformer 2 via the oscillator 4, the amplifier 5, and the lead wire. The piezoelectric transformer 2e represents a sensor electrode for stably operating the piezoelectric transformer, and the excitation signal from the sensor electrode 2e is fed back to the oscillation unit 4. The discharge tube 1 is lit by the output generated at the output electrode 2d of the piezoelectric transformer 2 of the driving device.
The amplifier 5 amplifies the output from the oscillator,
It is used as needed.

FIG. 2 shows an embodiment of the piezoelectric transformer of the present invention. The piezoelectric transformer 6 has an output voltage value and / or an output voltage value.
It is possible to take out three power supplies having different output current values from one piezoelectric transformer.

The piezoelectric transformer has an input side 7A and an output side 7B.
The input side 7A has an input electrode 7 on both the upper and lower sides.
a-7b is attached. The output side 7B is divided in its length direction into electrodes 7c to 7f. Each electrode 7c,
The width dimensions of 7d, 7e, and 7f are the same, and the intervals between the electrodes are also the same.

Next, the polarization work will be described. First, the electrode 7c is set to the ground side, and the electrode 7e is set to the positive side.
A voltage is applied between c and 7e to polarize. Then the electrode 7
Electrode 7e with earth side and electrode 7f with plus side
And voltage is applied between the electrodes 7f and 7f to polarize them, and the electrode 7f is set to the ground side and the electrode 7d is set to the positive side.
A voltage is applied between d to complete the polarization.

The piezoelectric transformer, which has been polarized, has electrodes 7
When c is a ground electrode, electrode 7e is the first output electrode, electrode 7f is the second output electrode, and electrode 7d is the third output electrode, the reference voltage is applied to the respective output electrodes of electrodes 7e, 7f, and 7d. 1/3 times, 2/3 times, and 1 × times larger output can be obtained. The magnitude of the output from each electrode can be arbitrarily obtained by changing the number of electrodes and the intervals between the electrodes.

FIG. 3 shows a film wiring board 8 attached to the piezoelectric transformer 6 of the present invention. A polyimide film having a thickness of about 10 to 50 μm is used as the material of the film. Further, on the surface of the film, conductive portions 8b, 8c, 8e, 8f, 8d of copper foil having a thickness of about 20 to 100 μm are provided corresponding to the respective electrodes of the piezoelectric transformer. Then, this is adhered to the piezoelectric transformer 6, and a conductive adhesive such as silver paste or an epoxy adhesive is used for the adhesion. However, in the case of an epoxy adhesive, the thickness of the adhesive layer is thin, for example, several μm or less, and the piezoelectric transformer 6 and the film wiring board 8 are
It is necessary to bond the and to have good electrical contact. The piezoelectric transformer 6 and the film wiring board 8 are bonded to each other by the electrodes 7b and the conductive portions 8b, the electrodes 7c and the conductive portions 8c, and the electrodes 7e.
And conductive portion 8e, electrode 7f and conductive portion 8f, and electrode 7d
And the conductive portion 8d are electrically connected to each other. Reference numeral 9 denotes a connector portion for connecting the conductive portion connected to each electrode to a necessary electric circuit, and 10 denotes
The fixing portion is provided on the peripheral portion of the film wiring board 8 and the piezoelectric transformer 6 is fixed and attached thereto. The conductive portion 8a is connected to the electrode 7a by a lead wire as described later.
Electrically connected with.

FIG. 4 is a perspective view showing a sub-assembly body in which the film wiring board 8 and the piezoelectric transformer 6 are electrically connected and joined, and the electrode 7a and the conductive portion 8a are connected to the lead wire 1
1 connected to each other.

FIG. 5 is a cross-sectional view of an assembly body in which a sub-assembly body in which the piezoelectric transformer 6 and the film wiring board 8 are connected is housed in a case 12 as shown in the drawing. The case 12 is molded by plastic by a method such as molding.

The assembly thus constructed is
It is incorporated as a piezoelectric transformer of the discharge tube lighting drive device shown in FIG. That is, the electrode 7 on the input side of the piezoelectric transformer
Each of the conductive parts of the connector part 9 connected to a and 7b is electrically connected to the amplification part 5, and the conductive part 8c of the film wiring board 8 connected to the electrode 7c is connected to the discharge part 1 of the discharge tube 1 via the connector part 9. One of the conductive parts 8d to 8f of the film wiring board 8 connected to one electrode 1a and connected to the electrodes of the electrodes 7d to 7f for generating an output voltage of a magnitude for lighting the discharge tube is connected to the connector part 9 The other electrode 1b of the discharge tube 1 via the
It can be electrically connected to.

The discharge tube 1 is discharged and lit by the output generated from the output side of the piezoelectric transformer of the lighting drive device thus configured.

The piezoelectric transformer of the present invention can be used not only in the AC / AC converter and also in the DC / DC converter, but also in the lighting drive device for the cold cathode discharge tube and the lighting drive for the hot cathode discharge tube. Of course, it can be used in a device.

[0026]

Since the piezoelectric transformer of the present invention is divided into a plurality of polarizations in the lengthwise direction on the output side, each polarization operation of the divided portions can be performed at a low voltage, so that large-scale equipment is required. In addition, labor saving can be achieved, and as a result, the manufacturing unit price can be reduced.

By attaching a film wiring board having a conductive portion connected to the input / output electrodes of the piezoelectric transformer, the Q value, which is the sharpness of the transformer, can be lowered, and the film which is the material of the film wiring board can be reduced. The damping coefficient can be arbitrarily selected by changing the thickness of the piezoelectric transformer and the thickness and size of the conductive part connected to the electrodes of the piezoelectric transformer, and the distortion of the output waveform and the movement of the operating point to the low output point can be arbitrarily set. Can be suppressed to.

Further, since a plurality of output electrodes having different outputs are provided, the desired output can be arbitrarily selected.

[Brief description of drawings]

FIG. 1 is an explanatory view showing a basic lighting drive device for a cold cathode discharge tube using a piezoelectric transformer including the present invention.

FIG. 2 is a perspective view showing an embodiment of the piezoelectric transformer of the present invention.

FIG. 3 is a perspective view showing an embodiment of a film wiring board electrically connected to a piezoelectric transformer according to the present invention.

FIG. 4 is a perspective view showing a subassembly body obtained by joining the piezoelectric transformer of the present invention and a film wiring board.

5 is a sectional view showing an assembly body in which the subassembly body of FIG. 4 is housed in a case.

[Explanation of symbols]

 1 Cold Cathode Discharge Tube 1a, 1b Electrode 2 Piezoelectric Transformer 2A Input Side 2B Output Side 2a, 2b, 2c, 2d Electrode 3 Power Supply Section 4 Oscillating Section 5 Amplifying Section 6 Piezoelectric Transformer 7A Input Side 7B Output Side 7a, 7b, 7c, 7d, 7e, 7f Electrode 8 Film wiring board 8a, 8b, 8c, 8d, 8e, 8f Conducting part 9 Connector part 10 Fixing part 11 Lead wire 12 Case

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Office reference number FI technical display location H05B 41/24 A

Claims (4)

[Claims] 1. A piezoelectric transformer comprising an input side and a driving side and an output side, wherein the length direction on the output side is divided into at least two or more polarizations. 2. A film wiring board having a conductive portion electrically connected to an input electrode on the driving side of a piezoelectric transformer and at least two or more polarized electrode portions on the output side is mounted. Piezoelectric transformer. 3. A piezoelectric transformer comprising an input side and a drive side and an output side, and a lengthwise direction of the output side divided into at least two or more polarizations, a power source section, and a piezoelectric element connected to the power source section. A discharge tube lighting drive device in which an oscillating section that oscillates and an oscillating output from the oscillating section are input to an input electrode of the piezoelectric transformer and the discharge tube is lit by the output from the output side of the piezoelectric transformer. 4. A film wiring board having a conductive portion electrically connected to an input electrode on the driving side of a piezoelectric transformer and at least two or more polarized electrode portions on the output side is mounted. Discharge tube lighting drive described