JP2009171821A - Micro power generator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To achieve a micro power generator to operate as a DC generator, by rectifying output power from micro electret mechanical/electrical energy conversion elements by using a mechanical switching mechanism. <P>SOLUTION: Electric power is generated by using the feature, wherein an electret 2 is formed on a base electrode 1, an opposite electrode 3 vibrates to the electret, and an electrostatic capacitance varies therebetween so that a charge quantity to be electrostatically induced into the opposite electrode varies. A mechanical switching function is added to the opposite electrode 3 so that rectification is carried out by mechanical switching synchronized with power generation, resulting in operation as a DC power generator as a whole. In addition, the electret 2, opposite electrode 3 and so on are formed with MEMS (Micro Electromechanical Systems), and therefore it is more useful that the mechanical switching mechanism is also formed in a MEMS process at the same time. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a micro power generator using an electret.

  The usefulness of a sensor network in which a large number of nodes having specific sensor functions are installed to construct a distributed cooperative information system is increasing. Functions required for this functional node include that measurement data can be reliably transmitted without interference with many other nodes, mass production is possible at low cost, and maintenance is free.

  The sensor network is particularly effective in an application example in which a functional node is embedded in a structure and safety monitoring is performed. In such an application example, it is difficult to replace the power supply for driving each node. For this reason, it is desirable to create energy consumed by each node from surrounding vibrations, thermal gradients, magnetic field / electric field changes, pressure changes, light, and the like.

Nodes often do not need to send measurement data on a regular basis, and may operate intermittently when energy accumulates to some extent. Further, a DC power source is necessary for a power source for data measurement and a transmission circuit, and a system for efficiently storing surrounding energy and supplying it as DC power is required.

  There is a method of using an electret as one method for extracting electric power from minute vibrations in the surroundings. An electret is a device that can hold a charge semi-permanently. The counter electrode vibrates with respect to the electret, and the capacitance between them changes, and the amount of charge that is electrostatically induced on the counter electrode. It is possible to generate electricity using the change of

  A conventional micro power generation device using an electret is a device that generates power by the relative movement of a base electrode on which an electret thin film is formed and a counter electrode facing the base electrode, and uses a load between the base electrode and the counter electrode to generate power. There have been considered what are used as an AC generator to be taken out, and what is used as a DC generator by connecting and rectifying using a semiconductor diode.

  However, when such a generator is used, there is a disadvantage that the efficiency is deteriorated in the case of micro power generation due to the resistance and threshold value of the semiconductor diode even when it is used as an alternating current or when rectified.

  Patent Publication 2003-153557   Patent publication 2005-529574

  An object of the present invention is to provide a more efficient rectification method in a micro power generator using an electret.

  According to the present invention, a base electrode having an electret thin film formed on the surface thereof, a counter electrode made of a metal facing the base electrode, and a base electrode complementary electrode on the opposite side of the base electrode across the counter electrode are formed. In a micro power generation apparatus that generates electricity when a complementary electrode and a counter electrode are electrically connected and connected to each other to perform relative movement, the base electrode side of the counter electrode that performs relative movement opposite to the base electrode and One of the mechanical switches is installed on both surfaces of the base electrode complementary electrode side, and the electrode serving as one of the pair of mechanical switches facing the base electrode of the counter electrode is formed on the base electrode, and the mechanical switch of the base electrode complementary electrode One of the paired mechanical switches as an electrode and a base electrode mechanical switch via a capacitor It is intended to rectify the alternating current generated by the power generation by connecting one of the mechanical switches installed with over source electrode on the opposite side to a DC current.

  According to the present invention, a direct current can be obtained with high efficiency in macro power generation using an electret.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a micro power generator using an electret according to an embodiment of the present invention. Referring to FIG. 1, 1 is a base electrode, 2 is an electret film, 3 is a counter electrode, 4 is a base electrode complementary electrode, 5 is a counter electrode support structure, 6 is a base electrode side mechanical switch, and 7 is a base electrode complementary electrode side A mechanical switch, 8 is a capacitor, and 9 is a load resistance.

  The counter electrode 3 moves relative to the base electrode 1 and the base electrode complementary electrode 4 on which the electret film 2 is formed to generate power.

  When the counter electrode 3 moves relative to the base electrode 1, the distance between the counter electrode 3 and the base electrode 1 changes, and a charge opposite to the charge of the electret film is generated according to the distance. As for the generated charges, current flows when the mechanical switch installed on the base electrode side and the mechanical switch installed on the base electrode complementary electrode side are closed, and work is performed by the load resistor 9. The capacitor 8 stores and smoothes the direct current that flows intermittently. At this time, a direct current flows through the load resistance 9 as shown in FIG.

  FIG. 2 shows an example of manufacturing the counter electrode, which is the main part of the micro power supply device according to the present invention, using the micromachining technology. A silicon substrate is used for the counter electrode. As shown in FIG. 2A, a thermal oxide film is first formed on the entire surface of the Si substrate. Next, as shown in FIG. 2B, etching is performed by wet etching (dilute hydrofluoric acid or the like) to leave a portion to be an electrode portion. Next, as shown in FIG. 2C, deep etching of the tip silicon is performed by a dry etching technique called DRIE. Next, the resist is removed as shown in FIG. Next, as shown in FIG. 2 (5), a mechanical switching tip on the counter electrode side is formed by anisotropic etching with a TMAH solution. Finally, as shown in FIG. 2 (6), an Au electrode thin film is formed on the counter electrode portion and the mechanical switch, and the process is completed.

  FIG. 3 shows the experimental results of charging the electret film according to the present invention with electric charges. CYTOP (CTL-809M, manufactured by Asahi Glass) is used as the electret material. CYTOP has good compatibility with MEMS technology, has a dielectric breakdown strength that can withstand high voltages, and has high performance as an electret material. First, an Au / Cr film was formed on a 20 mm × 20 mm silicon wafer by sputtering. Next, CYTOP is dropped onto the wafer, and spin coating and baking are repeated 10 times to produce a CYTOP film having a thickness of 16 micrometers. Lastly, an electric charge is injected into the CYTOP film using corona discharge to produce an electret. Here, corona discharge is performed with a discharge voltage of 4.15 kV, a discharge current of 0.5 mA, a charging voltage of 300 V, and a charging time of 10 minutes. The surface potential distribution of the electret is shown in FIG. It can be seen that charging is performed in the range of 150V to 330V.

  The present invention is particularly useful as a power supply system for devices that consume less power and operate intermittently among IT devices. A power supply for a ubiquitous IT device is assumed that generates electricity on the spot, stores it to an appropriate amount of power, and can be used consistently on the spot. At that time, by being small and mechanical, it can rectify and supply power as a DC power supply while overcoming the loss of the semiconductor rectification method. Typical applications are expected to be used as power sources for functional nodes in sensor networks. Since this device is produced by MEMS (Micro Electromechanical Systems) technology, it can be produced by batch processing which is a feature of the device. For this reason, it is possible to make the same device in an array, and the small amount of each power generation can be covered by making a number. As long as there is no concern about power supply, the functional node can collect more information and can be used more widely as the host can handle it. In addition, since the same device is used in many cases for use as a functional node, it is advantageous that the cost can be easily reduced.

It is principal part sectional drawing which shows the structure of the micro power supply device of embodiment of this invention. It is principal part sectional drawing which shows the preparation methods of the micro power supply device of embodiment of this invention. It is a figure which shows the electret thin film potential measurement experimental result of the micro power supply device of embodiment of this invention. It is a generated current measurement experiment result figure implement | achieved by implementation of this invention.

Explanation of symbols

1: Base electrode 2: Electret film 3: Counter electrode 4: Base electrode complementary electrode 5: Counter electrode support structure 6: Base electrode side mechanical switch 7: Base electrode complementary electrode side mechanical switch 8: Capacitor 9: Load resistance 10: Base Electrode support structure 11: Base electrode complementary electrode support structure

Claims (1)

  Consists of a pair of a base electrode with an electret thin film formed on the surface and a counter electrode made of a metal facing the base electrode. When the base electrode and the counter electrode are electrically connected to each other and a load is connected to each other, the relative movement occurs. In a micro power generation device that performs power generation, one of mechanical switches is installed on both the front and back surfaces of a counter electrode that is opposed to a fixed base electrode and performs relative movement, and the mechanical switch that faces the base electrode of the counter electrode on the base electrode An electrode that is one of the pair of electrodes is installed, and one of the mechanical switches that are paired with the mechanical switch on the opposite side of the base electrode of the counter electrode is installed, and the capacitor is installed on the opposite side of the base electrode mechanical switch and the base electrode. Micro power generation characterized by generating power by connecting one of the mechanical switches Location.

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