CN1570563A

CN1570563A - Suspended rotor MEMS micro-gyroscope utilizing static and charge relaxation to work

Info

Publication number: CN1570563A
Application number: CN 200410018015
Authority: CN
Inventors: 张卫平; 陈文元; 赵小林; 段永瑞; 崔峰
Original assignee: Shanghai Jiaotong University
Current assignee: Shanghai Jiaotong University
Priority date: 2004-04-29
Filing date: 2004-04-29
Publication date: 2005-01-26
Anticipated expiration: 2024-04-29
Also published as: CN100350215C

Abstract

This invention relates to a floating rotor MEMS micro-gyroscope by use of static electricity and charge relaxation and can be applied in navigational control fields, such as satellite and automobile. This invention comprises double stator, periphery structures and rotor. The double stator is located up-and-down and forms a basket structure by connecting with periphery structures. The rotor is fixed in the center of the basket structure. And the periphery structures is around the rotor and comprises radial suspension electrode and radial detecting electrode pair that lies between radial suspension electrodes. This invention realizes the suspension stability and position detecting of the rotor by setting axial and radial detecting and suspension electrode.

Description

Utilize the little gyro of suspension rotor MEMS of static and charge relaxation work

Technical field

The present invention relates to the little gyro of a kind of MEMS (MEMS (micro electro mechanical system)), particularly a kind of little gyro of suspension rotor MEMS that utilizes static and charge relaxation work is used for Navigation Control fields such as satellite, automobile.

Background technology

But the MEMS device has the characteristics of microminiaturization, low cost, low energy consumption mass, and in recent years, the scholar of various countries, slip-stick artist attempt design and make the little gyro of suspension rotor MEMS.

Find that by literature search United States Patent (USP) " acceleration detection type gyro and manufacture method (acceleration-detectingtype gyro and manufacturing method thereof) " (patent No. 5920983) mentions a kind of little gyro of static that can measure the suspension rotor of two axis angular rates and three axis accelerometers simultaneously, adopt glass-silicon-glass bonding structure, stator is to form at making electrode on glass, and silicon plays the connection effect.Rotor adopts single crystal silicon material to make.Its principal feature is on the silicon rotor, below on be carved with the annular concentric outstanding suspension electrode of many annular concentric grooves to form rotor, correspondingly, at the circumferential uniform 4 groups of suspension electrodes in the glass substrate upper edge of every side, every group of suspension electrode is made of a pair of comb electrode, the arc comb arranged crosswise of this a pair of comb electrode, its broach width, adjacent spacing is identical with epitrochanterian annular projection electrode, the certain distance but the radial position of arranging is staggered, like this, electrostatic force between suspension electrode not only is used for the suspension of rotor axial, and the suspension of rotor radial is also had the centering effect.The rotation of this patent gyrorotor is based on the principle work of variable capacitance static micro motor.

There is following deficiency in this technology, because above-mentioned comb electrode wants little many to the Suspension Control power that control compares rotor axial of radially recovering of rotor, so the control accuracy of the rotor radial of the described gyro of this patent and sensitivity will be lower than axial; Owing to adopt variable capacitance to make the rotor high-speed rotation, must separative electrode on the rotor or be equivalent to the land-based area of electrode, complex structure.In order to guarantee the permanent high-speed rotation of rotor, must detect the relative position of rotor and the voltage of determinant electrode in real time and apply order simultaneously, the permanent high speed detection control loop of special rotor must be arranged.

Summary of the invention

The objective of the invention is to deficiency at prior art, a kind of little gyro of suspension rotor MEMS that utilizes static and charge relaxation work is proposed, make it utilize charge relaxation to make the permanent high-speed rotation of rotor, do not need to be provided with electrode on the rotor, thereby can make round square position, structure and control are simple, have also made things convenient for processing; By being provided with axially and the radial suspension electrode is realized suspending and added square and stablizes; By detecting electrode to realizing position probing.

The present invention is achieved through the following technical solutions.The whole sandwich structure that adopts of gyro of the present invention is divided into stator, rotor, following stator, peripheral structure four parts formation.Stator is by cage construction of the continuous formation of peripheral structure up and down, and rotor places the centre of this cage construction.The function of stator has two, and the one, can form the capable ripple of rotational voltage on its surface, induce the voltage traveling wave of hysteresis at the charge relaxation layer of rotor, thereby drive the rotor high-speed rotation; The one, it is stable to realize that axial location detects, suspends and add square.The function of peripheral structure is to realize radially detecting and suspending.

Stator is that the space is towards difference up and down, its structure is identical, by the cross section is square or rectangle and be in A phase conducting ring in the same plane layer, B phase conducting ring, C phase conducting ring, A phase rotation electrode, A phase electrode joint pin, B phase rotation electrode, B phase electrode joint pin, C phase rotation electrode, C phase electrode joint pin, axial suspension electrode and axial detecting electrode are to constituting.A phase rotation electrode, B phase rotation electrode, C phase rotation electrode abut against together, form a space distribution cycle.Can be on the stator surface circumference by a plurality of such A, B, the periodic distribution of C phase rotation electrode.A phase conducting ring links to each other by A phase electrode joint pin with A phase rotation electrode, and B phase conducting ring links to each other by B phase electrode joint pin with B phase rotation electrode, and C phase conducting ring links to each other by C phase electrode joint pin with C phase rotation electrode.The maximal value of the radial dimension of A phase rotation electrode, B phase rotation electrode, C phase rotation electrode is greater than the external diameter of A phase conducting ring, and the minimum value of the radial dimension of A phase rotation electrode, B phase rotation electrode, C phase rotation electrode is less than the internal diameter of C phase conducting ring.Axial suspension electrode and axial detecting electrode to be arranged on A phase rotation electrode, B phase rotation electrode, C phase rotation electrode around.Four axial detecting electrodes are to laying respectively between two the most adjacent with it axial suspension electrodes.

Rotor is five layers of round square position structure, and the middle layer is a supporting layer, adopts silicon, and two surfaces are insulation course about it, adopts SiO ₂Insulating material, insulation course are outward the charge relaxation layers, adopt the notes boron doped polycrystalline silicon materials with charge relaxation effect.In the middle of supporting layer is positioned at, adopt intensity better to reach the Si material that is fit to microfabrication, the charge relaxation layer links to each other with supporting layer by insulation course.

Peripheral structure is made of radial suspension electrode and capacitance detecting electrode respectively.Radially detecting electrode in order to guarantee the performance of entire device, can adopt Vacuum Package between corresponding two radial suspension electrodes.

The present invention has axially and radially two settings that suspend, and two suspension settings can be replenished mutually, improve whole suspension rigidity of gyro and effect.

Axial suspension of the present invention: the rotor axial position that obtains according to stator capacitance detecting up and down, by on the axial suspension electrode, applying voltage, utilize electrostatic force between the stator shaft orientation suspension electrode and rotor up and down, realize that rotor axial suspends.

Radial suspension of the present invention: utilize peripheral structure capacitance detecting electrode to obtain the radial position of rotor,, realize that rotor radial suspends by the radial suspension electrode application voltage.

Rotor rotation of the present invention: on the stator rotation electrode, apply the sequential potential pulse, form the capable ripple of rotational voltage,, and then drive the permanent high-speed rotation of rotor because the charge relaxation effect induces the voltage traveling wave of hysteresis on rotor at stator surface.Belong to the asynchronous motor principle of work, do not need position probing and backfeed loop.

Position probing of the present invention: radial position detect to be by extract detecting electrode radially to and rotor between capacitance realize.It is to realize by the capacitance between stator shaft orientation detecting electrode and the rotor about the extraction that axial location detects.

Moment of the present invention applies: apply by the voltage of the suspension electrode of stator up and down and realize.

The present invention is simple in structure, utilizes charge relaxation, by the capable ripple of stator surface rotational voltage, induces the voltage traveling wave of hysteresis on rotor, and then drives the permanent high-speed rotation of rotor, does not need rotating speed to detect and both can realize the permanent high-speed rotation of rotor.By axial detection and axial suspension electrode axially are being set, radially detecting electrode and radial suspension electrode are realized the stable suspersion of rotor.Entire device adopts the MEMS micro-processing technology to make, and is easy to implement.It is little to have size, in light weight, and cost is low, precision height, low in power consumption.

Description of drawings

Fig. 1 general structure synoptic diagram of the present invention

Fig. 2 stator structure synoptic diagram of the present invention

Fig. 3 rotor structure synoptic diagram of the present invention

Fig. 4 peripheral structure synoptic diagram of the present invention

Embodiment

As shown in Figure 1, the present invention is combined by stator 1, stator 4, rotor 3, peripheral structure 2.Stator 1 in the above, stator 4 below, stator 1,4 links to each other by peripheral structure 2 and constitutes a cage construction, rotor 3 places the centre of this cage construction.

As shown in Figure 2, the structure of stator 1 and stator 4, by the cross section is square or rectangle and be in A phase conducting ring 8 in the same plane layer, B phase conducting ring 9, C phase conducting ring 7, a plurality of A phase rotation electrodes 15, a plurality of A phase electrode joint pin 14, a plurality of B phase rotation electrodes 16, a plurality of B phase electrode joint pin 17, a plurality of C phase rotation electrodes 18, a plurality of C phase electrode joint pin 19,

axial suspension electrode

5,10,12,20 and axial detecting electrode constitute 6,11,13,21.A phase conducting ring 8, B phase conducting ring 9, C phase conducting ring 7 are arranged on the substrate surface with insulation course.A phase rotation electrode 15, B phase rotation electrode 16, C phase rotation electrode 18 abut against together, form a space distribution cycle.Can be on the stator surface circumference by a plurality of such A, B, the periodic distribution of C phase rotation electrode.A plurality of A phase rotation electrodes 15 by a plurality of A phase electrode joint pins 14 and A mutually conducting ring 8 with link to each other.Conducting ring 9 is continuous mutually with B by a plurality of B phase electrode joint pins 17 for a plurality of B phase rotation electrodes 16.Conducting ring 7 is continuous mutually with C by C phase electrode joint pin 19 for a plurality of C phase rotation electrodes 18.The maximal value of the radial dimension of A phase rotation electrode 15, B phase rotation electrode 16, C phase rotation electrode 18 is greater than the external diameter of A phase conducting ring 8, and the minimum value of the radial dimension of A phase rotation electrode 15, B phase rotation electrode 16, C phase rotation electrode 18 is less than the internal diameter of C phase conducting ring 7.

Axial suspension electrode

5,10,12,20 and axial detecting electrode to 6,11,13,21 be disposed in a plurality of A phases, B phase, C

phase rotation electrode

15,16,18 around, and be in same one deck with a plurality of

rotation electrodes

15,16,18.Axially detecting electrode to 6 between

axial suspension electrode

5 and 10, axially detecting electrode to 11 between

axial suspension electrode

10 and 12, axially detecting electrode is to 13 between

axial suspension electrode

12 and 20, axially detecting electrode to 21 between

axial suspension electrode

5 and 20.

As shown in Figure 3, rotor 3 is five layers of round square position structure, is respectively charge

relaxation layer

22,26, and in the middle of

insulation course

23,25, supporting layer 24, supporting layer 24 were positioned at,

charge relaxation layer

22,26 linked to each other with supporting layer 24 by

insulation course

23,25 respectively.Charge relaxation layer (22,26) adopts the notes boron doped polycrystalline silicon materials with charge relaxation effect; Insulation course (23,25) adopts SiO ₂Insulating material; Supporting layer (24) adopts intensity better to reach the Si material that is fit to microfabrication.

As shown in Figure 4, peripheral structure 2 is arranged on around the rotor 3, by

radial suspension electrode

28,30,32,34 and radially detecting electrode constitute 27,29,31,33.Radially detecting electrode to 29 between radial suspension electrode 28 and 30, radially detecting electrode to 31 between radial electrode 30 and 32, radially detecting electrode is to 33 between

radial suspension electrode

32 and 34, radially detecting electrode to 27 between

radial suspension electrode

28 and 34.

During concrete enforcement, the number of A phase rotation electrode 15, B phase rotation electrode 16, C phase rotation electrode 18 can be adjusted as required,

axial suspension electrode

5,10,12,20 and axial detecting electrode be to 6,11,13,21,

radial suspension electrode

28,30,32,34 and radially detecting electrode also be adjustable to 27,29,31,33 number.

Claims

1, a kind of little gyro of suspension rotor MEMS that utilizes static and charge relaxation work, by stator (1,4), peripheral structure (2), rotor (3) constitutes, stator (1,4) upper and lower settings, it is characterized in that, stator (1,4) by cage construction of the continuous formation of peripheral structure (2), peripheral structure (2) is arranged on rotor (3) on every side, rotor (3) places the centre of this cage construction, described peripheral structure (2) is by radial suspension electrode (28,30,32,34) and radially detecting electrode is to (27,29,31,33) constitute, radially detecting electrode is positioned at radial suspension electrode (28 to (29), 30) between, radially detecting electrode is positioned at radial electrode (30 to (31), 32) between, radially detecting electrode is positioned at radial suspension electrode (32 to (33), 34) between, radially detecting electrode is positioned at radial suspension electrode (28 to (27), 34) between.

2, the little gyro of suspension rotor MEMS that utilizes static and charge relaxation work according to claim 1, it is characterized in that, stator (1,4) structure is identical, by A phase conducting ring (8), B phase conducting ring (9), C phase conducting ring (7), A phase rotation electrode (15), A phase electrode joint pin (14), B phase rotation electrode (16), B phase electrode joint pin (17), C phase rotation electrode (18), C phase electrode joint pin (19), axial suspension electrode (5,10,12,20) and axial detecting electrode to (6,11,13,21) constitute, A phase conducting ring (8) links to each other by A phase electrode joint pin (14) with A phase rotation electrode (15), B phase conducting ring (9) links to each other by B phase electrode joint pin (17) with B phase rotation electrode (16), C phase conducting ring (7) links to each other axial suspension electrode (5 with C phase rotation electrode (18) by C phase electrode joint pin (19), 10,12,20) and axial detecting electrode to (6,11,13,21) be arranged on rotation electrode (15,16,18) around.

3, the little gyro of suspension rotor MEMS that utilizes static and charge relaxation work according to claim 2, it is characterized in that, axially detecting electrode is positioned between axial suspension electrode (5) and (10) (6), axially detecting electrode is positioned between axial suspension electrode (10) and (12) (11), axially detecting electrode is positioned between axial suspension electrode (12) and (20) (13), and axially detecting electrode is positioned between axial suspension electrode (5) and (20) (21).

4, the little gyro of suspension rotor MEMS that utilizes static and charge relaxation work according to claim 2, it is characterized in that, A phase rotation electrode (15), B phase rotation electrode (16), C phase rotation electrode (18) abuts against together, form a space distribution cycle, on the stator surface circumference by a plurality of such A, B, the periodic distribution of C phase rotation electrode, A phase rotation electrode (15), B phase rotation electrode (16), the maximal value of the radial dimension of C phase rotation electrode (18) is greater than the external diameter of A phase conducting ring (8), A phase rotation electrode (15), B phase rotation electrode (16), the minimum value of the radial dimension of C phase rotation electrode (18) is less than the internal diameter of C phase conducting ring (7).

5, the little gyro of suspension rotor MEMS that utilizes static and charge relaxation work according to claim 2, it is characterized in that, A phase conducting ring (8), B phase conducting ring (9), C phase conducting ring (7) are that the cross section is the conductive ring of square or rectangle, and are in the same plane layer.

6, the little gyro of suspension rotor MEMS that utilizes static and charge relaxation work according to claim 1, it is characterized in that, rotor (3) is by charge relaxation layer (22,26), insulation course (23,25), five layers of round square position structure that supporting layer (24) constitutes, in the middle of supporting layer (24) was positioned at, charge relaxation layer (22,26) linked to each other with supporting layer (24) by insulation course (23,25) respectively.

7, the little gyro of suspension rotor MEMS that utilizes static and charge relaxation work according to claim 6 is characterized in that, charge relaxation layer (22,26) adopts the notes boron doped polycrystalline silicon materials with charge relaxation effect, and insulation course (23,25) adopts SiO ₂Insulating material, supporting layer (24) adopt intensity better to reach the Si material that is fit to microfabrication.