Patent application number | Description | Published |
20090273043 | Micro-electro-mechanical system device and method for making same - According to the present invention, a micro-electro-mechanical system (MEMS) device comprises: a thin film structure including at least a metal layer and a protection layer deposited in any order; and a protrusion connected under the thin film structure. A preferred thin film structure includes at least a lower protection layer, a metal layer and an upper protection layer. The MEMS device for example is a capacitive MEMS acoustical sensor. | 11-05-2009 |
20090277267 | In-plane sensor and method for making same - According to the present invention, an in-plane sensor comprises: a fixed structure including a fixed finger and a fixed column connected to each other, the fixed finger having a supported end supported by the fixed column and a suspended end which is unsupported; and a movable structure including at least one mass body and an extending finger connected to each other; wherein the supported end of the fixed finger is closer to the mass body than the suspended end is. | 11-12-2009 |
20100024549 | In-Plane Sensor, Out-of-Plane Sensor, and Method for Making Same - According to the present invention, an in-plane sensor comprises a structure unit which includes: a fixed structure including a fixed finger and a fixed column connected to each other, the fixed finger having a supported end supported by the fixed column and a suspended end; and a movable structure including at least one proof mass which surrounds the fixed finger in a horizontal plane. | 02-04-2010 |
20100116055 | MICRO-ELECTRO-MECHANICAL SYSTEM DEVICE, OUT-OF-PLANE SENSOR AND METHOD FOR MAKING MICRO-ELECTRO-MECHANICAL SYSTEM DEVICE - The present invention discloses a micro-electro-mechanical system (MEMS) device, comprising: a mass including a main body and two capacitor plates located at the two sides of the main body and connected with the main body, the two capacitor plates being at different elevation levels; an upper electrode located above one of the two capacitor plates, forming one capacitor therewith; and a lower electrode located below the other of the two capacitor plates, forming another capacitor therewith, wherein the upper and lower electrodes are misaligned with each other in a horizontal direction. | 05-13-2010 |
20100116056 | Micro-Electro-Mechanical System Device, Out-Of-Plane Sensor and Method for Making Micro-Electro-Mechanical System Device - The present invention discloses a micro-electro-mechanical system (MEMS) device, comprising: a substrate with at least one opening; and a membrane supported on the substrate, the membrane including at least two thin segments and a thick segment connected together, wherein the two thin segments are not at the same level, and the thick segment is formed by a plurality of layers including at least two metal layers and a via layer, such that the membrane has a curve cross section. | 05-13-2010 |
20100120257 | METHOD FOR MAKING MICRO-ELECTRO-MECHANICAL SYSTEM DEVICE - The present invention discloses a method for making a MEMS device, comprising: providing a zero-layer substrate; forming a MEMS device region on the substrate, wherein the MEMS device region is provided with a first sacrificial region to separate a suspension structure of the MEMS device from another part of the MEMS device; removing the first sacrificial region by etching; and micromachining the zero-layer substrate. | 05-13-2010 |
20100148321 | Micro-Electro-Mechanical-System Device with Particles Blocking Function and Method for Making Same - The present invention discloses a MEMS device with particles blocking function, and a method for making the MEMS device. The MEMS device comprises: a substrate on which is formed a MEMS device region; and a particles blocking layer deposited on the substrate. | 06-17-2010 |
20100213568 | MICRO-ELECTRO-MECHANICAL-SYSTEM DEVICE WITH GUARD RING AND METHOD FOR MAKING SAME - The present invention discloses a MEMS device with guard ring, and a method for making the MEMS device. The MEMS device comprises a bond pad and a sidewall surrounding and connecting with the bond pad, characterized in that the sidewall forms a guard ring by an etch-resistive material. | 08-26-2010 |
20110024850 | MICRO ELECTRONIC DEVICE AND METHOD FOR FABRICATING MICRO ELECTROMECHANICAL SYSTEM RESONATOR THEREOF - A method for fabricating a MEMS resonator is provided. A stacked main body including a silicon substrate, a plurality of metallic layers and an isolation layer is formed and has a first etching channel extending from the metallic layers into the silicon substrate. The isolation layer is filled in the first etching channel. The stacked main body also has a predetermined suspended portion. Subsequently, a portion of the isolation layer is removed so that a second etching channel is formed and the remained portion of the isolation layer covers an inner sidewall of the first etching channel. Afterwards, employing the isolation layer that covers the inner sidewall of the first etching channel as a mask, an isotropic etching process through the second etching channel is applied to the silicon substrate, thereby forming the MEMS resonator suspending above the silicon substrate. The method for fabricating MEMS resonator can be integrated with the process of fabricating the CMOS circuit, thereby the process of fabricating a microelectronic device can be simplified and the cost of fabricating a micro electronic device can be reduced. A micro electronic device is also provided in the present invention. | 02-03-2011 |
20110024852 | MEMS DEVICE AND MEMS SPRING ELEMENT - A micro electromechanical system (MEMS) spring element is disposed on a substrate, and includes a fixing portion and a moveable portion. The fixing portion is fixed on the substrate, and includes an insulating layer, a plurality of metal-fixing layers and a plurality of supporting-fixing layers. The insulating layer is disposed on the substrate. The metal-fixing layers are disposed above the insulating layer. The supporting-fixing layers are connected between the metal-fixing layers. The moveable portion has a first end and a second end. The first end is connected with the fixing portion, and the second end is suspended above the substrate. The moveable portion includes a plurality of metal layers and at least a supporting layer. The supporting layer is connected between the adjacent metal layers, and a hollow region is formed between the supporting layer and the adjacent metal layers. The deformation of the MEMS spring element generated because of the different thermal expansion may be avoided and the working performance of the MEMS spring element can be improved. | 02-03-2011 |
20110037132 | MEMS PACKAGE STRUCTURE AND METHOD FOR FABRICATING THE SAME - A method for fabricating MEMS package structure includes the following steps. Firstly, a substrate is provided. Next, a plurality of lower metallic layers and first oxide layers are formed to compose a MEMS structure and an interconnecting structure. Next, an upper metallic layer is formed on the MEMS structure and the interconnecting structure. The upper metallic layer has a first opening and a second opening. Next, the first opening and the second opening are employed as etching channels to remove a portion of the first oxide layers so as to form a first cavity surrounding the MEMS structure and form a second cavity above the interconnecting structure. The first cavity communicates with the second cavity. Next, the second opening is sealed in a vacuum environment. Next, a packaging element is formed on the upper metallic layer in a non-vacuum environment to seal the first opening. | 02-17-2011 |
20110037160 | MICROELECTRONIC DEVICE AND FABRICATING METHOD THEREOF AND MEMS PACKAGE STRUCTURE AND FABRICATING METHOD THEREOF - A fabricating method of a microelectronic device including the following steps is provided. First, a substrate is provided. Second, a semi-conductor element is formed in a CMOS circuit region of the substrate. Next, a plurality of metallic layer, a plurality of contact plugs and a plurality of oxide layer are formed on the substrate. The metallic layers and the oxide layers are interlaced with each other and the contact plugs are formed in the oxide layers and connected with the metallic layers correspondingly so as to form a micro electromechanical system (MEMS) structure within a MEMS region and an interconnecting structure within the CMOS circuit region. Then, a first protective layer is formed on at least one of the oxide layers and a second protective layer is formed on the interconnecting structure. Predetermined portions of the oxide layers located within the MEMS region are removed and thereby the MEMS structure is partially suspended above the substrate. The present invention also provides a microelectronic device, a MEMS package structure and a fabricating method thereof | 02-17-2011 |
20110108934 | MICRO-ELECTRO-MECHANICAL-SYSTEM DEVICE WITH PARTICLES BLOCKING FUNCTION AND METHOD FOR MAKING SAME - The present invention discloses a MEMS device with particles blocking function, and a method for making the MEMS device. The MEMS device comprises: a substrate on which is formed a MEMS device region; and a particles blocking layer deposited on the substrate. | 05-12-2011 |
20110226060 | IN-PLANE SENSOR AND METHOD FOR MAKING SAME - According to the present invention, an in-plane sensor comprises: a fixed structure including a fixed finger and a fixed column connected to each other, the fixed finger having a supported end supported by the fixed column and a suspended end which is unsupported; and a movable structure including at least one mass body and an extending finger connected to each other; wherein the supported end of the fixed finger is closer to the mass body than the suspended end is. | 09-22-2011 |
20110260268 | Micro-Electro-Mechanical System Device and Method for Making Same - According to the present invention, a micro-electro-mechanical system (MEMS) device comprises: a thin film structure including at least a metal layer and a protection layer deposited in any order; and a protrusion connected under the thin film structure. A preferred thin film structure includes at least a lower protection layer, a metal layer and an upper protection layer. The MEMS device for example is a capacitive MEMS acoustical sensor. | 10-27-2011 |
20120267732 | MEMS PACKAGE STRUCTURE - A MEMS package structure, including a substrate, an interconnecting structure, an upper metallic layer, a deposition element and a packaging element is provided. The interconnecting structure is disposed on the substrate. The MEMS structure is disposed on the substrate and within a first cavity. The upper metallic layer is disposed above the MEMS structure and the interconnecting structure, so as to form a second cavity located between the upper metallic layer and the interconnecting structure and communicates with the first cavity. The upper metallic layer has at least a first opening located above the interconnecting structure and at least a second opening located above the MEMS structure. Area of the first opening is greater than that of the second opening. The deposition element is disposed above the upper metallic layer to seal the second opening. The packaging element is disposed above the upper metallic layer to seal the first opening. | 10-25-2012 |
20130069177 | MICRO ELECTRONIC DEVICE - A method for fabricating a MEMS resonator is provided. A stacked main body including a silicon substrate, a plurality of metallic layers and an isolation layer is formed and has a first etching channel extending from the metallic layers into the silicon substrate. The isolation layer is filled in the first etching channel. The stacked main body also has a predetermined suspended portion. Subsequently, a portion of the isolation layer is removed so that a second etching channel is formed and the remained portion of the isolation layer covers an inner sidewall of the first etching channel. Afterwards, employing the isolation layer that covers the inner sidewall of the first etching channel as a mask, an isotropic etching process through the second etching channel is applied to the silicon substrate, thereby forming the MEMS resonator suspending above the silicon substrate. A micro electronic device is also provided. | 03-21-2013 |
20130102100 | Method for Making Micro-Electro-Mechanical System Device - The present invention discloses a method for making a MEMS device, comprising: providing a zero-layer substrate; forming a MEMS device region on the substrate, wherein the MEMS device region is provided with a first sacrificial region to separate a suspension structure of the MEMS device from another part of the MEMS device; removing the first sacrificial region by etching; and micromachining the zero-layer substrate. | 04-25-2013 |
20130119441 | MICROELECTRONIC DEVICE AND MEMS PACKAGE STRUCTURE AND FABRICATING METHOD THEREOF - A microelectronic device including a substrate, at least a semi-conductor element, an anti metal ion layer, a non-doping oxide layer and a MEMS structure is provided. The substrate has a CMOS circuit region and a MEMS region. The semi-conductor element is configured within the CMOS circuit region of the substrate. The anti metal ion layer is disposed within the CMOS circuit region of the substrate and covers the semi-conductor element. The non-doping oxide layer is disposed on the substrate within the MEMS region. The MEMS structure is partially suspended above the non-doping oxide layer. The present invention also provides a MEMS package structure and a fabricating method thereof. | 05-16-2013 |
20140339655 | MEMS PACKAGE STRUCTURE - A MEMS package structure, including a substrate, an interconnecting structure, an upper metallic layer, a deposition element and a packaging element is provided. The interconnecting structure is disposed on the substrate. The MEMS structure is disposed on the substrate and within a first cavity. The upper metallic layer is disposed above the MEMS structure and the interconnecting structure, so as to form a second cavity located between the upper metallic layer and the interconnecting structure and communicates with the first cavity. The upper metallic layer has at least a first opening located above the interconnecting structure and at least a second opening located above the MEMS structure. Area of the first opening is greater than that of the second opening. The deposition element is disposed above the upper metallic layer to seal the second opening. The packaging element is disposed above the upper metallic layer to seal the first opening. | 11-20-2014 |