公开(公告)号：US20110170241A1

公开(公告)日：2011-07-14

申请号：US12686978

申请日：2010-01-13

Applicant: Henry Helvajian ,  William W. Hansen ,  Lee F. Steffeney

Inventor： Henry Helvajian ,  William W. Hansen ,  Lee F. Steffeney

IPC: H05K5/00 ,  H01R43/00

CPC classification number: H05K3/101 ,  B01J19/0093 ,  B01J2219/00824 ,  B01J2219/00835 ,  B01J2219/00853 ,  B01J2219/00941 ,  B01J2219/00948 ,  B01L3/502707 ,  B01L2300/12 ,  B81B2201/051 ,  B81B2203/0338 ,  B81C1/00634 ,  G02B2006/12035 ,  G02B2006/12171 ,  H01P3/121 ,  H05K1/0306 ,  H05K1/16 ,  H05K1/162 ,  H05K1/165 ,  H05K3/0023 ,  Y10T29/49117

Abstract: A photostructurable ceramic is processed using photostructuring process steps for embedding devices within a photostructurable ceramic volume, the devices may include one or more of chemical, mechanical, electrical, electromagnetic, optical, and acoustic devices, all made in part by creating device material within the ceramic or by disposing a device material through surface ports of the ceramic volume, with the devices being interconnected using internal connections and surface interfaces.

Abstract translation: 使用用于将装置嵌入可光可陶瓷陶瓷体积内的光学结构化工艺步骤来处理可光刻陶瓷，所述装置可以包括化学，机械，电气，电磁，光学和声学装置中的一种或多种，​​所有这些都部分地通过在 陶瓷或通过陶瓷体的表面端口设置器件材料，使用内部连接和表面接口互连这些器件。

公开(公告)号：US20060126477A1

公开(公告)日：2006-06-15

申请号：US11010878

申请日：2004-12-13

Applicant: Frank Livingston ,  Henry Helvajian

Inventor： Frank Livingston ,  Henry Helvajian

IPC: G11B7/00

CPC classification number: B23K26/0861 ,  B23K26/0626

Abstract: A pulse modulation laser writing system generates a motion control file for controlled motion of a sample under modulated laser beam exposure and generates a laser script file for generating a sequence of laser writing processes, such as, ablation, welding, texturing, and dosing, the sample while under motion control. The system enables laser writing processing of complex multimaterial samples in a single manufacturing process.

公开(公告)号：US06952530B2

公开(公告)日：2005-10-04

申请号：US10741795

申请日：2003-12-19

Applicant: Henry Helvajian ,  Siegfried W. Janson

Inventor： Henry Helvajian ,  Siegfried W. Janson

IPC: B64G1/10 ,  B64G1/26 ,  B64G1/36 ,  B64G1/40 ,  B64G1/42 ,  B64G1/44 ,  B64G1/66 ,  C03C10/00 ,  C03C15/00 ,  G02B6/42 ,  H04B10/00

CPC classification number: B64G1/10 ,  B64G1/26 ,  B64G1/361 ,  B64G1/402 ,  B64G1/425 ,  B64G1/443 ,  B64G1/66 ,  C03C10/00 ,  C03C15/00 ,  G02B6/4246

Abstract: Integrated glass ceramic spacecraft include a plurality of glass ceramic components including molded, tempered, annealed, and patterned glass ceramic components coupled together for forming a support structure or frame or housing through which is communicated optical signals through an optical communications grid and electrical signals through an electrical communications grid, with the optical communications grid and electrical communication grid forming a composite electrooptical communications grid for spacecraft wide intercommunications. The support structure multifunctions as a frame, a housing, a support, a thermal control system, and as part of an electrooptical communications grid while encapsulating a plurality of optical, electronic, electrical, and MEMS devices between which is communicated the electrical and optical signals over the electrooptical communication grid.

公开(公告)号：US06851259B2

公开(公告)日：2005-02-08

申请号：US10171715

申请日：2002-06-12

Applicant: Edward J. Simburger ,  Henry Helvajian

Inventor： Edward J. Simburger ,  Henry Helvajian

IPC: F17C5/06 ,  F16D31/02

CPC classification number: F17C5/06 ,  F17C2223/013 ,  F17C2223/0138 ,  F17C2250/032 ,  F17C2250/043 ,  F17C2250/0439 ,  F17C2260/012 ,  F17C2270/0194 ,  F17C2270/0772

Abstract: An inflatable structure includes a plurality of inflation cells each have a respective internal gas generator connected to an external control processor for sequential inflation of the inflatable structure. Power and control lines feed through the inflation cells for powering the internal gas generator and for communicating control signals between the gas generators and the external control processor. A method of sequence inflation can use various types of exemplar gas generators, such as cellular containment evaporation gas generators and laser ablation gas generators.

Abstract translation: 可充气结构包括多个充气室，每个充气室具有连接到外部控制处理器的相应的内部气体发生器，用于可充气结构的顺序充气。 电力和控制线路通过膨胀电池供电，为内部气体发生器供电，并在气体发生器和外部控制处理器之间传递控制信号。 序列膨胀的方法可以使用各种类型的示例性气体发生器，例如细胞容纳蒸发气体发生器和激光烧蚀气体发生器。

公开(公告)号：US06830221B1

公开(公告)日：2004-12-14

申请号：US10742058

申请日：2003-12-19

Applicant: Siegfried W. Janson ,  Henry Helvajian

Inventor： Siegfried W. Janson ,  Henry Helvajian

IPC: B64G100

CPC classification number: B64G1/10 ,  B64G1/22 ,  B64G1/26 ,  B64G1/361 ,  B64G1/363

Abstract: Integrated glass ceramic spacecraft include a plurality of glass ceramic components including molded, tempered, annealed, and patterned glass ceramic components coupled together for forming a support structure or frame or housing through which is communicated optical signals through an optical communications grid and electrical signals through an electrical communications grid, with the optical communications grid and electrical communication grid forming a composite electrooptical communications grid for spacecraft wide intercommunications. The support structure multifunctions as a frame, a housing, a support, a thermal control system, and as part of an electrooptical communications grid while encapsulating a plurality of optical, electronic, electrical, and MEMS devices between which is communicated the electrical and optical signals over the electrooptical communication grid. In a preferred form, the integrated glass ceramic spacecraft providing internal and external communications, includes a plurality of patterned glass ceramic substrates stacked together to form the spacecraft support structure, with each substrate having a primary function such as thrusting, optical communications, battery power storage, propellant storage, sensing, and central processing.

Abstract translation: 集成的玻璃陶瓷航天器包括多个玻璃陶瓷部件，包括耦合在一起的模制，回火，退火和图案化的玻璃陶瓷部件，用于形成支撑结构或框架或壳体，通过该支撑结构或框架或壳体通过光通信网格传送光信号，并通过 电气通信网格，与光通信网格和电气通信网格形成复合电光通信网格，用于航天器广泛的通信。 支撑结构作为框架，壳体，支撑件，热控制系统以及作为电光通信网格的一部分而多功能，同时封装多个光学，电子，电气和MEMS器件，在其间传送电和光信号 在优选的形式中，提供内部和外部通信的集成玻璃陶瓷航天器包括堆叠在一起以形成航天器支撑结构的多个图案化的玻璃陶瓷基板，每个基板具有主要功能，例如推进， 光通信，电池蓄能，推进剂存储，感测和中央处理。

公开(公告)号：US06823670B2

公开(公告)日：2004-11-30

申请号：US10166882

申请日：2002-06-11

Applicant: Edward J. Simburger ,  Siegfried W. Janson ,  Henry Helvajian

Inventor： Edward J. Simburger ,  Siegfried W. Janson ,  Henry Helvajian

IPC: F16D3102

CPC classification number: B64G1/222 ,  B64G2001/224

Abstract: An inflatable structure includes a plurality of inflation cells each have a respective internal gas generator connected to an external control processor for sequential inflation of the inflatable structure. Power and control lines feed through the inflation cells for powering the internal gas generator and for communicating control signals between the gas generators and the external control processor. A method of sequence inflation can use various types of exemplar gas generators, such as cellular containment evaporation gas generators and laser ablation gas generators.

Abstract translation: 可充气结构包括多个充气室，每个充气室具有连接到外部控制处理器的相应的内部气体发生器，用于可充气结构的顺序充气。 电力和控制线路通过膨胀电池供电，为内部气体发生器供电，并在气体发生器和外部控制处理器之间传递控制信号。 序列膨胀的方法可以使用各种类型的示例性气体发生器，例如细胞容纳蒸发气体发生器和激光烧蚀气体发生器。

公开(公告)号：US06783920B2

公开(公告)日：2004-08-31

申请号：US10345012

申请日：2003-01-15

Applicant: Frank E. Livingston ,  Henry Helvajian

Inventor： Frank E. Livingston ,  Henry Helvajian

IPC: G03C500

CPC classification number: C03C14/006 ,  C03C4/04 ,  C03C23/0025 ,  C03C2214/08 ,  H05K1/0306 ,  H05K3/0023 ,  H05K3/0082 ,  Y10S428/913 ,  Y10S430/146 ,  Y10T428/315

Abstract: The direct-write pulsed UV laser technique combined with the variable laser exposure fabrication method entails the precise variation of the laser irradiance during pattern formation in the photostructurable glass for variable laser exposing processing. The variable laser exposure patterning utilizes the dependence of the chemical etching rate on the controlled laser exposure dose for forming variable laser irradiated and crystallized regions of the exposed glass, that have variable etch rates that are dependent on the laser irradiance, resulting in the formation of high and low aspect ratio features in a common substrate that are realized during a single, maskless etch step.