公开(公告)号：US20170196387A1

公开(公告)日：2017-07-13

申请号：US15145338

申请日：2016-05-03

Applicant: Dang Minh Tran

Inventor： Dang Minh Tran

IPC: A47G21/06

CPC classification number: A47G21/103 ,  A47G2400/025

Abstract: An eating utensil including a chopsticks 1, 1A-1H that includes a self-elevating eating section 10, 10A-H feature regardless of placement of a handling section 12, 12A-12H on a horizontal surface 32 (when a chopstick is rested by a User). Other embodiments may be described and claimed.

公开(公告)号：US08065506B2

公开(公告)日：2011-11-22

申请号：US12193455

申请日：2008-08-18

Applicant: Jinwen Xi ,  Roman Staszewski ,  Thang Minh Tran

Inventor： Jinwen Xi ,  Roman Staszewski ,  Thang Minh Tran

IPC: G06F17/00

CPC classification number: G06F9/3885 ,  G06F9/30036

Abstract: This invention is an application specific integrated processor to implement the complete fixed-rate DRX signal processing paths (FDRX) for a reconfigurable processor-based multi-mode 3G wireless application. This architecture is based on the baseline 16-bit RISC architecture with addition functional blocks (ADU) tightly coupled with the based processor's data path. Each ADU accelerates a computation-intensive tasks in FDRX signal path, such as multi-tap FIRs, IIRs, complex domain and vectored data processing. The ADUs are controlled through custom instructions based on the load/store architecture. The whole FDRX data path can be easily implemented by the software employing these custom instructions.

Abstract translation: 本发明是一种专用集成处理器，用于实现用于可重新配置的基于处理器的多模3G无线应用的完整固定速率DRX信号处理路径（FDRX）。 该架构基于16位RISC架构，附加功能块（ADU）与基于处理器的数据路径紧密耦合。 每个ADU加速FDRX信号路径中的计算密集型任务，如多抽头FIR，IIR，复杂域和矢量数据处理。 ADU通过基于加载/存储架构的定制指令进行控制。 整个FDRX数据路径可以通过使用这些定制指令的软件轻松实现。

公开(公告)号：US20110226891A1

公开(公告)日：2011-09-22

申请号：US12661403

申请日：2010-03-17

Applicant: Hien Minh Tran

Inventor： Hien Minh Tran

IPC: B64C31/02 ,  B64D25/10

CPC classification number: B64C39/026 ,  B64D25/10

Abstract: Ejection seats have been on the road towards perfection ever since they were first made. But there are still too many situations that can't be avoided with just one function, ejecting and parachuting down. We have attempted to take it a few steps further: adding a small jet pack and glider wings. This way, pilots and astronauts can apply it in their emergency escape routines. Using the small jet pack, astronauts can push themselves on their way back to the blue planet and pilots can get themselves out of a danger zone quickly. This can also be a wonderful outdoor sport or activity.

Abstract translation: 自从首次制造以来，排斥座位一直走在完美的道路上。 但仍然有太多的情况，无法避免只有一个功能，弹出和降落伞。 我们已经尝试了几步：增加一个小喷气机组和滑翔机翼。 这样，飞行员和宇航员就可以将其应用到紧急逃生程序中。 使用小型喷气机组，宇航员可以将自己的方式推回到蓝色的星球上，飞行员可以迅速将自己摆脱危险区域。 这也可以是一个美妙的户外运动或活动。

公开(公告)号：US20110208950A1

公开(公告)日：2011-08-25

申请号：US13053000

申请日：2011-03-21

Applicant: Thang Minh Tran ,  Raul A. Garibay, JR. ,  James Nolan Hardage

Inventor： Thang Minh Tran ,  Raul A. Garibay, JR. ,  James Nolan Hardage

IPC: G06F9/30

CPC classification number: G06F9/3826 ,  G06F9/3838

Abstract: A method of instruction issue (3200) in a microprocessor (1100, 1400, or 1500) with execution pipestages (E1, E2, etc.) and that executes a producer instruction Ip and issues a candidate instruction I0 (3245) having a source operand dependency on a destination operand of instruction Ip. The method includes issuing the candidate instruction I0 as a function (1720, 1950, 1958, 3235) of a pipestage EN(I0) of first need by the candidate instruction for the source operand, a pipestage EA(Ip) of first availability of the destination operand from the producer instruction, and the one execution pipestage E(Ip) currently associated with the producer instruction. A method of data forwarding (3300) in a microprocessor (1100, 1400, or 1500) having a pipeline (1640) having pipestages (E1, E2, etc.), wherein the method includes scoreboarding information E(Ip) (1710, 2220) to represent a changing pipestage position for data from a producer instruction Ip, and selectively forwarding (2310, 3360) the data from the pipestage having the represented pipestage position E(Ip), based on the information (1710), to a receiving pipestage (1682, E1) for a dependent instruction. Wireless communications devices (1010, 1010′, 1040, 1050, 1060, 1080), systems, circuits, devices, scoreboards (1700.N), processes and methods of operation, processes and articles of manufacture (FIGS. 13-16), are also disclosed.

Abstract translation: 一种在具有执行分支（E1，E2等）的微处理器（1100,1400或1500）中执行指令发出（3200）的方法，并且执行生成器指令Ip并发出具有源操作数的候选指令I0（3245） 依赖于指令Ip的目标操作数。 该方法包括作为源操作数的候选指令首先需要的分支管理EN（I0）的函数（1720,195，...，1935，3235）发出候选指令I0，以及源操作数的第一可用性的分支EA（Ip） 来自生产者指令的目的地操作数和当前与生产者指令相关联的一个执行管道E（Ip）。 一种具有具有分支（E1，E2等）的流水线（1640）的微处理器（1100,1400或1500）中的数据转发（3300）方法，其中该方法包括记分板信息E（Ip）（1710,2220 ）表示来自生产者指令Ip的数据的变化的管道位置，并且基于所述信息（1710）从具有所述管道位置E（Ip）的所述管道选择性地将（2310,3360）的数据转发到接收管道 （1682，E1）用于依赖指令。 无线通信设备（1010,1010'，1040,1050,1060,1080），系统，电路，设备，记分板（1700.N），操作过程和方法，过程和制品（图13-16） 也被披露。

公开(公告)号：USD635671S1

公开(公告)日：2011-04-05

申请号：US29356080

申请日：2010-02-19

Applicant: Bryce Way ,  Alberto Cantu ,  Minh Tran

Designer： Bryce Way ,  Alberto Cantu ,  Minh Tran

公开(公告)号：US07776682B1

公开(公告)日：2010-08-17

申请号：US11110165

申请日：2005-04-20

Applicant: Alexander Nickel ,  Suzette K. Pangrle ,  Steven C. Avanzino ,  Jeffrey Shields ,  Fei Wang ,  Minh Tran ,  Juri H. Krieger ,  Igor Sokolik

Inventor： Alexander Nickel ,  Suzette K. Pangrle ,  Steven C. Avanzino ,  Jeffrey Shields ,  Fei Wang ,  Minh Tran ,  Juri H. Krieger ,  Igor Sokolik

IPC: H01L21/8242

CPC classification number: H01L45/1233 ,  H01L27/2472 ,  H01L45/085 ,  H01L45/1246 ,  H01L45/1266 ,  H01L45/14 ,  H01L45/141 ,  H01L45/142 ,  H01L45/146 ,  H01L45/149 ,  H01L45/1616

Abstract: Disclosed are methods and systems for improving cell-to-cell repeatability of electrical performance in memory cells. The methods involve forming an electrically non-conducting material having ordered porosity over a passive layer. The ordered porosity can facilitate formation of conductive channels through which charge carriers can migrate across the otherwise non-conductive layer to facilitate changing a state of a memory cell. A barrier layer can optionally be formed over the non-conductive layer, and can have ordered porosity oriented in a manner substantially perpendicular to the conductive channels such that charge carries migrating across the non-conductive layer cannot permeate the barrier layer. The methods provide for the manufacture of microelectronic devices with cost-effective and electrically reliable memory cells.

Abstract translation: 公开了用于改善记忆单元中电性能的细胞间细胞重复性的方法和系统。 所述方法包括在无源层上形成具有有序孔隙率的非导电材料。 有序孔隙度可以促进导电通道的形成，电荷载体可以穿过导​​电通道迁移穿过另外的非导电层以便于改变存储器单元的状态。 可以可选地在非导电层上形成阻挡层，并且可以以基本上垂直于导电沟道的方式定向排序的孔隙，使得穿过非导电层迁移的电荷不能渗透到阻挡层。 该方法提供了具有成本效益和电可靠性的存储单元的微电子器件的制造。

公开(公告)号：USD619253S1

公开(公告)日：2010-07-06

申请号：US29326748

申请日：2008-10-23

Applicant: Bryce Way ,  Alberto Cantu ,  Minh Tran

Designer： Bryce Way ,  Alberto Cantu ,  Minh Tran

公开(公告)号：US20050144899A1

公开(公告)日：2005-07-07

申请号：US11015641

申请日：2004-12-20

Applicant: Minh Tran ,  Pieter Antonius Sebastianus Pennings

Inventor： Minh Tran ,  Pieter Antonius Sebastianus Pennings

IPC: F16G5/16 ,  E04B1/00

CPC classification number: F16G5/16

Abstract: A drive belt includes at least one continuous band and a number of cross elements having a transversely curved saddle surface of saddle radius for interacting with an inwardly oriented main face of the continuous band that at a first lateral side thereof adjacent a pillar part of the element connects to a concavely recessed surface part through a first convexely curved transition surface part. The drive belt features include that: a transverse width of the continuous band is larger than that of the saddle surface; the saddle radius is essentially constant throughout the transverse width of the saddle surface; the saddle radius is smaller than a band radius of a transverse curvature of the band in an unloaded state thereof, irrespective of an amount of bending in the longitudinal direction of the band; and the first transition surface part forms a relatively sharp edge.

Abstract translation: 驱动带包括至少一个连续带和多个具有鞍形半径的横向弯曲的鞍座表面的交叉元件，用于与连续带的向内取向的主面相互作用，该连续带的第一侧面邻近元件的柱部分 通过第一凸起的过渡表面部分连接到凹入的凹面部分。 驱动带特征包括：连续带的横向宽度大于鞍座表面的宽度; 鞍座半径在鞍座表面的整个横向宽度上基本上是恒定的; 鞍形半径小于带状物在无负载状态下的横向曲率的带半径，而与带的纵向方向上的弯曲量无关; 并且第一过渡表面部分形成相对尖锐的边缘。

公开(公告)号：US06674953B2

公开(公告)日：2004-01-06

申请号：US10038079

申请日：2002-01-02

Applicant: Zhupei Shi ,  Tongxin Lu ,  Minh Tran ,  Jerry Lee

Inventor： Zhupei Shi ,  Tongxin Lu ,  Minh Tran ,  Jerry Lee

IPC: G02B600

CPC classification number: G02B6/266

Abstract: A controllable attenuator includes a pair of collimators respectively connected to input and output fibers. A pair of reflection devices are respectively positioned behind the pair of collimators opposite to the corresponding input and output fibers. A U-like light path is defined among the pair of collimators and the pair of reflection devices. A neutral density filter is moveably positioned between the pair of reflection devices wherein a moving direction of the filter is preferably parallel to a longitudinal direction of the pair of collimators. An ND filter position indicator such as a potentiometer, is used to dynamically monitor attenuation setting.

Abstract translation: 可控衰减器包括分别连接到输入和输出光纤的一对准直器。 一对反射装置分别位于与对应的输入和输出光纤相对的一对准直器的后面。 在一对准直器和一对反射装置中限定U形光路。 中性密度过滤器可移动地定位在一对反射装置之间，其中过滤器的移动方向优选地平行于一对准直器的纵向方向。 ND滤波器位置指示器（如电位计）用于动态监测衰减设置。

公开(公告)号：US06298833B1

公开(公告)日：2001-10-09

申请号：US09545391

申请日：2000-04-07

Applicant: Brad Douville ,  Stephen D. Noble ,  S. Michael Baker ,  Minh Tran ,  Alain Touchette

Inventor： Brad Douville ,  Stephen D. Noble ,  S. Michael Baker ,  Minh Tran ,  Alain Touchette

IPC: F02B4300

CPC classification number: F02D19/10 ,  F02D19/0678 ,  F02D19/0684 ,  F02D19/0689 ,  F02D19/0694 ,  F02M21/0251 ,  F02M21/0263 ,  F02M43/00 ,  F02M43/04 ,  F02M47/046 ,  F02M61/16 ,  Y02T10/32 ,  Y02T10/36

Abstract: A dynamic fluid sealing system for a fuel injection valve employs sealing-fluid to separate a gaseous fuel and a second fluid in the fuel injection valve, thereby preventing leakage of the gaseous fuel into the second fluid. A pressure-balancing system, which includes a pressure-balancing device, reduces the pressure differential between the sealing-fluid and the gaseous fuel used in the injection valve. At the same time, the pressure balancing system dynamically balances the sealing-fluid pressure such that the sealing-fluid pressure is equal to or slightly greater than the pressure of the gaseous fuel within the injection valve. The pressure differential between the gaseous fuel and the sealing-fluid may be maintained throughout the operating range of engine speeds, engine loads, and fuel cut-off conditions so as to prevent leakage of compressible gaseous fuel into the second fluid. The reduced pressure differential between the gaseous fuel and the sealing-fluid also reduces leakage of sealing-fluid into the gaseous fuel.

Abstract translation: 用于燃料喷射阀的动态流体密封系统使用密封流体来分离燃料喷射阀中的气体燃料和第二流体，从而防止气体燃料泄漏到第二流体中。 包括压力平衡装置的压力平衡系统降低了密封流体和喷射阀中使用的气体燃料之间的压力差。 同时，压力平衡系统动态平衡密封流体压力，使得密封流体压力等于或略大于喷射阀内的气体燃料的压力。 气体燃料和密封流体之间的压差可以在发动机转速，发动机负荷和燃料切断条件的整个运行范围内保持，以防止可压缩的气体燃料泄漏到第二流体中。 气体燃料和密封流体之间的减小的压力差也减少了密封流体进入气体燃料的泄漏。