公开(公告)号：US07647615B1

公开(公告)日：2010-01-12

申请号：US09071046

申请日：1998-05-04

Applicant: Jurgen Reinold ,  David Knappenberger ,  Mathew Cucuzella ,  Jack Scott Geranen ,  Jeff Lee ,  Michael E. Williams

Inventor： Jurgen Reinold ,  David Knappenberger ,  Mathew Cucuzella ,  Jack Scott Geranen ,  Jeff Lee ,  Michael E. Williams

IPC: H04N60/32 ,  H04N7/173

CPC classification number: H04N7/1675 ,  H04N21/2368 ,  H04N21/4325 ,  H04N21/4341

Abstract: An audio input interface (122) receives a digital audio signal and identifies an audio bitstream which is optionally decrypted by a decryption unit (123), and decoded by an audio decoding unit (124). An audio digital to analog converter (126) converts the decoded audio bitstream to an analog audio signal which is optionally decrypted by an audio analog decryption unit (127) and output by an audio output interface (128) to an analog wireline device (100). A video input interface (142) receives a digital video signal and identifies a video bitstream which is optionally decrypted by a video digital decryption unit (143), and decoded by a video decoding unit (144). A video digital to analog converter (146) converts the decoded video bitstream to an analog video signal that is optionally decrypted by a video analog decryption unit (147) and output by a video output interface (148) to the analog wireline device (100).

Abstract translation: 音频输入接口（122）接收数字音频信号并识别由解密单元（123）可选解密的音频比特流，并由音频解码单元（124）解码。 音频数模转换器（126）将解码的音频比特流转换成模拟音频信号，模拟音频信号可选地由音频模拟解密单元（127）解密并由音频输出接口（128）输出到模拟有线设备（100） 。 视频输入接口（142）接收数字视频信号并识别由视频数字解密单元（143）可选解密的视频比特流，并由视频解码单元（144）解码。 视频数/模转换器（146）将解码视频比特流转换成视频模拟解密单元（147）可选地解密并由视频输出接口（148）输出到模拟有线设备（100）的模拟视频信号， 。

公开(公告)号：US07048274B2

公开(公告)日：2006-05-23

申请号：US10468595

申请日：2002-02-21

Applicant: Michael Duncombe ,  Jeff Lee

Inventor： Michael Duncombe ,  Jeff Lee

IPC: A63F1/00

CPC classification number: A63F3/00157 ,  A63F1/00 ,  A63F2003/00164

Abstract: A method of gambling on a card game, said game being played with one or more conventional 52 card decks, comprising the steps of: players placing wagers on the next drawn card meeting a predetermined card outcome condition; a dealer drawing one card from a shuffled deck or decks; and the dealer paying said wagers, on the basis of the card having a face value that meets said predetermined outcome condition.

Abstract translation: 一种在纸牌游戏上进行赌博的方法，所述游戏用一个或多个传统52卡牌进行游戏，其特征在于包括以下步骤：玩家将下注的卡片放置在满足预定卡片结果条件的下一张卡上; 经销商从洗牌甲板或甲板上画一张牌; 并且所述经销商根据具有满足所述预定结果条件的面值的卡来支付所述赌注。

公开(公告)号：US20130015859A1

公开(公告)日：2013-01-17

申请号：US13299443

申请日：2011-11-18

Applicant: I-Shih Tseng ,  Tien-Teng Chang ,  Jeff Lee ,  Chih-Yu Cheng ,  Hsu-Ting Cheng

Inventor： I-Shih Tseng ,  Tien-Teng Chang ,  Jeff Lee ,  Chih-Yu Cheng ,  Hsu-Ting Cheng

IPC: G01R31/26

CPC classification number: G01R31/2635 ,  G01R1/0408

Abstract: A testing apparatus for flip chip LEDs includes a transparent substrate, a spacing member, a flexible transparent carrier, and a vacuum generator. The spacing member is configured on a first surface of the transparent substrate. The flexible transparent carrier is removably assembled to the spacing member so that a closed space is formed by the flexible transparent carrier, the spacing member, and the first surface of the transparent substrate. The vacuum generator is connected to the closed space for pumping air out of the closed space, and then a part of the transparent substrate clings to the first surface to form a testing area for loading the flip chip LED.

Abstract translation: 倒装芯片LED的测试装置包括透明衬底，间隔构件，柔性透明载体和真空发生器。 间隔部件构造在透明基板的第一面上。 柔性透明载体可移除地组装到间隔构件，使得由柔性透明载体，间隔构件和透明基底的第一表面形成封闭空间。 真空发生器连接到封闭空间，用于将空气排出封闭空间，然后一部分透明基板粘附到第一表面，形成用于装载倒装芯片LED的测试区域。

公开(公告)号：US06175628B1

公开(公告)日：2001-01-16

申请号：US09071368

申请日：1998-05-04

Applicant: Jurgen Reinold ,  David Knappenberger ,  Mathew Cucuzella ,  Jack Scott Geranen ,  Jeff Lee ,  Michael E. Williams

Inventor： Jurgen Reinold ,  David Knappenberger ,  Mathew Cucuzella ,  Jack Scott Geranen ,  Jeff Lee ,  Michael E. Williams

IPC: H04L914

CPC classification number: H04N7/1675 ,  H04H20/61 ,  H04H60/23 ,  H04N7/162 ,  H04N21/4305 ,  H04N21/4341 ,  H04N21/4405

Abstract: An audio input interface (122) receives a digital audio signal and identifies an audio bitstream which is optionally decrypted by a decryption unit (123), and decoded by an audio decoding unit (124). An audio digital to analog converter (126) converts the decoded audio bitstream to an analog audio signal which is optionally decrypted by an audio analog decryption unit (127). A video input interface (142) receives a digital video signal and identifies a video bitstream which is optionally decrypted by a video digital decryption unit (143), and decoded by a video decoding unit (144). A video digital to analog converter (146) converts the decoded video bitstream to an analog video signal that is optionally decrypted by a video analog decryption unit (147). An analog transmitter (150) mixes the analog audio signal and analog video signal and transmits an analog output signal to a television (110).

Abstract translation: 音频输入接口（122）接收数字音频信号并识别由解密单元（123）可选解密的音频比特流，并由音频解码单元（124）解码。 音频数模转换器（126）将解码的音频比特流转换为可选地由音频模拟解密单元（127）解密的模拟音频信号。 视频输入接口（142）接收数字视频信号并识别由视频数字解密单元（143）可选解密的视频比特流，并由视频解码单元（144）解码。 视频数/模转换器（146）将解码的视频比特流转换成视频模拟解密单元（147）任选解密的模拟视频信号。 模拟发射机（150）混合模拟音频信号和模拟视频信号，并将模拟输出信号发送到电视机（110）。

公开(公告)号：USD389370S

公开(公告)日：1998-01-20

申请号：US67599

申请日：1997-03-11

Applicant: Jeff Lee

Designer： Jeff Lee

公开(公告)号：US09429617B2

公开(公告)日：2016-08-30

申请号：US13299443

申请日：2011-11-18

Applicant: I-Shih Tseng ,  Tien-Teng Chang ,  Jeff Lee ,  Chih-Yu Cheng ,  Hsu-Ting Cheng

Inventor： I-Shih Tseng ,  Tien-Teng Chang ,  Jeff Lee ,  Chih-Yu Cheng ,  Hsu-Ting Cheng

IPC: G01R31/26 ,  G01R1/04

CPC classification number: G01R31/2635 ,  G01R1/0408

Abstract: A testing apparatus for flip chip LEDs includes a transparent substrate, a spacing member, a flexible transparent carrier, and a vacuum generator. The spacing member is configured on a first surface of the transparent substrate. The flexible transparent carrier is removably assembled to the spacing member so that a closed space is formed by the flexible transparent carrier, the spacing member, and the first surface of the transparent substrate. The vacuum generator is connected to the closed space for pumping air out of the closed space, and then a part of the transparent substrate clings to the first surface to form a testing area for loading the flip chip LED.

Abstract translation: 倒装芯片LED的测试装置包括透明衬底，间隔构件，柔性透明载体和真空发生器。 间隔部件构造在透明基板的第一面上。 柔性透明载体可移除地组装到间隔构件，使得由柔性透明载体，间隔构件和透明基底的第一表面形成封闭空间。 真空发生器连接到封闭空间，用于将空气排出封闭空间，然后一部分透明基板粘附到第一表面，形成用于装载倒装芯片LED的测试区域。

公开(公告)号：US08803581B2

公开(公告)日：2014-08-12

申请号：US12758451

申请日：2010-04-12

Applicant: Shyh-An Chi ,  Shiue Tsong Shen ,  Jeff Lee ,  Frank Y. Lee

Inventor： Shyh-An Chi ,  Shiue Tsong Shen ,  Jeff Lee ,  Frank Y. Lee

IPC: H03K3/289 ,  H03K3/012

CPC classification number: H03K3/012 ,  G01R31/318541

Abstract: A flip-flop structure with reduced set-up time is provided. The flip-flop includes the first master latch receiving a function data through the first switch controlled by a clock signal, the second master latch receiving a scan data through the second switch controlled by the clock signal, and a slave latch connected to the first master latch through the third switch controlled by the clock signal. The second master latch is coupled to the first master latch through the fourth switch controlled by the scan enable signal so that the scan enable signal controls whether the function data or the scan data becomes an output from the first master latch to the slave latch, and the slave latch is used to latch and transmit the output from the first master latch.

Abstract translation: 提供了一种具有缩短设置时间的触发器结构。 触发器包括通过由时钟信号控制的第一开关接收功能数据的第一主锁存器，第二主锁存器通过由时钟信号控制的第二开关接收扫描数据，以及从锁存器连接到第一主器件 通过由时钟信号控制的第三开关锁存。 第二主锁存器通过由扫描使能信号控制的第四开关耦合到第一主锁存器，使得扫描使能信号控制功能数据或扫描数据是否变为从第一主锁存器到从锁存器的输出，以及 从锁存器用于锁存和传输来自第一主锁存器的输出。

公开(公告)号：US20100276256A1

公开(公告)日：2010-11-04

申请号：US12717005

申请日：2010-03-03

Applicant: Albert Kleinikkink ,  Javan Taylor ,  Jeff Lee ,  Brad Northey ,  Jayson Jones

Inventor： Albert Kleinikkink ,  Javan Taylor ,  Jeff Lee ,  Brad Northey ,  Jayson Jones

IPC: B65G17/00

CPC classification number: B65G43/00 ,  B23Q7/1447 ,  B65G33/04 ,  B65G35/06 ,  B65G35/066 ,  B65G54/02

Abstract: A conveyor system comprising: a track section comprising a control system; a drive system that is controlled by the control system; a plurality of moving elements that are driven by the drive system; a pallet support apparatus; a plurality of pallets that are configured to engage with the moving elements and move on the pallet support apparatus; and a plurality of workstations provided along the track section, each workstation at a predetermined pitch from each other workstation, wherein at least some of the pitches are different among workstations, wherein the control system, drive system and moving elements are configured such that each pallet of the plurality of pallets is independently advanced through the workstations based on the pitches of the workstations.

Abstract translation: 一种输送机系统，包括：轨道部分，包括控制系统; 由控制系统控制的驱动系统; 由驱动系统驱动的多个移动元件; 托盘支撑装置; 多个托盘，其构造成与所述移动元件接合并在所述托盘支撑设备上移动; 以及沿着轨道部分设置的多个工作站，每个工作站以彼此预定的间距从彼此的工作站，其中至少一些间距在工作站之间是不同的，其中控制系统，驱动系统和移动元件被配置为使得每个托盘 基于工作站的间距，多个托盘中的多个托盘独立地通过工作站前进。

公开(公告)号：US07804589B2

公开(公告)日：2010-09-28

申请号：US12429578

申请日：2009-04-24

Applicant: I-Shih Tseng ,  Jeff Lee ,  Min-Hung Chang

Inventor： I-Shih Tseng ,  Jeff Lee ,  Min-Hung Chang

IPC: G01J1/00 ,  H01J3/14 ,  H01J40/14

CPC classification number: G01J1/4228 ,  G01J1/02 ,  G01J1/0223 ,  G01J2001/0481 ,  G01J2001/4247 ,  G01R31/01 ,  G01R31/2635

Abstract: A method for testing light-emitting devices in a batch-wise, associated with a system for the same purpose, comprises the steps of: preparing the light-emitting devices on a moving carrier unit in a manner of aligning a predetermined longitudinal direction of the light-emitting devices with a predetermined transportation direction of the moving carrier unit, each of the light-emitting devices further having plural light-emitting elements; transporting orderly the light-emitting devices to pass a test area on a base of the system, in which the base energizes only the light-emitting elements within the test area; and, a solar cell module detecting continuously the energized light-emitting elements within the test area and further forming signals with respect to photo energy received in the test area.

Abstract translation: 用于同样目的的与系统相关联地测试发光器件的方法包括以下步骤：将移动的载体单元上的发光器件以对准预定的纵向方向的方式 具有预定的移动载体单元的输送方向的发光装置，每个发光装置还具有多个发光元件; 传输有序的发光器件，以通过系统底座上的测试区域，其中基极仅激励测试区域内的发光元件; 以及太阳能电池模块，连续地检测测试区域内的激发的发光元件，并进一步形成关于在测试区域中接收的光能的信号。

公开(公告)号：US20080065988A1

公开(公告)日：2008-03-13

申请号：US11519352

申请日：2006-09-11

Applicant: Sandeep Gupta ,  Szu-Wen Huang ,  Greg Marriott ,  Jeff Lee

Inventor： Sandeep Gupta ,  Szu-Wen Huang ,  Greg Marriott ,  Jeff Lee

IPC: G06F7/00

CPC classification number: G06F17/30749 ,  G06F17/30023 ,  G06F17/30755

Abstract: Improved methods and systems that assist a user in searching media items on a portable electronic device are disclosed. According to one aspect of the invention, a portable electronic device is provided with a search function that enables a user to search for media items resident on the portable electronic device. The search function can search through different types of media items. Those of the media items that are deemed matching can be ranked in order of relevance and displayed in a list for the user. Thereafter, the user can navigate the list to select one of the listed media items for playback. According to another aspect of the invention, various graphical user interfaces can be presented on a portable electronic device to assist a user in interacting with the portable electronic device to utilize a search function.

Abstract translation: 公开了帮助用户在便携式电子设备上搜索媒体项目的改进的方法和系统。 根据本发明的一个方面，便携式电子设备具有搜索功能，使得用户能够搜索驻留在便携式电子设备上的媒体项目。 搜索功能可以搜索不同类型的媒体项目。 被认为是匹配的媒体项目可以按照相关性的顺序排列，并显示在用户列表中。 此后，用户可以导航列表以选择列出的媒体项之一用于播放。 根据本发明的另一方面，可以在便携式电子设备上呈现各种图形用户界面，以帮助用户与便携式电子设备进行交互以利用搜索功能。