公开(公告)号：US07581564B2

公开(公告)日：2009-09-01

申请号：US12116376

申请日：2008-05-07

申请人： Nobuyoshi Tanaka ,  Masato Ibaraki ,  Tsutomu Sakata ,  Toshitsugu Morii

发明人： Nobuyoshi Tanaka ,  Masato Ibaraki ,  Tsutomu Sakata ,  Toshitsugu Morii

IPC分类号： F16L21/00

CPC分类号： F16L25/0045 ,  F16L21/06 ,  F16L41/021 ,  F16L47/32 ,  F16L57/00 ,  Y10S285/903 ,  Y10S285/921

摘要： A protector (10) has two half members (20, 40) forming a tubular shape upon being assembled. One half member (20) includes a pair of temporary fixing ribs (26A, 26B) projecting more than a contact edge (23) with the other half member (40) and standing up at the opposite sides of each of corrugated tubes (80A, 80B), each pair of temporary fixing ribs (26A, 26B) are shaped to be insertable into grooves (81A, 81B) of the corresponding corrugated tube (80A, 80B), and stand-up ends (27A, 27B) of the pair of temporary fixing ribs (26A, 26B) are bent to approach each other along the groove (81A, 81B) of the corrugated tube (80A, 80B).

摘要翻译： 保护器（10）在组装时具有形成管状形状的两个半部件（20,40）。 一个半构件（20）包括一对临时固定肋（26A，26B），该对临时固定肋（26A，26B）比另一个半构件（40）的接触边缘（23）多突出，并且在每个波纹管（80A， 80B），每对临时固定肋（26A，26B）成形为可插入到相应的波纹管（80A，80B）的凹槽（81A，81B）中，并且该对的立起端（27A，27B） 临时固定肋（26A，26B）沿着波纹管（80A，80B）的凹槽（81A，81B）彼此弯曲。

公开(公告)号：US20090187793A1

公开(公告)日：2009-07-23

申请号：US12357080

申请日：2009-01-21

申请人： Hiroshi Dohji ,  Hironori Makimura ,  Minoru Kida ,  Nobuyoshi Tanaka

发明人： Hiroshi Dohji ,  Hironori Makimura ,  Minoru Kida ,  Nobuyoshi Tanaka

IPC分类号： G06F11/26 ,  G06F13/28

CPC分类号： G11C29/56 ,  G11C2029/0401 ,  G11C2029/2602

摘要： To provide a method and the like for testing a main memory in a multi processor system, which is capable of reducing a test execution time and accordingly a start-up time as compared with the case where a single processor is used for the test. The present invention provides a method for testing a main memory (MM) in a multi processor system (MPS) including a main processor (MP) and multiple sub processors (SP) each having a DMA transfer mechanism and a local store (LS). The method and the like including: MP allocating a partial memory region (PMA) in MM to each SP; MP requesting each SP to test the allocated PMA; each SP filling LS thereof with initial data in response to receiving the request; each SP transferring the data stored in LS thereof to PMA by using a DMA transfer; each SP transferring the data stored in PMA to LS thereof by a DMA transfer; and SP testing the data in LS; and MP judging a test result on MM by putting together the tests results in response to the completion of all the tests by respective SP.

摘要翻译： 提供一种用于测试多处理器系统中的主存储器的方法等，与单处理器用于测试的情况相比，其能够减少测试执行时间并相应地减少启动时间。 本发明提供了一种用于在包括主处理器（MP）和多个子处理器（SP）的多处理器系统（MPS）中测试主存储器（MM）的方法，每个子处理器具有DMA传输机制和本地存储器（LS）。 所述方法等包括：MP向每个SP分配MM中的部分存储区域（PMA）; MP要求每个SP测试分配的PMA; 每个SP响应于接收到请求而填充其初始数据; 每个SP通过使用DMA传输将其LS中存储的数据传送到PMA; 每个SP通过DMA传输将存储在PMA中的数据传送到LS; 并对LS中的数据进行SP测试; 并且MP通过将测试结果组合在一起来响应于相应SP的所有测试的完成来判断MM的测试结果。

公开(公告)号：US07407403B2

公开(公告)日：2008-08-05

申请号：US11338010

申请日：2006-01-24

申请人： Nobuyoshi Tanaka ,  Yoji Kanaoka ,  Takayuki Nakatsugawa

发明人： Nobuyoshi Tanaka ,  Yoji Kanaoka ,  Takayuki Nakatsugawa

IPC分类号： H01R13/627

CPC分类号： H01R13/6272

摘要： A male housing (1) has a hood (5) for receiving a female housing (2) and the female housing (2) has a locking arm (9) for engaging the hood (5) when the housings (1, 2) are fit together. Protection walls (19) are formed on the female housing (2) on opposite sides of the locking arm (9). The protection walls (19) are substantially flush with the hood (5) when the housings (1, 2) are fit together. An operation portion (20) of the locking arm (9) also is substantially flush with the hood (5) when the housings (1, 2) are fit together. A predetermined interval is set between opposed ends of the protection wall (19) and the hood (5) and between the operation portion (20) and the hood (5). Thus, an operator's gloves will not be caught while fitting the male and female housing (1, 2) together.

摘要翻译： 阳壳体（1）具有用于容纳阴壳体（2）的罩（5），并且阴壳体（2）具有当壳体（1,2）为 适合在一起。 保护壁（19）形成在锁定臂（9）的相对侧上的阴壳体（2）上。 当壳体（1,2）装配在一起时，保护壁（19）基本上与罩（5）齐平。 当壳体（1,2）装配在一起时，锁定臂（9）的操作部分（20）也基本上与罩（5）齐平。 在保护壁（19）和罩（5）的相对端之间以及操作部（20）和罩（5）之间设置预定间隔。 因此，在将男女外壳（1,2）安装在一起时，操作者的手套不会被抓住。

公开(公告)号：US07275313B2

公开(公告)日：2007-10-02

申请号：US10747414

申请日：2003-12-29

申请人： Kiyofumi Ichida ,  Nobuyoshi Tanaka

发明人： Kiyofumi Ichida ,  Nobuyoshi Tanaka

IPC分类号： B23P19/00

CPC分类号： H01R43/22 ,  H01R13/4367 ,  H01R13/633 ,  Y10T29/53209 ,  Y10T29/53213 ,  Y10T29/53222 ,  Y10T29/53239

摘要： An unlocking jig (40) is fit on a female housing (10) from below. As a result, a guide groove (43A) on a bottom portion (43) of the unlocking jig (40) engages a convexity (22C) on a lower surface of the female housing (10) and a guide groove (43B) on an arm (45) engages a convexity (22B) on a side surface of the female housing (10). The unlocking jig (40) has unlocking claws (a1, a2) that engage short locking pieces (38B, 38C) when the unlocking jig (40) is moved and unlock the short locking pieces (38B, 38C) from locks (22B, 22C) on the housing (10).

摘要翻译： 解锁夹具（40）从下方装配在阴壳体（10）上。 结果，解锁夹具（40）的底部（43）上的引导槽（43A）与阴壳体（10）的下表面上的凸起（22C）和引导槽（43B）接合 ）与凸缘（22B）接合在阴壳体（10）的侧表面上。 当解锁夹具（40）移动并解锁短锁定件（38B，38C）时，解锁夹具（40）具有接合短锁定件（38B，38C）的解锁爪（a 1，a 2） 来自壳体（10）上的锁（22B，22C）。

公开(公告)号：US20070197059A1

公开(公告)日：2007-08-23

申请号：US11656719

申请日：2007-01-23

申请人： Nobuyoshi Tanaka

发明人： Nobuyoshi Tanaka

IPC分类号： H01R12/00

CPC分类号： H01R12/7017 ,  H01R12/724

摘要： A fixing part (12) has two resiliently deformable legs (18) separated by a slot (17). A locking projection (19) is formed at a distal end (19C) of the fixing part (12) and has a locking surface (19A) spaced from the distal end (19C). A maximum cross-sectional dimension (A) of the fixing part (12) at the locking surface (19A) exceeds the diameter (d) of a through-hole (71) in a substrate (70). A tapered sliding-contact surface (19B) extends from the locking surface (19A) to the distal end (19C). Noncontact surfaces (21) are at opposite circumferential ends of each sliding contact surface (19B) and substantially adjacent the slot (17). The noncontact surfaces (22) of each locking projection (19) are spaced from one another at the slot (17) by distances that are no greater than the diameter (d) of the through-hole (71).

摘要翻译： 固定部分（12）具有由槽（17）分开的两个可弹性变形的支脚（18）。 锁定突起（19）形成在固定部分（12）的远端（19C）处并且具有与远端（19C）间隔开的锁定表面（19A）。 固定部分（12）在锁定表面（11A）处的最大横截面尺寸（A）超过衬底（70）中的通孔（71）的直径（d）。 锥形滑动接触表面（19B）从锁定表面（19A）延伸到远端（19C）。 非接触表面（21）在每个滑动接触表面（19B）的相对的周向端部处并且基本上邻近狭槽（17）。 每个锁定突起（19）的非接触表面（22）在槽（17）处彼此间隔开不超过通孔（71）的直径（d）的距离。

公开(公告)号：US06829279B1

公开(公告)日：2004-12-07

申请号：US09494945

申请日：2000-02-01

申请人： Tadahiro Ohmi ,  Nobumasa Suzuki ,  Hiroshi Ohsawa ,  Nobuyoshi Tanaka ,  Toshikuni Shinohara ,  Masaki Hirayama

发明人： Tadahiro Ohmi ,  Nobumasa Suzuki ,  Hiroshi Ohsawa ,  Nobuyoshi Tanaka ,  Toshikuni Shinohara ,  Masaki Hirayama

IPC分类号： H01S500

CPC分类号： G03F7/70025 ,  H01S3/0315 ,  H01S3/0385 ,  H01S3/225

摘要： In a laser oscillating apparatus for exciting a laser gas in a laser tube by introducing an electromagnetic wave from a waveguide into the laser tube through a plurality of slots formed in a waveguide wall, and generating a laser beam by resonating light emitted from the laser gas, the slots are formed in a line such that their longitudinal direction is consistent with the longitudinal direction of the waveguide, and a metal wall is so formed as to surround these slots. This metal wall forms a gap as a microwave passage from the slots to a window in the laser tube wall, thereby spacing the laser tube wall apart from the slots by a predetermined distance.

摘要翻译： 在激光振荡装置中，通过将形成在波导壁上的多个槽引入来自波导的电磁波向激光管激励激光器中的激光气体，通过使从激光气体发出的光共振而产生激光束 槽形成为一条直线，使得它们的纵向与波导的纵向方向一致，并且金属壁形成为围绕这些槽。 该金属壁形成从激光管壁中的狭缝到窗口的微波通道的间隙，从而将激光管壁与狭缝分开预定距离。

公开(公告)号：US06804285B2

公开(公告)日：2004-10-12

申请号：US09425015

申请日：1999-10-25

申请人： Tadahiro Ohmi ,  Hiroshi Osawa ,  Nobuyoshi Tanaka ,  Kazuhide Ino ,  Toshikuni Shinohara ,  Yasuyuki Shirai ,  Masaki Hirayama

发明人： Tadahiro Ohmi ,  Hiroshi Osawa ,  Nobuyoshi Tanaka ,  Kazuhide Ino ,  Toshikuni Shinohara ,  Yasuyuki Shirai ,  Masaki Hirayama

IPC分类号： H01S322

CPC分类号： H01S3/036

摘要： A gas supply path structure forms a fluid path for allowing a laser gas to flow into or out of a pair of fluid inlet and outlet 11a and a laser gas is controlled to a predetermined subsonic speed at a throat portion. Gas supplies for controlling the speed of the gas are connected each to the fluid inlet and to the fluid outlet of the gas supply path structure and, together with a cooling device, compose a circulation system for controlling the speed and pressure of the laser gas at the fluid inlet and/or at the fluid outlet.

摘要翻译： 气体供给路径结构形成用于允许激光气体流入或流出一对流体入口和出口11a的流体路径，并且在喉部处将激光气体控制到预定的亚音速。 用于控制气体速度的气体供应装置连接到流体入口和气体供给路径结构的流体出口，并且与冷却装置一起构成用于控制激光气体的速度和压力的循环系统 流体入口和/或在流体出口处。

公开(公告)号：US06801554B1

公开(公告)日：2004-10-05

申请号：US09531958

申请日：2000-03-21

申请人： Tadahiro Ohmi ,  Nobumasa Suzuki ,  Hiroshi Ohsawa ,  Nobuyoshi Tanaka ,  Toshikuni Shinohara ,  Masaki Hirayama

发明人： Tadahiro Ohmi ,  Nobumasa Suzuki ,  Hiroshi Ohsawa ,  Nobuyoshi Tanaka ,  Toshikuni Shinohara ,  Masaki Hirayama

IPC分类号： H01S300

CPC分类号： H01S3/225 ,  H01S3/0975

摘要： An excimer laser gas in a laser tube 2 is excited by a microwave introduced from awaveguide 1, and electric field concentration occurs in a slit-shaped gap 3 provided in a plate member 11c, causing plasma discharge. Then the phase of plasma light is regulated and the light is resonated, to cause excimer laser light. This construction realizes plasma excitation entirely uniform along a lengthwise direction of laser light emission, and enables uniform laser light emission with minimum energy loss.

摘要翻译： 激光管2中的准分子激光气体被从波导管1引入的微波激发，并且在设置在板构件11c中的狭缝状间隙3中发生电场浓度，引起等离子体放电。 然后等离子体光的相位被调节并且光被共振，以引起准分子激光。 这种结构实现了沿着激光发射的长度方向的等离子体激发完全均匀，并且以最小的能量损失实现均匀的激光发射。

公开(公告)号：US06744802B1

公开(公告)日：2004-06-01

申请号：US09512074

申请日：2000-02-24

申请人： Tadahiro Ohmi ,  Nobumasa Suzuki ,  Hiroshi Ohsawa ,  Nobuyoshi Tanaka ,  Toshikuni Shinohara ,  Masaki Hirayama

发明人： Tadahiro Ohmi ,  Nobumasa Suzuki ,  Hiroshi Ohsawa ,  Nobuyoshi Tanaka ,  Toshikuni Shinohara ,  Masaki Hirayama

IPC分类号： H01S3097

CPC分类号： G03F7/70025 ,  H01S3/0315 ,  H01S3/0975 ,  H01S3/225

摘要： In a slot array structure, electromagnetic wave emission which is uniform as a whole over the length of a laser tube is realized to allow uniform laser emission with minimum energy loss. Slots (10) are formed at a predetermined pitch in a long end face (H plane) of each waveguide (1) along a central line (m) in the longitudinal direction of the H plane to be alternately located on the left and right sides of the central line (m) and spaced apart from the central line (m) by a distance (d).

摘要翻译： 在时隙阵列结构中，实现了在激光管的长度上整体上均匀的电磁波发射，以允许具有最小能量损失的均匀的激光发射。 在每个波导（1）的长边（H平面）上沿着H平面的纵向方向上的中心线（m）以预定间距形成狭槽（10），以交替地位于左侧和右侧 的中心线（m）并与中心线（m）间隔开距离（d）。

公开(公告)号：US06520788B2

公开(公告)日：2003-02-18

申请号：US09813710

申请日：2001-03-21

申请人： Kiyofumi Ichida ,  Hitoshi Okumura ,  Nobuyoshi Tanaka

发明人： Kiyofumi Ichida ,  Hitoshi Okumura ,  Nobuyoshi Tanaka

IPC分类号： H01R1352

CPC分类号： H01R13/5219 ,  H01R13/6272

摘要： A watertight connector includes male and female housings (10, 20). The male housing (10) has an engaging end surface (10A) with a mounting recess (15) in which a seal (40) is mountable. The seal (40) has sealing portions (45) to be fitted around outer surfaces of pillars (16) that surround male terminal fittings (13). A lattice-shaped array of press-in grooves (46) is provided between the sealing portions (45), and a peripheral press-in groove (47) is formed between the sealing portions (45) and the mounting recess (15). A peripheral rib (32) and a lattice-shaped array of ribs (33) project from an engaging end surface (20A) of the female housing (20). The ribs (32, 33) enter the press-in grooves (46, 47) as the housings (10, 20) are connected and come into sealing contact with the outer circumferential surfaces of the sealing portions (45).

摘要翻译： 防水连接器包括阳和阴壳体（10,20）。 阳壳体（10）具有接合端面（10A），其具有可安装密封件（40）的安装凹部（15）。 密封件（40）具有密封部分（45），该密封部分围绕阳端子配件（13）安装在支柱（16）的外表面周围。 在密封部（45）之间设有压入槽（46）的格子状阵列，在密封部（45）和安装凹部（15）之间形成有周缘压入槽47。 周边肋（32）和格子状阵列（33）从阴壳体（20）的接合端表面（20A）伸出。 当壳体（10,20）连接并且与密封部分（45）的外周表面密封接触时，肋（32,33）进入压入槽（46,47）。