公开(公告)号：US20130319527A1

公开(公告)日：2013-12-05

申请号：US13988363

申请日：2011-08-10

Applicant: Tomoya Tamura ,  Hiroyoshi Yamamoto ,  Masaru Sakamoto

Inventor： Tomoya Tamura ,  Hiroyoshi Yamamoto ,  Masaru Sakamoto

IPC: C23C14/34 ,  H01L31/0272 ,  C22C28/00 ,  B22F3/14 ,  C22C9/00

CPC classification number: H01L31/0272 ,  B22F3/14 ,  B22F9/04 ,  B22F2998/10 ,  C22C1/0425 ,  C22C9/00 ,  C22C28/00 ,  C23C14/3414 ,  H01L31/0322 ,  H01L31/18 ,  Y02E10/541 ,  Y02P70/521

Abstract: A Cu—Ga alloy sintered-compact sputtering target having a Ga concentration of 40 to 50 at % and Cu as the balance, wherein the sintered-compact sputtering target is characterized in that the relative density is 80% or higher, and the compositional deviation of the Ga concentration is within ±0.5 at % of the intended composition. A method of producing a Cu—Ga alloy sintered-compact sputtering target having a Ga concentration of 40 to 50 at % and Cu as the balance, wherein the method thereof is characterized in that Cu and Ga raw materials are melted and cooled/pulverized to produce a Cu—Ga alloy raw material powder, and the obtained material powder is further hot-pressed with a retention temperature being between the melting point of the mixed raw material powder and a temperature 15° C. lower than the melting point and with a pressure of 400 kgf/cm2 or more applied to the sintered mixed raw material powder. Provided are a sputtering target having very low compositional deviation and high density; a method of producing the target; a light-absorbing layer having a Cu—Ga based alloy film; and a CIGS solar cell including the light-absorbing layer.

Abstract translation: Ga浓度为40〜50原子％的Cu-Ga合金烧结致密溅射靶，其余为Cu，其特征在于，相对密度为80％以上，成分偏差 的Ga浓度在所需组成的±0.5at％以内。 将Ga浓度为40〜50原子％，Cu作为余量的Cu-Ga合金烧结体型溅射靶的制造方法，其特征在于，将Cu和Ga原料熔融冷却/粉碎至 生成Cu-Ga合金原料粉末，将所得材料粉末进一步热压，保持温度在混合原料粉末的熔点和低于熔点15℃的温度之间， 对烧结的混合原料粉末施加400kgf / cm 2以上的压力。 提供具有非常低的组成偏差和高密度的溅射靶; 生产目标的方法; 具有Cu-Ga基合金膜的光吸收层; 以及包括光吸收层的CIGS太阳能电池。

公开(公告)号：US20120314796A1

公开(公告)日：2012-12-13

申请号：US13489644

申请日：2012-06-06

Applicant: Hitomi HORI ,  Hidetaka Arai ,  Kazuhiro Toyoda ,  Hiroyoshi Yamamoto

Inventor： Hitomi HORI ,  Hidetaka Arai ,  Kazuhiro Toyoda ,  Hiroyoshi Yamamoto

IPC: H04L27/00

CPC classification number: H04L25/4906

Abstract: A first bit-sequence, which is to be transmitted from a control section to an authentication chip according to an encoding scheme that transmits each one and zero by a pulse with a width of 200 μsec and 100 μsec respectively, is converted to a second bit-sequence to be transmitted according to NRZ encoding. The converted second bit-sequence is stored in a register with the MSB of the second bit-sequence aligned in the MSB of the register. Timing to set the pulse width for transmission of a one or zero by NRZ encoding is performed repeatedly, and at the start of each timed interval, the signal transmission level output to the authentication chip is set corresponding to the value of the bit stored in the MSB of the register. After setting the signal transmission level, the register is shifted left one bit.

Abstract translation: 将根据通过200μsec和100μsec宽度的脉冲分别发送每一个和零的编码方案从控制部分发送到认证芯片的第一比特序列被转换成第二比特 依照NRZ编码传输。 转换的第二位序列存储在与寄存器的MSB中对齐的第二位序列的MSB的寄存器中。 重复执行通过NRZ编码来设置用于发送一个或者零的脉冲宽度的定时，并且在每个定时间隔开始时，输出到认证芯片的信号传输电平被设置为与存储在认证芯片中的位的值相对应 MSB的寄存器。 设置信号传输电平后，寄存器向左移一位。

公开(公告)号：US07914222B2

公开(公告)日：2011-03-29

申请号：US10558792

申请日：2004-05-26

Applicant: Hiroshi Inoue ,  Norimasa Kurihara ,  Shoko Matsumoto ,  Kyoko Sano ,  Takeshi Omatsu ,  Shigeki Yoneda ,  Yasunori Nakatani ,  Hiroyoshi Yamamoto ,  Kozaburo Fujita

Inventor： Hiroshi Inoue ,  Norimasa Kurihara ,  Shoko Matsumoto ,  Kyoko Sano ,  Takeshi Omatsu ,  Shigeki Yoneda ,  Yasunori Nakatani ,  Hiroyoshi Yamamoto ,  Kozaburo Fujita

IPC: B43K7/10

CPC classification number: B43K7/10 ,  B43K1/084 ,  B43K1/086 ,  C09D11/16 ,  C09D11/18 ,  Y10T29/49854

Abstract: A tip unit (1) incorporated in a liquid applicator such as a ball-point pen, the tip unit being capable of an increased rate of liquid discharge with no leaking or clogging problem. To achieve it, the tip unit (1) is accommodated in a tip body (11) having a ball housing (15), a ball (10), a capillary hole (16), and a proximal bore, the ball housing (15) being a passage for allowing liquid to flow therethrough, the ball (10) being rotatively held in the ball housing (15). The ball housing (15) is provided with at least one ink channel (47) adapted to communicate the ball housing (15) with the capillary hole (16) or the proximal bore. The ball housing (15) has a ball resting seat (45) and a side wall (41) that are connected by a connecting surface (71) having a shape of a truncated conical surface with its apex toward the distal end of the tip unit (1).

Abstract translation: 引入单元（1），其结合在诸如圆珠笔的液体施加器中，所述尖端单元能够以不泄漏或堵塞问题的液体排出速率增加。 为了实现这一点，尖端单元（1）容纳在具有球壳体（15），球（10），毛细孔（16）和近端孔的末端体（11）中，球壳体 ）是用于允许液体流过其中的通道，所述球（10）被旋转地保持在所述球壳体（15）中。 球壳体（15）设置有至少一个适于将球壳体（15）与毛细管孔（16）或近端孔连通的油墨通道（47）。 球壳体（15）具有球保持座（45）和侧壁（41），其通过具有截头圆锥形形状的连接表面（71）连接，其顶端朝向尖端单元的远端 （1）。

公开(公告)号：US20100031402A1

公开(公告)日：2010-02-04

申请号：US12510794

申请日：2009-07-28

Applicant: Shigeru Wakiyama ,  Hiroyoshi Yamamoto ,  Yoshiteru Shikakura ,  Itaru Kitajima

Inventor： Shigeru Wakiyama ,  Hiroyoshi Yamamoto ,  Yoshiteru Shikakura ,  Itaru Kitajima

IPC: G01N13/10

CPC classification number: G01Q40/00 ,  G01Q30/06

Abstract: Provided is an aligning method capable of setting a sample observation unit such as an optical microscope to a probe microscope observation position at high precision. A sample having a known structure is used in advance. A surface of the sample and a shape of a cantilever provided with a probe are observed using the sample observation unit such as the optical microscope. A sample observation position and a probe position which are obtained using the sample observation unit are verified, and a relative positional relationship therebetween is recorded. Then, a first mark indicating a position of the cantilever and a second mark which is displayed in conjunction with the first mark and has the relative positional relationship with the first mark are produced to align the sample relative to the second mark.

Abstract translation: 提供了一种能够将诸如光学显微镜的样本观察单元以高精度设置在探针显微镜观察位置的对准方法。 预先使用具有已知结构的样品。 使用诸如光学显微镜的样品观察单元观察样品的表面和设置有探针的悬臂的形状。 验证使用样本观察单元获得的样本观察位置和探针位置，并记录它们之间的相对位置关系。 然后，产生指示悬臂的位置的第一标记和与第一标记一起显示并与第一标记具有相对位置关系的第二标记，以使样本相对于第二标记进行对准。

公开(公告)号：US07379646B2

公开(公告)日：2008-05-27

申请号：US10961222

申请日：2004-10-12

Applicant: Yasushi Koyano ,  Hiroyoshi Yamamoto ,  Yasuhiro Naganuma

Inventor： Yasushi Koyano ,  Hiroyoshi Yamamoto ,  Yasuhiro Naganuma

IPC: G02B6/00

CPC classification number: G02B6/02247 ,  G02B6/4479

Abstract: The present invention relates to an optical fiber product suitable for fabricating an optical cable that requires a complicated length adjustment. The optical fiber product includes an effective use portion used as the optical cable, surplus portions connected to both ends of the effective use portion, and a distinguishing structure clearly indicating boundary portions between the effective use portion and the surplus portions. With the above structure, the surplus portions that become finally unnecessary are surely cut off in a fabrication step of the optical cable, thus enabling collect use of only effective use portion as the optical cable.

Abstract translation: 本发明涉及一种适用于制造需要复杂长度调节的光缆的光纤产品。 光纤产品包括用作光缆的有效使用部分，连接到有效使用部分的两端的剩余部分，以及清楚地指示有效使用部分和剩余部分之间的边界部分的区别结构。 利用上述结构，在光缆的制造步骤中可靠地切断最终不必要的剩余部分，从而能够仅使用有效使用部分作为光缆。

公开(公告)号：US20080061741A1

公开(公告)日：2008-03-13

申请号：US11896583

申请日：2007-09-04

Applicant: Hiroyoshi Yamamoto

Inventor： Hiroyoshi Yamamoto

IPC: H02J7/00 ,  H02J9/00

CPC classification number: H02J7/0021 ,  Y10T307/625

Abstract: A power supply device includes battery equipment and voltage detecting circuitry. The battery equipment includes positive-side and negative-side battery blocks that are connected to each other at a reference midpoint. The voltage detecting circuitry detects the respective voltage values of serially-connected battery modules of the battery equipment. The voltage detecting circuitry includes positive-side and negative side voltage management ICs with respect to the reference midpoint. The positive-side and negative side voltage management ICs manage the voltage conditions of the battery modules in the positive-side and negative-side battery blocks, respectively. Positive-side and negative-side voltage power lines of each of the positive-side and negative side voltage management ICs are connected to positive-side and negative-side output terminals of the battery equipment so that all the battery modules supply electric power to each of the voltage management ICs. The voltage management ICs have a common ground line.

Abstract translation: 电源装置包括电池设备和电压检测电路。 电池设备包括在参考中点处彼此连接的正极侧和负极侧电池块。 电压检测电路检测电池设备的串联电池模块的相应电压值。 电压检测电路包括相对于参考中点的正侧和负侧电压管理IC。 正侧和负侧电压管理IC分别管理正极侧和负极侧电池块中的电池模块的电压状态。 正极侧和负极侧电压管理IC的正极侧和负极侧电压电力线与电池设备的正极侧和负极侧输出端子连接，使得所有电池模块向每个 的电压管理IC。 电压管理IC具有共同的接地线。

公开(公告)号：US20070110507A1

公开(公告)日：2007-05-17

申请号：US10558792

申请日：2004-05-26

Applicant: Hiroshi Inoue ,  Norimasa Kurihara ,  Shoko Matsumoto ,  Kyoko Sano ,  Takeshi Omatsu ,  Shigeki Yoneda ,  Yasunori Nakatani ,  Hiroyoshi Yamamoto ,  Kozaburo Fujita

Inventor： Hiroshi Inoue ,  Norimasa Kurihara ,  Shoko Matsumoto ,  Kyoko Sano ,  Takeshi Omatsu ,  Shigeki Yoneda ,  Yasunori Nakatani ,  Hiroyoshi Yamamoto ,  Kozaburo Fujita

IPC: B43K7/10 ,  B43K7/00

CPC classification number: B43K7/10 ,  B43K1/084 ,  B43K1/086 ,  C09D11/16 ,  C09D11/18 ,  Y10T29/49854

Abstract: A tip unit (1) incorporated in a liquid applicator such as a ball-point pen, the tip unit being capable of an increased rate of liquid discharge with no leaking or clogging problem. To achieve it, the tip unit (1) is accommodated in a tip body (11) having a ball housing (15), a ball (10), a capillary hole (16), and a proximal bore, the ball housing (15) being a passage for allowing liquid to flow therethrough, the ball (10) being rotatively held in the ball housing (15). The ball housing (15) is provided with at least one ink channel (47) adapted to communicate the ball housing (15) with the capillary hole (16) or the proximal bore. The ball housing (15) has a ball resting seat (45) and a side wall (41) that are connected by a connecting surface (71) having a shape of a truncated conical surface with its apex toward the distal end of the tip unit (1).

Abstract translation: 引入单元（1），其结合在诸如圆珠笔的液体施加器中，所述尖端单元能够以不泄漏或堵塞问题的液体排出速率增加。 为了实现这一点，尖端单元（1）容纳在具有球壳体（15），球（10），毛细孔（16）和近端孔的末端体（11）中，球壳体 ）是用于允许液体流过其中的通道，所述球（10）被旋转地保持在所述球壳体（15）中。 球壳体（15）设置有至少一个适于将球壳体（15）与毛细管孔（16）或近端孔连通的油墨通道（47）。 球壳体（15）具有球保持座（45）和侧壁（41），其通过具有截头圆锥形形状的连接表面（71）连接，其顶端朝向尖端单元的远端 （1）。

公开(公告)号：US10050160B2

公开(公告)日：2018-08-14

申请号：US13988363

申请日：2011-08-10

Applicant: Tomoya Tamura ,  Hiroyoshi Yamamoto ,  Masaru Sakamoto

Inventor： Tomoya Tamura ,  Hiroyoshi Yamamoto ,  Masaru Sakamoto

IPC: H01L31/0272 ,  B22F3/14 ,  C22C9/00 ,  C22C28/00 ,  C23C14/34 ,  H01L31/032 ,  H01L31/18 ,  C22C1/04 ,  B22F9/04

Abstract: A Cu—Ga alloy sintered-compact sputtering target having a Ga concentration of 40 to 50 at % and Cu as the balance, wherein the sintered-compact sputtering target is characterized in that the relative density is 80% or higher, and the compositional deviation of the Ga concentration is within ±0.5 at % of the intended composition. A method of producing a Cu—Ga alloy sintered-compact sputtering target having a Ga concentration of 40 to 50 at % and Cu as the balance, wherein the method thereof is characterized in that Cu and Ga raw materials are melted and cooled/pulverized to produce a Cu—Ga alloy raw material powder, and the obtained material powder is further hot-pressed with a retention temperature being between the melting point of the mixed raw material powder and a temperature 15° C. lower than the melting point and with a pressure of 400 kgf/cm2 or more applied to the sintered mixed raw material powder. Provided are a sputtering target having very low compositional deviation and high density; a method of producing the target; a light-absorbing layer having a Cu—Ga based alloy film; and a CIGS solar cell including the light-absorbing layer.

公开(公告)号：US09018900B2

公开(公告)日：2015-04-28

申请号：US13560000

申请日：2012-07-27

Applicant: Hiroyoshi Yamamoto ,  Shinichi Itagaki

Inventor： Hiroyoshi Yamamoto ,  Shinichi Itagaki

IPC: H02J7/00 ,  H02J7/02

CPC classification number: H02J50/10 ,  H02J7/025

Abstract: A battery pack having a contactless charging circuit (95) that rectifies power received by a receiving coil (1), and a battery pack control section (91) with a connection decision section. The battery pack control section (91) is configured to judge whether or not the battery pack is connected to the body of a battery powered device (101) based on the rectified voltage of the contactless charging circuit (95). This decision utilizes the fact that the charging circuit is in a no-load condition and the rectified voltage is high when the battery pack is not connected to the battery powered device, and allows reliable judgment of whether or not the battery pack (90) is attached to the battery powered device.

Abstract translation: 一种电池组，具有对由接收线圈（1）接收的功率进行整流的非接触充电电路（95）和具有连接判定部分的电池组控制部（91）。 电池组控制部（91）被配置为基于非接触充电电路（95）的整流电压来判断电池组是否连接到电池供电装置（101）的主体。 该决定利用充电电路处于空载状态并且当电池组未连接到电池供电装置时整流电压高的事实，并且允许可靠地判断电池组（90）是否为 连接到电池供电设备。

公开(公告)号：US08269462B2

公开(公告)日：2012-09-18

申请号：US12845063

申请日：2010-07-28

Applicant: Hiroyoshi Yamamoto ,  Hiroshi Tamura

Inventor： Hiroyoshi Yamamoto ,  Hiroshi Tamura

IPC: H02J7/00 ,  H02J9/00 ,  H01M10/34 ,  G01N27/416

CPC classification number: G01R31/3658 ,  B60L11/1864 ,  B60L11/1866 ,  G01R31/362 ,  G01R31/3624 ,  H01M10/441 ,  H01M10/482 ,  Y02T10/7005 ,  Y02T10/7061 ,  Y10T307/625

Abstract: The state monitoring apparatus includes a high-voltage side monitoring section having monitoring units assigned to respective unit batteries and a low-voltage side monitoring section having a control device. The monitoring units measures the voltages of the unit batteries upon reception of a voltage measurement command transmitted from the control device, and determines whether or not the measured voltages are within a predetermined range. This determination is transmitted to the control device. If this determination is negative, the control device limits a charge/discharge current of the assembled battery, and then causes the monitoring units to transmit the measured voltages.

Abstract translation: 状态监视装置包括具有分配给各单元电池的监视单元的高压侧监视部和具有控制装置的低压侧监视部。 监视单元在接收到从控制装置发送的电压测量命令时测量单元电池的电压，并且确定测量的电压是否在预定范围内。 该确定被发送到控制装置。 如果该判定为负，则控制装置限制组电池的充放电电流，然后使监测部发送测定的电压。