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    • 2. 发明申请
    • NONVOLATILE SEMICONDUCTOR STORAGE DEVICE
    • 非易失性半导体存储器件
    • US20130234095A1
    • 2013-09-12
    • US13596395
    • 2012-08-28
    • Masanobu BABA
    • Masanobu BABA
    • H01L45/00
    • H01L45/085H01L27/2463H01L45/1266H01L45/146H01L45/148H01L45/1675
    • A nonvolatile semiconductor storage device includes a word line, a first electrode, a high resistance ion diffusion layer, a second electrode, and a bit line. The word line is made of a conductive material extending in a first direction. The first electrode is provided on the word line. The high resistance ion diffusion layer is provided on the first electrode. The second electrode is provided on the ion diffusion layer and configured to supply a metal into the ion diffusion layer upon application of a positive voltage relative to the first electrode. The bit line is provided on the second electrode and made of a conductive material extending in a second direction orthogonal to the first direction. The ion diffusion layer contains oxygen at a higher concentration on the word line side than on the bit line side.
    • 非易失性半导体存储装置包括字线,第一电极,高电阻离子扩散层,第二电极和位线。 字线由沿第一方向延伸的导电材料制成。 第一电极设在字线上。 高电阻离子扩散层设置在第一电极上。 第二电极设置在离子扩散层上,并被配置为在施加相对于第一电极的正电压时将金属供应到离子扩散层中。 位线设置在第二电极上,并且由沿与第一方向正交的第二方向延伸的导电材料制成。 离子扩散层在字线侧含有比位线侧更高浓度的氧。
    • 3. 发明授权
    • Power saving air-conditioning system
    • 省电空调系统
    • US08249751B2
    • 2012-08-21
    • US12510399
    • 2009-07-28
    • Masahiko TakagiMasanobu BabaNorikazu Ishikawa
    • Masahiko TakagiMasanobu BabaNorikazu Ishikawa
    • F24F11/02
    • F24F3/065F24F11/30F24F11/54F24F2110/10F24F2120/10F24F2140/50F25B2600/0253Y02B30/741
    • Control units for three indoor units of air conditioners installed in a same indoor space are connected by a communication line. Each of the control units can grasp the detection information of the human detection sensor, preset temperature information of the remote controller, inlet temperature information of the inlet temperature sensor of all of the other air conditioners in the same space. On the basis of the above-mentioned information, each of the control units calculates an air-conditioning load of each of the air-conditioning target spaces and the air-conditioning load of an entire air-conditioning space on the basis of these air-conditioning target spaces in the same manner. A compressor is driven and controlled on the basis of a calculation result thereof to perform a power-saving operation of the entire air-conditioning space.
    • 安装在同一室内的三台室内空调机的控制单元通过通信线连接。 每个控制单元可以掌握人体检测传感器的检测信息,遥控器的预设温度信息,同一空间中所有其他空调的入口温度传感器的入口温度信息。 基于上述信息,每个控制单元基于这些空调对象空间来计算每个空调目标空间的空调负荷和整个空调空间的空调负荷, 调节目标空间以相同的方式。 基于其计算结果来驱动和控制压缩机,以执行整个空调空间的省电操作。
    • 4. 发明申请
    • AIR-CONDITIONING SYSTEM
    • 空调系统
    • US20100174414A1
    • 2010-07-08
    • US12510399
    • 2009-07-28
    • Masahiko TAKAGIMasanobu BabaNorikazu Ishikawa
    • Masahiko TAKAGIMasanobu BabaNorikazu Ishikawa
    • G05B15/00
    • F24F3/065F24F11/30F24F11/54F24F2110/10F24F2120/10F24F2140/50F25B2600/0253Y02B30/741
    • Control units for three indoor units of air conditioners installed in a same indoor space are connected by a communication line. Each of the control units can grasp the detection information of the human detection sensor, preset temperature information of the remote controller, inlet temperature information of the inlet temperature sensor of all of the other air conditioners in the same space. On the basis of the above-mentioned information, each of the control units calculates an air-conditioning load of each of the air-conditioning target spaces and the air-conditioning load of an entire air-conditioning space on the basis of these air-conditioning target spaces in the same manner. A compressor is driven and controlled on the basis of a calculation result thereof to perform a power-saving operation of the entire air-conditioning space.
    • 安装在同一室内的三台室内空调机的控制单元通过通信线连接。 每个控制单元可以掌握人体检测传感器的检测信息,遥控器的预设温度信息,同一空间中所有其他空调的入口温度传感器的入口温度信息。 基于上述信息,每个控制单元基于这些空调对象空间来计算每个空调目标空间的空调负荷和整个空调空间的空调负荷, 调节目标空间以相同的方式。 基于其计算结果来驱动和控制压缩机,以执行整个空调空间的省电操作。
    • 5. 发明申请
    • AIR-CONDITIONING APPARATUS
    • 空调设备
    • US20100125370A1
    • 2010-05-20
    • US12511123
    • 2009-07-29
    • Masanobu BABAMasahiko TakagiNorikazu Ishikawa
    • Masanobu BABAMasahiko TakagiNorikazu Ishikawa
    • G05B15/00
    • F24F11/30F24F11/41F24F11/54F24F11/56F24F2140/50F24F2221/54
    • To achieve a reduction in power consumption by allowing a plurality of air conditioners to communicate with each other and thereby leveling their air-conditioning capacities with no load variations involved by temperature variations. An air-conditioning apparatus 100 may include a plurality of air conditioners and a computing section for control, where each air conditioner includes an indoor unit and an outdoor unit that form a closed refrigeration cycle. The indoor units of the plurality of air conditioners are installed in an area to be air-conditioned. The computing section for control may allow the plurality of air conditioners to communicate with each other, thereby leveling their air-conditioning capacities based on air-conditioning load detected by each air conditioner.
    • 为了通过允许多个空调相互连通来实现功率消耗的降低,从而在温度变化所引起的无负载变化的情况下调平其空调容量。 空调装置100可以包括多个空调和用于控制的计算部,其中每个空调包括室内单元和形成封闭制冷循环的室外单元。 多个空调机的室内机组被安装在要进行空调的区域中。 用于控制的计算部分可以允许多个空调器彼此通信,从而基于由每个空调器检测到的空调负载来调平其空调容量。
    • 6. 发明申请
    • BLOWER AND HEAT PUMP APPARATUS USING THE SAME
    • 使用其的鼓风机和热泵装置
    • US20110192186A1
    • 2011-08-11
    • US13123174
    • 2009-10-29
    • Yasuaki KatoTakahide TadokoroMasanobu BabaHiroyuki Takada
    • Yasuaki KatoTakahide TadokoroMasanobu BabaHiroyuki Takada
    • F25B13/00F01D25/24
    • F24F1/38F04D29/162F04D29/164F04D29/526F04D29/663F24F1/40
    • The rear side outer peripheral edge of a propeller fan rotated and driven by a motor, of a propeller fan drive unit, is surrounded by a bell mouth. An upper plate, a lower plate, a side plate, and a machine room plate constitute an air duct at the suction side, outside the radial direction of the propeller fan. The cross-section of the bell mouth, at a first position in the vicinity where a blade of the propeller fan is closest, and where the distance between the propeller fan and the plate constituting the air duct outside the radial direction is relatively narrow, is made to be such that an expansion angle θ1 of the bell mouth suction side is made small. The overlapped height Hb of the propeller fan and the bell mouth is made large against a cross-section at a second position where the distance between the propeller fan and a plate is relatively large. The shape of the cross-section of the bell mouth is made to change gradually between the first position and the second position.
    • 由螺旋桨式风扇驱动单元的电动机旋转驱动的螺旋桨式风扇的后侧外周边缘被喇叭口包围。 上板,下板,侧板和机室板构成在螺旋桨式风扇的径向外侧的吸入侧的风路。 喇叭口的横截面在螺旋桨叶片的叶片最靠近的第一位置处,螺旋桨式风扇和构成空气管道的板之间的距离在径向外的距离相对较窄, 使得喇叭口吸力侧的扩张角小于1。 螺旋桨式风扇和喇叭口的重叠高度Hb相对于螺旋桨式风扇和板之间的距离相对较大的第二位置处的横截面大得多。 喇叭口的横截面的形状在第一位置和第二位置之间逐渐变化。
    • 7. 发明授权
    • Blower and heat pump apparatus using the same
    • 鼓风机和热泵设备使用相同
    • US09513021B2
    • 2016-12-06
    • US13123174
    • 2009-10-29
    • Yasuaki KatoTakahide TadokoroMasanobu BabaHiroyuki Takada
    • Yasuaki KatoTakahide TadokoroMasanobu BabaHiroyuki Takada
    • F01D25/24F24F1/38F04D29/16F04D29/52F04D29/66F24F1/40
    • F24F1/38F04D29/162F04D29/164F04D29/526F04D29/663F24F1/40
    • The rear side outer peripheral edge of a propeller fan rotated and driven by a motor, of a propeller fan drive unit, is surrounded by a bell mouth. An upper plate, a lower plate, a side plate, and a machine room plate constitute an air duct at the suction side, outside the radial direction of the propeller fan. The cross-section of the bell mouth, at a first position in the vicinity where a blade of the propeller fan is closest, and where the distance between the propeller fan and the plate constituting the air duct outside the radial direction is relatively narrow, is made to be such that an expansion angle θ1 of the bell mouth suction side is made small. The overlapped height Hb of the propeller fan and the bell mouth is made large against a cross-section at a second position where the distance between the propeller fan and a plate is relatively large. The shape of the cross-section of the bell mouth is made to change gradually between the first position and the second position.
    • 由螺旋桨式风扇驱动单元的电动机旋转驱动的螺旋桨式风扇的后侧外周边缘被喇叭口包围。 上板,下板,侧板和机室板构成在螺旋桨式风扇的径向外侧的吸入侧的风路。 喇叭口的横截面在螺旋桨叶片的叶片最靠近的第一位置处,螺旋桨式风扇和构成空气管道的板之间的距离在径向外的距离相对较窄, 使得喇叭口吸入侧的扩张角θ1变小。 螺旋桨式风扇和喇叭口的重叠高度Hb相对于螺旋桨式风扇和板之间的距离相对较大的第二位置处的横截面大得多。 喇叭口的横截面的形状在第一位置和第二位置之间逐渐变化。
    • 10. 发明授权
    • Nonvolatile semiconductor storage device
    • 非易失性半导体存储器件
    • US08772753B2
    • 2014-07-08
    • US13596395
    • 2012-08-28
    • Masanobu Baba
    • Masanobu Baba
    • H01L47/00
    • H01L45/085H01L27/2463H01L45/1266H01L45/146H01L45/148H01L45/1675
    • A nonvolatile semiconductor storage device includes a word line, a first electrode, a high resistance ion diffusion layer, a second electrode, and a bit line. The word line is made of a conductive material extending in a first direction. The first electrode is provided on the word line. The high resistance ion diffusion layer is provided on the first electrode. The second electrode is provided on the ion diffusion layer and configured to supply a metal into the ion diffusion layer upon application of a positive voltage relative to the first electrode. The bit line is provided on the second electrode and made of a conductive material extending in a second direction orthogonal to the first direction. The ion diffusion layer contains oxygen at a higher concentration on the word line side than on the bit line side.
    • 非易失性半导体存储装置包括字线,第一电极,高电阻离子扩散层,第二电极和位线。 字线由沿第一方向延伸的导电材料制成。 第一电极设在字线上。 高电阻离子扩散层设置在第一电极上。 第二电极设置在离子扩散层上,并被配置为在施加相对于第一电极的正电压时将金属供应到离子扩散层中。 位线设置在第二电极上,并且由沿与第一方向正交的第二方向延伸的导电材料制成。 离子扩散层在字线侧含有比位线侧更高浓度的氧。