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    • 5. 发明申请
    • SEMICONDUCTOR DEVICE
    • 半导体器件
    • US20100257313A1
    • 2010-10-07
    • US12303110
    • 2007-05-16
    • Hirotaka NishizawaJunichiro OsakoMinoru ShinoharaTamaki WadaKunihirio KatayamaShigemasa Shiota
    • Hirotaka NishizawaJunichiro OsakoMinoru ShinoharaTamaki WadaKunihirio KatayamaShigemasa Shiota
    • G06F12/00G06F1/32G06F1/26
    • G06K19/077G06K19/0719G06K19/072
    • A semiconductor device has operation modes selectable through the control by a second microcomputer (113). In a first mode, an operation of a memory controller (105) responding to a memory card command from a memory card interface terminal and an operation of a first microcomputer (106) responding to an IC card command from an IC card interface terminal are separately performed. In a second mode, the first microcomputer operates in response to the IC card command from the IC card interface terminal. In a third mode, the memory controller and the first microcomputer operate in response to an undefined IC card command from the IC card interface terminal. In a fourth mode, the memory controller and the first microcomputer operate in response to the memory card command from the memory card interface terminal. Convenience of the semiconductor device having an IC card function and a memory card function is improved.
    • 半导体器件具有通过第二微型计算机(113)的控制可选择的操作模式。 在第一模式中,分别响应来自存储卡接口终端的存储卡命令的存储器控​​制器(105)的操作和来自IC卡接口终端的响应IC卡命令的第一微计算机(106)的操作 执行。 在第二模式中,第一微型计算机响应于来自IC卡接口终端的IC卡命令而工作。 在第三模式中,存储器控制器和第一微型计算机响应于来自IC卡接口终端的未定义的IC卡命令来操作。 在第四模式中,存储器控制器和第一微型计算机响应来自存储卡接口终端的存储卡命令而操作。 提高具有IC卡功能和存储卡功能的半导体器件的便利性。
    • 6. 发明授权
    • Semiconductor device with power source feeding terminals of increased length
    • 具有电源馈线端子长度增加的半导体器件
    • US07646085B2
    • 2010-01-12
    • US10550278
    • 2004-09-24
    • Hirotaka NishizawaKenji OsawaHideo KoikeJunichiro OsakoTamaki Wada
    • Hirotaka NishizawaKenji OsawaHideo KoikeJunichiro OsakoTamaki Wada
    • H01L23/02H01L23/48H01L21/4763
    • H01R12/721H01R12/7076H01R13/7036
    • A semiconductor device includes external interface terminals and processing circuits, and it is fed with an operating power source when detachably set in a host equipment. Power source feeding terminals (VCC, VSS) among the external interface terminals are long enough to keep touching the corresponding terminals of the host equipment for, at least, a predetermined time period since the separation of an extraction detecting terminal among the external interface terminals, from the corresponding terminal of the host equipment, and they are formed to be longer in the extraction direction of the semiconductor device than the extraction detecting terminal. Thus, a time period till the cutoff of the power source is easily made comparatively long. The power source feeding terminals should preferably be extended onto the insertion side of the semiconductor device, but an extendible distance is sometimes liable to be limited. In order to ensure the necessary time period without changing the length and shape of the power source feeding terminals on the semiconductor device side, each of the power source feeding terminals may be formed so as to have two, front and rear touch points with the corresponding connector terminal of the host equipment side, but complicated improvements are necessitated for the construction of the connector terminal of the host equipment side. According to the semiconductor device, the time period required till the power source cutoff is easily ensured, and the complicated improvements are not required for the construction of the corresponding connector terminals of the host equipment side.
    • 半导体器件包括外部接口端子和处理电路,并且当可拆卸地设置在主机设备中时,其被馈送有工作电源。 外部接口端子之间的电源馈送端子(VCC,VSS)足够长以至少在从外部接口端子之间分离提取检测端子至少预定的时间段内接触主机设备的相应端子, 从主机设备的相应终端,它们形成为比提取检测终端在半导体器件的提取方向上更长。 因此,直到电源截止的时间段容易变得相当长。 电源馈电端子优选地延伸到半导体器件的插入侧,但是可延伸距离有时容易受到限制。 为了在不改变半导体器件侧的电源馈送端子的长度和形状的情况下确保必要的时间周期,每个电源馈电端子可以形成为具有两个相应的前后接触点 主机设备侧的连接器端子,但是主机设备侧的连接器端子的构造需要复杂的改进。 根据半导体装置,能够容易地确保电源切断所需的时间,并且不需要对主机设备侧的对应的连接器端子的构造进行复杂的改进。
    • 7. 发明授权
    • Semiconductor device
    • 半导体器件
    • US07549593B2
    • 2009-06-23
    • US10550578
    • 2004-09-24
    • Hirotaka NishizawaKenji OsawaHideo KoikeJunichiro OsakoTamaki Wada
    • Hirotaka NishizawaKenji OsawaHideo KoikeJunichiro OsakoTamaki Wada
    • G06K19/06
    • G06K19/07732G06K7/0013G06K7/0069G06K19/07743
    • A semiconductor device includes external interface terminals and processing circuits, and it is fed with an operating power source when detachably set in a host equipment. Power source feeding terminals (VCC, VSS) among the external interface terminals are long enough to keep touching the corresponding terminals of the host equipment for, at least, a predetermined time period since the separation of an extraction detecting terminal among the external interface terminals, from the corresponding terminal of the host equipment, and they are formed to be longer in the extraction direction of the semiconductor device than the extraction detecting terminal. The processing circuits include an interface control circuit (2) which is connected to the external interface terminals, and a rewritable nonvolatile memory (3) which is controlled by the interface control circuit. The nonvolatile memory stores information on the basis of the difference of the threshold voltages of memory cells. The interface control circuit causes a storage area midway of a threshold voltage initialization process to complete a process in which the threshold voltages of the memory cells are uniformalized into a predetermined threshold voltage distribution, before the power source is cut off after the separation of the extraction detecting terminal from the corresponding terminal of the host equipment.
    • 半导体器件包括外部接口端子和处理电路,并且当可拆卸地设置在主机设备中时,其被馈送有工作电源。 外部接口端子之间的电源馈送端子(VCC,VSS)足够长以至少在从外部接口端子之间分离提取检测端子至少预定的时间段内接触主机设备的相应端子, 从主机设备的相应终端,它们形成为比提取检测终端在半导体器件的提取方向上更长。 处理电路包括连接到外部接口端子的接口控制电路(2)和由接口控制电路控制的可重写非易失性存储器(3)。 非易失性存储器基于存储单元的阈值电压的差来存储信息。 接口控制电路使阈值电压初始化处理的中间的存储区域完成将分离提取之前的电源切断之前将存储单元的阈值电压均匀化为规定的阈值电压分布的处理 从主机设备的相应终端检测终端。
    • 8. 发明申请
    • SEMICONDUCTOR DEVICE
    • 半导体器件
    • US20080149739A1
    • 2008-06-26
    • US12042079
    • 2008-03-04
    • Hirotaka NISHIZAWAKenji OsawaHideo KoikeJunichiro OsakoTamaki Wada
    • Hirotaka NISHIZAWAKenji OsawaHideo KoikeJunichiro OsakoTamaki Wada
    • G06K19/00
    • G06F13/4081G06K19/077G06K19/07732
    • A semiconductor device includes external interface terminals and processing circuits, and it is fed with an operating power source when detachably set in a host equipment. Power source feeding terminals (VCC, VSS) among the external interface terminals are long enough to keep touching the corresponding terminals of the host equipment for, at least, a predetermined time period since the separation of an extraction detecting terminal among the external interface terminals, from the corresponding terminal of the host equipment, and they are formed to be longer in the extraction direction of the semiconductor device than the extraction detecting terminal. These power source feeding terminals are a power source terminal and a ground terminal, and any power source compensating capacitor is not connected between the power source terminal and the ground terminal. Since a time period required till the cutoff of the power source can be easily ensured, a capacitor for compensating the operating power source at the power source cutoff which occurs midway of an operation is not necessitated.
    • 半导体器件包括外部接口端子和处理电路,并且当可拆卸地设置在主机设备中时,其被馈送有工作电源。 外部接口端子之间的电源馈送端子(VCC,VSS)足够长以至少在从外部接口端子之间分离提取检测端子至少预定的时间段内接触主机设备的相应端子, 从主机设备的相应终端,它们形成为比提取检测终端在半导体器件的提取方向上更长。 这些电源馈电端子是电源端子和接地端子,电源端子和接地端子之间没有连接任何电源补偿电容器。 由于能够容易地确保电源截止所需的时间,所以不需要用于补偿在操作中途出现的电源切断时的工作电源的电容器。
    • 9. 发明申请
    • Semiconductor device
    • 半导体器件
    • US20060249580A1
    • 2006-11-09
    • US10550578
    • 2004-09-24
    • Hirotaka NishizawaKenji OsawaHideo KoikeJunichiro OsakoTamaki Wada
    • Hirotaka NishizawaKenji OsawaHideo KoikeJunichiro OsakoTamaki Wada
    • G06K7/06G06K19/06
    • G06K19/07732G06K7/0013G06K7/0069G06K19/07743
    • A semiconductor device includes external interface terminals and processing circuits, and it is fed with an operating power source when detachably set in a host equipment. Power source feeding terminals (VCC, VSS) among the external interface terminals are long enough to keep touching the corresponding terminals of the host equipment for, at least, a predetermined time period since the separation of an extraction detecting terminal among the external interface terminals, from the corresponding terminal of the host equipment, and they are formed to be longer in the extraction direction of the semiconductor device than the extraction detecting terminal. The processing circuits include an interface control circuit (2) which is connected to the external interface terminals, and a rewritable nonvolatile memory (3) which is controlled by the interface control circuit. The nonvolatile memory stores information on the basis of the difference of the threshold voltages of memory cells. The interface control circuit causes a storage area midway of a threshold voltage initialization process to complete a process in which the threshold voltages of the memory cells are uniformalized into a predetermined threshold voltage distribution, before the power source is cut off after the separation of the extraction detecting terminal from the corresponding terminal of the host equipment.
    • 半导体器件包括外部接口端子和处理电路,并且当可拆卸地设置在主机设备中时,其被馈送有工作电源。 外部接口端子之间的电源馈送端子(VCC,VSS)足够长以至少在从外部接口端子之间分离提取检测端子至少预定的时间段内接触主机设备的相应端子, 从主机设备的相应终端,它们形成为比提取检测终端在半导体器件的提取方向上更长。 处理电路包括连接到外部接口端子的接口控制电路(2)和由接口控制电路控制的可重写非易失性存储器(3)。 非易失性存储器基于存储单元的阈值电压的差来存储信息。 接口控制电路使阈值电压初始化处理的中间的存储区域完成将分离提取之前的电源切断之前将存储单元的阈值电压均匀化为规定的阈值电压分布的处理 从主机设备的相应终端检测终端。
    • 10. 发明申请
    • Semiconductor device
    • 半导体器件
    • US20070001279A1
    • 2007-01-04
    • US10550278
    • 2004-09-24
    • Hirotaka NishizawaKenji OsawaHideo KoikeJunichiro OsakoTamaki Wada
    • Hirotaka NishizawaKenji OsawaHideo KoikeJunichiro OsakoTamaki Wada
    • H01L23/02
    • H01R12/721H01R12/7076H01R13/7036
    • A semiconductor device includes external interface terminals and processing circuits, and it is fed with an operating power source when detachably set in a host equipment. Power source feeding terminals (VCC, VSS) among the external interface terminals are long enough to keep touching the corresponding terminals of the host equipment for, at least, a predetermined time period since the separation of an extraction detecting terminal among the external interface terminals, from the corresponding terminal of the host equipment, and they are formed to be longer in the extraction direction of the semiconductor device than the extraction detecting terminal. Thus, a time period till the cutoff of the power source is easily made comparatively long. The power source feeding terminals should preferably be extended onto the insertion side of the semiconductor device, but an extendible distance is sometimes liable to be limited. In order to ensure the necessary time period without changing the length and shape of the power source feeding terminals on the semiconductor device side, each of the power source feeding terminals may be formed so as to have two, front and rear touch points with the corresponding connector terminal of the host equipment side, but complicated improvements are necessitated for the construction of the connector terminal of the host equipment side. According to the semiconductor device, the time period required till the power source cutoff is easily ensured, and the complicated improvements are not required for the construction of the corresponding connector terminals of the host equipment side.
    • 半导体器件包括外部接口端子和处理电路,并且当可拆卸地设置在主机设备中时,其被馈送有工作电源。 外部接口端子之间的电源馈送端子(VCC,VSS)足够长以至少在从外部接口端子之间分离提取检测端子至少预定的时间段内接触主机设备的相应端子, 从主机设备的相应终端,它们形成为比提取检测终端在半导体器件的提取方向上更长。 因此,直到电源截止的时间段容易变得相当长。 电源馈电端子优选地延伸到半导体器件的插入侧,但是可延伸距离有时容易受到限制。 为了在不改变半导体器件侧的电源馈送端子的长度和形状的情况下确保必要的时间周期,每个电源馈电端子可以形成为具有两个相应的前后接触点 主机设备侧的连接器端子,但是主机设备侧的连接器端子的构造需要复杂的改进。 根据半导体装置,能够容易地确保电源切断所需的时间,并且不需要对主机设备侧的对应的连接器端子的构造进行复杂的改进。