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    • 1. 发明授权
    • Memory card and data processing system
    • 存储卡和数据处理系统
    • US06982919B2
    • 2006-01-03
    • US10891297
    • 2004-07-15
    • Chiaki KumaharaAtsushi ShikataYasuhiro NakamuraHideo KasaiHidefumi Odate
    • Chiaki KumaharaAtsushi ShikataYasuhiro NakamuraHideo KasaiHidefumi Odate
    • G11C7/08
    • G11C16/30
    • A memory card and a microcomputer with nonvolatile memory wherein operation under two different types of power supply specifications is achieved are provided.A MultiMediaCard includes a flash memory and a controller which controls the operation associated with the flash memory. When the controller judges the level of supply voltage supplied from host equipment, it operates as follows: the controller judges whether detecting point corresponding to the voltage level of 1.8V system has been exceeded. After the judgment of excess, the controller judges whether detecting point corresponding to the voltage level of 3.3V system has been exceeded. When the supply voltage is at the voltage level of 1.8V system, the controller causes the flash memory to operate in the 1.8V-system operation mode without driving regulators or level shifters. When the supply voltage is at the voltage level of 3.3V system, the controller drives the regulators and the level shifters to convert the voltage level and causes the flash memory to operate in the 3.3V-system operation mode.
    • 提供一种存储卡和具有非易失性存储器的微型计算机,其中实现了两种不同类型的电源规格下的操作。 多媒体卡包括闪存和控制与闪存相关的操作的控制器。 当控制器判断从主机设备供电的电平时,其操作如下:控制器判断是否超过了对应于1.8V系统电压等级的检测点。 超过判定后,控制器判断是否超过与3.3V系统的电压电平对应的检测点。 当电源电压处于1.8V系统的电压电平时,控制器使闪存在1.8V系统运行模式下工作,无需驱动稳压器或电平转换器。 当电源电压处于3.3V系统的电压电平时,控制器驱动稳压器和电平转换器转换电压电平,并使闪存在3.3V系统运行模式下工作。
    • 2. 发明授权
    • Memory card and data processing system
    • 存储卡和数据处理系统
    • US07161834B2
    • 2007-01-09
    • US11271957
    • 2005-11-14
    • Chiaki KumaharaAtsushi ShikataYasuhiro NakamuraHideo KasaiHidefumi Odate
    • Chiaki KumaharaAtsushi ShikataYasuhiro NakamuraHideo KasaiHidefumi Odate
    • G11C11/00
    • G11C16/30
    • A memory card and a microcomputer with nonvolatile memory wherein operation under two different types of power supply specifications achieved are provided. A MultiMediacard includes a flash memory and with the flash memory. When the controller judges the level of supply voltage supplied from host equipment, operates as follows: the controller judges whether detecting point corresponding to voltage level 1.8V system been exceeded. After the judgment of excess, the controller judges whether detecting point corresponding to the voltage level system has been exceeded. When the 1.8V system, flash memory to operate the controller causes the 1.8v-system operation mode without driving regulators voltage level shifters. When the supply voltage level 3.3V system, the controller drives the regulators and the level shifters convert the voltage level causes the flash memory operate the 3.3V-system operation mode.
    • 一种存储卡和具有非易失性存储器的微型计算机,其中提供了实现两种不同类型的电源规格的操作。 MultiMediacard包括闪存和闪存。 当控制器判断从主机设备供电的电平时,如下操作:控制器判断是否超过与电压等级1.8V系统对应的检测点。 在判定过剩之后,控制器判断是否超过了与电压电平系统相对应的检测点。 当1.8V系统时,闪存操作控制器会导致1.8V系统运行模式,无需驱动稳压器电压电平转换器。 当电源电压为3.3V系统时,控制器驱动稳压器,电平转换器转换电压电平,使闪存工作在3.3V系统运行模式。
    • 3. 发明申请
    • Memory card and data processing system
    • 存储卡和数据处理系统
    • US20060062052A1
    • 2006-03-23
    • US11271957
    • 2005-11-14
    • Chiaki KumaharaAtsushi ShikataYasuhiro NakamuraHideo KasaiHidefumi Odate
    • Chiaki KumaharaAtsushi ShikataYasuhiro NakamuraHideo KasaiHidefumi Odate
    • G11C5/14G11C7/10
    • G11C16/30
    • A memory card and a microcomputer with nonvolatile memory wherein operation under two different types of power supply specifications is achieved are provided. A MultiMediaCard comprises a flash memory and a controller which controls the operation associated with the flash memory. When the controller judges the level of supply voltage supplied from host equipment, it operates as follows: the controller judges whether detecting point corresponding to the voltage level of 1.8V system has been exceeded. After the judgment of excess, the controller judges whether detecting point corresponding to the voltage level of 3.3V system has been exceeded. When the supply voltage is at the voltage level of 1.8V system, the controller causes the flash memory to operate in the 1.8V-system operation mode without driving regulators or level shifters. When the supply voltage is at the voltage level of 3.3V system, the controller drives the regulators and the level shifters to convert the voltage level and causes the flash memory to operate in the 3.3V-system operation mode.
    • 提供一种存储卡和具有非易失性存储器的微型计算机,其中实现了两种不同类型的电源规格下的操作。 多媒体卡包括闪存和控制与闪存相关的操作的控制器。 当控制器判断从主机设备供电的电平时,其操作如下:控制器判断是否超过了对应于1.8V系统电压等级的检测点。 超过判定后,控制器判断是否超过与3.3V系统的电压电平对应的检测点。 当电源电压处于1.8V系统的电压电平时,控制器使闪存在1.8V系统运行模式下工作,无需驱动稳压器或电平转换器。 当电源电压处于3.3V系统的电压电平时,控制器驱动稳压器和电平转换器转换电压电平,并使闪存在3.3V系统运行模式下工作。
    • 4. 发明申请
    • Memory card and data processing system
    • 存储卡和数据处理系统
    • US20050041509A1
    • 2005-02-24
    • US10891297
    • 2004-07-15
    • Chiaki KumaharaAtsushi ShikataYasuhiro HakamuraHideo KasaiHidefumi Odate
    • Chiaki KumaharaAtsushi ShikataYasuhiro HakamuraHideo KasaiHidefumi Odate
    • G06K19/07G06F1/00G06F12/00G11C16/30G11C5/14
    • G11C16/30
    • A memory card and a microcomputer with nonvolatile memory wherein operation under two different types of power supply specifications is achieved are provided. A MultiMediaCard comprises a flash memory and a controller which controls the operation associated with the flash memory. When the controller judges the level of supply voltage supplied from host equipment, it operates as follows: the controller judges whether detecting point corresponding to the voltage level of 1.8V system has been exceeded. After the judgment of excess, the controller judges whether detecting point corresponding to the voltage level of 3.3V system has been exceeded. When the supply voltage is at the voltage level of 1.8V system, the controller causes the flash memory to operate in the 1.8V-system operation mode without driving regulators or level shifters. When the supply voltage is at the voltage level of 3.3V system, the controller drives the regulators and the level shifters to convert the voltage level and causes the flash memory to operate in the 3.3V-system operation mode.
    • 提供一种存储卡和具有非易失性存储器的微型计算机,其中实现了两种不同类型的电源规格下的操作。 多媒体卡包括闪存和控制与闪存相关的操作的控制器。 当控制器判断从主机设备供电的电平时,其操作如下:控制器判断是否超过了对应于1.8V系统电压等级的检测点。 超过判定后,控制器判断是否超过与3.3V系统的电压电平对应的检测点。 当电源电压处于1.8V系统的电压电平时,控制器使闪存在1.8V系统运行模式下工作,无需驱动稳压器或电平转换器。 当电源电压处于3.3V系统的电压电平时,控制器驱动稳压器和电平转换器转换电压电平,并使闪存在3.3V系统运行模式下工作。
    • 5. 发明授权
    • Memory card device having low consumed power in the consumed power state
    • 在消耗功率状态下具有低消耗功率的存储卡装置
    • US07286435B2
    • 2007-10-23
    • US10561521
    • 2004-12-21
    • Hidefumi OdateAtsushi ShikataChiaki Kumahara
    • Hidefumi OdateAtsushi ShikataChiaki Kumahara
    • G11C5/14
    • G06K19/0701G06F1/3203G06F1/3275G06K19/07G11C5/14Y02D10/14Y02D50/20
    • A card device has a regulator (5), a first internal circuit (6) and a second internal circuit (7), and the regulator supplies, to the second internal circuit, an internal voltage generated by dropping an external voltage (VCC) when the external voltage is high, and exactly supplies the external voltage as the internal voltage to the second internal circuit when the external voltage is low, and the external voltage is supplied as an operating power source to the first internal circuit and a transition to a low consumed power state is carried out if a command is not input for a certain period. The card device stops the operation of the regulator and suppresses the supply of the internal voltage to the second internal circuit in the transition to the low consumed power state. In the low consumed power state, consequently, it is possible to suppress a power consumption in each of the regulator and the second internal circuit in the card device.
    • 卡装置具有调节器(5),第一内部电路(6)和第二内部电路(7),并且调节器向第二内部电路提供由外部电压(VCC)下降而产生的内部电压 外部电压高,并且当外部电压低时,将外部电压作为内部电压精确地提供给第二内部电路,并且外部电压作为工作电源提供给第一内部电路并且转变到低电平 如果在一段时间内没有输入命令,则执行消耗功率状态。 卡装置停止调节器的操作,并且在过渡到低功耗状态时禁止向第二内部电路提供内部电压。 因此,在低功耗状态下,可以抑制卡装置中的每个调节器和第二内部电路的功耗。
    • 6. 发明申请
    • MEMORY CARD AND INITIALIZATION SETTING METHOD THEREOF
    • 记忆卡及其初始化设置方法
    • US20080133860A1
    • 2008-06-05
    • US11925004
    • 2007-10-26
    • Motoki KanamoriShigeo KurakataChiaki KumaharaHidefumi OdateAtsushi Shikata
    • Motoki KanamoriShigeo KurakataChiaki KumaharaHidefumi OdateAtsushi Shikata
    • G06F12/00
    • G06F13/4291G06F13/4239G11C5/00G11C5/04
    • Whether an initial command outputted from a host is ‘CMD1’ or ‘CMD55+CMD41’ is detected with an initial command detection portion 8, and the result of detection is set in an SD/MMC register 13. Reset process for hardware and that for firmware are carried out based on the result of detection set in the SD/MMC register 13. Thereafter, a microcomputer 7 sets data indicating in which mode, MultiMedia Card mode or SD mode, the firmware reset process was carried out, in a F/W process SD/MMC register 14. A H/W-F/W mode comparison circuit 15 compares data in the SD/MMC register 13 with data in the F/W process SD/MMC register 14. If these data agree with each other, busy state is released, and command wait state is established. If they disagree with each other, a disagreement occurrence detection signal is outputted to the microcomputer 7, and power-on reset processing is performed again.
    • 用初始命令检测部分8检测从主机输出的初始命令是“CMD1”还是“CMD55 + CMD41”,并将检测结果设置在SD / MMC寄存器13中。 基于SD / MMC寄存器13中设置的检测结果进行硬件和固件的复位处理。 此后,微型计算机7在F / W进程SD / MMC寄存器14中设置表示在多模式卡模式或SD模式中执行固件复位处理的模式的数据。 H / W-F / W模式比较电路15将SD / MMC寄存器13中的数据与F / W处理SD / MMC寄存器14中的数据进行比较。 如果这些数据彼此一致,则释放忙状态,建立命令等待状态。 如果彼此不同意,则将不一致发生检测信号输出到微型计算机7,并再次执行上电复位处理。
    • 8. 发明申请
    • Card device
    • 卡设备
    • US20070108293A1
    • 2007-05-17
    • US10561521
    • 2004-12-21
    • Hidefumi OdateAtsushi ShikataChiaki Kumahara
    • Hidefumi OdateAtsushi ShikataChiaki Kumahara
    • G06K19/06
    • G06K19/0701G06F1/3203G06F1/3275G06K19/07G11C5/14Y02D10/14Y02D50/20
    • A card device has a regulator (5), a first internal circuit (6) and a second internal circuit (7), and the regulator supplies, to the second internal circuit, an internal voltage generated by dropping an external voltage (VCC) when the external voltage is high, and exactly supplies the external voltage as the internal voltage to the second internal circuit when the external voltage is low, and the external voltage is supplied as an operating power source to the first internal circuit and a transition to a low consumed power state is carried out if a command is not input for a certain period. The card device stops the operation of the regulator and suppresses the supply of the internal voltage to the second internal circuit in the transition to the low consumed power state. In the low consumed power state, consequently, it is possible to suppress a power consumption in each of the regulator and the second internal circuit in the card device.
    • 卡装置具有调节器(5),第一内部电路(6)和第二内部电路(7),并且调节器向第二内部电路提供由外部电压(VCC)下降而产生的内部电压 外部电压高,并且当外部电压低时,将外部电压作为内部电压精确地提供给第二内部电路,并且外部电压作为工作电源提供给第一内部电路并且转变到低电平 如果在一段时间内没有输入命令,则执行消耗功率状态。 卡装置停止调节器的操作,并且在过渡到低功耗状态时禁止向第二内部电路提供内部电压。 因此,在低功耗状态下,可以抑制卡装置中的每个调节器和第二内部电路的功耗。
    • 9. 发明申请
    • CARD DEVICE
    • 卡设备
    • US20080010478A1
    • 2008-01-10
    • US11856204
    • 2007-09-17
    • Hidefumi ODATEAtsushi ShikataChiaki Kumahara
    • Hidefumi ODATEAtsushi ShikataChiaki Kumahara
    • G06F1/26G11C5/14
    • G06K19/0701G06F1/3203G06F1/3275G06K19/07G11C5/14Y02D10/14Y02D50/20
    • A card device has a regulator (5), a first internal circuit (6) and a second internal circuit (7), and the regulator supplies, to the second internal circuit, an internal voltage generated by dropping an external voltage (VCC) when the external voltage is high, and exactly supplies the external voltage as the internal voltage to the second internal circuit when the external voltage is low, and the external voltage is supplied as an operating power source to the first internal circuit and a transition to a low consumed power state is carried out if a command is not input for a certain period. The card device stops the operation of the regulator and suppresses the supply of the internal voltage to the second internal circuit in the transition to the low consumed power state. In the low consumed power state, consequently, it is possible to suppress a power consumption in each of the regulator and the second internal circuit in the card device.
    • 卡装置具有调节器(5),第一内部电路(6)和第二内部电路(7),并且调节器向第二内部电路提供由外部电压(VCC)下降而产生的内部电压 外部电压高,并且当外部电压低时,将外部电压作为内部电压精确地提供给第二内部电路,并且外部电压作为工作电源提供给第一内部电路并且转变到低电平 如果在一段时间内没有输入命令,则执行消耗功率状态。 卡装置停止调节器的操作,并且在过渡到低功耗状态时禁止向第二内部电路提供内部电压。 因此,在低功耗状态下,可以抑制卡装置中的每个调节器和第二内部电路的功耗。
    • 10. 发明申请
    • Memory card and initialization setting method thereof
    • 存储卡及其初始化设置方法
    • US20060248388A1
    • 2006-11-02
    • US10549614
    • 2003-03-20
    • Motoki KanamoriShigeo KurakataChiaki KumaharaHidefumi OdateAtsushi Shikata
    • Motoki KanamoriShigeo KurakataChiaki KumaharaHidefumi OdateAtsushi Shikata
    • G06F11/00
    • G06F13/4291G06F13/4239G11C5/00G11C5/04
    • Whether an initial command outputted from a host is ‘CMD1’ or ‘CMD55+CMD41’ is detected with an initial command detection portion 8, and the result of detection is set in an SD/MMC register 13. Reset process for hardware and that for firmware are carried out based on the result of detection set in the SD/MMC register 13. Thereafter, a microcomputer 7 sets data indicating in which mode, MultiMedia Card mode or SD mode, the firmware reset process was carried out, in a F/W process SD/MMC register 14. A H/W-F/W mode comparison circuit 15 compares data in the SD/MMC register 13 with data in the F/W process SD/MMC register 14. If these data agree with each other, busy state is released, and command wait state is established. If they disagree with each other, a disagreement occurrence detection signal is outputted to the microcomputer 7, and power-on reset processing is performed again.
    • 使用初始命令检测部分8检测从主机输出的初始命令是“CMD 1”还是“CMD 55+ CMD 41”,并将检测结果设置在SD / MMC寄存器13中。 基于SD / MMC寄存器13中设置的检测结果进行硬件和固件的复位处理。 此后,微型计算机7在F / W进程SD / MMC寄存器14中设置表示在多模式卡模式或SD模式中执行固件复位处理的模式的数据。 H / W-F / W模式比较电路15将SD / MMC寄存器13中的数据与F / W处理SD / MMC寄存器14中的数据进行比较。 如果这些数据彼此一致,则释放忙状态,建立命令等待状态。 如果彼此不同意,则将不一致发生检测信号输出到微型计算机7,并再次执行上电复位处理。