Patent application number | Description | Published |
20100125698 | RECORDABLE MEMORY DEVICE - A recordable memory device includes a nonvolatile semiconductor memory, and a controller controlling the nonvolatile semiconductor memory based on a recordable system. The nonvolatile semiconductor memory has a user area capable of directly making an access from a host, and a system area managed by the controller. A data writing to the reformatted user area of the nonvolatile semiconductor memory executes from a start point which is an unused area after the final physical address of old recordable data recorded in the user area before the reformat. The data writing executes from a start point which is a top physical address in the user area, when the start point exceeds the final physical address in the user area. | 05-20-2010 |
20100174866 | MEMORY DEVICE, ELECTRONIC DEVICE, AND HOST APPARATUS - A memory device ( | 07-08-2010 |
20110035615 | MEMORY CARD HAVING MEMORY DEVICE AND HOST APPARATUS ACCESSING MEMORY CARD - A memory card includes a clock I/O circuit, a data I/O circuit, a delay element, and an adjustment value holding circuit. The clock input/output circuit receives a first clock from a host apparatus. The data I/O circuit receives a second clock from the host apparatus in a write timing adjustment mode. The data I/O circuit transmits and receives data to and from the host apparatus in a data transfer mode. In the write timing adjustment mode, the delay element adjusts a phase of the second clock in accordance with the first clock so as to receive the data received in the data transfer mode in response to the first clock. The adjustment value holding circuit holds an adjustment value for the phase of the second clock adjusted. In the data transfer mode, the delay element adjusts a phase of the data in accordance with the adjustment value. | 02-10-2011 |
20110238933 | MEMORY DEVICE AND CONTROLLING METHOD OF THE SAME - A memory device includes a memory which has memory areas, and a controller has a first mode and a second mode. Upon receipt of write data, the controller writes data in the memory areas while managing correspondence between logical addresses of write data and memory areas which store corresponding write data. A plurality of the memory areas constitutes a management unit. The controller in the first mode is able to write pieces of data in respective memory areas and configured to maintain data in memory areas in one management unit which contains data to be updated. The controller in the second mode writes pieces of data in respective memory areas in the ascending order of logical addresses of the pieces of data and invalidates data in memory areas in one management unit which contains updated data. | 09-29-2011 |
20120072618 | MEMORY SYSTEM HAVING HIGH DATA TRANSFER EFFICIENCY AND HOST CONTROLLER - According to one embodiment, the host controller includes a register set to issue command, and a direct memory access (DMA) unit and accesses a system memory and a device. First, second, third and fourth descriptors are stored in the system memory. The first descriptor includes a set of a plurality of pointers indicating a plurality of second descriptors. Each of the second descriptors comprises the third descriptor and fourth descriptor. The third descriptor includes a command number, etc. The fourth descriptor includes information indicating addresses and sizes of a plurality of data arranged in the system memory. The DMA unit sets, in the register set, the contents of the third descriptor forming the second descriptor, from the head of the first descriptor as a start point, and transfers data between the system memory and the host controller in accordance with the contents of the fourth descriptor. | 03-22-2012 |
20120079338 | MEMORY SYSTEM CAPABLE OF INCREASING DATA TRANSFER EFFICIENCY - According to one embodiment, a host controller includes a command generator and detector. The command generator generates a command having a retransmission flag in an argument, and transmits the generated command to a memory device. The detector detects timeout if a response from the memory device cannot be recognized within a defined time. When transmitting an initial command, the host controller clears the retransmission flag and transmits the command. If the detector detects timeout, the host controller sets the retransmission flag, and retransmits the same command as the initial command to the device. If a normal response corresponding to the initial command or retransmitted command is received, the host controller recognizes that the command is correctly executed. | 03-29-2012 |
20120226830 | MEMORY SYSTEM HAVING HIGH DATA TRANSFER EFFICIENCY AND HOST CONTROLLER - According to one embodiment, the host controller includes a register set to issue command, and a direct memory access (DMA) unit and accesses a system memory and a device. First, second, third and fourth descriptors are stored in the system memory. The first descriptor includes a set of a plurality of pointers indicating a plurality of second descriptors. Each of the second descriptors comprises the third descriptor and fourth descriptor. The third descriptor includes a command number, etc. The fourth descriptor includes information indicating addresses and sizes of a plurality of data arranged in the system memory. The DMA unit sets, in the register set, the contents of the third descriptor forming the second descriptor, from the head of the first descriptor as a start point, and transfers data between the system memory and the host controller in accordance with the contents of the fourth descriptor. | 09-06-2012 |
20120254524 | MEMORY DEVICE AND HOST DEVICE - A controller has a random write mode and a sequential write mode to which it transitions when receiving a start command. The controller in the sequential write mode identifies a data stream partially formed by a data item through a control command or a logical address. It also prepares free unit areas for respective data streams, and writes data items in successive storage areas in a corresponding unit area in an order identical to addresses of the data items. When the controller receives an end command, it performs end processing on a unit area for a corresponding data stream. The controller in the sequential write mode transitions to the random write mode when completing the end processing to all data streams or detects a random write request. | 10-04-2012 |
20120254600 | SEMICONDUCTOR SYSTEM, SEMICONDUCTOR DEVICE, AND ELECTRONIC DEVICE INITIALIZING METHOD - According to one embodiment of the present disclosure, a semiconductor system may be disclosed. The semiconductor system according to the one embodiment may include, for example, a plurality of electronic devices and a host apparatus. The host apparatus may simultaneously initialize the plurality of electronic devices in units of group. | 10-04-2012 |
20130232283 | MEMORY SYSTEM HAVING HIGH DATA TRANSFER EFFICIENCY AND HOST CONTROLLER - According to one embodiment, the host controller includes a register set to issue command, and a direct memory access (DMA) unit and accesses a system memory and a device. First, second, third and fourth descriptors are stored in the system memory. The first descriptor includes a set of a plurality of pointers indicating a plurality of second descriptors. Each of the second descriptors comprises the third descriptor and fourth descriptor. The third descriptor includes a command number, etc. The fourth descriptor includes information indicating addresses and sizes of a plurality of data arranged in the system memory. The DMA unit sets, in the register set, the contents of the third descriptor forming the second descriptor, from the head of the first descriptor as a start point, and transfers data between the system memory and the host controller in accordance with the contents of the fourth descriptor. | 09-05-2013 |
20130318281 | MEMORY SYSTEM IN WHICH EXTENDED FUNCTION CAN EASILY BE SET - According to one embodiment, a memory system, such as a SDIO card, includes a nonvolatile semiconductor memory device, a control section, a memory, an extended function section, and an extension register. The extended function section is controlled by the control section. A first command reads data from the extension register in units of given data lengths. A second command writes data to the extension register in units of given data lengths. A extension register includes a first area, and second area different from the first area, information configured to specify a type of the extended function and controllable driver, and address information indicating a place to which the extended function is assigned, the place being on the extension register, are recorded in the first area, and the second area includes the extended function. | 11-28-2013 |
20140006710 | MEMORY SYSTEM IN WHICH EXTENSION FUNCTION CAN EASILY BE SET | 01-02-2014 |
20140059273 | HOST APPARATUS AND MEMORY DEVICE - According to one embodiment, a host apparatus is capable of accessing memory device. The host apparatus includes application software, a dedicated file system, and an interface circuit. The application software issues, to a file system, a request for access to the memory device. The dedicated file system manages a memory area of the memory device in accordance with a method appropriate to a flash memory in response to the access request. The dedicated file system manages logical address spaces by predetermined unit areas, and sequentially writes data into one of reserved unit areas. The application software issues the access request to the dedicated file system without recognizing a size of the unit area. | 02-27-2014 |
20140156881 | MEMORY SYSTEM HAVING HIGH DATA TRANSFER EFFICIENCY AND HOST CONTROLLER - According to one embodiment, the host controller includes a register set to issue command, and a direct memory access (DMA) unit and accesses a system memory and a device. First, second, third and fourth descriptors are stored in the system memory. The first descriptor includes a set of a plurality of pointers indicating a plurality of second descriptors. Each of the second descriptors comprises the third descriptor and fourth descriptor. The third descriptor includes a command number, etc. The fourth descriptor includes information indicating addresses and sizes of a plurality of data arranged in the system memory. The DMA unit sets, in the register set, the contents of the third descriptor forming the second descriptor, from the head of the first descriptor as a start point, and transfers data between the system memory and the host controller in accordance with the contents of the fourth descriptor. | 06-05-2014 |
20140297932 | MEMORY SYSTEM IN WHICH EXTENSION FUNCTION CAN EASILY BE SET - According to one embodiment, a non-transitory medium, a controller, a memory, an extension function section, and an extension register. The controller controls the non-transitory medium. The memory which is serving as a work area is connected to the controller. The extension function section is controlled by the controller. The extension register which is provided on the memory is provided with a certain block length capable of defining an extension function of the extension function section. The controller processes a first command to write header data of a command to operate the extension function section to the extension function section through the extension register, and a second command to read header data of a response from the extension function section through the extension register. | 10-02-2014 |
20140337542 | MEMORY SYSTEM HAVING HIGH DATA TRANSFER EFFICIENCY AND HOST CONTROLLER - According to one embodiment, the host controller includes a register set to issue command, and a direct memory access (DMA) unit and accesses a system memory and a device. First, second, third and fourth descriptors are stored in the system memory. The first descriptor includes a set of a plurality of pointers indicating a plurality of second descriptors. Each of the second descriptors comprises the third descriptor and fourth descriptor. The third descriptor includes a command number, etc. The fourth descriptor includes information indicating addresses and sizes of a plurality of data arranged in the system memory. The DMA unit sets, in the register set, the contents of the third descriptor forming the second descriptor, from the head of the first descriptor as a start point, and transfers data between the system memory and the host controller in accordance with the contents of the fourth descriptor. | 11-13-2014 |
20150033090 | MEMORY SYSTEM CAPABLE OF INCREASING DATA TRANSFER EFFICIENCY - According to one embodiment, a host controller includes a command generator and detector. The command generator generates a command having a retransmission flag in an argument, and transmits the generated command to a memory device. The detector detects timeout if a response from the memory device cannot be recognized within a defined time. When transmitting an initial command, the host controller clears the retransmission flag and transmits the command. If the detector detects timeout, the host controller sets the retransmission flag, and retransmits the same command as the initial command to the device. If a normal response corresponding to the initial command or retransmitted command is received, the host controller recognizes that the command is correctly executed. | 01-29-2015 |
20150120984 | MEMORY SYSTEM HAVING HIGH DATA TRANSFER EFFICIENCY AND HOST CONTROLLER - According to one embodiment, the host controller includes a register set to issue command, and a direct memory access (DMA) unit and accesses a system memory and a device. First, second, third and fourth descriptors are stored in the system memory. The first descriptor includes a set of a plurality of pointers indicating a plurality of second descriptors. Each of the second descriptors comprises the third descriptor and fourth descriptor. The third descriptor includes a command number, etc. The fourth descriptor includes information indicating addresses and sizes of a plurality of data arranged in the system memory. The DMA unit sets, in the register set, the contents of the third descriptor forming the second descriptor, from the head of the first descriptor as a start point, and transfers data between the system memory and the host controller in accordance with the contents of the fourth descriptor. | 04-30-2015 |
Patent application number | Description | Published |
20100169699 | MEMORY DEVICE, HOST DEVICE, AND SAMPLING CLOCK ADJUSTING METHOD - A memory card includes a memory controller configured to perform control for sending and receiving a command signal, a response signal, a data signal, and a status signal in synchronization with a clock signal, and a memory-side pattern signal storage unit configured to store a tuning pattern signal to be sent to a host device. The tuning pattern signal is used by the host device to adjust the phase of the clock signal for use as a sampling clock signal. The memory card sends a first tuning pattern signal through a command line and a second tuning pattern signal through a data line concurrently. | 07-01-2010 |
20110022789 | MEMORY DEVICE, HOST DEVICE, MEMORY SYSTEM, MEMORY DEVICE CONTROL METHOD, HOST DEVICE CONTROL METHOD AND MEMORY SYSTEM CONTROL METHOD - A memory card | 01-27-2011 |
20110029726 | DATA UPDATING METHOD, MEMORY SYSTEM AND MEMORY DEVICE - A data updating method, a memory system and a memory device in which the memory device is connectable to a host device and has a memory section and a memory controller, the memory section consists of a first memory section which can be divided into partitions having multiple different attributes, and a work space which is managed by the memory controller, and the method of updating data which is stored in the memory device uses one of the writing methods which has been selected from among multiple different writing methods of writing data into the partition, depending on the attribute of the partition, to perform an updating process, and can securely update the data. | 02-03-2011 |
20130019119 | MEMORY DEVICE, HOST DEVICE, AND SAMPLING CLOCK ADJUSTING METHOD - A memory card includes a memory controller configured to perform control for sending and receiving a command signal, a response signal, a data signal, and a status signal in synchronization with a clock signal, and a memory-side pattern signal storage unit configured to store a tuning pattern signal to be sent to a host device. The tuning pattern signal is used by the host device to adjust the phase of the clock signal for use as a sampling clock signal. The memory card sends a first tuning pattern signal through a command line and a second tuning pattern signal through a data line concurrently. | 01-17-2013 |
20130060995 | MEMORY DEVICE, HOST DEVICE, MEMORY SYSTEM, MEMORY DEVICE CONTROL METHOD, HOST DEVICE CONTROL METHOD AND MEMORY SYSTEM CONTROL METHOD - A memory card | 03-07-2013 |
20130326257 | MEMORY DEVICE, HOST DEVICE, AND SAMPLING CLOCK ADJUSTING METHOD - A memory card includes a memory controller configured to perform control for sending and receiving a command signal, a response signal, a data signal, and a status signal in synchronization with a clock signal, and a memory-side pattern signal storage unit configured to store a tuning pattern signal to be sent to a host device. The tuning pattern signal is used by the host device to adjust the phase of the clock signal for use as a sampling clock signal. The memory card sends a first tuning pattern signal through a command line and a second tuning pattern signal through a data line concurrently. | 12-05-2013 |
20140304533 | MEMORY DEVICE, HOST DEVICE, MEMORY SYSTEM, MEMORY DEVICE CONTROL METHOD, HOST DEVICE CONTROL METHOD AND MEMORY SYSTEM CONTROL METHOD - A memory card | 10-09-2014 |
20140351499 | MEMORY DEVICE, HOST DEVICE, AND SAMPLING CLOCK ADJUSTING METHOD - A memory card includes a memory controller configured to perform control for sending and receiving a command signal, a response signal, a data signal, and a status signal in synchronization with a clock signal, and a memory-side pattern signal storage unit configured to store a tuning pattern signal to be sent to a host device. The tuning pattern signal is used by the host device to adjust the phase of the clock signal for use as a sampling clock signal. The memory card sends a first tuning pattern signal through a command line and a second tuning pattern signal through a data line concurrently. | 11-27-2014 |
Patent application number | Description | Published |
20080235427 | Electronic device with card interface - When initializing a card-shaped device inserted in a card interface, operation mode acquiring means incorporated in an electronic device acquires operation mode information, stored in a register file incorporated in the card-shaped device, by a predetermined procedure using a predetermined pin. Operation mode setting means incorporated in the electronic device executes signal assignment on a plurality of data pins peculiar to an operation mode indicated by the acquired operation mode information, thereby switching a data transfer width, and allowing the card-shaped device to operate in the operation mode. | 09-25-2008 |
20100281200 | ELECTRONIC DEVICE WITH CARD INTERFACE - When initializing a card-shaped device inserted in a card interface, operation mode acquiring means incorporated in an electronic device acquires operation mode information, stored in a register file incorporated in the card-shaped device, by a predetermined procedure using a predetermined pin. Operation mode setting means incorporated in the electronic device executes signal assignment on a plurality of data pins peculiar to an operation mode indicated by the acquired operation mode information, thereby switching a data transfer width, and allowing the card-shaped device to operate in the operation mode. | 11-04-2010 |
20100322017 | CARD AND HOST DEVICE - A host device is configured to read and write information from and into a card and to supply a supply voltage that belongs to a first voltage range or a second voltage range which is lower than the first voltage range, and issues a voltage identification command to the card. The voltage identification command includes a voltage range identification section, an error detection section, and a check pattern section. The voltage range identification section includes information indicating which one of the first voltage range and the second voltage range the supply voltage belongs. The error detection section has a pattern configured to enable the card which has received the voltage identification command to detect errors in the voltage identification command. The check pattern section has a preset pattern. | 12-23-2010 |
20110114737 | CARD AND HOST DEVICE - A host device is configured to read and write information from and into a card and to supply a supply voltage that belongs to a first voltage range or a second voltage range which is lower than the first voltage range, and issues a voltage identification command to the card. The voltage identification command includes a voltage range identification section, an error detection section, and a check pattern section. The voltage range identification section includes information indicating which one of the first voltage range and the second voltage range the supply voltage belongs. The error detection section has a pattern configured to enable the card which has received the voltage identification command to detect errors in the voltage identification command. The check pattern section has a preset pattern. | 05-19-2011 |
20110202712 | STORAGE DEVICE INCLUDING FLASH MEMORY AND CAPABLE OF PREDICTING STORAGE DEVICE PERFORMANCE - A storage device includes a semiconductor memory storing data. A controller instructs to write data to the semiconductor memory in accordance with a request the controller receives. A register holds performance class information showing one performance class required to allow the storage device to demonstrate best performance which the storage device supports, of performance classes specified in accordance with performance. | 08-18-2011 |
20110283024 | ELECTRONIC DEVICE WITH CARD INTERFACE - When initializing a card-shaped device inserted in a card interface, operation mode acquiring means incorporated in an electronic device acquires operation mode information, stored in a register file incorporated in the card-shaped device, by a predetermined procedure using a predetermined pin. Operation mode setting means incorporated in the electronic device executes signal assignment on a plurality of data pins peculiar to an operation mode indicated by the acquired operation mode information, thereby switching a data transfer width, and allowing the card-shaped device to operate in the operation mode. | 11-17-2011 |
20120260001 | ELECTRONIC DEVICE WITH CARD INTERFACE - When initializing a card-shaped device inserted in a card interface, operation mode acquiring means incorporated in an electronic device acquires operation mode information, stored in a register file incorporated in the card-shaped device, by a predetermined procedure using a predetermined pin. Operation mode setting means incorporated in the electronic device executes signal assignment on a plurality of data pins peculiar to an operation mode indicated by the acquired operation mode information, thereby switching a data transfer width, and allowing the card-shaped device to operate in the operation mode. | 10-11-2012 |
20130191583 | CARD AND HOST APPARATUS - A host apparatus, into which a card having a nonvolatile semiconductor memory is inserted, issues a check command to the card. The check command instructs to send information on whether the card supports a termination process in which the card shifts into a state ready for a stop of power supply from the host apparatus. | 07-25-2013 |
20130332675 | CARD AND HOST APPARATUS - A host apparatus, into which a card having a nonvolatile semiconductor memory is inserted, issues a check command to the card. The check command instructs to send information on whether the card supports a termination process in which the card shifts into a state ready for a stop of power supply from the host apparatus. | 12-12-2013 |
20140032805 | ELECTRONIC DEVICE WITH CARD INTERFACE - When initializing a card-shaped device inserted in a card interface, operation mode acquiring means incorporated in an electronic device acquires operation mode information, stored in a register file incorporated in the card-shaped device, by a predetermined procedure using a predetermined pin. Operation mode setting means incorporated in the electronic device executes signal assignment on a plurality of data pins peculiar to an operation mode indicated by the acquired operation mode information, thereby switching a data transfer width, and allowing the card-shaped device to operate in the operation mode. | 01-30-2014 |
20140149667 | CARD AND HOST APPARATUS - A host apparatus, into which a card having a nonvolatile semiconductor memory is inserted, issues a check command to the card. The check command instructs to send information on whether the card supports a termination process in which the card shifts into a state ready for a stop of power supply from the host apparatus. | 05-29-2014 |
20140310460 | CARD AND HOST APPARATUS - A host apparatus, into which a card having a nonvolatile semiconductor memory is inserted, issues a check command to the card. The check command instructs to send information on whether the card supports a termination process in which the card shifts into a state ready for a stop of power supply from the host apparatus. | 10-16-2014 |
Patent application number | Description | Published |
20120176855 | CARD AND HOST DEVICE - A host device is configured to read and write information from and into a card and to supply a supply voltage that belongs to a first voltage range or a second voltage range which is lower than the first voltage range, and issues a voltage identification command to the card. The voltage identification command includes a voltage range identification section, an error detection section, and a check pattern section. The voltage range identification section includes information indicating which one of the first voltage range and the second voltage range the supply voltage belongs. The error detection section has a pattern configured to enable the card which has received the voltage identification command to detect errors in the voltage identification command. The check pattern section has a preset pattern. | 07-12-2012 |
20130013882 | CARD AND HOST DEVICE - A host device is configured to read and write information from and into a card and to supply a supply voltage that belongs to a first voltage range or a second voltage range which is lower than the first voltage range, and issues a voltage identification command to the card. The voltage identification command includes a voltage range identification section, an error detection section, and a check pattern section. The voltage range identification section includes information indicating which one of the first voltage range and the second voltage range the supply voltage belongs. The error detection section has a pattern configured to enable the card which has received the voltage identification command to detect errors in the voltage identification command. The check pattern section has a preset pattern. | 01-10-2013 |
20130166843 | CARD AND HOST DEVICE - A host device is configured to read and write information from and into a card and to supply a supply voltage that belongs to a first voltage range or a second voltage range which is lower than the first voltage range, and issues a voltage identification command to the card. The voltage identification command includes a voltage range identification section, an error detection section, and a check pattern section. The voltage range identification section includes information indicating which one of the first voltage range and the second voltage range the supply voltage belongs. The error detection section has a pattern configured to enable the card which has received the voltage identification command to detect errors in the voltage identification command. The check pattern section has a preset pattern. | 06-27-2013 |
20140068111 | CARD AND HOST DEVICE - A host device is configured to read and write information from and into a card and to supply a supply voltage that belongs to a first voltage range or a second voltage range which is lower than the first voltage range, and issues a voltage identification command to the card. The voltage identification command includes a voltage range identification section, an error detection section, and a check pattern section. The voltage range identification section includes information indicating which one of the first voltage range and the second voltage range the supply voltage belongs. The error detection section has a pattern configured to enable the card which has received the voltage identification command to detect errors in the voltage identification command. The check pattern section has a preset pattern. | 03-06-2014 |
20140351514 | CARD AND HOST DEVICE - A host device is configured to read and write information from and into a card and to supply a supply voltage that belongs to a first voltage range or a second voltage range which is lower than the first voltage range, and issues a voltage identification command to the card. The voltage identification command includes a voltage range identification section, an error detection section, and a check pattern section. The voltage range identification section includes information indicating which one of the first voltage range and the second voltage range the supply voltage belongs. The error detection section has a pattern configured to enable the card which has received the voltage identification command to detect errors in the voltage identification command. The check pattern section has a preset pattern. | 11-27-2014 |
20150234596 | CARD AND HOST DEVICE - A host device is configured to read and write information from and into a card and to supply a supply voltage that belongs to a first voltage range or a second voltage range which is lower than the first voltage range, and issues a voltage identification command to the card. The voltage identification command includes a voltage range identification section, an error detection section, and a check pattern section. The voltage range identification section includes information indicating which one of the first voltage range and the second voltage range the supply voltage belongs. The error detection section has a pattern configured to enable the card which has received the voltage identification command to detect errors in the voltage identification command. The check pattern section has a preset pattern. | 08-20-2015 |