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    • 1. 发明授权
    • Semiconductor device and method for initializing interface card using serial EEPROM
    • 使用串行EEPROM初始化接口卡的半导体器件和方法
    • US06742056B2
    • 2004-05-25
    • US10265860
    • 2002-10-07
    • Cheon-su LeeYoung-sik KimSoon-jae Won
    • Cheon-su LeeYoung-sik KimSoon-jae Won
    • G06F300
    • G06F13/122G06F13/28
    • A semiconductor device for initializing an interface card using a serial EEPROM and an initializing method allow for more effective use of a serial EEPROM used to store the initialization information, while not consuming additional circuit surface area. The method comprises initializing a semiconductor device, wherein the semiconductor device stores initialization information in a serial electrically erasable and programmable read only memory (EEPROM) and includes a direct memory access (DMA), a serial EEPROM interface, and a register interface that are connected to a common system bus according to the initialization information, the method comprising (a) setting an operational channel to allow the DMA automatically initialize the semiconductor device in a state where the semiconductor device is reset; (b) reading the initialization information from the serial EEPROM in response to the operational channel set in the DMA after the reset state of the semiconductor device is cancelled; (c) initializing the semiconductor device by writing the initialization information read out from the serial EEPROM to the register interface; (d) generating an initialization completion signal for indicating that the initialization of the semiconductor device is completed, and (e) automatically setting the register interface and the DMA to be prepared for normal operations after the initialization of the semiconductor device is completed.
    • 用于使用串行EEPROM初始化接口卡的半导体器件和初始化方法允许更有效地使用用于存储初始化信息的串行EEPROM,同时不消耗额外的电路表面积。 该方法包括初始化半导体器件,其中半导体器件将初始化信息存储在串行电可擦除和可编程只读存储器(EEPROM)中,并且包括直接存储器访问(DMA),串行EEPROM接口和连接的寄存器接口 根据所述初始化信息到所述公共系统总线,所述方法包括(a)设置操作信道以允许所述DMA在所述半导体器件被复位的状态下自动初始化所​​述半导体器件; (b)在半导体器件的复位状态被取消之后响应于在DMA中设置的操作通道从串行EEPROM读取初始化信息; (c)通过将从串行EEPROM读出的初始化信息写入寄存器接口来初始化半导体器件; (d)产生用于指示半导体器件的初始化完成的初始化完成信号,以及(e)在完成半导体器件的初始化之后,自动设置准备用于正常操作的寄存器接口和DMA。
    • 2. 发明授权
    • System in package semiconductor device suitable for efficient power management and method of managing power of the same
    • 适用于高效电源管理的封装半导体器件系统及其管理电源的方法
    • US07953992B2
    • 2011-05-31
    • US11891908
    • 2007-08-14
    • Cheon-su LeeJin-kwon ParkJae-shin Lee
    • Cheon-su LeeJin-kwon ParkJae-shin Lee
    • G06F1/00G06F1/26G06F1/32G06F13/00
    • G06F1/32H01L25/18H01L2224/05554H01L2224/48091H01L2224/49175H01L2924/00014
    • Provided are a system in package (SIP) semiconductor device suitable for efficient power management, and a method of managing power of the SIP semiconductor device. The SIP semiconductor device includes chips including first and second chips. Each of the chips includes an alive block, a local interface, and an intellectual property (IP) block. The alive block is continuously supplied with power in order to continuously be in an on-state. The local interface transmits/receives data to/from other chips. The IP block individually stores and processes data. The alive blocks of the chips are connected to each other through a first signal line unit for transmitting a signal required to wake up or initialize the chips. The alive blocks control power to the chips, respectively, in response to an external wake-up instruction signal or the signal transmitted through the first signal line unit. Therefore, power can be efficiently managed since power that is supplied to the chips of the SIP semiconductor device is managed by the alive blocks or the local interfaces of the chips.
    • 提供适用于高效电源管理的系统级封装(SIP)半导体器件,以及管理SIP半导体器件的功率的方法。 SIP半导体器件包括包括第一和第二芯片的芯片。 每个芯片包括活动块,本地接口和知识产权(IP)块。 活体块连续供电,以连续地处于开状态。 本地接口向/从其他芯片发送/接收数据。 IP块分别存储和处理数据。 芯片的活动块通过第一信号线单元相互连接,用于发送唤醒或初始化芯片所需的信号。 活动块分别响应于外部唤醒指令信号或通过第一信号线单元传输的信号来分别控制芯片的功率。 因此,由于提供给SIP半导体器件的芯片的功率由芯片的活动块或本地接口进行管理,所以可以有效地管理功率。
    • 5. 发明申请
    • System in package semiconductor device suitable for efficient power management and method of managing power of the same
    • 适用于高效电源管理的封装半导体器件系统及其管理电源的方法
    • US20080191331A1
    • 2008-08-14
    • US11891908
    • 2007-08-14
    • Cheon-su LeeJin-kwon ParkJae-shin Lee
    • Cheon-su LeeJin-kwon ParkJae-shin Lee
    • H01L23/50G06F1/26G06F1/32
    • G06F1/32H01L25/18H01L2224/05554H01L2224/48091H01L2224/49175H01L2924/00014
    • Provided are a system in package (SIP) semiconductor device suitable for efficient power management, and a method of managing power of the SIP semiconductor device. The SIP semiconductor device includes chips including first and second chips. Each of the chips includes an alive block, a local interface, and an intellectual property (IP) block. The alive block is continuously supplied with power in order to continuously be in an on-state. The local interface transmits/receives data to/from other chips. The IP block individually stores and processes data. The alive blocks of the chips are connected to each other through a first signal line unit for transmitting a signal required to wake up or initialize the chips. The alive blocks control power to the chips, respectively, in response to an external wake-up instruction signal or the signal transmitted through the first signal line unit. Therefore, power can be efficiently managed since power that is supplied to the chips of the SIP semiconductor device is managed by the alive blocks or the local interfaces of the chips.
    • 提供适用于高效电源管理的系统级封装(SIP)半导体器件,以及管理SIP半导体器件的功率的方法。 SIP半导体器件包括包括第一和第二芯片的芯片。 每个芯片包括活动块,本地接口和知识产权(IP)块。 活体块连续供电,以连续地处于开状态。 本地接口向/从其他芯片发送/接收数据。 IP块分别存储和处理数据。 芯片的活动块通过第一信号线单元相互连接,用于发送唤醒或初始化芯片所需的信号。 活动块分别响应于外部唤醒指令信号或通过第一信号线单元传输的信号来分别控制芯片的功率。 因此,由于提供给SIP半导体器件的芯片的功率由芯片的活动块或本地接口进行管理,所以可以有效地管理功率。