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    • 11. 发明授权
    • Semiconductor device having redundancy circuit
    • 具有冗余电路的半导体器件
    • US06754114B2
    • 2004-06-22
    • US10401975
    • 2003-03-31
    • Masashi HoriguchiJun EtohMasakazu AokiKiyoo Itoh
    • Masashi HoriguchiJun EtohMasakazu AokiKiyoo Itoh
    • G11C700
    • G11C29/80G11C29/785G11C29/808
    • A semiconductor memory is provided with a defect recovery scheme featuring a redundancy circuit. The memory array in the memory has a plurality of word lines, a plurality of bit lines, a spare bit line, and a plurality of memory cells. The redundancy circuit includes one or more comparing circuits having programmable elements which function as a memory for storing therein a defective address existing in the memory array. The programmable elements of the redundancy circuit can be programmed in accordance with any of a number of different types of defect modes. Each comparing circuit of the redundancy circuit compares information (data) inputted therein, for example, the column and row addresses which may be under the control of an address multiplex system, with that programmed in the programmable elements of the comparing circuit. On the basis of this comparison, an appropriate defect recovery is effected.
    • 半导体存储器具有冗余电路的缺陷恢复方案。 存储器中的存储器阵列具有多个字线,多个位线,备用位线和多个存储器单元。 冗余电路包括具有可编程元件的一个或多个比较电路,其作为用于在其中存储存在于存储器阵列中的缺陷地址的存储器。 冗余电路的可编程元件可以根据多种不同类型的缺陷模式中的任何一种进行编程。 冗余电路的每个比较电路将在其中输入的信息(数据),例如可能在地址多路复用系统的控制下的列和行地址与在比较电路的可编程元件中编程的信息(数据)进行比较。 在此比较的基础上,进行适当的缺陷恢复。
    • 12. 发明授权
    • Semiconductor device having redundancy circuit
    • 具有冗余电路的半导体器件
    • US5966336A
    • 1999-10-12
    • US144258
    • 1998-08-31
    • Masashi HoriguchiJun EtohMasakazu AokiKiyoo Itoh
    • Masashi HoriguchiJun EtohMasakazu AokiKiyoo Itoh
    • G11C5/00G11C7/00G11C8/00G11C29/00
    • G11C29/80G11C29/785G11C29/808
    • A redundancy technique is introduced for a semiconductor memory and, more particularly, a redundancy technique for a memory, for example, a dynamic random access memory (DRAM) having a memory array which is divided into memory mats and a storage capacity of 16 mega bits or more. According to the present redundancy technique, for a semiconductor memory including a memory array which has a plurality of word lines, a plurality of bit lines arranged so that two-level crossings are formed between the word lines and the bit lines, memory cells disposed at desired ones of the two-level crossings, and spare bit lines, there is provided a redundancy circuit having a memory for storing therein a defective address existing in the memory array and comparing an address to be accessed with the stored defective address. Each of the address comparing circuits has stored therein the column address of a defective bit line and a part of the row address indicating the memory mat corresponding to the defective bit line.
    • 为半导体存储器引入冗余技术,更具体地说,涉及一种用于存储器的冗余技术,例如具有存储器阵列的动态随机存取存储器(DRAM),该存储器阵列被分成存储器阵列,存储容量为16兆比特 或者更多。 根据本技术的冗余技术,对于包含具有多个字线的存储器阵列的半导体存储器,配置成在字线和位线之间形成2级交叉的多位位线,位于 提供了两级交叉中的期望的和备用位线,提供了一种冗余电路,其具有用于在其中存储存在于存储器阵列中的缺陷地址并将要访问的地址与存储的缺陷地址进行比较的存储器。 每个地址比较电路在其中存储有缺陷位线的列地址和指示与有缺陷位线对应的存储器堆的行地址的一部分。
    • 17. 发明授权
    • Method for manufacturing memory device provided with a defect recovery mechanism featuring a redundancy circuit
    • 一种具有冗余电路的缺陷恢复机构的存储装置的制造方法
    • US07106643B2
    • 2006-09-12
    • US11139513
    • 2005-05-31
    • Masashi HoriguchiJun EtohMasakazu AokiKiyoo Itoh
    • Masashi HoriguchiJun EtohMasakazu AokiKiyoo Itoh
    • G11C29/04G11C29/18G11C29/24G11C8/12
    • G11C29/80G11C29/785G11C29/808
    • Method for manufacturing a memory device, the memory being a memory array with a spare bit line and being provided with a defect recovery scheme featuring a redundancy circuit. The redundancy circuit includes one or more comparing circuits having programmable elements which function as a memory for storing therein a defective address existing in the memory array. The programmable elements of the redundancy circuit can be programmed in accordance with any of a number of different types of defect modes. Each comparing circuit of the redundancy circuit compares information (data) inputted therein, for example, the column and row addresses which may be under the control of an address multiplex system, with that programmed in the programmable elements of the comparing circuit. On the basis of this comparison, an appropriate defect recovery is effected.
    • 用于制造存储器件的方法,所述存储器是具有备用位线的存储器阵列,并且提供具有冗余电路的缺陷恢复方案。 冗余电路包括具有可编程元件的一个或多个比较电路,其作为用于在其中存储存在于存储器阵列中的缺陷地址的存储器。 冗余电路的可编程元件可以根据多种不同类型的缺陷模式中的任何一种进行编程。 冗余电路的每个比较电路将在其中输入的信息(数据),例如可能在地址多路复用系统的控制下的列和行地址与在比较电路的可编程元件中编程的信息(数据)进行比较。 在此比较的基础上,进行适当的缺陷恢复。
    • 18. 发明授权
    • Semiconductor device having redundancy circuit
    • 具有冗余电路的半导体器件
    • US06909647B2
    • 2005-06-21
    • US10813240
    • 2004-03-31
    • Masashi HoriguchiJun EtohMasakazu AokiKiyoo Itoh
    • Masashi HoriguchiJun EtohMasakazu AokiKiyoo Itoh
    • G11C5/00G11C7/00G11C8/00G11C29/00
    • G11C29/80G11C29/785G11C29/808
    • A semiconductor memory is provided with a defect recovery scheme featuring a redundancy circuit. The memory array in the memory has a plurality of word lines, a plurality of bit lines, a spare bit line, and a plurality of memory cells. The redundancy circuit includes one or more comparing circuits having programmable elements which function as a memory for storing therein a defective address existing in the memory array. The programmable elements of the redundancy circuit can be programmed in accordance with any of a number of different types of defect modes. Each comparing circuit of the redundancy circuit compares information (data) inputted therein, for example, the column and row addresses which may be under the control of an address multiplex system, with that programmed in the programmable elements of the comparing circuit. On the basis of this comparison, an appropriate defect recovery is effected.
    • 半导体存储器具有冗余电路的缺陷恢复方案。 存储器中的存储器阵列具有多个字线,多个位线,备用位线和多个存储器单元。 冗余电路包括具有可编程元件的一个或多个比较电路,其作为用于在其中存储存在于存储器阵列中的缺陷地址的存储器。 冗余电路的可编程元件可以根据多种不同类型的缺陷模式中的任何一种进行编程。 冗余电路的每个比较电路将在其中输入的信息(数据),例如可能在地址多路复用系统的控制下的列和行地址与在比较电路的可编程元件中编程的信息(数据)进行比较。 在此比较的基础上,进行适当的缺陷恢复。
    • 19. 发明授权
    • Semiconductor device having redundancy circuit
    • 具有冗余电路的半导体器件
    • US06577544B2
    • 2003-06-10
    • US09992001
    • 2001-11-26
    • Masashi HoriguchiJun EtohMasakazu AokiKiyoo Itoh
    • Masashi HoriguchiJun EtohMasakazu AokiKiyoo Itoh
    • G11C700
    • G11C29/80G11C29/785G11C29/808
    • A semiconductor memory is provided with a defect recovery scheme featuring a redundancy circuit. The memory array in the memory has a plurality of word lines, a plurality of bit lines, a spare bit line, and a plurality of memory cells. The redundancy circuit includes one or more comparing circuits having programmable elements which function as a memory for storing therein a defective address existing in the memory array. The programmable elements of the redundancy circuit can be programmed in accordance with any of a number of different types of defect modes. Each comparing circuit of the redundancy circuit compares information (data) inputted therein, for example, the column and row addresses which may be under the control of an address multiplex system, with that programmed in the programmable elements of the comparing circuit. On the basis of this comparison, an appropriate defect recovery is effected.
    • 半导体存储器具有冗余电路的缺陷恢复方案。 存储器中的存储器阵列具有多个字线,多个位线,备用位线和多个存储器单元。 冗余电路包括具有可编程元件的一个或多个比较电路,其作为用于在其中存储存在于存储器阵列中的缺陷地址的存储器。 冗余电路的可编程元件可以根据多种不同类型的缺陷模式中的任何一种进行编程。 冗余电路的每个比较电路将在其中输入的信息(数据),例如可能在地址多路复用系统的控制下的列和行地址与在比较电路的可编程元件中编程的信息(数据)进行比较。 在此比较的基础上,进行适当的缺陷恢复。
    • 20. 发明授权
    • Semiconductor memory having redundancy circuit
    • 具有冗余电路的半导体存储器
    • US5815448A
    • 1998-09-29
    • US825605
    • 1997-03-31
    • Masashi HoriguchiJun EtohMasakazu AokiKiyoo Itoh
    • Masashi HoriguchiJun EtohMasakazu AokiKiyoo Itoh
    • G11C5/00G11C7/00G11C8/00G11C29/00
    • G11C29/80G11C29/785G11C29/808
    • A redundancy technique is introduced for a semiconductor memory and, more particularly, a redundancy technique for a dynamic random access memory (DRAM) having a storage capacity of 16 mega bits or more. In such a DRAM, the memory array is divided into memory mats. According to the present redundancy technique, for a semiconductor memory including a memory array which has a plurality of word lines, a plurality of bit lines arranged so that two-level crossings are formed between the word lines and the bit lines, memory cells disposed at desired ones of the two-level crossings, and spare bit lines, there is provided a redundancy circuit having a memory for storing therein a defective address existing in the memory array and comparing an address to be accessed with the stored defective address, and selection circuitry including logical OR gates for replacing a defective bit line by a spare bit line in accordance with the result of the comparison. Each of the address comparing circuits has stored therein the column address of a defective bit line and a part of the row address indicating the memory mat corresponding to the defective bit line.
    • 引入冗余技术用于半导体存储器,更具体地,涉及具有16兆位或更多存储容量的动态随机存取存储器(DRAM)的冗余技术。 在这样的DRAM中,存储器阵列被分成存储器垫。 根据本技术的冗余技术,对于包含具有多个字线的存储器阵列的半导体存储器,配置成在字线和位线之间形成2级交叉的多位位线,位于 提供了两级交叉中的期望的和备用位线,提供了一种冗余电路,其具有用于在其中存储存在于存储器阵列中的缺陷地址并将要访问的地址与所存储的缺陷地址进行比较的存储器,以及选择电路 包括用于根据比较结果用备用位线替换有缺陷位线的逻辑“或”门。 每个地址比较电路在其中存储有缺陷位线的列地址和指示与有缺陷位线对应的存储器堆的行地址的一部分。