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    • 62. 发明授权
    • Noise-tolerant signaling schemes supporting simplified timing and data recovery
    • 支持简化时序和数据恢复的耐噪声信令方案
    • US07672380B2
    • 2010-03-02
    • US11895415
    • 2007-08-23
    • Andrew HoVladimir StojanovicFred F. ChenElad AlonMark A. Horowitz
    • Andrew HoVladimir StojanovicFred F. ChenElad AlonMark A. Horowitz
    • H04B3/00H04B1/10H03D1/04H04L5/16
    • H04L47/10H04L5/20H04L25/0276
    • Described are communication systems that convey differential and common-mode signals over the same differential channel. Noise-tolerant communication schemes use low-amplitude common-mode signals that are easily rejected by differential receivers, thus allowing for very high differential data rates. Some embodiments employ the common-mode signals to transmit backchannel signals for adjusting the characteristics of the differential transmitter. Backchannel control signals are effectively conveyed even if the forward channel transmitter is so maladjusted that the received differential data is unrecognizable. Systems in accordance with the above-described embodiments obtain these advantages without additional pins or communications channels, and are compatible with both AC-coupled and DC-coupled communications channels. Data coding schemes and corresponding data recovery circuits eliminate the need for complex, high-speed CDR circuits.
    • 描述了通过相同的差分通道传送差分和共模信号的通信系统。 耐噪声通信方案使用容易被差分接收机拒绝的低振幅共模信号,从而允许非常高的差分数据速率。 一些实施例采用共模信号来发送用于调整差分发射机的特性的反向信道信号。 即使前向信道发射机被调整不正确,接收到的差分数据是无法识别的,反向信道控制信号也被有效地传送。 根据上述实施例的系统在没有附加引脚或通信信道的情况下获得这些优点,并且与AC耦合和DC耦合通信信道兼容。 数据编码方案和相应的数据恢复电路不需要复杂的高速CDR电路。
    • 68. 发明授权
    • Noise-tolerant signaling schemes supporting simplified timing and data recovery
    • 支持简化时序和数据恢复的耐噪声信令方案
    • US07292637B2
    • 2007-11-06
    • US10739823
    • 2003-12-17
    • Andrew HoVladimir StojanovicFred F. ChenElad AlonMark A. Horowitz
    • Andrew HoVladimir StojanovicFred F. ChenElad AlonMark A. Horowitz
    • H04B3/00H04B1/10H04B1/18H03D1/04
    • H04L47/10H04L5/20H04L25/0276
    • Described are communication systems that convey differential and common-mode signals over the same differential channel. Noise-tolerant communication schemes use low-amplitude common-mode signals that are easily rejected by differential receivers, thus allowing for very high differential data rates. Some embodiments employ the common-mode signals to transmit backchannel signals for adjusting the characteristics of the differential transmitter. Backchannel control signals are effectively conveyed even if the forward channel transmitter is so maladjusted that the received differential data is unrecognizable. Systems in accordance with the above-described embodiments obtain these advantages without additional pins or communications channels, and are compatible with both AC-coupled and DC-coupled communications channels. Data coding schemes and corresponding data recovery circuits eliminate the need for complex, high-speed CDR circuits.
    • 描述了通过相同的差分通道传送差分和共模信号的通信系统。 耐噪声通信方案使用容易被差分接收机拒绝的低振幅共模信号,从而允许非常高的差分数据速率。 一些实施例采用共模信号来发送用于调整差分发射机的特性的反向信道信号。 即使前向信道发射机被调整不正确,接收到的差分数据是无法识别的,反向信道控制信号也被有效地传送。 根据上述实施例的系统在没有附加引脚或通信信道的情况下获得这些优点,并且与AC耦合和DC耦合通信信道兼容。 数据编码方案和相应的数据恢复电路不需要复杂的高速CDR电路。
    • 69. 发明授权
    • Linear transformation circuits
    • 线性变换电路
    • US07133463B1
    • 2006-11-07
    • US11213352
    • 2005-08-25
    • Amir AmirkhanyVladimir StojanovicElad AlonJared LeVan ZerbeMark A. Horowitz
    • Amir AmirkhanyVladimir StojanovicElad AlonJared LeVan ZerbeMark A. Horowitz
    • H04L27/04
    • G06F17/141G06J1/005
    • A transform circuit includes a first circuit and a second circuit. The first circuit and the second circuit implement first and second mappings that together generate a pre-defined transform of N digital data symbols. The first circuit maps a set of N digital data symbols from N parallel data streams to N analog data symbols by generating N sets of weighted sums of the N digital data symbols. Each respective weighted sum is defined by a respective set of pre-determined weighting values in a first matrix. The second circuit maps the N analog data symbols to a sequence of N output signals over N time intervals. Each of the N output signals corresponds to a respective weighted sum of the N analog data symbols. Each respective weighted sum is defined by a respective set of pre-determined weighting values in a second matrix.
    • 变换电路包括第一电路和第二电路。 第一电路和第二电路实现一起产生N个数字数据符号的预定义变换的第一和第二映射。 第一电路通过产生N个数字数据符号的加权和的N组,将来自N个并行数据流的一组N个数字数据符号映射到N个模拟数据符号。 每个相应的加权和由第一矩阵中的预定加权值的相应集合定义。 第二电路在N个时间间隔内将N个模拟数据符号映射到N个输出信号的序列。 N个输出信号中的每一个对应于N个模拟数据符号的各自的加权和。 每个相应的加权和由第二矩阵中的预定加权值的相应集合来定义。