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公开(公告)号:US08000806B2
公开(公告)日:2011-08-16
申请号:US12159776
申请日:2006-12-25
申请人: Zhigong Wang , Xiaosong Gu , Xiaoying Lv
发明人: Zhigong Wang , Xiaosong Gu , Xiaoying Lv
IPC分类号: A61N1/00
CPC分类号: A61N1/372 , A61N1/0551 , A61N1/36014 , A61N1/37205
摘要: Methods and equipment used to regenerate sensory, motorial, or visceral signals of injured, broken or diseased nerves of mammalia, such as humans, are provided. In some embodiments, a lineup of downward and upward channels to bridge injured neural channels is disclosed. The downward or upward channels can be connected to electrodes which are in contact with upper or lower nerve stumps. The channels can be used to detect, amplify, and recognize the motorial or sensory signals, to generate related Functional Electrical Stimulation (FES) signals, and to supply the FES signals to the electrodes on the lower or upper nerve stumps. Neural signals can thus be regenerated and the injured motorial or sensory channels can be bridged.
摘要翻译: 提供了用于再生哺乳动物(例如人)的受伤,断裂或患病神经的感觉,运动或内脏信号的方法和设备。 在一些实施例中,公开了用于桥接受损神经通道的向下和向上通道的阵列。 向下或向上的通道可以连接到与上部或下部神经残骸接触的电极。 通道可用于检测,放大和识别动力或感觉信号,以产生相关的功能性电刺激(FES)信号,并将FES信号提供给下部或上部神经根的电极。 因此可以再生神经信号,并且可以桥接损伤的运动或感觉通道。
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公开(公告)号:US20090112286A1
公开(公告)日:2009-04-30
申请号:US12159776
申请日:2006-12-25
申请人: Zhigong Wang , Xiaosong Gu , Xiaoying Lv
发明人: Zhigong Wang , Xiaosong Gu , Xiaoying Lv
CPC分类号: A61N1/372 , A61N1/0551 , A61N1/36014 , A61N1/37205
摘要: Methods and equipment used to regenerate sensory, motorial, or visceral signals of injured, broken or diseased nerves of mammalia, such as humans, are provided. In some embodiments, a lineup of downward and upward channels to bridge injured neural channels is disclosed. The downward or upward channels can be connected to electrodes which are in contact with upper or lower nerve stumps. The channels can be used to detect, amplify, and recognize the motorial or sensory signals, to generate related Functional Electrical Stimulation (FES) signals, and to supply the FES signals to the electrodes on the lower or upper nerve stumps. Neural signals can thus be regenerated and the injured motorial or sensory channels can be bridged.
摘要翻译: 提供了用于再生哺乳动物(例如人)的受伤,断裂或患病神经的感觉,运动或内脏信号的方法和设备。 在一些实施例中,公开了用于桥接受损神经通道的向下和向上通道的阵列。 向下或向上的通道可以连接到与上部或下部神经残骸接触的电极。 通道可用于检测,放大和识别动力或感觉信号,以产生相关的功能性电刺激(FES)信号,并将FES信号提供给下部或上部神经根的电极。 因此可以再生神经信号,并且可以桥接损伤的运动或感觉通道。
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公开(公告)号:US5703912A
公开(公告)日:1997-12-30
申请号:US646236
申请日:1996-05-13
申请人: Zhigong Wang , Manfred Berroth
发明人: Zhigong Wang , Manfred Berroth
CPC分类号: H03F3/1935 , H03D7/1408 , H03D7/1441 , H03D7/1458 , H03D7/1491 , H04L7/027 , H03D7/125
摘要: A circuit for clock recovery from an input signal, particularly an alternating input signal formed from a data signal, the invention calling for a filter/amplifier unit made up of several series-connected resonance ampliers to be formed in a regenerative frequency filter. Unlike series-connected resonance amplifiers without feedback, the filter/amplifier unit has an overall Q-factor in the feedback loop which increases essentially linearly with the number of resonance amplifiers and their Q-factor. This enables the required high overall Q-factor to be obtained for the clock-recovery circuit with a relatively low number of resonance amplifiers with a Q-factor which is low compared with the overall Q-factor. A slope detector, a frequency mixer and the resonance amplifiers have similar assemblies so that the circuit can be designed more simply as a solid-state integrated circuit.
摘要翻译: PCT No.PCT / DE94 / 01044 Sec。 371日期:1996年5月13日 102(e)日期1996年5月13日PCT 1994年9月8日PCT公布。 WO95 / 14339 PCT公开号 日期1995年5月26日一种用于从输入信号进行时钟恢复的电路,特别是由数据信号形成的交替输入信号,本发明要求由若干串联连接的谐振放大器构成的滤波器/放大器单元,以形成再生频率 过滤。 与没有反馈的串联谐振放大器不同,滤波器/放大器单元在反馈环路中具有总体Q因子,其随谐振放大器的数量及其Q因子基本线性增加。 这使得能够获得具有相对较低数量的谐振放大器的时钟恢复电路所需的高整体Q因子,其中Q因子与总体Q因子相比较低。 斜率检测器,混频器和谐振放大器具有相似的组件,使得可以更简单地将电路设计为固态集成电路。
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