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    • 5. 发明申请
    • NONVOLATILE ANALOG MEMORY
    • 非易失性模拟记忆
    • US20100188899A1
    • 2010-07-29
    • US12758760
    • 2010-04-12
    • Cheng-Da HuangChih-Cheng LuHsin Chen
    • Cheng-Da HuangChih-Cheng LuHsin Chen
    • G11C16/02G11C16/06
    • G11C27/005G11C16/0441
    • A nonvolatile analog memory has a floating gate point. The nonvolatile analog memory includes a capacitor. a first current source, a second current source and a current adjuster. The first current source controlled by a voltage value at the floating gate point and generates a first current. The second current source controlled by the voltage value at the floating gate point and generates a second current. The current adjuster receives the output voltage and a reference voltage and adjusts the first current and the second current based on the output voltage and the reference voltage. The current adjuster charges or discharges the capacitor to equalize the output voltage to the reference voltage.
    • 非易失性模拟存储器具有浮动栅极点。 非易失性模拟存储器包括电容器。 第一电流源,第二电流源和电流调节器。 第一电流源由浮动栅极点处的电压值控制并产生第一电流。 第二电流源由浮动栅极点处的电压值控制并产生第二电流。 电流调节器接收输出电压和参考电压,并根据输出电压和参考电压调整第一电流和第二电流。 电流调节器对电容器充电或放电,以使输出电压与参考电压相等。
    • 6. 发明授权
    • Nonvolatile analog memory
    • 非易失性模拟存储器
    • US07746693B2
    • 2010-06-29
    • US12192137
    • 2008-08-15
    • Cheng-Da HuangChih-Cheng LuHsin Chen
    • Cheng-Da HuangChih-Cheng LuHsin Chen
    • G11C16/04
    • G11C27/005G11C16/0441
    • A nonvolatile analog memory has a floating gate point. The nonvolatile analog memory includes a first current source, a second current source, and a current adjuster. The first current source generates a first current, and the second current source generates a second current. The current adjuster turns on or turns off a current path of the second current according to a reference current and the first current. Furthermore, when the current path of the second current is turned on, the first current is adjusted according to the second current, such that the first current is equal to the reference current.
    • 非易失性模拟存储器具有浮动栅极点。 非易失性模拟存储器包括第一电流源,第二电流源和电流调节器。 第一电流源产生第一电流,第二电流源产生第二电流。 电流调节器根据参考电流和第一电流打开或关闭第二电流的电流路径。 此外,当第二电流的电流路径导通时,根据第二电流来调整第一电流,使得第一电流等于参考电流。
    • 7. 发明申请
    • Method of monitoring human physiological parameters and safty conditions universally
    • 普遍监测人体生理参数和安全状况的方法
    • US20080146889A1
    • 2008-06-19
    • US11637737
    • 2006-12-13
    • Shuenn-Tsong YoungChung-Wang LeeChih-Cheng LuTsair KaoWoei-Chyn Chu
    • Shuenn-Tsong YoungChung-Wang LeeChih-Cheng LuTsair KaoWoei-Chyn Chu
    • A61B5/00
    • A61B5/0205A61B5/02438A61B5/1117A61B5/1135
    • In a method of monitoring human physiological parameters and safe condition universally, the method is applied to a monitoring apparatus worn at an examinee's body and includes the steps of: monitoring the examinee's current plurality of physiological parameters and plurality of movement information; analyzing the movement information to determine whether or not the examinee is in motion; analyzing the physiological parameters to determine whether or not each physiological parameter is in compliance with a normal physiological standard preinstalled in the monitoring apparatus if the examinee is determined not in motion, and also determining whether or not each physiological parameter is in compliance with a normal physiological standard preinstalled in the monitoring apparatus; and issuing a first precaution reporting signal to an identified recipient and sending out the first precaution reporting signal via a wireless transmission, if the physiological parameters are incompliance with the normal physiological standards.
    • 在全面监测人体生理参数和安全状况的方法中,将该方法应用于佩戴在受检者体内的监测装置,其特征在于包括以下步骤:监测受检者当前的多个生理参数和多个运动信息; 分析运动信息以确定受检者是否运动; 分析生理参数,以确定每个生理参数是否符合预先安装在监测装置中的正常生理学标准,如果被检查者不被运动,并且还确定每个生理参数是否符合正常生理学 监测装置中预先安装标准; 以及如果所述生理参数不符合正常生理标准,则通过无线传输向所识别的接收方发出第一预警报告信号并发出所述第一预警报告信号。
    • 8. 发明申请
    • Spatial bandgap modifications and energy shift of semiconductor structures
    • 半导体结构的空间带隙修改和能量偏移
    • US20080069169A1
    • 2008-03-20
    • US11827003
    • 2007-07-10
    • Peidong WangChih-Cheng LuDaryoosh Vakhshoori
    • Peidong WangChih-Cheng LuDaryoosh Vakhshoori
    • H01S5/00H01L29/06H01L33/00
    • B82Y20/00H01S5/028H01S5/06255H01S5/101H01S5/1057H01S5/34H01S5/3413H01S2301/04
    • Semiconductor substrate is disclosed having quantum wells having first bandgap, and quantum wells having second bandgap greater than first bandgap. Semiconductor structure is disclosed comprising substrate having quantum wells having given bandgap, other quantum wells modified to bandgap greater than given bandgap. Semiconductor substrate is disclosed comprising wafer having quantum wells, section of first bandgap, and section of second bandgap greater than first bandgap. Method for forming semiconductor substrate is provided, comprising providing wafer having given bandgap, depositing dielectric cap on portion and rapid thermal annealing to tuned bandgap greater than given bandgap. Semiconductor structure is disclosed comprising substrate having quantum wells modified by depositing cap and rapid thermal annealing to tuned bandgap greater than given bandgap. Method for forming semiconductor substrate is disclosed, comprising providing wafer having quantum wells having given bandgap, depositing cap on portion and rapid thermal annealing to tuned bandgap greater than given bandgap.
    • 公开了具有量子阱具有第一带隙的半导体衬底,并且具有大于第一带隙的第二带隙的量子阱。 公开了半导体结构,其包括具有给定带隙的量子阱的衬底,其他量子阱被修改为具有大于给定带隙的带隙。 公开了半导体衬底,其包括具有量子阱的晶片,第一带隙的截面以及大于第一带隙的第二带隙的截面。 提供了形成半导体衬底的方法,其包括提供具有给定带隙的晶片,在部分上沉积介电帽和快速热退火至大于给定带隙的调谐带隙。 公开了半导体结构,其包括具有通过沉积帽和快速热退火而修改的量子阱的衬底,所述量子阱具有大于给定带隙的调谐带隙。 公开了一种用于形成半导体衬底的方法,其包括提供具有给定带隙的量子阱的晶片,将部分上的沉积帽和快速热退火至大于给定带隙的调谐带隙。
    • 10. 发明授权
    • Single or multi-mode cardiac activity data collection, processing and display obtained in a non-invasive manner
    • 以非侵入性方式获得的单或多模式心脏活动数据收集,处理和显示
    • US07043292B2
    • 2006-05-09
    • US10176944
    • 2002-06-21
    • Peter P. TarjanChih-Cheng LuWalter Besio
    • Peter P. TarjanChih-Cheng LuWalter Besio
    • A61B5/402
    • A61B8/483A61B5/0408A61B5/745A61B8/08A61B8/488
    • The method of presenting concurrent information about the electrical and mechanical activity of the heart using non-invasively obtained electrical and mechanical cardiac activity data from the chest or thorax of a patient comprises the steps of: placing at least three active Laplacian ECG sensors at locations on the chest or thorax of the patient; where each sensor has at least one outer ring element and an inner solid circle element, placing at least one ultrasonic sensor on the thorax where there is no underlying bone structure, only tissue, and utilizing available ultrasound technology to produce two or three-dimensional displays of the moving surface of the heart and making direct measurements of the exact sites of the sensors on the chest surface to determine the position and distance from the center of each sensor to the heart along a line orthogonal to the plane of the sensor and create a virtual heart surface; updating the measurements at a rate to show the movement of the heart's surface; monitoring at each ultrasonic sensor site and each Laplacian ECG sensor site the position and movement of the heart and the passage of depolarization wave-fronts in the vicinity; treating those depolarization wave-fronts as moving dipoles at those sites to create images of their movement on the image of the beating heart's surface; and, displaying the heart's electrical activity on the dynamically changing image of the heart's surface with the goal to display an approximation of the activation sequence on the beating virtual surface of the heart
    • 使用来自患者的胸部或胸部的非侵入式获得的电和机械心脏活动数据呈现关于心脏的电和机械活动的并发信息的方法包括以下步骤:将至少三个有源拉普拉斯ECG心电图传感器放置在 患者的胸部或胸部; 其中每个传感器具有至少一个外环元件和内部实心圆形元件,将至少一个超声波传感器放置在胸部上,其中没有下面的骨结构,仅包括组织,并且利用可用的超声技术来产生二维或三维显示 的心脏的移动表面,并直接测量胸部表面上传感器的精确位置,以确定沿着与传感器平面垂直的线的每个传感器的心脏到心脏的位置和距离,并创建一个 虚拟心脏表面; 以显示心脏表面运动的速率更新测量值; 在每个超声波传感器位置和每个拉普拉斯ECG点位置监测心脏的位置和运动以及去极化波前的附近; 将这些去极化波前作为移动偶极子处理,以在心跳表面上形成运动图像; 并且在心脏表面的动态变化的图像上显示心脏的电活动,目的是显示心跳的虚拟表面上的激活序列的近似值