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    • 1. 发明授权
    • Variable frequency switching amplifier and method therefor
    • 变频开关放大器及其方法
    • US06819912B2
    • 2004-11-16
    • US10008121
    • 2001-11-05
    • William RoecknerPallab MidyaGregory Buchwald
    • William RoecknerPallab MidyaGregory Buchwald
    • H03F338
    • H03F3/2171H04B15/04
    • A switching amplifier generates noise at its switching frequency and harmonics thereof. The noise at these harmonics, for an audio amplifier, will be generated with significant amplitude in the AM band. Thus, an AM tuner will experience interference problems if the tuner frequency is sufficiently close to one of these harmonics. To avoid this problem the switching frequency of the switching amplifier is chosen based on the tuner frequency. Thus, the switching frequency is chosen to avoid having harmonics at or too near the chosen tuner frequency. The switching amplifier is disabled when the tuner is in seek or scan mode. Instead of using the tuner frequency to determine what switching frequency should be used to avoid interference, the interference can be detected directly to cause a change in the switching frequency and thus remove the interference.
    • 开关放大器以其开关频率和谐波产生噪声。 对于音频放大器,这些谐波的噪声将在AM频带中以显着的幅度产生。 因此,如果调谐器频率足够接近这些谐波之一,则AM调谐器将经历干扰问题。 为了避免这个问题,基于调谐器频率来选择开关放大器的开关频率。 因此,选择开关频率以避免在所选择的调谐器频率处或谐波附近。 当调谐器处于寻线或扫描模式时,开关放大器被禁止。 不是使用调谐器频率来确定应该使用什么开关频率来避免干扰,所以可以直接检测干扰,导致开关频率的变化,从而消除干扰。
    • 2. 发明授权
    • Circuitry for creating a spectral null in a differential output switching amplifier and method therefor
    • 用于在差分输出开关放大器中产生频谱零点的电路及其方法
    • US06605991B2
    • 2003-08-12
    • US09943177
    • 2001-08-30
    • Pallab MidyaWilliam Roeckner
    • Pallab MidyaWilliam Roeckner
    • H03F338
    • H03F3/2173H03F3/2171H03F2200/342H03F2200/345H03F2200/351
    • A modulated signal is connected to a full bridge switching amplifier (16, 18, 28, 30) and is compensated to remove a predetermined frequency and its odd harmonics. The compensation inverts and delays (26) a signal that is connected to a first half of the full bridge and applies the delayed inverted signal to a second half of the full bridge. By delaying by an odd number of half cycles, the carrier and its odd harmonics are cancelled because the same signal exists on both sides of the full bridge output. When these two same signals are subtracted by the full bridge action, the carrier and odd harmonics are suppressed. Spectral nulls may be provided for various signal applications, not just audio, and when various types of modulation techniques are used, such as PWM and PDM.
    • 调制信号连接到全桥开关放大器(16,18,28,30),并被补偿以去除预定频率及其奇次谐波。 补偿反相并延迟(26)连接到全桥的前半部分的信号,并将延迟的反相信号施加到全桥的后半部分。 通过延迟奇数半周期,载波及其奇次谐波被消除,因为在全桥输出的两侧存在相同的信号。 当通过全桥动作减去这两个相同的信号时,载波和奇次谐波被抑制。 可以为各种信号应用(不仅仅是音频)以及当使用各种类型的调制技术(例如PWM和PDM)时提供频谱零点。
    • 3. 发明申请
    • DIGITAL SATURATION HANDLING IN INTEGRAL NOISE SHAPING OF PULSE WIDTH MODULATION
    • 脉冲宽度调制的整体噪声形状数字饱和处理
    • US20070109165A1
    • 2007-05-17
    • US11273286
    • 2005-11-14
    • Pallab MidyaWilliam RoecknerJohn GrosspietschAnthony Schooler
    • Pallab MidyaWilliam RoecknerJohn GrosspietschAnthony Schooler
    • H03M1/66
    • H03M3/366H03M3/432H03M3/452
    • An audio amplifier includes a digital signal processor (DSP) that contains a noise shaping quantizer having an integrating error amplifier. The integrating error amplifier contains integrators connected in a feedback loop, a summer supplied with an output of each of the integrators, and a saturation function module producing a saturation function. A multiplier is disposed between each pair of adjacent integrators. The multiplier receives a signal from one of the adjacent integrators and the saturation function and supplies a signal to the other of the adjacent integrators. The saturation function decreases the effect of all of the integrators except an integrator to which an input signal to the integrating amplifier is supplied using an input signal to and/or an output signal from the noise shaping quantizer. This permits the duty ratio of the output signal from the noise shaping quantizer to extend from 0% to 100%.
    • 音频放大器包括包含具有积分误差放大器的噪声整形量化器的数字信号处理器(DSP)。 积分误差放大器包含连接在反馈回路中的积分器,与每个积分器的输出相加的夏季以及产生饱和功能的饱和功能模块。 在每对相邻的积分器之间设置乘法器。 乘法器接收来自相邻积分器之一的信号和饱和度函数,并向相邻的积分器中的另一个提供信号。 饱和功能降低了除了积分器之外的所有积分器的影响,使用来自噪声整形量化器的输入信号和/或来自噪声整形量化器的输出信号向积分放大器提供输入信号。 这允许来自噪声整形量化器的输出信号的占空比从0%延伸到100%。
    • 6. 发明授权
    • Polynomial calculator device, and method therefor
    • 多项式计算器装置及其方法
    • US5939693A
    • 1999-08-17
    • US17463
    • 1998-02-02
    • William RoecknerTimothy RuegerWalter Czarnocki
    • William RoecknerTimothy RuegerWalter Czarnocki
    • G06G7/20G06F7/544G06F17/10G06F11/10
    • G06F7/5443
    • A polynomial calculator device is applied to calibrate a sensing device. Preferably the sensing device (100) includes a sensing element (102) with an output coupled to a signal conditioning circuit (104). The signal conditioning circuit (104) is adapted to be highly computationally efficient and operable for compensating for temperature and part-to-part variation on the sensing element output for providing a useable sensor output signal. A calibration method relies on a unique polynomial calculator (118) that is implemented as part of the signal conditioning circuit (104). The sensor is preferably manufactured and packaged prior to calibration so as to avoid any post-calibration processing error. The packaged sensor is calibrated and a number of calibration values are retained in a memory (114) and accessed by the calibration method during sensing element signal processing.
    • 应用多项式计算器装置校准感测装置。 优选地,感测装置(100)包括具有耦合到信号调节电路(104)的输出的感测元件(102)。 信号调理电路(104)适于高度计算效率并且可操作用于补偿感测元件输出端上的温度和部件间变化,以提供可用的传感器输出信号。 校准方法依赖于被实现为信号调理电路(104)的一部分的唯一多项式计算器(118)。 传感器优选在校准之前制造和封装,以避免任何后校准处理错误。 校准了封装的传感器,并且在感测元件信号处理期间,通过校准方法将多个校准值保留在存储器(114)中并被校准方法访问。
    • 7. 发明申请
    • Edge seal for improving integrated circuit noise isolation
    • 边缘密封,用于改善集成电路噪声隔离
    • US20070181981A1
    • 2007-08-09
    • US11349608
    • 2006-02-08
    • Neal HollenbeckKenneth HaddadWilliam Roeckner
    • Neal HollenbeckKenneth HaddadWilliam Roeckner
    • H01L23/552
    • H01L23/585H01L23/60H01L2924/0002H01L2924/3011H01L2924/00
    • An edge seal structure and fabrication method are described. The edge seal structure includes a high impedance substrate containing a base material and a grounded floating edge seal that is on the substrate but is isolated from the base material. The edge seal contacts a first doped well in the substrate that has the same conductivity type as and is more heavily doped than the base material. The first doped well is in a second doped well that has a different conductivity type than the first doped well. The first and second doped wells and the base material form back-to-back series connected diodes. The wells are effectively connected to power and ground such that the diodes are reverse-biased. The edge seal is formed by a stack of conductive layers, at least some of which are surrounded by a stack of insulating layers.
    • 描述了边缘密封结构和制造方法。 边缘密封结构包括含有基材的高阻抗衬底和位于衬底上但与基底材料隔离的接地浮动边缘密封。 边缘密封接触衬底中的第一掺杂阱,其具有与基底材料相同的导电类型和比基底材料更重的掺杂。 第一掺杂阱位于具有与第一掺杂阱不同的导电类型的第二掺杂阱中。 第一和第二掺杂阱和基体材料形成背对背串联连接的二极管。 这些阱有效地连接到电源和接地,使得二极管被反向偏置。 边缘密封由一叠导电层形成,其中至少一些被一叠绝缘层包围。
    • 8. 发明授权
    • Device with programmable memory and method of programming
    • 具有可编程存储器和编程方法的器件
    • US6041007A
    • 2000-03-21
    • US17393
    • 1998-02-02
    • William Roeckner
    • William Roeckner
    • G11C16/02G11C16/22G11C7/00
    • G11C16/22
    • A device, preferably an electronically calibrated sensor (100) includes a sensing element (102) with an output coupled to a calibration circuit (104). The calibration circuit (104) includes an electronically erasable programmable read only memory (EEPROM) (114). An EEPROM fuse (204) is employed in association with the EEPROM (114) which in a programming-disable logical state disables the write/erase program logic (208). The EEPROM fuse (204) may only be erased upon a valid fuse override signal (232) the input for which (224) in a final packaged device is inaccessible.
    • 优选地,电子校准传感器(100)的装置包括具有耦合到校准电路(104)的输出的感测元件(102)。 校准电路(104)包括电子可擦除可编程只读存储器(EEPROM)(114)。 与EEPROM(114)相关联地使用EEPROM熔丝(204),在EEPROM的编程禁止逻辑状态下禁止写/擦除程序逻辑(208)。 EEPROM熔丝(204)只能在有效的保险丝超控信号(232)上被擦除,对于最终的封装设备(224)的输入是不可访问的。