公开(公告)号：US20160241186A1

公开(公告)日：2016-08-18

申请号：US15042276

申请日：2016-02-12

Applicant: Infineon Technologies AG

Inventor： Mario MOTZ

IPC: H03B5/04 ,  H03B5/24

CPC classification number: H03B5/04 ,  G01D3/02 ,  H02N1/006 ,  H03K3/0231 ,  H03L1/025

Abstract: A stress compensated oscillator circuitry comprises a sensor arrangement for providing a sensor output signal SSensor, wherein the sensor output signal SSensor is based on an instantaneous stress or strain component σ in the semiconductor substrate, a processing arrangement for processing the sensor output signal SSensor and providing a control signal SControl depending on the instantaneous stress or strain component σ in the semiconductor substrate, and an oscillator arrangement for providing an oscillator output signal Sosc having an oscillator frequency fosc based on the control signal SControl, wherein the control signal SControl controls the oscillator output signal Sosc, and wherein the control signal SControl reduces the influence of the instantaneous stress or strain component σ in the semiconductor substrate onto the oscillator output signal Sosc, so that the oscillator circuitry provides a stress compensated oscillator output signal.

Abstract translation: 应力补偿振荡器电路包括用于提供传感器输出信号SSensor的传感器装置，其中传感器输出信号SSensor基于半导体衬底中的瞬时应力或应变分量σ，用于处理传感器输出信号SSensor并提供 取决于半导体衬底中的瞬时应力或应变分量σ的控制信号SControl以及用于提供具有基于控制信号SControl的振荡器频率fosc的振荡器输出信号Sosc的振荡器装置，其中控制信号SControl控制振荡器输出 信号Sosc，并且其中控制信号SControl将半导体衬底中的瞬时应力或应变分量σ的影响减小到振荡器输出信号Sosc上，使得振荡器电路提供应力补偿的振荡器输出信号。

公开(公告)号：US09252783B2

公开(公告)日：2016-02-02

申请号：US14220845

申请日：2014-03-20

Applicant: SEIKO EPSON CORPORATION

Inventor： Kensaku Isohata ,  Atsushi Kiyohara

IPC: H03L1/04 ,  H03L1/02

CPC classification number: H03L1/028 ,  H03L1/025 ,  H03L1/04

Abstract: An oscillator includes an oscillation element; an oscillation circuit which causes the oscillation element to oscillate; a heat generation element which heats the oscillation element; a temperature control circuit which controls the heat generation element; and a temperature correction circuit which corrects frequency-temperature characteristics of an output signal of the oscillation circuit.

Abstract translation: 振荡器包括振荡元件; 使振荡元件振荡的振荡电路; 加热振荡元件的发热元件; 控制发热元件的温度控制电路; 以及校正振荡电路的输出信号的频率 - 温度特性的温度校正电路。

公开(公告)号：US09092729B2

公开(公告)日：2015-07-28

申请号：US14336951

申请日：2014-07-21

Applicant: Greenray Industries, Inc.

Inventor： John C. Esterline

IPC: G06N3/02 ,  H03L1/02 ,  H03L1/04 ,  G06N3/00 ,  G06N3/08

CPC classification number: G06N3/02 ,  G06N3/00 ,  G06N3/08 ,  H03L1/025 ,  H03L1/026 ,  H03L1/04

Abstract: Systems and methods for controlling frequency output of an electronic oscillator to compensate for effects of one or more parameters experienced by the oscillator incorporate artificial neural network processing functionality for generating correction signals. A neural network processing module includes one or more neurons which receive one or more inputs corresponding to parameters of an electronic oscillator, such as temperature and control voltage (or correction voltage). One or more sets of weights are calculated and applied to inputs to the neurons of the neural network as part of a training process, wherein the weights help shape the output of the neural network processing module. The neural network may include a linear summation module configured to provide an output signal that is at least partially based on outputs of the one or more neurons.

Abstract translation: 用于控制电子振荡器的频率输出以补偿振荡器经历的一个或多个参数的影响的系统和方法包括用于产生校正信号的人造神经网络处理功能。 神经网络处理模块包括一个或多个神经元，其接收与电子振荡器的参数相对应的一个或多个输入，诸如温度和控制电压（或校正电压）。 计算一组或多组权重并将其应用于作为训练过程的一部分的神经网络的神经元的输入，其中权重有助于形成神经网络处理模块的输出。 神经网络可以包括被配置为提供至少部分地基于一个或多个神经元的输出的输出信号的线性求和模块。

公开(公告)号：US20140161214A1

公开(公告)日：2014-06-12

申请号：US13710664

申请日：2012-12-11

Applicant: DIALOG SEMICONDUCTOR B.V.

Inventor： Wik Roovers ,  Steven Leussink

IPC: H04L7/04

CPC classification number: H04L7/04 ,  H03L1/025 ,  H03L7/12 ,  H04L7/10

Abstract: An automatic calibration of a clock of a wireless portable part with respect to a clock of a fixed part in a field environment. The calibration performed in the field environment negates the need to calibrate the clock during manufacture and negates the need for an initial field recalibration because of temperature differences between manufacture and the field. In performing the calibration the frequency of the clock of the portable part is varied until the portable part is synchronous with the fixed part to with in a range of timing bits. The portable part is declared calibrated after remaining calibrated for a defined number of data frames.

Abstract translation: 相对于现场环境中的固定部分的时钟，无线便携式部件的时钟的自动校准。 在现场环境中执行的校准不利于在制造过程中校准时钟，并且由于制造和现场之间的温度差异而不需要初始场重新校准。 在执行校准时，改变便携式部件的时钟频率，直到便携式部件在定时位置的范围内与固定部件同步。 便携式部件在为定义数量的数据帧进行校准后被声明校准。

公开(公告)号：US20130313332A1

公开(公告)日：2013-11-28

申请号：US13897710

申请日：2013-05-20

Applicant: Seiko Epson Corporation

Inventor： Kensaku ISOHATA ,  Katsuyoshi TERASAWA

IPC: H03L1/02 ,  G01K7/02

CPC classification number: H03L1/02 ,  G01K7/021 ,  H03L1/025 ,  H03L1/027

Abstract: A temperature information generation circuit includes a temperature sensor (a first temperature detection section), a high-sensitivity temperature sensor (one or plural second temperature detection sections) having higher sensitivity than that of the temperature sensor, an output selection circuit, and a control section. The output selection circuit and the control section select a detection signal of the high-sensitivity temperature sensor upon supply of a power supply voltage, and then perform switching so as to select a detection signal of the temperature sensor at a predetermined timing.

Abstract translation: 温度信息生成电路包括温度传感器（第一温度检测部），灵敏度高于温度传感器的高灵敏度温度传感器（一个或多个第二温度检测部），输出选择电路和控制 部分。 输出选择电路和控制部分在提供电源电压时选择高灵敏度温度传感器的检测信号，然后进行切换，以便在预定定时选择温度传感器的检测信号。

公开(公告)号：US08587384B2

公开(公告)日：2013-11-19

申请号：US13294086

申请日：2011-11-10

Applicant: Yuji Satoh ,  Mototsugu Hamada ,  Daisuke Miyashita

Inventor： Yuji Satoh ,  Mototsugu Hamada ,  Daisuke Miyashita

IPC: H03L1/02 ,  H03B5/12

CPC classification number: H03L1/026 ,  H03L1/025 ,  H03L7/099 ,  H03L7/0995 ,  H03L2207/06

Abstract: A semiconductor integrated circuit device includes a DCO and a storing unit that stores a temperature coefficient of an oscillation frequency and an absolute value of the oscillation frequency, which should be set in the DCO, corresponding to potential obtained from a voltage source that changes with a monotonic characteristic with respect to temperature.

Abstract translation: 半导体集成电路器件包括DCO和存储单元，该存储单元存储在DCO中设置的振荡频率的温度系数和振荡频率的绝对值，对应于从电压源变化的电位获得的电位 关于温度的单调特性。

公开(公告)号：US08433255B2

公开(公告)日：2013-04-30

申请号：US13176509

申请日：2011-07-05

Applicant: David Harnishfeger

Inventor： David Harnishfeger

IPC: H04B1/40

CPC classification number: H03L1/00 ,  H03J3/04 ,  H03L1/023 ,  H03L1/025 ,  H03L1/028

Abstract: In embodiments of the present disclosure, a method may include determining an ambient temperature of an oscillator. The method may also include estimating an approximate frequency of operation of the oscillator. The method may additional include determining a process-based compensation to be applied to a resonator of the oscillator based on the approximate frequency. The method may further include setting a capacitance of a variable capacitor coupled to the resonator in order to compensate for temperature-dependent and process-dependent frequency variation of the oscillator based on the ambient temperature and the process-based compensation.

Abstract translation: 在本公开的实施例中，方法可以包括确定振荡器的环境温度。 该方法还可以包括估计振荡器的近似操作频率。 该方法可以包括基于近似频率来确定要应用于振荡器的谐振器的基于过程的补偿。 该方法还可以包括设置耦合到谐振器的可变电容器的电容，以便基于环境温度和基于过程的补偿来补偿振荡器的温度依赖性和过程相关的频率变化。

公开(公告)号：US20120042192A1

公开(公告)日：2012-02-16

申请号：US13131969

申请日：2009-11-30

Applicant: Timothy Roberton Rae ,  Oleg Nokhimovich Sheynin ,  Brent John Robinson

Inventor： Timothy Roberton Rae ,  Oleg Nokhimovich Sheynin ,  Brent John Robinson

IPC: G06F1/04

CPC classification number: H03L1/026 ,  H03B5/04 ,  H03J1/0008 ,  H03L1/025

Abstract: A method is disclosed for improving the effective frequency stability of a frequency reference source, wherein an algorithm utilizing parameters determined from frequency and temperature sensing measurements of the source or a similar source over a number of temperature excursions of different magnitude is used in conjunction with temperature history to correct the frequency reference output accounting for effects of hysteresis in the frequency-temperature characteristic of the source. Devices and manufacturing systems are also claimed.

Abstract translation: 公开了一种用于提高频率参考源的有效频率稳定性的方法，其中使用从频率和温度感测测量的参数在不同幅度的多个温度偏移下测量源或类似源的算法结合温度 纠正频率参考输出的历史记录了源的频率 - 温度特性中滞后的影响。 还要求装置和制造系统。

公开(公告)号：US20110181367A1

公开(公告)日：2011-07-28

申请号：US12726323

申请日：2010-03-17

Applicant: Yuji SATOH ,  Mototsugu HAMADA ,  Daisuke MIYASHITA

Inventor： Yuji SATOH ,  Mototsugu HAMADA ,  Daisuke MIYASHITA

IPC: H03L7/00

CPC classification number: H03L1/026 ,  H03L1/025 ,  H03L7/099 ,  H03L7/0995 ,  H03L2207/06

Abstract: A semiconductor integrated circuit device includes a DCO and a storing unit that stores a temperature coefficient of an oscillation frequency and an absolute value of the oscillation frequency, which should be set in the DCO, corresponding to potential obtained from a voltage source that changes with a monotonic characteristic with respect to temperature.

Abstract translation: 半导体集成电路器件包括DCO和存储单元，该存储单元存储在DCO中设置的振荡频率的温度系数和振荡频率的绝对值，对应于从电压源变化的电位获得的电位 关于温度的单调特性。

公开(公告)号：US20110156823A1

公开(公告)日：2011-06-30

申请号：US12927888

申请日：2010-11-29

Applicant: Mitsuaki Koyama ,  Shigetaka Kaga ,  Kazuo Akaike ,  Shigenori Watanabe

Inventor： Mitsuaki Koyama ,  Shigetaka Kaga ,  Kazuo Akaike ,  Shigenori Watanabe

IPC: H03B1/00

CPC classification number: H03L1/04 ,  H03H9/0509 ,  H03H9/1021 ,  H03H9/132 ,  H03H9/19 ,  H03L1/023 ,  H03L1/025

Abstract: There is provided a temperature compensated piezoelectric oscillator which excels in frequency stability and has a good electronic noise characteristic, and with which a circuit can be structured simply. An auxiliary oscillator unit 21 sharing a crystal substrate 2 with a main oscillator unit 11 outputting a set frequency f0 to an outside is used as a temperature detecting unit 32 detecting a temperature T for obtaining a compensation voltage ΔV in a temperature compensated piezoelectric oscillator (TCXO), and electrodes 13, 23 of the main oscillator unit 11 and the auxiliary oscillator unit 21 are provided separately on the crystal substrate 2. For example, a fundamental wave and an overtone are used or a thickness shear vibration and a contour shear vibration are used in the main oscillator unit 11 and the auxiliary oscillator unit 21, respectively.

Abstract translation: 提供了一种温度补偿压电振荡器，其频率稳定性优异并且具有良好的电子噪声特性，并且可以简单地构造电路。 使用共用晶体基板2的辅助振荡器单元21与将外部设定频率f0的主振荡器单元11共同作为温度检测单元32，检测用于获得温度补偿压电振荡器中的补偿电压＆Dgr; V的温度T （TCXO）和主振荡器单元11和辅助振荡器单元21的电极13,23分别设置在晶体基板2上。例如，使用基波和泛音，或者使用厚度剪切振动和轮廓剪切 在主振荡器单元11和辅助振荡器单元21中分别使用振动。