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    • 63. 发明授权
    • Mobile communication device with receiver speaker
    • 带接收扬声器的移动通信设备
    • US08699963B2
    • 2014-04-15
    • US13239485
    • 2011-09-22
    • Chao ChenLi HuangDan Kaufman
    • Chao ChenLi HuangDan Kaufman
    • H04B1/40
    • H04M1/03H04M1/0214H04M1/0235H04M1/6016H04M1/6041H04M1/72558Y02D70/1224Y02D70/142Y02D70/144Y02D70/162Y02D70/23
    • An audio subsystem in a mobile communication device has a speaker. In one implementation, the audio subsystem has a higher-gain power amplifier, a lower-gain power amplifier, and a switching system configured to route signals produced by the lower-gain power amplifier to the speaker while the device is operative in a first mode and configured to route signals produced by the higher-gain power amplifier to the speaker while the device is operative in a second mode. In another implementation, the audio subsystem has a power amplifier coupled to the speaker and a power supply control controlled to provide voltage at a first voltage level to the power amplifier while the device is operative in a first mode and controlled to provide voltage at a second, higher, voltage level to the power amplifier while the device is operative in a second mode.
    • 移动通信设备中的音频子系统具有扬声器。 在一个实现中,音频子系统具有较高增益功率放大器,较低增益功率放大器和配置成将该低增益功率放大器产生的信号路由到扬声器的开关系统,同时器件以第一模式工作 并且被配置为在所述设备在第二模式下操作时将由所述较高增益功率放大器产生的信号路由到所述扬声器。 在另一实施方式中,音频子系统具有耦合到扬声器的功率放大器和被控制为在功率放大器处提供第一电压电平的电源控制器,同时该装置以第一模式工作并被控制以在第二模式下提供电压 当器件在第二模式下工作时,对功率放大器的电压电平更高。
    • 64. 发明授权
    • Handheld electronic device including multi-compartment shielding container and associated methods
    • 手持电子设备包括多隔间屏蔽容器及相关方法
    • US08644033B2
    • 2014-02-04
    • US13245266
    • 2011-09-26
    • Chao ChenDouglas FreginJana Lynn Papke
    • Chao ChenDouglas FreginJana Lynn Papke
    • H05K9/00
    • H05K9/0032Y10T29/49002Y10T29/49227Y10T29/49826
    • A handheld electronic device may include a portable housing and a shielding container within the portable housing. The shielding container may include a shielding frame and a shielding lid carried thereby. A printed circuit board may be within the shielding container. The shielding frame may include a planar base with at least one opening therein, a pair of opposing side walls integrally formed with the base and extending upwardly therefrom, and a pair of opposing end walls integrally formed with the base and extending upwardly therefrom. Also, the shielding frame may include at least one intermediate partition wall integrally formed with the base and extending upwardly therefrom to define a plurality of container compartments. The partition wall may also extend only partway between the opposing side walls to define at least one partition end gap therewith.
    • 手持电子设备可以包括在便携式外壳内的便携式外壳和屏蔽容器。 屏蔽容器可以包括屏蔽框架和由其承载的屏蔽盖。 印刷电路板可以在屏蔽容器内。 屏蔽框架可以包括在其中具有至少一个开口的平面基部,与基部一体形成并从其向上延伸的一对相对的侧壁,以及与基部一体地形成并从其向上延伸的一对相对的端壁。 此外,屏蔽框架可以包括与基部一体地形成并从其向上延伸的至少一个中间隔壁,以限定多个容器隔室。 分隔壁也可以仅在相对的侧壁之间延伸,以限定与其相对的至少一个分隔端间隙。
    • 65. 发明申请
    • METHODS FOR PRESERVING FRESH PRODUCE
    • 保存新鲜生产方法
    • US20130309380A1
    • 2013-11-21
    • US13951935
    • 2013-07-26
    • Chao ChenXiaoling DongKenneth James
    • Chao ChenXiaoling DongKenneth James
    • A23B7/157
    • A23B7/157A23B7/04A23B7/0441A23B7/05A23B7/10Y02A40/943
    • Methods of preserving fresh produce with a produce preservative which extends the shelf life of fresh produce, particularly cut fresh produce, and preserves the texture, flavor, appearance, crispness, and color of the fresh produce, particularly the exposed surface of the fresh produce, are provided. The method comprises: providing a solution of produce preservative comprising: water; a preservative cation which is selected from the group consisting of a strontium ion, lithium ion, barium ion, aluminum ion, copper ion, ammonium ion, iron ion, manganese ion, potassium ion, or mixtures thereof; and ascorbate ions, or erythorbate ions; wherein the ascorbate ions or erythorbate ions and the preservative cation are present in an ion ratio of preferably from 0.2:1 to 8:1, more preferably 0.75:1 to 8:1, even more preferably from 1:1 to 4:1, yet more preferably 1.5:1 to 3:1; most preferably 1.1:1 to 2.5:1; and, applying said produce preservative to the produce. The invention also relates to fresh produce preserved with the produce preservatives.
    • 用生产防腐剂保存新鲜产品的方法,其延长新鲜产品的保存期限,特别是切割新鲜产品,并且保留新鲜农产品,特别是新鲜农产品的暴露表面的质地,风味,外观,脆性和颜色, 被提供。 该方法包括:提供产品防腐剂的溶液,包括:水; 选自锶离子,锂离子,钡离子,铝离子,铜离子,铵离子,铁离子,锰离子,钾离子或其混合物的防腐阳离子; 和抗坏血酸离子,或赤藓酸离子; 其中抗坏血酸离子或异硫氰酸根离子和防腐阳离子以优选0.2:1至8:1,更优选0.75:1至8:1,甚至更优选1:1至4:1的离子比存在, 还更优选为1.5:1至3:1; 最优选为1.1:1至2.5:1; 并将所述产品防腐剂施用于产品。 本发明还涉及用产品防腐剂保存的新鲜产品。
    • 66. 发明申请
    • STOCHASTIC TIME-DIGITAL CONVERTER
    • STOCHASTIC时代数字转换器
    • US20130307711A1
    • 2013-11-21
    • US13983297
    • 2012-05-29
    • Jianhui WuZixuan WangXiao ShiMeng ZhangCheng HuangChao ChenFuqing HuangXincun JiPing Jiang
    • Jianhui WuZixuan WangXiao ShiMeng ZhangCheng HuangChao ChenFuqing HuangXincun JiPing Jiang
    • H03M1/04
    • H03M1/04G04F10/005
    • A stochastic time-digital converter (STDC) including an input switching circuit, an STDC array, and an encoder. A clock circuit inputs two clock signals into two input terminals of the input switching circuit; the input switching circuit transmits the two clock signals in a cyclic cross-transposition form to two input terminals of the STDC array, and simultaneously outputs a trigger control signal to the encoder; each comparator in the STDC array independently judges the speeds of the two clock signals and sends the judgement results to the encoder for collection and processing; and the encoder outputs the size and positivity or negativity of the phase difference of the two clock signals. The technical solution utilizes the stochastic characteristic of the STDC to double the number of the equivalent comparators in the STDC array, eliminating the effects on the circuitry of device mismatching and processes, power supply voltage, and temperature.
    • 包括输入切换电路,STDC阵列和编码器的随机时间数字转换器(STDC)。 时钟电路将两个时钟信号输入到输入开关电路的两个输入端; 输入切换电路以循环交叉形式将两个时钟信号发送到STDC阵列的两个输入端,同时向编码器输出触发控制信号; STDC阵列中的每个比较器独立地判断两个时钟信号的速度,并将判断结果发送到编码器进行采集和处理; 并且编码器输出两个时钟信号的相位差的大小和积极性或消极性。 该技术解决方案利用STDC的随机特性将STDC阵列中的等效比较器的数量加倍,从而消除了器件不匹配和处理电路,电源电压和温度的影响。
    • 69. 发明授权
    • Method and apparatus for sorting inquiry results
    • 查询结果排序的方法和装置
    • US08504563B2
    • 2013-08-06
    • US13262611
    • 2011-07-22
    • Chao ChenXiaomei Han
    • Chao ChenXiaomei Han
    • G06F17/30
    • G06F17/30864G06Q30/0282
    • Sorting inquiry results includes, based on extracted inquiry results matching search conditions of a user, collecting features of the inquiry results. The collected features may be used as features of a respective inquiry result and feature fitting may be conducted based on a support vector machine (SVM) regression model to obtain a feature fitting value of the respective inquiry result. The inquiry results may be sorted based on relevancy values of the inquiry results, and, for inquiry results having a same relevancy level, the inquiry results may be sorted in a top-down manner based on feature fitting values of the inquiry results.
    • 排序查询结果包括,根据提取的与用户搜索条件相关的查询结果,收集查询结果的特征。 收集的特征可以被用作相应查询结果的特征,并且可以基于支持向量机(SVM)回归模型进行特征拟合,以获得各个查询结果的特征拟合值。 查询结果可以根据查询结果的相关性值进行排序,并且对于具有相同相关性的查询结果,可以基于查询结果的特征拟合值以自顶向下的方式对查询结果进行排序。
    • 70. 发明授权
    • Preparation method of ferroferric oxide magnetic nanospheres
    • 二氧化铁磁纳米球的制备方法
    • US08409544B2
    • 2013-04-02
    • US13142167
    • 2008-12-31
    • Mingli PengCaiquan ZhangYali CuiChao ChenJinghui Zeng
    • Mingli PengCaiquan ZhangYali CuiChao ChenJinghui Zeng
    • C01G49/02
    • H01F1/0045B82Y25/00B82Y30/00C01G49/08C01P2004/32C01P2004/64C01P2006/42
    • Disclosed is a process of preparing magnetite nanoparticles, comprising the following steps: 1) preparing a ferric salt mixed system, wherein a soluble ferric salt is dissolved in glycol at ambient temperature, and then urea and polyethylene glycol are added and mixed homogeneously to obtain the trivalent iron salt mixed system, the mass ratio of glycol to the trivalent iron salt being 15:1 to 60:1, glycol to urea being 20:1 to 100:1, and glycol to polyethylene glycol being 20:1 to 100:1; 2) reacting, wherein the trivalent iron salt mixed system is transferred into a reaction autoclave, sealed and placed into a heating device to react at a temperature of 200 to 300° C. for 8 to 72 hours; and 3) washing, wherein after the reaction system is naturally cooled down to ambient temperature, the product is taken out, and washed with anhydrous ethanol and water in turn to obtain the magnetite nanoparticles. The soluble iron salt includes ferric chloride, ferric sulfate, ferric acetate and ferric nitrate. The obtained nanospheres exhibit a uniform distribution of the particle diameter with a good dispersity in water. The nanospheres have superparamagnetism, and their particle diameter can be controlled by varying the reaction time as desired.
    • 公开了一种制备磁铁矿纳米颗粒的方法,包括以下步骤:1)制备铁盐混合体系,其中可溶性铁盐在环境温度下溶于二醇,然后加入尿素和聚乙二醇并均匀混合,得到 三价铁盐混合体系,二醇与三价铁盐的质量比为15:1至60:1,二醇与尿素的比例为20:1至100:1,二醇与聚乙二醇的比例为20:1至100:1 ; 2)反应,其中将三价铁盐混合体系转移到反应釜中,密封并置于加热装置中,在200-300℃的温度下反应8至72小时; 和3)洗涤,其中在反应体系自然冷却至环境温度后,取出产物,依次用无水乙醇和水洗涤,得到磁铁矿纳米颗粒。 可溶性铁盐包括氯化铁,硫酸铁,醋酸铁和硝酸铁。 得到的纳米球表现出均匀的粒径分布,在水中具有良好的分散性。 纳米球具有超顺磁性,并且可通过根据需要改变反应时间来控制它们的粒径。