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    • 1. 发明授权
    • Device and method for generating an adjustable chaotic signal
    • 用于产生可调混沌信号的装置和方法
    • US07642870B2
    • 2010-01-05
    • US11723272
    • 2007-03-19
    • Sang-min HanOleg Popov
    • Sang-min HanOleg Popov
    • H03B29/00
    • H04B1/719H04B1/7172H04L27/001
    • A device and method for generating an adjustable chaotic signal are provided. The chaotic signal generation device includes a plurality of triangle pulse train generators which generate a plurality of triangle waves having different frequency cycles, an adder which adds the triangle waves output from the triangle pulse train generators and outputs a noise signal, and a frequency modulator which converts the noise signal to a certain frequency band to output a chaotic signal. Accordingly, the power consumption and cost are reduced and the manufacture of the chaotic signal generation device is simplified due to the components integrated on an IC. Also, a plurality of users can use wireless communications in a particular wireless communications area.
    • 提供了一种用于产生可调混沌信号的装置和方法。 混沌信号发生装置包括多个产生多个具有不同频率周期的三角波的三角脉冲串发生器,加法器将从三角波脉冲串发生器输出的三角波输出并输出噪声信号,频率调制器 将噪声信号转换成一定频带,输出混沌信号。 因此,由于集成在IC上的组件,能够简化功耗和成本,并且使混沌信号发生装置的制造变得简单。 此外,多个用户可以在特定无线通信区域中使用无线通信。
    • 2. 发明申请
    • Device and method for generating an adjustable chaotic signal
    • 用于产生可调混沌信号的装置和方法
    • US20070287397A1
    • 2007-12-13
    • US11723272
    • 2007-03-19
    • Sang-min HanOleg Popov
    • Sang-min HanOleg Popov
    • H04B1/16H04B1/06H04B1/40
    • H04B1/719H04B1/7172H04L27/001
    • A device and method for generating an adjustable chaotic signal are provided. The chaotic signal generation device includes a plurality of triangle pulse train generators which generate a plurality of triangle waves having different frequency cycles, an adder which adds the triangle waves output from the triangle pulse train generators and outputs a noise signal, and a frequency modulator which converts the noise signal to a certain frequency band to output a chaotic signal. Accordingly, the power consumption and cost are reduced and the manufacture of the chaotic signal generation device is simplified due to the components integrated on an IC. Also, a plurality of users can use wireless communications in a particular wireless communications area.
    • 提供了一种用于产生可调混沌信号的装置和方法。 混沌信号发生装置包括多个产生多个具有不同频率周期的三角波的三角脉冲串发生器,加法器将从三角波脉冲串发生器输出的三角波输出并输出噪声信号,频率调制器 将噪声信号转换成一定频带,输出混沌信号。 因此,由于集成在IC上的组件,能够简化功耗和成本,并且使混沌信号发生装置的制造变得简单。 此外,多个用户可以在特定无线通信区域中使用无线通信。
    • 3. 发明授权
    • Apparatus and method for generation of noise signal
    • 用于产生噪声信号的装置和方法
    • US07786815B2
    • 2010-08-31
    • US11344067
    • 2006-02-01
    • Seong-soo LeeOleg Popov
    • Seong-soo LeeOleg Popov
    • H03B29/00
    • H03B29/00H03B21/01
    • An apparatus and method for generation of a noise signal are provided. The apparatus includes a noise synthesizing module and a noise signal transfer module. The noise synthesizing module includes a voltage controlled oscillator, a phase frequency detector, a phase locked loop filter, and a reference generator which form a phase locked loop. An output signal of the reference generator is provided to a first phase-frequency input of the phase-frequency detector, and an output signal of the voltage controlled oscillator is provided to a second input of the phase-frequency detector. An output signal of the phase-frequency detector is provided to an input of the phase locked loop filter, and an output of the phase locked loop filter is provided to a frequency control input of the voltage controlled oscillator. The noise signal transfer module includes a sinusoidal generator and a frequency mixer having a first input which is provided with an output signal of the phase frequency detector and a second input which is provided with an output signal of the sinusoidal.
    • 提供了一种用于产生噪声信号的装置和方法。 该装置包括噪声合成模块和噪声信号传送模块。 噪声合成模块包括形成锁相环的压控振荡器,相位频率检测器,锁相环滤波器和参考发生器。 参考发生器的输出信号被提供给相位频率检测器的第一相位频率输入,并且压控振荡器的输出信号被提供给相位频率检测器的第二输入端。 将相位频率检测器的输出信号提供给锁相环滤波器的输入,并将锁相环滤波器的输出提供给压控振荡器的频率控制输入端。 噪声信号传送模块包括正弦发生器和具有第一输入的混频器,第一输入端设置有相位频率检测器的输出信号,第二输入端设有正弦波输出信号。
    • 4. 发明授权
    • High frequency electrodeless compact fluorescent lamp
    • 高频无极小型荧光灯
    • US06433478B1
    • 2002-08-13
    • US09435960
    • 1999-11-09
    • Robert ChandlerOleg PopovEdward K. ShapiroJakob Maya
    • Robert ChandlerOleg PopovEdward K. ShapiroJakob Maya
    • H01J162
    • H01J65/048Y02B20/19
    • An electrodeless compact fluorescent lamp operated at a frequency from 50 KHz to 1000 KHz and RF power from 10 W to 40 W is described. The lamp includes a bulbous glass envelope (1) filled with rare gas and metal vapor, reentrant glass cavity (2), an induction coil (6) made from Litz wire, a ferrite assembly comprising a ferrite core (7) and MnZn ferrite disk (11), a cooling structure comprising a metal (or ceramic) tube (8) positioned inside the ferrite core (7) and a metal (or ceramic) unit (9) that transmits the heat from the cavity and ferrite assembly to the Edison socket (10), a thermal shield (12), and a driver and matching network located inside the lamp base (13). A protective coating (15) and phosphor coating (16) are coated on the inner surface of the envelope (1) and reentrant cavity (2). The reflective coating (17) made from alumina is coated on the inner surface of the cavity (2) and on the outer surface of the envelope bottom (4). The mercury pressure is controlled in the envelope by the temperature of the amalgam (5) positioned in the tubulation (3) or by the temperature of pure mercury located in the cold spot.
    • 描述了以50KHz至1000KHz的频率操作的无电极小型荧光灯和10W至40W的RF功率。 该灯包括填充有稀有气体和金属蒸气的球状玻璃外壳(1),可重入玻璃腔(2),由丽兹线制成的感应线圈(6),包括铁氧体磁芯(7)和铁氧体磁芯 (11),包括位于铁氧体磁芯(7)内部的金属(或陶瓷)管(8)的冷却结构和将来自空腔和铁氧体组件的热量传递到爱迪生的金属(或陶瓷)单元(9) 插座(10),热屏蔽(12)以及位于灯座(13)内部的驱动器和匹配网络。 保护涂层(15)和荧光体涂层(16)涂覆在外壳(1)和凹槽(2)的内表面上。 由氧化铝制成的反射涂层(17)涂覆在空腔(2)的内表面和信封底部(4)的外表面上。 水银压力通过置于(3)中的汞齐(5)的温度或位于冷点的纯汞的温度控制在信封内。
    • 6. 发明授权
    • Electrodeless fluorescent lamp with low wall loading
    • 无壁灯荧光灯低壁装载
    • US06548965B1
    • 2003-04-15
    • US09505756
    • 2000-02-16
    • Jakob MayaOleg PopovRobert Chandler
    • Jakob MayaOleg PopovRobert Chandler
    • H05B4116
    • H05B41/24H01J65/048
    • An electrodeless fluorescent lamp employs a glass envelope made from a single linear tube or bulb and a reentry cavity disposed on the envelope axis and sealed to the envelope. The envelope is filled with inert gas and mercury vapor. Phosphor and protective coatings are disposed on the inner surfaces of the envelope and the cavity. An induction coil of A few turns made from silver coated copper wire is wrapped around the envelope in its axial direction. The inductively-coupled axially uniform plasma is generated inside the envelope. The discharge electric field and current form a closed-loop path inside the envelope along its walls. The introduction of the reentry cavity decreases the lamp wall loading without loosing lamp power efficiency and efficacy. The lamp is operated at frequencies from 50 kHz to 200 MHz and RF power from 5 W to 2000 W without the use of ferrite inside of the reentry cavity.
    • 无电极荧光灯采用由单个线性管或灯泡制成的玻璃封套和设置在封套轴线上的密封到封套的折返腔。 信封充满惰性气体和汞蒸气。 荧光粉和保护涂层设置在外壳和腔体的内表面上。 由镀银铜丝制成的几圈感应线圈沿其轴向缠绕在外壳上。 电感耦合轴向均匀等离子体在封套内产生。 放电电场和电流沿着其壁部在封套内部形成闭环路径。 折返腔的引入减少了灯壁负载,而不会降低灯的功率效率和功效。 该灯以50kHz至200MHz的频率运行,RF功率从5W至2000W,而不需要在折返腔内使用铁氧体。
    • 10. 发明授权
    • High frequency ferrite-free electrodeless flourescent lamp with axially uniform plasma
    • 高频铁素体无电极荧光灯,轴向均匀等离子体
    • US06362570B1
    • 2002-03-26
    • US09420673
    • 1999-10-19
    • Oleg PopovRobert Chandler
    • Oleg PopovRobert Chandler
    • H01J1716
    • H01J65/048
    • An electrodeless fluorescent lamp employs a glass envelope made from a single linear tube filled with inert gas and mercury vapor. Phosphor and protective coatings are disposed on the inner surface of the envelope walls. An induction coil of few turns made from silver coated copper or Litz wire is wrapped around the linear tube in its axial direction. The inductively-coupled axially uniform plasma is generated inside the linear tube. The discharge electric field and current form a closed-loop path inside a tube in its axial direction. The lamp is operated at frequencies from 100 KHz to 100 MHz and RF power from 10 W to 2000 W (dependent on lamp size and number of turns). The lamp power efficiency and efficacy are comparable to those in electrodeless lamps of closed-loop shape operated with and without ferrite core.
    • 无电极荧光灯采用由填充有惰性气体和汞蒸气的单个线性管制成的玻璃外壳。 荧光粉和保护涂层设置在信封壁的内表面上。 由银镀铜或利兹线制成的几圈的感应线圈沿其轴向缠绕在线性管上。 在线性管内产生电感耦合的轴向均匀等离子体。 放电电场和电流在管内沿其轴向形成闭环路径。 灯以100KHz至100MHz的频率运行,RF功率从10W到2000W(取决于灯的尺寸和匝数)。 灯的功率效率和功效与在具有和不具有铁氧体磁芯的闭环形状的无电极灯中相当。