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    • 7. 发明申请
    • Microplasma Generating Array
    • 微生物发生阵列
    • US20140159571A1
    • 2014-06-12
    • US14235510
    • 2012-07-26
    • Jeffrey A. HopwoodChen WuAlan R. HoskinsonSameer Sonkusale
    • Jeffrey A. HopwoodChen WuAlan R. HoskinsonSameer Sonkusale
    • H01J7/46
    • H01J7/46H05H1/2406H05H2001/2425
    • A microplasma generator includes first and second conductive resonators disposed on a first surface of a dielectric substrate. The first and second conductive resonators are arranged in line with one another with a gap defined between a first end of each resonator. A ground plane is disposed on a second surface of the dielectric substrate and a second end of each of the first and second resonators is coupled to the ground plane. A power input connector is coupled to the first resonator at a first predetermined distance from the second end chosen as a function of the impedance of the first conductive resonator. A microplasma generating array includes a number of resonators in a dielectric material substrate with one end of each resonator coupled to ground. A micro-plasma is generated at the non-grounded end of each resonator. The substrate includes a ground electrode and the microplasmas are generated between the non-grounded end of the resonator and the ground electrode. The coupling of each resonator to ground may be made through controlled switches in order to turn each resonator off or on and therefore control where and when a microplasma will be created in the array.
    • 微生物发生器包括设置在电介质基板的第一表面上的第一和第二导电谐振器。 第一和第二导电谐振器彼此成直线排列,间隙限定在每个谐振器的第一端之间。 接地平面设置在电介质基板的第二表面上,并且第一和第二谐振器中的每一个的第二端耦合到接地平面。 电力输入连接器以与第一导电谐振器的阻抗的函数相应的第二端的第一预定距离耦合到第一谐振器。 微量产生阵列包括在每个谐振器的一端耦合到地的电介质材料衬底中的多个谐振器。 在每个谐振器的非接地端产生微等离子体。 衬底包括接地电极,并且在谐振器的非接地端和接地电极之间产生微量等离子体。 每个谐振器到地的耦合可以通过受控的开关来实现,以便关闭或接通每个谐振器,从而控制在阵列中何时和何时产生微等离子体。
    • 8. 发明授权
    • Low power BPSK demodulator
    • 低功耗BPSK解调器
    • US08159288B2
    • 2012-04-17
    • US12528967
    • 2008-02-27
    • Zhenying LuoSameer Sonkusale
    • Zhenying LuoSameer Sonkusale
    • H03D3/00H04L27/22H04L27/227
    • H04L27/2272A61N1/3727A61N1/37276
    • A low power BPSK demodulator having a simple architecture, compact design and reliable is provided. The BPSK demodulator includes a first branch (210) having a first mixer (212) and a first low pass filter (214), a second branch (220) coupled to the first branch at the output of the first low pass filter (214) and input of the first mixer (212) and having a second mixer (222), and a third branch (230) coupled to the second branch at the input and output of the second mixer (222) and having a third mixer (232) a second low pass filter (234) and a voltage control oscillator (236), wherein the third branch and the second branch form a charge pumped based phase lock loop that locks onto a carrier frequency of the BPSK demodulator.
    • 提供了具有简单结构,紧凑设计和可靠性的低功率BPSK解调器。 BPSK解调器包括具有第一混频器(212)和第一低通滤波器(214)的第一分支(210),在第一低通滤波器(214)的输出处耦合到第一分支的第二分支(220) 和第二混合器(222)的输入和第二混频器(222)的输入端以及在第二混频器(222)的输入和输出处耦合到第二分支的第三分支(230),并具有第三混频器(232) 第二低通滤波器(234)和压控振荡器(236),其中所述第三分支和所述第二分支形成锁定在所述BPSK解调器的载波频率上的基于电荷泵浦的锁相环。
    • 9. 发明授权
    • Microplasma generating array
    • 微生物阵列
    • US09460884B2
    • 2016-10-04
    • US14235510
    • 2012-07-26
    • Jeffrey A. HopwoodChen WuAlan R. HoskinsonSameer Sonkusale
    • Jeffrey A. HopwoodChen WuAlan R. HoskinsonSameer Sonkusale
    • H01J7/46H05H1/24
    • H01J7/46H05H1/2406H05H2001/2425
    • A microplasma generator includes first and second conductive resonators disposed on a first surface of a dielectric substrate. The first and second conductive resonators are arranged in line with one another with a gap defined between a first end of each resonator. A ground plane is disposed on a second surface of the dielectric substrate and a second end of each of the first and second resonators is coupled to the ground plane. A power input connector is coupled to the first resonator at a first predetermined distance from the second end chosen as a function of the impedance of the first conductive resonator. A microplasma generating array includes a number of resonators in a dielectric material substrate with one end of each resonator coupled to ground. A micro-plasma is generated at the non-grounded end of each resonator. The substrate includes a ground electrode and the microplasmas are generated between the non-grounded end of the resonator and the ground electrode. The coupling of each resonator to ground may be made through controlled switches in order to turn each resonator off or on and therefore control where and when a microplasma will be created in the array.
    • 微生物发生器包括设置在电介质基板的第一表面上的第一和第二导电谐振器。 第一和第二导电谐振器彼此成直线排列,间隙限定在每个谐振器的第一端之间。 接地平面设置在电介质基板的第二表面上,并且第一和第二谐振器中的每一个的第二端耦合到接地平面。 电力输入连接器以与第一导电谐振器的阻抗的函数相应的第二端的第一预定距离耦合到第一谐振器。 微量产生阵列包括在每个谐振器的一端耦合到地的电介质材料衬底中的多个谐振器。 在每个谐振器的非接地端产生微等离子体。 衬底包括接地电极,并且在谐振器的非接地端和接地电极之间产生微量等离子体。 每个谐振器到地的耦合可以通过受控的开关来实现,以便关闭或接通每个谐振器,从而控制在阵列中何时和何时产生微等离子体。