会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • Fuel cell stack assembly
    • 燃料电池堆组件
    • US20060141332A1
    • 2006-06-29
    • US11288885
    • 2005-11-28
    • Jeffrey CortrightPhong DiepScott Pollard
    • Jeffrey CortrightPhong DiepScott Pollard
    • H01M8/24
    • H01M8/2432H01M8/0202H01M8/0273H01M8/0282H01M8/04089H01M8/04201H01M8/242H01M8/2425H01M8/2475H01M8/2483H01M8/2485H01M2008/1293
    • An exemplary fuel cell device assembly is a fuel cell stack assembly comprising: (i) a plurality of fuel cell packets, each of the packets comprising (a) a frame and (b) two planar electrolyte-supported fuel cell arrays, the fuel cell arrays arranged such that anode side of one fuel cell array faces the anode side of another fuel cell array, and the frame in combination with the fuel cell arrays defines a fuel chamber; (ii) a main enclosure enclosing the plurality of fuel cell packets, such that the plurality of packets form a plurality of oxidant channels; (iii) a restrictor plate forming, in conjunction with the fuel cell pockets, a plurality of oxidant channels; (iv) an inlet oxidant plenum manifold connected to one side of the oxidant channels; (v) an outlet oxidant plenum manifold connected to the other side of the oxidant channels; (vi) an inlet fuel manifold connected to one side of each of the fuel chambers; and (vii) an outlet fuel manifold connected to the other side of each of the fuel chambers.
    • 示例性燃料电池装置组件是燃料电池堆组件,其包括:(i)多个燃料电池组,每个分组包括(a)框架和(b)两个平面电解质支撑的燃料电池阵列,所述燃料电池 排列成使得一个燃料电池阵列的阳极侧面对另一个燃料电池阵列的阳极侧的阵列,并且与燃料电池阵列组合的框架限定燃料室; (ii)封闭所述多个燃料电池分组的主外壳,使得所述多个分组形成多个氧化剂通道; (iii)限制器板,与燃料电池槽结合形成多个氧化剂通道; (iv)连接到氧化剂通道的一侧的入口氧化剂增压歧管; (v)连接到氧化剂通道的另一侧的出口氧化剂增压歧管; (vi)连接到每个所述燃料室的一侧的入口燃料歧管; 和(vii)连接到每个燃料室的另一侧的出口燃料歧管。
    • 2. 发明申请
    • Devices and method for Raman amplification and dispersion compensation
    • 拉曼放大和色散补偿的装置和方法
    • US20080266649A1
    • 2008-10-30
    • US12215939
    • 2008-07-01
    • Phong DiepJames C. Fajardo
    • Phong DiepJames C. Fajardo
    • H01S3/30
    • H04B10/2916H04B10/25253
    • The present invention provides devices and methods for Raman amplification and dispersion compensation. According to one embodiment of the present invention, a dispersion compensating device includes a dispersion compensating fiber having a dispersion more negative than about −50 ps/nm/km over a wavelength range of about 1555 nm to about 1615 nm; a Raman gain fiber having a dispersion more positive than about −40 ps/nm/km over a wavelength range of about 1555 nm to about 1615 nm; and a pump source operatively coupled to the dispersion compensating fiber and the Raman gain fiber, the pump source operating at a pump wavelength, wherein the dispersion compensating fiber has a Raman Figure of Merit at the pump wavelength, and wherein the Raman gain fiber has a Raman Figure of Merit at least about equivalent to the Raman Figure of Merit of the dispersion compensating fiber, and wherein the dispersion compensating fiber and the Raman gain fiber are arranged in series between the input and the output of the device. The device provides higher Raman gain than a conventional Raman-pumped dispersion compensating device.
    • 本发明提供拉曼放大和色散补偿的装置和方法。 根据本发明的一个实施例,色散补偿装置包括在约1555nm至约1615nm的波长范围内具有比约-50ps / nm / km更负的色散的色散补偿光纤; 在约1555nm至约1615nm的波长范围内具有比约-40ps / nm / km更正的色散的拉曼增益光纤; 以及泵浦源,其操作地耦合到所述色散补偿光纤和所述拉曼增益光纤,所述泵浦源以泵浦波长工作,其中所述色散补偿光纤具有在泵浦波长处的拉曼光谱图,并且其中所述拉曼增益光纤具有 拉曼品质因数至少大约相当于色散补偿光纤的拉曼品质因数,并且其中色散补偿光纤和拉曼增益光纤串联布置在设备的输入和输出之间。 该装置提供比常规拉曼泵浦色散补偿装置更高的拉曼增益。
    • 3. 发明授权
    • Devices and method for Raman amplification and dispersion compensation
    • 拉曼放大和色散补偿的装置和方法
    • US07697197B2
    • 2010-04-13
    • US12215939
    • 2008-07-01
    • Phong DiepJames C. Fajardo
    • Phong DiepJames C. Fajardo
    • H01S3/00
    • H04B10/2916H04B10/25253
    • The present invention provides devices and methods for Raman amplification and dispersion compensation. According to one embodiment of the present invention, a dispersion compensating device includes a dispersion compensating fiber having a dispersion more negative than about −50 ps/nm/km over a wavelength range of about 1555 nm to about 1615 nm; a Raman gain fiber having a dispersion more positive than about −40 ps/nm/km over a wavelength range of about 1555 nm to about 1615 nm; and a pump source operatively coupled to the dispersion compensating fiber and the Raman gain fiber, the pump source operating at a pump wavelength, wherein the dispersion compensating fiber has a Raman Figure of Merit at the pump wavelength, and wherein the Raman gain fiber has a Raman Figure of Merit at least about equivalent to the Raman Figure of Merit of the dispersion compensating fiber, and wherein the dispersion compensating fiber and the Raman gain fiber are arranged in series between the input and the output of the device. The device provides higher Raman gain than a conventional Raman-pumped dispersion compensating device.
    • 本发明提供拉曼放大和色散补偿的装置和方法。 根据本发明的一个实施例,色散补偿装置包括在约1555nm至约1615nm的波长范围内具有比约-50ps / nm / km更负的色散的色散补偿光纤; 在约1555nm至约1615nm的波长范围内具有比约-40ps / nm / km更正的色散的拉曼增益光纤; 以及泵浦源,其操作地耦合到所述色散补偿光纤和所述拉曼增益光纤,所述泵浦源以泵浦波长工作,其中所述色散补偿光纤具有在泵浦波长处的拉曼光谱图,并且其中所述拉曼增益光纤具有 拉曼品质因数至少大约相当于色散补偿光纤的拉曼品质因数,并且其中色散补偿光纤和拉曼增益光纤串联布置在设备的输入和输出之间。 该装置提供比常规拉曼泵浦色散补偿装置更高的拉曼增益。
    • 4. 发明申请
    • VIBRATING CLEANING DEVICE
    • 振动清洗装置
    • US20070240268A1
    • 2007-10-18
    • US11279874
    • 2006-04-14
    • Cuong LeJohn NguyenPhong DiepJohn Tran
    • Cuong LeJohn NguyenPhong DiepJohn Tran
    • A47L11/10
    • A47L13/20B25G1/04
    • This invention relates to a vibrating cleaning device. Said vibrating cleaning device includes a handle portion, a vibrating shaft portion, said vibrating shaft portion having a proximal end and a distal end, a cleaning head portion, a damper, an electric motor, an offset weight; said cleaning head portion adapted for use with removable cleaning pads, wipes or cloths; said cleaning head portion comprising of a plurality of vibration enhancing segments. The vibration action of the cleaning device enhances the cleaning capability and efficiency of the cleaning device thereby improving upon the cleaning process. The electric motor may be situated in a variety of areas within the cleaning device, such as within the shaft itself or in the head unit of the cleaning device. Said head unit incorporates a plurality of vibration enhancing segments and is capable of receiving a variety of removable leaning products such as disposable cleaning pads, wipes or cloths.
    • 本发明涉及振动清洁装置。 所述振动清洁装置包括手柄部分,振动轴部分,所述振动轴部分具有近端和远端,清洁头部分,阻尼器,电动机,偏移重量; 所述清洁头部分适于与可移除的清洁垫,擦拭物或布料一起使用; 所述清洁头部分包括多个振动增强部分。 清洁装置的振动作用提高了清洁装置的清洁能力和效率,从而改善了清洁过程。 电动机可以位于清洁装置内的各种区域中,例如在轴本身内或在清洁装置的头部单元中。 所述头部单元包括多个振动增强部分,并且能够接收各种可移除的倾斜产品,例如一次性清洁垫,擦拭物或布。
    • 5. 发明授权
    • Devices and methods for raman amplification and dispersion compensation
    • 拉曼放大和色散补偿的装置和方法
    • US07102812B2
    • 2006-09-05
    • US10659523
    • 2003-09-09
    • Phong DiepJames C. Fajardo
    • Phong DiepJames C. Fajardo
    • H04B10/12
    • H04B10/2916H04B10/25253
    • The present invention provides devices and methods for Raman amplification and dispersion compensation. According to one embodiment of the present invention, a dispersion compensating device includes a dispersion compensating fiber having a dispersion more negative than about −50 ps/nm/km over a wavelength range of about 1555 nm to about 1615 nm; a Raman gain fiber having a dispersion more positive than about −40 ps/nm/km over a wavelength range of about 1555 nm to about 1615 nm; and a pump source operatively coupled to the dispersion compensating fiber and the Raman gain fiber, the pump source operating at a pump wavelength, wherein the dispersion compensating fiber has a Raman Figure of Merit at the pump wavelength, and wherein the Raman gain fiber has a Raman Figure of Merit at least about equivalent to the Raman Figure of Merit of the dispersion compensating fiber, and wherein the dispersion compensating fiber and the Raman gain fiber are arranged in series between the input and the output of the device. The device provides higher Raman gain than a conventional Raman-pumped dispersion compensating device.
    • 本发明提供拉曼放大和色散补偿的装置和方法。 根据本发明的一个实施例,色散补偿装置包括在约1555nm至约1615nm的波长范围内具有比约-50ps / nm / km更负的色散的色散补偿光纤; 在约1555nm至约1615nm的波长范围内具有比约-40ps / nm / km更正的色散的拉曼增益光纤; 以及泵浦源,其操作地耦合到所述色散补偿光纤和所述拉曼增益光纤,所述泵浦源以泵浦波长工作,其中所述色散补偿光纤具有在泵浦波长处的拉曼光谱图,并且其中所述拉曼增益光纤具有 拉曼品质因数至少大约相当于色散补偿光纤的拉曼品质因数,并且其中色散补偿光纤和拉曼增益光纤串联布置在设备的输入和输出之间。 该装置提供比常规拉曼泵浦色散补偿装置更高的拉曼增益。
    • 9. 发明授权
    • Devices and methods for raman amplification and dispersion compensation
    • 拉曼放大和色散补偿的装置和方法
    • US07411728B2
    • 2008-08-12
    • US11473481
    • 2006-06-23
    • Phong DiepJames C. Fajardo
    • Phong DiepJames C. Fajardo
    • H04B10/17
    • H04B10/2916H04B10/25253
    • The present invention provides devices and methods for Raman amplification and dispersion compensation. According to one embodiment of the present invention, a dispersion compensating device includes a dispersion compensating fiber having a dispersion more negative than about −50 ps/nm/km over a wavelength range of about 1555 nm to about 1615 nm; a Raman gain fiber having a dispersion more positive than about −40 ps/nm/km over a wavelength range of about 1555 nm to about 1615 nm; and a pump source operatively coupled to the dispersion compensating fiber and the Raman gain fiber, the pump source operating at a pump wavelength, wherein the dispersion compensating fiber has a Raman Figure of Merit at the pump wavelength, and wherein the Raman gain fiber has a Raman Figure of Merit at least about equivalent to the Raman Figure of Merit of the dispersion compensating fiber, and wherein the dispersion compensating fiber and the Raman gain fiber are arranged in series between the input and the output of the device. The device provides higher Raman gain than a conventional Raman-pumped dispersion compensating device.
    • 本发明提供拉曼放大和色散补偿的装置和方法。 根据本发明的一个实施例,色散补偿装置包括在约1555nm至约1615nm的波长范围内具有比约-50ps / nm / km更负的色散的色散补偿光纤; 在约1555nm至约1615nm的波长范围内具有比约-40ps / nm / km更正的色散的拉曼增益光纤; 以及泵浦源,其操作地耦合到所述色散补偿光纤和所述拉曼增益光纤,所述泵浦源以泵浦波长工作,其中所述色散补偿光纤具有在泵浦波长处的拉曼光谱图,并且其中所述拉曼增益光纤具有 拉曼品质因数至少大约相当于色散补偿光纤的拉曼品质因数,并且其中色散补偿光纤和拉曼增益光纤串联布置在设备的输入和输出之间。 该装置提供比常规拉曼泵浦色散补偿装置更高的拉曼增益。