公开(公告)号：US06433478B1

公开(公告)日：2002-08-13

申请号：US09435960

申请日：1999-11-09

申请人： Robert Chandler ,  Oleg Popov ,  Edward K. Shapiro ,  Jakob Maya

发明人： Robert Chandler ,  Oleg Popov ,  Edward K. Shapiro ,  Jakob Maya

IPC分类号： H01J162

CPC分类号： H01J65/048 ,  Y02B20/19

摘要： 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.

摘要翻译： 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。

公开(公告)号：US06768248B2

公开(公告)日：2004-07-27

申请号：US09748310

申请日：2000-12-26

申请人： Robert Chandler ,  Oleg Popov ,  Edward K. Shapiro ,  Jakob Maya

发明人： Robert Chandler ,  Oleg Popov ,  Edward K. Shapiro ,  Jakob Maya

IPC分类号： H01J6152

CPC分类号： H01J65/048 ,  Y02B20/19

摘要： An electrodeless lamp includes an envelope (1) containing a fill of discharge gas, a magnetic core t(7), an induction coil (6) wound around the magnetic core (7), a driver circuit for supplying an electric current to the induction coil (6) to operate the electrodeless lamp, a socket (10) for receiving electrical power supplied to the electrodeless lamp, and a heat conduction means (8,9) thermally coupled to the magnetic core (7) for conducting heat generated in the magnetic core (7) to the ambient atmosphere to dissipate heat therein, or coupled to the socket (10) for conducting heat generated in the magnetic core (7) to the socket to dissipate heat therethrough.

摘要翻译： 无电极灯包括包含放电气体填充物的外壳（1），缠绕在磁芯（7）上的磁芯t（7），感应线圈（6）），用于向感应电路提供电流的驱动电路 线圈（6）以操作无电极灯，用于接收供给无电极灯的电力的插座（10）和热耦合到磁芯（7）的热传导装置（8,9），用于传导在 磁芯（7）连接到环境大气中以在其中散热或耦合到插座（10），用于将在磁芯（7）中产生的热量传导到插座以散热通过其中。

公开(公告)号：US5723947A

公开(公告)日：1998-03-03

申请号：US772139

申请日：1996-12-20

申请人： Oleg Popov ,  Jakob Maya ,  Koichi Kobayashi ,  Edward K. Shapiro

发明人： Oleg Popov ,  Jakob Maya ,  Koichi Kobayashi ,  Edward K. Shapiro

IPC分类号： H01J61/30 ,  H01J61/35 ,  H01J61/52 ,  H01J65/04 ,  H01H65/04 ,  H01H65/00

CPC分类号： H01J65/048 ,  H01J61/30 ,  H01J61/35 ,  H01J61/52

摘要： An electrodeless inductively-coupled fluorescent lamp which operates at ro frequency comprising a bulbous envelope (1) filled with rare gas and metal vapor. A reentrant cavity (4) and an induction coil (6) are disposed in the cavity (4). The inner walls of the envelope (1) and the cavity (4) have a protective coating (3) and a phosphor coating (2). A metal Faraday cylinder (12) welded to the lamp base (13) is disposed between the cavity (4) and the coil (6) to reduce capacitive RF voltage between the coil and the plasma to improve lamp maintenance and remove heat. A tubulation (16) is disposed on the lamp axis to evacuate the envelope (1). The proximal end of the tubulation (16) has an expansion (20) with the volume (23) where the initial capacitive discharge is ignited. The RF coil voltage needed for the ignition of the capacitive discharge in the expansion area (23) is substantially lower than that needed for the ignition of the capacitive discharge in the area (14) along the inner cavity walls (4) to decrease the lamp starting voltage. In one of the embodiments of the present invention the expansion is conically shaped and in another it is cylindrically shaped and is used to generate the inductive plasma to increase the light generation in the top part of the bulb (28) and improve light output through the bulb top surface (27).

摘要翻译： 一种无电感电耦合荧光灯，其在射频下工作，包括填充有稀有气体和金属蒸汽的球状外壳（1）。 凹入腔（4）和感应线圈（6）设置在空腔（4）中。 信封（1）和空腔（4）的内壁具有保护涂层（3）和荧光体涂层（2）。 焊接到灯座（13）的金属法拉第圆筒（12）设置在空腔（4）和线圈（6）之间，以减小线圈和等离子体之间的电容RF电压，以改善灯的维护和去除热量。 管（16）设置在灯轴上以排空外壳（1）。 管状物（16）的近端具有膨胀（20），其中引发初始电容放电的体积（23）。 在扩展区域（23）中点燃电容放电所需的RF线圈电压基本上低于沿着内腔壁（4）点燃区域（14）中的电容放电所需的RF线圈电压，以减少灯 启动电压。 在本发明的一个实施例中，膨胀是圆锥形的，并且在另一个中它是圆柱形的并且用于产生感应等离子体以增加灯泡（28）的顶部部分中的光产生，并且改善通过 灯泡顶面（27）。

公开(公告)号：US5698951A

公开(公告)日：1997-12-16

申请号：US643777

申请日：1996-05-06

申请人： Jakob Maya ,  Oleg Popov ,  Edward K. Shapiro

发明人： Jakob Maya ,  Oleg Popov ,  Edward K. Shapiro

IPC分类号： H05B41/00 ,  H05B41/24 ,  H05B41/16

CPC分类号： H05B41/00 ,  H05B41/24

摘要： An electrodeless fluorescent lamp containing a fill of a rare gas and mercury and a flag (14) disposed therein at a predetermined location in the lamp for increasing the rate of luminous development in the lamp. The flag (14) includes a pair of spaced-apart metallic foil sections (31) and a metallic mesh substrate (30) disposed between the foil sections (31) whereby to be shielded from ion bombardment of the discharge. A coating (30a) of indium which is adapted to amalgamate with the mercury is disposed on the mesh (30). The sections are joined together by spot-welding (32) to enable migration of mercury into and out of the space between the sections thereby enable the atoms to form an amalgam with the indium and be rapidly released therefrom.

摘要翻译： 一种含有稀有气体和汞的填充物的无电极荧光灯和在灯中的预定位置处设置在其中的标志（14），用于提高灯的发光率。 标记（14）包括一对间隔开的金属箔部分（31）和设置在箔片部分（31）之间的金属网状基材（30），从而被屏蔽以防止离子轰击放电。 适于与汞合并的铟的涂层（30a）设置在网（30）上。 这些部分通过点焊（32）连接在一起，以使得汞能够在部分之间的空间中迁移出来，从而使原子能够与铟形成汞齐并从其中快速释放。

公开(公告)号：US5621266A

公开(公告)日：1997-04-15

申请号：US538239

申请日：1995-10-03

申请人： Oleg Popov ,  Jakob Maya ,  Edward K. Shapiro

发明人： Oleg Popov ,  Jakob Maya ,  Edward K. Shapiro

IPC分类号： H05B41/24 ,  H01J61/04 ,  H01J61/35 ,  H01J61/52 ,  H01J61/56 ,  H01J65/04

CPC分类号： H01J61/52 ,  H01J61/04 ,  H01J61/35 ,  H01J61/56 ,  H01J65/048 ,  H01J61/70

摘要： An electrodeless fluorescent lamp and fixture is disclosed which operates radio frequencies and contains a metallic cylinder 9 to suppress capacitive coupling between an induction coil 7 and a plasma in the envelope 1 of the lamp and simultaneously substantially reduce heat in a reentrant cavity 5. The lamp includes a bulbous envelope 1 having a conventional phosphor layer 3 disposed therein. The bulbous envelope 1 contains a suitable ionizable gaseous fill. Upon ionization of the gaseous fill, the phosphor is stimulated to emit visible radiation upon absorption of ultraviolet radiation. The reentrant cavity 5 of the bulbous envelope 1 contains an inducation coil. The cylinder 9 transfers heat from the plasma to the fixture 11 through a base 13, 13a on the envelope 1.

摘要翻译： 公开了一种无电极荧光灯和固定装置，其以射频工作，并且包含金属圆筒9，以抑制感应线圈7和灯管的外壳1中的等离子体之间的电容耦合，同时基本上减少了可重入腔5中的热量。 灯包括具有布置在其中的常规荧光体层3的球状外壳1。 球状外壳1包含合适的可电离气体填充物。 当气态填充物离子化时，在吸收紫外线辐射时，荧光体被刺激以发射可见光。 球状外壳1的凹陷腔5包含感应线圈。 气缸9通过信封1上的基座13,13a将热量从等离子体传递到固定装置11。

公开(公告)号：US06555954B1

公开(公告)日：2003-04-29

申请号：US09616167

申请日：2000-07-14

申请人： Robert Chandler ,  Edward K. Shapiro ,  Oleg A. Popov ,  Jakob Maya

发明人： Robert Chandler ,  Edward K. Shapiro ,  Oleg A. Popov ,  Jakob Maya

IPC分类号： H01J162

CPC分类号： H01J65/042 ,  H01J65/048

摘要： The present invention comprises a compact electrodeless fluorescent lamp that includes a transparent envelope containing a fill of inert gas along with a vaporizable metal such as mercury. An induction coil is operated by a driver circuit, and is positioned inside of a reentrant cavity in the envelope with an adjacent permeable magnetic field manipulation structure having a shunting surface ending at a shunting surface periphery. A thermally and electrically conductive primary cooling structure is positioned adjacent the magnetic field manipulation structure to extend within the shunting surface periphery while being separated from the induction coil thereby. A further component cooling structure is provided to at least partially enclose the driver circuit connected to the induction coil.

摘要翻译： 本发明包括一种紧凑的无电极荧光灯，其包括含有惰性气体填充物和可汽化金属如汞的透明外壳。 感应线圈由驱动器电路操作，并且具有相邻的可渗透磁场操纵结构，位于外壳内的可重入腔内，具有在分流表面周边终止的分流表面。 导电和导电的主冷却结构邻近磁场操纵结构定位，以在分流表面周边内延伸，同时与感应线圈分离。 提供另一部件冷却结构以至少部分地包围连接到感应线圈的驱动电路。

公开(公告)号：US06064155A

公开(公告)日：2000-05-16

申请号：US072100

申请日：1998-05-04

申请人： Jakob Maya ,  Edward K. Shapiro ,  Frank D. Mellen

发明人： Jakob Maya ,  Edward K. Shapiro ,  Frank D. Mellen

IPC分类号： H01J61/32 ,  H01J7/44

CPC分类号： H01J61/327 ,  Y02B20/19

摘要： A compact fluorescent lamp is designed to imitate an incandescent lamp in size, shape and luminosity. The lamp includes a bulbous envelope (14) having an external shape of an incandescent lamp (10) on a standard Edison-type base (11) that enables it to be substituted for standard 60, 75 and 100 W incandescent lamps. A low-pressure fluorescent lamp (18) having a coiled tubular envelope with an outer diameter less than about 7 mm, an inner diameter between about 1 and 5 mm, and a length between about 50 and 100 cm is wound in a coil around the axis of the bulbous envelope (14) and is disposed within the bulbous envelope. The tubular envelope is formed of soft glass and has a fluorescent phosphor coating disposed on the inner surfaces. Electrodes (14) with external electrical contacts are disposed at each end of the envelope. A ballast (12) is disposed within the bulbous envelope. The ballast is electrically connected to the lamp (15), whereby to control current in the fluorescent lamp. A heat shield (17) is disposed between the lamp and the ballast to thermally isolate the lamp from the ballast, whereby heat from the lamp will not adversely affect the ballast.

摘要翻译： 设计紧凑型荧光灯，以模拟白炽灯的尺寸，形状和亮度。 该灯包括在标准爱迪生型基座（11）上具有白炽灯（10）的外部形状的球状外壳（14），其使其能够代替标准的60,75和100W白炽灯。 具有外径小于约7mm，内径约1至5mm，长度约50至100cm之间的螺旋管状外壳的低压荧光灯（18）缠绕在线圈周围 球形外壳（14）的轴线并且布置在球根外壳内。 管状外壳由软玻璃形成，并具有设置在内表面上的荧光荧光粉涂层。 具有外部电触点的电极（14）设置在信封的每一端。 镇流器（12）被布置在球茎外壳内。 镇流器电连接到灯（15），从而控制荧光灯中的电流。 在灯和镇流器之间设置隔热罩（17）以使灯与镇流器热隔离，由此来自灯的热量将不会不利地影响镇流器。

公开(公告)号：US06081070A

公开(公告)日：2000-06-27

申请号：US83820

申请日：1998-05-22

申请人： Oleg A. Popov ,  Pradeep K. Nandam ,  Edward K. Shapiro ,  Jakob Maya

发明人： Oleg A. Popov ,  Pradeep K. Nandam ,  Edward K. Shapiro ,  Jakob Maya

IPC分类号： F21S2/00 ,  H01J65/04 ,  H01J1/62

CPC分类号： H01J65/048

摘要： An electrodeless fluorescent lamp and fixture which operates at the frequency range of 50-1000 KHz and power from 20 to 200 W is disclosed. The lamp includes a bulbous envelope (1) filled with rare gas and metal vapor and a reentrant cavity (5). The inner walls of the envelope are coated with phosphor (2) and a protective coating (3). An induction coil (9), made from multiple strands of wire having very low resistance at frequencies below 1000 KHz, together with a ferrite core (10), having high permeability and low power losses, generates an inductively-coupled plasma in the envelope volume. The plasma generates visible and UV radiation that is converted into visible light by the phosphor coated on the envelope walls. A metallic cylinder (13), placed inside the ferrite core (10), removes the heat generated by the plasma from the coil and ferrite core and redirects the heat to the lamp base and thence to the lamp fixture. The power efficiency of the lamp operated at frequencies 200-300 KHz and its efficacy are the same as those in electrodeless RF lamps operated at frequencies of 2.65 MHz and at 13.56 MHz.

摘要翻译： 公开了一种在50-1000KHz的频率范围和20至200W的功率下工作的无电极荧光灯和灯具。 该灯包括填充有稀有气体和金属蒸汽的球状外壳（1）和可折入腔（5）。 外壳的内壁涂有磷光体（2）和保护涂层（3）。 感应线圈（9）由具有低于1000KHz频率的非常低电阻的多条线材制成，以及具有高磁导率和低功率损耗的铁氧体磁芯（10），在包络体积中产生电感耦合等离子体 。 等离子体产生可见光和紫外辐射，通过涂在信封壁上的荧光粉将其转变成可见光。 放置在铁氧体磁芯（10）内部的金属圆筒（13）从线圈和铁氧体磁芯除去等离子体产生的热量，并将热量重新导向灯座，从而将灯转向灯具。 在200-300KHz频率下工作的灯的功率效率及其功效与在2.65MHz和13.56MHz频率工作的无电极RF灯中的功率效率相同。