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    • 2. 发明授权
    • Coded communication system and method for controlling an electric lamp
    • 用于控制电灯的编码通信系统和方法
    • US5872429A
    • 1999-02-16
    • US824024
    • 1997-03-25
    • Yongping XiaSreeraman VenkitasubrahmanianRaj JayaramanThomas Farkas
    • Yongping XiaSreeraman VenkitasubrahmanianRaj JayaramanThomas Farkas
    • H05B37/02H05B41/282H05B41/298H05B41/392
    • H05B41/2828H05B37/0263H05B41/2981H05B41/3921Y10S315/04
    • A communication method particularly suited for lighting control employs encoding of perturbations in a voltage signal having a fundamental period with a nominal waveform. A control period includes a pre-selected number of fundamental periods of the voltage signal. Different control commands are indicated by imposing a selected perturbation, such as a phase cut, on the nominal waveform with a respective occurrence signature within the control period. The control commands are decoded from the voltage signal by detecting the occurrence signature of the perturbations within each control period. Decoding is accomplished by differentiating the nominal waveform to detect encoded perturbations. The technique is particularly suited for two-wire dimming applications for gas discharge lamps, in which the voltage signal carrying the encoded commands is the sinusoidal mains voltage powering the ballast, since the encoded perturbations may be small enough so that lamp flicker is avoided even with encoded signals on the line voltage. In a favorable embodiment for dimming, no perturbations are introduced on the line voltage unless a change in the operating characteristic, for example the light level, of the electric lamp is desired. This has the advantage that when lamp operation is to be kept constant, no distortions are imposed on the mains voltage, so that flicker of the lamp(s) is completely avoided and there are no adverse effects to the power factor, THD or component stress.
    • 特别适用于照明控制的通信方法使用具有标称波形的基本周期的电压信号中的扰动编码。 控制周期包括电压信号的预选数量的基本周期。 通过在控制周期内具有相应的发生签名在标称波形上施加选择的扰动(例如相位切除)来指示不同的控制命令。 通过检测每个控制周期内扰动的发生特征,从电压信号对控制命令进行解码。 通过区分标称波形来检测编码的扰动来完成解码。 该技术特别适用于气体放电灯的双线调光应用,其中携带编码命令的电压信号是为镇流器供电的正弦电源电压,因为编码的扰动可能足够小,以便避免灯闪烁,即使使用 编码信号的线路电压。 在用于调光的有利实施例中,除非需要电灯的工作特性(例如光级)的改变,否则不会在线路电压上引入扰动。 这样做的优点在于,当灯管运行保持恒定时,不会对电源电压造成失真,从而完全避免了灯的闪烁,并且对功率因数,THD或分量应力没有不利影响 。
    • 5. 发明授权
    • Sensing and control for dimmable electronic ballast
    • 可调光电子镇流器的感应和控制
    • US06448713B1
    • 2002-09-10
    • US09731000
    • 2000-12-07
    • Thomas FarkasNaresh Kesavan Rao
    • Thomas FarkasNaresh Kesavan Rao
    • H05B3702
    • H05B41/3924H05B41/3921
    • A sensing circuit for a triac dimmable gas discharge lamp ballast uses the duty cycle of the output waveform of a conventional triac dimmer as the parameter representing a set point for controlling the degree of clamping applied to the ballast circuit, and thus the amount of light produced by a fluorescent lamp. The sensing circuit may include a comparator that receives a rectified output waveform of a triac dimmer and produces output pulses corresponding in width to the duty cycle of the waveform, and a capacitor averaging the values of the pulses produced by the comparator to produce a set point signal representing a dimming level of the lamp. A triac dimmable ballast circuit using this sensing circuit has reduced sensitivity to line voltage and a wide mechanical range over which the light level of the fluorescent lamp is controlled by the user. The sensing circuit also enables a preheat timing circuit that eliminates the timing capacitor of prior art preheating circuits. A gas discharge lamp ballast and a method for its operation are also disclosed.
    • 用于三端双向可控硅可调光气体放电灯镇流器的感测电路使用常规三端双向可控硅调光器的输出波形的占空比作为表示用于控制施加到镇流器电路的钳位程度的设定点的参数,并且因此产生的光量 通过荧光灯。 感测电路可以包括比较器,其接收三端双向可控硅调光器的整流输出波形,并产生宽度对应于波形的占空比的输出脉冲,以及对由比较器产生的脉冲的值进行平均以产生设定点 表示灯的调光电平的信号。 使用该感测电路的三端双向可控硅可调光镇流器电路降低了对线路电压的敏感性以及荧光灯的光级由用户控制的宽的机械范围。 感测电路还使得能够消除现有技术的预热电路的定时电容器的预热定时电路。 还公开了一种气体放电灯镇流器及其操作方法。
    • 6. 发明授权
    • Induction lamp with oppositely oriented coil winding layers
    • 感应灯具有相反方向的线圈绕组层
    • US5866991A
    • 1999-02-02
    • US672220
    • 1996-07-17
    • Thomas FarkasTimothy A. TaubertGeorge A. FarrallGordon A. GrigorDavid O. Wharmby
    • Thomas FarkasTimothy A. TaubertGeorge A. FarrallGordon A. GrigorDavid O. Wharmby
    • H01J65/04H05B41/24
    • H01J65/048H05B41/24
    • An electrodeless gas discharge lamp includes a vitreous envelope containing a discharge medium. An excitation coil is positioned in relation to the vitreous envelope so as to excite the discharge medium therein. The excitation coil is adapted to be driven by an RF oscillator. The excitation coil has first and second ends and is effective for exciting the discharge medium to emit light with electromagnetic fields that are generated by the excitation coil. The excitation coil includes a first wire wound generally helically from the first end to the second end in a first helical direction to form first winding turns, and further includes a second wire wound generally helically from the first end to the second end in second helical direction opposite to that of the first helical direction to form second winding turns. Preferably, a generally cylindrical former is provided for holding the first and second wires between the first and second ends of the coil. Such former includes a positioning arrangement for maintaining specific positions of the first and second wires with respect to each other along the former.
    • 无电极气体放电灯包括容纳放电介质的玻璃体外壳。 励磁线圈相对于玻璃体封套定位,以便在其中激发放电介质。 励磁线圈适于由RF振荡器驱动。 励磁线圈具有第一和第二端,并且对于激励放电介质以由激励线圈产生的电磁场发射光是有效的。 励磁线圈包括在第一螺旋方向上从第一端至第二端大致螺旋地缠绕的第一线,以形成第一绕组匝,并且还包括在第二螺旋方向上从第一端至第二端大致螺旋形地缠绕的第二线 与第一螺旋方向的相反,以形成第二绕组匝。 优选地,提供了一种大致圆柱形的成型器,用于将第一和第二线保持在线圈的第一和第二端之间。 这种前置件包括用于沿着前者相对于彼此维持第一和第二线的特定位置的定位装置。
    • 8. 发明授权
    • Electronic ballast with interface circuitry for phase angle dimming
control
    • 具有接口电路的电子镇流器,用于相位角调光控制
    • US5559395A
    • 1996-09-24
    • US414859
    • 1995-03-31
    • Sreeraman VenkitasubrahmanianThomas FarkasRaj JayaramanYongping Xia
    • Sreeraman VenkitasubrahmanianThomas FarkasRaj JayaramanYongping Xia
    • H05B37/02H05B41/285H05B41/36H05B41/392
    • H05B41/2985H05B37/0263H05B41/2855H05B41/36H05B41/3921H05B41/3924Y10S315/04
    • A gas discharge lamp dimming ballast has a two wire input for connection to the hot dimmed and neutral leads of a phase control dimmer. The ballast has an improved topology in which a pre-conditioner supplies a substantially constant DC voltage to a ballast stage including an inverter, a resonant tank output and a control circuit. A dimming interface circuit derives a dimming signal having a voltage equal to the average value of the rectified output voltage of a full-bridge rectifier feeding the pre-conditioner circuit. The dim signal is independent of the DC rail voltage and, in combination with the maintenance of a substantially constant DC rail voltage, permits of improved dimming control while providing the ease of installation of a two wire ballast. The response time of the interface circuit relative to the pre-conditioner is selected to avoid power imbalances. The ballast also includes an EMI filter and circuitry to prevent capacitive hold-up by the EMI filter of the rectified voltage to preserve the conduction angle for the interface circuit.
    • 气体放电灯调光镇流器具有两线输入,用于连接到相位控制调光器的热调光和中性线。 镇流器具有改进的拓扑结构,其中预调节器向包括逆变器,谐振回路输出和控制电路的镇流器提供基本上恒定的DC电压。 调光接口电路导出具有等于馈送预调节器电路的全桥整流器的整流输出电压的平均值的电压的调光信号。 昏暗的信号与直流轨道电压无关,并且与基本上恒定的直流轨道电压的维持相结合,允许改进的调光控制,同时提供双线镇流器的易于安装。 选择接口电路相对于预调节器的响应时间以避免电源不平衡。 镇流器还包括EMI滤波器和电路,用于防止EMI滤波器对整流电压的电容性保持,以保持接口电路的导通角。
    • 9. 发明申请
    • Overcurrent protection for power converters
    • 电源转换器的过电流保护
    • US20060226820A1
    • 2006-10-12
    • US11372734
    • 2006-03-10
    • Thomas Farkas
    • Thomas Farkas
    • G05F1/571
    • G05F1/573
    • A power converter includes a main FET and a diode parallel to the main FET. A voltage divider circuit parallel to the main FET enables current to be sensed by a controller for overcurrent protection. A second diode parallel to one element of the voltage divider circuit and in series with a sense element causes the current through the sense element to increase with temperature as current increases through the first diode. In one implantation, a SenseFET comprises a main FET and a parallel mirror FET. A sense resistive element is in series with the mirror FET. A first Schottky diode is placed parallel to the main FET and a second Schottky diode parallel to the mirror FET and in series with the sense resistive element. The first and second diodes are thermally connected such that sensed current increases with increased current through the first Schottky diode. A controller provides overcurrent protection to the converter in response to the level of current through the sense resistive element.
    • 电源转换器包括主FET和与主FET并联的二极管。 与主FET并联的分压电路使得电流可由控制器感应到过电流保护。 平行于分压器电路的一个元件并与感测元件串联的第二二极管使电流通过感测元件随着电流随着第一二极管的电流而增加。 在一次注入中,SenseFET包括主FET和并行反射FET。 感测电阻元件与反射镜FET串联。 第一肖特基二极管平行于主FET和与反射FET并联并与感测电阻元件串联的第二肖特基二极管放置。 第一和第二二极管被热连接,使得感测的电流随着通过第一肖特基二极管的电流增加而增加。 控制器响应于通过感测电阻元件的电流电平而向转换器提供过电流保护。