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    • 2. 发明申请
    • VOLTAGE RECTIFIER WITH SPECIFIC DIODE ARRANGEMENT
    • 具有特殊二极管布置的电压整流器
    • WO2011151767A2
    • 2011-12-08
    • PCT/IB2011052331
    • 2011-05-27
    • KONINKL PHILIPS ELECTRONICS NVPHILIPS INTELLECTUAL PROPERTYLUERKENS PETERLOEF CHRISTOPH
    • LUERKENS PETERLOEF CHRISTOPH
    • H02M7/106H02M7/06
    • The invention is directed to a voltage rectifier (23) comprising at least two diode arrays (33, 34, 35, 36) each comprising plural diodes (33a, 33b, 33p, 34a, 34b, 35a, 35b, 35p, 36a, 36b, 36c, 36d, 36p) connected in series. The diode arrays are arranged in an enclosure (47). The diode arrays are arranged in a special arrangement for providing an even distribution of a field strength. According to an embodiment and with respect to the figures, the vertical distance between an enclosure (47) and the diode arrays (33, 34, 35, 36) increases when horizontally distancing from the direct current terminals. Further, the invention provides a voltage generator (21) and a voltage rectifier (23) having such a voltage rectifier.
    • 本发明涉及一种电压整流器(23),其包括至少两个二极管阵列(33,34,35,36),每个二极管阵列包括多个二极管(33a,33b,33p,34a,34b,35a,35b,35p,36a,36b ,36c,36d,36p)串联连接。 二极管阵列布置在外壳(47)中。 二极管阵列被布置成用于提供场强的均匀分布的特殊布置。 根据实施例,并且关于附图,当与直流端子水平隔开时,外壳(47)和二极管阵列(33,34,35,36)之间的垂直距离增加。 此外,本发明提供一种具有这种电压整流器的电压发生器(21)和电压整流器(23)。
    • 5. 发明申请
    • VOLTAGE MULTIPLIER WITH IMPROVED POWER EFFICIENCY AND APPARATUS PROVIDED WITH SUCH VOLTAGE MULTIPLIER
    • 具有提高功率效率的电压乘法器和提供这种电压乘法器的装置
    • WO2007017793A1
    • 2007-02-15
    • PCT/IB2006/052625
    • 2006-08-01
    • PHILIPS INTELLECTUAL PROPERTY & STANDARDS GMBHKONINKLIJKE PHILIPS ELECTRONICS N.V.LUERKENS, Peter
    • LUERKENS, Peter
    • H02M7/10H05G1/12
    • H02M3/07H05G1/12
    • A voltage multiplier comprising a chain of multiplier stages, each multiplier stage (STGj) comprising first and second inputs (IPIj, IP2j) and first and second outputs (OPIj, 0P2j), which first and second outputs of a multiplier stage is coupled to respective first and second inputs of another multiplier stage, each multiplier stage (STGj) comprising a series diode arrangement of two diodes (DIj, D2j) coupled, in the same current conducting direction, between the first input (IPIj) and the first output (OPIj). Each multiplier stage (STGj) further comprises a first capacitor (CIj) coupled between the first input (IPIj) and the first output (OPIj), and a second capacitor (C2j) coupled between the second input (IP2j) and the second output (0P2j). Each multiplier stage (STGj) further comprises equalizing means (VLSj; C2j, C3j, C4j), preferably capacitors (Csj), for equalizing the current distributions, as a function of time, of the currents (Ij) through the diodes (DIj, D2j).
    • 包括乘法器级链的电压倍增器,每个乘法器级(STGj)包括第一和第二输入(IPIj,IP2j)以及第一和第二输出(OPIj,0P2j),乘法器级的第一和第二输出耦合到相应的 另一乘法器级的第一和第二输入,每个乘法级(STGj)包括在相同的电流传导方向上在第一输入(IPIj)和第一输出(OPIj)之间耦合的两个二极管(DIj,D2j)的串联二极管布置 )。 每个乘法器级(STGj)还包括耦合在第一输入(IPIj)和第一输出(OPIj)之间的第一电容器(C1j)和耦合在第二输入端(IP2j)和第二输出端 0P2j)。 每个乘法器级(STGj)还包括均衡装置(VLSj; C2j,C3j,C4j),优选电容器(Csj),用于均衡通过二极管(DIj,...)的电流(Ij)作为时间的函数的电流分布, D2j)。
    • 6. 发明申请
    • METHOD FOR DRIVING AN INVERTER OF A GAS DISCHARGE SUPPLY CIRCUIT
    • 用于驱动气体放电电路的逆变器的方法
    • WO2006137027A2
    • 2006-12-28
    • PCT/IB2006/052004
    • 2006-06-21
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.PHILIPS INTELLECTUAL PROPERTY & STANDARDS GMBHLUERKENS, Peter
    • LUERKENS, Peter
    • H05B41/2885H02M1/38Y02B20/202
    • A method of controlling an inverter (4) of a gas discharge lamp circuit. The inverter comprises two branches, each having a first semiconductor switch (32, 36) in series with a second semiconductor switch (34, 38) and having a connection node (40, 44), which is connected to a respective output terminal (42, 46) of the inverter. The first and second switches are connected to a first input terminal (16) and to a second input terminal (18) of the inverter, respectively. Each switch has an intrinsic or externally connected antiparallel diode(52-56). The switches of the branches are controlled by a controller in an alternating and cross-like manner to conduct and to not conduct. Controlling of switches is delayed by a first delay time per branch and by a second delay time between branches.
    • 一种控制气体放电灯电路的逆变器(4)的方法。 逆变器包括两个分支,每个分支具有与第二半导体开关(34,38)串联的第一半导体开关(32,36),并具有连接到相应的输出端子(42,44)的连接节点(40,44) ,46)。 第一和第二开关分别连接到逆变器的第一输入端子(16)和第二输入端子(18)。 每个开关具有内部或外部连接的反并联二极管(52-56)。 分支的开关由控制器以交替和交叉的方式控制,以进行和不导通。 开关的控制被延迟每个分支的第一延迟时间和分支之间的第二延迟时间。
    • 8. 发明申请
    • ANALOG TO DIGITAL CONVERSION CIRCUIT WITH AUTOMATIC BIAS POINT DETERMINATION AND MR GRADIENT SYSTEMS USING THE SAME
    • 模拟数字转换电路与自动偏离点确定和MR梯度系统使用相同
    • WO2010018533A3
    • 2010-04-08
    • PCT/IB2009053516
    • 2009-08-11
    • KONINKL PHILIPS ELECTRONICS NVPHILIPS INTELLECTUAL PROPERTYSCHEEL THOMASHATTRUP CHRISTIANLUERKENS PETER
    • SCHEEL THOMASHATTRUP CHRISTIANLUERKENS PETER
    • H03M3/04
    • H03M3/412
    • A hybrid analog/digital circuit comprises: an analog difference element (60) configured to output an analog difference signal (d) corresponding to a difference between an input analog signal (s meas ) and an analog feedback signal (s bias ); an analog-to-digital converter (ADC) (62) configured to generate a multi-bit digital representation (D) of the analog difference signal; digital control circuitry (64, 66, 68) including at least a digital integrator or digital summer (64), the digital control circuitry configured to generate a digital control signal (S BIAS ) based on the multi-bit digital representation of the analog difference signal; a digital-to-analog converter (DAC) (70) configured to generate the analog feedback signal (s bias ) having an analog value corresponding to a digital value of the digital control signal; and an output unit (72, 74) arranged to output a digital output signal (S MEAS ) equal to or derived from the digital control signal.
    • 一种混合模拟/数字电路,包括:模拟差分元件(60),被配置为输出与输入模拟信号(s meas)和模拟反馈信号(s bias)之间的差相对应的模拟差分信号(d); 模数转换器(ADC)(62),其被配置为生成所述模拟差分信号的多位数字表示(D);模数转换器 数字控制电路(64,66,68),其至少包括数字积分器或数字加法器(64),所述数字控制电路被配置为基于所述模拟差分的所述多位数字表示产生数字控制信号(S BIAS) 信号; 数模转换器(DAC)(70),被配置为生成具有对应于所述数字控制信号的数字值的模拟值的所述模拟反馈信号(s bias); 和输出单元(72,74),其被配置为输出等于或来源于数字控制信号的数字输出信号(S MEAS)。