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    • 2. 发明申请
    • DEVICE FOR FLEXIBLE POWER TRANSMISSION AND DEICING OF A HIGH-VOLTAGE POWER LINE BY MEANS OF DIRECT CURRENT
    • 柔性电力传输装置和直流电流检测高压电力线
    • US20100033028A1
    • 2010-02-11
    • US12515027
    • 2007-11-14
    • Kadry SadekFrank SchettlerKarl Ücker
    • Kadry SadekFrank SchettlerKarl Ücker
    • H05K7/20H02M7/00
    • H02J3/36H02G7/16Y02E60/60
    • In order to provide an apparatus (1) for flexible power transmission and for deicing of a high-voltage line, which has a plurality of phases, by means of direct current, with an AC voltage connection of the high-voltage line which has a number of phases corresponding to the phases of the high-voltage line, each phase having at least one inductance (6) and a valve circuit (10) connected in series with each inductance (6), with the valve circuit (10) being connected by means of a junction point (11) to the AC voltage connection, and having a first current path (14) with a first power semiconductor valve (12) and a second current path (15) with a second power semiconductor valve (13), with the power semiconductor valves (12, 13) being connected in opposite senses with respect to one another with reference to the junction point (11) and in which case the first and the second current path (15) can be connected to a TCR star point by means of at least one star point switch (16, 17), whose design is simple and at the same time costs little, it is proposed that the TCR star point (18) is connected via a connecting line to a star point of a zero phase-sequence system suppression means (2, 21).
    • 为了提供一种用于通过直流电的柔性功率传输和具有多相的高电压线路的除冰装置(1),该高压线路具有高压线路的AC电压连接,该高压线路具有 与高压线的相位对应的相位数,每相具有与每个电感(6)串联连接的至少一个电感(6)和阀电路(10),阀电路(10)被连接 通过与AC电压连接的连接点(11),并且具有带有第二功率半导体阀(13)的具有第一功率半导体阀(12)和第二电流通路(15)的第一电流通路(14) 功率半导体阀(12,13)相对于连接点(11)相对于彼此以相反的方式连接,并且在这种情况下,第一和第二电流通路(15)可以连接到TCR 通过至少一个星点开关(16,17)的星点, 符号简单,同时成本很低,建议TCR星点(18)经由连接线连接到零相序系统抑制装置(2,21)的星点。
    • 3. 发明授权
    • Twelve-pulse HVDC transmission
    • 十二脉冲HVDC传输
    • US07881078B2
    • 2011-02-01
    • US11908191
    • 2006-03-06
    • Marcos PereiraKadry Sadek
    • Marcos PereiraKadry Sadek
    • H02M5/45
    • H02J3/36H02M5/45H02P2201/13Y02E60/60
    • A device for transmitting electric power between alternating voltage networks includes converters interconnected by direct current lines and provided each with several six-pulse conversion bridges. The six-pulse conversion bridges of one same converter are capable of being connected to an alternating voltage network associated with the converters via inductances differently phase-shifted. A control unit is provided to energize the valves of the six-pulse conversion bridges. The device is more economical and the converters are interconnected by a plurality of direct current circuits, each direct current circuit being galvanically separated from at least an alternating voltage network.
    • 用于在交流电压网络之间传输电力的装置包括通过直流线互连的转换器,并且每个转换器提供有几个六脉冲转换桥。 一个相同转换器的六脉冲转换桥能够通过不同相位的电感连接到与转换器相关联的交流电压网络。 提供一个控制单元来激励六脉冲转换桥的阀。 该装置更经济,并且转换器通过多个直流电路互连,每个直流电路与至少一个交流电压网电流隔离。
    • 4. 发明申请
    • Twelve-pulse HVDC Transmission
    • 十二脉冲HVDC传输
    • US20090225570A1
    • 2009-09-10
    • US11908191
    • 2006-03-06
    • Marcos PereiraKadry Sadek
    • Marcos PereiraKadry Sadek
    • H02M5/45
    • H02J3/36H02M5/45H02P2201/13Y02E60/60
    • A device for transmitting electric power between alternating voltage networks includes converters interconnected by direct current lines and provided each with several six-pulse conversion bridges. The six-pulse conversion bridges of one same converter are capable of being connected to an alternating voltage network associated with the converters via inductances differently phase-shifted. A control unit is provided to energize the valves of the six-pulse conversion bridges. The device is more economical and the converters are interconnected by a plurality of direct current circuits, each direct current circuit being galvanically separated from at least an alternating voltage network.
    • 用于在交流电压网络之间传输电力的装置包括通过直流线互连的转换器,并且每个转换器提供有几个六脉冲转换桥。 一个相同转换器的六脉冲转换桥能够通过不同相位的电感连接到与转换器相关联的交流电压网络。 提供一个控制单元来激励六脉冲转换桥的阀。 该装置更经济,并且转换器通过多个直流电路互连,每个直流电路与至少一个交流电压网电流隔离。
    • 5. 发明授权
    • Method and compensating device for compensating current oscillations
    • 用于补偿电流振荡的方法和补偿装置
    • US4639846A
    • 1987-01-27
    • US830721
    • 1986-02-19
    • Peter DahlerPeter NeidhartKadry SadekHerbert Stemmler
    • Peter DahlerPeter NeidhartKadry SadekHerbert Stemmler
    • H02M1/14H02J3/36H02M7/757H02J1/02
    • H02J3/36H02M7/7575H02J2003/365Y02E60/60
    • To reduce unwanted current oscillations such as, for example, of the second harmonic of the system frequency (f.sub.o), the firing angles (.alpha.1, .alpha.2) of a link-circuit rectifier (1) and of a link-circuit inverter (2) are compensatingly acted on in push-pull mode. For this purpose, a direct-current link-circuit current signal (S5, S5'), which contains the instability or the current oscillation to be compensated, is fed by means of a current detector (5, 5') to a bandpass filter (16, 16', 16") which is tuned to the frequency (f.sub.o, f.sub.x) of the respective current oscillation. The phase of a bandpass filter output signal (S16) is shifted by 90.degree. trailing in a 90.degree. phase-shifting section (15, 15', 15"). A compensating signal (S15,S15', S15") obtained in this manner is fed to first and second function generators (13, 13', 13"; 14, 14', 14"). The first function generators allow the positive component (S13) to pass and the second function generators allow the negative component (S14) of the compensating signal to pass. The output signal of the first function generator passes via a switch (12') to a summing section (11') for forming the cosine of the firing angle (.alpha.2) of the link-circuit inverter (2). The output signal of the second function generator passes via a switch (12) to a summing section (11) for forming the cosine of the firing angle (.alpha.1) of the link-circuit rectifier (1). By these means, the firing angle (.alpha.2) of the link-circuit inverter (2) is reduced when the direct-current link-circuit current signal is dropping and the firing angle (.alpha.1) of the link-circuit rectifier (1) is increased when it is rising.
    • 为了减少不必要的电流振荡,例如系统频率(fo)的二次谐波,链路电路整流器(1)和链路电路逆变器(1)的触发角(α1,α2) 2)在推挽模式下被补偿地作用。 为此,包含不稳定性或待补偿的当前振荡的直流链路电路信号(S5,S5')通过电流检测器(5,5')馈送到带通滤波器 (16,16',16“),其被调谐到各个电流振荡的频率(fo,fx)。 带通滤波器输出信号(S16)的相位在90°相移部分(15,15',15“)内移动90°。 以这种方式获得的补偿信号(S15,S15',S15“)被馈送到第一和第二功能发生器(13,13',13”; 14,14',14“)。 第一函数发生器允许正分量(S13)通过,第二函数发生器允许补偿信号的负分量(S14)通过。 第一函数发生器的输出信号通过开关(12')通过求和部分(11'),用于形成链路电路逆变器(2)的触发角(α2)的余弦。 第二函数发生器的输出信号通过开关(12)通过求和部分(11),以形成连接电路整流器(1)的触发角(α1)的余弦。 通过这些方式,当直流链路电路电流信号下降时,链路电路逆变器(2)的触发角(α2)减小,并且链路电路整流器(1)的触发角(α1) )在上升时增加。
    • 9. 发明授权
    • Method and apparatus for determining orders of non-characteristic
harmonic currents, and for compensation of the noncharacteristic
harmonic currents
    • 用于确定非特征谐波电流的次数以及非特性谐波电流补偿的方法和装置
    • US5780939A
    • 1998-07-14
    • US446654
    • 1995-05-26
    • Norbert ChristlPeter LutzelbergerKadry Sadek
    • Norbert ChristlPeter LutzelbergerKadry Sadek
    • H02J3/01H02J3/36H02J1/02
    • H02J3/01H02J3/36Y02E40/40Y02E60/60Y10T307/68
    • A method and an apparatus can determine the orders (z) of non-characteristic harmonic currents (Ih) of a second power supply grid, which is coupled to a first power supply grid using an HVDCT system. The apparatus and method also compensates for these non-characteristic harmonic currents (Ih), which are produced as a result of distortion (Uh) of the supply voltage (U1) which exists in the first grid because of a low-frequency harmonic and passes through the short coupling. The order (n) of the existing non-characteristic harmonics is determined by a voltage and/or current measurement of the voltage (U1) of the grid, from which order (n) the order (z) of the generated non-characteristic harmonics in the second grid is determined by a provided voltage-symmetry signal (SMG). This order (z) is supplied to filter logic of a compensation system. The energy quality is thus considerably improved, particularly in the case of grids which are not rigid.
    • PCT No.PCT / DE92 / 01063 Sec。 371日期:1995年5月26日 102(e)日期1995年5月26日PCT提交1992年12月10日PCT公布。 出版物WO94 / 14220 PCT 日期1994年6月23日一种方法和设备可以确定使用HVDCT系统耦合到第一电源网格的第二电源电网的非特征谐波电流(Ih)的阶数(z)。 该装置和方法还补偿这些非特征谐波电流(Ih),其由于低频谐波并且通过而存在于第一电网中的电源电压(U1)的失真(Uh)的结果而产生 通过短耦合。 现有非特性谐波的阶数(n)由电网电压(U1)的电压和/或电流测量值决定,从其产生的非特征谐波的阶数(n)为阶数(z) 在第二格栅中由提供的电压对称信号(SMG)确定。 该顺序(z)被提供给补偿系统的过滤器逻辑。 因此,能量质量得到显着改善,特别是在不刚性的网格的情况下。
    • 10. 发明授权
    • Method and apparatus for suppressing resonance phenomena in the A-C
network on the inverter side of a high voltage D-C transmission system
    • 用于抑制高压D-C传输系统的逆变器侧的A-C网络中的共振现象的方法和装置
    • US4685044A
    • 1987-08-04
    • US763466
    • 1985-08-07
    • Manfred WeibelzahlGeorg WildKadry Sadek
    • Manfred WeibelzahlGeorg WildKadry Sadek
    • H02M1/12H02M7/757H02H7/00
    • H02M7/7575H02M1/12Y02E60/60
    • If in a high-voltage d-c transmission system (HVDCTS), a resonance frequency of an a-c voltage network (NB) connected to the inverter (1B) is located in the vicinity of a voltage component contained in the a-c voltage network, a resonance frequency which often cannot be compensated by a current regulator controlling the rectifier stage (1A) is coupled into the d-c circuit of the HVDCTS via the inverter. Therefore, resonance phenomena which requires an emergency shutdown of the HVDCTS are generated. Therefore, a pilot quantity (U'.sub.d) is formed with a defined phase shift relative to the resonance oscillation of the HVDCTS voltage and added to the output of the current regulator. Thereby, a constant HVDCTS current can be generated for a given operating point and the resonance in the a-c voltage network (NB) can be damped. If the resonance oscillation is determined by two quantities (U'.sub.d, i'.sub.d) of, respectively, the HVDCTS voltage as well as of the HVDCTS current, stable damping of the resonance phenomena can be achieved by the pilot control described with the two quantities even for deviating operating points.
    • 如果在高压直流输电系统(HVDCTS)中,连接到逆变器(1B)的交流电压网络(NB)的谐振频率位于交流电压网络中包含的电压分量附近,则共振频率 其通常不能通过控制整流器级(1A)的电流调节器经由逆变器耦合到HVDCTS的直流电路来补偿。 因此,产生需要紧急关闭HVDCTS的共振现象。 因此,导频量(U'd)相对于HVDCTS电压的谐振振荡形成具有规定的相移并被加到电流调节器的输出端。 因此,对于给定的工作点可以产生恒定的HVDCTS电流,并且a-c电压网络(NB)中的谐振可被衰减。 如果共振振荡分别由HVDCTS电压和HVDCTS电流的两个量(U'd,i)确定,那么谐振现象的稳定阻尼可以通过两个描述的导频控制来实现 数量甚至偏离工作点。