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    • 1. 发明授权
    • Process and device for eliminating or reducing harmonics and/or
resonance oscillations
    • 消除或减少谐波和/或谐振的过程和设备
    • US5235503A
    • 1993-08-10
    • US804598
    • 1991-12-10
    • Herbert StemmlerPeter SteimerBjorn Odegard
    • Herbert StemmlerPeter SteimerBjorn Odegard
    • H02M1/12H02M5/45
    • H02M5/4505H02M1/12
    • An a.c. machine (7) with, connected in parallel thereto, a capacitor bank (CR, CS, CT), which are fed by a converter (1-4) with a d.c. intermediate circuit, form a resonant system which is excited by the rectangular current of an inverter (4) of the converter. In this case, there is superimposition of the fundamentals and the normal harmonics in the machine voltage and in the machine current of an additional harmonic with the frequency of the resonance point. In the lower speed range of the a.c. machine (7), this excitation is eliminated by an optimum operating sequence of current gaps, which are generated inside a current block by means of a quenching circuit (3). Current gaps are generated at the start and end of each current block for the purpose of damping the 11th and 13th harmonic, and in the middle of the current block for the purpose of damping the 7th harmonic. A turn-on angle basic value signal (.alpha..sub.M) is modified by a turn-on angle differential signal (.DELTA..alpha..sub.M) for the purpose of damping the 5th harmonic, in particular an exciting or available harmonic being controlled to 0 or in the vicinity of 0.
    • 一个 与并联连接的电容器组(CR,CS,CT)的机器(7)由转换器(1-4)供电,具有直流。 形成由转换器的逆变器(4)的矩形电流激发的谐振系统。 在这种情况下,在机器电压和谐波点频率的附加谐波的机器电流中存在基本原理和正常谐波的叠加。 在a.c.的较低速度范围内。 机器(7)中,通过淬火电路(3)在当前块内产生的当前间隙的最佳操作顺序来消除该激发。 为了阻尼第11次谐波和第13次谐波以及当前块的中间,为了阻尼第7次谐波,在当前块的开始和结束处产生电流间隙。 导通角度基本值信号(αM)由导通角差分信号(DELTA alpha M)修改,以阻尼第五谐波,特别是激励或可用谐波被控制为0或在 附近0。
    • 4. 发明授权
    • Converter with fast-acting overvoltage protection
    • 转换器具有快速过电压保护功能
    • US4553197A
    • 1985-11-12
    • US544639
    • 1983-10-24
    • Herbert Stemmler
    • Herbert Stemmler
    • H02M7/162H02M5/45
    • H02M7/1623
    • A power converter typically used for operating electrical machines and provided with protective measures to protect against overvoltages which can otherwise occur in the process of switching off the inductive loads represented by the electrical machines. To that end, the converter includes plural bridge circuits having a.c. voltage terminals and d.c. voltage terminals, wherein the a.c. voltage terminals are phasewise parallel-connected and coupled to each other via at least one capacitor and wherein the d.c. voltage terminals are coupled to each other via at least one intermediate circuit reactor. The bridge circuits include bridge arms having GTO thyristors that can be switched off, and the plural bridges are driven out of phase with respect to one another. In this way, the converter supplies an alternating current which is relatively near-sinusoidal and exhibits a low harmonics content to the electrical machine. Following turning off of the thyristors in the bridge circuits of the converter, energy stored in the machine is temporarily stored in the capacitors coupling the A.C. terminals of the bridge circuits, so that no impermissible overvoltages occur.
    • 一种电力转换器,通常用于操作电机并提供保护措施,以防止过电压,否则可能会在关闭由电机表示的感性负载的过程中发生。 为此,转换器包括具有直流电的多个桥接电路。 电压端子和直流 电压端子,其中a.c. 电压端子并行连接并且经由至少一个电容器彼此耦合,并且其中直流 电压端子通过至少一个中间电路反应器彼此耦合。 桥接电路包括具有能够断开的GTO晶闸管的桥臂,并且多个桥被相对于彼此异相驱动。 以这种方式,转换器提供相对接近正弦的交流电,并向电机呈现低谐波含量。 在关闭转换器的桥式电路中的晶闸管之后,存储在机器中的能量暂时存储在耦合桥式电路的交流电端子的电容器中,从而不会发生不允许的过电压。
    • 6. 发明授权
    • Method for controlling a three-phase inverter
    • 三相逆变器控制方法
    • US4951187A
    • 1990-08-21
    • US440360
    • 1989-11-22
    • Herbert Stemmler
    • Herbert Stemmler
    • H02M7/527
    • H02M7/527
    • Inverters (5.1, 5.2) for feeding a three-phase load such as, for example, an asynchronous machine (6), are controlled by pulse width modulation, in such a manner that they supply output voltages (U.sub.5.1R, U.sub.5.2R) which are as closely sinusoidal as possible, having few harmonics per alternating-current phase (R, S, T). To achieve the pulse width modulation, a first auxiliary alternating voltage (U.sub.H1) of a sawtooth generator (1.1), on the one hand, and a second auxiliary alternating voltage (U.sub.H2) of a sawtooth generator (1.2), which is phase-shifted by 180.degree. with respect to the first one, on the other hand, is superimposed by a control signal transmitter (2) on a sinusoidal first superimposition alternating voltage (U.sub.StR, U.sub.StS, U.sub.StT) with the required frequency and phase angle in logic circuits (3.1, 3.2). Separate inverter groups (5.1, 5.2), the outputs of which are connected via a reactor coil (7), the center tab of which is connected to a stator winding (W.sub.R) of the asynchronous machine (6), are controlled in dependence on intersectons of the two superimposition voltages in each case. To reduce the turn-on and turn-off losses, the thyristors (T1, T1'; T2, T2') of the inverter are only switched over at intersections of the rising portion of the auxiliary alternating voltage (U.sub.H1, U.sub.H2). During this process, the inverter sections of the two phases (R, S, T), the firsat superimposition alternating voltage of which has been intersected are in each case switched at two successive intersectons while the inverter sections of the adjacent phases are switched over at the subsequent third intersecton. This allows the switching actions to be reduced by 1/3.
    • 用于馈送例如异步电机(6)的三相负载的逆变器(5.1,5.2)通过脉冲宽度调制来控制,使得它们提供输出电压(U5.1R,U5.2R ),它们尽可能接近正弦,每个交流相(R,S,T)具有很少的谐波。 为了实现脉宽调制,一方面是锯齿波发生器(1.1)的第一辅助交流电压(UH1)和锯齿波发生器(1.2)的第二辅助交流电压(UH2),其相移 另一方面,由控制信号发射器(2)以正弦的第一叠加交流电压(UStR,UStS,UStT)与逻辑电路中所需的频率和相位角叠加180° 3.1,3.2)。 单独的反相器组(5.1,5.2),其输出通过电抗器线圈(7)连接,电抗器线圈(7)的中心接头连接到异步电机(6)的定子绕组(WR),根据 在每种情况下两个叠加电压的交叉点。 为了减小导通和关断损耗,逆变器的晶闸管(T1,T1'; T2,T2')只在辅助交流电压(UH1,UH2)的上升部分的交点处切换。 在该过程中,其交叉交替电压已经相交的两相(R,S,T)的逆变器部分在每个情况下在两个连续的相交处切换,而相邻相的逆变器部分被切换在 随后的第三个相交。 这允许将切换动作减少1/3。
    • 7. 发明授权
    • Low-noise operation of a machine fed by a pulse inverter
    • 由脉冲逆变器馈送的机器的低噪声运行
    • US5625542A
    • 1997-04-29
    • US449306
    • 1995-05-24
    • Herbert StemmlerThomas Eilinger
    • Herbert StemmlerThomas Eilinger
    • H02M7/5395H02P27/06H02P27/08H02M1/12
    • H02M7/5395
    • A method and apparatus for the low noise operation of a electrical machine driven by a pulse inverter computes the amplitudes and frequencies of the harmonics of the inverter output voltages. Through targeted setting of the modulation parameters, the frequency spectrum or the noise spectrum can be fanned out and harmonics, which would excite stator resonances, can be eliminated. Due to the independence of the modulation parameters from the modulation index (a.sub.0) and the fundamental oscillation frequency (f.sub.1), the fanning-out and the elimination has no influence on the fundamental oscillation (u.sub.GS) or on the operating point of the machine. The inverter is controlled through sinusoidal pulse width modulation (PWM) and sinusoidal pulse frequency modulation (PFM) of a triangular carrier signal (U.sub.H). By this method, the main groups of the harmonics with two ordinate numbers (n, v) are fanned out into subgroups with three ordinate numbers (n, m, v). In addition to a more uniform distribution, there also is a reduction in the amplitudes of the harmonics (U.sub.nmv) through this fanning-out method. The generated noise is reduced in level and the sound pattern does not contain any conspicuous unpleasant individual frequencies.
    • 用于由脉冲逆变器驱动的电机的低噪声运行的方法和装置计算逆变器输出电压的谐波的幅度和频率。 通过调制参数的目标设定,可以消除频谱或噪声谱,并且可以消除激发定子谐振的谐波。 由于调制参数(a0)和基本振荡频率(f1)的调制参数的独立性,扇出和消除对基本振荡(uGS)或机器的工作点没有影响。 逆变器通过三角载波信号(UH)的正弦脉宽调制(PWM)和正弦脉冲频率调制(PFM)进行控制。 通过这种方法,将具有两个纵坐标数(n,v)的谐波的主要组分散成具有三个纵坐标数(n,m,v)的子组。 除了更均匀的分布之外,还通过这种扇形化方法降低了谐波的振幅(Unmv)。 所产生的噪声水平降低,声音模式不包含任何显着的不愉快的个体频率。
    • 8. 发明授权
    • Low inductance GTO switching circuit for an inverter
    • 用于逆变器的低电感GTO开关电路
    • US5164893A
    • 1992-11-17
    • US734786
    • 1991-07-23
    • Hansueli LuscherHerbert Stemmler
    • Hansueli LuscherHerbert Stemmler
    • H02M1/06H02M7/515
    • H02M7/515
    • With respect to their connection to snubber capacitors (C1, C2), a discharge resistor (12) connecting these snubber capacitors, and a link capacitor bank (3), inverter circuits with GTO thyristors (T1, T2) connected in series have parasitic leakage inductances which limit the level of the permissible link direct voltage. In order to reduce the leakage inductances, the snubber capacitors (C1, C2) are surrounded by effectively conducting capacitor covers (17). Sheet-metal shielding covers are fitted over the two ends of the discharge resistor (12). Parallel and series connected capacitors of the link capacitor bank (3) are connected to the positive/negative terminals (23, 24) of the GTO thyristors (T1, T2) in the middle of a heat sink connecting strainer (33), the supply leads being guided essentially parallel and the capacitors being arranged in opposite planes.
    • 关于缓冲电容器(C1,C2)的连接,连接这些缓冲电容器的放电电阻器(12)和连接电容器组(3),串联连接的具有GTO晶闸管(T1,T2)的反相器电路具有寄生泄漏 限制可允许链路直流电压电平的电感。 为了减小漏电感,缓冲电容器(C1,C2)被有效地传导电容器盖(17)包围。 钣金屏蔽罩安装在放电电阻(12)的两端。 连接电容器组(3)的并联和串联电容器连接到散热器连接过滤器(33)中间的GTO晶闸管(T1,T2)的正/负端子(23,24),供电 引线基本上是平行的,并且电容器布置在相对的平面中。
    • 9. 发明授权
    • Method for attenuating at least one electric harmonic of the system
frequency in a multi-phase alternating-current system
    • 用于在多相交流系统中衰减系统频率的至少一个电谐波的方法
    • US4680531A
    • 1987-07-14
    • US898019
    • 1986-08-19
    • Antoine ReyHerbert Stemmler
    • Antoine ReyHerbert Stemmler
    • H02J3/00H02J3/01G05F1/70
    • H02J3/01Y02E40/40
    • A method for attenuating at least one unwanted harmonic, particularly the second harmonic, with respect to the system frequency in a multi-phase alternating current system, wherein an additional stabilizing circuit is installed into a conventional current/voltage controller including a current/voltage controller and a three-phase firing pulse generator in a reactive-power compensator connected via a reactive-power transformer and a current transformer to a 50 Hz three-phase system. The reactive power compensator has for each phase of the three-phase current at least one air choke, which is connected via a current transformer and via an alternating-current switch via another sum-current transformer to a secondary winding of the reactive-power transformer. In addition, the reactive-power compensator has for each phase of the three-phase current at least one capacitor bank or a capacitor, which is connected via a current transformer and an alternating-current switch (13) to the sum-current transformer (20). The stabilizing circuit measures a harmonic-containing magnetising current as the difference between compensator current (i.sub.K) and sum current (i.sub.Su) on the primary and secondary side of the reactive-power transformer, and by means of a voltage transformer a system-frequency voltage signal, which is proportional to the system frequency. These two three-phase current and voltage signals are converted into a single direct-voltage signal in a reactive-power meter. An input harmonic of 100 Hz occurs on the output side as a 50 Hz signal which is filtered out in a bandpass filter and, after a +90.degree. phase shift, is added in an adding section to the conventional output signal of the current/voltage controller via a double-sided limiter.
    • 一种用于在多相交流系统中相对于系统频率衰减至少一个不需要的谐波,特别是二次谐波的方法,其中附加的稳定电路被安装到包括电流/电压控制器的常规电流/电压控制器 以及通过无功功率变压器和电流互感器连接到50Hz三相系统的无功功率补偿器中的三相点火脉冲发生器。 无功功率补偿器对于三相电流的每相,至少有一个空气扼流圈,其通过电流互感器连接,并且经由另一个总和电流互感器通过交流开关连接到无功功率变压器的次级绕组 。 此外,无功功率补偿器具有用于三相电流的每相的至少一个电容器组或电容器,其经由电流互感器和交流开关(13)连接到和电流互感器( 20)。 稳定电路测量谐波含量的磁化电流作为无功功率变压器的一次侧和次级侧的补偿电流(iK)与和电流(iSu)之间的差,并通过变压器的系统频率电压 信号,与系统频率成正比。 这两个三相电流和电压信号在无功功率表中转换为单个直流电压信号。 在输出侧出现100Hz的输入谐波作为在带通滤波器中被滤除的50Hz信号,并且在+90°相移之后,在加法部分中加入电流/电压的常规输出信号 控制器通过双面限制器。
    • 10. 发明授权
    • Reactive-power compensator for compensating a reactive-current component
in an alternating-voltage system
    • 用于补偿交流电压系统中的无功电流分量的无功功率补偿器
    • US4647837A
    • 1987-03-03
    • US656888
    • 1984-10-02
    • Herbert Stemmler
    • Herbert Stemmler
    • G05F1/70H02J3/18
    • H02J3/185Y02E40/24
    • A reactive-power compensator for compensating a reactive current component in an alternating-voltage system, including a reactive-current converter formed by forced-commutation current converter rectifiers arranged in a current converter bridge circuit, and a smoothing choke used as a termination at the direct-current side of the bridge circuit. The compensator attains constant compensation of both inductive and capactive reactive-current components with clearly reduced system reaction by driving the rectifiers such that the bridge circuit accepts at its input a compensation current in the form of approximately rectangular current pulses having a pulse frequency greater than that of the alternating voltage system. The polarity and width of these current pulses are modulated in accordance with a sine function so that the compensation current is identical in frequency and amplitude with respect to the reactive current component at the system voltage input, but shifted in phase by 180.degree..
    • 一种用于补偿交流电压系统中的无功电流分量的无功功率补偿器,包括由布置在电流转换器桥电路中的强制换流电流转换器整流器形成的无功电流转换器,以及在该电流转换器桥接电路中用作终端的平滑扼流圈 桥电路的直流侧。 补偿器通过驱动整流器来实现电感和有功无功电流分量的不间断补偿,明显降低系统反应,使得桥式电路在其输入端接受大体矩形电流脉冲形式的补偿电流,脉冲频率大于 的交流电压系统。 这些电流脉冲的极性和宽度根据正弦函数进行调制,使得补偿电流的频率和幅度相对于系统电压输入端的无功电流分量相同,但相位相差180°。