Carrier Signal Based Sensorless Control of Wound Field Synchronous Machines Using the Rotor Winding as the Receiver: Rotating vs. Alternating Carrier

机译：使用转子绕组作为接收器的绕线同步机基于载波信号的无传感器控制：旋转载波与交流载波

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Due to the accessible rotor winding wound field synchronous machines (electrically excited synchronous machines) enable a large variety of carrier signal based approaches for sensorless control. For certain machines the best suited strategy is to use the rotor winding as the receiver of the carrier signal. Regarding this transmission direction, only alternating carrier signals were investigated in detail up to now. This paper presents a new way to directly compute the rotor position using a rotating carrier signal. Moreover the impact of cross saturation and resistive voltage drops is investigated for both carrier signals. The analytical outcomes are verified by identified parameters and experimental results with a highly utilized traction motor.

机译：由于转子绕组易于接近，因此绕线励磁同步电机（电励磁同步电机）实现了多种基于载波信号的无传感器控制方法。对于某些机器，最合适的策略是使用转子绕组作为载波信号的接收器。关于该传输方向，到目前为止，仅详细地研究了交替的载波信号。本文提出了一种使用旋转载波信号直接计算转子位置的新方法。此外，还针对两个载波信号研究了交叉饱和和电阻压降的影响。通过使用高效的牵引电机，通过确定的参数和实验结果验证了分析结果。

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《International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management》|2015年|1-8|共8页
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Rambetius Alexander; Piepenbreier Bernhard;
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1. Sensorless Control of Wound Rotor Synchronous Machines Based on High-frequency Signal Injection into the Stator Windings [J] . Zhiguo Chen, Xianming Deng, Kun Huang, Journal of power electronics . 2013,第4期

机译：基于高频信号注入定子绕组的绕线转子同步电机的无传感器控制
2. Carrier Signal Injection-Based Sensorless Control for Permanent-Magnet Synchronous Machine Drives Considering Machine Parameter Asymmetry [J] . P. L. Xu, Z. Q. Zhu IEEE Transactions on Industrial Electronics . 2016,第5期

机译：考虑电机参数不对称的永磁同步电机驱动器基于载波信号注入的无传感器控制
3. Carrier signal injection-based sensorless control for permanent magnet synchronous machine drives with tolerance of signal processing delays [J] . Peilin Xu, Ziqiang Zhu Electric Power Applications, IET . 2017,第6期

机译：基于载波信号注入的永磁同步电机驱动器无传感器控制，具有信号处理延迟的容限
4. Carrier Signal Based Sensorless Control of Wound Field Synchronous Machines Using the Rotor Winding as the Receiver: Rotating vs. Alternating Carrier [C] . Rambetius Alexander, Piepenbreier Bernhard International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management . 2015

机译：基于载体信号的无卷绕式同步机的无传感器控制，使用转子绕组作为接收器：旋转与交流载体
5. Sensorless flux vector control for a permanent magnet synchronous machine with cylindrical rotor under severe starting conditions. [D] . Anghel, Cristian Eugen. 1997

机译：带有严苛启动条件的带有圆筒形转子的永磁同步电机的无传感器磁通矢量控制。
6. Enhancement of Cortical Network Activity in vitro and Promotion of GABAergic Neurogenesis by Stimulation with an Electromagnetic Field with a 150 MHz Carrier Wave Pulsed with an Alternating 10 and 16 Hz Modulation [O] . Alexandra Gramowski-Voß, Hans-Joachim Schwertle, Anna-Maria Pielka, 2015

机译：通过以150 CorMHz载波交替调制10和16 Hz调制的电磁波刺激电磁场增强体外皮层网络的活性并促进GABA能神经发生。
7. A Simple Position-Sensorless Algorithm for Rotor-Side Field-Oriented Control of Wound-Rotor Induction Machine [O] . Datta Rajib, Ranganathan VT 2001

机译：绕线感应电动机转子侧磁场定向的简单无位置传感器算法

Carrier Signal Based Sensorless Control of Wound Field Synchronous Machines Using the Rotor Winding as the Receiver: Rotating vs. Alternating Carrier

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