Topic
Synchronous coordinates
About: Synchronous coordinates is a research topic. Over the lifetime, 33 publications have been published within this topic receiving 158 citations.
Papers
Dissertation•
27 Feb 2013
TL;DR: In this article, a small-signal analysis that uses interface impedances defined in the synchronous frame is developed by Belkhayat at Purdue in the mid-90s to access the system stability.
Abstract: Over the last two decades there has been an increased use of three-phase AC power systems that may not be connected to the main power grid, such as the power systems on more-electric airplane and all-electric ships. Power-electronic converters are usually a significant part of these systems, which provide excellent performance. But their negative incremental impedance nature increases the possibility of system instability. A small-signal analysis that uses interface impedances defined in the synchronous frame is developed by Belkhayat at Purdue in the mid-90s to access the system stability. The system impedance varies with the operating point. Thus the impedance has to be obtained online at the desired operating point, on even in situ. Literature investigates its use with system models, but the lack of equipment to measure such impedance prevents its use in practical systems. Measurement of impedances of each component enables the prediction of system stability before building the real system. The impedance data can also be used to investigate the instability in the system after it is built. The capability of impedance measurement can save the cost and time of system integrators. After reviewing the state-of-the-art development of impedance measurement systems, the dissertation analyzes several systematical error sources in the system, which includes the signal processing and sampling circuits, the phase estimation for coordinate transformation and the injection device connection, and proposes the solution to reduce their influence. Improved algorithm and system architecture are proposed to increase the measurement speed and accuracy. Chirp signal is used as an excitation signal to extract impedances at a group of frequencies at one time. The use of both shunt current injection and series voltage injection improves the SNR of measured signal. Oversampling, cross-correlation and frequency domain averaging technique are used to further reduce the influence of noise.
30 citations
22 Oct 2000
TL;DR: A compensating current control is presented to allow for high bandwidth current control in synchronous coordinates to enhance the power utilization of the installed capacity of a voltage source inverter.
Abstract: Overmodulation enhances the power utilization of the installed capacity of a voltage source inverter. A space vector strategy is used for constant switching frequency inverters. In order to achieve the overmodulation a modified reference signal with nonuniform angular velocity is generated using a preprocessor. Such a reference wave produces low frequency harmonics in currents. The presence of current harmonics restricts the bandwidth of the fundamental component current controller in the overmodulation range. On the other hand a high bandwidth current controller is mandatory for vector control. A compensating current control is presented to allow for high bandwidth current control in synchronous coordinates.
26 citations
TL;DR: In this paper, the second-order perturbations in the Einstein-de Sitter universe in synchronous coordinates were studied, and the 2nd-order tensor is invariant under 2ndorder transformations.
Abstract: We study the second-order perturbations in the Einstein-de Sitter Universe in synchronous coordinates. We solve the second-order perturbed Einstein equation with scalar-tensor and tensor-tensor couplings between 1st-order perturbations, and obtain, for each coupling, the solutions of scalar, vector, and tensor metric perturbations, including both the growing and decaying modes for general initial conditions. We perform general synchronous-to-synchronous gauge transformations up to 2nd order, which are generated by a 1st-order vector field and a 2nd-order vector field, and obtain all the residual gauge modes of the 2nd-order metric perturbations in synchronous coordinates. We show that only the 2nd-order vector field is effective for the 2nd-order transformations that we consider because the 1st-order vector field was already fixed in obtaining the 1st-order perturbations. In particular, the 2nd-order tensor is invariant under 2nd-order gauge transformations using ${\ensuremath{\xi}}^{(2)\ensuremath{\mu}}$ only, just like the 1st-order tensor is invariant under 1st-order transformations.
24 citations
1 Oct 2006
TL;DR: A new type of power control system is designed by applying flux oriented vector transformation control technology to decoupling control of active and reactive power of variable-speed constant-frequency (VSCF) generator by using the control windings of the generator to carry out the AC excitation.
Abstract: Using rotor d-p model as a start point, this paper analyses the mathematical model for brushless doubly-fed machine (BDFM) based on double synchronous reference frame. And, based on characteristics of BDFM, a new type of power control system is designed by applying flux oriented vector transformation control technology. This system realizes the decoupling control of active and reactive power of variable-speed constant-frequency (VSCF) generator by using the control windings of the generator to carry out the AC excitation. Meanwhile, because the generator structure is complex and the generator parameters are variable according to the environment, fuzzy control is used for the power loop of the outer loop to further enhance the robustness of the system. Thus high efficiency power generation is achieved through maximal wind energy capturing. Computer simulation results verify the correctness and effectiveness of this control strategy.
16 citations
6 Apr 2008
TL;DR: In this article, a whole model for brushless doubly-fed wind generation system is presented and the model in includes wind turbine, gear-box, and BDFM.
Abstract: A whole model for brushless doubly-fed wind generation system is presented and the model in includes wind turbine, gear-box and brushless doubly-fed machine (BDFM). Starting from d-q model of rotor under reference coordinate, a mathematical model of BDFM based on synchronous coordinates is researched. For the power system, a new model adapting to analyze the power system is gained by neglecting the electromagnetic transient change. According to the characteristics of BDFM and adopting flux linkage oriented vector transformation control technology, a new type of control for brushless doubly-fed VSCF wind power generation system connected to grid is developed. The doubly-fed control is adopted in this system, and the voltage compensate is avoiding for the PWM current-tracing control is used in the inner ring. By means of controlling the control winding of wind turbine this control system the AC excitation is implemented, and then the decoupling control of active and reactive power is realized, eventually the generating operation mode with high efficiency that can capture maximal wind energy is come true. Simulation results verify the availability and validity of the proposed control strategy.
13 citations
Related Topics (5)
Performance Metrics
| Year | Papers |
|---|---|
| 2019 | 1 |
| 2018 | 2 |
| 2017 | 2 |
| 2016 | 2 |
| 2014 | 2 |
| 2013 | 3 |