Abstract
The detection of amplitude and phase information in single phase AC systems is quite challenging due to the lack of quadrature component, which is available in multi-phase AC systems.
Keywords
- Quadrature Components
- General Quadrature
- On-Line Electric Vehicle (OLEV)
- Harmonic Noise
- Good Noise Immunity
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
This is a preview of subscription content, log in via an institution.
Buying options
Tax calculation will be finalised at checkout
Purchases are for personal use only
Learn about institutional subscriptionsReferences
Choi BH, Lee SW, Yeo IY, Rim CT (2012) Fast and reliable phasor detectors for single phase AC systems by derivative quadrature generation. In: ECCE-Asia 2012, pp 609–614
Thapar A, Saha TK, Dong ZY (2004) Investigation of power quality categorisation and simulating it’s impact on sensitive electronic equipment. In: Power engineering society general meeting, IEEE, vol 1, pp. 528–533
Matsushita K et al (1996) Study for the performance of high speed switchgear for protection of in-house generation system. In: Industrial and commercial power systems technical conference, pp 91–95
Thacker T, Boroyevich D, Burgos R, Fei W (2011) Phase-locked loop noise reduction via phase detector implementation for single-phase systems. IEEE Trans Ind Electron 58(6):2482–2490
Shinnaka S (2008) A robust single phase PLL system with stable and fast tracking. IEEE Trans Ind Appl 44(2):624–633
Choi JW, Kim YK, Kim HG (2006) Digital PLL control for sing-phase photovoltaic system. In: IEE proceedings electric power applications, vol 153, no 1, pp 40–46
Shinnaka S (2011) A novel fast-tracking D-estimation method for single-phase signals. IEEE Trans Power Electron 26(4):1081–1088
Saitou N, Matsui M, Shimizu T (2003) A control strategy of single-phase active filter using a novel DQ transformation. Ind Appl Conf IAS 2:1222–1227
Huh J, Rim SW, Lee WY, Cho GH, Chun CT (2011) Narrow-width inductive power transfer system for online electrical vehicles. IEEE Trans Power Electron 26(12):3666–3679
Huh J, Lee SW, Park CB, Cho GH, Rim CT (2010) High performance inductive power transfer system with narrow rail width for on-line electric vehicles. In: Energy conversion congress and exposition (ECCE), pp 647–651
Huh J, Lee WY, Cho GH, Lee BH, Rim CT (2011) Characterization of novel inductive power transfer systems for on-line electric vehicles. In: Applied power electronics conference and exposition (APEC), pp 1975–1979
Lee SW et al (2010) On-line electric vehicle using inductive power transfer. In: Energy conversion congress and exposition (ECCE), pp 1598–1601
Silva SM, Lopes BM, Filho BJC, Campana RP (2004) Performance evaluation of PLL algorithms for single-phase grid-connected systems. Ind Appl Conf 4:2259–2263
Saitou M, Simizu T (2002) Generalized theory of instantaneous active and reactive powers in single-phase circuits based on Hilbert transform. In: IEEE Power Electronics Specialists Conference (PESC), pp 1419–1424
Silva SM, Arruda LN, Filho BJC (2000) Wide bandwidth single and three-phase PLL structures for frid-tied PV systems. In: Photovoltaic Specialists Conference, pp 1660–1663
Ciobotaru M, Teodorescu R, Blaabjerg F (2006) A new single-phase PLL structure based on second order generalized integrator, In: IEEE power electronics specialists conference (PESC), pp 1–6
Xiaomin Y, Merk W, Stemmler H, Allemeling J (2002) Stationary-frame generalized integrators for current control of active power filters with zero steady-state error for current harmonics of concern under unbalanced and distorted operating conditions. IEEE Trans. Ind Appl 38(2):523–532
Teodorescu R, Blaabjerg F, Borup U, Liserre M (2004) A new control structure for grid-connected LCL PV inverters with zero steady-state error and selective harmonic compensation. In: Applied power electronics conference and exposition (APEC), pp 580–586
Chung SK, Shin HB, Lee HW (2005) Precision control of single-phase PWM inverter using PLL compensation. In: IEE proceedings electric power applications, vol 152, no 2, pp 1350–2352
Nicastri A, Nagliero A (2010) Comparison and evaluation of the PLL techniques for the design of the grid-connected inverter systems. In: IEEE international symposium on industrial electronics (ISIE), pp 3865–3870
Ferreira RJ, Araujo RE, Pecas Lopes JA (2011) A comparative analysis and implementaion of various PLL techniques applied to single-phase grids. In: International youth conference on energetics (IYCE), pp 1–8
Rim Chun T (2011) Unified general phasor transformation for AC converters. IEEE Trans Power Electron 26(9):2465–2475
Zhongshen L (2007) Design and analysis of improved butterworth low pass filter. In: International conference on electronic measurement and instruments, pp 1729–1732
Budak A (1978) Circuit theory fundamentals and application. Prentice-Hall
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
Copyright information
© 2016 Springer Science+Business Media Singapore
About this chapter
Cite this chapter
Rim, C.T. (2016). Applications of Phasor Transformation to AC Circuits and Phasor Detectors. In: Phasor Power Electronics. KAIST Research Series. Springer, Singapore. https://doi.org/10.1007/978-981-10-0536-7_6
Download citation
DOI: https://doi.org/10.1007/978-981-10-0536-7_6
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-10-0535-0
Online ISBN: 978-981-10-0536-7
eBook Packages: EngineeringEngineering (R0)