References
- Abdel-Rahim, N. M., & Quaicoe, J. E. (1996). Analysis and design of a multiple feedback loop control strategy for single-phase voltage-source UPS inverters. IEEE Transactions Power Electronics, 11(4), 532–541. doi:10.1109/63.506118
- Akagi, H. (2005). Active harmonic filters. Proceedings IEEE, 93(12), 2128–2141. doi:10.1109/JPROC.2005.859603
- Arafat, M. N., Palle, S., Sozer, Y., & Husain, I. (2012). Transition control strategy between standalone and grid-connected operations of voltage-source inverters. IEEE Transactions on Industry Applications, 48(5), 1516–1525. doi:10.1109/TIA.2012.2210013
- Chen, Y., & Smedley, K. M. (2008). One-cycle-controlled three-phase grid-connected inverters and their parallel operation. IEEE Transactions on Industry Applications, 44(2), 663–671. doi:10.1109/TIA.2008.916718
- Eren, S., Pahlevani, M., Bakhshai, A., & Jain, P. (2014). An adaptive droop dc-bus voltage controller for a grid-connected voltage source inverter with LCL filter. IEEE Transactions Power Electronics, 30(2), 547–560. doi:10.1109/TPEL.2014.2308251
- Gudey, S. K., & Gupta, R. (2015). Sliding-mode control in voltage source inverter-based higher-order circuits. International Journal of Electronics, 102(4), 668–689. doi:10.1080/00207217.2014.936523
- Gyugyi, L. (1988). Power electronics in electric utilities: Static var compensators. Proceedings IEEE, 76(4), 483–494. doi:10.1109/5.4433
- Hinago, Y., & Koizumi, H. (2010). A single-phase multilevel inverter using switched series/parallel DC voltage sources. IEEE Transactions Industrial Electronics, 57(8), 2643–2650. doi:10.1109/TIE.2009.2030204
- Ho, B. M. T., & Chung, -H. S.-H. (2005). An integrated inverter with maximum power tracking for grid-connected PV systems. IEEE Transactions Power Electronics, 20(4), 953–962. doi:10.1109/TPEL.2005.850906
- Hui, S. Y. R., Lee, C. K., & Wu, F. F. (2012). Electric springs—a new smart grid technology. IEEE Transactions Smart Grid, 3(3), 1552–1561. doi:10.1109/TSG.2012.2200701
- Iov, F., Blaabjerg, F., & Hansen, A.-D. (2003). Analysis of a variable-speed wind energy conversion scheme with doubly-fed induction generator. International Journal of Electronics, 90(11–12), 779–794. doi:10.1080/00207210310001666438
- Kamel, A. M., & Ortmeyer, T. H. (2007). Harmonic reduction in single phase inverters using a parallel operation technique. International Journal of Electronics, 69(3), 403–419. doi:10.1080/00207219008920327
- Mao, H., Yang, X., Chen, Z., & Wang, Z. (2012). A hysteresis current controller for single-phase three-level voltage source inverters. IEEE Transactions Power Electronics, 27(7), 3330–3339. doi:10.1109/TPEL.2011.2181419
- Rymarski, Z. (2009). Design method of single-phase inverters for UPS systems. International Journal of Electronics, 96(5), 521–535. doi:10.1080/00207210802696126
- Swaroop, D., Hedrick, J. K., Yip, P. P., & Gerdes, J. C. (2000). Dynamic surface control for a class of nonlinear systems. IEEE Transactions on Automatic Control, 45(10), 1893–1899. doi:10.1109/TAC.2000.880994
- Trigg, M. C., Dehbonei, H., & Nayar, C. V. (2008). Digital sinusoidal PWMs for a micro-controller based single-phase inverter, part 1: Principles of digital sinusoidal PWM generation. International Journal of Electronics, 95(8), 819–840. doi:10.1080/00207210802180261
- Veerachary, M., Senjyu, T., & Uezato, K. (2002). Neural network-based feedforward maximum power point tracking control for IDB converter-supplied PV system. International Journal of Electronics, 89(5), 403–420. doi:10.1080/713810389
- Wai, R.-J., Lin, C.-Y., Huang, Y.-C., & Chang, Y.-R. (2012). Design of high-performance stand-alone and grid-connected inverter for distributed generation applications. IEEE Transactions Industrial Electronics, 60(4), 1542–1555. doi:10.1109/TIE.2012.2216232
- Wai, R.-J., Lin, C.-Y., Huang, H.-N., & Wu, W.-C. (2013). Design of backstepping control for high-performance inverter with stand-alone and grid-connected power-supply modes. IET Power Electronics, 6(4), 752–762. doi:10.1049/iet-pel.2012.0579