(PV) Rural Home Power Inverter using FPGA Technology
T. L. N. Tiruvadi1, S. Venkatesh2, K. V. Suneel3, A. Rama Krishna4

1T.L.N.Tiruvadi, Final Year B.Tech, Ece, K L Univeristy, Vaddeswaram, Ap, India.
2S.Venkatesh, Final Year B.Tech, Ece, K L Univeristy, Vaddeswaram, Ap, India. K.V.Suneel, Final Year B.Tech, Ece,
3K L Univeristy, Vaddeswaram, Ap, India.
4A.Rama Krishna, Assistant Professor B.Tech, Dept. Of ECM, K L University, Vaddeswaram, AP, India.
Manuscript received on March 11, 2013. | Revised Manuscript Received on March 12, 2013. | Manuscript published on March 25, 2013. | PP: 5-9 | Volume-1, Issue-6, April 2013. | Retrieval Number: E0214031513/2013©BEIESP
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© The Authors. Published By: Blue Eyes Intelligence Engineering and Sciences Publication (BEIESP). This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/)

Abstract: With the increasing concern about global environmental protection and energy demand due to rapid growth of population in developing countries and the diminishing trend of resources of conventional grid supply, the need to produce freely available pollution free natural energy such as solar/wind energy has been drawing increasing interest in every corner of the world. In an effort to utilize these energies effectively through Power converter, a great deal of research is being carried out by different researchers / scientist and engineers at different places in the world to meet the increasing demand of load . The study presents methodology to integrate solar (PV) energy (which is freely available in every corner of the world) with grid source and supplement the existing grid power in rural houses during its cut off or restricted supply period. In order to get consistency in supply a DG is also added as a standby source in the proposed integration of network. The software using novel Direct PWM modulation strategy and its soft control features extend the flexibility to control converter (inverter) parameters like voltage, frequency, number of samples of PWM pulses constituting sine-wave without changing any hardware configuration in the circuit. The system simulation of PWM Pulse generation has been done on a XILINX based FPGA Spartan 3E board using VHDL code. The test on simulation of PWM generation program after synthesis and compilation were recorded and verified on a prototype sample.
Keywords: (PV), DG, PWM, XILINX, FPGA, VHDL.