Large rural areas in some regions of the world are still grappling with the challenge of electrification. The optimal solution
is to provide reliable energy without adding more fossil fuel plants by using distributed renewable generation.
Microgrids are part of that solution; they are small networks of electricity users, with a local generator that is attached
to a centralized larger grid, but which is also able to function independently. They need to be robust and resilient in order
to provide reliable power, including in harsh climates. For remote areas microgrids have the advantage of offering an electricity
supply even if there are problems with the larger power grid. This book focuses on the challenges of rural
electrification, particularly in poorer regions. It covers low voltage DC distribution system for various applications including
charging of electric vehicles (EV). Written by a large team of authors with a wide range of relevant experiences, the book
addresses microgrid architectures, converters, energy storage, control, EV integration, business models and economic scheduling,
and the role of blockchain technology. The authors have used case studies to provide illustrative examples of the technologies
discussed and solutions proposed.