Autonomous Demand-Side Current Scheduling of Parallel Buck Regulated Battery Modules

Abstract: This paper presents the algorithms, hardware overview and testing results for controlling discharge currents from mixed battery modules placed in a parallel configuration. Battery modules with different open-circuit voltage (OCV), internal impedance or even state of charge (SOC) between modules are usually used to form a battery pack. Parallel placed mixed battery modules are typically seen in second-life, repurposed or exchangeable battery systems to increase power and energy storage capacity of a battery pac… Show more

“…However, the transformer design is more complicated, and there are magnetic saturation problems, resulting in large volume, difficulty modularising, and relatively high cost and difficulty to expand. Topologies based on the buck, boost or other converters [26][27][28] can realise the bidirectional flow of energy, with high balancing efficiency and fast balancing speed, but it still has the disadvantages of large volume, complicated control and high cost.…”

Integrated balancing method for series‐parallel battery packs based on LC energy storage

“…However, the transformer design is more complicated, and there are magnetic saturation problems, resulting in large volume, difficulty modularising, and relatively high cost and difficulty to expand. Topologies based on the buck, boost or other converters [26][27][28] can realise the bidirectional flow of energy, with high balancing efficiency and fast balancing speed, but it still has the disadvantages of large volume, complicated control and high cost.…”

Integrated balancing method for series‐parallel battery packs based on LC energy storage

Distributed Control of Second Life Batteries in a Parallel Connected Network