In Part 2, we’ll explore the implementation details of a fast-charging system with parallel batteries using evaluation kits and a Raspberry Pi board. Steps to take for evaluating charging systems.

This is probably fairly straightforward for an EE to weigh in on so I thought I’d post this question here for posterity in the hopes that it’ll solve the issue for other designers. The challenge is ...

I have a main circuit board in a machine that over a year or two eventually drains a 3.6v lithium AA size down to 1.4V. This battery has a wire soldered at each end which is then soldered to two ...

POWR2 is preparing to unveil a new energy storage technology that will allow users of the energy storage solution, the POWRBANK, to run multiple batteries in parallel. Traditionally, batteries could ...

The increasing demand for higher energy storage capacity in healthcare environments has led to the adoption of parallel battery configurations in various industries. These configurations offer ...

Massachusetts-based 24M Technology’s “SemiSolid” design reduces dead weight in a bid to boost range, lower costs.

At some point, the 3.6 V of a single lithium ion battery just won’t do, and you’ll absolutely want to stack LiIon cells in series. When you need high power, you’ve either got to increase voltage or ...