Battery Management Module with Active Balancing and Cell Switching
Citation
GÖKSU, Ömer Faruk & Revna ACAR VURAL. "Battery Management Module with Active Balancing and Cell Switching". 6th International Conference on Control Engineering & Information Technology (CEIT), 25-27 October 2018, Istanbul, Turkey, (2018).Abstract
The lithium ion type battery has become
commercially more popular than the traditional battery and the
usage market has increased. The main reason for this expansion
and increase is that it has a high voltage value and a high energy
density in a single cell. In addition to having these advantages,
lithium ion batteries have usage limits. These limits are values
such as operating voltage values, continuous current values,
operating temperature. The use of battery cells outside the limits
of use can shorten the life of the battery cells, leading to
undesirable problems such as fire and explosion. These limits
must be observed on the BMS and the operation of the battery
cells within the safe limits must be guaranteed by the BMS. The
proposed study includes a module design for battery
management system that allows cell-based opening and closing of
the battery pack and allows charging of the cells during use. The
components have been chosen for low power consumption. The
proposed structure is designed together with the charging unit.
Power of module has been provided from its own battery cells.
With the designed module and software, a battery pack with 8
battery cells can be created. Serial connected modules
communicate with each other and can communicate with the user
via serial communication if battery cell information is requested.
It also decides on the charging of the series connected cells after
the data received from all the modules. As a result of the tests
made, it was seen that this module, which was created for the use
of modular structures in BMS systems, increased the usage time
of the battery pack. In addition, the low voltage level required for
charging makes it possible to use many sources, from mobile
phone adapters to solar energy, as a charging source.