The document appears to be notes from May 13, 2015 about something new. It includes a date, the word "NEW", and a file path indicating it may be meeting notes or a memo from that date.
This document describes a simplified SPICE behavioral model for lithium-ion batteries. The model characterizes the battery using parameters like capacity and state of charge. It accounts for characteristics like charge/discharge time at different current rates and voltage versus state of charge. Examples are provided to model specific battery specifications and extend the model to multiple battery cells in series.
This document describes a simplified SPICE behavioral model for lithium-ion batteries. The model allows circuit designers to predict battery runtime and performance by modeling voltage over time at different charge and discharge rates. Key parameters like capacity, state of charge, and number of cells can be adjusted based on battery specifications. Examples are provided to demonstrate modeling charge/discharge times and voltage curves for sample battery configurations.
The document appears to be notes from May 13, 2015 about something new. It includes a date, the word "NEW", and a file path indicating it may be meeting notes or a memo from that date.
This document describes a simplified SPICE behavioral model for lithium-ion batteries. The model characterizes the battery using parameters like capacity and state of charge. It accounts for characteristics like charge/discharge time at different current rates and voltage versus state of charge. Examples are provided to model specific battery specifications and extend the model to multiple battery cells in series.
This document describes a simplified SPICE behavioral model for lithium-ion batteries. The model allows circuit designers to predict battery runtime and performance by modeling voltage over time at different charge and discharge rates. Key parameters like capacity, state of charge, and number of cells can be adjusted based on battery specifications. Examples are provided to demonstrate modeling charge/discharge times and voltage curves for sample battery configurations.