Algorithms for Battery Administration Techniques Specialization

WHAT YOU WILL LEARN

• How you can d​esign equivalent-circuit fashions for lithium-ion battery cells

• How you can implement state-of-charge (SOC) estimators for lithium-ion battery cells

• H​ow to implement state-of-health (SOH) estimators for lithium-ion battery cells

• H​ow to design balancers and power-limits estimators for lithium-ion battery packs

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SKILLS YOU WILL GAIN

• Design equivalent-circuit fashions for lithium-ion battery cells
• Implement state-of-charge estimators for lithium-ion battery cells
• Perceive how lithium-ion battery cells work and fundamental necessities of battery-management techniques
• Implement state-of-health estimators for lithium-ion battery cells
• Perceive balancing necessities and implement energy estimators for lithium-ion battery packs
• Perceive the necessities of a battery-management system
• Perceive how lithium-ion battery cells work
• How you can implement state-of-charge (SOC) estimators for lithium-ion battery cells
• H​ow to implement state-of-health (SOH) estimators for lithium-ion battery cells
• H​ow to design balancers and power-limits estimators for lithium-ion battery packs

About this Specialization

On this specialization, you’ll be taught the main features that have to be carried out by a battery administration system, how lithium-ion battery cells work and how one can mannequin their behaviors mathematically, and how one can write algorithms (laptop strategies) to estimate state-of-charge, state-of-health, remaining power, and out there energy, and how one can steadiness cells in a battery pack.

Utilized Studying Challenge

Learners will begin with equipped code templates (within the Octave/MATLAB language) to construct their very own code to simulate lithium-ion battery cells and packs, and to estimate battery cell state-of-charge, state-of-health (capability and resistance), remaining power, and out there energy.