With the unending transformation of battery technology, new opportunities are emerging for beginners to learn about battery management systems.
The course offers learners a guide to the battery management system and expounds on every battery management system block and key practical blocks.
What is a Battery Management System?
It is a crucial part of the battery pack that protects the battery from damages during its operations. It also measures and reports vital information about the battery. The system has a protection device known as a dedicated Lithium-ion protector that ensures battery charge does not go below its charging limits.
The protector also detects a voltage cell that exceeds its limits, opens the charge MOSFET chip to discontinue its charge. Once the charge has reduced its effects, the chip switch closes again. The same applies when the cell drains to a specific voltage; the protector opens MOSFET to dismiss the drain. The battery management system is essential for energy management.
What Battery Management System Course Entails?
The course has specific learning objectives. By the end of the course, the learner will have the following Battery Management System concept:
- Know the definition of Battery Management System
- Understand Battery Management System functionalities and components
- Understand factors that influence a battery: switch box and fuse, balancing systems, and BMS topologies.
- Link battery terminologies with several definitions
- Know the primary function of BMS of protecting the battery
- Know BSM’s secondary function as maximizing the battery capacity
- How to monitor the battery system’s state through the calculation of secondary data
The Battery Management System course will offer a firm understanding of Lithium-ion Cell functionalities and terminologies, not forgetting BMS requirements and specializations.
The Battery Management System Syllabus Entails:
The syllabus is about protecting over current, short circuit, under-voltage, open circuits, and overvoltage. It also entails:
- Health Monitoring
- Thermal Management
- Analog and Digital Output Control
- Intelligent Cell Balancing
- Charge State Monitoring
- Cell Chemistries Compatibility
Different people understand Battery Management systems differently. For some, BMS is about battery monitoring, checking essential operational parameters like voltages and battery ambient and core temperature during charging and discharging. In case any operating parameter is at fault during charging, monitoring circuits provide inputs to protect the device from danger or disconnecting the battery.
For Power engineers who are accountable for standby power whose battery is dependable in case of a power blackout or network outage in telecommunication, Battery Management System is vital. The system is essential for protecting and managing batteries, keeping them ready to deliver full power when needed, and assuring their longevity. The process includes everything from proper management to controlling its charging system.
Automotive engineers regard Battery Management System as an elegant Energy Management System that must interface with other systems like climate control, safety systems, engine management, and communications.
What Does a Battery Management System Engineer Do?
They are responsible for designing all types of batteries like Lithium-ion and Alkaline batteries. The engineer’s work is to formulate a cell energy system in different designs using anodes, electrodes, and cathodes. They also research innovative energy materials, find the appropriate energy sources, fabricate electrochemical cells, and work with technicians to complete tasks.
Battery Management System Engineer Schooling and Training
Education and experience are the essential qualifications for one to become a BMS engineer. To work in most battery companies, you require a master’s in Chemistry, Engineering, or a relevant study field; the educational journey begins with a bachelor’s degree in Battery Management System or a similar study field.
During your schooling and training, you will learn how different materials of anodes, electrodes, and cathodes impact an energy system. You will get a clear understanding of data analysis techniques, the benefits of working with electrochemical cells, and why it is essential to have communication skills.
What are Battery Management System Prospects?
As technology is increasing awareness in the power and energy sectors, there is also an increase in environmental pollution. Many companies are adopting insightful energy strategies to survive in competition and maintenance of their monopoly. They are using smart metering and grids to manage their power services.
The Battery Management System market is increasing as there is a high investment in the project stimulating its market growth. Growing renewable sources and energy demand also grows the BMS market.