Innovation and safety are at the core of everything we develop at VJIntellia. Designed, engineered and extensively tested by VJIntellia's in-house team of Engineers, we are proud to bring to market state-of-the-art BMS.   
Here are the important features of our BMS:

• Active Cell Balancing:
  Actively balances the voltage of individual cells during charging and discharging to ensure uniform charge levels, maximizing the overall capacity and lifespan of the battery pack.
• Dynamic Balancing:
  Adjusts the balancing process dynamically based on the state of charge (SOC) and cell voltages, optimizing the balancing efficiency under different operating conditions.
• Real-time Monitoring:
  Provides real-time monitoring of each cell's voltage and state of charge, allowing for precise control and timely intervention to prevent overcharging or over-discharging.
• Energy Efficiency:
  Enhances the overall energy efficiency of the battery pack by redistributing energy among cells, minimizing losses due to imbalances.
• Reduced Heat Generation:
  Helps to reduce heat generation within the battery pack by preventing overcharging of high-voltage cells and over-discharging of low-voltage cells.
• Improved Safety:
  Enhances safety by preventing overcharging, which can lead to thermal runaway and safety hazards, and over-discharging, which can damage cells and compromise performance.
• Adaptive Balancing Algorithms:
  Utilizes adaptive algorithms to optimize the balancing process based on the characteristics of the specific battery chemistry, improving efficiency and effectiveness.
• Voltage Threshold Adjustment:
  Allows for adjustment of voltage threshold settings for balancing, enabling customization based on the specific requirements and characteristics of the battery cells.
• Fault Detection and Handling:
  Incorporates fault detection mechanisms to identify issues with individual cells or the balancing circuitry and implements appropriate handling procedures to maintain overall system integrity.
• Scalability:
  Offers scalability to accommodate different battery pack configurations, chemistries, and sizes, ensuring compatibility with a variety of applications.
• Communication Interfaces:
  Provides communication interfaces for integration with external systems, allowing for seamless interaction with other components of the overall system.
• Self-diagnostic Capabilities:
  Includes self-diagnostic features that continuously monitor the health of the balancing system, detecting any anomalies and triggering appropriate responses.
• Cell Voltage Adjustment:
  Adjusts cell voltages actively to maintain optimal voltage levels, preventing underutilization or overutilization of specific cells.
Minimized Energy Dissipation:
Minimizes energy dissipation during the balancing process, ensuring that energy is used efficiently and reducing the need for additional cooling mechanisms.
• Predictive Maintenance Features:
  Utilizes predictive maintenance features to anticipate potential issues related to cell imbalances, allowing for proactive maintenance and minimizing the risk of unexpected failures.
• User Interface:
  Provides a user-friendly interface for monitoring the balancing process, individual cell voltages, and system status, enabling users to make informed decisions.