Increase Battery Performance

Drive further,
charge faster

No matter the electric vehicle, battery pack capacity and shortest charging time will always be top priorities.
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Increase Battery Performance
Challenges to PerformanceOptimizing Battery DesignPractical Solutions
Explore Qoolers BTMS

Challenges limiting battery pack performance

The electrolyte determines all kinetic aspects of any battery cell

Electrolyte is the most important part of electrochemical battery cell that determines the speed of charging and discharging, the kinetic losses of OCV that are inevitable, the quality and pertinence of interfaces and overall safety.

The battery pack architecture determines the final parameters

The architecture of battery pack significantly affects the capacity, charging and discharging speed of electric vehicles. Factors such as cell arrangement, thermal management, mechanical design, and BMS control play crucial roles in optimizing performance and safety. Effective battery pack design not only allows for greater capacity and longer range but also enables safe and fast charging and discharging without compromising the battery’s lifespan or safety.

Battery Degradation

Our technology actively manages battery temperature, reducing thermal stress and slowing degradation. This is achieved through advanced cooling mechanisms and smart temperature regulation, prolonging battery life and maintaining performance over time.

Overheating in High-Performance Models

Incorporating state-of-the-art cooling systems, our solution dissipates heat effectively during high-load conditions. This ensures optimal battery temperature, preventing overheating and safeguarding against performance drops in high-performance vehicles.

Inefficient Energy Use

By maintaining an ideal operating temperature, our technology enhances energy efficiency. This leads to more effective power usage, extending driving ranges and reducing the need for frequent recharging, a vital aspect for electric vehicles.

Rapid Technology Obsolescence

Designed for adaptability, our thermal management system is compatible with emerging battery technologies and evolving automotive designs, ensuring long-term relevance and utility in a rapidly advancing industry.

Environmental Compliance

Our solution leverages eco-efficient design principles, reducing energy waste and emissions. It aligns with environmental standards and assists manufacturers in meeting sustainability targets while maintaining high performance.

Manufacturing Inefficiencies

With a modular and flexible design, our thermal management system can be easily integrated into various manufacturing processes. This streamlines production, reduces lead times, and enhances overall manufacturing efficiency in the automotive industry.

Select the type of battery cell wisely and focus on advanced management

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Battery Management System

Battery Management System (BMS) is responsible for six main functions that work together to maximize the capacity, efficiency, and safety of the battery pack, addressing different levels of management, protection, and optimization.

Cell balancing focuses on equalizing the voltage between individual cells to ensure they operate evenly.
State of Charge Management monitors and optimizes the overall charge level of the battery pack
Voltage and Current Control ensures safe regulation of voltage and current during charging and discharging.
State of Health Monitoring continuously tracks thebattery's condition to adjust charging and discharging strategies, maximizinglongevity and performance.
Safety Features protect the battery from extreme conditions like overheating, overcharging, or short circuits, ensuring safe operation.
Software and Control Algorithms optimize charging and discharging processes in real-time, using predictive models to improve efficiency and adapt to battery conditions.
02

Advanced Thermal Management

Fast charging and discharging generates a large amount of heat. A well-designed advanced battery thermal management system is responsible for dissipating excess heat, keeping the battery as close to the ideal operating temperature as possible and providing uniform heat distribution across the entire battery pack.

Dissipation of excess heat generated during fast charging and discharging is essential function that prevents overheating and protects the battery cells from thermal stress.
Maintaining the ideal operating temperature in the battery pack maximises its efficiency and performance without compromising battery lifespan.
Uniform heat distribution with minimal temperature variation between individual batteries in the battery pack prevents local overheating and subsequent loss of performance and overall battery capacity.
Active temperature monitoring and management is able to react quickly to the occurrence of excessive overheating and prevent thermal runaway.
How the BTMS contributes to

Boost your battery performance with the BTMS

Provide the driver with a better driving experience on a carefree journey.

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Maintains the optimum temperature of all battery cells.
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Ensures even heat distribution across the entire battery pack.
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Quickly adapts battery temperature to current conditions.

Boost your battery performance with the BTMS

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Explore Qoolers BTMS
the challenges of electric vehicles

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Increased Battery Performance

Enhanced Safety & Reliability

Improved Operating Efficiency

Reduced Dimensions & Weight