Overview of BQ7694000DBT by Texas Instruments
The BQ7694000DBT by Texas Instruments is a comprehensive solution for battery monitoring in systems using 9 to 15-series cell lithium-ion and lithium-phosphate batteries. Suitable for applications demanding precise voltage and current measurement capabilities, it supports a wide range of battery management functions. Encased in a 44-TSSOP package, it operates across a -40 to 85°C temperature range, making it versatile for various environmental conditions.
This IC is part of the broader BQ76940 family, designed for efficient power management in complex multi-cell battery packs. With features such as an adjustable detection threshold voltage of 0.7V, it provides flexibility in setting protection parameters tailored to specific application requirements. The BQ7694000DBT also boasts an impressive input voltage range of up to 75 V, offering compatibility with high-voltage battery systems. Additionally, its power supply support circuit classification underscores its capability to maintain reliable operation through variances in the power supply.
Industry Applications for BQ7694000DBT
The BQ7694000DBT could potentially find usage in a wide array with notable applications possibly including:
- Energy and Power Systems: These could benefit from the precise battery monitoring and management capabilities of the BQ7694000DBT, particularly in systems requiring efficient energy storage solutions.
- Renewable Energy Applications: Given its robust operating temperature range and high voltage tolerance, this part might be ideally suited for managing battery packs in solar power inverters or wind turbine energy storage systems, where reliability and efficiency are critical.
- Automotive Applications: Electric vehicles (EVs) and hybrid electric vehicles (HEVs) that rely on extensive battery packs for power could potentially utilize the BQ7694000DBT for battery management to ensure safety, longevity, and performance. Note that specific automotive compliance would need to be verified.
These potential industry applications are purely conceptual and illustrative. Actual implementation requires thorough analysis and verification by engineering and design teams to ensure compliance with relevant industry standards and specific requirements.
About Texas Instruments
Texas Instruments (TI) is a global semiconductor company that designs and manufactures semiconductors and various integrated circuits (ICs), which it sells to electronics designers and manufacturers globally. In the realm of power management circuits, TI has established itself as a leading supplier, offering a wide range of products that include battery management ICs, DC/DC converters, voltage regulators, and more. The BQ7694000DBT is a testament to TI’s innovative approach in developing advanced power management solutions that meet the rigorous demands of modern electronic devices and systems.
TI’s focus on Power Management Circuits has resulted in the creation of highly efficient, reliable, and feature-rich products that cater to a broad spectrum of applications. These solutions are designed to enhance performance, extend battery life, and enable more efficient power use, making them indispensable in today’s energy-conscious environment.
Where to Find BQ7694000DBT by Texas Instruments
For those looking to procure the BQ7694000DBT, it is recommended to start your search at findchips.com. This platform provides up-to-date information on stock availability, pricing from various distributors, and detailed part specifications. Historical data suggests that distributors such as Win Source Electronics, TME, Verical, Arrow Electronics, Mouser Electronics, and DigiKey have carried this part, but for current stock levels and pricing, directing your query to FindChips is advisable.
Furthermore, the extensive database at findchips.com also allows for comparison and exploration of alternative Power Management Circuits that might be offered by Texas Instruments or other manufacturers, ensuring that you can make the most informed decision based on your specific requirements.