BQ25185 all-in-one Li-Poly board with 3.3V out 🔋🌞⚡
We had a previous version of this 3.3V buck output board with an MCP73831, but now we've replaced it with a BQ25185, which makes it a little more flexible: Vin can be up to 18V, and solar panels will work, too. There's also a power path and 4.5V regulated output. This charger chip can handle LiFePO4, but for that chip, we might swap the buck for a buck-boost or a boost / LDO to get the solid 3.3V output. Coming soon.
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Why Is State of Charge (SOC) Important in Electric Vehicles?
State of Charge (SOC) indicates the available battery capacity in an electric vehicle and helps riders understand the remaining driving range. It plays an important role in battery management, charging efficiency, performance optimization, and overall battery health. Read more here to understand what State of Charge (SOC) is and why it matters in electric vehicles.
How Advanced Battery Technology Is Transforming Electric Motorcycles?
Advanced batteries are improving the performance of electric motorcycles through intelligent battery management, real-time monitoring, faster charging, enhanced safety, and longer battery life. These innovations help deliver greater efficiency, reliability, and a better riding experience as electric mobility continues to evolve. Read more here to understand the evolution of advanced batteries in electric motorcycles.
🚗💻 The Ultimate Guide to Automotive PCB Assembly: Building High-Reliability Electronics
In the era of autonomous driving, electric vehicles, and smart cockpits, a regular PCB simply won’t cut it. Automotive PCB Assemblies must survive extreme temperatures (-40°C to 125°C+), constant vibration, humidity, dust, and electromagnetic interference — while delivering flawless performance for 10–20 years.
This in-depth guide breaks down everything you need to know:
✅ Specialized materials & characteristics (Thick Copper >3oz, High-Tg, HDI, Flex-Rigid, Ceramic PCBs)
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Whether you're an automotive electronics engineer, EV product developer, or supply chain professional, this guide will help you avoid costly mistakes and build safer, more reliable systems.
Mouser Electronics, the industry's leading NPI distributor with the widest selection of semiconductors and electronic Battery Monitor.
Texas Instruments new BQ79716B-Q1 battery monitor is designed to enhance EV range estimation accuracy, helping automakers improve battery performance, safety, and reliability. With advanced monitoring and diagnostics capabilities, the solution enables more precise battery management—giving drivers greater confidence and supporting the next generation of electric mobility.
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The Solar Charge Controller IC Market is experiencing significant growth as the adoption of solar energy systems continues to expand across residential, commercial, industrial, and off-grid applications. Solar charge controller integrated circuits (ICs) play a crucial role in regulating power flow between solar panels, batteries, and connected loads, ensuring efficient energy management and system protection. Increasing investments in renewable energy infrastructure and the growing demand for reliable power management solutions are driving market expansion.
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Growing Demand for Efficient Solar Power Management
As solar energy installations continue to increase worldwide, the need for advanced power control technologies is becoming more important. Solar charge controller ICs help optimize battery charging, prevent overcharging and deep discharge, and improve overall system performance. Their ability to enhance energy efficiency and prolong battery life is supporting widespread adoption across various solar applications.
Key Points
Rising adoption of solar energy systems is driving market growth.
Increasing demand for efficient battery management solutions is supporting expansion.
Solar charge controller ICs improve energy utilization and system reliability.
Growing investments in renewable energy projects are creating new opportunities.
Continuous advancements in semiconductor and power management technologies are strengthening market development.
Technological Advancements Driving Innovation
Manufacturers are focusing on developing highly efficient, compact, and intelligent charge controller ICs capable of supporting modern solar energy systems. Innovations in power conversion, maximum power point tracking, and integrated monitoring functions are enhancing system performance and operational efficiency. These advancements are enabling solar equipment manufacturers to deliver more reliable and cost-effective energy solutions.
Future Outlook
The future of the Solar Charge Controller IC Market appears highly promising as renewable energy adoption continues to accelerate globally. Increasing deployment of solar installations, advancements in energy storage technologies, and growing emphasis on sustainable power generation are expected to support long-term market growth. Industry participants are likely to focus on innovation, efficiency improvements, and product integration to strengthen their competitive position and capitalize on emerging opportunities.
While the battery is the most important component of an electric vehicle, its performance and durability depend heavily on how it is managed
Electric vehicles are becoming a key part of the global shift toward sustainable transportation. While the battery is the most important component of an electric vehicle, its performance and durability depend heavily on how it is managed.