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Maxim Features Battery Management

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Maxim Logo Low Power Prototyping Platform with Advanced Battery Management
Effective battery management is more important than ever. As portable applications extend into more industries, the demand for small, low-cost products with long battery life is increasing. Maxim's industry-leading battery management solutions include battery chargers, fuel gauges, battery monitors, battery selectors, and battery protectors—solutions that reduce cost, save space, and significantly extend the battery life of portable products.

Maxim's fuel gauges monitor remaining battery charge using the proprietary ModelGauge™ algorithm to provide the highest accuracy. SHA-256 authentication helps to prevent battery pack cloning. The battery charger ICs provide support for USB Type-C devices, meeting all Power Delivery (PD) 3.0 voltage range specifications. Together, these battery chargers and fuel gauges provide the efficiency, accuracy, and protection required to support Li+ battery applications.

DARWIN is a new breed of low-power microcontrollers built to thrive in the rapidly evolving Internet of Things (IoT). They are smart, with the biggest memories in their class and a massively scalable memory architecture. They run forever, thanks to wearable-grade power technology. They are also tough enough to withstand the most advanced cyberattacks. DARWIN microcontrollers are designed to run any application imaginable—in places where you would not dream of sending other microcontrollers.
Free Samples
MAX32620FTHR board The MAX32620FTHR board is a rapid development platform designed to help engineers quickly implement battery-optimized solutions with the MAX32620 Arm®Cortex®-M4 microcontroller with FPU. The board includes the MAX77650 ultra-low power PMIC and MAX17055 fuel gauge to provide efficient power conversion and battery management with minimal board space. The form factor is a small 0.9in x 2.0in dual-row header footprint that is compatible with breadboards and off-the-shelf peripheral expansion boards. In addition to the dualrow headers, there are also two 12-pin Pmod™-compatible socket connectors for more expansion options. Also on board are common user-interface peripherals including two RGB indicator LEDs and two pushbuttons. These provide a power-optimized flexible platform for quick proofs-of-concept and early software development to speed up time to market.
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MAX32620 MAX17055 MAX77650
MAX32620: High-Performance, Ultra-Low Power Arm Cortex-M4 with FPU-Based Microcontroller and ultra-low power cortex-M4 ideally suited for battery powered devices. MAX17055: 7µA 1-Cell Fuel Gauge with ModelGauge m5 EZ. Industry's lowest IQ fuel gauge with ModelGauge m5 EZ eliminates battery characterization. MAX77650: Ultra-Low Power PMIC with 3-Output SIMO and Charger Optimized for Small Li+. Highly-integrated battery charging and power solution for low-power, size-constrained applications.
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Featured Article
arrow Video: How to Measure Temperature in Portable Projects II - Using the MAX17055 Fuel Gauge arrow Choose the Right Battery Fuel Gauge for Fast Time-to-Market and Maximum Run-Time
arrow Video: SIMO Technology Overview using the MAX77650 PMIC arrow Hearables Get Longer Life with SIMO
arrow Video: Introducing the MAX32620FTHR Prototyping Platform arrow SIMO Switching Regulators: Extending Battery Life for Hearables and Wearables
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