Ultra Low Power Microcontrollers
Analog Devices’ ultra low power (ULP) microcontroller allows edge nodes to intelligently process localized data with the smallest amount of system power needed. This allows customers to extend battery life and extend the time between charges allowing longer use. Smaller battery sizes and longer time between in-field product replacements provide cost saving for our customers.
ULP Microcontrollers (MCUs) and sensor signal processors utilize ARM®-Cortex® processor cores with integrated power management for processing, control, and connectivity. Some of our ultra low power technology such as SensorStrobe™ enable over 10X system power savings when combined with Analog Devices’ digital sensors and ultra low power transceivers. They offer robust features for high volume applications and security features for IP protection.
Our ultra low power MCUs offer intelligence at the edge nodes for IoT Applications by allowing local decision making to happen at the node allowing only the most important data to be sent to the cloud.
Latest Resources
Product Highlight
Application Notes
- MAXQ Microcontroller Interrupt Programming
- Getting started with MAX-IDE
- Maxim Integrated PPG Algorithms Specifications
- How to Generate PWM Waveforms Using Timer B on MAXQ Microcontrollers
- Using the Serial Port on the MAXQ610 Microcontroller
Videos
- Sustainability through Ethernet Connected Building Controllers
- Embrace the Digital Enterprise with Smart Factory Sensors
- Elevate Surveillance with Cameras that See, Sense and Think
- Unboxing the Health Sensor Platform 4.0 (HSP4.0) / MAXREFDES106
- High-Reliability, Tiny, Ultra-Low-Power Arm Cortex-M4F Microcontroller with 12-Bit 1MSPS ADC
Design Notes
- MAXQ® to the Rescue: A Multimeter Gets a New Lease on Life
- In-Application Programming of Sector Erasable Program, and Data Flash in a MAXQ Microcontroller
- Implementing Secure Authentication Without Being a Cryptography Expert
- Using the uIP Stack to Network a MAXQ Microcontroller
- Security System Control with the MAXQ2000
Technical Articles
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How to Design Motor Encoders for Next-Generation Sustainable Applications
Analog Dialogue
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Simplifying TWS Earbud Designs with 1-Wire Connectivity
Analog Dialogue
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IBIS Modeling—Part 3: How to Achieve a Quality Level 3 IBIS Model Through Bench Measurement
Analog Dialogue
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How to Accelerate Peripheral Monitoring in Low Power Wearables with DMA
Analog Dialogue
- Face Identification Using MAX78000