MAX32626 (5)
The MAX32626 is available from Analog Devices at Xecor. Designed for ultra-low-power applications in the Internet of Things (IoT), the MAX32626 offers high efficiency, robust security features, and scalable memory architecture. Available in 63-WLP (3.07x3.87) packages, it is ideal for fitness monitors, portable medical devices, sensor hubs, sports watches, and wearable medical patches. Whether used in wearable technology or advanced IoT applications, this series ensures optimal performance, energy efficiency, and data security for demanding environments. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the MAX32626 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| MAX32626ITK+T | Unlock new possibilities in IoT and embedded systems development with this highly capable microcontroller | WLP-63 | 5,484 | |
| MAX32626ITK+ | ARM Microcontrollers - MCU ENTERPRISE ARM M4 32 BIT SEC MICRO | TQFN EP | 6,124 | |
| MAX32626ITKBL+ | ARM-based Processor: '40 TQFN-68(8x8) ROHS Compliant Microprocessor with 1.14V~3.6V Operating Range | TQFN-68 | 6,096 | |
| MAX32626ITKBL+T | Compact 40-pin TQFN-68 package for space-constrained designs | TQFN-68 | 3,073 | |
| MAX32626IWY+T | ARM Microcontrollers - MCU ENTERPRISE ARM M4 32 BIT SECURE MIC | WLP-63 | 7,702 |
Key Featrues
High-Efficiency Core for Wearable Devices: The ARM Cortex-M4F core operates at up to 96MHz, enabling high-speed processing for applications like fitness monitors and wearable medical patches. Its low-power 4MHz oscillator option ensures efficient always-on monitoring, extending battery life in portable devices.
Advanced Power Management: With active currents as low as 49µA/MHz when executing from Flash and 600nA in low-power mode (LP0) with RTC enabled, this microcontroller maximizes uptime for battery-powered applications, making it ideal for long-duration wearable and IoT devices.
Robust Memory Architecture: Featuring 512KB of Flash memory and 160KB of SRAM, the microcontroller supports complex applications and data-intensive tasks, such as sensor hubs and sports watches, while maintaining high performance and scalability.
Comprehensive Connectivity Options: Integrated peripherals like SPI, I2C, UART, USB, and 1-Wire support seamless communication with external devices and sensors, enabling versatile use cases in portable medical devices and IoT ecosystems.
Enhanced Security Features: The inclusion of AES encryption, a True Random Number Generator, and a Secure Boot Loader ensures robust protection of sensitive data and intellectual property, making it suitable for secure applications in healthcare and wearable technology.
Advanced Power Management: With active currents as low as 49µA/MHz when executing from Flash and 600nA in low-power mode (LP0) with RTC enabled, this microcontroller maximizes uptime for battery-powered applications, making it ideal for long-duration wearable and IoT devices.
Robust Memory Architecture: Featuring 512KB of Flash memory and 160KB of SRAM, the microcontroller supports complex applications and data-intensive tasks, such as sensor hubs and sports watches, while maintaining high performance and scalability.
Comprehensive Connectivity Options: Integrated peripherals like SPI, I2C, UART, USB, and 1-Wire support seamless communication with external devices and sensors, enabling versatile use cases in portable medical devices and IoT ecosystems.
Enhanced Security Features: The inclusion of AES encryption, a True Random Number Generator, and a Secure Boot Loader ensures robust protection of sensitive data and intellectual property, making it suitable for secure applications in healthcare and wearable technology.
Applications
Wearable Health Monitor: The MAX32626 microcontroller is ideal for wearable health monitors, such as fitness bands and smartwatches, due to its ultra-low-power design and high-efficiency operation. Its 512KB flash memory and 160KB SRAM enable robust data processing and storage, while its 10-bit ADC ensures accurate sensor data acquisition from heart rate monitors, accelerometers, and other health-related sensors. The microcontroller's low-power modes extend battery life, making it perfect for continuous health monitoring applications.
Portable Medical Device: The MAX32626 is well-suited for portable medical devices, such as glucose meters or blood pressure monitors, thanks to its compact size, low power consumption, and secure hardware features. Its 32-bit ARM Cortex-M4F core ensures fast and reliable processing of medical data, while its built-in security features, like the Trust Protection Unit (TPU) and AES encryption, protect sensitive patient information. The microcontroller's wide operating temperature range (-30°C to +85°C) ensures reliable performance in various environments.
IoT Sensor Hub: The MAX32626 excels as an IoT sensor hub, capable of aggregating and processing data from multiple sensors, such as temperature, humidity, and motion sensors. Its SPI Execute in Place (SPIX) engine allows for memory expansion with minimal footprint, while its multiple communication interfaces (SPI, I2C, UART, and USB) enable seamless connectivity with other devices. The microcontroller's low-power modes and fast wakeup times make it ideal for battery-powered IoT applications requiring continuous sensor monitoring.
Industrial Sensor Interface: The MAX32626 is perfect for industrial sensor interfaces, where it can digitize and process signals from high-impedance sensors like strain gauges or thermocouples. Its 10-bit ADC and robust peripheral mix, including PWM engines and timers, ensure precise control and measurement in industrial environments. The microcontroller's wide supply voltage range (1.14V to 3.6V) and secure hardware features make it suitable for harsh industrial conditions, ensuring reliable and secure operation in critical applications.
Portable Medical Device: The MAX32626 is well-suited for portable medical devices, such as glucose meters or blood pressure monitors, thanks to its compact size, low power consumption, and secure hardware features. Its 32-bit ARM Cortex-M4F core ensures fast and reliable processing of medical data, while its built-in security features, like the Trust Protection Unit (TPU) and AES encryption, protect sensitive patient information. The microcontroller's wide operating temperature range (-30°C to +85°C) ensures reliable performance in various environments.
IoT Sensor Hub: The MAX32626 excels as an IoT sensor hub, capable of aggregating and processing data from multiple sensors, such as temperature, humidity, and motion sensors. Its SPI Execute in Place (SPIX) engine allows for memory expansion with minimal footprint, while its multiple communication interfaces (SPI, I2C, UART, and USB) enable seamless connectivity with other devices. The microcontroller's low-power modes and fast wakeup times make it ideal for battery-powered IoT applications requiring continuous sensor monitoring.
Industrial Sensor Interface: The MAX32626 is perfect for industrial sensor interfaces, where it can digitize and process signals from high-impedance sensors like strain gauges or thermocouples. Its 10-bit ADC and robust peripheral mix, including PWM engines and timers, ensure precise control and measurement in industrial environments. The microcontroller's wide supply voltage range (1.14V to 3.6V) and secure hardware features make it suitable for harsh industrial conditions, ensuring reliable and secure operation in critical applications.
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