MAX32652
Ultra-Low-Power Arm Cortex-M4 with FPU-Based Microcontroller (MCU) with 3MB Flash and 1MB SRAM
Show MoreDARWIN Generation UP MCUs Are Built to Run Big Applications from Small Batteries
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- Ultra Efficient Microcontroller for Battery-Powered Applications
- 120MHz Arm Cortex-M4 with FPU
- SmartDMA Provides Background Memory Transfers with Programmable Data Processing
- 120MHz High-Speed and 40MHz Low-Power Oscillators
- 7.3728MHz Low Power Oscillators
- 32.768kHz and RTC Clock (Requires External Crystal)
- 8kHz, Always-on, Ultra-Low-Power Oscillator
- 3MB Internal Flash, 1MB Internal SRAM
- 104µW/MHz Executing from Cache at 1.1V
- Five Low-Power Modes: Active, Sleep, Background, Deep-Sleep, and Backup
- 1.8V and 3.3V I/O with No Level Translators
- Scalable Cached External Memory Interfaces:
- 120MB/s HyperBus/Xccela DDR Interface
- SPIXF/SPIXR for External Flash/RAM Expansion
- 240Mbps SDHC/eMMC/SDIO/microSD Interface
- Optimal Peripheral Mix Provides Platform Scalability
- 16-Channel DMA
- Three SPI Master (60MHz)/Slave (48MHz)
- One QuadSPI Master (60MHz)/Slave (48MHz)
- Up to Three 4Mbaud UARTs with Flow Control
- Two 1MHz I2C Master/Slave
- I2S Slave
- Four-Channel, 7.8ksps, 10-bit Delta-Sigma ADC
- USB 2.0 Hi-Speed Device Interface with PHY
- 16 Pulse Train Generators
- Six 32-bit Timers with 8mA Hi-Drive
- 1-Wire® Master
- Trust Protection Unit (TPU) for IP/Data and Security
- Modular Arithmetic Accelerator (MAA), True Random Number Generator (TRNG)
- Secure Nonvolatile Key Storage, SHA-256, AES-128/192/256
- Memory Decryption Integrity Unit, Secure Boot ROM
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 micro controllers.
Generation UP microcontrollers are designed to handle the increasingly complex applications demanded by today’s advanced battery-powered devices and wireless sensors. The MAX32650–MAX32652 are ultra-low power memory-scalable microcontrollers designed specifically for high-performance, battery-powered applications. They are based on Arm® Cortex®-M4 with FPU CPU with 3MB flash and 1MB SRAM. Memory scalability is supported with multiple memory-expansion interfaces, including a HyperBus™/Xccela™ DDR interface and two SPI execute in place (SPix) interfaces. A secure digital interface supports external high-speed memory cards, including SD, SDIO, MMC, SDHC, and microSD™.
Power-management features provide five low-power modes for clock, peripheral, and voltage control. Individual SRAM banks of 32KB, 96KB, or 1024KB (full retention) can be retained with reduced power consumption. A SmartDMA performs complex background processing while the CPU is off to dramatically reduce overall power consumption.
The MAX32651 is a secure version with a trust protection unit (TPU) which provides a modular arithmetic accelerator (MAA) for fast ECDSA, an AES engine, TRNG, SHA-256 hash, and secure bootloader. A memory decryption integrity unit (MDIU) provides on-the-fly data decryption (plain or executable) stored in external flash.
The MAX32652 is packaged in a high-density, 0.35mm pitch, 140-bump WLP targeted for tiny form factor products that require high I/O counts.
Applications
- Industrial Sensors, IoT
- Sports Watches, Fitness Monitors
- Wearable Medical Patches, Portable Medical Devices
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MAX32652
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MAX32650-MAX32652: Ultra-Low-Power Arm Cortex-M4 with FPU-Based Microcontroller (MCU) with 3MB Flash and 1MB SRAM Data Sheet (Rev.7)
User Guide
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ADI has always placed the highest emphasis on delivering products that meet the maximum levels of quality and reliability. We achieve this by incorporating quality and reliability checks in every scope of product and process design, and in the manufacturing process as well. "Zero defects" for shipped products is always our goal. View our quality and reliability program and certifications for more information.
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May 14, 2019
- 1957
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- 1957
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Software & Part Ecosystem
Evaluation Kits 3
MAX32650FTHR
Evaluation Kit for the MAX32650
Product Detail
The MAX32650FTHR EV kit provides a platform for evaluating the capabilities of the MAX32650 ultra-low-power memory-scalable microcontroller designed specifically for high-performance, battery-powered applications.
Applications
- Industrial Sensors, IoT
- Sports Watches, Fitness Monitors
- Wearable Medical Patches, Portable Medical Devices
MAX32650-EVKIT
Evaluation Kit for the MAX32650/MAX32651/MAX32652
Product Detail
The MAX32650/MAX32651 EV kits provide a platform for evaluating the capabilities of the MAX32650/MAX32651 ultra-low power memory-scalable microcontroller designed specifically for high performance battery powered applications.
Applications
- Industrial Sensors, IoT
- Sports Watches, Fitness Monitors
- Wearable Medical Patches, Portable Medical Devices
Resources
MAX32651-EVKIT
Evaluation Kit for the MAX32650/MAX32651/MAX32652
Product Detail
The MAX32650/MAX32651 EV kits provide a platform for evaluating the capabilities of the MAX32650/MAX32651 ultra-low power memory-scalable microcontroller designed specifically for high performance battery powered applications.
Applications
- Industrial Sensors, IoT
- Sports Watches, Fitness Monitors
- Wearable Medical Patches, Portable Medical Devices
Resources