MAX32690 Datasheet

• Ultra-Efficient Microcontroller for Battery-Powered Applications
  • 120MHz Arm Cortex-M4 Processor with FPU
  • Ultra-Low-Power, 32-Bit RISC-V (RV32) Coprocessor Available to Offload Data Processing
  • Multiple Internal Low-Power Oscillators
  • 32.768kHz RTC Clock (Requires External Crystal)
  • 3.25MB Internal Flash, 1MB Internal SRAM
  • 85μW/MHz ACTIVE Mode at 1.1V
  • 1.8V and 3.3V I/O with No Level Translators
  • External Flash and SRAM Expansion Interfaces
• Bluetooth 5.2 LE Radio
  • Fully Open-Source Bluetooth 5.2 Stack Available
  • High-Throughput (2Mbps) Mode
  • Long-Range (125kbps and 500kbps) Modes
  • Rx Sensitivity: -97dBm; Tx Power: +4.5dBm
  • Single-Ended Antenna Connection (50Ω)
  • 32MHz External Crystal Required
• Optimal Peripheral Mix Provides Platform Scalability
  • 16-Channel DMA
  • Up to Five Quad-SPI Controllers/Targets
  • Up to Four UARTs with Flow Control
  • Up to Three I²C Interfaces
  • I²S Interface
  • Up to Eight External Channel, 12-Bit 1Msps SAR ADCs with Temperature Sensor Channel
  • USB 2.0 Hi-Speed Device
  • Up to 16 Pulse Train Engines
  • Up to Four 32-Bit/Dual 16-Bit Timers with 8mA High Drive
  • Up to Two 32-Bit/Dual 16-Bit Low-Power Timers
  • Two CAN 2.0B Controllers
  • Up to Four Micropower Comparators
  • 1-Wire Controller
• Cryptographic Tool Box (CTB) for IP/Data Security
  • AES-128/192/256, SHA-2 Engine, MAA, TRNG
• Extensive Security Features
  • Arm Memory Protection Unit (MPU)
  • Memory Decryption Integrity Unit (MDIU) for External SPI Memory
  • Physically Unclonable Function (PUF)
  • 128-Bit Unique Serial Number (USN)
• Optional Secure Communications Protocol Bootloader (SCPBL)

• Fitness/Health Wearables
• Portable and Wearable Wireless Medical Devices
• Asset Tracking
• Industrial Sensors and Networks

The MAX32690 microcontroller (MCU) is an advanced system-on-chip (SoC) featuring an Arm^® Cortex^®-M4F CPU, large flash and SRAM memories, and Bluetooth^® 5.2 Low Energy (LE) radio. This device unites processing horsepower with the connectivity required for IoT applications.

The MAX32690 is qualified to operate over the -40°C to +105°C range, which is ideal for industrial environments. This device is available in 68-pin TQFN-EP (0.40mm pitch), 140-bump WLP (0.35mm pitch), and 144-CTBGA (0.8mm pitch) packages.

The integrated Bluetooth 5.2 Low Energy (LE) radio supports long-range (coded) and high-throughput modes. A RISC-V core optionally handles timing-critical controller tasks, freeing the programmer from Bluetooth LE interrupt latency concerns.

Internal code and SRAM space can be expanded offchip through two quad-SPI execute-in-place (SPIXF and SPIXR) interfaces up to 512MB each.

A cryptographic toolbox (CTB) provides a modular arithmetic accelerator (MAA), advanced encryption standard (AES) engine, TRNG, and SHA-2 engine. The device also provides extensive security features including a 128-bit unique serial number (USN), physically unclonable function (PUF), secure nonvolatile key storage, a memory decryption integrity unit (MDIU) for SPIXF and SPIXR, and the Arm memory protection unit (MPU). The optional secure communications protocol boot loader (SCPBL) provides an immutable root of trust, secure boot with flash integrity validation using ECDSA, and secure firmware update ability.

Many high-speed interfaces are supported on the device, including multiple QSPI, UART, CAN 2.0B, and I²C serial interfaces, plus one I²S port for connecting to an audio codec. Most interfaces support DMA-driven transfers between memory (flash or SRAM) and a peripheral. A 12-input (8 external), 12-bit SAR ADC samples analog data at up to 1Msps.