Overview
Features and Benefits
- 3.5in 320 x 240 Color TFT Display
- 64MB HyperRAM
- 64MB XIP Flash
- 1MB XIP RAM
- USB 2.0 Micro B Interface
- USB 2.0 Micro B to Serial UARTs
- Selection with Jumpers Between UART0 and UART2
- Micro SD Card Interface
- Select GPIOs Accessed through 0.1in Header
- Access to the Four Analog Input Through 0.1in Header
- Arm® or SWD JTAG 20-Pin Header
- On-Board PMIC to Source Power for the MAX32650/MAX32651
- Board Power Provided by Either USB Port
- Individual Power Measurement on All IC Rails Through Jumpers
- On-Board 1.8V and 3.3V Regulators for Peripherals
- Two General-Purpose LEDs and Two General-Purpose Pushbutton Switches
Product Details
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
Markets and Technologies
Applicable Parts
Documentation & Resources
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MAX32650-EVKIT Gerber - Design Files11/7/2023ZIP630K
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Get to Know Arm Cortex-M4 Microcontroller Tutorial: Part 210/15/2024
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Get to Know Arm Cortex-M4 Microcontroller Tutorial: Part 110/15/2024
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Get to Know Arm Cortex-M4 Microcontroller Tutorial: Part 310/15/2024
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Using the LCD Controller on the MAX32650, Part 2: Why Timing is Everything8/13/2024
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Using the LCD Controller on the MAX32650, Part 4: Let’s Get Moving8/13/2024
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Using the LCD Controller on the MAX32650, Part 5: Control is a Good Thing8/13/2024
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Using the LCD Controller on the MAX32650, Part 1: What’s an LCD Controller Anyway?8/13/2024
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Using the LCD Controller on the MAX32650, Part 3: Your First Drawing8/13/2024