The latest development version of this page may be more current than this released 4.0.0 version.

MAX32662EVKIT

Overview

The MAX32662 evaluation kit (EV kit) provides a platform for evaluating the capabilities of the MAX32662 microcontroller, which is a cost-effective, ultra-low power, highly integrated 32-bit microcontroller designed for battery-powered edge devices.

The Zephyr port is running on the MAX32662 MCU.

Hardware

  • MAX32662 MCU:

    • High-Efficiency Microcontroller for Low-Power High-Reliability Devices

      • 256KB Flash

      • 80KB SRAM, Optionally Preserved in LowestPower BACKUP Mode

      • 16KB Unified Cache

      • Memory Protection Unit (MPU)

      • Dual- or Single-Supply Operation: 1.7V to 3.6V

      • Wide Operating Temperature: -40°C to +105°C

    • Flexible Clocking Schemes

      • Internal High-Speed 100MHz

      • Internal Low-Power 7.3728MHz

      • Ultra-Low-Power 80kHz

      • 16MHz–32MHz (External Crystal Required)

      • 32.768kHz (External Crystal Required)

      • External Clock Inputs for CPU and Low-PowerTimer

    • Power Management Maximizes Uptime for Battery Applications

      • 50μA/MHz at 0.9V up to 12MHz (CoreMark®) inACTIVE Mode

      • 44μA/MHz at 1.1V up to 100MHz (While(1)) inACTIVE Mode

      • 2.15μA Full Memory Retention Current in BACKUPMode at VDDIO = 1.8V

      • 2.4μA Full Memory Retention Current in BACKUPMode at VDDIO = 3.3V

      • 350nA Ultra-Low-Power RTC

      • Wakeup from Low-Power Timer

    • Optimal Peripheral Mix Provides Platform Scalability

      • Up to 21 General-Purpose I/O Pins

      • 4-Channel, 12-Bit, 1Msps ADC

      • Two SPI Controller/Target

      • One I2S Controller/Target

      • Two 4-Wire UART

      • Two I2C Controller/Target

      • One CAN 2.0B Controller

      • 4-Channel Standard DMA Controller

      • Three 32-Bit Timers

      • One 32-Bit Low-Power Timer

      • One Watchdog Timer

      • CMOS-Level 32.768kHz Calibration Output

      • AES-128/192/256 Hardware Accelerator

  • Benefits and Features of MAX32662EVKIT:

    • 3-Pin Terminal Block for CAN Bus 2.0B

    • 128 x 128 (1.45in) Color TFT Display with SPI Interface

    • Selectable On-Board High-Precision Voltage Reference

    • USB 2.0 Micro-B to Serial UART

    • All GPIOs Signals Accessed through 0.1in Headers

    • Four Analog Inputs Accessed through 0.1in Header

    • SWD 10-Pin Header

    • Board Power Provided by USB Port

    • On-Board LDO Regulators

    • Individual Power Measurement on All IC Rails through Jumpers

    • One General-Purpose LED

    • One General-Purpose Pushbutton Switch

Supported Features

Below interfaces are supported by Zephyr on MAX32662EVKIT.

Interface

Controller

Driver/Component

NVIC

on-chip

nested vector interrupt controller

SYSTICK

on-chip

systick

CLOCK

on-chip

clock and reset control

GPIO

on-chip

gpio

UART

on-chip

serial

TRNG

on-chip

entropy

Watchdog

on-chip

watchdog

SPI

on-chip

spi

DMA

on-chip

dma controller

I2C

on-chip

i2c

ADC

on-chip

adc

Timer

on-chip

counter

PWM

on-chip

pwm

Flash

on-chip

flash

Connections and IOs

Name

Name

Settings

Description

JP1

VREF EN

1-2

Open

Connects the external voltage reference to the VREF pin; must be enabled in the software. See the External Voltage Reference (VREF) section for additional information.

Disconnects the external voltage reference.

JP2

I2C1_SCL_PU

1-2

Open

Connects the pull-up to I2C1A_SCL (P0.6); sourced by V_AUX.

Disconnects the pull-up from I2C1A_SCL (P0.6); sourced by V_AUX.

JP3

N/A

N/A

Does not exist.

JP4

I2C1_SDA_PU

1-2

Oepn

Connects the pull-up to I2C1A_SDA (P0.9); sourced by V_AUX.

Disconnects the pull-up from I2C1A_SDA (P0.9); sourced by V_AUX.

JP5

LED0 EN

1-2

Open

Enables LED0.

Disables LED0.

JP6

CTS0A EN

1-2

Open

Connects the USB-to-serial bridge to UART0A_CTS (P0.20).

Disconnects the USB-to-serial bridge from UART0A_CTS (P0.20).

JP7

RX0A EN

1-2

Open

Connects the USB-to-serial bridge to UART0A_RX (P0.11).

Disconnects the USB-to-serial bridge from UART0A_RX (P0.11).

JP8

TX0A EN

1-2

Open

Connects the USB-to-serial bridge to UART0A_TX (P0.10).

Disconnects the USB-to-serial bridge from UART0A_TX (P0.10).

JP9

RTS0A EN

1-2

Open

Connects the USB-to-serial bridge to UART0A_RTS (P0.19).

Disconnects the USB-to-serial bridge from UART0A_RTS (P0.19).

JP10

VCORE EN

1-2

Open

Connects 1V1 to VCORE.

Disconnects 1V1 from VCORE.

JP11

VDDIO/VDDASEL

2-1

2-3

Connects 1V8 to V_AUX, VDDIO EN (JP12), and VDDA EN (JP13) jumpers.

Connects 3V3 to V_AUX, VDDIO EN (JP12), and VDDA EN (JP13) jumpers.

JP12

VDDIO EN

1-2

Open

Connects the JP11 selected voltage to VDDIO.

Disconnects the voltage from VDDIO.

Programming and Debugging

Flashing

An Arm® debug access port (DAP) provides an external interface for debugging during application development. The DAP is a standard Arm CoreSight® serial wire debug port, uses a two-pin serial interface (SWDCLK and SWDIO), and is accessed through 10-pin header (J3). Logic levels are set to V_AUX (1V8 or 3V3), which is determined by the shunt placement on JP11. In addition, the UART1A port can also be accessed through J3.

Once the debug probe is connected to your host computer, then you can simply run the west flash command to write a firmware image into flash.

Note

This board uses OpenOCD as the default debug interface. You can also use a Segger J-Link with Segger’s native tooling by overriding the runner, appending --runner jlink to your west command(s). The J-Link should be connected to the standard 2*5 pin debug connector (J3) using an appropriate adapter board and cable.

Debugging

Please refer to the Flashing section and run the west debug command instead of west flash.

References