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

MAX32680EVKIT

Overview

The MAX32680 evaluation kit (EV kit) provides a platform for evaluation capabilities of the MAX32680 microcontroller, which is an advanced system-on-chip (SoC) designed for industrial and medical sensors. Power regulation and management is provided by a single-inductor multiple-output (SIMO) buck regulator system and contains the latest generation Bluetooth® 5.2 Low Energy (LE) radio.

The Zephyr port is running on the MAX32680 MCU.

Hardware

  • MAX32680 MCU:

    • Ultra-Low-Power Wireless Microcontroller

      • Internal 100MHz Oscillator

      • 512KB Flash and 128KB SRAM, Optional ECC on One 32KB SRAM Bank

    • Bluetooth 5.2 LE Radio

      • Dedicated, Ultra-Low-Power, 32-Bit RISC-VCoprocessor to Offload

      Timing-Critical Bluetooth Processing

      • Fully Open-Source Bluetooth 5.2 Stack Available

      • Supports AoA, AoD, LE Audio, and Mesh

      • High-Throughput (2Mbps) Mode•Long-Range (125kbps and 500kbps) Modes

      • Rx Sensitivity: -97.5dBm; Tx Power: +4.5dBm

      • Single-Ended Antenna Connection (50Ω)

    • Smart Integration Reduces BOM, Cost, and PCB Size

      • Two 16-Bit to 24-Bit Sigma-Delta ADCs

      • 12 Channels, Assignable to Either ADC

      • Flexible Resolution and Sample Rates

      • 24-Bits at 0.4ksps, 16-Bits at 4ksps

      • Four External Input, 10-Bit Sigma-Delta ADC 7.8ksps

      • 12-Bit DAC

      • On-Die Temperature Sensor

      • Digital Peripherals: Two SPI, Two I2C, up to FourUART, and up to 36 GPIOs

      • Timers: Six 32-Bit Timers, Two Watchdog Timers,Two Pulse Trains, 1-Wire® Master

    • Power Management Maximizes Battery Life

      • 2.0V to 3.6V Supply Voltage Range

      • Integrated SIMO Power Regulator

      • Dynamic Voltage Scaling (DVS)

      • 23.8μA/MHz ACTIVE Mode Current at 3.0VCoremark®

      • 4.4μA at 3.0V Retention Current for 32KB SRAM

      • Selectable SRAM Retention in Low-Power Modes

    • Robust Security and Reliability

      • TRNG

      • Secure Nonvolatile Key Storage and AES-128/192/256

      • Secure Boot to Protect IP/Firmware

      • Wide, -40°C to +85°C Operating Temperature

  • External devices connected to the MAX32680 EVKIT:

    • SMA Connector for Attaching an External Bluetooth Antenna

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

    • Two Selectable On-Board, High-Precision Voltage References

    • USB 2.0 Micro B to Serial UARTs

    • UART1 and LPUART0 Interface is Selectable Through On-Board Jumpers

    • All GPIOs Signals Accessed Through 0.1in Headers

    • Access to Four Analog Inputs Through SMA Connectors Configured as Differential

    • Access to Eight Analog Inputs Through 0.1in Headers Configured as Single-End

    • Optional Discrete Filter for the Twelve Analog Inputs

    • DAC Accessed Through SMA Connector or Test Point

    • 10-Pin SWD Connector

    • 10-Pin RV JTAG Connector

    • Board Power Provided by USB Port

    • On-Board 3.3V LDO Regulator to Power MAX32680 Internal SIMO

    • Test Loops Provided to Supply Optional VCORE Power Externally

    • Individual Power Measurement on All IC Rails Through Jumpers

    • Two General Purpose LEDs and Two General Purpose Pushbutton Switches

Supported Features

Below interfaces are supported by Zephyr on MAX32680EVKIT.

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

I2C

on-chip

i2c

DMA

on-chip

dma controller

Watchdog

on-chip

watchdog

SPI

on-chip

spi

ADC

on-chip

adc

Timer

on-chip

counter

W1

on-chip

one wire master

Flash

on-chip

flash

Connections and IOs

Name

Name

Settings

Description

JP1

VREGI

Open

Closed

Disconnects 3.3V power from the MAX32680 SIMO.

Connects 3.3V power to the MAX32680 SIMO.

JP2

REF0P

2-1

2-3

Connects the external high-precision voltage refernce to REF0P.

Connects the internal voltage refernce to REF0P.

JP3

REF0N

Open

Closed

Disconnects REF0N from ground.

Connects REF0N to ground.

JP4

VDDIO_AUX

Open

Closed

Disconnects VDDIO_AUX from pull-ups and reference voltages.

Connects VDDIO_AUX to pull-ups and reference voltages.

JP5

VDDIOH

Open

Closed

Connects VREGO_A to VDDIOH.

Connects the 3.3V from the estrenal LDO to VDDIOH.

JP6

REF1P

2-1

2-3

Connects the external high-precision voltage refernce to REF1P.

Connects the internal voltage refernce to REF1P.

JP7

REF1N

Open

Closed

Disconnects REF1N from ground.

Connects REF1N to ground.

JP8

I2C0_SDA I2C0_SCL

2-1

2-3

Connects I2C0 pullups to VDDIO_AUX (1.8V).

Connects I2C0 pullups to 3.3V.

JP9

I2C1_SDA I2C1_SCL

2-1

2-3

Connects I2C1 pullups to VDDIO_AUX (1.8V).

Connects I2C1 pullups to 3.3V.

JP10

P0_24

Open

Closed

Disconnects red LED D1 from P0_24.

Connects red LED D1 to P0_24.

JP11

P0_25

Open

Closed

Disconnects green LED D2 from P0_25.

Connects green LED D2 to P0_25.

JP12

FSK_IN

Open

Closed

Disconnects FSK_IN from HART analog circuitry.

Connects FSK_IN to HART analog circuitry.

JP13

RCV_FSK

Open

Closed

Disconnects RCV_FSK from CC LOOP.

Connects RCV_FSK to CC LOOP.

JP14

FSK_OUT

Open

Closed

Disconnects FSK_OUT from HART analog circuitry.

Connects FSK_OUT to HART analog circuitry.

JP15

RCV_FSK

Open

Closed

Disconnects RCV_FSK from XFMR LOOP.

Connects RCV_FSK to XFMR LOOP.

JP16

RLOAD

Open

Closed

Disconnects 249 ohm resistor shunt from CC LOOP.

Connects 249 ohm resistor shunt to CC LOOP.

JP17

FSK AMP GAIN

Open

Closed

Enables FSK variable amp gain.

Disables FSK variable amp gain.

JP18

AMP BYPASS

2-1

2-3

Enables FSK amp.

Bypasses FSK amp.

JP19

FSK AMP GAIN

Open

Closed

Enables FSK fixed amp gain.

Disables FSK fixed amp gain.

JP20

HART_RTS

Open

Closed

Enables HART_RTS optical transceiver.

Bypasses HART_RTS optical transceiver.

JP21

RLOAD

Open

Closed

Disconnects 249 ohm resistor shunt from XFMR LOOP.

Connects 249 ohm resistor shunt to XFMR LOOP.

JP22

UART0_RX

2-1

2-3

Disconnects the USB - serial bridge from UART1_RX (P0.12).

Connects the USB - serial bridge to LPUART_RX (P2.6).

JP23

UART0_TX

2-1

2-3

Disonnects the USB - serial bridge from UART1_TX (P0.13).

Connects the USB - serial bridge to LPUART_TX (P2.7).

JP24

HART_IN

HART_IN

HART_OUT

HART_OUT

HART_RTS

HART_RTS

HART_OCD

HART_OCD

Open

1-2

Open

2-3

Open

3-4

Open

4-5

Disconnects TX of USB - serial bridge from HART_IN (P0.1)

Connects TX of USB - serial bridge to HART_IN (P0.1).

Disconnects RX of USB - serial bridge from HART_OUT (P0.0).

Connects RX of USB - serial bridge to HART_OUT (P0.0).

Disconnects RTS of USB - serial bridge from HART_RTS (P0.3).

Connects TX of USB - serial bridge to HART_RTS (P0.3).

Disconnects RTS of USB - serial bridge from HART_OCD (P0.2).

Connects TX of USB - serial bridge to HART_OCD (P0.2).

JP25

RSTN

Open

Close

Disconnects DUT_3V3_RSTN from RSTN.

Connects DUT_3V3_RSTN to RSTN.

Programming and Debugging

Flashing

The MAX32680 MCU can be flashed by connecting an external debug probe to the SWD port. SWD debug can be accessed through the Cortex 10-pin connector, JH10. Logic levels are set to 1.8V (VDDIO_AUX).

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.

Debugging

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

References