MAX32672

• Metrology subsystem plus selected other features of a level 2, 7kW to 22kW electric vehicle supply equipment (EVSE)
• Full-featured board for ADE9112, ADE9113, and ADE9178
• Rated up to three phase, 240V RMS line to neutral voltage
• Rated up to 32A current measurement with on-board shunts
• Supports up to 22kW combined power transfer to load
• Features MAX32672 low power, secure microcontroller
• Supports LCD display for energy and state updates
• Supports MODBUS™ protocol over RS-485 communication interface
• Supports Protobuf™ messages to communicate with EVerest open source software (OSS)
• IEC61851-compatible state machine implementation

The AD-ACEVSE22KWZ-KIT is a reference design for the metrology subsystem plus selected other features of a level 2, 7 kW to 22 kW AC electric vehicle supply equipment (EVSE). It includes the ADE9113 isolated Σ-Δ analog-to-digital converter (ADC) coupled with the ADE9178 metrology DSP to accurately measure energy delivered to an electric vehicle (EV). It includes the MAX32672 ultralow- power ARM^® Cortex^®-M4 processor, a cost-effective, highly integrated, and highly reliable 32-bit microcontroller to accumulate energy measurements and securely send it to a host for display. A charge control state machine is run on the microcontroller to transition through different charge states when a charging plug is inserted into an electric vehicle. The kit includes a flexible printed circuit (FPC) connector and LCD to read the energy measurements and state transitions during a charging cycle. The power input/output, control pilot (CP), and proximity pilot (PP) signals are exposed on connectors at the edge of the board. The energy delivered to the EV is measured as a voltage drop across shunts and a resistor ladder network, which makes it easy to set up the boards in the field.

• Selectable, On-Board, High-Precision Voltage Reference
• 128 x 128 (1.45in) Color TFT Display with SPI Interface
• USB 2.0 Micro B-to-Serial UARTs
• UART0 and LPUART0 Interface Is Selectable through On-Board Jumpers
• All GPIOs Signals Accessed through 0.1in Headers
• 12 Analog Inputs Accessed through 0.1in Headers with Optional Filtering
• 10-Pin Arm^® Cortex^® SWD Connector
• Board Power Provided by USB Port
• On-Board, 3.3V LDO Regulator
• Test Loops Provided to Supply Optional VCORE Power Externally
• Individual Power Measurement on All IC Rails through Jumpers
• Two General-Purpose LEDs and One General- Purpose Pushbutton Switch

The MAX32672 evaluation kit (EV kit) provides a platform for evaluating the capabilities of the MAX32672 microcontroller, which is a small, high-reliability, ultra-low power, 32-bit microcontroller. The MAX32672 is a secure and cost-effective solution for motion/motor control, industrial sensors, and battery-powered medical devices and offers legacy designs an easy, cost-optimal upgrade path from 8-bit or 16-bit microcontrollers.

Applications

• Battery Powered Medical Devices
• Industrial Sensors
• Motion/Motor Control
• Optical Communication Modules
• Secure Radio Modem Controller

• MAX32672 Microcontroller
  • Arm Cortex-M4 Processor with FPU up to 100MHz
  • 1MB Dual-Bank Flash with Error Correction
  • 200KB SRAM (160KB with ECC Enabled)
  • 16KB Unified Cache with ECC
  • Resource Protection Unit (RPU)
  • Memory Protection Unit (MPU)
• Integrated Peripherals
  • MAX8819 PMIC with Integrated Charger
  • On-Board DAPLink Debug and Programming Interface for Arm Cortex-M4
  • Breadboard-Compatible Headers
  • Micro USB Connector
  • RGB Indicator LED
  • User Pushbutton
  • OLED Display
  • SWD Debugger
  • Virtual UART Console

The MAX32672FTHR is a rapid development platform that helps engineers quickly implement complex sensor solutions using the MAX32672 Arm^® Cortex^®-M4. The board also includes the MAX8819 PMIC for battery and power management. The form factor is a small, 0.9in by 2.6in, dual row header footprint that is compatible with Adafruit^® FeatherWing peripheral expansion boards. The board includes an OLED display, a RGB indicator LED, and a user pushbutton. The MAX32672FTHR provides a power-optimized flexible platform for quick proof-ofconcepts and early software development to enhance time to market.

Refer to the MAX32672FTHR product page to get started developing with this board.

Applications

• Battery-Powered Medical Devices
• Motion/Motor Control, Industrial Sensors
• Optical Communication Modules, Secure Radio Modem Controller