Ultra-Reliable MCUs Development Platforms

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DEVKIT-S12G128: Development Board for S12G128 MCU Evaluation

The DEVKIT-S12G128 is a low-cost development kit with CAN, LIN and SCI connections and 10-bit ADC in a small form factor board compatible with the Arduino™ R3 UNO pinout.

The DEVKIT-S12G128 board features the S12G128 16-bit microcontroller for automotive and industrial general purpose applications.

Features

• S12G128 MCU
• OSBDM on-board open source programming and debugging tool
• USB to Serial Interface
• RGB LED
• ADC Potentiometer
• Supports CAN and LIN connectors
• Power LEDs indicators

Note: 12 V (1 Amp) power supply is required for debugging and CAN/LIN communication, this is not included in the kit

Software & Tools: DEVKIT-S12G128 Board Layout | DEVKIT-S12G128 Schematic

Resources: Dev Kits for Ultra-Reliable MCUs Fact Sheet

Plug It In!	Get Software	Create
1.1 Attach the USB Cable 1.2 Run the Out-of-Box Demo Your DEVKIT-S12G128 comes pre-loaded with a simple code example that is switching the color of the LED. 1.3 Review DEVKIT-S12G128 Quick Start Guide (QSG) for Detailed Setup Download the DEVKIT-S12G128 QSG	2.1 Jump Start Your Design by getting started with Quick Start Guide and Software Integration Guide within Quick Start Package Download DEVKIT-S12G128 Quick Start Package 2.2 Install CodeWarrior v5.1 CodeWarrior Development Studio for NXP HCS12 Microcontrollers enable you to build and deploy HCS12 or HCS12X/XGATE systems quickly and easily. Get CodeWarrior Development Studio 2.3 PC Configuration Once you connected your DEVKIT-S12G128 to your PC, the drivers of your board will start to be installed; please wait while they are installed and do not unplug it.	3.1 Create a new project in CodeWarrior v5.1 Follow the steps to create a new project in your workspace and load the configuration for your target device 3.2 Create, build and run your application Create a hello world code within minutes and watch it working in your DEVKIT-S12G128 board. Check the details in this video and you'll be flashing your board in few minutes. 3.3 Build, Download, Run 3.4 Success!

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DEVKIT-S12XE: Development Board for 9S12XEP100 MCU Evaluation

The DEVKIT-S12XE is a low-cost development kit with CAN, LIN and SCI connections and 12-bit ADC in a small form factor board compatible with the Arduino™ R3 UNO pinout.

The DEVKIT-S12XE board features the 9S12XEP100 16-bit microcontroller for automotive and industrial general purpose applications.

Features

• 9S12XEP100 MCU
• OSBDM on-board open source programming and debugging tool
• USB to Serial Interface
• RGB LED
• ADC Potentiometer
• Supports CAN and LIN connectors
• Power LEDs indicators

Note: 12 V (1 Amp) power supply is required for debugging and CAN/LIN communication, this is not included in the kit

Software & Tools: DEVKIT-S12XE Board Layout | DEVKIT-S12XE Schematic

Resources: Dev Kits for Ultra-Reliable MCUs Fact Sheet

Plug It In!	Get Software	Create
1.1 Attach the USB Cable 1.2 Run the Out-of-Box Demo Your DEVKIT-S12XE comes pre-loaded with a simple code example that is switching the color of the LED. 1.3 Review DEVKIT-S12XE Quick Start Guide (QSG) for Detailed Setup Download the DEVKIT-S12XE QSG	2.1 Jump Start Your Design by getting started with Quick Start Guide and Software Integration Guide within Quick Start Package Download DEVKIT-S12G128 Quick Start Package 2.2 Install CodeWarrior v5.1 CodeWarrior Development Studio for NXP HCS12 Microcontrollers enable you to build and deploy HCS12 or HCS12X/XGATE systems quickly and easily. Get CodeWarrior Development Studio 2.3 PC Configuration Once you connected your DEVKIT-S12XE to your PC, the drivers of your board will start to be installed; please wait while they are installed and do not unplug it. 2.4 Get the DEVKIT-S12XE Lab Examples Download DEVKIT-S12XE Lab Examples	3.1 Create a new project in CodeWarrior v5.1 Follow the steps to create a new project in your workspace and load the configuration for your target device 3.2 Create, build and run your application Create a hello world code within minutes and watch it working in your DEVKIT-S12G128 board. Check the details in this video and you'll be flashing your board in few minutes. 3.3 Build, Download, Run 3.4 Success!

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DEVKIT-S12ZVL: Development Board for 9S12ZVL32 MCU Evaluation

The DEVKIT-S12ZVL is a low-cost development kit with CAN, LIN/SCI connections and 10-bit ADC in a small form factor board compatible with the Arduino™ R3 UNO pinout.

The DEVKIT-S12ZVL board features the 9S12ZVL32 16-bit MagniV microcontroller for automotive and industrial applications such as relays and switches.

Features

• 9S12ZVL32 MCU
• OSBDM on-board open source programming and debugging tool
• USB to Serial Interface
• RGB LED
• ADC Potentiometer
• Supports CAN and LIN connectors
• Power LEDs indicators

Note: 12 V (1 Amp) power supply is required for debugging and CAN/LIN communication, this is not included in the kit

Software & Tools: DEVKIT-S12ZVL Board Layout | DEVKIT-S12ZVL Schematic

Resources: Dev Kits for Ultra-Reliable MCUs Fact Sheet | Automotive MCUs Development Kits Fact Sheet

Plug It In!	Get Software	Create
1.1 Attach the USB Cable 1.2 Run the Out-of-Box Demo Your DEVKIT-S12ZVL comes pre-loaded with a simple code example that is switching the color of the LED. 1.3 Review DEVKIT-S12ZVL Quick Start Guide (QSG) for Detailed Setup Download the DEVKIT-S12ZVL QSG	2.1 Jump Start Your Design by getting started with Quick Start Guide and Software Integration Guide within Quick Start Package Download DEVKIT-S12ZVL Quick Start Package 2.2 Install CodeWarrior v5.1 CodeWarrior Development Studio for NXP HCS12 Microcontrollers enable you to build and deploy HCS12 or HCS12X/XGATE systems quickly and easily. Get CodeWarrior Development Studio 2.3 PC Configuration Once you connected your DEVKIT-S12ZVL to your PC, the drivers of your board will start to be installed; please wait while they are installed and do not unplug it. 2.4 Get the DEVKIT-S12ZVL Lab Examples Download DEVKIT-S12ZVL Lab Examples	3.1 Create a new project in CodeWarrior v5.1 Follow the steps to create a new project in your workspace and load the configuration for your target device 3.2 Create, build and run your application Create a hello world code within minutes and watch it working in your DEVKIT-S12ZVL board. Check the details in this video and you'll be flashing your board in few minutes. 3.3 Build, Download, Run 3.4 Success!

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DEVKIT-ZVL128: Development Board for S12ZVL128 MCU Evaluation

The DEVKIT-ZVL128 is a low-cost development kit provides easy access to all MCU I/O’s in a small form factor board compatible with the Arduino™ R3 UNO pinout.

The DEVKIT-ZVL128 features the S12ZVLA128 16-bit automotive MCU with integrated S12Z CPU, LIN physical interface, CAN Interface [MSCAN], a 5 - 3.3 V internal low-dropout regulator which operates at vehicle battery level and a high voltage input pin.

Features

• MC9S12ZVLA128 MCU
• USB to Serial Interface
• RGB LED
• Power LEDs indicators
• ADC Potentiometer
• LIN physical layer IN/OUT connector
• CAN Interface [MSCAN]

Note: 12 V (1 Amp) power supply is required for debugging and CAN/LIN communication, this is not included in the kit

Software & Tools: DEVKIT-ZVL128 Board Layout | DEVKIT-ZVL128 Schematic

Resources: Dev Kits for Ultra-Reliable MCUs Fact Sheet | Automotive MCUs Development Kits Fact Sheet

Plug It In!	Get Software	Create
1.1 Attach the USB Cable 1.2 Run the Out-of-Box Demo Your DEVKIT-ZVL128 comes pre-loaded with a simple code example that is switching the color of the LED. 1.3 Review DEVKIT-ZVL128 Quick Start Guide (QSG) for Detailed Setup Download the DEVKIT-ZVL128 QSG	2.1 Jump Start Your Design by getting started with Quick Start Guide and Software Integration Guide within Quick Start Package Download DEVKIT-ZVL128 Quick Start Package 2.2 Install CodeWarrior v5.1 CodeWarrior Development Studio for NXP HCS12 Microcontrollers enable you to build and deploy HCS12 or HCS12X/XGATE systems quickly and easily. Get CodeWarrior Development Studio 2.3 PC Configuration Once you connected your DEVKIT-ZVL128 to your PC, the drivers of your board will start to be installed; please wait while they are installed and do not unplug it. Download DEVKIT-ZVL128 Lab Examples	3.1 Create a new project in CodeWarrior v5.1 Follow the steps to create a new project in your workspace and load the configuration for your target device 3.2 Create, build and run your application Create a hello world code within minutes and watch it working in your DEVKIT-ZVL128 board. Check the details in this video and you'll be flashing your board in few minutes. 3.3 Build, Download, Run 3.4 Success!

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DEVKIT-S12VR64: Development Board for S12VR64 MCU Evaluation

The DEVKIT-S12VR is a low-cost development kit with LIN connection and 2 Low and High-side drivers in a small form factor board compatible with the Arduino™ R3 UNO pinout.

The DEVKIT-S12VR64 board features the S12VR64 MagniV microcontroller ideal for space constrained relays, actuators and switches on LIN bus for automotive and industrial applications.

Features

• S12G128 MCU
• OSBDM on-board open source programming and debugging tool
• USB to Serial Interface
• RGB LED
• ADC Potentiometer
• Supports CAN and LIN connectors
• Power LEDs indicators

Note: 12 V (1 Amp) power supply is required for debugging and CAN/LIN communication, this is not included in the kit

Software & Tools: DEVKIT-S12VR64 Board Layout | DEVKIT-S12VR64 Schematic

Resources: Dev Kits for Ultra-Reliable MCUs Fact Sheet | Automotive MCUs Development Kits Fact Sheet

Plug It In!	Get Software	Create
1.1 Attach the USB Cable 1.2 Run the Out-of-Box Demo Your DEVKIT-S12VR64 comes pre-loaded with a simple code example that is switching the color of the LED. 1.3 Review DEVKIT-S12VR64 Quick Start Guide (QSG) for Detailed Setup Download the DEVKIT-S12VR64 QSG	2.1 Jump Start Your Design by getting started with Quick Start Guide and Software Integration Guide within Quick Start Package Download DEVKIT-S12VR64 Quick Start Package 2.2 Install CodeWarrior v5.1 CodeWarrior Development Studio for NXP HCS12 Microcontrollers enable you to build and deploy HCS12 or HCS12X/XGATE systems quickly and easily. Get CodeWarrior Development Studio 2.3 PC Configuration Once you connected your DEVKIT-S12VR64 to your PC, the drivers of your board will start to be installed; please wait while they are installed and do not unplug it. Download DEVKIT-S12ZVL Lab Examples	3.1 Create a new project in CodeWarrior v5.1 Follow the steps to create a new project in your workspace and load the configuration for your target device 3.2 Create, build and run your application Create a hello world code within minutes and watch it working in your DEVKIT-S12VR64 board. Check the details in this video and you'll be flashing your board in few minutes. 3.3 Build, Download, Run 3.4 Success!

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DEVKIT-S12ZVC: Development Board for 9S12ZVCA192 MCU Evaluation

The DEVKIT-S12ZVC board features the 9S12ZVCA192 MagniV microcontroller for high-temperature automotive and industrial CAN node applications such as relays, actuators and switches. The S12ZVC family features an S12Z core, scalable memory up to 192 KB of Flash, integrated CAN physical layer, integrated 5 to 12 V voltage regulator, ADC, DAC, ACMP, 2 x SPI and SCI/LIN, 1 x IIC, offered in 48 and 64 LQFP packages and supports -40 to 150 °C temperatures.

The DEVKIT-S12ZVC is a low-cost development kit with CAN, LIN/SCI connections in a small form factor board compatible with the Arduino™ R3 UNO pinout. It has expansion options using the DEVKIT-COMM board. The development kit features a 12 V power supply, USB powered OpenBDM debug, potentiometer, dual push buttons and RGB LED.

Features

• S12ZVCA192 MCU
• OSBDM on-board open source programming and debugging tool
• Integrated CAN physical layer
• Integrated Voltage Regulator (VREG) for 3.5 to 20V operating range
• 16 channel 12-bit ADC
• 8-bit DAC (digital to analog converter)
• 5V Analog Comparator
• USB to Serial Interface
• RGB LED
• ADC Potentiometer
• Supports CAN connector
• Power LEDs indicators
• 12V Power supply
• -40C to 150C temperature

Note: 12 V (1 Amp) power supply is required for debugging and CAN/LIN communication, this is not included in the kit

Software & Tools: DEVKIT-S12ZVC Board Layout | DEVKIT-S12ZVC Schematic

Resources: Dev Kits for Ultra-Reliable MCUs Fact Sheet | Automotive MCUs Development Kits Fact Sheet

Plug It In!	Get Software	Create
1.1 Attach the USB Cable 1.2 Run the Out-of-Box Demo Your DEVKIT-S12ZVC comes pre-loaded with a simple code example that is switching the color of the LED. 1.3 Review DEVKIT-S12ZVC Quick Start Guide (QSG) for Detailed Setup Open the DEVKIT-S12ZVC QSG	2.1 Jump Start Your Design by getting started with Quick Start Guide and Software Integration Guide within Quick Start Package Download DEVKIT-S12ZVC Quick Start Package 2.2 Install CodeWarrior v5.1 CodeWarrior Development Studio for NXP HCS12 Microcontrollers enable you to build and deploy HCS12 or HCS12X/XGATE systems quickly and easily. Get CodeWarrior Development Studio 2.3 PC Configuration Once you connected your DEVKIT-S12ZVC to your PC, the drivers of your board will start to be installed; please wait while they are installed and do not unplug it. Download DEVKIT-S12ZVC Lab Examples	3.1 Create a new project in CodeWarrior v5.1 Follow the steps to create a new project in your workspace and load the configuration for your target device 3.2 Create, build and run your application Create a hello world code within minutes and watch it working in your DEVKIT-S12ZVC board. Check the details in this video and you'll be flashing your board in few minutes. 3.3 Build, Download, Run 3.4 Success!

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S32K144EVB: S32K144 Evaluation Board

The S32K144EVB is low cost evaluation platform and development system for quick application prototyping and demonstration for the S32K144 MCU.

Features

• Small form factor
• Arduino™ UNO footprint-compatible with expansion “shield” support
• On-board connectivity for CAN, LIN, UART/SCI
• Integrating an SBC (UJA1169) and LIN phy (TJA1027)
• Easy access to the MCU I/O header pins for prototyping.
• Potentiometer, RGB LED, 2x push buttons and 2 touch pads
• Integrated open-standard serial and debug adapter (OpenSDA) with support for several industry-standard debug interfaces
• Flexible power supply options (microUSB or external 12 V supply)

Software & Tools: S32K144EVB Board Layout | S32K144EVB Schematic

Videos: Getting Started with the S32K144 Evaluation Board | Getting Started with the S32 Design Studio for ARM: Create and Debug a New Project from an Example | Getting Started with the S32 Design Studio for ARM: Create and Debug a New Project

Plug It In!	Get Software	Create
1.1 Attach the USB Cable 1.2 Run the Out-of-Box Demo 1.3 Review S32K144EVB Quick Start Guide (QSG) for Detailed Setup Download the S32K144EVB QSG	2.1 Jump Start Your Design by getting started with Quick Start Guide and Software Integration Guide within Quick Start Package Download includes Quick Start Guide, Software Integration Guide, Schematics and Sample Examples to kick start your design. Download S32K144EVB Quick Start Package 2.2 Install Your Toolchain NXP offers a complimentary toolchain called S32 Design Studio (S32DS). Get S32 Design Studio IDE for Power Architecture 2.3 Install FreeMASTER Run-Time Debugging Tool Install FreeMaster Tool 2.4 Download the S32144KEVB OOBE based on FreeMASTER Download FreeMASTER PC application Download FreeMASTER Firmware 2.5 Get the S32K144EVB Lab Examples Download S32K144EVB Lab Examples	3.1 Learn how to create a new project in S32 Design Studio IDE and load an example code to blink an LED using the S32K144EVB and build and debug the project. 3.2 Learn how to create a new project in S32 Design Studio using Processor Expert and SDK to blink an LED using the S32K144EVB and build and debug the project.

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FRDM-KEAZ128: NXP® Freedom Development Platform for Ultra Reliable Kinetis® EA Series MCUs

The FRDM-KEAZ128 Freedom development platform is a small, cost effective evaluation and development system for quick application prototyping and demonstration for the Kinetis® KEA series of Ultra-Reliable Microcontrollers (MCUs).

Features

• Supports KEAZ128 (5 V) microcontrollers
• Small form factor size up to 6 x 4 inches
• Platform supports scalability up to 176 pins
• Arduino™ UNO footprint-compatible with expansion “shield” support
• Easy access to the MCU I/O header pins for prototyping
• On-chip connectivity for CAN , LIN, UART/SCI and SPI
• Potentiometer for precise voltage and analog measurement
• Tri-color RGB LED
• Integrated open-standard serial and debug adapter (OpenSDA) with support for several industry-standard debug interfaces
• Flexible power supply options
  • microUSB or
  • external 12 V power supply

Software & Tools: DEVKIT-MPC5744P Schematic

Resources: Dev Kits for Ultra-Reliable MCUs Fact Sheet

Videos: Getting Started with the FRDM-KEA Development Board | Create an Application for the FRDM-KEA

Plug It In!	Get Software	Create
1.1 Attach the USB Cable 1.2 Run the Out-of-Box Demo Your FRDM-KEA comes pre-loaded with two code example projects. The first demo is a blinking LED with interactivity using on board potentiometer. When the potentiometer is turned the LED will blink faster and then switch colors. The second demo is selected by pressing the user button which uses the ADC and Potentiometer to dim and increase brightness of LED. 1.3 Review FRDM-KEA Quick Start Guide (QSG) for Detailed Setup Download the FRDM-KEA QSG	2.1 Jump Start Your Design by getting started with Quick Start Guide and Software Integration Guide within Quick Start Package Download includes Quick Start Guide, Software Integration Guide, Schematics and Sample Examples to kick start your design. Download FRDM-KEA Quick Start Package 2.2 Install Your Toolchain NXP offers a complimentary toolchain called S32 Design Studio (S32DS). Get S32 Design Studio IDE for Power Architecture Get Kinetis Design Studio 2.3 PC Configuration Many of the example applications output data over the MCU UART so you'll want to make sure that the driver for the boards virtual COM port is installed. It should install automatically when you plug the board in to your PC. Download Drivers With the serial port driver installed, run your favorite terminal application to view the serial output from the MCU's UART. Configure the terminal to 115200 baud rate, 8 data bits, no parity and 1 stop bit. To determine the port number of the FRDM-KEA's virtual COM port, open the device manager and look under the "Ports" group.	Learn how to create a new project in S32 Design Studio and the basics to create your own code by running an easy example code. 3.1 Create a new project in S32 Design Studio Follow the steps to create a new project in your workspace and load the configuration for your target device. 3.2 Create, Build and Run your Application Create a hello world code within minutes and watch it working in your FRDM-KEA board. Check the details in this video and you'll be flashing your board in few minutes. 3.3 Success!

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DEVKIT-MPC5744P: Development Board for MPC5744P

The DEVKIT-MPC5744P features the MPC5744P, a 32-bit automotive microcontroller based on Power Architecture® technology. The MPC5744P addresses Automotive/Industrial functional safety and motor control applications. It offers dual e200z4 lockstep cores, motor control, safety, and communication interfaces to facilitate a complete safety/chassis solution.

DEVKIT-MPC5744P is a development tool for MPC5744P and provides easy access to more than 100 GPIOs plus access to onboard CAN, LIN, FlexRay, etc. The standard form factor compatible with the Arduino pin layout provides a broad range of expansion options. The board can be powered with an external power supply or directly through USB.

Features

• MPC5744P in 144-pin LQFP
• On-Board OpenSDA circuit for debugging
• USB to Serial Interface
• 1 x RGB LED
• Power LEDs indicators
• 1 x ADC potentiometer, 2 x push buttons
• Supports, LIN, CAN, FlexRay, UART connectors

Note: Board can be powered by USB, however 12 V power supply is not included in the kit and is required for CAN/LIN communication

Software & Tools: DEVKIT-MPC5744P Schematic

Resources: Dev Kits for Ultra-Reliable MCUs Fact Sheet

Plug It In!	Get Software	Create
1.1 Attach the USB Cable 1.2 Run the Out-of-Box Demo Your DEVKIT-MPC5744P comes pre-loaded with a demo. The EVB uses the ADC result from the potentiometer RV1 to control the RGB LED. As you turn RV1, a different combination of LEDs will be on. 1.3 Review DEVKIT-MPC5744P Quick Start Guide (QSG) for Detailed Setup Download the DEVKIT-MPC5744P QSG	2.1 Jump Start Your Design by getting started with Quick Start Guide and Software Integration Guide within Quick Start Package Download includes Quick Start Guide, Software Integration Guide, Schematics and Sample Examples to kick start your design. Download DEVKIT-MPC5744P Quick Start Package 2.2 Install Your Toolchain NXP offers a complimentary toolchain called S32 Design Studio (S32DS). Get S32 Design Studio IDE for Power Architecture 2.3 PC Configuration Some example applications output data over the MCU UART so you'll want to make sure that the driver for the board's virtual COM port is installed. Before you run the driver installer, you MUST have the board plugged in to your PC. Download Driver With the serial port driver installed, run your favorite terminal application to view the serial output from the MCU’s UART. Configure the terminal to 19200 baud rate, 8 data bits, no parity, and 1 stop bit. To determine the port number of the DEVKIT-MPC5744P’s virtual OCM port, open the device manager and look under the "Ports" group.	Learn how to create a new project in S32 Design Studio IDE for Power Architecture and the basics to create your own code by running an easy example code. 3.1 Create, Build and Debug your Application Software Integration Guide(SWIG) in the Quick Start Package provides easy, step-by-step instructions on how to create, build, and debug projects. Alternatively you can download SWIG from the link below. Software Integration Guide 3.2 Explore the Example codes For your convenience we integrated example codes in to S32 Design Studio for Power Architecture. Alternatively they can be found in to Quick Start Package. Again Software Integration Guide(SWIG) provides step-by-step instructions on "How to use?" 3.3 Success!

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DEVKIT-MPC5748G: Development Board for MPC5748G

The DEVKIT-MPC5748G is a development tool for MPC5748G MCU and provides easy access to more than 100 GPIOS of the MCU plus access to onboard Ethernet, CAN, LIN, USB, etc. The standard-based form factor compatible with the Arduino™ pin layout, provides a broad range of expansion board options.

The DEVKIT-MPC5748G features the MPC5748G, a 32-bit automotive MCU based on Power Architecture® technology. The MPC5748G addresses functional safety, security and Industrial/Automotive gateway application needs.

Features

• MPC5748G in 176 pins LQFP
• On-Board OpenSDA Circuit for Debugging
• USB to Serial Interface
• 8 x LEDs
• Power LEDs indicators
• ADC Potentiometer, 2 x Push Buttons
• Supports Ethernet, USB, Flexray, CAN and LIN connectors

Note: Board can be powered by USB, however 12 V power supply is not included in the kit and is required for CAN/LIN communication

Software & Tools: DEVKIT-MPC5748G Board Layout | DEVKIT-MPC5748G Schematic

Resources: Dev Kits for Ultra-Reliable MCUs Fact Sheet

Videos: Getting Started with the DEVKIT-MPC5748G Development Board | Create a Simple Project with DEVKIT-MPC5748G and S32 Design Studio IDE

Plug It In!	Get Software	Create
1.1 Attach the USB Cable 1.2 Run the Out-of-Box Demo Set jumper J11 to position 2-3. This powers up board from USB port. Your DEVKIT-MPC5748G comes pre-loaded with demo. The demo is blinking user LEDs in two different patterns. Change the pattern using user push button (SW2). Adjust the potentiometer to change the speed of blinking. 1.3 Review DEVKIT-MPC5748G Quick Start Guide (QSG) for Detailed Setup Download the DEVKIT-MPC5748G QSG	2.1 Jump Start Your Design by getting started with Quick Start Guide and Software Integration Guide within Quick Start Package Download DEVKIT-MPC5748G Quick Start Package 2.2 Install Your Toolchain NXP offers a complimentary toolchain called S32 Design Studio (S32DS). Get S32 Design Studio IDE for Power Architecture 2.3 PC Configuration Some example applications output data over the MCU UART so you'll want to make sure that the driver for the board's virtual COM port is installed. Before you run the driver installer, you MUST have the board plugged in to your PC. Download Driver With the serial port driver installed, run your favorite terminal application to view the serial output from the MCU's UART. Configure the terminal to 57600 baud rate, 8 data bits, no parity and 1 stop bit. To determine the port number of the DEVKIT-MPC5748G's virtual COM port, open the device manager and look under the "Ports" group. Get the DEVKT-MPC5748G Lab Examples	Learn how to create a new project in S32 Design Studio IDE for Power Architecture and the basics to create your own code by running an easy example code. 3.1 Create, Build and Debug your Application Software Integration Guide(SWIG) in the Quick Start Package provides easy, step-by-step instructions on how to create, build, and debug projects. Alternatively you can download SWIG from the link below. Software Integration Guide 3.2 Explore the Example codes For your convenience we integrated example codes in to S32 Design Studio for Power Architecture. Alternatively they can be found in to Quick Start Package. Again Software Integration Guide(SWIG) provides step-by-step instructions on "How to use?" 3.3 Success!

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DEVKIT-COMM: Development Board Adapter for CAN/LIN Communications Expansion

DEVKIT-COMM is a hardware plug-in adapter board that supports up to 4 additional CAN and 6 additional LIN/SCI connections when plugged into existing development kits.

Features

• Supports 4 x CAN connector
• Supports 6 x LIN connector
• Power LEDs indicators
• Supports -40C to 125C temperature

Note: 12 V (1 Amp) power supply is required for debugging and CAN/LIN communication, this is not included in the kit

Software & Tools: DEVKIT-COMM Board Layout | DEVKIT-COMM Schematic

Resources: Dev Kits for Ultra-Reliable MCUs Fact Sheet

Download the DEVKIT-COMM QSG

 

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DEVKIT-MOTORGD: Low-Cost Motor Control Solution for DEVKIT Platform

The DEVKIT-MOTORGD is an integrated motor control shield from NXP for the DEVKIT platform. This offering combines the functionality of the FRDM-GD3000EVB and FRDM-PWRSTG for a full automotive solution. The built-in Hall/Encoder interface means DEVKIT-MOTORGD can support both sensored and sensorless motor control applications.

The DEVKIT-MOTORGD can drive a 3-phase BLDC/PMSM motor and offers a comprehensive motor control software suite.

Feature

• 10-18V Barrel Connector
• GD3000 MOSFET Gate Driver
• Built-in Voltage Regulator
• Support for 3-Phase BLDC/PMSM Motor
• Output Parameters: 3 phase outputs, 4 poles, 24V, 5.8A
• Arduino™ pin compatibility
• Hall/Encode Interface
• Compatible with S32K144EVB-Q100 and DEVKIT-MPC5744P Evaluation Boards

Resources: Dev Kits for Ultra-Reliable MCUs Fact Sheet

Plug It In!	Get Software	Create
1.1 Review DEVKIT-MOTORGD Quick Start Guide (QSG) for Detailed Setup Download the DEVKIT-MOTORGD QSG	2.1 Install Your Toolchain NXP offers a complimentary toolchain called S32 Design Studio (S32DS). Get S32 Design Studio IDE for Power Architecture