32-bit Microcontrollers with ARM® Cortex®-M0 with focus on low-cost embedded control applications. The XMC1400 series devices are optimized for motor control, power conversion and LED Lighting applications and Human-Machine Interface (HMI). Increasing complexity and demand for computing power of embedded control applications requires microcontrollers to have a significant CPU performance, integrated peripheral functionality and rapid development environment enabling short time-to market, without compromising cost efficiency. The performance of XMC1400 will be increased with 70% over existing XMC1000 due to the 48 [MHz] of the core frequency and the 2 Can nodes interfaces.
Summary of Features
- 200.0KB Flash, 16KB RAM
- Supply voltage range: 1.8 - 5.5 V
- Core frequency: 48[MHZ]
- Peripherals clock: 96 [MHZ]
- MATH co-processor for CORDIC & HW Divide
- 16 x 16-bit special purpose timers, dead time generation
- 2 x Hall Sensor & Encoder I/F
- LED brightness & color control module (BCCU)
- 8x 96MHz 16-bit special purpose timers, dead time generation
- 12 channel 12-bit ADC, 2 x parallel sampling
- 4 channel USIC (configurable to SPI, UART, IIC, IIS)
- 4 x Comparators
- Temperature Sensor
- Pseudo Random Number Generator
- Real Time Clock
- Watch Dog Timer
- Temperature range: -40 to 105°C
- 70%+ performance over existing XMC1000
Sense, control, drive, communicate - these tasks are versatile and complex on the field level. But there is a perfect I/O module for every dedicated task. The XMC1400 series with up to 200 kB of flash, 2 CAN nodes, 4 serial channels, 3 x 64 LED matrix control and 9-channel LED brightness and color control is unrivaled when it comes to communication and human-machine interface tasks. XMC1400 is in no way lacking in terms of actuator & sensor control IP as it comes with a 12-bit ADC including 2 sample & holds, 4 comparators and 16 PWM channels. Â
In general XMC1000 microcontrollers can be found controlling, flying or moving around on board many different types of drones and eBikes around the world.
Some functionalities that makes XMC1000 family suited to motor control application:
- Easy 3-phase inverter implementation with a single CCU8 PWM unit, offering shadow register transfer, external input for fault control, binary and floating pre-scaler, 16-bit to 64-bit width
- POSIF interface to directly connect hall sensors and incremental encoder.
- 12-bit ADC with on-chip adjustable gain of x1, x3, x6 or x12
XMC™ microcontrollers help bring this new dimension into traditional LED lighting systems. With their Brightness and Color Control Unit (BCCU), XMC1200/1300/1400 series products offer an industry-unique module for automatically controlling the dimming level and color of multi-channel LED lamps.
Some Key features of the XMC1000 family for smart lighting applications:
- Tightly interconnected peripherals supporting various digital power conversion techniques
- Automatic exponential dimming and linear intensity changes make brightness or color changes appear smooth and natural to the human eye
DAVE™ (Version 4) – Development Platform for XMC™ Microcontrollers
Professional Free-of-Charge Development Platform for Code Generation
Free of charge Eclipse based IDE using GNU C-compiler providing extensive, configurable, and reusable code repository for XMC™ industrial microcontroller powered by ARM® Cortex®-M processors.
Application oriented code repository merged with graphical system design methods and automatic code generator to guide XMC™ microcontroller user along the entire process – from evaluation-to-production (E2P). XMC™ Lib and DAVE™ generated code can be used with other 3rd party tool chains.
Get your free µC/Probe™ XMC™ Software Download here!
DAVE™ – Free Eclipse based code development platform/IDE offering code repository, graphical system design methods, and automatic code generator to guide XMC™ microcontroller user along the entire process – from evaluation to production (E2P). XMC™ Lib and DAVE™ generated code is tested and released for use with 3rd party tool.
DAVE™ (Version 4) – professional free-of-charge integrated development environment (IDE) supporting the whole development process from evaluation-to-production (E2P).
Free Eclipse based integrated development environment (IDE) including GNU C-compiler, debugger, comprehensive code repository, hardware resource management, and code generation plug-in.
A complete download package is provided, including IDE, XMC™ Lib, DAVE™ APPs, EXAMPLES, and DAVE™ SDK.
Ready to use APIs for peripherals which are tested for GNU-, ARM-, IAR- und TASKING- compiler, and released for Altium, ARM/KEIL, Atollic, IAR Systems, iSystems and Rowley compiler IDEs.
Low level driver libraries for XMC™ peripherals (APIs), CMSIS / MISRA 2004 compliant including documentation. XMC™ Lib – Release Note
|System:||Timer/PWM:||Analog-mixed Signal:||Communication:||Application specific:||Examples:|
Graphical User Interface (GUI) configurable application oriented software components using XMC™ Lib (Low Level Driver); arranged in a library (APIs)
General Purpose and System DAVE™ APPs:
XMC™ Lib (Low Level Driver for XMC™ MCUs) and DAVE™ APPs composed to application examples
|3 rd PARTIES||
XMC™ Lib and DAVE™ APPs are tested with GCC, ARM®, TASKING, IAR compilers;
A wide portfolio of more than hundred different feature / performance / memory / package options powered by 32-bit ARM® Cortex®–M0/M4F
|Rapid Prototyping Tools||
XMC™ Flasher Tool
Easy-to-use and free-of-charge tool to connect and flash XMC™ MCUs
XMC™ Link, Functional Isolated Debug Probe
Functional Isolated Debug Probe, based on SEGGER J-Link Technology
XMC™ Pinout Tool
Graphical Pinout allocation tool for rapid prototyping
For MATLAB® and Simulink®
The XMC™ Library for Embedded Coder® for MATLAB® and Simulink® provides support for code generation of all XMC™ microcontroller to enable an easy model-based design flow, for any type of applications.
The XMC™ Library for Embedded Coder® enables the automatic code generation of your software algorithm optimized for XMC™ MCUs. It provides system and peripheral initialization and a comprehensive set of peripheral library blocks, such as
The XMC™ Library for Embedded Coder® enables the user fast model-based design for real-time applications from MATLAB® and Simulink® environment.
|XMC1000 family, ARM ® Cortex ® - M0||XMC4000 family, ARM ® Cortex ® - M4F|
*Upcoming, middle of the second half of 2016
The library supports code generation of system initialization for XMC™ microcontroller including direct compilation and linking.
It supports easy integration with Infineon's DAVE™ and use with all major ARM® third-party tools and compiler/IDEs.
|Application||XMC™ Evaluation kits and boards|
XMC™ Library for Embedded Coder® - includes:
- System initialization libraries
- Peripheral initialization libraries
- Optimized code libraries (CORDIC, CMSIS)
- Support for all the XMC™ microcontrollers
- Advanced functions
- Initialization sequence block
- Resource name configurator
- Compilation/linking support (via the GNU gcc/g++)
MatrikonOPC UA Embedded Suite for Microcontroller
Industrie 4.0 and IIoT ready OPC UA connectivity are rapidly transforming how M2M communications, control automation, and device-to-enterprise communications are implemented.
In this emerging hyper-connected world, even the smallest devices will be expected to support secure standards-based data connectivity. Selected as the connectivity standard of choice for Industrie 4.0 applications, OPC UA is the single, most important data connectivity standard vendors need to implement in their devices to ensure their products can take part in and compete in the new world.
The MatrikonOPC UA Embedded Software Development Kit (SDK) is the fastest, easiest way to OPC UA enable your Infineon based systems using XMC4000 MCU family. Without having to learn the intricacies of OPC UA and not having to debug OPC UA server implementations, the MatrikonOPC UA Embedded SDK lets you confidently take your OPC UA enabled product to market faster.
For EPSON TFT CTRL ICs, XMC™ microcontrollers and DAVE™ IDE
Professional, discrete and scalable TFT display control solutions
The EPSON Graphics Library/API is a software library designed to enable and simplify the process of displaying graphics and text on a TFT panel by using a general purpose XMC™ microcontroller connected to an EPSON TFT CTRL ICs (S1D13781) in a discrete and scalable system approach like shown below:
Thanks to the free-of-charge library/API for DAVE™ IDE, a comprehensive documentation and a Arduino hardware compatible shield board (S5U13781R01C100), user can easy experience the system performance and benefits that a discrete system approach offers:
- Up to 7“ displays (up to 800x480 resolution)
- Free-of-charge TFT display control library/API
- Easy-to-use and scale MCU and TFT CRTL ICs
- Best-in-class hardware graphic acceleration
- Enable reduction of PCB layer and system cost
- Embedded Video Memory
EPSON Display Controllers more
EPSON TFT graphic library and documentation for XMC™ and DAVE™ more
Graphically visualizes the internals of XMC™ 32-bit ARM ® based microcontrollers
The free-of-charge version µC/Probe™ XMC™ is a derivative of µC/Probe™ developed by Micrium® working with XMC™ microcontrollers only. µC/Probe™ XMC™ is a Windows based application that allows you to read and write the memory of XMC™ microcontrollers during run-time in a non-intrusive way and with a graphical dashboard to fine-tune your application.
- Generate your own user interface (UI) by dragging and dropping of controls and indicators. No programming is required. Drag and drop the graphic components into place and watch them
- Real-time monitoring and instant control of global variables and memory in non-intrusive way
- Use µC/Probe™ for XMC™ to extend the capabilities of your debugging software by running both at the same time
- Support for different communication standards to simply connect your application – J-Link, CMSIS-DAP, TCPP/IP, USB and RS-232
As an example, visualize real-time data of time critical control loops in motor control or digital power conversion with an 8 channel digital oscilloscope. The oscilloscope can simply be instrumented with a target code that allows configurations like sample frequency and sample buffer size. The datas are visualized in a GUI running on a PC and enabling sophisticated features like negative/positive, pre/post, single/continuous trigger to exactly capture important real-time data to analyze and optimize the application code.