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Da sich mittlerweile ziemliche viele Evaluations Boards diverser Hersteller im Labor angesammelt haben, wollen wir auf dieser Wiki Seite einen Überblick geben. Die Eval-Boards können bei uns im Labor gerne zur Realisierung von euren Projekten genutzt werden.



Texas Instruments

MSP430 Launchpad

MSP 430 Launchpad


  • MSP430G2452IN20 - 8kB Flash, 256 Byte RAM, 16 GPIO, 1x 16-bit Timer
  • MSP430G2553IN20 - 16kB Flash, 512 Byte RAM, 16 GPIO, 2x 16-bit Timers
  • Micro Crystal Oszillator 32.768 kHz
  • 10 Pin PCB Connector

Stellaris Launchpad

Stellaris Launchpad


  • High Performance TM4C123GH6PM MCU:
  • 80MHz 32-bit ARM Cortex-M4-based microcontrollers CPU
  • 256KB Flash, 32KB SRAM, 2KB EEPROM
  • Two Controller Area Network (CAN) modules
  • USB 2.0 Host/Device/OTG + PHY
  • Dual 12-bit 2MSPS ADCs, motion control PWMs
  • 8 UART, 6 I2C, 4 SPI

MSP 432 Launchpad

MSP432 Launchpad


  • Low-power, high performance MSP432P401R MCU
    • 48MHz 32-bit ARM Cortex M4F with Floating Point Unit and DSP acceleration
    • Power consumption: 80uA/MHz active and 660nA RTC standby operation
    • Analog: 24Ch 14-bit differential 1MSPS SAR ADC, Two Comparators
    • Digital: Advanced Encryption Standard (AES256) Accelerator, CRC, DMA, HW MPY32
    • Memory: 256KB Flash, 64KB RAM
    • Timers: 4 x16-bit, and 2 x 32-bit
    • Communication: Up to 4 I2C, 8 SPI, 4 UART
  • 40 pin BoosterPack Connector, and support for 20 pin BoosterPacks
  • Onboard XDS-110ET emulator featuring EnergyTrace+ Technology
  • 2 buttons and 2 LEDs for User Interaction
  • Back-channel UART via USB to PC

eZ430 Development Watch

eZ430 Chronos Development Watch

Die wichtigsten Features und Vorteile von eZ430-Chronos:

  • Tragbares Format ermöglicht unkompliziertes Entwickeln auch außerhalb der gewohnten Umgebung
  • Mithilfe der SimpliciTI- und BlueRobin™-RF-Protokolle von TI bzw. BM Innovations können Entwickler ohne großen Aufwand und ohne besondere RF-Kenntnisse Wireless-Verbindungen einrichten
    • In drei Ausführungen für verschiedenen RF-Frequenzbänder (915, 868 und 433 MHz) verfügbar und somit weltweit einsetzbar
    • Integrierter 3-Achsen-Beschleunigungsmesser für eine bewegungsabhängige Steuerung sowie Sensoren für Messzwecke, wie z. B. Höhen- Temperatur- und Batteriespannungsmesser
    • Interner CC430-Speicher für die Datenspeicherung; kann bis zu 11 Stunden an Daten (z. B. Herzfrequenzdaten) fassen
    • eZ430-Emulator ermöglicht zusätzlich zum Basis-Software-Framework und zu den RF-Funktionen eine einfache Programmierung und Fehlersuche
    • USB-RF Access Point für die Kommunikation mit PCs und für Automatisierungszwecke; wird durch produktionsfertige Source-Projekte unterstützt, u. a. für bewegungsgesteuerte Mausfunktion, Protokollierung von Sensordaten mit drahtloser Übertragung zum PC, Tastatur- und Präsentationssteuerung sowie Zeit- und Kalendersynchronisation
    • Großes 96-Segment-LCD-Display mit direkter Steuerung durch den CC430
    • Kostengünstiges System beinhaltet die gesamte Unterstützungs-Hardware und -Software und bietet dem Entwickler größere Mobilität bei reduzierten Entwicklungskosten

Dokumentation: http://processors.wiki.ti.com/index.php/EZ430-Chronos

CC3200 Launchpad

CC3200 Launchpad


  • CC3200 Wi-Fi wireless microcontroller (MCU) in QFN package
  • Industry’s first devices to be Wi-Fi CERTIFIED™ at the chip level by the Wi-Fi Alliance™
  • USB interface to PC for CCS/IAR using FTDI USB drivers
  • Flash update over the USB using SimpleLink Programmer
  • 2 20-pin connectors enables compatibility with BoosterPacks with added functions (BoosterPack headers)
  • Standalone development platform featuring sensors, LEDs and push-buttons
  • Power from USB for the LaunchPad as well as external BoosterPack
  • Operates from 2 AA alkaline batteries
  • On-board antenna and U.FL connector selectable using a capacitor re-work
  • Supports 4 wire JTAG and 2 Wire SWD
  • GNU Debugger (GDB) support over Open On chip debugger (OpenOCD)

STM 32

STM32 F0 Discovery

STM32F0 Discovery


  • STM32F051R8T6 microcontroller featuring 64 KB Flash memory, 8 KB RAM in an LQFP64 package
  • On-board ST-LINK/V2 with selection mode switch to use the kit as a standalone ST-LINK/V2 (with SWD connector for programming and debugging)
  • Board power supply: through USB bus or from an external 5 V supply voltage
  • External application power supply: 3 V and 5 V
  • Four LEDs:
    • LD1 (red) for 3.3 V power on
    • LD2 (red/green) for USB communication
    • LD3 (green) for PC9 output
    • LD4 (blue) for PC8 output
  • Two push buttons (user and reset)
  • Extension header for all LQFP64 I/Os for quick connection to prototyping board and easy probing
  • An additional board is provided which can be connected to the extension connector for even easier prototyping and probing.
  • Comprehensive free software including a variety of examples, part of STM32CubeF0 package or STSW-STM32049 for legacy Standard Libraries usage

STM32 F4 Discovery

STM32F4 Discovery


  • STM32F407VGT6 microcontroller featuring 32-bit ARM® Cortex® -M4 with FPU core, 1-Mbyte Flash memory, 192-Kbyte RAM in an LQFP100 package
  • On-board ST-LINK/V2 on STM32F4DISCOVERY (old reference) or ST-LINK/V2-A on STM32F407G-DISC1 (new order code)
  • USB ST-LINK with re-enumeration capability and three different interfaces:
    • Debug port
    • Virtual Com port (with new order code only)
    • Mass storage (with new order code only)
  • Board power supply: through USB bus or from an external 5 V supply voltage
  • External application power supply: 3 V and 5 V
  • LIS302DL or LIS3DSH ST MEMS 3-axis accelerometer
  • MP45DT02 ST-MEMS audio sensor omni-directional digital microphone
  • CS43L22 audio DAC with integrated class D speaker driver
  • Eight LEDs:
    • LD1 (red/green) for USB communication
    • LD2 (red) for 3.3 V power on
    • Four user LEDs, LD3 (orange), LD4 (green), LD5 (red) and LD6 (blue)
    • 2 USB OTG LEDs LD7 (green) VBUS and LD8 (red) over-current
  • Two push-buttons (user and reset)
  • USB OTG FS with micro-AB connector
  • Extension header for all LQFP100 I/Os for quick connection to prototyping board and easy probing
  • Comprehensive free software including a variety of examples, part of STM32CubeF4 package or STSW-STM32068 to use legacy standard libraries.


FM4 - 176L-S6E2CC-ETH

Cypress FM4


  • 200MHz ARM® Cortex MCU with DMA
  • 675 CoreMark® MCU
  • Single precision IEEE 754 compliant floating point unit
  • 2MB flash, 256KB SRAM and 190 GPIOs.
  • Communication interfaces: 10/100 Ethernet (IEEE 802.3), USB host, USB device, CAN, LIN, High-Speed Quad SPI, I2S, I2C and UART.
  • Arduino Uno compatible footprint
  • Onboard sensors: Accelerometer and Photo Transistor
  • External peripherals: Stereo codec, SRAM, Serial flash and multi-color LEDs
  • CMSIS-DAP interface: Programming and debugging of the S6E2CC MCU



Cyclone V SoC Dev Kit

Cyclone V SoC
  • Single- or dual-core processor with up to 925 MHz maximum frequency
  • Hardened embedded peripherals eliminate the need to implement these functions in programmable logic, leaving more FPGA resources for application-specific custom logic and reducing power consumption
  • Hardened multiport memory controller, shared by the processor and FPGA logic, supports DDR2, DDR3, and LPDDR2 devices with integrated error correction code (ECC) support for high-reliability and safety-critical applications
  • Upto 150000 Gates
  • Over 100 Gbps peak bandwidth
  • Integrated data coherency
  • Significant system power savings by eliminating the external I/O paths between the processor and the FPGA


Texas Instruments


Cyclone V SoC
  • Integrated floating-/fixed-point DSP with up to 456 MHz performance; and ARM9 with up to 456 MHz performance
  • Software, expansion headers, schematics and application demos
  • SDKs, DSP/BIOS RTOS, drivers, stacks and protocol, algorithm libraries, flash and boot utilities and StarterWare


Persönliche Werkzeuge