This document provides information about Texas Instruments' educational programs and hardware tools for teaching microcontrollers, digital signal processors, and other embedded technologies at the university level. It outlines TI's European University Program which provides curricula support, technical expertise, and discounted hardware to educators. Various TI processor families like MSP430, C2000, and Tiva are highlighted along with development boards and software tools suited for introductory and advanced courses on topics such as embedded systems, digital signal processing, robotics, and more.
RIT 2nd ARM Developer Day - Texas Instruments PresentationAntonio Mondragon
The document provides an overview of the Stellaris Cortex M3 Eval-Bot including:
- Technical specifications of the Stellaris microcontroller and other components on the board
- Examples of audio, display, control, and merging audio and control functions
- An introduction to Stellaris microcontrollers and the StellarisWare software suite including peripheral drivers, graphics libraries, USB libraries, and wireless extensions.
The document discusses the ARM9E-S and DM3730 processor boards and their suitability for digital signal processing applications. It describes the ARM9E-S architecture, the DM3730 functional blocks and software architecture. It also covers digital signal representation, common DSP algorithms like FIR/IIR filters and the DFT, and how these can be efficiently implemented using the ARM9E-S and DM3730 instruction sets and hardware features. In conclusion, it states that the DM3730 provides a low power and high performance platform for DSP.
Introducing OMAP-L138/AM1808 Processor Architecture and Hawkboard PeripheralsPremier Farnell
The document introduces the OMAP-L138/AM1808 processor architecture and peripherals on the Hawkboard. It discusses the OMAP-L138 processor which features an ARM9 and DSP subsystem. It also describes the programmable real-time unit (PRU) subsystem which provides additional control and customization. Finally, it provides an overview of various peripherals including SATA, MMC/SD, EMAC, USB, LCD controller, and pulse width modulators.
This document provides information on choosing processors and development tools for embedded applications. It discusses different types of processors like microcontrollers, microprocessors, DSPs and FPGAs. It also covers topics like multicore processors, embedded software design flow, hardware design flow, processor selection criteria, embedded development life cycle and more. The goal is to help readers understand the various options available when selecting hardware and tools for their embedded projects.
Embedded World 2015: Sense2Go - 24GHz Sensor Solution for Industrial Applicat...Infineon4Engineers
With this slideshare presentation you will learn a lot about Infineon's Sense2Go Development Kit which provides everything for your own motion detection, door opener and warehouse smart lighting project.
The presentation is fully packed with detailed information about Infineon microcontroller, shows the Sense2Go evaluation boards, delivers a detailed snapshot of the Sense2Go PCB with all technical features and presents the complete roadmap for BGTxx ICs. Moreover you find the Infineon microcontroller portfolio which consists of XMC1100 on the lower end and XMC4500 at the upper end.
This document describes the design and implementation of a smart parking system using wireless sensor networks. It includes block diagrams of the transmitter and receiver sides which use IR sensors, microcontrollers, and displays. It also lists and describes the hardware modules used, including power supplies, sensors, microcontrollers, displays, and communication modules. Sample code is provided for configuring the UART, transmitting data, and initializing and writing to an LCD display. References used in the project are listed at the end.
ARM Cortex -M3 based Motor Controling with Infineon Embedded Power ICsInfineon4Engineers
This Slideshare provides a variety of interesting information regarding Infineon Embedded Power ICs which target mainly the automotive market. In particular these are 3-phase motor control IC TLE987x and 2-Phase motor control IC TLE986x. Both chips are based on ARM Cortex -M3 and thus offer a lot of powerful opportunities.
Main applications of both ICs are driving high-end sunroofs, windows lifting, H-bridge DC motor controlling and much more. Interesting aspect is the software development tool chain Infineon provides with its motor control ICs.
The Acuvim II series are high-end, multifunction power and energy meters manufactured by Accuenergy. They offer features such as true RMS measuring, power quality analysis, data logging, communication protocols like Modbus and DNP3.0, and flexible I/O options. They can be used for monitoring and controlling power distribution systems and gathering data for plant automation. All monitored data is available via digital and Ethernet communication ports. With modular design and options, the Acuvim II series provides a versatile and cost-effective metering solution.
RIT 2nd ARM Developer Day - Texas Instruments PresentationAntonio Mondragon
The document provides an overview of the Stellaris Cortex M3 Eval-Bot including:
- Technical specifications of the Stellaris microcontroller and other components on the board
- Examples of audio, display, control, and merging audio and control functions
- An introduction to Stellaris microcontrollers and the StellarisWare software suite including peripheral drivers, graphics libraries, USB libraries, and wireless extensions.
The document discusses the ARM9E-S and DM3730 processor boards and their suitability for digital signal processing applications. It describes the ARM9E-S architecture, the DM3730 functional blocks and software architecture. It also covers digital signal representation, common DSP algorithms like FIR/IIR filters and the DFT, and how these can be efficiently implemented using the ARM9E-S and DM3730 instruction sets and hardware features. In conclusion, it states that the DM3730 provides a low power and high performance platform for DSP.
Introducing OMAP-L138/AM1808 Processor Architecture and Hawkboard PeripheralsPremier Farnell
The document introduces the OMAP-L138/AM1808 processor architecture and peripherals on the Hawkboard. It discusses the OMAP-L138 processor which features an ARM9 and DSP subsystem. It also describes the programmable real-time unit (PRU) subsystem which provides additional control and customization. Finally, it provides an overview of various peripherals including SATA, MMC/SD, EMAC, USB, LCD controller, and pulse width modulators.
This document provides information on choosing processors and development tools for embedded applications. It discusses different types of processors like microcontrollers, microprocessors, DSPs and FPGAs. It also covers topics like multicore processors, embedded software design flow, hardware design flow, processor selection criteria, embedded development life cycle and more. The goal is to help readers understand the various options available when selecting hardware and tools for their embedded projects.
Embedded World 2015: Sense2Go - 24GHz Sensor Solution for Industrial Applicat...Infineon4Engineers
With this slideshare presentation you will learn a lot about Infineon's Sense2Go Development Kit which provides everything for your own motion detection, door opener and warehouse smart lighting project.
The presentation is fully packed with detailed information about Infineon microcontroller, shows the Sense2Go evaluation boards, delivers a detailed snapshot of the Sense2Go PCB with all technical features and presents the complete roadmap for BGTxx ICs. Moreover you find the Infineon microcontroller portfolio which consists of XMC1100 on the lower end and XMC4500 at the upper end.
This document describes the design and implementation of a smart parking system using wireless sensor networks. It includes block diagrams of the transmitter and receiver sides which use IR sensors, microcontrollers, and displays. It also lists and describes the hardware modules used, including power supplies, sensors, microcontrollers, displays, and communication modules. Sample code is provided for configuring the UART, transmitting data, and initializing and writing to an LCD display. References used in the project are listed at the end.
ARM Cortex -M3 based Motor Controling with Infineon Embedded Power ICsInfineon4Engineers
This Slideshare provides a variety of interesting information regarding Infineon Embedded Power ICs which target mainly the automotive market. In particular these are 3-phase motor control IC TLE987x and 2-Phase motor control IC TLE986x. Both chips are based on ARM Cortex -M3 and thus offer a lot of powerful opportunities.
Main applications of both ICs are driving high-end sunroofs, windows lifting, H-bridge DC motor controlling and much more. Interesting aspect is the software development tool chain Infineon provides with its motor control ICs.
The Acuvim II series are high-end, multifunction power and energy meters manufactured by Accuenergy. They offer features such as true RMS measuring, power quality analysis, data logging, communication protocols like Modbus and DNP3.0, and flexible I/O options. They can be used for monitoring and controlling power distribution systems and gathering data for plant automation. All monitored data is available via digital and Ethernet communication ports. With modular design and options, the Acuvim II series provides a versatile and cost-effective metering solution.
This document provides an overview of robotics and embedded systems topics, including definitions of key concepts. It discusses embedded systems, robotics, advanced robotics involving various sensors and modules. It also introduces the ATmega16 microcontroller and programming in Arduino. Finally, it covers interfacing technologies like Bluetooth, Zigbee, GPS and ultrasonic sensors with microcontrollers.
The UniOP eTOP512 is a 12-inch HMI panel with an LED-backlit touchscreen display, Ethernet and USB connectivity, and support for vector graphics, multi-language applications, data acquisition, alarms, and more through the included JMobile software. It is designed for demanding HMI applications in factory and building automation. Key features include a 800x600 pixel SVGA display, 2 Ethernet ports, 2 USB ports, an SD card slot, and optional plug-in modules for fieldbus systems and I/O. The document provides extensive details on the technical specifications, functionality, ordering information and certifications of the eTOP512 HMI panel.
Ullas Hasyagar is seeking a full-time position in analog/digital circuit design and process instrumentation. He has over 7 years of experience as an R&D engineer developing circuits for communication techniques, embedded systems, and process instrumentation projects. His skills include analog and digital circuit design, Yokogawa field instrumentation software, data acquisition systems, signal modulation/demodulation, embedded C programming, and interfacing various sensors and devices. He has a BE in Telecommunication and is proficient in English, Kannada, and Hindi.
The document provides specifications for the AT32UC3B 32-bit AVR microcontroller. It includes high-level details about the microcontroller's features such as its CPU, memory, peripherals, communication interfaces, and debug system. It also provides configuration options and pinout diagrams for the available package variants.
The AT32UC3B is a 32-bit AVR microcontroller with features such as:
- Up to 512KB flash memory and 96KB SRAM
- USB device and embedded host interfaces
- Three USARTs, SPI, TWI, and other communication interfaces
- PWM, timer/counter, analog to digital converter, and other peripherals
- On-chip debug system and Nexus 2.0 interface for debugging
The document introduces the Texas Instruments AM37x Sitara processors and development tools. It provides an overview of the Cortex-A8 core, highlights key features of the AM3715 and AM3703 processors such as graphics acceleration and connectivity options. It also describes the AM37x product line and available development tools like the AM3517 evaluation module.
The document discusses Sun SPOT (Small Programmable Object Technology), a small wireless sensor device developed by Sun Microsystems that runs on a Java virtual machine called Squawk. It has various sensors and I/O capabilities. The document provides details on the hardware components of Sun SPOT including its processor, radio, battery life, and sensor boards. It also describes the Squawk virtual machine and SPOT software development kit (SDK) libraries. Examples are given of interfacing SPOT with sensors, switches, LEDs, and other devices. Potential applications of Sun SPOT for wireless sensor networks are mentioned.
This document describes a snake robot project consisting of 8 linked modules with 16 servo motors. Each module has 2 servo motors and passive caster wheels. The snake robot is capable of 3D locomotion through terrain using pressure sensors for uphill and downhill motion. IR sensors enable collision-free movement. The robot can be controlled off-site using a PC connected via XBee modules. Real-time video is transmitted from the robot's wireless camera. Sensors on the robot detect environmental parameters and obstacles, while a microcontroller processes sensor data and controls motion.
The UniOP eTOP510 is a 10.4" HMI panel with an LED-backlit touchscreen display, Ethernet and USB connectivity, and support for vector graphics, multi-language applications, data logging, alarms and more through the included JMobile software. It is IP66 rated and has optional modules for fieldbus communication and I/O. The document provides details on the display, system resources, interface options, functionality, ratings, dimensions, ordering information and technical support.
This document describes a wireless snake robot prototype called WASP. It has 8 linked segments that provide multiple degrees of freedom for flexible motion. The robot is intended to demonstrate horizontal and basic vertical movement as a proof of concept. Key components include a microcontroller for motion control, sensors for environmental analysis, and wireless communication between the robot and a PC interface. Algorithms are used to generate servo motor angles from user instructions to achieve the snake-like locomotion. The prototype aims to establish wireless control, sensor data reception and basic on-field movement capabilities. Future work may include improving gaits, mechanism design, power efficiency and adding autonomous capabilities.
The document discusses various clock systems, interrupts, and operating modes for microcontrollers:
- It describes clock sources like crystal oscillators and a digitally controlled oscillator that provides the main system clock.
- When an interrupt occurs, the program counter and status register are pushed to the stack before jumping to the interrupt service routine, which must end with a reti instruction.
- Low power modes like LPM3 disable parts of the clock system to reduce power consumption while still allowing interrupts to wake the device.
- Other topics covered include watchdog timers, interrupt prioritization, and entering/waking from low power modes.
(See: http://youtu.be/9rP-5TSk_dA)
Electronic Systems support every aspect of our lives today, both Visibly and Invisibly. Numbered in their tens of billions these are the dominant form of computing we now experience. And whilst many dissipate just milliwatts, their shear volume makes them a significant consumer of energy in their own right. Energy Efficiency in Computing has moved from the mainframe to become a consumer issue.
## By Ian Phillips http://ianp24.blogspot.co.uk/
## Opinions expressed are my own
Moved from SlideShare 10mar14 with 1064 views)
A collision prevention warning system is an automobile safety system which enables vehicles to identify the chances of collision and give visual and audio warning to the driver so that the driver can take necessary action to avoid `a collision.
A perfect range IP-based Video Solutions for key industries. With KEDACOM technologies, comprehensive video surveillance / video solutions can be developed that are analytics-enabled and robustly customised with KEDACOM SDK. We reserve the right to modify the brochure's contents with enhancements in technology without prior notice.
Sales Kits for NEXCOM Automation Control Solutions_20160404_FB__Eric LoEric Lo
The document discusses NEXCOM's control solution for IoT automation. It provides an overview of NEXCOM's PC-based automation controllers which offer a unified architecture connecting digital factories. The controllers provide PLC functionality, HMI, I/O, motion control, and connectivity to networks and fieldbuses. They are scalable, support various operating systems and protocols, and enable seamless OT/IT integration for industrial automation applications.
Presentation on embedded system and roboticsArpit Upadhyay
The document is a six-week summer training presentation on embedded systems and robotics submitted to Lovely Professional University. It summarizes the training, which was conducted at HP's nodal training center in Chandigarh, India. The training covered topics including embedded systems, robotics, microcontrollers, and a course project to build a computer-controlled robot using an AVR microcontroller and motor driver.
OV7670 Camera interfacing-with-arduino-microcontrollerSomnath Sharma
This document discusses interfacing an OV7670 camera module with an Arduino microcontroller. It begins with an introduction and objectives. It then describes the hardware used, including specifications of the camera module and Arduino. It provides circuit diagrams and explains the serial camera control bus protocol. The document outlines the program flow, including initializing the camera, receiving image bytes in rows, and converting the pixel data to an image file. It also discusses handling multiple scans and converting images to PDF. Finally, it concludes the camera can provide a low-cost, configurable image acquisition solution for applications like security and time-lapse photography.
The UniOP eTOP515 is a 15-inch HMI panel with a bright LED-backlit touchscreen display, Ethernet and USB connectivity, and support for vector graphics, multi-language applications, and communication with factory automation systems. It runs JMobile software for application development and features such as data acquisition, alarms, and recipes. The panel has an IP66-rated front panel, 256MB of memory, and optional modules for fieldbus systems and I/O.
Iaetsd vlsi based implementation of a digitalIaetsd Iaetsd
This document describes the design and implementation of a digital oscilloscope using an FPGA development board. It provides a low-cost alternative to commercial oscilloscopes. The design has three main blocks - an ADC converter to digitize analog signals, an FPGA for processing and control, and a VGA display. It allows users to view and measure signals up to 80MHz. The FPGA handles tasks like buffering digital data, generating display signals for the monitor, and interfacing with a mouse for user input. The overall design aims to provide hobbyists and students with an affordable tool for circuit debugging and learning oscilloscope functionality.
The document summarizes TI's portfolio of microcontroller units (MCUs) including the MSP430, C2000, Stellaris, and OMAP-L1x families. It highlights their key features such as power consumption, memory size, processing speed, and integrated peripherals. The document also discusses TI's development tools, software support, and complete solutions for applications in industries like industrial, medical, consumer, and more.
This document describes an exercise using USB in-system programming (ISP) on an LPC1343 LPCXpresso board without using host software. The key points are:
1. The LPC1343 board plugs into an NGX baseboard and the bootloader code executes on power-up or reset to either run the ISP command handler, user application, or obtain a boot image from a USB mass storage device.
2. Holding the PIO0_1 pin low during reset triggers the ISP command handler or USB device enumeration without checking for valid user code.
3. The state of the PIO0_1 pin determines whether the bootloader runs the
This document provides an overview of robotics and embedded systems topics, including definitions of key concepts. It discusses embedded systems, robotics, advanced robotics involving various sensors and modules. It also introduces the ATmega16 microcontroller and programming in Arduino. Finally, it covers interfacing technologies like Bluetooth, Zigbee, GPS and ultrasonic sensors with microcontrollers.
The UniOP eTOP512 is a 12-inch HMI panel with an LED-backlit touchscreen display, Ethernet and USB connectivity, and support for vector graphics, multi-language applications, data acquisition, alarms, and more through the included JMobile software. It is designed for demanding HMI applications in factory and building automation. Key features include a 800x600 pixel SVGA display, 2 Ethernet ports, 2 USB ports, an SD card slot, and optional plug-in modules for fieldbus systems and I/O. The document provides extensive details on the technical specifications, functionality, ordering information and certifications of the eTOP512 HMI panel.
Ullas Hasyagar is seeking a full-time position in analog/digital circuit design and process instrumentation. He has over 7 years of experience as an R&D engineer developing circuits for communication techniques, embedded systems, and process instrumentation projects. His skills include analog and digital circuit design, Yokogawa field instrumentation software, data acquisition systems, signal modulation/demodulation, embedded C programming, and interfacing various sensors and devices. He has a BE in Telecommunication and is proficient in English, Kannada, and Hindi.
The document provides specifications for the AT32UC3B 32-bit AVR microcontroller. It includes high-level details about the microcontroller's features such as its CPU, memory, peripherals, communication interfaces, and debug system. It also provides configuration options and pinout diagrams for the available package variants.
The AT32UC3B is a 32-bit AVR microcontroller with features such as:
- Up to 512KB flash memory and 96KB SRAM
- USB device and embedded host interfaces
- Three USARTs, SPI, TWI, and other communication interfaces
- PWM, timer/counter, analog to digital converter, and other peripherals
- On-chip debug system and Nexus 2.0 interface for debugging
The document introduces the Texas Instruments AM37x Sitara processors and development tools. It provides an overview of the Cortex-A8 core, highlights key features of the AM3715 and AM3703 processors such as graphics acceleration and connectivity options. It also describes the AM37x product line and available development tools like the AM3517 evaluation module.
The document discusses Sun SPOT (Small Programmable Object Technology), a small wireless sensor device developed by Sun Microsystems that runs on a Java virtual machine called Squawk. It has various sensors and I/O capabilities. The document provides details on the hardware components of Sun SPOT including its processor, radio, battery life, and sensor boards. It also describes the Squawk virtual machine and SPOT software development kit (SDK) libraries. Examples are given of interfacing SPOT with sensors, switches, LEDs, and other devices. Potential applications of Sun SPOT for wireless sensor networks are mentioned.
This document describes a snake robot project consisting of 8 linked modules with 16 servo motors. Each module has 2 servo motors and passive caster wheels. The snake robot is capable of 3D locomotion through terrain using pressure sensors for uphill and downhill motion. IR sensors enable collision-free movement. The robot can be controlled off-site using a PC connected via XBee modules. Real-time video is transmitted from the robot's wireless camera. Sensors on the robot detect environmental parameters and obstacles, while a microcontroller processes sensor data and controls motion.
The UniOP eTOP510 is a 10.4" HMI panel with an LED-backlit touchscreen display, Ethernet and USB connectivity, and support for vector graphics, multi-language applications, data logging, alarms and more through the included JMobile software. It is IP66 rated and has optional modules for fieldbus communication and I/O. The document provides details on the display, system resources, interface options, functionality, ratings, dimensions, ordering information and technical support.
This document describes a wireless snake robot prototype called WASP. It has 8 linked segments that provide multiple degrees of freedom for flexible motion. The robot is intended to demonstrate horizontal and basic vertical movement as a proof of concept. Key components include a microcontroller for motion control, sensors for environmental analysis, and wireless communication between the robot and a PC interface. Algorithms are used to generate servo motor angles from user instructions to achieve the snake-like locomotion. The prototype aims to establish wireless control, sensor data reception and basic on-field movement capabilities. Future work may include improving gaits, mechanism design, power efficiency and adding autonomous capabilities.
The document discusses various clock systems, interrupts, and operating modes for microcontrollers:
- It describes clock sources like crystal oscillators and a digitally controlled oscillator that provides the main system clock.
- When an interrupt occurs, the program counter and status register are pushed to the stack before jumping to the interrupt service routine, which must end with a reti instruction.
- Low power modes like LPM3 disable parts of the clock system to reduce power consumption while still allowing interrupts to wake the device.
- Other topics covered include watchdog timers, interrupt prioritization, and entering/waking from low power modes.
(See: http://youtu.be/9rP-5TSk_dA)
Electronic Systems support every aspect of our lives today, both Visibly and Invisibly. Numbered in their tens of billions these are the dominant form of computing we now experience. And whilst many dissipate just milliwatts, their shear volume makes them a significant consumer of energy in their own right. Energy Efficiency in Computing has moved from the mainframe to become a consumer issue.
## By Ian Phillips http://ianp24.blogspot.co.uk/
## Opinions expressed are my own
Moved from SlideShare 10mar14 with 1064 views)
A collision prevention warning system is an automobile safety system which enables vehicles to identify the chances of collision and give visual and audio warning to the driver so that the driver can take necessary action to avoid `a collision.
A perfect range IP-based Video Solutions for key industries. With KEDACOM technologies, comprehensive video surveillance / video solutions can be developed that are analytics-enabled and robustly customised with KEDACOM SDK. We reserve the right to modify the brochure's contents with enhancements in technology without prior notice.
Sales Kits for NEXCOM Automation Control Solutions_20160404_FB__Eric LoEric Lo
The document discusses NEXCOM's control solution for IoT automation. It provides an overview of NEXCOM's PC-based automation controllers which offer a unified architecture connecting digital factories. The controllers provide PLC functionality, HMI, I/O, motion control, and connectivity to networks and fieldbuses. They are scalable, support various operating systems and protocols, and enable seamless OT/IT integration for industrial automation applications.
Presentation on embedded system and roboticsArpit Upadhyay
The document is a six-week summer training presentation on embedded systems and robotics submitted to Lovely Professional University. It summarizes the training, which was conducted at HP's nodal training center in Chandigarh, India. The training covered topics including embedded systems, robotics, microcontrollers, and a course project to build a computer-controlled robot using an AVR microcontroller and motor driver.
OV7670 Camera interfacing-with-arduino-microcontrollerSomnath Sharma
This document discusses interfacing an OV7670 camera module with an Arduino microcontroller. It begins with an introduction and objectives. It then describes the hardware used, including specifications of the camera module and Arduino. It provides circuit diagrams and explains the serial camera control bus protocol. The document outlines the program flow, including initializing the camera, receiving image bytes in rows, and converting the pixel data to an image file. It also discusses handling multiple scans and converting images to PDF. Finally, it concludes the camera can provide a low-cost, configurable image acquisition solution for applications like security and time-lapse photography.
The UniOP eTOP515 is a 15-inch HMI panel with a bright LED-backlit touchscreen display, Ethernet and USB connectivity, and support for vector graphics, multi-language applications, and communication with factory automation systems. It runs JMobile software for application development and features such as data acquisition, alarms, and recipes. The panel has an IP66-rated front panel, 256MB of memory, and optional modules for fieldbus systems and I/O.
Iaetsd vlsi based implementation of a digitalIaetsd Iaetsd
This document describes the design and implementation of a digital oscilloscope using an FPGA development board. It provides a low-cost alternative to commercial oscilloscopes. The design has three main blocks - an ADC converter to digitize analog signals, an FPGA for processing and control, and a VGA display. It allows users to view and measure signals up to 80MHz. The FPGA handles tasks like buffering digital data, generating display signals for the monitor, and interfacing with a mouse for user input. The overall design aims to provide hobbyists and students with an affordable tool for circuit debugging and learning oscilloscope functionality.
The document summarizes TI's portfolio of microcontroller units (MCUs) including the MSP430, C2000, Stellaris, and OMAP-L1x families. It highlights their key features such as power consumption, memory size, processing speed, and integrated peripherals. The document also discusses TI's development tools, software support, and complete solutions for applications in industries like industrial, medical, consumer, and more.
This document describes an exercise using USB in-system programming (ISP) on an LPC1343 LPCXpresso board without using host software. The key points are:
1. The LPC1343 board plugs into an NGX baseboard and the bootloader code executes on power-up or reset to either run the ISP command handler, user application, or obtain a boot image from a USB mass storage device.
2. Holding the PIO0_1 pin low during reset triggers the ISP command handler or USB device enumeration without checking for valid user code.
3. The state of the PIO0_1 pin determines whether the bootloader runs the
The document provides information about Microchip's Harmony integrated development software platform. It highlights some key benefits of the platform including code interoperability between drivers and libraries, faster time to market through an integrated single platform, improved compatibility through scalability across Microchip parts, and quicker support through one stop support for all design needs including third party solutions. It also mentions the platform's ability to easily integrate third party software solutions.
The document provides an introduction to the TMS320F2812 digital signal controller. It begins with definitions of common computing terms like microprocessor, microcontroller, digital signal processor, and digital signal controller. It then compares these terms. The document discusses the architecture of microprocessors, microcontrollers, and digital signal processors. It provides details on the features and architecture of the TMS320F2812, including its CPU, memory, peripherals, math units, and internal bus structure. It describes how the TMS320F2812 combines the processing power of a digital signal processor with memory and peripherals on a single chip.
The document introduces the Piccolo F2806x microcontrollers from Texas Instruments, which feature a floating point unit, control law accelerator, and new VCU unit for complex math. The F2806x MCUs are aimed at applications like power line modems, UPS systems, and motion control with peripherals including ADCs, PWM, CAN, and USB. Tools like controlSUITE and development kits are provided to help developers create applications using the new features of the F2806x Piccolo series microcontrollers.
The document discusses an open-source microcontroller kit designed for educational purposes. The kit allows students to easily practice microcontroller programming through hands-on experiments. It contains a variety of peripherals connected to an ATmega128 microcontroller that students can use to complete over 70 basic to advanced level experiments covering various engineering topics. The goal is to provide students with a student-centric, interactive way to learn embedded systems and microcontroller programming. Detailed instructions and open-source resources are made available to enable students to build their own kits.
Андрій Озгович “IoT Cypress solution. Low cost, low power” {R0boCamp}Lviv Startup Club
This document is a presentation about Cypress's wireless solutions for IoT. It discusses Cypress's PSoC 4 BLE microcontrollers, which integrate a CPU, Bluetooth radio, programmable analog and digital blocks, and CapSense. It highlights the PSoC 4 BLE's low power capabilities and compares it to other Cypress products. The presentation also discusses the engineering challenges of IoT design and how PSoC 4 BLE addresses these, such as by enabling low power modes. It provides an overview of the PSoC product line and introduces PSoC Creator, the integrated design environment for developing with PSoC chips.
The document provides an overview of programmable logic controllers (PLCs), including their functions, hardware components, programming languages, communication protocols, and the support services provided by CERN's BE-ICS group for PLC systems. PLCs are industrial control systems that can handle input and output signals to control machinery and processes, and are commonly used in applications that require reliability under harsh conditions. The document also discusses the UNICOS control system approach used at CERN which standardizes PLC and SCADA systems across different experimental areas.
The document provides an overview of programmable logic controllers (PLCs), describing their main functions and components, including how they collect input from sensors, run control programs, produce outputs to actuators, and communicate with supervisory systems. PLCs are designed for industrial processes and operate under severe conditions using various programming languages to handle basic and complex control logic. Common PLC manufacturers supported at CERN include Siemens and Schneider, which offer a range of PLC models and programming software tools.
The document provides an overview of programmable logic controllers (PLCs), describing their main functions and components, including how they collect input from sensors, run control programs, produce outputs to actuators, and communicate with supervisory systems. PLCs are commonly used in industrial processes to automate control of machinery and processes due to their reliability under harsh conditions and ability to perform logic functions and complex algorithms in real-time. The document also discusses common PLC manufacturers, components, programming languages, and communication protocols used in industrial control systems.
International Journal of Engineering Research and DevelopmentIJERD Editor
Electrical, Electronics and Computer Engineering,
Information Engineering and Technology,
Mechanical, Industrial and Manufacturing Engineering,
Automation and Mechatronics Engineering,
Material and Chemical Engineering,
Civil and Architecture Engineering,
Biotechnology and Bio Engineering,
Environmental Engineering,
Petroleum and Mining Engineering,
Marine and Agriculture engineering,
Aerospace Engineering.
The document provides details about the Department of Electronics and Communication Engineering at National Institute of Technology Calicut, including information about its faculty members and their research areas, degree programs offered, laboratories and facilities, publications, patents, and books. It outlines the department's areas of research focus such as image coding, speech recognition, and wireless communication systems.
The document provides details about the Department of Electronics and Communication Engineering at National Institute of Technology Calicut, including information about its faculty members and their research areas, degree programs offered, laboratories and facilities, publications, patents, and books. It outlines the department's areas of research focus such as image coding, speech recognition, and wireless communication systems.
The document discusses the MSP430 microcontroller family from Texas Instruments. It provides an overview of the MSP430 architecture including its ultra-low power capabilities, peripherals, and development tools. Specific MSP430 derivatives and their features are also highlighted.
Industrial Automation Technical Support including: Tasks estimation, research and technical documentation writing, manual preparation; Real-time operation systems; Porting of existing Software to new target Hardware; Software and Hardware optimization; Hardware bring-up; Drivers development, redesign, upgrades; Design and implementation of embedded Software; Testing software development and verification.
Spansion FM Family of Flexible MicrocontrollersSpansion
The Spansion FM (flexible microcontrollers) family, based on ARM® Cortex-M processors, offers a seamless transition for customers for high performance and low power needs. The family delivers high performance up to 200 MHz / 250 MIPS for applications such as factory automation, building management and motor control, as well as ultra low power features for sensors, human machine interfaces and home appliances. These products are offered with different voltage ranges from 1.65V to 5.5V, embedded Flash memory options ranging from 64Kbytes to 2Mbytes, analog interfaces, and support for serial, CAN, USB and Ethernet communications interfaces.
The document provides information on various DSP companies and their products. It discusses Analog Devices' ADSP-218xN and EZ-KIT Lite evaluation boards, as well as its ADSP-2191, ADSP-21535, ADSP-BF561, ADSP 21mod980, ADSP-TS201/202/203, and ADSP-TS201S processors. It also summarizes Texas Instruments' OMAP1510 application processor and TMS320C54CST client-side telephony DSP, among other TI products. Hitachi Semiconductor of America's SH7727 microprocessor is also mentioned. The document concludes with information on DSP products from various other companies.
The document discusses Internet of Things (IoT) support for .NET Core/5/6. It provides an overview of the goals for .NET in IoT, the capabilities that are available such as integration with Azure services and support for device protocols and libraries. It also includes examples of code samples and supported device types and sensors.
Advanced view of atmega microcontroller projects list at mega32 avrWiseNaeem
Most of the electronics geeks are asking the whole list of Atmega AVR projects PDF here we will share list every month as our projects are being updated on daily basis. PDF is a good source to work offline. We will offer direct PDF file download link with info of its release date , number of projects.
Similar to EUP Presentation_FS_MAY2015_Linkedin (20)
Advanced view of atmega microcontroller projects list at mega32 avr
EUP Presentation_FS_MAY2015_Linkedin
1. TI European University Program
Enabling teaching and research to use TI technologies!
www.ti.com/EUP
2. Matching Processors to Curriculum
PROJECTS: Undergraduate, Graduate and PhD
MCU / Embedded Systems / Microprocessors
Signals & Systems
Digital
Control/
Digital
Power
Computer Science
MSP430™
Very First
Program Intro to Linux
Mech.
Eng.
Real-Time DSP
Image & Video
ProcessingRoboticsBio-Eng.
SensorNets
Lighting &
Renewables
Communications
Bio-Med
Signal Proc.
Code Composer Studio – One Install covers All !
Mechatronics
Digital Signal Processors (DSPs)Microcontrollers (MCUs) ARM®-Based Processors
32-bit ARM
Cortex™ M4
Microcontrollers
TIVA®
16-bit ultra-
low power
Microcontrollers
MSP430™
High-
performance
DSPs
C6000, Multicore
ARM
Cortex A8 &
Sitara ARM9
Low-power
DSPs
C5000™
32-bit
real-time
Microcontrollers
Delfino™ Piccolo™
TI European University Program www.ti.com/eup
3. Matching Processors to Curriculum
PROJECTS: Undergraduate, Graduate and PhD
MCU / Embedded Systems / Microprocessors
Signals & Systems
Digital
Control/
Digital
Power
Computer Science
MSP430™
Very First
Program Intro to Linux
Mech.
Eng.
Real-Time DSP
Image & Video
ProcessingRoboticsBio-Eng.
SensorNets
Lighting &
Renewables
Communications
Bio-Med
Signal Proc.
Code Composer Studio – One Install covers All !
Mechatronics
Digital Signal Processors (DSPs)Microcontrollers (MCUs) ARM®-Based Processors
32-bit ARM
Cortex™ M4
Microcontrollers
TIVA®
16-bit ultra-
low power
Microcontrollers
MSP430™
High-
performance
DSPs
C6000, Multicore
ARM
Cortex A8 &
Sitara ARM9
Low-power
DSPs
C5000™
32-bit
real-time
Microcontrollers
Delfino™ Piccolo™
TI European University Program www.ti.com/eup
4. 4
Direct technical support to educators
Two effective ways to get technical support
The ECSC is TI’s main support to post-grads in Academia…
We rely on YOU to support your under-grads !
www.ti.com/asktexasasktexas@ti.com
TI European University Program www.ti.com/eup
• Specific educational topics
(e.g. contests, events)
• Projects repository grouped per areas
• Access to TI expertise: product information &
technical support
• Dedicated position to organize University support
resources
• Languages: English, French, German, Italian,
Spanish, Czech/Slovak, Russian, Polish, Hungarian
European Customer Support
Center (AskTexas)
Engineer to Engineer
Community Forum (E2E)
Technical forums divided per areas of expertise
European University Program
Forum
5. MSP430 Teaching Materials
Provides the vital core materials to enable educators and
academics to teach microcontrollers, using devices from TI’s
MSP430 family
5
MSP Microcontrollers Entry-Level
5
Value Line LaunchPad
– Rapid prototyping for just $9.99 –
Learn more @ ti.com/launchpad
FR5969 LaunchPad + LCD Display
– Rapid prototyping for just $9.99 –
Hardware Software
MSP430Ware
Complete collection of existing MSP430 design resources
GUI for browsing content
Features the new MSP430 Driver Library
Available as a CCS plugin or standalone executable
USB LaunchPad
– Rapid prototyping for just $9.99 –
Ultra-low power & great for general
purpose applications
Integrated USB
MSP-EXP430F5529LP
This LaunchPad is Ultra-Low Power
General purpose applications
MSP-EXP430G2
16-bit microcontroller platform of ultra-low power
RISC mixed-signal microprocessors
LCD Display
Ultra-low power & FRAM memory
MSP-BNDL-FR5969LCD
$9.99
$12.99
$29.99
6. 6
MSP Microcontrollers Advanced-Level
6
MSP-EXP430F5529 USB Experimenter Board MSP-EXP430FR5739
16-bit microcontroller platform ultra-low power RISC mixed-signal uP
Key applications: metering, portable medical, wireless communications (CC430),
motor control, energy harvesting, etc.
• Development platform for USB applications.
• 102x64 dot-matrix LCD
• microSD card slot
• 3-axis accelerometer
• 5 cap touch pads
• Built-in interface for Low Power Wireless RF modules
• 9 LEDs
• Analog thumb-wheel
• Integrated eZ-FET Spy Bi-Wire debug interface
• FRAM memory (next generation non-volatile
memory technology)
• General purpose LEDs & switches
• Temperature sensor
• 3-axis accelerometer
• Built-in interface for Low Power Wireless RF
modules
• On-board Emulation for programming &
debugging
Material Available:
MSP-EXP430F5529 USB Experimenter
Board
Teaching ROM
MSP-EXP430FR5739
Training Workshop
7. 77
Learn more @ ti.com/msp432
Hardware Software
MSP 432 MCUs performs up to four times the amount of work for the same power as
competitive Cortex-M3 solutions thanks to a Coremark score of 3.41.
$12.99
MSP432 based on Cortex M4F and 32 bits
MSP-EXP432P401R
Entry-Level
Ultra-low power: 95uA/MHz
active power, and 850nA RTC
High Performance:
14-bit 1MSPS low power ADC,
256KB Flash, 64KB RAM, and 32-
bit 48MHz ARM Cortex M4F for
high performance
MSP430Ware
Complete collection of existing MSP430
design resources
GUI for browsing content
Features the new MSP430 Driver
Library
Available as a CCS plugin or standalone
executable
EnergyTrace+
Onboard emulator that allows to program
and debug your projects without the need
for additional tools, while also measuring
total system energy consumption through
power profiles. That includes on the
MSP432::
Current Monitoring
CPU State (PC)
MSP Microcontrollers
8. $179
C2000 Teaching Materials
The C2000 Teaching ROM features 19
modules for TMS320F28335 and
TMS320F28027 devices. Includes
presentation slides along with procedures
and solutions for laboratory exercises.
8
C2000 Microcontrollers
Entry-Level
8
Learn more @ ti.com/controlsuite
Applications–
Hardware Software
ControlSUITE
Centralized set of software infrastructure
and software tools for C2000
Graphical User Interface (GUI) for intuitive
navigation
Libraries, Application notes, Datasheets
and User Guides
32 bit microcontrollers with high performance integrated peripherals
designed for real-time control applications
$17.05
C2000 Piccolo LaunchPad
Optimized for Real-Time Applications
LAUNCHXL-F28027
Motor Control
C2000 Peripheral Explorer Kit$9.99 –
Quick Start GUI, a friendly way to
control the application
Optimized to interact with peripherals
TMDSPREX28335
Advanced-Level
LED LIGHTING SOLAR POWER MOTOR CONTROL
9. $199
9
TIVA ARM® Microcontrollers
9
Learn more @ ti.com/tivaware
Hardware Software
TivaWare
Royalty-free libraries (Peripheral, USB,
Graphics, Sensor)
Kit-and peripheral-specific code examples
for TM4C123x devices
Release Application notes, Datasheets
and User Guides
Everything you need to use for your Tiva C
Series kits & Launchpads
Tiva™ C Series MCUs offer the industry’s most popular ARM Cortex™-M4 core with scalable
memory and package options, connectivity peripherals, and advanced analog integration.
$12.99
TIVA C LaunchPad
Highly integrated with communication
modules
EK-TM4C123GXL
DK-TM4C129X Connected Development Kit$
Quick Start GUI, a friendly way to
control the application
Optimized to interact with peripherals
DK-TM4C129X
Advanced-LevelEntry-Level
10. 10
BoosterPacks – Add functionality to your LaunchPad!
BYOB: Build Your Own BoosterPack @ http://www.ti.com/byob
More information @ www.ti.com/boosterpacks
11. 11
BoosterPacks – Add functionality to your LaunchPad!
BoosterPacks are modular plug-in boards
that fit on top of the LaunchPad
baseboards to create compelling new
applications.
They are ordered on:
- Input/Outputs : DAC, ADC, Capacitive touch, sensors
- Displays : LCD, LEDs, epaper, OLED
- Motor Control: Stepper Motor, BOOST-DRV8848,
BOOSTXL-DRV8301
- Wireless: Sub-GHz, BLE, WiFi, ZigBee
- Storage: SD cards, MicroSD…
- …
12. Analog, Mixed-Signal, Wireless tools for Academia
ANALOG SYSTEMS LAB KIT (ASLK PRO): Teaching Analog was never so easy!
A cost efficient didactic platform designed
for undergraduate engineering students
to perform analog lab experiments
Comes with 14 step-by-step experiments
A very attractive package for the first analog
touch-based electronics
DATA CONVERSION AND POWER MANAGEMENT
Data Converters:
Full range of tools for
teaching mixed-signal:
e.g. Precision ADC, DAC,
High speed ADC, DAC
LOW POWER CONNECTIVITY – Wireless sensor nodes, wireless networks
A complete set of
ZigBee, Wireless & Bluetooth
Development tools eZ430-RF2560
99$
CC2530 Mini ZNP Kit
99$
DC-DC conversion:
Full range of tools
E.g. TPS63000EVM-148
Buck boost (portable)
Power Managment
“Gas Gauge” BQ20Z90EVM-001
LED Driver TLC5940EVM-106
Li-ion charger BQ24730EVM
TI European University Program www.ti.com/eup
13. Analog Systems Lab Kit PRO (ASLK PRO)
• 14 step-by-step exercises
• PART I – learning the basics
• PART II – building analog
systems
• FLEXIBLE – one can build
custom exercises
AnaloALSK Pro – Setting up an Analog lab was never so easy!
TI European University Program www.ti.com/eup
15. IoT (Internet of Things)
Benefits:
- Quick and easy prototyping: Cloud connectivity lets you
access and control your SensorTag from anywhere
- Multi-standard support enables BLE, ZigBee or 6LoWPAN
- Android and iOS sample apps
- Worldwide certified solution
- Ultra-low power, with years of battery life from a single coin cell
battery and enabling battery-less applications
- Programmable high-performance ARM® Cortex®-M3 CC2650
wireless MCU
- 10 sensors available:
Ambient light
Digital Microphone
Object Temperature
Ambient Temperature
Humidity Sensor
Pressure Sensor
Accelerometer
Gyroscope
Magnetometer
Magnetic Sensor
BLE/Zigbee/6LowPAN Smart Development Kit - SensorTag
The only development kit targeted for smart phone app developers.
End-use:
Proximity and indoor location tracking
Educational tools
Health and fitness
Medical
Remote controls
Mobile phone accessories
$29
16. IoT (Internet of Things)
Benefits:
- On-chip ARM Cortex®-M4 – 80MHz processor allows custom APIs
to be done on-chip, lower total BOM cost
- Wi-Fi network processor – On-chip WLAN and TCP/IP stack,
industry standard API. No previous Wi-Fi experience needed
- IoT Cloud Ecosystem to easily and rapidly connect more to the IoT
I- ndustry’s first devices to be Wi-Fi CERTIFIED™ at the chip level by
the Wi-Fi Alliance™
- Operates from 2 AA alkaline batteries
- Onboard emulation
Independent Dev platform
Accelerometer
Ambient temperature
LEDs
Push buttons
SimpleLink™ Wi-Fi® CC3200 LaunchPad
The industry’s first single-chip programmable MCU with built-in Wi-Fi connectivity.
End-use:
Home Automation
Appliances
Safety and Security
Smart Energy
Industrial M2M
Communication
$29.99
17. TI European University Program www.ti.com/eup
High-speed data
transfer applications
LCDK Development Board.
DSP6748 and ARM9
Price: $195
Based on TI’s
ARM Cortex A8
1GHz ARM Cortex A8
3D graphics accelerator
Flexible expansion
Price: $55
Multicore DSP
Evaluation Module
Easy-to-use, cost-efficient
C6678 or C6674 or C6672
multicore DSP
Price: $399 (6678L)
Low-power DSPs
Portable electronics in consumer,
communications, medical, security
& industrial apps
Eclipse-based CCSv6:
one software, ALL TI Processors!
The most comprehensive, Integrated
Development Environment (IDE)
Code Composer Studio v6C5000
Code Composer Studio: install one IDE and work with all TI processors!
High-performance DSPs
Professional audio, video and image
processing and software defined
radio typical applications
C5515 eZDSP
USB Dev. Kit
A small form factor,
very low cost USB-
powered
32-bit programmable low
power stereo codec
Embedded XDS100 Emulator
Line in, Headphone out
Fixed point low power DSP
Price: 79$
DSP tools for projects & teaching
C5535 eZDSP
USB Dev. Kit
LCDK6748
Development Kit
TMS320C6678 EVM
BeagleBone Black
We provide Code Composer Studio
free of charge for Academia*!
*Full CCSv6 with a special license for
installing up to 100 users with floating
licenses
Supports ALL TI Processors (MCUs & DSPs)!
*If undergraduates students require CCS for self-
study there is a 120 day time-limited edition
downloadable from
http://focus.ti.com/docs/toolsw/folders
/print/ccstudio.html
The industry
lowest-power 16-bit DSP
uSD card slot (with 2GB Card)
OLED display
Embedded XDS100 Emulator
Line in/Mic in, Headphone out
Fixed point ultra-low power DSP
Price: 99$
TI European University Program www.ti.com/eup
C6000 & Multicore
18. TI European University Program www.ti.com/eup
► What is TI IC Design Contest?
Annual competition which gives the opportunity for university
students (under/post-graduates) to show their creativity and
engineering skills whilst working on a system-based project
using TI’s broad range of analog integrated circuits,
microcontrollers, and wireless IC’s.
► Which topic?
Free topic! Think about innovative applications such as: driver
assistance systems, smart grid, energy harvesting, power
management, hybrid/electric power train systems, wireless
connectivity technology, passive safety, lighting systems that
solve a mechanical problem (i.e.in the automotive field), motor
drive, smart buildings, infotainment, etc.
► What can you win?
Every registered team can get up to 100$ of TI tools and
compete for the following prizes:
1st Prize: 10000$
2nd Prize: 5000$
3rd&4th Prize: 2500$
20 first round prizes: 1000$
KU Leuven (Belgium) presenting the
winning project for 2012 at Electronica
Fair (Munich)
For more details, visit:
www.ti.com/tiic-eu
TI Innovation Challenge: Europe Design Contest
TI European University Program ti.com/eup
► How can you apply?
Registration deadline: 28th February 2015
Project submission deadline: 31st July
2015
19. Previous Events:
2012: Amsterdam, The Netherlands
120 WW delegates
Workshops: ARM Cortex M, C6000, MSP430 & LPRF
2010: Nice, France
2008: Tel Aviv, Israel
2006: Munich, Germany
2004: Birmingham, UK
EDERC: Embedded Design in Education & Research Conference
www.ti.com/ederc2014
Areas of interests (but not limited to):
• DSP / MCU Technology in Education
• Embedded System Design and implementation using any
of TI’s platforms (C6000, C5000, C2000, MSP430, OMAP,
ARM9, Cortex A8, Cortex M3 and Cortex M4)
• Real-Time Multimedia: Image, Graphics, Video, Audio,
Speech, 3D-Imaging, Compressed Sensing
• Real-Time Security and Surveillance Systems, Smart
Cameras
• Real-Time Control: Digital Control, Motor Drives, Digital
Power, Renewables
• Real-Time Communications: Wired/Wireless, SDR,
Broadband/UWB, Internet, VOIP, Optical
TI European University Program www.ti.com/eup
EDERC2014 in Milan!
20. 20
TI contacts for Academia
Are you a university lecturer interested in
TI support for teaching tools?
A simple proposal, by e-mail: Which course do you lecture? What do you
want to achieve? What are the outputs of this activity? What tools do you
need?
Take care with part numbers! (Include weblink)
Support is tailored on a case-by-case basis. We will respond quickly!
University Program Webpage www.ti.com/EUP
University Program email address EUP@list.ti.com
E2E technical forum e2e.ti.com
Technical assistance for lecturers asktexas@ti.com
TI European University Program www.ti.com/eup
23. MotorWare
The C2000 Teaching ROM features 19
modules for TMS320F28335 and
TMS320F28027 devices. Includes
presentation slides along with procedures
and solutions for laboratory exercises.
23
C2000 Microcontrollers – Motor Control
23
Learn more @ ti.com/instaspin
InstaSPIN
Centralized set of software infrastructure
and software tools for C2000
Graphical User Interface (GUI) for intuitive
navigation
Libraries, Application notes, Datasheets
and User Guides
32 bit microcontrollers with high performance integrated peripherals
designed for real-time control applications
Three Phase BLDC Motor Kit with DRV8312 and Insta-SPIN Enabled
Piccolo MCU
• Kit for spinning three-phase BLDC and BLAC/PMSM
motors
• Cost-effective sensorless field-oriented control
(FOC)
• High-performance
• Isolated XDS100 Emulation, UART, SPI, CAN
Connectivity
• Includes NEMA17 BLDC/PMSM 55W Motor
DRV8312-69M-KIT
Three Phase BLDC & PMSM Motor Kit with DRV8302
DRV8302-HC-C2-KIT
Hardware Software
Learn more @ ti.com/motorware
ControlSUITE
$299
$299
Digital Power and SolarLighting