Embedded system
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The document defines an embedded system as a special-purpose computer system that is completely encapsulated within a larger device it controls. An embedded system combines both hardware and software to perform dedicated functions for applications like industrial automation, transportation, consumer electronics, and other areas. Examples of embedded systems include appliances, avionics systems, automotive control systems, medical equipment, telecommunications equipment, and many other common devices that are not general-purpose computers.
Embedded system
- 3. DEFINITION: An embedded system is a special-purpose computer system, which is completely encapsulated by the device it controls. An embedded system has specific requirements and performs pre-defined tasks, unlike a general-purpose personal computer.
- 4. An embedded system is a programmed hardware device. A programmable hardware chip is the 'raw material' and it is programmed with particular applications. This is to be understood in comparison to older systems with full functional hardware or systems with general purpose hardware and externally loaded software. Embedded systems are a combination of hardware and software which facilitates mass production and variety of application.
- 5. A combination of computer hardware and software, and perhaps additional mechanical or other parts, designed to perform a dedicated function.
- 6. EMBEDDED SYSTEM is a combination of SOFTWARE and HARDWARE. An Embedded system is a system, that has a computing device embedded into it. These are the controllers, processors, arrays or other hardware using dedicated (embedded) logic or programming (code) called “firmware” or a “microkernel Embedded systems are designed around a µC which integrates Memory & Peripherals Embedded systems: What are they? A special purpose computer built into a larger device „Special-purpose‟. Embedded systems have a (more or less) well-defined purpose Contrast with: general purpose computers (PCs etc). „Built into a larger device‟. Embedded systems are (usually) part of a larger device, augmenting its capabilities.
- 7. It is EMBEDDED because the Micro Controller is „inside‟ some other system. For Example a Micro Controller is „EMBEDDED‟ into your TV, car, or appliance. The consumer need not think about how to make it perform or process * Avoids lots of Electronics Components * Built in rich Features * Reduces the cost, space * Less Down Time for Maintenance * Probability of Failure is reduced * Easy interface with Computers
- 8. • Sophisticated functionality • Real-Time Operation • Low Manufacturing Cost • Low Power Consumption • Eliminates Necessity of Complex Circuitry • Smarter Products • Smaller Size • User Friendly • State of the Art Technology
- 9. General Computing • Applications similar to desktop computing, but in an embedded package • Video games, set- top boxes, wearable computers, automatic tellers Control Systems • Closed- loop feedback control of real- time system • Vehicle engines, chemical processes, nuclear power, flight control Signal Processing • Computations involving large data streams • Radar, Sonar, video compression Communication & Networking • Switching and information transmission • Telephone system, Internet
- 10. Real-Time Operation • Reactive: computations must occur in response to external events • Correctness is partially a function of time Small Size, Low Weight • Hand- held electronics and Transportation applications -- weight costs money Low Power • Battery power for 8+ hours (laptops often last only 2 hours) Harsh environment Harsh environment • Heat, vibration, shock, power fluctuations, RF interference, lightning, corrosion Safety- critical operation • Must function correctly and Must not function in correctly Extreme cost sensitivity
- 11. * MICRO CONTROLLERS (µC) * MICRO PROCESSORS (µP) * DIGITAL SIGNAL CONTROLLERS (DSC) * DIGITAL SIGNAL PROCESSORS (DSP) * BUSSES (Data, Address, Input/output) * SYSTEM CLOCK - Steps µC / µP Through Each Instruction * READ ONLY MEMORY (ROM): Permanently Loaded With Instructions (FIRMWARE) * RANDOM ACCESS MEMORY (RAM) * STORES DATA IN PROCESSING / SHARES DATA WITH EXTERNAL PARTNERS * REAL TIME CLOCK (RTC) * COMMUNICATIONS CIRCUITRY - Ethernet Port, Printer Port, Communications Port (RS232c, RS485, RS422, IEEE488)
- 12. • Automatic Teller Machines or ATM's & Bank Vaults • Automotive & Automobile Engine Management systems: Electronic Dashboards, ABS brakes, transmission controls. • Blue Tooth enabled Network Synchronization Applications • Control Systems (Manufacturing, Cryogenics, Electric Power) • Controls for Digital Equipment: CD Players, TV Remote, Programmable Sprinklers, Household Appliances, etc. • Computer motherboards (BIOS chips, RTCs) • Global Positioning and Navigation Systems • Household Appliances • Medical instrument‟s controls - CT scanners, MRI Scanners, ECG, Pacemakers and implanted pumps, implanted heart monitors, etc. • Supervisory Control and Data Acquisition (SCADA) systems • Telecommunications (Private Branch Exchanges, Custom Premises Equipment)
- 13. • • • • • • Performance. Overall speed, deadlines. Functionality and user interface. Manufacturing cost. Power consumption. Other requirements (physical size, etc.)
- 14. • COMMERCIAL OFF-THE-SHELF COMPONENTS (COTS) e.g. wireless radios, sensors, I/O devices, –Cheap • APPLICATION-SPECIFIC ICS (ASICS) ICs tailored to meet application needs, Good performance for their intended task(s), Original Ess were ASICs only • • • • • DOMAIN-SPECIFIC PROCESSORS DSPs Microcontrollers Digital Signal Controllers Microprocessors
- 15. MICROCONTROLLER: • Microcontroller is a highly integrated chip that contains all the components comprising a controller. • Typically, this includes a CPU, RAM, some form of ROM, I/O ports, and timers. A Microcontroller is designed for a very specific task – to control a particular system. • As a result, the parts can be simplified and reduced, which cuts down on production costs • Atmel, Microchip – PIC, Maxim, Motorola
- 16. More than 140 Types of Micro Controllers Available Some of the examples are .., • • • • • • Microchip – PIC, DS pic,RF pic Atmel – AVR, ARM, 89cxx ANALOG Devices Texas Instruments ST Microcontrollers Zilog, Cypress, Maxim, Dallas, Motorola, etc.,
- 17. SIGNAL PROCESSING SYSTEMS- Real-Time Video, Set-top Boxes, DVD Players, Medical Equipment, Residential Gateways. DISTRIBUTED CONTROL- Network Routers, Switches, Firewalls, Mass Transit Systems, Elevators. SMALL SYSTEMS- Mobile Phones, Pagers, Home Appliances, Toys, Smart Cards, MP3 players, PDAs, Digital Cameras, Sensors, Smart Badges.
- 18. • • • • • • Eliminates necessity of complex circuitry Smarter products Smaller size Lower cost User friendly State of the art technology
- 19. • • • • • • • Hardware Design Engineer Software Design Engineer Device Driver Developer Kernel Developer Network Engineer RTOS Programmer Software Engineer in Research & Development
- 20. • • • • • • • • • • • • • • AXES technologies CG Smith Converge Labs Future Software IBM LUCENT MASCON Sundaram Telematics Visteon WIPRO TCS Infosys Robert Bosch Kshema Technologies and so on…