1 / 23

CE 478 Microcontroller Systems

CE 478 Microcontroller Systems. Spring 2011. Prof. Dan Ernst. http://www.cs.uwec.edu/~ernstdj/courses/ce478. Welcome. Class overview Policies etc. What are embedded systems? Why are they interesting? Why are they needed? Note: There is no required textbook for this class! Office hours:

daria
Download Presentation

CE 478 Microcontroller Systems

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. CE 478Microcontroller Systems Spring 2011 Prof. Dan Ernst http://www.cs.uwec.edu/~ernstdj/courses/ce478

  2. Welcome • Class overview • Policies etc. • What are embedded systems? • Why are they interesting? • Why are they needed? • Note: There is no required textbook for this class! Office hours: Wednesday: 9 – 11 am Friday: 1 – 3 pm or by appointment

  3. Labs and Equipment • Fridays are Lab days in P 122. (not 171!) • There may be some exceptions (watch your e-mail!) • In labs you will sometimes be in groups of 2 • Equipment needs to stay in the lab area.

  4. Grading* Item Weight ====== ========= Labs/Homeworks 30% Exams (2) 30% (15% midterm; 15% final) Project 30% Quizzes 10%

  5. Final Project • Final Project will involve constructing a “polished” digital system • Implement the hardware and software involved in your design • Ideas and examples of projects are/will be posted on the class website • Project will involve multiple phases • Proposal • Implementation • Presentation/Documentation

  6. What we will cover* • PowerPC architecture and assembly language • Bus protocols and interfacing • Including P6, PPC, and maybe others • Digital design review • Common I/O devices • Timers, A/D converters, serial I/O, etc. • Interrupts • I/O devices demanding attention • Direct Memory Access (DMA): • I/O devices talk directly to memory • Memory technologies: SRAM, DRAM, Flash etc • Analog to digital and back again. • Error correction and other “special” topics.

  7. Administrivia P122 access: You’re welcome to work in P122 on 478-related projects anytime, except Weds. 2 – 4 pm and Tues. 3:30 – 5:30 pm ( CS 278 lab) If you can avoid it, don’t leave the boards out – there will be plenty of cabinet space, and other classes (CS 278) need to use the space. You will receive a key to the cabinets on the first lab day. Please don’t distribute the access code, or let in extra people! http://www.cs.uwec.edu/comdistro

  8. General Purpose Computers • Microcomputers are computers based on microprocessors • General purpose microcomputers • PC’s, Macs, etc. • Generally require a large amount ofsupport circuitry • Memory, communications, I/O, keyboard,display...

  9. Address Bus Data Bus Control Bus PCI Bus Serial Interface Disk Controller Video Memory Parallel Interface Real-time Clock Keyboard/MouseController ... Disk Interface Video Display Controller Inside a General Purpose Computer PCIBusBridge Clock,Resetcircuitry ROM CPU RAM

  10. Does One Size Fit All? • Advantages of a general-purpose computer • Flexible - can run lots of programs and interface with lots of devices • Expandable - can be updated with new hardware • Cost-effective - the cost of adding a new program is small • Economy of scale - millions are being produced… • Disadvantages • Must be a “super” system, capable of running any program • High price • Relatively large, short battery life

  11. Embedded Systems • Embedded Systems are small, special-purpose computer systems • Rocket guidance systems • Toaster control systems • Handheld electronics • Toys • Only the necessary parts are included • Cheaper, smaller • Simpler --> more reliable?

  12. Needs of Typical Embedded Systems • Consider the following embedded systems: • Programmable thermostat • Blood Glucose Meter • iPod Touch™ • Automobile System Controller • Single-purpose • Small • Inexpensive • Reduced computation needs (most of the time) • Special interfaces • Lightweight (often hand held)

  13. So… • You don't need a traditional user interface to decide which programs should be running • You don't need to dynamically load programs into your devices • You don't need to waste time waiting for the O/S to load • if one is needed, then it doesn't have baggage that make it slow to load • You don't need to load programs or data from a slow disk drive - most information needed will be in fast ROM

  14. Why PCs Aren’t Practical for Everything • What does it take to build a blood glucose meter using a typical PC microprocessor? • 1 Intel/AMD/other CPU • Dynamic RAM, controller • ROM (one or two chips) for program • Real-time clock • LCD panel • Serial interface ports, drivers • A/D Converter • Random support chips (five or six chips) • This is going to take around 5+ chips, use > 100 W, and cost > $400.

  15. ASICs: The Other End of the Spectrum • Since consumer electronics are made to do one thing, we should just be able to hardwire a solution! • Construct an ASIC (Application-Specific Integrated Circuit) • Custom chip that does a single thing, but does it VERY well! • Very little need for software support • Downside: making a custom mask will cost you a fortune • Lots of engineering design time • At least $10,000 up front to make a mask • $$$ to reserve time in the fab (or build your own fab)

  16. FPGA – a middle solution? • Could use an Field-Programmable Gate Array (FPGA) • (a la 278) • Advantages: • Programmable • Much cheaper than ASICs • (at least in small quantities) • Disadvantages: • Not as intuitive as software • Still not super-cheap • Take up a lot of space/power relative to the capability they bring

  17. The Spectrum of Hardware/Software Solutions Flexibility Price and/or Performance Full-Custom ASIC Digital Signal Processor Embedded MicroController High-Performance MicroProcessor "Application-Specific Processor"

  18. Why Consumer Electronics make Money • A Microcontroller is a small CPU with support devices built into the chip • Small CPU • Small ROM • RAM, EEPROM • Parallel ports • RS232 ports • A/D Converter • Timer • Typically, a microcontroller uses little power and costs $0.50 to $100.00

  19. A Generic Microcontroller FlashEEROM2KB – 256KB RAM256B – 64KB Timer16-32 Bit Small CPU Core8-32 Bits 2-40 MHz ADC8-14 Bits RS232/USB GPIO I2C/SPI Memory Bus16-24 Bits

  20. Embedded Systems Definition: • Dedicated to controlling a specific real-time device or function • Self-starting, not requiring human intervention to begin. The user cannot tell if the system is controlled by a microprocessor or by dedicated hardware (or magic!) • Self-contained, with the operating program in some kind of non-volatile memory

  21. How are things controlled? • Switches • Switches can be used to switch things on or off e.g. lights can be on or off • They can also be used to switch between values e.g a heater can be set to a number of values • Sensors • Sensors can tell if something is on or off • Sensors can tell you the value of something e.g. temperature • Timers • Timers can control the duration of other activities, such as how long a light is on, or the time between ADC samples • Analog controllers • Things such as voltage can be set for analog devices such as motors

  22. What we will cover* • PowerPC architecture and assembly language • Bus protocols and interfacing • Including P6, PPC, and maybe others • Digital design review • Common I/O devices • Timers, A/D converters, serial I/O, etc. • Interrupts • I/O devices demanding attention • Direct Memory Access (DMA): • I/O devices talk directly to memory • Memory technologies: SRAM, DRAM, Flash, etc. • Analog to digital and back again. • Error correction or other “special” topics

More Related