ECE 445: Senior Design Laboratory

1. ECE 445: Senior Design Laboratory Lectures and Training in Electrical Hardware and Associated Skills ECE 345

2. Goals • Tools/Resources available from the Senior Design Laboratory • Instruments • Modules: XSA-100, DSP, PICS, BASIC-STAMPS • Software: Simulators and Graphics Control. • Special Electronic Parts • Methods/Skills ECE 345

3. I) Tools 1. Instruments Waveform Generator Oscilloscope Spectrum Analyzer 2. Computers and Gate Arrays DSP FPGA Microcontrollers PIC Basic Stamp 3. Simulators ADS Pspice/Orcad 4 .Graphics Control Software Labview (National Boards) HPVee 5. Special Parts (Available and promoted) GPS Linx Chips (RF communications) Overview ECE 345

4. 6 .Sensors Ultrasonic Accelerometers Pressure Temperature Laser II) Methods/Skills 1. Troubleshooting 2. Soldering and surface mounts 3. Hardware protection guidelines ECE 345

5. 1.1 Waveform Generator • Produces an electrical voltage that varies with time. • Periodic Signals: signal whose pattern is repetitive. For instance a sinusoid waveform. PM 5139 - 20 MHz Frequency from 0.1 mHz to 20 MHz (20 Vpp). 24 Arbitrary waveform-memories See data sheet for details ECE 345

6. 1.2 Digital Oscilloscopes • Oscilloscopes are typically used to measure the characteristics (such as amplitude, rise and fall times, etc) of a voltage signal with respect to time. • Specifications: • 1 GSample/sec simultaneously on 2 channels • 500 MHz analog bandwidth • 1 ns peak detect • Optional expansion modules for FFT, waveform storage, and remote control • Sweep speeds from 1 ns/div to 5 s/div HP 54616B HP 54616C Manual ECE 345

7. Scope Notes SIGNAL CONDITIONING EXERCISES ECE 345

8. SCOPE PROBES Oscilloscope Probes An oscilloscope probe measures the electric signal at the source and transport them to the input channel of the scope. An IDEAL PROBE would execute this task without causing any perturbation on the circuit under test (or without LOADING it). Exercises ECE 345

9. 1.3 Spectrum Analyzer DESCRIPTION AND LAB EXERCISES HP 8568A ECE 345

10. 2.1 TI DSP Modules Resources from ece320 • Introduction to TI DSP Assembly • Addressing Modes and Examples • Core File Documentation • Debugging and Troubleshooting Exercise Additional Resources: ECE 320 DSP Lab DSP Store Papers, tutorials, FAQs, and links on audio DSP ECE 345

11. 2.2 FPGA: Field Programmable Gate Array What is it? How to run Xilinx WebPACK 4.1 for FPGAs (from ECE 249 web page) ECE 345

12. 2.3 MICROCONTROLLER WE CURRENTLY SUPPORT: Motorola 68HC912B32 Microcontroller Download: Simulator for Motorola 68HC12 (Download) ECE 345

13. 2.4 PIC Microcontroller Programmer What is it? How to use it? ECE 345

14. 2.5 Basic Stamp 2 • PIC16C57 Microcontroller • 20 MHz/4000 instructions per second • EEPROM 2 k bytes (program and data) • Program length: 500 lines in BASIC • 16 I/Os • Very easy to use • Getting Started (from Parallax) • Basicx Microcontrollers(from BasicX) • BASIC Stamp 2 and BasicX modules available in the lab ECE 345

15. 3.1 ADS (Agilent Advance Design System) A powerful electronic design software system. It offers complete design integration to designers of products such as cellular and portable phones, pagers, wireless networks, radar and satellite communication systems . ADS Tutorial (from ECE 351) 3.2 Pspice/Orcad OrCAD is a useful development package that includes programs for making schematics of digital or analog circuits (Capture), simulating those circuits (PSPICE), and laying out printed circuit boards (Layout Plus). PSPICE Tutorial (from ECE343) SIMULATORS ECE 345

16. 4.1 HPVEE The VEE programming environment is a tool for integrating test and measurement equipment in a computer.  It allows for control and display of any HPIB devices on the bench (oscilloscopes, multimeters, spectrum analyzers, etc.).  If you need to capture and print something off a scope, this is the software to use. HP VEE Tutorial 4. GRAPHICS CONTROL SOFTWARE ECE 345

17. 4.2 Labview (National Instrument Boards) What is Labview? Exercises ECE 345

18. 5. SPECIAL PARTS 5.1 GPS, WHAT IS IT? WE CURRENTLSUPPORT: GARMIN V GARMIN 12 XL ECE 345

19. 5.2 LINX CHIPS (Wireless RF) DIGITAL ANALOG/DIGITAL LC SERIESHP-II SERIES HOW TO USE THE LINX MODULES ECE 345

20. 6. SENSORS Examples of sensors used in previous ece445 projects: • Ultrasonic: Intelligent Autonomous Vehicle with Ultrasound Remote Sensing • Accelerometer: Electronic Fight Judge • Pressure: Home Area Network • Temperature, EKG: Telemonitoring Unit • Laser: GPS range Finder ECE 345

21. TROUBLESHOOTING Troubleshooting 101 (prepared by Jon Wheeler) A GOOD BOOK: Troubleshooting Analog Circuit ECE 345

22. 2.2 Soldering Safety • Always solder in a well ventilated area! • Never eat, drink or smoke while soldering. Wash your hands thoroughly with soap and water before doing anything else! • Never leave your soldering iron plugged in when not in use or unattended! • Never override the grounding system on your soldering iron (or any other tool)! • Legs and arms should be covered to avoid burns from splashed hot solder. How to solder recommendations ECE 345

23. 2.3 HARDWARE PROTECTION GUIDELINES • Protecting a microprocessor and using it to drive loads • Driving large loads with TTL logic ECE 345