1 / 13

Group 31Q Billy Smith Jacob Black George McDonald Keith Brown Supervised By Dr. Geoff Lockwood Project Manager Bob Novem

Group 31Q Billy Smith Jacob Black George McDonald Keith Brown Supervised By Dr. Geoff Lockwood Project Manager Bob November 2, 2002. Presentation Overview What We Learned Our Goal Preliminary Design Components Progress Report. What We Learned

redell
Télécharger la présentation

Group 31Q Billy Smith Jacob Black George McDonald Keith Brown Supervised By Dr. Geoff Lockwood Project Manager Bob Novem

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. Group 31Q Billy Smith Jacob Black George McDonald Keith Brown Supervised By Dr. Geoff Lockwood Project Manager Bob November 2, 2002

  2. Presentation Overview • What We Learned • Our Goal • Preliminary Design • Components • Progress Report

  3. What We Learned Tutorial #1: - construction of circuits - methods for measurement of voltage, current, and resistance Tutorial #2: - operational amplifiers Tutorial #3: - analog-to-digital converters - seven-segment displays

  4. Our Goals • Learn to build and analyze simple electronic circuits. • Produce an inexpensive weather station suitable for home use, with the capability to measure readings in the ranges of: • -40oC to +40oC • 0% to 100% humidity (±2%)

  5. Preliminary Design • Our circuit will contain the following: • LM555 Timer/Square Wave Clock • AD7819 Analog-to-Digital Converter • Temperature Transducer Circuit • Humidity Transducer Circuit

  6. Components of Circuit • 1. LM555 Timer/Square Wave Clock • 2. AD7819 Analog to Digital Converter • 3. Temperature Transducer Circuit • 4. Humidity Transducer Circuit

  7. Component #1 • (LM555 Timer/Square Wave Clock) • used to generate a square-root wave • sends an analog clock signal to the AD converter • square-root wave produces intervals of reading/sampling of the analog input signal Pictures courtesy of National Semiconductor

  8. Component #2 (Analog-to-Digital Converter) An AD789 linked with the DM9368 common-cathode display driver and a seven segment display • Convert analog signals from the transducers to binary codes • Convert binary code into a digital display Picture courtesy of National Semiconductor

  9. Component #3 • (Temperature Transducer) • LM35 precision integrated-circuit temperature sensor • ±0.5oC accuracy guaranteed (at +25oC) • Rated for –55oC to +150oC range Picture courtesy of National Semiconductor

  10. Minimum Supply Voltage Our given temperature range produces a fluctuation in signal of ±1V. An amplifier may be required to make this signal usable for our purposes. Picture courtesy of National Semiconductor

  11. Component #4 • (Humidity Transducer) • HIH-3605-A transducer circuit allows us to read the relative humidity • Send an analog signal to the AD (Analog/Digital Circuit) converter Picture courtesy of National Semiconductor

  12. Output Voltage • Transducer outputs within target range of AD Converter Picture courtesy of National Semiconductor

  13. Final Progress Report • The clock and Analog/Digital Converter have been constructed and tested • Next we plan to implement the temperature and humidity transducers • Group cooperation is satisfactory and there are no team issues to report

More Related