1. Project Glide Garage Door Tele-Controller
5/31/2018
Project Glide Garage Door Tele-Controller
Team
Graham Linn
Srija Pidaparthy
Marc Miyaki
Advisor
Dr. Lillevik, Dr. Osterberg & Dr. Hoffbeck
Industry Representatives
Mr. Steve Kassel (Mathstar)
Mr. Paul Menig (Freightliner)
October 2006
University of Portland School of Engineering

2. Overview Introduction Accomplishments Plans Milestones Concerns/Issues
5/31/2018
Overview
Introduction
Accomplishments
Plans
Milestones
Concerns/Issues
Conclusions
October 2006
University of Portland School of Engineering

3. Introduction A device to remotely control a garage door
5/31/2018
Introduction
A device to remotely control a garage door
Who will it benefit?
People who forget to close their garage doors
Those who desire an extra level of security and control for their garage door
October 2006
University of Portland School of Engineering

4. Introduction Project Glide will use several digital devices:
5/31/2018
Introduction
Project Glide will use several digital devices:
DAA (connect to phone)
DTMF Decoder (to interpret info from user)
Voice Chip (to play back messages to the user)
MOSIS Chip (to control the system)
October 2006
University of Portland School of Engineering

5. Scorecard Budget planning MOSIS chip design
Call companies to get part information Done
Acquire major parts for our design Done
DAA, DTMF Decoder, Voice Playback chip
MOSIS chip design
Flowchart Done
State Diagram, State Tables in progress
October 2006
University of Portland School of Engineering

6. Additional Accomplishments
5/31/2018
Additional Accomplishments
Functional Spec 1.1
Project Plan 0.9
Design work:
Chip Testing
Voice Chip functional
October 2006
University of Portland School of Engineering

7. Plans for November Update Project Plan to .95, 1.0 MOSIS Chip Design
5/31/2018
Plans for November
Update Project Plan to .95, 1.0
MOSIS Chip Design
State Diagram, State Tables
Implement in B2Logic
Run BLT, hand in .edf file to Dr. Osterberg
Define materials for Design Review
October 2006
University of Portland School of Engineering

8. Milestones October 2006 University of Portland School of Engineering
5/31/2018
Milestones
Number
Description
Original
9/22/06
Previous
Present
10/31/06 1
Product Approval
9/11/06 2
Plan Approval
10/27/06
11/10/06 3
Parts Chosen
9/18/06 4
xxx.edf file due
11/22/06
Design Release
12/08/06 5
TOP’s Approval
2/23/07 6
PLD Version Complete / MOSIS chip received
3/15/07 7
MOSIS chip testing complete
3/22/07 8
Prototype Release
4/13/07 9
Founder’s Day
4/17/07 10
Final Report
4/27/07
October 2006
University of Portland School of Engineering

9. Concerns/Issues Will chips function as we think they do?
5/31/2018
Concerns/Issues
Will chips function as we think they do?
Compatibility of our major blocks
I/O Voltages, Digital/Analog
MOSIS design
Transition from state diagram to B2Logic schematic
Need to obtain/test garage door opener
October 2006
University of Portland School of Engineering

10. 5/31/2018
Possible Solutions
Need to test all chips to ensure they work as we expect
Ask for help on MOSIS design from advisors
Remind Dr. Lillevik about garage door opener
October 2006
University of Portland School of Engineering

11. Conclusions Project Glide: Scorecard Plans:
5/31/2018
Conclusions
Project Glide:
A device to remotely control a garage door
Scorecard
Plans:
Design
Test, test, test
October 2006
University of Portland School of Engineering

12. Questions? Glide, Oregon October 2006
5/31/2018
Questions?
Glide, Oregon
October 2006
University of Portland School of Engineering