1. Electronic Engineering Final Year Project Design and Build a Switch-Controlled Turntable Name: Dean McDonnell Supervisor: Dr. Maeve Duffy

2. Electronic Engineering Final Year Project Objective of Project Design and Build a portable switch-controlled turntable Table must manoeuvre in an upwards/downwards manner Must be controlled through an IR Transmitter Design the table so as to fit under an assortment of beds Rotate a maximum of 5kg

3. Background Previous version designed in North Carolina for children with severe disabilities. This is called the “Lazy Susan” Extreme disadvantages before this invention as they could not independently retrieve toys Could not choose between multiple items Electronic Engineering Final Year Project

4. Background “Lazy Susan” in Action Building of the “Lazy Susan” Electronic Engineering Final Year Project

5. Background Dramatic change of lifestyle for both child and guardian Allow the children to access toys without teacher intervention Teachers, therapists, parents and children all gained independence Electronic Engineering Final Year Project

6. Design Goals Consist of a fixed table along with a turntable Controlled through an IR transmitter Rotate in a circular manner Manoeuvre upwards and downwards Controlled by separate motors for different tasks Electronic Engineering Final Year Project

7. Design Goals Rotating Motor will be able to rotate up to 5kg Powered by a 12volt power supply Portable Attachable to different types of beds Electronic Engineering Final Year Project

8. Approach Technology Review was completed before a User Needs Review was commenced Data sheets were researched for different motors Different companies were contacted Bi-directional motors were a must Rotational speeds were always questioned Electronic Engineering Final Year Project

10. The Selected Motor Electronic Engineering Final Year Project

11. Approach Tests were then completed within the lab Observation of the rotating parts of the motor Starting and stopping times and the speed of the rotation Current being drawn and the voltage needed Electronic Engineering Final Year Project

12. Progress Rotational Motor is researched and found The H-Bridge is now also found More testing needs to be completed for the H-bridge DC position controllers and speed sensors are currently being researched Electronic Engineering Final Year Project

13. H-Bridge Electronic circuit which enables a voltage to be applied across a load in either direction H-bridges control the polarity of the motor Control the braking of the motor Electronic Engineering Final Year Project

14. H-Bridge Electronic Engineering Final Year Project

15. The Next Steps The next motor will need to be found To control the upwards and forwards movement of the table Physical designing of the table Installation of the motors Electronic Engineering Final Year Project

16. The Next Steps Setting up of the IR transmitter A risk assessment will have to be concluded Affects the health and safety of the user Electronic Engineering Final Year Project

17. Potential Hurdles/Concerns The safety of the product when completed The cables/wires that will be attached to the table – will they be hidden? Physical designing of the table so as to fit on the assortment of beds

18. Conclusion Continuing at a slow rate Result of the difficulty of finding the rotating motor Steps involving the H-bridge and the speed sensors should be quickly achieved Difficult part involves the programming of the IR Transmitter Electronic Engineering Final Year Project

19. Questions? Electronic Engineering Final Year Project