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Transcript
ENSC 305/340
Team Presentation
Dyno I
Fall 2004
Presented By:
Arash Taheri
Ali Taheri
Houman Hatamian
Nima Kokabi
Agenda
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Introduction/Background by Arash
Hardware Design by Nima
Software Design by Houman
Implementation by Ali
Cost Structure / Future Plan by Arash
Conclusion by Nima
Introduction
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A prosthetic eye replaces a real human
eye lost in an accident or by a disease
These eyes primarily serves esthetical
purposes
The appearance of prosthetic eyes
have improved quite dramatically over
the years
However more improvements need be
done
Current Prosthetic Eyes
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Prosthetic eyes provide patients with a very
closely resembling replica of real human eye.
However, the main draw back of current
prosthetic eyes is lack of dynamicity in the
pupil.
Current Prosthetic Eyes
cont…
Dyno I’s Proposed Solution
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Dyno I® have developed a design in
which a dynamic pupil is integrated
into a prosthetic eye.
A custom made LCD consisting of
several rings is utilized as the pupil of
the eye.
The system is also consists of
photodiode and a microcontroller to
measure the intensity of the ambient
light.
Overall System Design
Custom-Made Transmissive
LCD
Final Hardware Design
Microcontroller
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
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Ultra low-power microcontroller
featuring LCD driver
Ability to reduce unnecessary power
consumption
Utilizing the on board A/D converter to
measure the intensity of the ambient
light
Battery powered, low cost and reliable
Software Design

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Compare photo diode generate voltage with
calibrated reference voltage
Calculating the number rings necessary to
be ON
Making the CPU to go the Sleep mode and
remain there for 1 second
Reducing power consumption
Going to standby mode when at pitch dark
for more than 5 min: tremendous power
saving feature
Software Algorithm
Design Obstacles

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Battery powered: One 3V battery
preferentially lasting for 2 years
All the circuitry components including
the battery need to be heat resistance;
the prosthetic eyes need to be heat
cured
Size constraint: the smallest the
circuitry the more universal the product
will be
Working Prototype
Working Prototype
cont…
Projected Cost
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Microcontroller : $2.50
Photodiode: 50 ¢
Battery: $2
LCD: $2.50
Crystal: $1
Electronic components: $1
LCD flex cable connector: $1.75
PCB: $1.50
Assembly cost: 75 ¢
Total: $13.50 Cnd
Projected Market

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Approximately new 400 prosthetic
eyes made in BC last year
Life cycle of 2 to 3 years for existing
eyes: they need to be replaced
Approximately 40,000 prosthetic eyes
made in North America last year
Estimated 20,000 colored eye
Projected Market
cont…
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Our target price: $125
Estimated revenue from North
America: $2,500,000
Projected Startup funding required:
$150,000
Possible sources of funding: IRAP,
Bank Loans, Angel Investor, etc.
Future Improvements



Thin LCD: possibly the newly
introduced thin film LCD
Designing our custom-made integrated
circuitry, IC: extremely small and low
powered consumption
Source of power: rechargeable
batteries, solar cells, etc.
Conclusion
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Our product improves the appearance
of a prosthetic eyes by a great extent
Our designed prosthetic eye at Dyno I®
will provide patients with a very cost
effective and cosmetically appealing
solution that functions very similar to a
real eye
Sustainable market with potential to be
extended to European and other
markets throughout the world.