Part I

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Transcript Part I 

Design Process
Analysis & Evaluation
Part I
Example Design: Solar Candle
by
Prof. Bitar
Analysis & Evaluation
Homeworks #4 & 5
Define Product
Interfaces
1
2
Analyze
HW#4
Design
Analysis
3
Build
Define Product
Changes
5
4
Evaluate
Test
&
Evaluation
HW#5
The Customer Requirements
Explicit
– Cat Safe
– Look Nice
– Different Colors
– Automatic
– Six Hour Minimum
Implicit
– Low Cost
– Reliable / Durable
– Low Maintenance
Product Requirements
Safety / Durability
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–
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–
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Heavy Base (Batteries in Base)
Unbreakable Bulb (LED)
Secure to Window Sill, Sash or Window Pane
No Cords
Low Voltage (1.5V or 3V)
Operation & Aesthetics
– Traditional Look
– Interchangeable Color LED’s
– Flickering Option
Low Operating Cost
–
–
–
–
Long Battery Life (Six Hour Minimum)
Rechargeable Battery
Solar Rechargeable
Photo Sensor or Timer
Modified System Block Diagram
Solar Cell
Charge
Controller
Rechargeable
Battery
Efficient
Drive
Circuit
Mode
Selection
Photo
Sensor
Timer
Switching
Control
LED
Technical Research Areas
Solar Cells – Availability, cost, size, shape,
output voltage, output current, silicon types,
spectrum sensitivity.
Charge Controllers – Voltage Regulation,
Current Regulation, etc.
Rechargeable Batteries – NiCad, NiMH, Other?,
Overcharging & Under-voltage Concerns, etc.
Drive Circuits – DC/DC Boost Converters, Charge
Pumps, etc.
LED’s – Colors, Voltage Levels, Current
Requirements, Intensities, Illumination Angles, etc.
Photo Sensors – Types, Interface Requirements
What to Consider First?
Start at the OUTPUT. What does our
design have to do? Drive an LED.
What current? What Voltage(s)?
Take a look at LED specification sheets…
Agilent White LED Spec. Sheet
Dissected
LED Specifications
Absolute Maximum Ratings
NOT TO BE EXCEEDED !!
LED Specifications
Electrical Characteristics
Normal Operating Conditions
LED Specifications – Curves !
Relative Intensity vs. Wavelength
LED Specifications – Curves !
Max. Forward Current vs. Temperature
Stay well under this curve !!
LED Specifications – Curves !
Max. Forward Current vs. Voltage
Check: 20mA @ 3.2V (Typical)
LED Specifications – Curves !
Spatial Radiation Pattern
Check Viewing Angle !!
Mechanical Specifications
LED Drive Requirements
“First Stakes in the Ground”
Must supply a constant current of
approximately 20mA.
Must supply a minimum of 3.2V for
white LED’s.
Should work for other color LED’s,
since they have lower voltage levels.
Customer Requirement Check
NOTE: Each decision MUST map to a
customer requirement !!
Question: Which customer requirements
are met by designing for an LED current of
20mA at a minimum of 3.2V?
Answer: Multi-Color LEDS, Reliable,
Durable, Low Maintenance
Update System Block Diagram
Solar Cell
Charge
Controller
Rechargeable
Battery
Efficient
Drive
Circuit
Mode
Selection
Photo
Sensor
Timer
Switching
Control
LED
20mA
3.2V(min)
What to Consider Next?
The Battery (or Batteries)
– Battery Capacity: How long does the candle need to
operate? (Six Hours Minimum)
– Battery Voltage: What is the minimum battery
voltage? ( 3.2V )
– Battery Availability: What rechargeable technologies
will work in this application? (NiMH, NiCd, Lithium Ion,
Sealed Lead Acid)
– Battery Shape: Needs to fit in candle stem or base.
– Battery Cost: I don’t want to spend a lot on batteries!
Battery Selection - Two Viable Options
Major Factor? Price!
Voltage/Cell Capacity Size Price (1) Price (1k)
NiCd
1.2V
700mAhr AA
1.78
0.852
NiMH
1.2V
1600mAhr AA
3.48
1.775
Problem: Need at least 3 batteries in series
to achieve 3.2V minimum.
Energy Considerations…
Need: 20mA x 3.2V x 6hrs = 384 mW hrs
(ie: 1382.4 Joules)
One NiCd: 700mAhrs x 1.2V = 840 mW hrs
(ie: 3024 Joules)
Conclusion: A single NiCd has more than
enough energy to do the job ! (But the
voltage will have to be “boosted”).
Battery Specifications
Battery Specification
Discharge Curve
Battery Specification
Charge Curve
Update System Block Diagram
Solar Cell
Charge
Controller
Rechargeable
Battery
1.2V NiCd
Efficient
Drive
Circuit
Mode
Selection
Photo
Sensor
Timer
Switching
Control
LED
20mA
3.2V(min)
What Next? LED Drive Circuit
Solar Cell
Charge
Controller
Rechargeable
Battery
1.2V NiCd
Efficient
Drive
Circuit
Mode
Selection
Photo
Sensor
Timer
Switching
Control
LED
20mA
3.2V(min)
Searching LED Driver IC’s…
www.digikey.com
– LED Drivers (1,319 IN STOCK!)
Narrowing Search (down to 47)
– Step-Up (Boost)
– Vmin ≤ 0.8V (why?)
– Internal Switch
– Number of Outputs (1)
– Small Qty. Packaging (cut tape / tube)
Case…avoid DFN, QFN, LLP, BGA
Possible LED Drivers
Manufacturer
Part Number
Linear Technology
LTC3490ES8#PBF
$4.20
LT1932ES6#TRMPBF
$4.17
ZXLD383ET5CT-ND
$1.56
Diodes/Zetex
Unit
Diodes/Zetex - ZXLD383ET5CT
Typical Application Circuit
Update System Block Diagram
Solar Cell
Charge
Controller
Rechargeable
Battery
1.2V NiCd
700mAHr
Zetex
LED
Driver
85% Eff.
Mode
Selection
Photo
Sensor
Timer
Switching
Control
LED
20mA
3.2V(min)