11. 11
A smartphone is a small device
■ Battery design is limited by physical constraints:
● a few cm long / wide,
● a few mm thick
12. 12
Batteries are not diamonds
■ Capacity drops with time
● A pool of new 1500mAh Li-ion batteries for
smartphones is tested.
● All packs show a starting capacity of 88–94 percent
and decrease in capacity to 73–84 percent after 250
full discharge cycles.
Source : Cadex, 2010
15. 15
Battery density progress
■ Performance in battery density hasn’t progressed
much for 20 years
Conclusion:
● Battery capacity is capped by the device’s size.
16. 16
Power demand increases
■ In the meantime, power demande inside the smartphone
has increased
■ Mainly due to the new features being available :
Wider screens
GPS
3G, now 4G/LTE
NFC
Better audio rendering, and so on…
20. 20
Three ways to get more power at any time:
1. Better batteries
Wanted: innovative technology
2. Alternative power supplies
If 1 battery is not enough, get 2
3. Harvesting power devices
Carry your own personnal power plant
21. 21
1 – Better batteries
■ Lithium-ion (Li-ion) batteries have established themselves as a leader in energy and
power densities for mobile applications. These batteries account for a market worth
more than $10 billion. However, the reign of Li-ion will soon be threatened by next-
generation batteries.
■ Operating systems like Microsoft Windows or Apple OS X are increasingly being
deployed in handheld smart phones and tablets and system complexities will only
grow with time and in smaller, thinner devices. Batteries are a major roadblock today
on the way to this goal: The thin, small, lightweight batteries of today simply do not
pack the energy required by truly novel consumer electronics.
■ The incumbent, Li-ion, will put up a worthy fight but by 2020, solid-state will draw
close as current complex manufacturing processes that are a challenge today are
solved, costs fall and energy densities rise. From this foundation, it will surge past Li-
ion in technical value by 2030.
■ Li-S will also make strong progress, but won’t quite match the well-rounded value
propositions of solid-state and advancing Li-ion, finding only niche consumer
electronics applications that prize excellent specific energy above all else.
■ Li-air is a non-factor in this sector, hampered by its volumetric inefficiency and its
need for peripherals.
■ The road to technologies like Li-air, Li-S, and solid-state batteries is long, but the time
to start paying attention and tracking the development of specific companies,
technologies and applications is now.
● Source: Lux Research report “Beyond Lithium-Ion: A Roadmap for Next-Generation Batteries” — client
registration required.
23. 23
1 – Better batteries: 30 seconds charge
■ Israeli startup StoreDot has demonstrated this April the
prototype of a nanodot-based smartphone battery it
claims can fully charge in just under 30 seconds.
■ But such claims have already been made by the past…
■ The road to mass-production is long and steep.
24. 24
2 – Carry more power
■ Spare battery
● Not all devices have accessible batteries (!)
● battery swapping resets the phone
■ Power supply
● Come in a variety of capacity
and shapes
27. 27
3. Harvesting
■ Researchers have begun to think about
abandoning batteries altogether.
■ The alternative would mean harvesting
energy from sources outside of our devices
28. 28
3. When riding your bike…
■ You can charge your smartphone while wheeling
around town
Featured: BikeCharge from BikeConsol
29. 29
3. When walking, dancing…
■ The battery, developed by Zhong Lin Wang and colleagues at
the Georgia Institute of Technology
● converts the kinetic energy from motion into chemical energy
● which can then be used to power any device.
■ By placing the battery on the bottom of a shoe, for example, it
could generate energy with every step.
30. 30
3. When sunbathing…
■ This Solar Mio Pro is a USB power pack with a solar-charging
sidekick.
■ When unfurled, the solar array covers 18.1" x 8.7".
■ Six individual panels are set into a rugged fabric sheet that can
be laid flat or curved to stand vertically
31. 31
3. Even when being dressed up!
■ This dress is fitted with flexible solar cells
■ This bikini too!
32. 32
Let’s sum it up
■ Current batteries aren’t up to the task
● And won’t be for the years to come
■ Some solutions exist
● But the trade off is always increasing bulk and cost
■ Are we stuck ?
35. 35
Power demand is not constant
■ A smartphone’s power consumption depends
on its activity
36. 36
Let’s work on user’s side!
■ The aim :
● Adjust the settings constantly
so that the device is always up and ready for the task
to perform
Nothing less, but nothing more
● Check that each task is useful
41. 41
Flash GREENiSCORE for quick
check of settings’ quality.
The higher the score, the longer the
battery life.
Activate a Profile to change all
settings in just one tap
Benchmark with similar devices (to
be done)
Analysis of user’s habits, to check
progress
Easy Settings management with
visual consumption indicator
Battery consumption History (% /
Jour…)
Tips and best practices to improve
usage
42. 42
Our proof of concept
■ Set up in the Green Lab Center,
● Are 2 smartphones doing the same smartphones tricks all day
long.
