Amazon's hot new Kindle Fire presented a tough packaging challenge to design engineers who were presumably charged with keeping the bill of materials within tight cost constraints. Via our friends at iFixit.com, we offer a quick look at the tablet's internals.
The Kindle Fire is officially identified as model number D01400. According to the power specifications listed on the back side of the Kindle Fire, an input power of 5V DC at 1.8 amps is suggested. Why is this important? A computer USB port typically puts out no more than 0.9 amps (USB 3.0), which means it'll take a looong time to fully charge the tablet through USB.
Click the image below to view a short slideshow of the Amazon Kindle Fire in various stages of disassembly:
What do the Kindle Fire and a fruit fly have in common? Thanks to the help of our Phillips #0
screwdriver, now neither has a backbone.
Image courtesy of iFixit.com
Here are more Kindle Fire technical specs:
7" multitouch display with IPS technology
8GB internal storage
802.11b/g/n WiFi connectivity
Custom operating system (based on Android 2.3 Gingerbread)
(Images and content courtesy of Kyle Wiens, co-founder of iFixit, used by permission. Images originally uploaded to iFixit by Walter Galan.)
For further reading:
The complete Kindle Fire teardown, from our friends at iFixit.com, is available here.
Regarding E-Ink, which JimT mentions, it's a great technology, which I've been writing about since before it was popular. Here's a pointer to a short interview I did with E-Ink co-founder Russell Wilcox back in 2005: Electronic-Paper Displays Slowly Gain Wider Acceptance.
I think what’s most remarkable in Kindles’ release of this product is their re-directed product strategy using LCDs instead of E-Ink. What a contrast from their initial posture of the first e-readers!!The big deal was E-Ink. E-Ink is what made Kindle a 21st Century innovation. Electrophoretic displays provide the huge benefit of bright-sunlight-readable displays PLUS about 100x the battery life, because the bi-stable electrophoretics require a voltage pulse only to change the display, (not maintain the display). These two key points were the drivers for E-Ink development out of M.I.T in the late 1990’s and made it the killer App for the E-Ink’s courtship into the Amazon marketplace.Yes, there was a time not long ago when a “Killer App” was not solely SW code-based.Funny how that enormous breakthrough was minimized and even forgotten in the wake a bigger, brighter, and cheaper color displays.Kindle Fire.Color LCD. Tough in the bright sun, and battery life like everything else.Yawn. Just too “Me-Too” to be considered innovation.
Good point. I can't imagine that readers of e-books will continue to read their books on dedicated devices in the future. I would be surprised if future readers don't have a multitude of applications (watching TV, web surfing, viewing movies) going forward.
That's right, Beth. Even further in the sales area, users will be able to buy physical products through the Kindle Fire. Amazon has a ga-zillion physical products sold through its affiliates. You can buy those products with the Kindle e-Reader. And those physical products come with a higher margin than Amazon's digital content.
Makes sense that Amazon would see the Kindle Fire as a loss leader to encourage more sales of online content. And with this platform, it's not just books and magazines, but video as well. And as Rob points out, far less expensive than an iPad.
Talk on the street indicates that Amazon is selling the Kindle Fire at a loss in order to encourage users to buy digital content. Logic would suggest Amazon believes the Kindle Fire will prompt greater sales of digital books and movies than the Kindle Reader alone was able to do.
It will be interesting to see how the Fire affects the iPad. It is certainly a lot less expensive. I'm also curious to see whether the developer community will jump on the Kindle Fire.
The tight design constraints all round are of huge interest here to design engineers. Also interesting to note is the question of whether Amazon is making a profit selling the Kindle Fire for $199 or whether they're losing money. Market analysts iSuppli peg the cost of the Fire's Bill of Materials (BOM) at $201, while Design News sister company UBM TechInsights puts it at about $143.
While I know plenty of avid readers who won't part with their Kindle, the obvious comparison with the Fire model is the the iPad. It looks like Amazon has made huge strides in making the Kindle well suited for a range of applications (watching movies, surfing the Web) in addition to its core capabilities. While it physically looks more iPad-like, I'm wondering if the actual user experience is up to snuff with an Apple device and if this Kindle will make any kind of inroads in Apple's lock on the burgeoning tablet market.
Some humanoid walking robots are also good at running, balancing, and coordinated movements in group settings. Several of our sports robots have won regional or worldwide acclaim in the RoboCup soccer World Cup, or FIRST Robotics competitions. Others include the world's first hockey-playing robot and a trash-talking Scrabble player.
A recent example of a major CAE revamp is MSC Apex, released last month by MSC Software Corp. In a discussion with Design News, MSC executives noted that its next-generation platform is designed to substantially reduce CAE modeling and process time, in some cases from weeks down to hours.
The Thames Deckway would run for eight miles close to the rivers edge, rising and falling slightly with the tidal cycle. It will generate its own energy from a series of devices that will line the pathway and use a combination of sources to make the path self-sustaining.
Focus on Fundamentals consists of 45-minute on-line classes that cover a host of technologies. You learn without leaving the comfort of your desk. All classes are taught by subject-matter experts and all are archived. So if you can't attend live, attend at your convenience.