Kindle 3 Teardown: What’s Inside Your E-book Reader?
Want to know what’s inside your e-book reader? We’ve seen the Barnes & Noble Nook taken apart, but not the Kindle 3... until now. Dave at EEVblog took off the cover on Amazon’s Kindle 3 to show this device’s internals: e-ink controllers, GPS, and various connectors.
The Kindle 3’s circuit board was designed with all of its components on one side, which means it’s easy to manufacture: You only have to solder one side of the board, rather than two sides typical for many other electronic devices. This cuts down on production time and lets Amazon really churn these readers out.
Stuck to the inside back of the Kindle’s case is an RFID chip. Why put a radio frequency tracking device on a Kindle? Most likely Amazon has it for inventory and shipping tracking purposes, so that both you and the Seattle retailer can keep tabs on the location of your e-reader while it’s being delivered to your hot little hands.
Why is there exposed copper around the audio chipsets? One guess is that an early design iteration had a shielding box around the audio chips, but that in later models the shield was nixed but the circuit board wasn’t updated.
While this wasn’t so much a teardown as a guided tour of the Kindle 3’s circuit board, you can watch the full process of taking apart the Kindle over at EEVblog, complete with a very enthusiastic narrator. What else did you find interesting about the guts of the Kindle 3? Let us know in the comments!
More from PCWorld's GeekTech blog...
- Samsung Galaxy Tab Rooted... A Month Before Release
- Manga on the Kindle? Mangle's Got you Covered
- Atari 2600 Teardown: What’s Inside Your Old Console?
The third-generation Kindle, rebranded in fall 2011 as Kindle Keyboard, is the best model with a physical means of input; and it provides a better contrast and reading experience than the less expensive fourth-generation Kindle device. Read the full review
- Speedy page turns
- Light weight
- Higher contrast screen
- Store access can be sluggish
- PDF handling remains weak