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===XO-4 Touch===
===XO-4 Touch===


2013: The XO-4 Touch laptop is the latest refresh of the XO laptop. It is available in two models: XO-4 and XO-4 Touch, with the latter providing multi-touch input on the display. Like the XO-1.75, it uses an [[ARM processor]] to provide high performance with low power consumption, while keeping the industrial design and batteries of the XO-1.
2013: The XO-4 Touch laptop is the latest refresh of the XO laptop. It is available in two models: XO-4 and XO-4 Touch, with the latter providing multi-touch input on the display. Like the XO-1.75, it uses an ARM processor to provide high performance with low power consumption, while keeping the industrial design and batteries of the XO-1.


* [[XO-4_Touch|Details of the XO-4 hardware]]
* [[XO-4_Touch|Details of the XO-4 hardware]]

Revision as of 23:24, 5 August 2013

  This page is monitored by the OLPC team.

One Laptop Per Child believes that innovative design is capable of bringing robust computing to children in the developing world at low power and low cost. This began with the XO laptop, and continues with the second generation handbook and peripherals.

Unlike traditional computer manufacturers, the design goals of OLPC are (in order):

  1. Safe -- no children should be harmed
  2. Lowest Power -- low power means longer run-time
  3. Lowest Cost -- a lower cost means more children can have one
  4. Robust and Maintainable -- children drop things
  5. Performance (speed)


Laptops

XO Laptop

B1-mikemcgregor-2-small.jpg

The XO Laptop is the most rugged low power, low cost laptop currently available.

XO-4 Touch

2013: The XO-4 Touch laptop is the latest refresh of the XO laptop. It is available in two models: XO-4 and XO-4 Touch, with the latter providing multi-touch input on the display. Like the XO-1.75, it uses an ARM processor to provide high performance with low power consumption, while keeping the industrial design and batteries of the XO-1.

XO-1.75 Laptop

2010: OLPC started development of a laptop based around an ARM processor, in order to finally reach an operating power low enough to allow a full day of operation from a single battery charge, as well as better operation from solar and human energy sources. This refresh continues to use the same industrial design, display, and batteries as XO-1.

XO-1.75 siblings.jpg

XO-1.75 Versions: Not in production; CL2 pre-production models are: C1, B1, A3, A2, A1

XO-1.5 Laptop

2009: A refresh of the XO-1 laptop happened. In a continued effort to maintain a low price point, OLPC refreshed the laptop electronics to use the latest component technologies. This refresh (Gen 1.5) is separate from the Gen 2/3 projects, and continue to use the same industrial design and batteries as Gen 1. This provides an overall update of the system within the same ID and external appearance, giving school systems using the XO-1 with a cost effective replacement.

XO-1.5 Versions: Production: CL1B C5, CL1B C3, CL1B C2, ; CL1B pre-production models are: C1, B3, B2, B1, A2, A1

XO-1 Laptop

This was the original XO laptop, of which over a million were manufactured. Production of the XO-1 stopped in Spring 2010.

XO-1 Versions: Two models entered production: XO CL1A, CL1; CL1 pre-production models were: C1, B4, B3, B2, B1, A1

Ideas

While developing the XO, many ideas for hardware were contributed. None of these have ever seen more than sample production.

XO-3 Tablet

Main page: XO-3

From 2010 to 2012, OLPC worked on developing a low cost, low power, robust tablet for use by kids. A prototype was shown off at CES 2012, and the industrial design was further refined. Production was originally scheduled for the end of 2012. Cancellation of this project has now been announced.

XO-3 Photo10.jpg

XO-3 Versions: Never entered production; CL3 pre-production models are: A1

XO-2 Foldable Tablet

XO2-modes.jpg

In May of 2008, plans for the next generation of OLPC laptops were publicly announced. Nicholas Negroponte challenged the design team to aim for those goals while also rethinking the notion of a laptop. The result doesn't fit neatly into the "laptop" category. The form factor is that of a book or folded (clam shell) tablet --- a handbook. At this time, development of this device has been halted.


XS School Server

XS floor diag.png

While the laptop is rightfully at the center of OLPC, a valuable peripheral is the school server. Recognizing this, OLPC designed a School server to extend the storage and computation provided by each laptop, as well as providing a local library and a mesh portal to the Internet. But this is more of a collection of services than a hardware platform. Unlike the laptop, which has a well defined user load (one child), the school server is designed to serve an entire school, whose sizes vary greatly. Thus a variety of hardware solutions is necessary. Thankfully, an entire industry is available serving this hardware need, at a variety of price and power levels from small fanless systems to desktop PCs to large servers. For example, small and mid-sized schools should be well served by this recommended hardware.

There is a persistent need for a low cost, robust server solution for environmentally extreme and low power situations (jungles/salt water). OLPC designed a low cost XS server (pictured) with sealed operation up to 50C. Unfortunately, it is still looking for a manufacturer.


Multichannel battery charger

Multi-Battery Charger.png

Classroom situations, especially those without "grid" power, are challenging for powering laptops. One of the solutions is a multiple battery charger, which allows a number of laptop batteries to be charged in a small cabinet taking AC or 12VDC input.

OLPC has pursued the design of a Multi-Battery Charger for the XO Laptop, and has units entering safety testing in Jan. 2008.


Active Antenna

AA-tilted.jpg

The Active Antenna is the same Marvell radio used in the XO-1 laptop, but on a 5m USB cable allowing their use either standalone (with a power supply) or with a School server. Unfortunately, Active Antenna production is awaiting the development of a better mesh implementation for dense mesh situations. We currently recommend the use of traditional 802.11b/g access points with the XO.


Extras

The manufacture of the XO-4 Touch created an opportunity in the form of extra printed circuit board space that would otherwise have been scrap. That spare PCB area was used to create two different embedded development boards, both compatible with the popular Arduino family of open hardware.

Xostick xorduino.png

The XO Stick utilizes either of two very low-cost AVR microcontrollers, and can be easily assembled: the few components are all mounted through-hole, making the soldering easy.

The XOrduino uses a far more powerful AVR processor, but also requires the ability to solder surface-mount parts.