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{{Translations}} <!-- to add new translations edit [[Hardware design/translations]] -->
=Hardware details for OLPC, November 30, 2006=
{{TOCright}}
Maintained from a document written by Michael Bove by Jim Gettys.


The '''XO-1''' laptop is a central focus of One Laptop Per Child. After three years of development, it entered mass production in November 2007. There are now [[Deployments|millions of units deployed in the field]], and thousands more with developers and for testing in schools all over the world.
== First Generation System ==
OLPC has developed newer hardware generations [[XO-1.5]] and [[XO-1.75]] that share the XO-1's industrial design.


== Specifications ==
=== BTest-1 Systems ===
[[Image:drawing75c1.jpg|thumb|right]]
Approximately 875 systems were built by Quanta and are being distributed. These are fully functional machines, but built before the rigorous testing that will now take place. Much more information about the BTest-1 systems can be found in the [[BTest-1 Release Notes]]. Some of the details of the hardware design are to support the [[OLPC Human Interface Guidelines]].
[[Image:Olpc XO dim-Optimized.png|thumb|Dimensioned Drawing of XO, click to enlarge]]


The [[Media:CL1A_Hdwe_Design_Spec.pdf|definitive laptop specification]] is only available in PDF format. This page attempts to accurately reflect that information.
=== Specifications ===
''Note: this is the specification of the CL1A XO-1 production laptop. The specification for the earlier CL1 version (with the wide dual-mode touchpad) is [[Media:CL1_Hdwe_Design_Spec.pdf|here]].''


===Physical dimensions===
[[Image:drawing75c.png|thumb|right]]
* Approximate dimensions: 242mm × 228mm × 32mm (see drawing to the right for detailed dimensions)
* Approximate weight:
** XO laptop with LiFePO4 battery: 1.45KG (~3.20lbs);
** XO laptop with NiMH battery: 1.58KG (~3.48lbs);
* Configuration: Convertible laptop with pivoting, reversible display; dirt- and moisture-resistant system enclosure; no fan.


===Core electronics===
''Physical dimensions:''
* A photo of the [[XO Motherboard|XO-1 motherboard]] is available, with or without annotations.
* Dimensions: 193mm × 229mm × 64mm (as of 3/27/06—subject to change)
* CPU: x86-compatible processor with 64KB each L1 I and D cache; at least 128KB L2 cache;
* Weight: Less than 1.5 KG (target only—subject to change)
** [http://www.amd.com/files/connectivitysolutions/geode/geode_lx/33234G_LX_databook.pdf Datasheet] (dead link)
* Configuration: Convertible laptop with pivoting, reversible display; dirt- and moisture-resistant system enclosure
* CPU clock speed: 433 Mhz;
* i586 instruction set (including MMX and 3DNow! Enhanced) with additional Geode-specific instructions
* Companion chips: PCI and memory interface integrated with CPU;
** North Bridge: PCI and Memory Interface integrated with Geode CPU ([https://web.archive.org/web/20061019093748/http://www.amd.com/files/connectivitysolutions/geode/geode_lx/33234d_lx_ds.pdf info])
** South Bridge: [https://web.archive.org/web/20130626041210/http://support.amd.com/us/Embedded_TechDocs/33238G_cs5536_db.pdff datasheet]
* Graphics controller: Integrated with CPU; unified memory architecture;
* Embedded controller: ENE KB3700 or ENE KB3700B;
** [[Ec_specification|Embedded Controller]]: [[Media:KB3700-ds-01.pdf|ENE KB3700]]
* DRAM memory: 256 MiB dynamic RAM; data rate: dual-DDR333-166Mhz;
* BIOS: 1024KiB SPI-interface flash ROM;
* Open Firmware used to load the operating system;
* Mass storage: 1024 MiB SLC NAND flash; (a few "Red XOs" have been built with 2048 MiB of flash)
* Drives: No rotating media.
* CAFE ASIC (camera- and flash-enabler chip provides high-performance camera, NAND FLASH and SD interfaces); Marvell 88ALP01: [http://www.marvell.com/products/pcconn/88ALP01.jsp CAFE Specification] or [http://wiki.laptop.org/images/5/5c/88ALP01_Datasheet_July_2007.pdf local copy] plus [http://dev.laptop.org/ticket/1339#comment:17 presence detect erratum]


[[Image:Proto-a-front.jpg|thumb|Prototype-A Motherboard]]
[[Image:Proto-a-front.jpg|thumb|Prototype-A Motherboard]]
{{anchor|Display}}
''Core electronics:''
* CPU: [http://www.amd.com/us-en/ConnectivitySolutions/ProductInformation/0,,50_2330_9863_9864,00.html AMD Geode GX-500@1.0W]([http://www.amd.com/files/connectivitysolutions/geode/geode_gx/31505E_gx_databook.zip datasheet])
* CPU clock speed: 366 Mhz
* Compatibility: X86/X87-compatible
* Chipset: [http://www.amd.com/us-en/ConnectivitySolutions/ProductInformation/0,,50_2330_9863_9864%5E13054,00.html AMD CS5536 South Bridge] ([http://www.amd.com/files/connectivitysolutions/geode/geode_lx/33238f_cs5536_ds.zip datasheet])
* Graphics controller: Integrated with Geode CPU; unified memory architecture
* Embedded controller (for production), ENE KB3700: [[Image:KB3700-ds-01.pdf]]
* DRAM memory: 128 MiB dynamic RAM
* Data rate: Dual – DDR266 – 133 Mhz
* BIOS: 1024KB SPI-interface flash ROM; LinuxBIOS open-source BIOS; Open Firmware bootloader
* Mass storage: 512 MiB SLC NAND flash, high speed flash controller
* Drives: No rotating media


''Display:''
===Display===
{{main|Display}}
* Liquid-crystal display: 7.5” Dual-mode TFT display
* [[Display | Liquid-crystal display]]: 7.5” dual-mode TFT display;
* Viewing area: 152.4 mm × 114.3 mm
* Viewing area: 152.4 mm × 114.3 mm;
* Resolution: 1200 (H) × 900 (V) resolution (200 dpi)
* Two "modes" depending on lighting conditions:
* Mono display: High-resolution, reflective monochrome mode
:(1) Grayscale (B&W) reflective mode: for outdoor use—sunlight-readable; primarily lit from the front by ambient light; high-resolution (200 DPI), 1200(H) × 900(V) grayscale pixels; power consumption 0.1–0.2Watts;
* Color display: Standard-resolution, quincunx-sampled, transmissive color mode
:(2) Color, backlight mode: for indoor use; primarily lit from behind by the LED backlight; built in sub-pixel sampling of the displayed color information results in a perceived resolution of at least 1024(H) × 768(V); power consumption 0.2–1.0Watts;
* [[Image:EToys - new display.jpg|thumb|right|eToys ([[Squeak]]) running on the OLPC display]]Special "[[DCON]]" chip, that enables deswizzling and anti-aliasing in color mode, while enabling the display to remain live with the processor suspended. Since we will always be running the frame buffer at 1200x900 resolution, the color resolution is lower, but exactly how this works out in effective resolution is very complex. Mary Lou Jepsen is planning to write document to explain the effective resolution, which is higher than if we simply reduced the size of the frame buffer and used the red, green and blue channels. Easiest, and most convincing, may be to measure it with appropriate test patterns; in the meanwhile, you can examine this photograph of the display (it looks even nicer in person; photographing a display is remarkably difficult).
* The [[DCON|display-controller chip (DCON)]] with memory that enables the display to remain live with the processor suspended. The DCON also formats data for the display.
''Integrated peripherals:''
* This [[Display | Liquid-crystal display]] is the basis of our extremely low power architecture. The XO is usable while the CPU and much of the motherboard is regularly turned off (and on) so quickly that it's imperceptible to the user. Huge power savings are harvested in this way (e.g. by turning stuff on the motherboard off when it's not being used (if even for a few seconds), while keeping the display on).
[[Image:AP1 15.jpg|thumb|100px|Keyboard detail]]
* Keyboard: 70+ keys, 1.2mm stroke; sealed rubber-membrane key-switch assembly
** [[OLPC_Keyboard_layouts|Keyboard Layouts]]
** Layout pictures - [[:Image:Keyboard_layout.jpg|US International]], [[:Image:Keyboard thai.jpg|Thai]], [[:Image:Keyboard arabic.jpg|Arabic]], [[:Image:Keyboard argentina.jpg|Spanish]], [[:Image:Keyboard brazil.jpg|Portuguese]], [[:Image:Keyboard nigeria.jpg|Nigeria]]
* Cursor-control keys: five-key cursor-control pad; four directional keys plus Enter
* Touchpad: Dual capacitance/resistive touchpad; supports written-input mode
* Audio: [http://www.analog.com/en/prod/0%2C2877%2CAD1888%2C00.html Analog Devices AD1888], AC97-compatible audio codec; stereo, with dual internal speakers; monophonic, with internal microphone and using the [http://www.analog.com/en/prod/0%2C2877%2CSSM2211%2C00.html Analog Devices SSM2211] for audio amplification
* [[Wireless]]: Marvell [[Libertas]] 88W8388+88W8015, 802.11b/g compatible; dual adjustable, rotating coaxial antennas; supports diversity reception
* Status indicators: Power, battery, WiFi; visible lid open or closed
* Video camera: 640x480 resolution, 30FPS
[[Image:Rotate-1.jpg|thumb|Connectors]]
''External connectors:''
* Power: 2-pin DC-input, 10 to 25 V, -23 to -10 V
* Line output: Standard 3.5mm 3-pin switched stereo audio jack
* Microphone: Standard 3.5mm 2-pin switched mono microphone jack; selectable sensor-input mode
* Expansion: 3 Type-A USB-2.0 connectors; SD Card slot
* Maximum power: 500 mA (total)
[[Image:Bottomdrawing.jpg|thumb|Battery]]
''Battery:''
* Pack type: 5 Cells, 6V series configuration
* Fully-enclosed “hard” case; user removable
* Capacity: 22.8 Watt-hours
* Cell type: NiMH
* Pack protection: Integrated pack-type identification
* Integrated thermal sensor
* Integrated polyfuse current limiter
* Cycle life: Minimum 2,000 charge/discharge cycles (to 50% capacity of new, IIRC).
* [[Power Management]] will be critical


: ''Note: web browser images are currently scaled up so that an image of very roughly [800 × 600] fills up the browser window.''
''BIOS/loader:''
* [http://www.linuxbios.org/index.php/Main_Page LinuxBIOS] is our BIOS for production units; Open Firmware is used as the bootloader.


[[Image:EToys - new display.jpg|thumb|right|[[Etoys]] running on the first OLPC display prototype]]
''Environmental specifications:''
* Temperature: somewhere in between typical laptop requirements and Mil spec; exact values have not been settled
* Humidity: Similar attitude to temperature. When closed, the unit should seal well enough that children walking to and from school need not fear rainstorms or dust.
* Altitude: -15m to 3048m (14.7 to 10.1 psia) (operating), -15m to 12192m (14.7 to 4.4 psia) (non-operating
* Shock: 125g, 2ms, half-sine (operating) 200g, 2ms, half-sine (non-operating)
* Random vibration: 0.75g zero-to-peak, 10Hz to 500Hz, 0.25 oct/min sweep rate (operating); 1.5g zero-to-peak, 10Hz to 500Hz, 0.5 oct/min sweep rate (nonoperating)
* 2mm plastic walls (1.3mm is typical for most systems).


===Integrated peripherals===
''Regulatory requirements:''
* Keyboard: 80+ keys, 1.0mm stroke; sealed rubber-membrane key-switch assembly;
* The usual US and EU EMI/EMC requirements will be met.
** [[OLPC_Keyboard_layouts|Keyboard Layouts]]
* The laptop and all OLPC-supplied accessories will be fully UL and is RoHS compliant.
** Layout pictures: [[:Image:Keyboard english.png|English]], [[:Image:Keyboard arabic.png|Arabic]], [[:Image:Keyboard thai.png|Thai]], [[:Image:NG-MP-alt.png|West African (Nigeria)]], [[:Image:BR-MP-v1.png|Portuguese]], [[:Image:ES-MP-v1.png|Spanish]], [[:Image:Ethiopic-B3.png|Amharic]], [[:Image:Rwanda-B3.png|French]], [[:Image:Urdu-MP.png|Urdu]], [[:Image:RU-MP-v1.png|Cyrillic]], [[:Image:TR-MP-v1.png|Turkish (not final)]], [[:Image:NP-MP-v1.png|Nepali]], [[:Image:MO-MP-v1.png|Mongolian]], [[:Image:KA-MP-v1.png|Kazakh]], [[:Image:MR-MP-v2.png|Devanagari]], [[:Image:UZ-MP.png|Uzbek]], [[:Image:PS-MP.png|Pashto]], [[:Image:AF-MP.png|Dari]], [[:Image:FF-MP.png|Pulaar (Fula)]], [[:Image:IT-MP.png|Italian]]
* Gamepad: Two sets of four-direction cursor-control keys;
* Touchpad: Capacitance touchpad
** ALPS Electric [[Touch Pad/Tablet|Dual capacitance/resistive touchpad]];
* Audio: AC’97 compatible audio subsystem; Internal stereo speakers and amplifier; internal monophonic microphone; jacks for external headphones or microphone;
** [http://www.analog.com/en/prod/0%2C2877%2CAD1888%2C00.html Analog Devices AD1888] and [http://www.analog.com/en/audiovideo-products/audio-amplifiers/ssm2302/products/product.html Analog Devices SSM2302] for audio amplification
[[Image:AP1 15.jpg|thumb|100px|Keyboard detail]]
* Camera: integrated color video camera; 640 x 480 resolution at 30 FPS; independent (and undefeatable by software) display of microphone and camera recording status; the camera and device driver support disabling AGC and automatic color balancing, to enable its use as a photometric sensor for educational applications;
** [http://www.ovt.com/products/detail.php?id=73 Omnivision OV7670]
* [[Wireless| Wireless Networking]]: Integrated 802.11b/g (2.4GHz) interface; 802.11s (Mesh) networking supported; dual adjustable, rotating antennas support diversity reception; capable of mesh operation when CPU is powered down;
** Marvell [[Libertas]] wireless chipset, [[88W8388]] controller and [[88W8015]] radio
* Status indicators: Power, battery, and WiFi (2), visible with lid open or closed; Microphone In-Use, and Camera In-Use, visible when lid is open.


===External connectors===
== What makes this system unique? ==
* DC power: 6mm (1.65mm center pin) connector; 11 to 18 V input usable, –32 to +40V input tolerated; power draw limited to 17 W; - see power connector dimensions at [[Battery and power#Mechanical|Battery and power]].
* Headphone output: standard 3.5mm 3-pin switched stereo audio jack;
* Microphone input: standard 3.5mm 2-pin switched mono microphone jack; selectable 2V DC bias; selectable sensor-input mode (DC or AC coupled);
* USB: Three Type-A USB 2.0 connectors; Up to 1A power supplied (total);
* Flash Expansion: [[SD]] Card slot.


[[Image:Rotate-1.jpg|thumb|Connectors]]
See [[Hardware uniqueness]].


===Battery===
== Photographs of ATest Prototype Electronics ==
* Pack type: 2 or 4 cells LiFePO4; or 5 cells NiMH, approx. 6V series configuration (subject to change);
* Capacity: 16.5 Watt-hours (NIMH), 22 Watt-hours (LiFeP);
* Fully-enclosed “hard” case; user removable;
* Electronics integrated with the pack provide:
** Identification;
** Battery charge and capacity monitoring chip ([[Media:DS2756.pdf|Maxim DS2756 data sheet]]);
** Thermal and over-current sensors along with cutoff switch to protect battery;
* Minimum 2,000 charge/discharge cycles (to 50% capacity of new).
* [[Power Management]] will be critical


See [[Laptop Batteries]] or more information.
Power up of the first OLPC electronics prototype boards occurred April 15, 2006. Power and ground testing continued over the weekend, and formal debug and BIOS bring up started Monday, April 17, 2006 at Quanta Computer's labs in Taipei, Taiwan. By Wednesday, April 19, Linux was booting on the first generation prototypes.


[[Image:Bottomdrawing.jpg|thumb|Battery]]
* [[media:Proto-a-front.jpg|Component side OLPC circuit board]]
* [[media:Proto-a-back.jpg|Back side of the OLPC circuit board]]
* [[media:Proto-a-linux.jpg|Picture of Linux running with circuit board in the lab]]
* [[media:Proto-a-screen.jpg|Picture of the screen of Linux running on the OLPC circuit board; fittingly, it shows a Chinese desktop]]

== B-Test ==

A small number of pre-BTest boards were built in preparation for building complete BTest systems. [[Btest_Boards|Developer information about B-test boards are here.]]

=== Later BTest Systems ===
Several more builds of beta systems are planned for after the turn of the year.

== Hardware Design Process ==

Designing hardware is much more constrained than software; while you may sometimes have great influence on the design of a chip many months in advance of availablility, you can only actually use chips which you can get in the volumes required at prices that you can afford. Even a single missing component, or component not available in the quantities you need, may cripple your production. Many in the software community, who are used to more fluid ability to modify design and produce in unlimited copies, find this a foreign concept.

Designing hardware is similar to making sausage: you may be able to grow new ingredients starting long in advance if you are friendly with farmers (chip designers). You can only make your sausage, however, with the ingredients required by your recipe that you can ''actually'' buy in the volume you need to manufacture. Sometimes you can substitute ingredients without spoiling the general recipe, and sometimes the result would be inedible. In this case, we have a single chip that Mark Foster is specifying, that sits between the CPU and the display, and over which we have detailed control.

If you'd like some insight into this process, you can look at older versions of this page in the wiki.

== High-Volume Design and Manufacturing==

Furthermore, production of high-volume hardware is now a very specialized business, and is now often joint between the organization/company that specifies what the hardware should do&mdash;often to the point of selection of major and minor components&mdash;and an ODM (original device manufacturer), which specializes in very high-volume design and production. The ODM generally does the detailed design for production; e.g., exact part selection if there are variants, schematics, layout, board routing, mechanical design, testing, debugging for production, logistics, and production of the finished goods.

In OLPC's case, the ODM is [http://www.quantatw.com/e_default.asp Quanta], as announced in mid December. There is a good chance that your laptop was manufactured by Quanta, headed by Barry Lam, which is possibly the largest company few people have heard of. Quanta manufactures more laptops than any other company in the world (almost 1/3rd of the total made), whether branded HP or Apple or others. Detailed design of the first production OLPC design is just starting, though OLPC has investigated (and continues to investigate) the possible components and other design tradeoffs.

Note that CPU chip manufacturers generally provide sample designs, development boards, and application notes, that are often complete and usable by themselves, though often include interfaces or hardware you might not choose in volume production. These clarify how their products might be "designed in" to actual products. Our prototype machine seen at Tunis was using one of the AMD "Rumba" boards. It approximated much of the first OLPC hardware, though used a conventional disk rather than NAND flash, and has components we will not use (e.g. ethernet), and that conceptual (but working) model lacked the much cheaper flat panel that is under development.

Detailed schematics and layouts of such sample AMD designs are generally available in the chip manufacturer's [http://www.amd.com/us-en/ConnectivitySolutions/ProductInformation/0,,50_2330_9863,00.html developer programs]. If you are interested in exact design details of hardware you can get for immediate experimentation, we direct your attention to these programs, which generally include the ability to buy such sample hardware. Most of the information required to program devices, however, is completely freely available at the manufacturer's web sites in fully public specifications.


===BIOS/loader===
In concert with ODMs, such sample designs are generally customized to fit the exact product needs and engineered for high-volume-production tooling and techniques that are not applicable to low-volume development-board runs. OLPC has just entered in partnership with Quanta on this engineering-for-production phase of the project .
* [[Open Firmware]] (including hardware initialization and fast resume).
* Panasonic ML1220 battery


===Environmental specifications===
Detailed schematics and board layouts of these high-volume designs are often considered proprietary to the ODM's, or jointly owned by both parties involved. They represent the competitive advantage one ODM may have with its rivals (who may have access to the same components as they do). Those design schematics are sometimes available to programmers after production starts under NDA agreements; for example, schematics of many of the iPAQ handhelds were made available to programmers in the open-source community under NDA, when insufficient written programming information was available. OLPC will try to document our designs sufficiently to avoid NDAs; we expect this will be less effort than the logistics of requiring NDAs in such a large and diverse community.
* Temperature: UL certification planned to 45C in Q32007, pending 50C certification in mid-2008;
* Humidity: UL certification planned to [[IP_Code|IP42]] (perhaps higher) when closed, the unit should seal well enough that children walking to and from school need not fear rainstorms and dust;
* Maximum altitude: –15m to 3048m (14.7 to 10.1 PSIA) (operating), –15m to 12192m (14.7 to 4.4 PSIA) (non-operating);
* Shock 125g, 2ms, half-sine (operating) 200g, 2ms, half-sine (non-operating);
* Random vibration: 0.75g zero-to-peak, 10Hz to 500Hz, 0.25 oct/min sweep rate (operating); 1.5g zero-to-peak, 10Hz to 500Hz, 0.5 oct/min sweep rate (nonoperating);
* 2-3mm plastic walls (1.3mm is typical for most systems).


===Regulatory requirements===
== Foreseeable Designs ==
[[File:RoHS_Restriction_of_Hazardous_Substances_Directive_Logo.png|right|220px]]
* The usual US and EU EMI/EMC (electromagnetic-interference and electromagnetic-compatibility) requirements will be met;
* The laptop meets IEC 60950-1, EN 60950-1, and CSA/UL 60950-1 specifications. It also complies with UL 1310 and UL 498. In order to guarantee the safety of children using the laptop, it passes ASTM F 963;
* The external power adapter complies with IEC, EN, and CSA/UL 60950-1;
* The removable battery pack complies with IEC, EN, and CSA/UL 60950-1 and UL 2054;
* [http://ec.europa.eu/environment/waste/rohs_eee/legis_en.htm RoHS (Restriction of Hazardous Substances Directive – EU) compliant.]


==Laptop Development Schedule==
Currently we can foresee three generations of machines: a first one to ship in mid 2007.


On April 15, 2006, the first prototypes of the [[XO]], the [[XO_A|A1]] prototype boards, were first powered on. Development continued with the [[XO_B1|B1]], the first complete prototype laptop, in November of 2006. The [[XO_B2|B2]] laptops were the first to incorporate the CaFE chip, and was produced in small quantities for initial trials in January 2007. In April of 2008 the design was refreshed with a faster processor and more memory/NAND flash. The [[XO_B3|B3]] prototypes were the first test of this design. Slight refinements were incorporated into the [[XO_B4|B4]], manufactured in June 2008, which is very similar to the production version of the laptop. Finally, mass production started in November 2007 with the [[XO_C2|C2]] version.
Subsequent OLPC designs may use components that have not yet been shipped by their manufacturer, and we often will arrange a program whereby the open source community can get early access to specifications of those components for driver development.


Each prototype and production version is described in more detail separately: [[XO_A|A1]], [[XO_B1|B1]], [[XO_B2|B2]], [[XO_B3|B3]], [[XO_B4|B4]], [[XO_C1|C1]], '''[[XO_C2|C2]]'''
We also can anticipate future display technologies such as E-Ink, though such displays are still cloudy in the crystal ball.


==Serial Adapter==
We will try to keep this specification up to date as more and more details of the first design (and subsequent designs) are nailed down, provide links to specifications for the chosen components, and provide information required to program them (e.g. address space assignments).
[[Image:serialadapter.jpg|100px|right]]


In order to conserve parts/space, while the motherboard does provide two serial ports for debugging (one populated in production), it does not provide voltage translators to fully implement the RS-232 protocol. Thus a [[Serial_adapters|3.3V TTL to RS-232 (or USB) Adapter]] is needed.
The first generation design uses already available components, with the (major) exception of the new flat panel and the chip that drives it, and we expect a novel bi-modal touch pad, and a ASIC to interface NAND flash, SD and a camera.


<br clear="all">
The electrical interface to the flat panel and the LCD panel itself is now in detailed engineering. A family of flat panels all based on a common LCD panel, but differing on their use of color filters, what kinds of backlights or temporal color, which have different properties (power consumption, resolution, gamut) and risks will be built in the future, the initial display panel uses color filters
== Other Documents ==
and works extremely well, and does not require TFT process changes for manufacturing.


* A complete [[Repair Parts]] List is under development.
Several other designs are higher risk, but better performance, either on effective resolution or power consumption. It we will initially use this low risk panel and may phase in one of the alternatives to manufacturing later in 2007 or 2008. 3M is building specialized plastic optical components being used in the design of these displays.
* [[Media:XO-1_Schematics.pdf|Schematics]]


== See also ==
Formerly part of this page:
* [[Hardware uniqueness]]
* [[Hardware design]]
* [[Hardware modification]]


See also:
[[Category:hardware]]
* [[Hardware Testing]]: Safety Certifications and Robustness
[[Category:developers]]
* [[Hardware]]
* [[Support]]
* The '''[[Media:CL1_Hdwe_Design_Spec.pdf|definitive laptop specification]]''' (only available in PDF format).
[[category:Hardware]]
[[Category:XO-1]]

Latest revision as of 20:50, 15 July 2016

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The XO-1 laptop is a central focus of One Laptop Per Child. After three years of development, it entered mass production in November 2007. There are now millions of units deployed in the field, and thousands more with developers and for testing in schools all over the world. OLPC has developed newer hardware generations XO-1.5 and XO-1.75 that share the XO-1's industrial design.

Specifications

Drawing75c1.jpg
Dimensioned Drawing of XO, click to enlarge

The definitive laptop specification is only available in PDF format. This page attempts to accurately reflect that information. Note: this is the specification of the CL1A XO-1 production laptop. The specification for the earlier CL1 version (with the wide dual-mode touchpad) is here.

Physical dimensions

  • Approximate dimensions: 242mm × 228mm × 32mm (see drawing to the right for detailed dimensions)
  • Approximate weight:
    • XO laptop with LiFePO4 battery: 1.45KG (~3.20lbs);
    • XO laptop with NiMH battery: 1.58KG (~3.48lbs);
  • Configuration: Convertible laptop with pivoting, reversible display; dirt- and moisture-resistant system enclosure; no fan.

Core electronics

  • A photo of the XO-1 motherboard is available, with or without annotations.
  • CPU: x86-compatible processor with 64KB each L1 I and D cache; at least 128KB L2 cache;
  • CPU clock speed: 433 Mhz;
  • i586 instruction set (including MMX and 3DNow! Enhanced) with additional Geode-specific instructions
  • Companion chips: PCI and memory interface integrated with CPU;
    • North Bridge: PCI and Memory Interface integrated with Geode CPU (info)
    • South Bridge: datasheet
  • Graphics controller: Integrated with CPU; unified memory architecture;
  • Embedded controller: ENE KB3700 or ENE KB3700B;
  • DRAM memory: 256 MiB dynamic RAM; data rate: dual-DDR333-166Mhz;
  • BIOS: 1024KiB SPI-interface flash ROM;
  • Open Firmware used to load the operating system;
  • Mass storage: 1024 MiB SLC NAND flash; (a few "Red XOs" have been built with 2048 MiB of flash)
  • Drives: No rotating media.
  • CAFE ASIC (camera- and flash-enabler chip provides high-performance camera, NAND FLASH and SD interfaces); Marvell 88ALP01: CAFE Specification or local copy plus presence detect erratum
Prototype-A Motherboard

Display

Main article: Display
  • Liquid-crystal display: 7.5” dual-mode TFT display;
  • Viewing area: 152.4 mm × 114.3 mm;
  • Two "modes" depending on lighting conditions:
(1) Grayscale (B&W) reflective mode: for outdoor use—sunlight-readable; primarily lit from the front by ambient light; high-resolution (200 DPI), 1200(H) × 900(V) grayscale pixels; power consumption 0.1–0.2Watts;
(2) Color, backlight mode: for indoor use; primarily lit from behind by the LED backlight; built in sub-pixel sampling of the displayed color information results in a perceived resolution of at least 1024(H) × 768(V); power consumption 0.2–1.0Watts;
  • The display-controller chip (DCON) with memory that enables the display to remain live with the processor suspended. The DCON also formats data for the display.
  • This Liquid-crystal display is the basis of our extremely low power architecture. The XO is usable while the CPU and much of the motherboard is regularly turned off (and on) so quickly that it's imperceptible to the user. Huge power savings are harvested in this way (e.g. by turning stuff on the motherboard off when it's not being used (if even for a few seconds), while keeping the display on).
Note: web browser images are currently scaled up so that an image of very roughly [800 × 600] fills up the browser window.
Etoys running on the first OLPC display prototype

Integrated peripherals

Keyboard detail
  • Camera: integrated color video camera; 640 x 480 resolution at 30 FPS; independent (and undefeatable by software) display of microphone and camera recording status; the camera and device driver support disabling AGC and automatic color balancing, to enable its use as a photometric sensor for educational applications;
  • Wireless Networking: Integrated 802.11b/g (2.4GHz) interface; 802.11s (Mesh) networking supported; dual adjustable, rotating antennas support diversity reception; capable of mesh operation when CPU is powered down;
  • Status indicators: Power, battery, and WiFi (2), visible with lid open or closed; Microphone In-Use, and Camera In-Use, visible when lid is open.

External connectors

  • DC power: 6mm (1.65mm center pin) connector; 11 to 18 V input usable, –32 to +40V input tolerated; power draw limited to 17 W; - see power connector dimensions at Battery and power.
  • Headphone output: standard 3.5mm 3-pin switched stereo audio jack;
  • Microphone input: standard 3.5mm 2-pin switched mono microphone jack; selectable 2V DC bias; selectable sensor-input mode (DC or AC coupled);
  • USB: Three Type-A USB 2.0 connectors; Up to 1A power supplied (total);
  • Flash Expansion: SD Card slot.
Connectors

Battery

  • Pack type: 2 or 4 cells LiFePO4; or 5 cells NiMH, approx. 6V series configuration (subject to change);
  • Capacity: 16.5 Watt-hours (NIMH), 22 Watt-hours (LiFeP);
  • Fully-enclosed “hard” case; user removable;
  • Electronics integrated with the pack provide:
    • Identification;
    • Battery charge and capacity monitoring chip (Maxim DS2756 data sheet);
    • Thermal and over-current sensors along with cutoff switch to protect battery;
  • Minimum 2,000 charge/discharge cycles (to 50% capacity of new).
  • Power Management will be critical

See Laptop Batteries or more information.

Battery

BIOS/loader

  • Open Firmware (including hardware initialization and fast resume).
  • Panasonic ML1220 battery

Environmental specifications

  • Temperature: UL certification planned to 45C in Q32007, pending 50C certification in mid-2008;
  • Humidity: UL certification planned to IP42 (perhaps higher) when closed, the unit should seal well enough that children walking to and from school need not fear rainstorms and dust;
  • Maximum altitude: –15m to 3048m (14.7 to 10.1 PSIA) (operating), –15m to 12192m (14.7 to 4.4 PSIA) (non-operating);
  • Shock 125g, 2ms, half-sine (operating) 200g, 2ms, half-sine (non-operating);
  • Random vibration: 0.75g zero-to-peak, 10Hz to 500Hz, 0.25 oct/min sweep rate (operating); 1.5g zero-to-peak, 10Hz to 500Hz, 0.5 oct/min sweep rate (nonoperating);
  • 2-3mm plastic walls (1.3mm is typical for most systems).

Regulatory requirements

RoHS Restriction of Hazardous Substances Directive Logo.png
  • The usual US and EU EMI/EMC (electromagnetic-interference and electromagnetic-compatibility) requirements will be met;
  • The laptop meets IEC 60950-1, EN 60950-1, and CSA/UL 60950-1 specifications. It also complies with UL 1310 and UL 498. In order to guarantee the safety of children using the laptop, it passes ASTM F 963;
  • The external power adapter complies with IEC, EN, and CSA/UL 60950-1;
  • The removable battery pack complies with IEC, EN, and CSA/UL 60950-1 and UL 2054;
  • RoHS (Restriction of Hazardous Substances Directive – EU) compliant.

Laptop Development Schedule

On April 15, 2006, the first prototypes of the XO, the A1 prototype boards, were first powered on. Development continued with the B1, the first complete prototype laptop, in November of 2006. The B2 laptops were the first to incorporate the CaFE chip, and was produced in small quantities for initial trials in January 2007. In April of 2008 the design was refreshed with a faster processor and more memory/NAND flash. The B3 prototypes were the first test of this design. Slight refinements were incorporated into the B4, manufactured in June 2008, which is very similar to the production version of the laptop. Finally, mass production started in November 2007 with the C2 version.

Each prototype and production version is described in more detail separately: A1, B1, B2, B3, B4, C1, C2

Serial Adapter

Serialadapter.jpg

In order to conserve parts/space, while the motherboard does provide two serial ports for debugging (one populated in production), it does not provide voltage translators to fully implement the RS-232 protocol. Thus a 3.3V TTL to RS-232 (or USB) Adapter is needed.


Other Documents

See also

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See also: