Difference between revisions of "Rpi Hardware"

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#REDIRECT [[RPi Hardware]]
[[Category: RaspberryPi]]
[[File:Rpi unpopulated pcb.jpg|thumb|right|The unpopulated Rpi bèta board]]
The first product is about the size of a credit card, and is designed to plug into a TV or be combined with a touch screen for a low cost tablet. It comes in two tastes, A and B, with B having more features. The expected price is 25$ for model A, and 35$ for model B. The [[Rpi Low-level peripherals| GPIO pins]] on each board allow the use of optional [[Rpi expansion boards|expansion boards]].
For those who are interested, you can read about the [[Rpi HardwareHistory|History of the Raspberry Pi Hardware]].
Those who are looking to set up a Raspberry Pi for the first time, see [[RPi Hardware Basic Setup]].
{| class="wikitable"
! Model A
! Model B
| Target price:<ref name="faq" >http://www.raspberrypi.org/faqs</ref>
| US$25 (GBP £16)
| US$35 (GBP £22)
| System-on-a-chip (SoC):<ref name="faq" />
| colspan="2" | Broadcom BCM2835 (CPU + GPU + SDRAM)
| CPU:
| colspan="2" | 700&nbsp;MHz ARM11 ARM1176JZF-S core
| GPU:
| colspan="2" | Broadcom VideoCore IV,OpenGL ES 2.0,OpenVG 1080p30 H.264 high-profile encode/decode
| Memory (SDRAM):
| 128 MiB
| 256 MiB
| USB 2.0 ports:
| 1(provided by the BCM2835)
| 2 (via integrated USB hub)
| Video outputs:<ref name="faq" />
| colspan="2" | Composite video|Composite RCA, HDMI (not at the same time)
| Audio outputs:<ref name="faq" />
| colspan="2" | TRS connector|3.5 mm jack, HDMI
| Audio inputs:
| colspan="2" | none, but a USB mic or sound-card could be added
| Onboard Storage:
| colspan="2" | Secure Digital|SD / MMC / SDIO card slot
| Onboard Network:<ref name="faq" />
| None
| 10/100 wired Ethernet RJ45
| Low-level peripherals:
| colspan="2" | General Purpose Input/Output (GPIO) pins, Serial Peripheral Interface Bus (SPI), I²C, I²S, Universal asynchronous receiver/transmitter (UART)
| Real-time clock:<ref name="faq" />
| colspan="2" | None
| Power ratings (provisional, from alpha board):
| 500mA, (2.5 Watt) <ref name="faq" />
| 700mA, (3.5 Watt)
| Power source:<ref name="faq" />
| colspan="2" | 5V via Micro USB or GPIO header
| Size:
| colspan="2" | 85.60mm x 53.98mm<ref>[http://www.raspberrypi.org/archives/344 Final PCB artwork]</ref> (3.370 × 2.125 inch)
[[File:Raspi-Model-AB-Mono-1-699x1024.png|400px|thumb|right|A diagram denoting the places of the different components on the Rpi, made by Paul
(Provisional - some of the expansion interfaces won't be available on production boards)
(PCB IDs are those of the Model B Beta board)
* SoC: [http://www.broadcom.com/products/BCM2835 Broadcom BCM2835 media processor] system-on-chip featuring:
** CPU core: [http://infocenter.arm.com/help/topic/com.arm.doc.ddi0301h/DDI0301H_arm1176jzfs_r0p7_trm.pdf ARM1176JZF-S] ARM11 core clocked at 700MHz; ARM VFP.
** GPU core: a Broadcom [http://en.wikipedia.org/wiki/Videocore VideoCore] IV GPU providing OpenGL ES 1.1, OpenGL ES 2.0, hardware-accelerated OpenVG 1.1, Open EGL, OpenMAX and 1080p30 H.264 high-profile decode.  There are 24 GFLOPS of general purpose compute and a bunch of texture filtering and DMA infrastructure.  Eben worked on the architecture team for this and the Raspberry Pi team are looking at how they can make some of the proprietary features available to application programmers
** DSP core: There is a DSP, but there isn't currently a public API (Liz thinks the BC team are keen to make one available at some point)
** RAM: 128MiB (Model A) or 256MiB (Model B) of SDRAM.  The RAM is physically stacked on top of the Broadcom media processor (package-on-package technology)
* LAN9512 ([http://www.smsc.com/media/Downloads_Public/Data_Briefs/9512db.pdf Data Brief] | [http://www.smsc.com/media/Downloads_Public/Data_Sheets/9512.pdf Data Sheet]) providing 10/100Mb Ethernet and 2x USB 2.0 (Model B)
* S1: Micro USB power jack (5v - Power Only)
* S2: DSI interface.  15-pin surface mounted flat flex connector (possibly no-fit).
* S3: HDMI connector providing HDMI 1.3a out
* S4: Composite Video connector: RCA
* S5: MIPI CSI-2 interface.  15-pin surface mounted flat flex connector (possibly no-fit).
* S6: Audio connector: 3.5mm stereo jack (output only)
* S8: SD/MMC/SDIO memory card slot (underside)
* S7: Either 1x USB 2.0 (Model A) 2x USB 2.0 (Model B)
* P1: 26-pin 2.54mm header expansion (header not fitted), providing: see [[Rpi_Low-level_peripherals | Low-level peripherals]]
** 8 GPIOs at 3v3
** 2-pin UART serial console, 3v3 TTL (debug); or 2 GPIOs at 3v3
** I2C interface (3v3); or 2 GPIOs at 3v3
** SPI interface (3v3); or 5 GPIOs at 3v3
** 3v3, 5v and GND supply pins
** ARM JTAG (if pins are reconfigured in software)
** Second I2C interface (3v3) (if pins are reconfigured in software)
** I2S interface (if pins are reconfigured in software)
** 6 pins reserved for future use
* P2 and P3: 8-pin and 7-pin 2.54mm header expansion (header not fitted), providing:
** 6-pin GPU JTAG (ARM11 pinout)
* P4: 10/100Mb RJ45 Ethernet jack (Model B)
* Board size: 85.60mm x 53.98mm.  Overall height expected to be less than 25mm. <ref name="artwork">http://www.raspberrypi.org/archives/344</ref>
* Weight: <40g? (Alpha board weighs ~55g <ref>http://www.raspberrypi.org/?page_id=43&mingleforumaction=viewtopic&t=285.0</ref>)
* 6 layer PCB <ref name="artwork" />
==Schematic / Layout==
* [http://www.raspberrypi.org/wp-content/uploads/2011/11/gerbers2.png PCB screenshot]
* [http://lh3.googleusercontent.com/-uO4l8pwSLvU/TsQGbth6x6I/AAAAAAAAAkk/5zQMH3uKPiE/s829/Boardlayout.png PCB screenshot, labelled version]
* [http://www.raspberrypi.org/wp-content/uploads/2011/07/raspberry1.png PCB screenshot, Alpha board]
The board takes fixed 5V input, (with the 1V2 core voltage generated directly from the input using the internal switch-mode supply on the BCM2835 die).
This permits adoption of the micro USB form factor, which, in turn, prevents the user from inadvertently plugging in out-of-range power inputs; that would be dangerous, since the 5V would go straight to HDMI and output USB ports, even though the problem should be mitigated by some protections applied to the input power: The board provides a polarity protection diode, a voltage clamp, and a self-resetting semiconductor fuse.
* Board A: 5V, 500 mA (2.5W) without any devices connected
* Board B: 5V, 700 mA (3.5W) without any devices connected
*As the 5V rail is brought out in the [[Rpi_Low-level_peripherals | GPIO pins]], you can power the Rpi from there too. You should mind however, that those are ''behind'' the power protection circuitry , so you should provide your own.
* It is possible to power the Rpi from a powered USB hub the Rpi controls, but only on 'dumb' devices, that allow the port to supply the full current without waiting for the usb device to ask for it[http://www.raspberrypi.org/forum/general-discussion/power-pi-from-usb-hub-connected-to-pi]. As the power input of the Rpi doesn't have its data leads connected, there is no chance for a communication loop of some sorts.
* POE ([http://nl.wikipedia.org/wiki/Power_over_Ethernet power over ethernet]) is currently not available for the Rpi (but nobody stops you from taking your soldering iron and doing it yourself)
{{Template:Raspberry Pi}}

Latest revision as of 13:11, 28 January 2012

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