KIT Embedded PC Banana PI ARM dual core 1GHz + SD card 8GB with OS

BANANAPIKIT

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Raspberry PI compatibile, with more POWER!

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62,90 € tasse incl.

Dettagli

KIT composto da BANANA PI + 1 SD card 8GB con SO pre caricato a scelta (inviarci un messaggio per indicare il sistema operativo da pre caricare tra quelli offerti nei loghi o nella lista OS a fondo pagina)

Per alimentare la board è necessario un alimentatore USB con 2A come il nostro Alimentatore USB 4 porte switching stabilizzato 5VDC 2,5A per Tablet, Smarphone (visibile in accessori a fondo pagina).

Banana Pi is a single-board computer made in China. It can run Android, Ubuntu and Debian. Raspbian can be run, though the CPU complies with the requirements of the Debian armhf port. It uses the Allwinner A20 SoC and as such is mostly covered by the linux-sunxi port,

 

OFFICIAL SITE: http://www.bananapi.org/

 

Banana Pi has no direct relationship to the Raspberry Pi Foundation, though its similarities are clear. "Linux user & Developer" considers it a considerable evolution. Whilst linux.com also sees it as a clone with improved performance. The board layout is very similar to the Raspberry PI board, though it's about 10% larger and the relative spacing of some connectors varies. Not all Raspberry Pi accessories will fit as a result.

Accessori opzionali disponibili nel nostro store:

Powered by AXP209 power management unit, Banana Pi is able to output up to 1.6A, which means users can drive an external HDD without an extra power supply.

Specifications:

  • SoC: Allwinner A20 

  • CPU: ARM Cortex-A7 dual core 

  • GPU: ARM Mali400MP2 dual GPU core 

  • Video acceleration: CedarX 

  • Display controller: Allwinner A20 built-in, supports HDMI 1080p and CVBS 

  • 1GiB DDR3 DRAM 

  • SD slot (maximum 64GB), 

  • 7-pin SATA data port (with a separate power connector), supporting maximum 4 TB hard drive. 

  • 10/100/1000 Ethernet connector, with LEDs. 

  • 2x USB 2.0 host, 1x USB OTG, 1x CSI camera connector. 

  • 26 extended pins including I²C, SPI, UART, CAN bus 

  • Power, reset and uboot switches mounted on board 

  • One user-defined LED on board 

  • Onboard IR receiver 

  • Onboard Microphone 

  • Ø3.5mm audio output jack 

  • Expects 5V source connected to the microUSB connector, recommended 2A if connecting a SATA harddisk using the onboard power connector. 

  • Dimensions: 9.2cm × 6cm; (The board of Banana Pi is a little bigger than the Raspberry Pi's) 

 

SoC

Allwinner A20*

(ARM Cortex-A7 dual-core, 1GHz, Mali400MP2 GPU)

System Memory

1GB DDR3 DRAM

Storage

SD card slot,

Extensible with SATA connection (2.5" SATA HDD with 5V)

Video output

HDMI,

Composite,

Extensible with on-board LVDS connector

Audio I/O

HDMI,

3.5mm stereo jack output,

On-board microphone input

Connectivity

Gigabit Ethernet

USB

2* USB 2.0 ports,

1* OTG micro USB port,

1* micro USB for power supply**

Expansion

Extensible 26-pin headers,

Camera connector,

Display connector for LVDS and touch screen

Misc.

3* on-board buttons, (Power, Reset, Uboot key),

IR receiver

Dimensions

92mm X 60 mm

Weight

48 g

 

Pin Definitions of Extensible connector

  Banana Pi has multiple extensible connectors for users to develop their own amazing projects and applications.   Most of common extension accessories Including LCD panel, touch screen, camera module, UART console and GPIO control pins are accessible from Banana Pi on-board connectors and headers.


Banana Pi extensible 26-pins GPIO headers

  Banana Pi has 26-pins GPIO headers to extend the functions such as I2C, SPI, 5V and 3.3V output…etc.   There are also additional GPIO pins available for extension controls and daughter boards.  For instance, you can use those headers to connect an Arduino board for your projects.  Here could be the start point for your way of exciting applications. 

CON3 (GPIO Headers)

  CON3 is a DIP-26 headers.  The header pin definitions of CON3 are shown as below.

You can connect the headers for I2C, UART, SPI connections.  The 5V and 3.3 V power output are also available here.  Meanwhile, there are several pins free for GPIO pins for your specific usage.

 

CON3

Pin Name

Multiplex Function Select

GPIO

Multi 1

Multi 2

Pin 1

3.3V1

VCC-3V3

 

Pin 2*

5.0V1

VCC-5V

 

Pin 3

SDA

TWI2-SDA

PB21

Pin 4*

5.0V2

VCC-5V

 

Pin 5

SCL

TWI2-SCK

PB20

Pin 6

GND3

GND

 

Pin 7

IO-GCLK

GPCLK

PI3

Pin 8

TXD0

UART3-TX

PH0

Pin 9

GND1

GND

 

Pin10

RXD0

UART3-RX

PH1

Pin11

IO-0

IO-0(UART2-RX)

PI19

Pin12

IO-1

IO-1

PH2

Pin13

IO-2

IO-2(UART2-TX)

PI18

Pin14

GND4

GND

 

Pin15

IO-3

IO-3(UART2-CTS)

PI17

Pin16

IO-4

IO-4(CAN_TX)

PH20

Pin17

3.3V2

VCC-3V3

 

Pin18

IO-5

IO-5(CAN_RX)

PH21

Pin19

SPI-MOSI

SPI0_MOSI

PI12

Pin20

GND5

SPI0_GND

 

Pin21

SPI-MISO

SPI0-MISO

PI13

Pin22

IO-6

IO-6(UART2_RTS)

PI16

Pin23

SPI-CLK

SPI0_CLK

PI11

Pin24

SPI-CE0

SPI0_CS0

PI10

Pin25

GND2

GND

 

Pin26

SPI-CE1

SPI0_CS1

PI14

 

* Those 5V pins(CON3 Pin2 & CON3 Pin4) are voltage output pins from BananaPi's PMIC(AXP209). They can NOT be power input pins from external power source. Otherwise, it may damage the BPi board.

 

 

CON1 (Camera Serial Interface)

  CON1 is an extensible on-board CSI connector of Banana Pi.  It is a 40-pin FPC connector which can connect external camera module with proper signal pin mappings.  The pin definitions of CON1 are shown as below.

 

CON1 Pin

Pin Name

GPIO

CON1 P01

LINEINL

 

CON1 P02

LINEINR

 

CON1 P03

VCC-CSI

 

CON1 P04

ADC_X1

 

CON1 P05

GND

 

CON1 P06

ADC_X2

 

CON1 P07

FMINL

 

CON1 P08

ADC_Y1

 

CON1 P09

FMINR

 

CON1 P10

ADC_Y2

 

CON1 P11

GND

 

CON1 P12

CSI-FLASH

PH17

CON1 P13

LRADC0

 

CON1 P14

TWI1-SDA

PB19

CON1 P15

LRADC1

 

CON1 P16

TWI1-SCK

PB18

CON1 P17

CSI-D0

PE4

CON1 P18

CSI0-STBY-EN

PH19

CON1 P19

CSI0-D1

PE5

CON1 P20

CSI-PCLK

PE0

CON1 P21

CSI-D2

PE6

CON1 P22

CSI0-PWR-EN

PH16

CON1 P23

CSI-D3

PE7

CON1 P24

CSI0-MCLK

PE1

CON1 P25

CSI-D4

PE8

CON1 P26

CSI0-RESET#

PH14

CON1 P27

CSI-D5

PE9

CON1 P28

CSI-VSYNC

PE3

CON1 P29

CSI-D6

PE10

CON1 P30

CSI-HSYNC

PE2

CON1 P31

CSI-D7

PE11

CON1 P32

CSI1-STBY-EN

PH18

CON1 P33

RESET#

 

CON1 P34

CSI1-RESET#

PH13

CON1 P35

CSI-IO0

PH11

CON1 P36

HPR

 

CON1 P37

HPL

 

CON1 P38

IPSOUT

 

CON1 P39

GND

 

CON1 P40

IPSOUT

 

 

 

CON2 (LCD display interface)

  CON2 is an extensible on-board LCD display LVDS connector of Banana Pi.  It is a 40-pin FPC connector which can connect external LCD panel (LVDS) and touch screen (I2C) module as well.  The pin definitions of CON2 are shown as below.

 

CON2 Pin

Pin Name

Multiplex Function Select

GPIO

Multi 1

Multi 2

CON2 P01

IPSOUT(5V output)

 

 

CON2 P02

TWI3-SDA

 

PI1

CON2 P03

IPSOUT(5V output)

 

 

CON2 P04

TWI3-SCK

 

PI0

CON2 P05

GND

 

 

CON2 P06

LCD0-IO0

 

PH7

CON2 P07

LCDIO-03

 

PH12

CON2 P08

LCD0-IO1

 

PH8

CON2 P09

LCD0-D0

LVDS0-VP0

PD0

CON2 P10

PWM0

 

PB2

CON2 P11

LCD0-D1

LVDS0-VN0

PD1

CON2 P12

LCD0-IO2

 

PH9

CON2 P13

LCD0-D2

LVDS0-VP1

PD2

CON2 P14

LCD0-DE

 

PD25

CON2 P15

LCD0-D3

LVDS0-VN1

PD3

CON2 P16

LCD0-VSYNC

 

PD27

CON2 P17

LCD0-D4

LVDS0-VP2

PD4

CON2 P18

LCD0-HSYNC

 

PD26

CON2 P19

LCD0-D5

LVDS0-VN2

PD5

CON2 P20

LCD0-CS

 

PH6

CON2 P21

LCD0-D6

LVDS0-VPC

PD6

CON2 P22

LCD0-CLK

 

PD24

CON2 P23

LCD0-D7

LVDS0-VNC

PD7

CON2 P24

GND

 

 

CON2 P25

LCD0-D8

LVDS0-VP3

PD8

CON2 P26

LCD0-D23

 

PD23

CON2 P27

LCD0-D9

LVDS0-VN3

PD9

CON2 P28

LCD0-D22

 

PD22

CON2 P29

LCD0-D10

 

PD10

CON2 P30

LCD0-D21

 

PD21

CON2 P31

LCD0-D11

 

PD11

CON2 P32

LCD0-D20

 

PD20

CON2 P33

LCD0-D12

 

PD12

CON2 P34

LCD0-D19

 

PD19

CON2 P35

LCD0-D13

 

PD13

CON2 P36

LCD0-D18

 

PD18

CON2 P37

LCD0-D14

 

PD14

CON2 P38

LCD0-D17

 

PD17

CON2 P39

LCD0-D15

 

PD15

CON2 P40

LCD0-D16

 

PD16




J11 (UART)

  The jumper J11 is the UART interface.  For developers of Banana Pi, this is an easy way to get the UART console output to check the system status and log message. 

 

J11 Pin

Pin Name

Multiplex Function Select

GPIO

Multi 1

Multi 2

J11 Pin1

TXD

UART0-TX

PB22

J11 Pin2

RXD

UART0-RX

PB23




J12 (UART and Power source)

  The jumper J12 provides the power source including 3.3V and 5V.  There is a pair of UART TX/RX signals output here.  

J12 Pin

Pin Name

Multiplex Function Select

GPIO

Multi 1

Multi 2

J12 Pin 1

5V

 

 

J12 Pin2

3.3V

 

 

J12 Pin3

NC

IO-7

PH5

J12 Pin4

RXD

UART7_RX

PI21

J12 Pin5

NC

IO-8

PH3

J12 Pin6

TXD

UART7_TX

PI20

J12 Pin7

GND

 

 

J12 Pin8

GND

 

 

 

 

 

Available Operating Systems on Banana Pi:

  • Raspbian for Banana Pi (Linux kernel 3.4.90) 

  • Scratch for Banana Pi (Boot to Scratch directly) (Linux kernel 3.4.90) 

  • Lubuntu for Banana Pi (Linux kernel 3.4.86) 

  • openSUSE for Banana Pi (openSUSE 13.1; Linux kernel 3.4.90) 

  • ArchLinux for Banana Pi (Linux kernel 3.4.90) 

  • Bananian Linux (Debian based; Linux kernel 3.4.90) 

  • Android 4.2.2 & 4.4 for Banana Pi (Linux kernel 3.4.39+) 

  • Fedora for Banana Pi (Linux kernel 3.4.90) 

  • Kano for Banana Pi (Linux kernel 3.4.09) 

  • nOS for Banana Pi (Linux kernel 3.4.90) 

  • Kali Linux for Banana Pi (Linux kernel 3.4.90) 

SUPPORT AND WIKI: http://wiki.bananapi.org/index.php/Main_Page

 

From Wikipedia.org and www.bananapi.org

Recensioni

Accessori

KIT Embedded PC Banana PI ARM dual core 1GHz + SD card 8GB with OS <p><strong>KIT composto da BANANA PI + 1 SD card 8GB con SO pre caricato a scelta (inviarci un messaggio per indicare il sistema operativo da pre caricare tra quelli offerti nei loghi o nella lista OS a fondo pagina)</strong></p> <p>Per alimentare la board è necessario un alimentatore USB con 2A come il nostro Alimentatore USB 4 porte switching stabilizzato 5VDC 2,5A per Tablet, Smarphone (visibile in accessori a fondo pagina).</p> <p class="P7">Banana Pi is a single-board computer made in China. It can run Android, Ubuntu and Debian. Raspbian can be run, though the CPU complies with the requirements of the Debian armhf port. It uses the Allwinner A20 SoC and as such is mostly covered by the linux-sunxi port,</p> <p class="P7"> </p> <div class="P8" style="text-align:center;"><!--Next ' span' is a draw:frame. --><span id="Immagine1" class="fr1"><img style="margin-left:auto;margin-right:auto;" src="https://avatars3.githubusercontent.com/u/7650566?v=2&amp;s=400" alt="" /></span></div> <p class="P1" style="text-align:center;"><span class="T3">OFFICIAL SITE: </span><a class="Internet_20_link" href="http://www.bananapi.org/">http://www.bananapi.org/</a></p> <p class="P8"> </p> <p class="P7">Banana Pi has no direct relationship to the Raspberry Pi Foundation, though its similarities are clear. "Linux user &amp; Developer" considers it a considerable evolution. Whilst linux.com also sees it as a clone with improved performance. The board layout is very similar to the Raspberry PI board, though it's about 10% larger and the relative spacing of some connectors varies. Not all Raspberry Pi accessories will fit as a result.</p> <p><span style="color:#000000;">Accessori opzionali disponibili nel nostro store:</span></p> <ul><li> <p><span style="color:#000000;">Case contenitore plastico <a href="http://stores.ebay.it/Mectronica-STORE/_i.html?_nkw=case+banana+pi&amp;submit=Cerca&amp;_sid=1129875650">EBAY</a> | <a href="http://store.mectronica.it/cerca?controller=search&amp;orderby=position&amp;orderway=desc&amp;search_query=case+banana+pi&amp;submit_search=">MECTRONICA STORE</a></span></p> </li> <li> <p><span style="color:#000000;">Alimentatore USB 2,5A <a href="http://stores.ebay.it/Mectronica-STORE/_i.html?_nkw=alimentatore+usb+2,5A&amp;submit=Cerca&amp;_sid=1129875650">EBAY</a> | <a href="http://store.mectronica.it/cerca?controller=search&amp;orderby=position&amp;orderway=desc&amp;search_query=alimentatore+USB+2,5A&amp;submit_search=">MECTRONICA STORE</a></span></p> </li> <li> <p><span style="color:#000000;">Convertitore HDMI → VGA <a href="http://stores.ebay.it/Mectronica-STORE/_i.html?_nkw=convertitore+hdmi+vga&amp;submit=Cerca&amp;_sid=1129875650">EBAY</a> | <a href="http://store.mectronica.it/cerca?controller=search&amp;orderby=position&amp;orderway=desc&amp;search_query=convertitore+hdmi+vga&amp;submit_search=">MECTRONICA STORE</a></span></p> </li> <li> <p>Camera module Banana PI <a href="http://stores.ebay.it/Mectronica-STORE/_i.html?_nkw=fotocamera+banana&amp;submit=Cerca&amp;_sid=1129875650">EBAY</a> | <a href="http://store.mectronica.it/cerca?controller=search&amp;orderby=position&amp;orderway=desc&amp;search_query=fotocamera+banana&amp;submit_search=">MECTRONICA STORE</a></p> </li> <li> <p>Modulo UNO extend board Banana PI <a href="http://stores.ebay.it/Mectronica-STORE/_i.html?_nkw=uno+extend+banana&amp;submit=Cerca&amp;_sid=1129875650">EBAY</a> | <a href="http://store.mectronica.it/cerca?controller=search&amp;orderby=position&amp;orderway=desc&amp;search_query=uno+extend+banana&amp;submit_search=">MECTRONICA STORE</a></p> </li> </ul><p class="P7">Powered by AXP209 power management unit, Banana Pi is able to output up to 1.6A, which means users can drive an external HDD without an extra power supply.</p> <div class="P8" style="text-align:center;"><!--Next ' span' is a draw:frame. --><span id="Immagine2" class="fr1"><img style="margin-left:auto;margin-right:auto;" src="http://3.bp.blogspot.com/-GoEelIoko-w/U2h3F0qXJJI/AAAAAAAAA1M/1XcSOrhLnlk/s1600/BananaPi-A+45degree.jpg" alt="" /></span></div> <p class="P7"><strong>S<span class="T13">pecifications</span>:</strong></p> <ul><li> <p class="P41"><span class="Bullet_20_Symbols">•</span>SoC: Allwinner A20 </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>CPU: ARM Cortex-A7 dual core </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>GPU: ARM Mali400MP2 dual GPU core </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>Video acceleration: CedarX </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>Display controller: Allwinner A20 built-in, supports HDMI 1080p and CVBS </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>1GiB DDR3 DRAM </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>SD slot (maximum 64GB), </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>7-pin SATA data port (with a separate power connector), supporting maximum 4 TB hard drive. </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>10/100/1000 Ethernet connector, with LEDs. </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>2x USB 2.0 host, 1x USB OTG, 1x CSI camera connector. </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>26 extended pins including I²C, SPI, UART, CAN bus </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>Power, reset and uboot switches mounted on board </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>One user-defined LED on board </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>Onboard IR receiver </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>Onboard Microphone </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>Ø3.5mm audio output jack </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>Expects 5V source connected to the microUSB connector, recommended 2A if connecting a SATA harddisk using the onboard power connector. </p> </li> <li> <p class="P41"><span class="Bullet_20_Symbols">•</span>Dimensions: 9.2cm × 6cm; (The board of Banana Pi is a little bigger than the Raspberry Pi's) </p> </li> </ul><p class="P7"> </p> <table class="Tabella1" border="0" cellspacing="0" cellpadding="0"><colgroup><col width="165" /><col width="537" /></colgroup><tbody><tr><td class="Tabella1_A1"> <p class="P27">SoC</p> </td> <td class="Tabella1_A1"> <p class="Table_20_Contents"><a class="Internet_20_link" href="http://www.allwinnertech.com/en/"><span class="T4">Allwinner A20</span></a><span class="T5">*</span></p> <p class="P28">(ARM Cortex-A7 dual-core, 1GHz, Mali400MP2 GPU)</p> </td> </tr><tr><td class="Tabella1_A1"> <p class="P27">System Memory</p> </td> <td class="Tabella1_B2"> <p class="P27">1GB DDR3 DRAM</p> </td> </tr><tr><td class="Tabella1_A1"> <p class="P27">Storage</p> </td> <td class="Tabella1_B2"> <p class="P27">SD card slot,</p> <p class="P27">Extensible with SATA connection (2.5" SATA HDD with 5V)</p> </td> </tr><tr><td class="Tabella1_A1"> <p class="P27">Video output</p> </td> <td class="Tabella1_B2"> <p class="P27">HDMI,</p> <p class="P27">Composite,</p> <p class="P27">Extensible with on-board LVDS connector</p> </td> </tr><tr><td class="Tabella1_A1"> <p class="P27">Audio I/O</p> </td> <td class="Tabella1_B2"> <p class="P27">HDMI,</p> <p class="P27">3.5mm stereo jack output,</p> <p class="P27">On-board microphone input</p> </td> </tr><tr><td class="Tabella1_A1"> <p class="P27">Connectivity</p> </td> <td class="Tabella1_B2"> <p class="P27">Gigabit Ethernet</p> </td> </tr><tr><td class="Tabella1_A1"> <p class="P27">USB</p> </td> <td class="Tabella1_B2"> <p class="P27">2* USB 2.0 ports,</p> <p class="P27">1* OTG micro USB port,</p> <p class="P27">1* micro USB for power supply**</p> </td> </tr><tr><td class="Tabella1_A1"> <p class="P27">Expansion</p> </td> <td class="Tabella1_B2"> <p class="P27">Extensible 26-pin headers,</p> <p class="P27">Camera connector,</p> <p class="P27">Display connector for LVDS and touch screen</p> </td> </tr><tr><td class="Tabella1_A1"> <p class="P27">Misc.</p> </td> <td class="Tabella1_B2"> <p class="P27">3* on-board buttons, (Power, Reset, Uboot key),</p> <p class="P27">IR receiver</p> </td> </tr><tr><td class="Tabella1_A1"> <p class="P27">Dimensions</p> </td> <td class="Tabella1_B2"> <p class="P27">92mm X 60 mm</p> </td> </tr><tr><td class="Tabella1_A1"> <p class="P27">Weight</p> </td> <td class="Tabella1_B2"> <p class="P27">48 g</p> </td> </tr></tbody></table><p class="P37"> </p> <div class="P38" style="text-align:center;"><!--Next ' span' is a draw:frame. --><span id="Immagine4" class="fr2"><img src="http://1.bp.blogspot.com/-azSvZIIpG34/U8jNKCkvGsI/AAAAAAAAAro/stwR2lJqlnI/s1600/Banana-pi-%E6%AD%A3%E9%9D%A2.png" alt="" width="597" height="422" /></span></div> <div class="P8" style="text-align:center;"><!--Next ' span' is a draw:frame. --><span id="Immagine3" class="fr2"><img src="http://4.bp.blogspot.com/-Q82bqwQ3e-k/U-1qEOciwcI/AAAAAAAAA-Q/nsl_HmjRyW0/s1600/Banana%2Bpi-%2BBack%2BIO.png" alt="" width="597" height="421" /></span></div> <p class="P2"><strong>Pin Definitions of Extensible connector</strong></p> <p class="P15">  <span class="T16">Banana Pi has multiple extensible connectors for users to develop their own amazing projects and applications.   Most of common extension accessories Including LCD panel, touch screen, camera module, UART console and GPIO control pins are accessible from Banana Pi on-board connectors and headers.</span></p> <p class="P3"><br /><strong><span class="T11">Banana Pi extensible 26-pins GPIO headers</span></strong></p> <p class="P15">  <span class="T16">Banana Pi has 26-pins GPIO headers to extend the functions such as I2C, SPI, 5V and 3.3V output…etc.   There are also additional GPIO pins available for extension controls and daughter boards.  For instance, you can use those headers to connect an Arduino board for your projects.  </span><span class="T16">Here could be the start point for your way of exciting applications.</span><span class="T1"> </span></p> <p class="P15"></p> <p class="P13"><strong>CON3 (GPIO Headers)</strong></p> <p class="P15">  <span class="T16">CON3 is a DIP-26 headers.  The header pin definitions of CON3 are shown as below.</span></p> <p class="P14">You can connect the headers for I2C, UART, SPI connections.  The 5V and 3.3 V power output are also available here.  Meanwhile, there are several pins free for GPIO pins for your specific usage.</p> <p class="P3"> </p> <div class="P8" style="text-align:center;"><!--Next ' span' is a draw:frame. --><span id="Immagine5" class="fr2"><img src="http://2.bp.blogspot.com/-aoNlhpQNC-Q/U2h3YXyPxHI/AAAAAAAAA1U/hBFYRpRZQ_8/s1600/Banana+Pi+connectors.png" alt="" width="595" height="447" /></span></div> <table class="Tabella2" border="0" cellspacing="0" cellpadding="0"><colgroup><col width="162" /><col width="161" /><col width="161" /><col width="162" /></colgroup><tbody><tr><td class="Tabella2_A1" rowspan="2"> <p class="P29">CON3</p> </td> <td class="Tabella2_A1" rowspan="2"> <p class="P29">Pin Name</p> </td> <td class="Tabella2_A1"> <p class="P29">Multiplex Function Select</p> </td> <td class="Tabella2_A1"> <p class="P29">GPIO</p> </td> </tr><tr><td class="Tabella2_C2"> <p class="P29">Multi 1</p> </td> <td class="Tabella2_C2"> <p class="P29">Multi 2</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin 1</p> </td> <td class="Tabella2_C2"> <p class="P30">3.3V1</p> </td> <td class="Tabella2_C2"> <p class="P30">VCC-3V3</p> </td> <td class="Tabella2_C2"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin 2*</p> </td> <td class="Tabella2_C2"> <p class="P30">5.0V1</p> </td> <td class="Tabella2_C2"> <p class="P30">VCC-5V</p> </td> <td class="Tabella2_C2"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin 3</p> </td> <td class="Tabella2_C2"> <p class="P30">SDA</p> </td> <td class="Tabella2_C2"> <p class="P30">TWI2-SDA</p> </td> <td class="Tabella2_C2"> <p class="P30">PB21</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin 4*</p> </td> <td class="Tabella2_C2"> <p class="P30">5.0V2</p> </td> <td class="Tabella2_C2"> <p class="P30">VCC-5V</p> </td> <td class="Tabella2_C2"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin 5</p> </td> <td class="Tabella2_C2"> <p class="P30">SCL</p> </td> <td class="Tabella2_C2"> <p class="P30">TWI2-SCK</p> </td> <td class="Tabella2_C2"> <p class="P30">PB20</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin 6</p> </td> <td class="Tabella2_C2"> <p class="P30">GND3</p> </td> <td class="Tabella2_C2"> <p class="P30">GND</p> </td> <td class="Tabella2_C2"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin 7</p> </td> <td class="Tabella2_C2"> <p class="P30">IO-GCLK</p> </td> <td class="Tabella2_C2"> <p class="P30">GPCLK</p> </td> <td class="Tabella2_C2"> <p class="P30">PI3</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin 8</p> </td> <td class="Tabella2_C2"> <p class="P30">TXD0</p> </td> <td class="Tabella2_C2"> <p class="P30">UART3-TX</p> </td> <td class="Tabella2_C2"> <p class="P30">PH0</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin 9</p> </td> <td class="Tabella2_C2"> <p class="P30">GND1</p> </td> <td class="Tabella2_C2"> <p class="P30">GND</p> </td> <td class="Tabella2_C2"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin10</p> </td> <td class="Tabella2_C2"> <p class="P30">RXD0</p> </td> <td class="Tabella2_C2"> <p class="P30">UART3-RX</p> </td> <td class="Tabella2_C2"> <p class="P30">PH1</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin11</p> </td> <td class="Tabella2_C2"> <p class="P30">IO-0</p> </td> <td class="Tabella2_C2"> <p class="P30">IO-0(UART2-RX)</p> </td> <td class="Tabella2_C2"> <p class="P30">PI19</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin12</p> </td> <td class="Tabella2_C2"> <p class="P30">IO-1</p> </td> <td class="Tabella2_C2"> <p class="P30">IO-1</p> </td> <td class="Tabella2_C2"> <p class="P30">PH2</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin13</p> </td> <td class="Tabella2_C2"> <p class="P30">IO-2</p> </td> <td class="Tabella2_C2"> <p class="P30">IO-2(UART2-TX)</p> </td> <td class="Tabella2_C2"> <p class="P30">PI18</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin14</p> </td> <td class="Tabella2_C2"> <p class="P30">GND4</p> </td> <td class="Tabella2_C2"> <p class="P30">GND</p> </td> <td class="Tabella2_C2"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin15</p> </td> <td class="Tabella2_C2"> <p class="P30">IO-3</p> </td> <td class="Tabella2_C2"> <p class="P30">IO-3(UART2-CTS)</p> </td> <td class="Tabella2_C2"> <p class="P30">PI17</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin16</p> </td> <td class="Tabella2_C2"> <p class="P30">IO-4</p> </td> <td class="Tabella2_C2"> <p class="P30">IO-4(CAN_TX)</p> </td> <td class="Tabella2_C2"> <p class="P30">PH20</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin17</p> </td> <td class="Tabella2_C2"> <p class="P30">3.3V2</p> </td> <td class="Tabella2_C2"> <p class="P30">VCC-3V3</p> </td> <td class="Tabella2_C2"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin18</p> </td> <td class="Tabella2_C2"> <p class="P30">IO-5</p> </td> <td class="Tabella2_C2"> <p class="P30">IO-5(CAN_RX)</p> </td> <td class="Tabella2_C2"> <p class="P30">PH21</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin19</p> </td> <td class="Tabella2_C2"> <p class="P30">SPI-MOSI</p> </td> <td class="Tabella2_C2"> <p class="P30">SPI0_MOSI</p> </td> <td class="Tabella2_C2"> <p class="P30">PI12</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin20</p> </td> <td class="Tabella2_C2"> <p class="P30">GND5</p> </td> <td class="Tabella2_C2"> <p class="P30">SPI0_GND</p> </td> <td class="Tabella2_C2"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin21</p> </td> <td class="Tabella2_C2"> <p class="P30">SPI-MISO</p> </td> <td class="Tabella2_C2"> <p class="P30">SPI0-MISO</p> </td> <td class="Tabella2_C2"> <p class="P30">PI13</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin22</p> </td> <td class="Tabella2_C2"> <p class="P30">IO-6</p> </td> <td class="Tabella2_C2"> <p class="P30">IO-6(UART2_RTS)</p> </td> <td class="Tabella2_C2"> <p class="P30">PI16</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin23</p> </td> <td class="Tabella2_C2"> <p class="P30">SPI-CLK</p> </td> <td class="Tabella2_C2"> <p class="P30">SPI0_CLK</p> </td> <td class="Tabella2_C2"> <p class="P30">PI11</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin24</p> </td> <td class="Tabella2_C2"> <p class="P30">SPI-CE0</p> </td> <td class="Tabella2_C2"> <p class="P30">SPI0_CS0</p> </td> <td class="Tabella2_C2"> <p class="P30">PI10</p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin25</p> </td> <td class="Tabella2_C2"> <p class="P30">GND2</p> </td> <td class="Tabella2_C2"> <p class="P30">GND</p> </td> <td class="Tabella2_C2"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella2_A1"> <p class="P30">Pin26</p> </td> <td class="Tabella2_C2"> <p class="P30">SPI-CE1</p> </td> <td class="Tabella2_C2"> <p class="P30">SPI0_CS1</p> </td> <td class="Tabella2_C2"> <p class="P30">PI14</p> </td> </tr></tbody></table><p class="P19"> </p> <p class="P42">* Those 5V pins(CON3 Pin2 &amp; CON3 Pin4) are voltage output pins from BananaPi's PMIC(AXP209). They can NOT be power input pins from external power source. Otherwise, it may damage the BPi board.</p> <p class="P17"> </p> <p class="P23"> </p> <p class="P26"><strong>CON1 (Camera Serial Interface)</strong></p> <p class="P25">  <span class="T16">CON1 is an extensible on-board CSI connector of Banana Pi.  It is a 40-pin FPC connector which can connect external camera module with proper signal pin mappings.  The pin definitions of CON1 are shown as below.</span></p> <p class="P39"> </p> <table class="Tabella3" border="0" cellspacing="0" cellpadding="0"><colgroup><col width="141" /><col width="186" /><col width="187" /></colgroup><tbody><tr><td class="Tabella3_A1"> <p class="P29">CON1 Pin</p> </td> <td class="Tabella3_A1"> <p class="P29">Pin Name</p> </td> <td class="Tabella3_C1"> <p class="P29">GPIO</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P01</p> </td> <td class="Tabella3_B2"> <p class="P30">LINEINL</p> </td> <td class="Tabella3_C2"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P02</p> </td> <td class="Tabella3_B2"> <p class="P30">LINEINR</p> </td> <td class="Tabella3_C3"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P03</p> </td> <td class="Tabella3_B2"> <p class="P30">VCC-CSI</p> </td> <td class="Tabella3_C4"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P04</p> </td> <td class="Tabella3_B2"> <p class="P30">ADC_X1</p> </td> <td class="Tabella3_C5"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P05</p> </td> <td class="Tabella3_B2"> <p class="P30">GND</p> </td> <td class="Tabella3_C6"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P06</p> </td> <td class="Tabella3_B2"> <p class="P30">ADC_X2</p> </td> <td class="Tabella3_C7"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P07</p> </td> <td class="Tabella3_B2"> <p class="P30">FMINL</p> </td> <td class="Tabella3_C8"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P08</p> </td> <td class="Tabella3_B2"> <p class="P30">ADC_Y1</p> </td> <td class="Tabella3_C9"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P09</p> </td> <td class="Tabella3_B2"> <p class="P30">FMINR</p> </td> <td class="Tabella3_C10"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P10</p> </td> <td class="Tabella3_B2"> <p class="P30">ADC_Y2</p> </td> <td class="Tabella3_C11"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P11</p> </td> <td class="Tabella3_B2"> <p class="P30">GND</p> </td> <td class="Tabella3_C12"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P12</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI-FLASH</p> </td> <td class="Tabella3_C13"> <p class="P30">PH17</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P13</p> </td> <td class="Tabella3_B2"> <p class="P30">LRADC0</p> </td> <td class="Tabella3_C14"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P14</p> </td> <td class="Tabella3_B2"> <p class="P30">TWI1-SDA</p> </td> <td class="Tabella3_C15"> <p class="P30">PB19</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P15</p> </td> <td class="Tabella3_B2"> <p class="P30">LRADC1</p> </td> <td class="Tabella3_C16"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P16</p> </td> <td class="Tabella3_B2"> <p class="P30">TWI1-SCK</p> </td> <td class="Tabella3_C17"> <p class="P30">PB18</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P17</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI-D0</p> </td> <td class="Tabella3_C18"> <p class="P30">PE4</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P18</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI0-STBY-EN</p> </td> <td class="Tabella3_C19"> <p class="P30">PH19</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P19</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI0-D1</p> </td> <td class="Tabella3_C20"> <p class="P30">PE5</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P20</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI-PCLK</p> </td> <td class="Tabella3_C21"> <p class="P30">PE0</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P21</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI-D2</p> </td> <td class="Tabella3_C22"> <p class="P30">PE6</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P22</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI0-PWR-EN</p> </td> <td class="Tabella3_C23"> <p class="P30">PH16</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P23</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI-D3</p> </td> <td class="Tabella3_C24"> <p class="P30">PE7</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P24</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI0-MCLK</p> </td> <td class="Tabella3_C25"> <p class="P30">PE1</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P25</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI-D4</p> </td> <td class="Tabella3_C26"> <p class="P30">PE8</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P26</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI0-RESET#</p> </td> <td class="Tabella3_C27"> <p class="P30">PH14</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P27</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI-D5</p> </td> <td class="Tabella3_C28"> <p class="P30">PE9</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P28</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI-VSYNC</p> </td> <td class="Tabella3_C29"> <p class="P30">PE3</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P29</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI-D6</p> </td> <td class="Tabella3_C30"> <p class="P30">PE10</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P30</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI-HSYNC</p> </td> <td class="Tabella3_C31"> <p class="P30">PE2</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P31</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI-D7</p> </td> <td class="Tabella3_C32"> <p class="P30">PE11</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P32</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI1-STBY-EN</p> </td> <td class="Tabella3_C33"> <p class="P30">PH18</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P33</p> </td> <td class="Tabella3_B2"> <p class="P30">RESET#</p> </td> <td class="Tabella3_C34"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P34</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI1-RESET#</p> </td> <td class="Tabella3_C35"> <p class="P30">PH13</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P35</p> </td> <td class="Tabella3_B2"> <p class="P30">CSI-IO0</p> </td> <td class="Tabella3_C36"> <p class="P30">PH11</p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P36</p> </td> <td class="Tabella3_B2"> <p class="P30">HPR</p> </td> <td class="Tabella3_C37"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P37</p> </td> <td class="Tabella3_B2"> <p class="P30">HPL</p> </td> <td class="Tabella3_C38"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P38</p> </td> <td class="Tabella3_B2"> <p class="P30">IPSOUT</p> </td> <td class="Tabella3_C39"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P39</p> </td> <td class="Tabella3_B2"> <p class="P30">GND</p> </td> <td class="Tabella3_C40"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella3_A1"> <p class="P30">CON1 P40</p> </td> <td class="Tabella3_B2"> <p class="P30">IPSOUT</p> </td> <td class="Tabella3_C41"> <p class="P31"> </p> </td> </tr></tbody></table><p class="P24"> </p> <p class="P24"> </p> <p class="P26"><strong>CON2 (LCD display interface)</strong></p> <p class="P25">  <span class="T16">CON2 is an extensible on-board LCD display LVDS connector of Banana Pi.  It is a 40-pin FPC connector which can connect external LCD panel (LVDS) and touch screen (I2C) module as well.  The pin definitions of CON2 are shown as below.</span></p> <p class="P24"> </p> <table class="Tabella4" border="0" cellspacing="0" cellpadding="0"><colgroup><col width="127" /><col width="155" /><col width="208" /><col width="168" /></colgroup><tbody><tr><td class="Tabella4_A1" rowspan="2"> <p class="P29">CON2 Pin</p> </td> <td class="Tabella4_A1" rowspan="2"> <p class="P29">Pin Name</p> </td> <td class="Tabella4_C1"> <p class="P29">Multiplex Function Select</p> </td> <td class="Tabella4_D1"> <p class="P29">GPIO</p> </td> </tr><tr><td class="Tabella4_C2"> <p class="P29">Multi 1</p> </td> <td class="Tabella4_D2"> <p class="P29">Multi 2</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P01</p> </td> <td class="Tabella4_B3"> <p class="P30">IPSOUT(5V output)</p> </td> <td class="Tabella4_C3"> <p class="P31"> </p> </td> <td class="Tabella4_D3"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P02</p> </td> <td class="Tabella4_B3"> <p class="P30">TWI3-SDA</p> </td> <td class="Tabella4_C4"> <p class="P31"> </p> </td> <td class="Tabella4_D4"> <p class="P30">PI1</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P03</p> </td> <td class="Tabella4_B3"> <p class="P31"><span class="T15">IPSOUT</span>(5V output)</p> </td> <td class="Tabella4_C5"> <p class="P31"> </p> </td> <td class="Tabella4_D5"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P04</p> </td> <td class="Tabella4_B3"> <p class="P30">TWI3-SCK</p> </td> <td class="Tabella4_C6"> <p class="P31"> </p> </td> <td class="Tabella4_D6"> <p class="P30">PI0</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P05</p> </td> <td class="Tabella4_B3"> <p class="P30">GND</p> </td> <td class="Tabella4_C7"> <p class="P31"> </p> </td> <td class="Tabella4_D7"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P06</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-IO0</p> </td> <td class="Tabella4_C8"> <p class="P31"> </p> </td> <td class="Tabella4_D8"> <p class="P30">PH7</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P07</p> </td> <td class="Tabella4_B3"> <p class="P30">LCDIO-03</p> </td> <td class="Tabella4_C9"> <p class="P31"> </p> </td> <td class="Tabella4_D9"> <p class="P30">PH12</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P08</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-IO1</p> </td> <td class="Tabella4_C10"> <p class="P31"> </p> </td> <td class="Tabella4_D10"> <p class="P30">PH8</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P09</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D0</p> </td> <td class="Tabella4_C11"> <p class="P30">LVDS0-VP0</p> </td> <td class="Tabella4_D11"> <p class="P30">PD0</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P10</p> </td> <td class="Tabella4_B3"> <p class="P30">PWM0</p> </td> <td class="Tabella4_C12"> <p class="P31"> </p> </td> <td class="Tabella4_D12"> <p class="P30">PB2</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P11</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D1</p> </td> <td class="Tabella4_C13"> <p class="P30">LVDS0-VN0</p> </td> <td class="Tabella4_D13"> <p class="P30">PD1</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P12</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-IO2</p> </td> <td class="Tabella4_C14"> <p class="P31"> </p> </td> <td class="Tabella4_D14"> <p class="P30">PH9</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P13</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D2</p> </td> <td class="Tabella4_C15"> <p class="P30">LVDS0-VP1</p> </td> <td class="Tabella4_D15"> <p class="P30">PD2</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P14</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-DE</p> </td> <td class="Tabella4_C16"> <p class="P31"> </p> </td> <td class="Tabella4_D16"> <p class="P30">PD25</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P15</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D3</p> </td> <td class="Tabella4_C17"> <p class="P30">LVDS0-VN1</p> </td> <td class="Tabella4_D17"> <p class="P30">PD3</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P16</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-VSYNC</p> </td> <td class="Tabella4_C18"> <p class="P31"> </p> </td> <td class="Tabella4_D18"> <p class="P30">PD27</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P17</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D4</p> </td> <td class="Tabella4_C19"> <p class="P30">LVDS0-VP2</p> </td> <td class="Tabella4_D19"> <p class="P30">PD4</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P18</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-HSYNC</p> </td> <td class="Tabella4_C20"> <p class="P31"> </p> </td> <td class="Tabella4_D20"> <p class="P30">PD26</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P19</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D5</p> </td> <td class="Tabella4_C21"> <p class="P30">LVDS0-VN2</p> </td> <td class="Tabella4_D21"> <p class="P30">PD5</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P20</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-CS</p> </td> <td class="Tabella4_C22"> <p class="P31"> </p> </td> <td class="Tabella4_D22"> <p class="P30">PH6</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P21</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D6</p> </td> <td class="Tabella4_C23"> <p class="P30">LVDS0-VPC</p> </td> <td class="Tabella4_D23"> <p class="P30">PD6</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P22</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-CLK</p> </td> <td class="Tabella4_C24"> <p class="P31"> </p> </td> <td class="Tabella4_D24"> <p class="P30">PD24</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P23</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D7</p> </td> <td class="Tabella4_C25"> <p class="P30">LVDS0-VNC</p> </td> <td class="Tabella4_D25"> <p class="P30">PD7</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P24</p> </td> <td class="Tabella4_B3"> <p class="P30">GND</p> </td> <td class="Tabella4_C26"> <p class="P31"> </p> </td> <td class="Tabella4_D26"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P25</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D8</p> </td> <td class="Tabella4_C27"> <p class="P30">LVDS0-VP3</p> </td> <td class="Tabella4_D27"> <p class="P30">PD8</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P26</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D23</p> </td> <td class="Tabella4_C28"> <p class="P31"> </p> </td> <td class="Tabella4_D28"> <p class="P30">PD23</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P27</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D9</p> </td> <td class="Tabella4_C29"> <p class="P30">LVDS0-VN3</p> </td> <td class="Tabella4_D29"> <p class="P30">PD9</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P28</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D22</p> </td> <td class="Tabella4_C30"> <p class="P31"> </p> </td> <td class="Tabella4_D30"> <p class="P30">PD22</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P29</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D10</p> </td> <td class="Tabella4_C31"> <p class="P31"> </p> </td> <td class="Tabella4_D31"> <p class="P30">PD10</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P30</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D21</p> </td> <td class="Tabella4_C32"> <p class="P31"> </p> </td> <td class="Tabella4_D32"> <p class="P30">PD21</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P31</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D11</p> </td> <td class="Tabella4_C33"> <p class="P31"> </p> </td> <td class="Tabella4_D33"> <p class="P30">PD11</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P32</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D20</p> </td> <td class="Tabella4_C34"> <p class="P31"> </p> </td> <td class="Tabella4_D34"> <p class="P30">PD20</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P33</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D12</p> </td> <td class="Tabella4_C35"> <p class="P31"> </p> </td> <td class="Tabella4_D35"> <p class="P30">PD12</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P34</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D19</p> </td> <td class="Tabella4_C36"> <p class="P31"> </p> </td> <td class="Tabella4_D36"> <p class="P30">PD19</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P35</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D13</p> </td> <td class="Tabella4_C37"> <p class="P31"> </p> </td> <td class="Tabella4_D37"> <p class="P30">PD13</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P36</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D18</p> </td> <td class="Tabella4_C38"> <p class="P31"> </p> </td> <td class="Tabella4_D38"> <p class="P30">PD18</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P37</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D14</p> </td> <td class="Tabella4_C39"> <p class="P31"> </p> </td> <td class="Tabella4_D39"> <p class="P30">PD14</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P38</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D17</p> </td> <td class="Tabella4_C40"> <p class="P31"> </p> </td> <td class="Tabella4_D40"> <p class="P30">PD17</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P39</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D15</p> </td> <td class="Tabella4_C41"> <p class="P31"> </p> </td> <td class="Tabella4_D41"> <p class="P30">PD15</p> </td> </tr><tr><td class="Tabella4_A1"> <p class="P30">CON2 P40</p> </td> <td class="Tabella4_B3"> <p class="P30">LCD0-D16</p> </td> <td class="Tabella4_C42"> <p class="P31"> </p> </td> <td class="Tabella4_D42"> <p class="P30">PD16</p> </td> </tr></tbody></table><p class="P26"><br /><br /><br /><strong>J11 (UART)</strong></p> <p class="P25">  <span class="T16">The jumper J11 is the UART interface.  For developers of Banana Pi, this is an easy way to get the UART console output to check the system status and log message. </span></p> <p class="P24"> </p> <table class="Tabella5" border="0" cellspacing="0" cellpadding="0"><colgroup><col width="104" /><col width="94" /><col width="210" /><col width="121" /></colgroup><tbody><tr><td class="Tabella5_A1" rowspan="2"> <p class="P32">J11 Pin</p> </td> <td class="Tabella5_A1" rowspan="2"> <p class="P34">Pin Name</p> </td> <td class="Tabella5_A1"> <p class="P29">Multiplex Function Select</p> </td> <td class="Tabella5_A1"> <p class="P29">GPIO</p> </td> </tr><tr><td class="Tabella5_C2"> <p class="P29">Multi 1</p> </td> <td class="Tabella5_C2"> <p class="P29">Multi 2</p> </td> </tr><tr><td class="Tabella5_A1"> <p class="P33">J11 Pin1</p> </td> <td class="Tabella5_C2"> <p class="P35">TXD</p> </td> <td class="Tabella5_C2"> <p class="P35">UART0-TX</p> </td> <td class="Tabella5_C2"> <p class="P35">PB22</p> </td> </tr><tr><td class="Tabella5_A1"> <p class="P33">J11 Pin2</p> </td> <td class="Tabella5_C2"> <p class="P35">RXD</p> </td> <td class="Tabella5_C2"> <p class="P35">UART0-RX</p> </td> <td class="Tabella5_C2"> <p class="P35">PB23</p> </td> </tr></tbody></table><p class="P26"><br /><br /><br /><strong>J12 (UART and Power source)</strong></p> <p class="P40">  <span class="T16">The jumper J12 provides the power source including 3.3V and 5V.  There is a pair of UART TX/RX signals output here.  </span></p> <table class="Tabella6" border="0" cellspacing="0" cellpadding="0"><colgroup><col width="108" /><col width="98" /><col width="208" /><col width="121" /></colgroup><tbody><tr><td class="Tabella6_A1" rowspan="2"> <p class="P29">J12 Pin</p> </td> <td class="Tabella6_A1" rowspan="2"> <p class="P29">Pin Name</p> </td> <td class="Tabella6_A1"> <p class="P29">Multiplex Function Select</p> </td> <td class="Tabella6_A1"> <p class="P29">GPIO</p> </td> </tr><tr><td class="Tabella6_C2"> <p class="P29">Multi 1</p> </td> <td class="Tabella6_C2"> <p class="P29">Multi 2</p> </td> </tr><tr><td class="Tabella6_A1"> <p class="P30">J12 Pin 1</p> </td> <td class="Tabella6_C2"> <p class="P30">5V</p> </td> <td class="Tabella6_C2"> <p class="P31"> </p> </td> <td class="Tabella6_C2"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella6_A1"> <p class="P30">J12 Pin2</p> </td> <td class="Tabella6_C2"> <p class="P30">3.3V</p> </td> <td class="Tabella6_C2"> <p class="P31"> </p> </td> <td class="Tabella6_C2"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella6_A1"> <p class="P30">J12 Pin3</p> </td> <td class="Tabella6_C2"> <p class="P30">NC</p> </td> <td class="Tabella6_C2"> <p class="P30">IO-7</p> </td> <td class="Tabella6_C2"> <p class="P30">PH5</p> </td> </tr><tr><td class="Tabella6_A1"> <p class="P30">J12 Pin4</p> </td> <td class="Tabella6_C2"> <p class="P30">RXD</p> </td> <td class="Tabella6_C2"> <p class="P30">UART7_RX</p> </td> <td class="Tabella6_C2"> <p class="P30">PI21</p> </td> </tr><tr><td class="Tabella6_A1"> <p class="P30">J12 Pin5</p> </td> <td class="Tabella6_C2"> <p class="P30">NC</p> </td> <td class="Tabella6_C2"> <p class="P30">IO-8</p> </td> <td class="Tabella6_C2"> <p class="P30">PH3</p> </td> </tr><tr><td class="Tabella6_A1"> <p class="P30">J12 Pin6</p> </td> <td class="Tabella6_C2"> <p class="P30">TXD</p> </td> <td class="Tabella6_C2"> <p class="P30">UART7_TX</p> </td> <td class="Tabella6_C2"> <p class="P30">PI20</p> </td> </tr><tr><td class="Tabella6_A1"> <p class="P30">J12 Pin7</p> </td> <td class="Tabella6_C2"> <p class="P30">GND</p> </td> <td class="Tabella6_C2"> <p class="P31"> </p> </td> <td class="Tabella6_C2"> <p class="P31"> </p> </td> </tr><tr><td class="Tabella6_A1"> <p class="P30">J12 Pin8</p> </td> <td class="Tabella6_C2"> <p class="P30">GND</p> </td> <td class="Tabella6_C2"> <p class="P31"> </p> </td> <td class="Tabella6_C2"> <p class="P31"> </p> </td> </tr></tbody></table><p class="P18"> </p> <p class="P10"> </p> <p class="P10"> </p> <div class="P10" style="text-align:center;"><!--Next ' span' is a draw:frame. --><span id="Immagine6" class="fr1"><img style="margin-left:auto;margin-right:auto;" src="http://3.bp.blogspot.com/-t3ox6yvnWXw/U2h33S-_sGI/AAAAAAAAA1s/LwXUm6z7AmM/s1600/26pins-header.png" alt="" width="226" height="400" /></span></div> <h2 class="P36"><a id="a__Available_Operating_Systems_on_Banana_Pi_"></a><a name="Available_Operating_Systems_on_Banana_Pi.5B6.5D"></a><span class="T12">Available Operating Systems on Banana Pi</span>:</h2> <div class="P10" style="text-align:center;"><!--Next ' span' is a draw:frame. --><span id="Immagine7" class="fr1"><img style="margin-left:auto;margin-right:auto;" src="http://4.bp.blogspot.com/-_3LbO_4xQgQ/U8jXKIUYRvI/AAAAAAAAAtA/P3ok4L0ZP84/s1600/Untitled-3.png" alt="" width="232" height="174" /></span></div> <ul><li> <p class="P43"><span class="Bullet_20_Symbols">•</span><a class="Internet_20_link" href="http://en.wikipedia.org/wiki/Raspbian"><span class="T10">Raspbian</span></a><span class="T7"> for Banana Pi (Linux kernel 3.4.90)</span> </p> </li> <li> <p class="P43"><span class="Bullet_20_Symbols">•</span><a class="Internet_20_link" href="http://en.wikipedia.org/wiki/Scratch_(programming_language)"><span class="T9">Scratch</span></a><span class="T6"> for Banana Pi (Boot to Scratch directly) (Linux kernel 3.4.90)</span> </p> </li> <li> <p class="P44"><span class="Bullet_20_Symbols">•</span><a class="Internet_20_link" href="http://en.wikipedia.org/wiki/Lubuntu"><span class="T9">Lubuntu</span></a><span class="T6"> for Banana Pi (Linux kernel 3.4.86)</span> </p> </li> <li> <p class="P44"><span class="Bullet_20_Symbols">•</span><a class="Internet_20_link" href="http://en.wikipedia.org/wiki/OpenSUSE"><span class="T9">openSUSE</span></a><span class="T6"> for Banana Pi (openSUSE 13.1; Linux kernel 3.4.90)</span> </p> </li> <li> <p class="P44"><span class="Bullet_20_Symbols">•</span><a class="Internet_20_link" href="http://en.wikipedia.org/wiki/Arch_Linux_ARM"><span class="T9">ArchLinux</span></a><span class="T6"> for Banana Pi (Linux kernel 3.4.90)</span> </p> </li> <li> <p class="P45"><span class="Bullet_20_Symbols">•</span>Bananian Linux (Debian based; Linux kernel 3.4.90) </p> </li> <li> <p class="P44"><span class="Bullet_20_Symbols">•</span><a class="Internet_20_link" href="http://en.wikipedia.org/wiki/Android_(operating_system)"><span class="T9">Android 4.2.2 &amp; 4.4</span></a><span class="T6"> for Banana Pi (Linux kernel 3.4.39+)</span> </p> </li> <li> <p class="P44"><span class="Bullet_20_Symbols">•</span><a class="Internet_20_link" href="http://en.wikipedia.org/wiki/Fedora_(operating_system)"><span class="T9">Fedora</span></a><span class="T6"> for Banana Pi (Linux kernel 3.4.90)</span> </p> </li> <li> <p class="P45"><span class="Bullet_20_Symbols">•</span>Kano for Banana Pi (Linux kernel 3.4.09) </p> </li> <li> <p class="P45"><span class="Bullet_20_Symbols">•</span>nOS for Banana Pi (Linux kernel 3.4.90) </p> </li> <li> <p class="P44"><span class="Bullet_20_Symbols">•</span><a class="Internet_20_link" href="http://en.wikipedia.org/wiki/Kali_Linux"><span class="T9">Kali Linux</span></a><span class="T6"> for Banana Pi (Linux kernel 3.4.90)</span> </p> </li> </ul><p class="P21_borderStart"></p> <div class="P22" style="text-align:center;"><!--Next ' span' is a draw:frame. --><span id="Immagine8" class="fr1"><img style="margin-left:auto;margin-right:auto;" src="http://wiki.bananapi.org/images/thumb/0/0f/Bpicon.jpg/200px-Bpicon.jpg" alt="" /></span></div> <p class="P20_borderEnd" style="text-align:left;"><strong><span class="T8">SUPPORT AND WIKI: </span><a class="Internet_20_link" href="http://wiki.bananapi.org/index.php/Main_Page"><span class="T2">http://wiki.bananapi.org/index.php/Main_Page</span></a></strong></p> <p class="P11"> </p> <p class="P12">From Wikipedia.org <span class="T14">and www.bananapi.org</span></p> <p></p> <p></p>
51,56 €

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