Nano. Pi NEO Friendly. ARM Wi. KiIntroduction The Nano. Pi NEOabbreviated as NEO is another fun board developed by Friendly. ARM for makers, hobbyists and fans. Hardware Spec CPU Allwinner H3, Quad core Cortex A7 Up to 1. Serial Number Get Data Back 3.66. GHz DDR3 RAM 2. 56. MB5. 12. MB Connectivity 1. These jumpers allows you to have serial communication at either RS232 level or TTL level. Jumpers short top row RS232OUT and middle row SELECT this is the. Tech Stuff RS232 Cables, Wiring and Pinouts. Brief tutorial and pinouts for RS232, RS422485, T1E1 and V. If you want to know more about RS 232 signals then. Y_OTG_CABLE.png' alt='Powered Serial Port Pinout' title='Powered Serial Port Pinout' />Powered Serial Port PinoutsM Ethernet USB Host Type A x 1, 2. Micro. SD Slot x 1 Micro. HD25700_opto4wiring.png' alt='Powered Serial Port Pinout Db9' title='Powered Serial Port Pinout Db9' />The NanoPi NEOabbreviated as NEO is another fun board developed by FriendlyARM for makers, hobbyists and fans. Hardware Spec. CPU Allwinner H3, Quadcore CortexA7. Brainboxes 1 Port RS422485 USB to Serial Adapter US324 USB to Serial adapter providing one RS422485 serial port. Data transfer rates up to 921,600 baud rates and. USB Connector Pinouts. USB is a serial bus. It uses 4 shielded wires two for power 5v GND and two for differential data signals labelled as D and D in pinout. The Cisco 1Port 4Wire 5664kbps CSUDSU WAN Interface Card HWIC1DSU56K4 performs the channel service unitdata service unit CSUDSU functions for both. USB OTG, for power input Debug Serial Port 4. Pin, 2. 5. 4 mm pitch pin header Audio inputoutput Port 5. Pin, 2. 0mm pitch pin header GPIO 2. It includes UART, SPI, I2. C, IO etc Power Supply DC 5. V2. A PCB Dimension 4. Working Temperature 4. Weight 1. 4gWITHOUT Pin headers OSSoftware u boot, Ubuntu. Core and Android. Software Featuresuboot mainline uboot released on May 2. Ubuntu. Core 1. 6. Linux 4. 1. 1. 2 rpi monitor check system status and information npi config system configuration utility for setting passwords, language, timezone, hostname, SSH and auto login,and enablingdisabling i. PWM software utility wiring. NP to access GPIO pins software utility RPi. GPIONP to access GPIO pins networkmanager manage network system log output from serial port nano editor welcome window with basic system information and status auto login with user account pi with access to npi config sudoers include fa on first system boot file system will be automatically extended. Powered Serial Port Pinout 25Friendly. Elecs Nano. Hat PCM5. A supports USB Wi. Fi module refer to Connect USB Wi. Fi to NEO supports audio recording and playing with 3. USB Host and 1. 00. M Ethernet supports Friendly. Elec Bake. Bit modules supports dynamic frequency scaling and voltage regulation relieves overheat compared to kernel Linux 3. MAC address. Ubuntu OLED mainline kernel Linux 4. Friendly. Elecs OLED module. Debian welcome window with basic system information and status. Debian for NAS Dock mainline kernel Linux 4. Friendly. Elecs NAS Dock optimized Open. Media. Vault configuration options allocated swap section. Android. Diagram, Layout and Dimension. Layout. Pin Name Linux gpio Pin Name Linux gpio. SYS3. 3. V 2 VDD5. V 3 I2. C0SDA 4 VDD5. V 5 I2. C0SCL 6 GND 7 GPIOG1. UART1TXGPIOG6 1. GND 1. UART1RXGPIOG7 1. UART2TXGPIOA0 0 1. GPIOA6 6. 1. 3 UART2RTSGPIOA2 2 1. GND 1. 5 UART2CTSGPIOA3 3 1. UART1RTSGPIOG8 2. SYS3. 3. V 1. UART1CTSGPIOG9 2. SPI0MOSIGPIOC0 6. GND 2. 1 SPI0MISOGPIOC1 6. UART2RXGPIOA1 1. SPI0CLKGPIOC2 6. SPI0CSGPIOC3 6. USBAudioIR Pin Description. Nano. Pi NEONano. Pi NEO V1. 1V1. Pin Name Description Pin Name Description. VDD5. V 5. V Power Out 1 VDD5. V 5. V Power Out. USB DP1 USB1 DP Signal 2 USB DP1 USB1 DP Signal. USB DM1 USB1 DM Signal 3 USB DM1 USB1 DM Signal. USB DP2 USB2 DP Signal 4 USB DP2 USB2 DP Signal. USB DM2 USB2 DM Signal 5 USB DM2 USB2 DM Signal. GPIOL1. 1IR RX GPIOL1. IR Receive 6 GPIOL1. IR RX GPIOL1. 1 or IR Receive. SPDIF OUTGPIOA1. GPIOA1. SPDIF OUT 7 SPDIF OUTGPIOA1. GPIOA1. 7 or SPDIF OUT. MICIN1. P Microphone Positive Input 8 PCM0SYNCI2. S0LRC I2. SPCM Sample Rate ClockSync. MICIN1. N Microphone Negative Input 9 PCM0CLKI2. S0BCK I2. SPCM Sample Rate Clock. LINEOUTR LINE OUT Right Channel Output 1. PCM0DOUTI2. S0SDOUT I2. SPCM Serial Data Output. Lorena G Sugar'>Lorena G Sugar. LINEOUTL LINE OUT Left Channel Output 1. PCM0DINI2. S0SDIN I2. SPCM Serial Data Input. GND 0. V 1. GND 0. V. Pin Name Description. MICIN1. P Microphone Positive Input. MICIN1. N Microphone Negative Input. LINEOUTR LINE OUT Right Channel Output. GND 0. V. 5 LINEOUTL LINE OUT Left Channel Output. UARTTXD0. 4 UARTRXD0. Note SYS3. 3. V 3. V power output VVDD5. V 5. V power inputoutput. When the external devices power is greater than the Micro. USBs the external device is charging the board otherwise the board powers the external device. The input range is 4. V 5. 6. V All pins are 3. V, output current is 5m. A For more details refer to the document Nano. Pi NEO v. 1. 3. Schematic. Dimensional Diagram. For more details refer to the document pcb file in dxf format. Get Started. Essentials You Need. Before starting to use your Nano. Pi NEO get the following items ready. Nano. Pi NEO micro. SD CardTFCard Class 1. Above, minimum 8. GB SDHC micro. USB power. A 5. V2. A power is a must A Host computer running Ubuntu 1. TF Cards We Tested. To make your Nano. Pi NEO boot and run fast we highly recommend you use a Class. GB SDHC TF card or a better one. The following cards are what we used in all our test cases presented here. San. Disk TF 8. G Class. MicroSD TF card San. Disk TF1. 28. G Micro. SDXC TF 1. 28. G Class. MBS 8. G C1. High Speed class. SD card Make an Installation TF Card. Get Image Files. Visit this link download link to download image files and the flashing utility Image Files. YYYYMMDD. img. zip Ubuntu Core with Qt Embedded Image File, Kernel Linux 3. YYYYMMDD. img. zip Ubuntu Core with Qt Embedded Image File, Kernel Linux 4. YYYYMMDD. img. zip Image File with Support for NAS Dock, Kernel Linux 4. NAS Docknanopi neoubuntu oled4. YYYYMMDD. img. zip Image File with Support for OLED Module, Kernel Linux 4. Nano. Hat OLEDFlash Utility. Windows utility for flashing Debian image. Under Linux users can use dd. Comparison of Linux 3. Linux 4. x. y Our Linux 3. Allwinner. Allwinner has done a lot of customization work which on one hand contains many features and functions but on the other hand incurs overheat issues Our Linux 4. We will keep this kernel with the latest one released by Linus Torvalds. This kernel doesnt generate heat that much and if you dont need to use VPU or GPU you can try this kernel Here is a comparison table Make Ubuntu. Core with Qt Embedded Image Card Extract the image file and win. Insert a TF cardat least 8. G into a Windows PC and run the win. On the utilitys main window select your TF cards drive, the wanted image file and click on write to start flashing the TF card. After flashing is done insert this TF card to your Nano. Pi NEO and connect the board to a 5. V2. A power NEO will be automatically powered on. If the blue LED is flashing it indicates the system is being booted. Work with Ubuntu Core with Qt Embedded. Run Ubuntu Core with Qt Embedded Insert a TF card with Ubuntu. Core image files into your Nano. Pi NEO, connect the board to a 5. V2. A power source the board will be automatically powered on. If you can see the blue LED flashing it means your board is working and Ubuntu. Core is being loaded. If you want to do kernel development you need to use a serial communication board, ie a PSU ONECOM board, which will allow you to operate the board via a serial terminal. Here is a setup where we connect a Nano. Pi NEO to a PC via the PSU ONECOM and you can power on your NEO from either the PSU ONECOM or the boards Micro. USB Ubuntu Cores User Accounts Non root User. User Name pi. Password pi. User Name root. Password fa. The system is automatically logged in as pi. You can do sudo npi config to disable auto login. Extend NEOs TF Card Section. When Ubuntu is loaded the TF cards section will be automatically extended. You can check the sections size by running the following command. Configure System with npi config. The npi config is a commandline utility which can be used to initialize system configurations such as user password, system language, time zone, Hostname, SSH switch, Auto login, hardware interfaceSerialI2. CSPIPWMI2. S and etc. TIAO USB Multi Protocol Adapter Users Manual. PCS, 1. 0cm x 1. 0cm, 2 layers prototype for 3. Buy various JTAG cables for your Satellite Receiver, Cable Modem, Wireless Router, Standard Wiggler from http www. Overview. The TIAO USB Multi Protocol Adapter TUMPA is a multi functional USB communication adapter for hobbyists or engineers. The adapter is based on FDTIs flagship communication chip FT2. H, a USB 2. 0 Hi Speed 4. Mbs to UARTFIFO IC. It has two multi protocol synchronous serial engines MPSSEs which allow for communication using JTAG, I2. C and SPI on two channels simultaneously. Looking for PDF version of this manual It is here. Download PDF version of this manual. Thanks to stealther for creating the PDF manual. Technical Specifications SWD support Added in V2 RST line jumper header added in V2 USB 2. Hi Speed 4. 80. Mbs JTAG IEEE 1. JTAG Baudrate up to 3. Mbitssec programmable On board voltage translation via 7. LVC1. 4T2. 45 can be enabled disabled via software or jumper JTAG signals are 5. V to 1. 8. V tolerant ARM Muli ICE 2. Separate SPII2. CSerial interfaces Configurable output of RS2. MAX3. 24. 3 or TTL level for serial communication Configurable auto power down for MAX3. Target board can be powered by TUMPA 3. V or self powered via jumper 4 on board LEDs PWR, Targt PWR, TX and RX 1 2x. PIN JTAG header 1 2x. PIN RS2. 32 level 2. IDC header 1 2x. 6 1. PIN TTL level 2. 5. IDC header 2 2x. 3 6 PIN SPI 2. IDC header 1 x DB9 connector male, RS2. Target board power jumper Buffer chip enable jumper RS2. RS2. 32 or TTL output jumber USB Hot Plug JTAG Hot Plug. USB over current protection via on board resetable fuse. Strong ESD protection on USB signals. Based on the FTDI FT2. H USB device. Designed for FTDI MPSSE easy to use. Free drivers for Linux. Free drivers for Windows XP, Windows Vista and Windows 7 Support both 3. Board dimension 6. X 5. 8. 5. 5mm 2. X 2. 3. 1Board Dimensions. V1. Board Layout. V1. DB9 male RS2. Channel B2x. 3 standard 6 PIN 2. IDC SPI connector Channel ARS2. Level 2. 5. 4mm IDC Header. PIN 2. 5. 4mm IDC JTAG connector Channel AAuto power down jumper header for MAX3. Default force on jumper is on pin 1and 2Buffer enable jumper header for 7. LVC1. 6T2. 45. Default is always enabled. Buffer chip 7. 4LVC1. T2. 45 VccB power select jumper. Default is to power VccB by TUMPA 3. V only jumper on pin 1 and 23x. PIN RS2. 32 or TTL level serial communication jumpmer. Default is RS2. 32 output jumpers short top row and middle rows Channel B2x. PIN TTL level 2. 5. IDC serial header channel B2x. PIN 2. 5. 4mm IDC SPI header channel BStatus LEDs. From left to right Power indicates TUMPA is powered on, RX and TXTarget board power LED. Indicates target board has power. RST signal polarity select. Change the RST signal polarity. SWD Enable Jumper. Enable or disable SWDSWD header. Header for SWDConnector Pinout LEDs. DB9 Male RS2. 32. This connector is enabled only if RS2. TTL jumpers are on RS2. OUT, see Serial RS2. TTL level Selection Jumper. Pin. Data Carrier Detect. Modem connected to another. Receives bytes into PC. Transmits bytes out of PC. Data Terminal Ready. Im ready to communicate. Data Set Ready. Im ready to communicate. Request To Send. RTSCTS flow control. RTSCTS flow control. Ring Indicator. Telephone Line Ringing. SPI Connector 1. Pin. Vcc connected to on board 3. V. This connector is enabled only if RS2. TTL jumpers are on RS2. OUT, see Serial RS2. TTL level Selection Jumper. For your convenience, we added this header. This header is inter connected to the DB9 connector. The pinout is different then the pinout of DB 9 connector, however the extra pin PIN 1. V power. GND pin PIN 9 and 3. V PIN PIN 1. 0 are always enabled regardless the jumpers position of Serial RS2. TTL level Selection Jumper. This is the pinout of the RS2. IDC header. 2. 0 PIN JTAG Connector. Pin. 4, 6, 8, 1. MAX3. Auto Power Down Jumper. This jumper controls whether to always enable MAX3. FT2. 23. 2H automatically enables it save power. Jumper on PIN 1 and PIN 2 Always enable MAX3. Jumper on PIN 2 and PIN 3 FT2. H PWREN, PIN 6. 0controls when to enable or disable MAX3. Buffer Enable Jumper. This jumper controls whether to software enabledisable buffer chip 7. LVC1. 6T2. 54. Jumper on PIN 1 and PIN 2 Enable LowDisable High 7. LVC1. 6T2. 45 via FT2. Hs ACBUS3 PIN 2. Jumper on PIN 2 and PIN 3 Always enable 7. LVC1. 6T2. 45. Buffer Chip Power Selection Jumper. This jumper controls how to power the buffer voltage translator chip 7. LVC1. 6T2. 45. The 7. LVC1. 6T2. 45s VccA is connected to on board 3. V. You can either power the VccB using on board 3. V or powered by the target board. If powered by target board, please make sure the target boards power is in the range of 1. V 5. 5. V. Jumper on PIN 1 and PIN 2 Power the buffer chip 7. LVC1. 6T2. 45s VccB via the on board 3. V source. Jumper on PIN 2 and PIN 3 Power the buffer chio 7. LVC1. 6T2. 45s VccB by target board. PIN 3 of this header is connected to JTAG headers PIN 1Serial RS2. TTL level Selection Jumper. These jumpers allows you to have serial communication at either RS2. TTL level. TTL Level Serial Connector. This connector is enabled only if RS2. TTL jumpers are on TTL OUT, see Serial RS2. TTL level Selection Jumper. Pin. 5. V USB Power. The power pins 9, 1. Serial RS2. 32TTL level Selection Jumper. SPI Connector 2. Pin. Vcc connected to on board 3. V. PWRRXTX LEDs PWR indicates the TUMPA board is connected to USB port of the computer and on board voltage regulator outputs 3. V. RX Indicates FT2. H is receiving bytes from target via serial communication channel B TX Indicates FT2. H is transmitting bytes to target via serial communication channel BTarget Board Power LED LED is ON Target board PIN 1 of JTAG Header has power supply 3. V. LED is OFF Target board PIN 1 of JTAG Header has power supply lt 3. V or no power. The VTAR can also be detected by software. If VTAR has voltage 3. V, ACBUS4 PIN 3. FT2. H will be LOW. Otherwise it will be HIGH. RST signal polarity select. This header added in V2. Jumper on 4 and 6 JTAG1s RST Pin 2. RST pin. One Jumper on 1 and 3, another jumper on 2 and 4 JTAG1s RST pin 2. RST pin via a NPN transistor to reverse the polarity. SWD Enable Jumper. This jumper is added in V2. Jumper on 1 and 2 Enable SWD header which disables SPI1. Jumper on 2 and 3 Disable SWD header which enables SPI1. This jumper is added in V2. The pinout is compatible with ST Link. Pin Connections. FT2. H2. 0 PIN JTAG Header. SPI Header 1. DB9 Connector. RS2. 32 Level Output Header. TTL Level Output Header. SPI Header 2. SWD Header Added in V2Memo ADBUS0. TCKSCKSWDCLK ADBUS1. TDIMOSISWDIO ADBUS2. TDOMISO ADBUS3. TMSCS ADBUS4. RST ADBUS5n. TRST ADBUS6. DBGRQ ADBUS7. RTCK  ACBUS0. DBGACK ACBUS1. Connected to n. TRST pin of JTAG Header, input. ACBUS2. NRSTConnected to RST pin of JTAG Header, as input. ACBUS3. OEN Pin enable buffer chip, active low output. ACBUS4. Target present pin. Detect VTAR, active low input. ACBUS5 ACBUS6 ACBUS7  BDBUS0. TXTXTXSCK BDBUS1. RXRXRXMOSISWO BDBUS2. RTSRTSRTSMISO BDBUS3. CTSCTSCTSCS BDBUS4. DTRDTRDTR BDBUS5. DSRDSRDSR BDBUS6. DCDDCDDCD BDBUS7. RIRIRI  BCBUS0 BCBUS1 BCBUS2 BCBUS3. RX LED. BCBUS5 BCBUS6 BCBUS7 PWRENEnable MAX3. Active low output. Buy various JTAG cables for your Satellite Receiver, Cable Modem, Wireless Router, Standard Wiggler from http www. PCS, 1. 0cm x 1. 0cm, 2 layers prototype for 3.