The TS-7800-V2 has one primary power input location: The +5 Volt input located at CN4, immediately "behind" the DB9/DE9 serial port connector at the edge of the PCB. Inappropriate handling may cause damage to the board.Ģ.1 Getting Console and Powering up 2.1.1 Powering Up 2.1.1.1 5 Volts DC WARNING:ĭO NOT CONNECT MORE THAN REGULATED 5 VOLTS DC TO THE CN4 CONNECTOR AT ANY TIME. Disconnect the power source before moving, cabling, or performing any set up procedures. Once you have a development environment, you should continue on and power up the board.īe sure to take appropriate Electrostatic Discharge (ESD) precautions. If recovery is needed, a bootable medium can be written.More ARM cross-compilers are available.Linux filesystems on the microSD card can be accessed on the PC.The main reasons that Linux is useful are: The developer will need to be comfortable with Linux anyway in order to work with embedded Linux on the macrocontroller. For developers who use Windows, virtualized Linux using VMWare or virtualbox is recommended in order to make the full power of Linux available. Be sure to see our guide on migrating from TS-7800 original to the TS-7800-V2 for more information.Ī Linux PC is recommended for development. Electrically and mechanically this board is almost identical to the original TS-7800. This SBC provides a migration path for customers using TS-7800 in their products. This device features WIFI, Bluetooth, an accelerometer, and an FPGA allowing more DIO, UARTs, and an ISA bus to implement additional IO. The CPU features a set of high-end peripherals such as a 10/100/1000 Ethernet, mSATA, dual USB 3.0, eMMC for onboard storage, and more. The TS-7800-V2 is a Single Board Computer (SBC) based on a Marvell MV88F6820 1.3GHz Cortex-A9 (ARMv7 architecture) Dual Core CPU. 4.7.2 Debian Stretch Create a read/write partition.2.5.5 Changing Boot Paradigm / Booting from SATA.