Difference between revisions of "TS-7100 getting started"
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Revision as of 16:20, 11 October 2019
1 Getting Started
A Linux PC is recommended for development, and will be assumed for this documentation. For users in Windows or OSX we recommend virtualizing a Linux PC. Most of our platforms run Debian and if there is no personal distribution preference this is what we recommend for ease of use.
Suggested Linux Distributions
It may be possible to develop using a Windows or OSX system, but this is not supported. Development will include accessing drives formatted for Linux and often Linux based tools.
1.1 Connect USB Console
The TS-7100 includes a USB device port, this uses a 8051 based microcontroller to create a serial device on a host PC. The serial console is provided through this port at 115200 baud, 8n1, with no flow control. The USB serial device is a CP210x Virtual COM Port. Most operating systems have built-in support for this device. If not however, drivers are available for the device here.
Console from Linux
There are many serial terminal applications for Linux, three common used applications are 'picocom', 'screen', and 'minicom'. These examples demonstrate all three applications and assume that the serial device is "/dev/ttyUSB0" which is common for USB adapters. Be sure to replace the serial device string with that of the device on your workstation.
'picocom' is a very small and simple client.
picocom -b 115200 /dev/ttyUSB0
'screen' is a terminal multiplexer which happens to have serial support.
screen /dev/ttyUSB0 115200
Or a very commonly used client is 'minicom' which is quite powerful but requires some setup:
- Navigate to 'serial port setup'
- Type "a" and change location of serial device to '/dev/ttyUSB0' then hit "enter"
- If needed, modify the settings to match this and hit "esc" when done:
E - Bps/Par/Bits : 115200 8N1 F - Hardware Flow Control : No G - Software Flow Control : No
- Navigate to 'Save setup as dfl', hit "enter", and then "esc"
Console from Windows
Putty is a small simple client available for download here. Open up Device Manager to determine your console port. See the putty configuration image for more details.
1.2 Powering Up
|WARNING:||Be sure to take appropriate Electrostatic Discharge (ESD) precautions. Disconnect the power source before moving, cabling, or performing any set up procedures. Inappropriate handling may cause damage to the board.|
Power input to the TS-7100 is supplied via the power input connector, refer to that section for information on voltage ranges for this device.
Once power is applied to the whole device, there will be output on the debug console port. The following section of the manual provides information on getting the serial console connected.
U-Boot 2016.03-00408-gd450758c91 (Oct 10 2019 - 11:59:08 -0700) CPU: Freescale i.MX6UL rev1.2 at 396 MHz Reset cause: POR I2C: ready DRAM: 512 MiB MMC: FSL_SDHC: 0 Net: FEC0 [PRIME] Warning: FEC0 (eth0) using random MAC address - 72:12:64:ca:3e:4a Press Ctrl+C to abort autoboot in 1 second(s) starting USB... USB0: Port not available. USB1: USB EHCI 1.00 scanning bus 1 for devices... 1 USB Device(s) found scanning usb for storage devices... 0 Storage Device(s) found No storage devices, perhaps not 'usb start'ed..? Booting from the eMMC ... ** File not found /boot/boot.ub ** 31526 bytes read in 103 ms (298.8 KiB/s) 5253608 bytes read in 354 ms (14.2 MiB/s) NO CHRG jumper is set, not waiting Kernel image @ 0x80800000 [ 0x000000 - 0x500220 ] ## Flattened Device Tree blob at 83000000 Booting using the fdt blob at 0x83000000 Using Device Tree in place at 83000000, end 8300a909 Starting kernel ...
|Note:||The "*** Warning - bad CRC, using default environment" message can be safely ignored when the unit is first booted. This means that no environment variables have been saved to disk, and U-Boot is falling back to the default. If "env save" is run, this will save the environment to disk, and this message will go away unless there is a further issue.|
The default U-Boot boot process will check for USB updates before attempting to boot from on-board eMMC. Details about the bootup process, features, and other U-Boot information can be found in the U-Boot sections.
1.3 First Linux Boot
When booting with the default settings, a shipped board will boot to the eMMC. The eMMC by default are pre-programmed with our default Debian 9 Stretch image. After Linux boots it will ask the user to log in with a username and password. This uses "root" as the username with no password. This can be changed after logging in with the command 'passwd' to set an account password. Note that this login will only work over the serial console. Debian SSH defaults to not only disallowing password-less logins, but root logins altogether are denied.
From the Linux prompt, the hardware can be tested out or application development can be begun.