How to create an image for i.MX6Q development board
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In the "/home/imx6" directory (this directory was created when compiling the Android system earlier. If it does not exist, you can
create one yourself), use the command "mkdir minilinux/" to create a minilinux directory. Use the command "cd
minilinux" to copy the "system" folder in the previous "home/cym/exynos4412/linux/app/" directory
(or the folder created in the previous section) to the minilinux directory. Then enter
the "system" directory and use the "ls" command, as shown in the figure below.
Then use the compression command to package the file system
"tar -zcvf rootfs.tgz bin dev etc lib linuxrc mnt proc sbin sys tmp usr var"
Use the command "ls", as shown in the figure below, you can see the "rootfs.tgz" compressed package, which is the prepared minimum
Linux system image.
Now that the Linux file system image has been created, we can burn the "rootfs.tgz" we created to
the iTOP-iMX6 development board. The burning method is the same as the burning of the Linux-QT file system. We
also need to burn two other files "u-boot.bin" and "uImage". The kernel images "u-
boot.bin" and "uImage" required by this file system are the same as those of the QT system. They are in the "05 Image_qt File System" folder on the CD, and the configuration
is the same as that of QT.
Core board parameters
| size |
51mm*61mm |
| Quad-core Commercial Grade-2G |
NXP quad-core i.MX6Q, 1 GHz
Memory: 2GB DDR3; Storage: 16GB EMMC; SATA interface: support
|
| Dual-core commercial grade-1G |
NXP dual-core simplified version i.MX6DL, main frequency 1GHz
Memory: 1GB DDR3; Storage: 8GB EMMC; SATA interface: not supported
|
| Quad-core Industrial Grade-1G |
NXP quad-core i.MX6Q, main frequency 800MHz
Memory: 1GB DDR3; Storage: 8GB EMMC; SATA interface: support
|
| Quad-core Plus version |
NXP quad-core i.MX6Q, 1 GHz
Memory: 2GB DDR3; Storage: 16GB EMMC; SATA interface: support
|
| EEPROM |
4MB EEPROM for storing key data |
| Power Management |
Internal independence |
| Operating voltage |
5V |
| System Support |
Android4.4.2/6.0 system Linux + Qt4.7/5.7 system Ubuntu12.04/16.04 system |
| Commercial grade operating temperature |
-20℃ to +80℃ |
| Industrial operating temperature |
-40℃ to +85℃ |
| Lead angle extension |
There are up to 320 lead pins to meet various expansion needs of users |
| Extended Parameters |
Gigabit Ethernet: 1-way adaptive Gigabit Ethernet
EIM universal bus: 32-bit data lines are fully led out
SDIO: 3-way
JTAG: 1 output
SATA: 1 way
CAMARA: DVP and MIPI interfaces are fully exposed
LCD: Dual LVDS and 24-bit RGB interface
HDMI: 1 channel V1.4
GPIO: Lead out
Matrix keyboard: lead out
PWM: 3 channels
I2C: 3-way
Sound card IIS: 1 channel
CAN: 2-way
USB:HOST+OTG
UART: 5-way
PCIE: 1 way
SPI: 2-way
|
Base plate parameters
| size |
125mm*190mm |
Operating temperature |
-40℃ to +85℃ |
| POWER |
DC power input interface, 12V/2A power input |
SIM card slot |
1 |
| SWITCH |
Power switch |
4G module |
Full network access (optional) |
| LVDS interface |
2-way |
HDMI interface |
Standard HDMI v1.4, 1080p HD resolution output |
| RGB interface |
1st Road |
OTG |
1st Road |
| CAN |
1 CAN bus interface |
RS485 |
1 |
| MIC |
Support MIC input |
DIP SWITCH |
1 7-position DIP switch |
| PHONE |
Support headphone output |
JTAG |
1 |
| RESET |
1 reset button |
CAMERA interface |
1 supports 5 million cameras |
| Serial Port |
2 serial ports |
GPIO interface |
20PIN, including 1 SPI and 2 I2C |
| USB HOST |
2-way |
button |
4 |
| Network port |
1 Gigabit industrial Ethernet, RJ45 interface |
RTC |
Real-time clock |
| TF card |
1 |
BUZZER |
1 buzzer |
| SATA |
1 SATA interface; SATA power interface |
MIPI interface |
One DSI and one CSI, supporting LCD and CAMARA; |
| WIFI Bluetooth |
support |
EIM Bus |
1st Road |
| GPS Module |
Support (optional) |
IRDA |
1 |
| Electronic compass |
Support (optional) |
Triaxial accelerometer |
Support (optional) |
| 
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