Difference between revisions of "Orange Pi 3 LTS"
Line 180: | Line 180: | ||
4)After entering the balenaEtcher download page, please select the Linux version of the software through the drop-down box to download<br> | 4)After entering the balenaEtcher download page, please select the Linux version of the software through the drop-down box to download<br> | ||
<div style="padding-left:200px">[[文件:Orange-pi-3lts-selectlinuxversion.png|200px]]</div> | <div style="padding-left:200px">[[文件:Orange-pi-3lts-selectlinuxversion.png|200px]]</div> | ||
− | 5)After downloading, use unzip to decompress. The decompressed <br> | + | 5)After downloading, use '''unzip ''' to decompress. The decompressed '''balenaEtcher-1.5.109-x64.AppImage''' is the software needed to burn the Linux image |
+ | <div style="background:#f1f1f1;"> | ||
+ | test@test:~$ unzip balena-etcher-electron-1.5.109-linux-x64.zip <br> | ||
+ | Archive: balena-etcher-electron-1.5.109-linux-x64.zip<br> | ||
+ | inflating: balenaEtcher-1.5.109-x64.AppImage<br> | ||
+ | test@test:~$ ls<br> | ||
+ | balenaEtcher-1.5.109-x64.AppImage balena-etcher-electron-1.5.109-linux-x64.zip | ||
+ | </div> | ||
+ | 6)Download the Linux operating system image file compression package you want to burn from the <span style="#00b0f0;">Orange Pi data download page</span>, and then use the decompression software to decompress it. In the decompressed file, the file ending with ".img" is the operating system image file. The size is generally above 1GB<br> | ||
+ | a.The decompression command of the compressed package at the end of a.7z is as follows | ||
+ | <div style="background:#f1f1f1;"> | ||
+ | test@test:~$ 7z x Orangepi3-lts_2.1.6_ubuntu_bionic_server_linux4.9.118.7z <br> | ||
+ | test@test:~$ ls Orangepi3-lts_2.1.6_ubuntu_bionic_server_linux4.9.118.*<br> | ||
+ | Orangepi3-lts_2.1.6_ubuntu_bionic_server_linux4.9.118.7z <br> | ||
+ | Orangepi3-<>lts_2.1.6_ubuntu_bionic_server_linux4.9.118.img.sha #Checksum file<br> | ||
+ | Orangepi3-lts_2.1.6_ubuntu_bionic_server_linux4.9.118.img #image file<br> | ||
+ | </div> | ||
+ | 7)After decompressing the image, you can first use the sha256sum -c *.sha command to calculate whether the checksum is correct. If the prompt is successful, it means that the downloaded image is not wrong, and you can safely burn to the TF card. If the checksum does not match, it means There is a problem with the downloaded image, please try to download again | ||
+ | <div style="background:#f1f1f1;"> | ||
+ | test@test:~$ sha256sum -c *.sha <br> | ||
+ | Orangepi3-lts_2.1.6_ubuntu_bionic_server_linux4.9.118.img: success | ||
+ | </div> | ||
+ | 8)Then double-click '''balenaEtcher-1.5.109-x64.AppImage''' on the graphical interface of Ubuntu PC to open balenaEtcher (no installation required), and the opened interface is as shown in the figure below<br> |
Revision as of 16:16, 16 June 2022
Contents
- 1 1. Basic functions of Orange Pi 3 LTS
- 2 2. Introduction to use the development board
- 2.1 2.1. Prepare the necessary accessories
- 2.2 2.2. Download the image and related information of the development board
- 2.3 2.3. Use the Android image pre-installed in eMMC to test the function of the development board
- 2.4 Method of flashing Linux image to TF card based on Windows PC
- 2.5 2.5. Method of flashing Linux image to TF card based on Ubuntu PC
1. Basic functions of Orange Pi 3 LTS
1.1. What’s Orange Pi 3 LTS ?
Orange Pi 3 LTS is an open source single-board card computer, a new generation of arm64 development board, it can run Android 9.0, Ubuntu and Debian and other operating systems. Orange Pi 3 LTS uses Allwinner H6 system-on-chip and has 2GB LPDDR3 memory
1.2. What can l do with Orange Pi 3 LTS ?
We can use it to build:
- A computer
- A wireless server
- Games
- Music and sounds
- HD video
- A speaker
- Android
Pretty much anything else, because Orange Pi is open source.
1.3. Who’s it for?
The Orange Pi development board is not only a consumer product, but also designed for anyone who wants to use technology to create and innovate. It is a simple, interesting and practical tool, you can use it to create the world around you
1.4. Hardware specification
Hardware feature introduction | |
---|---|
CPU | Allwinner H6 Quad-core 64-bit 1.8GHz high-performance Cortex-A53 processor |
GPU |
|
RAM | 2GB LPDDR3 (shared with GPU) |
Onboard Storage | TF card slot、8GB EMMC |
Onboard Network |
|
Onboard WIFI+Bluetooth |
|
Video Output | HDMI 2.0a 、TV CVBS output |
Audio output |
|
Power Source | 5V3A Type-C |
Power management chip | AXP805 |
USB port | 1*USB 3.0 HOST、1*USB 2.0 HOST、1*USB2.0 OTG |
26pin headers | 1*I2C、1*SPI、1*UART&Multiple GPIO Ports |
Debug serial port | UART-TX、UART-RX &GND |
LED | Power LED& Status LED |
IR Receiver | Support IR remote control for Orange Pi |
Button | Power Button (SW4) |
Supported OS | Android9.0、Ubuntu、Debian |
Appearance specification introduction | |
Dimension | 85mm×56mm |
Weight | 45g |
range Pi™ is a trademark of the Shenzhen Xunlong Software CO., Limited |
1.5. The top and bottom views of Orange Pi 3 LTS
Top View:
500px|
Bottom View:
500px|
1.6. Orange Pi 3 LTS interface details
2. Introduction to use the development board
2.1. Prepare the necessary accessories
1)TF card, a class 10 or higher high-speed card with a minimum capacity of 8GB, it is recommended to use SanDisk’s TF card. Orange Pi tests all with SanDisk’s TF card. Other brands of TF cards may cause the system to fail to start.
2)TF card reader, used to read and write TF card
3)HDMI to HDMI cable, used to connect the development board to an HDMI monitor or TV for display
4)The power supply requires a USB Typc C interface data cable and a 5V/3A high-quality power adapter
5)USB interface mouse and keyboard, as long as it is a standard USB interface mouse and keyboard, the mouse and keyboard can be used to control the Orange Pi development board
6)Infrared remote control, mainly used to control Android system
7)100M or Gigabit network cable, used to connect the development board to the Internet
8)AV video cable, if you want to display video through the CVBS interface instead of the HDMI interface, then you need to connect the development board to the TV through the AV video cable
9)USB to 3.3v TTL module and DuPont cable. When using the debug serial port, USB to TTL module and DuPont cable are required to connect the development board and the computer
10)A personal computer with Ubuntu and Windows operating systems
1 | Ubuntu18.04 PC | Optional, used to compile Linux source code and Android source code |
2 | Windows PC | Used to burn Android and Linux images |
1)The download URL is
http://www.orangepi.org/downloadresources/
文件:Orange-pi-3lts-download.png
2)The information mainly contains
a. Android source code: saved on Google Cloud Disk
b.Linux source code: saved on github
c. User manuals and schematic diagrams: chip-related data manuals will also be placed here
d. Official tools: mainly include the software that needs to be used during the use of the development board
e. Android image: saved on Google Cloud Disk
f. Ubuntu image: saved on Google Cloud Disk
g. Debian image: saved on Google Cloud Disk
2.3. Use the Android image pre-installed in eMMC to test the function of the development board
The development board comes with 8GB eMMC. After you get the development board, you can first use the Android9.0 image pre-installed in the eMMC to test the functions of the development board. After confirming that all the hardware functions of the development board can work, then burn the system you want to use
Method of flashing Linux image to TF card based on Windows PC
1)First, prepare a TF card with 8GB or larger capacity. The transmission speed of the TF card must be above class10. It is recommended to use a TF card of SanDisk and other brands
2)Then use a card reader to insert the TF card into the computer
3)Then format the TF card
a.You can use the SD Card Formatter software to format the TF card, the download address is
https://www.sdcard.org/downloads/formatter/eula_windows/SDCardFormatterv5_WinEN.zip
b.After downloading, you can directly unzip and install, and then open the software
c.If the computer only has a TF card inserted, the “Select card” column will display the drive letter of the TF card. If the computer has multiple USB storage devices inserted, you can select the drive letter corresponding to the TF card through the drop-down box
d.Then click "Format", a warning box will pop up before formatting, and formatting will start after selecting "Yes (Y)"
e.After formatting the TF card, the message shown in the figure below will pop up, click OK
4)Download the Linux operating system image file compression package you want to burn from the Orange Pi data download page, and then use the decompression software to decompress it. In the decompressed file, the file ending with ".img" is the operating system image file. The size is generally above 1GB
5)Use Win32Diskimager to burn Linux image to TF card
a.The download page of Win32Diskimager is
http://sourceforge.net/projects/win32diskimager/files/Archive/
b.Install directly after downloading, the interface of Win32Diskimager is shown below
a) First select the path of the image file
b) Then confirm that the drive letter of the TF card is consistent with the one displayed in the "Device" column
c) Finally, click "write" to start burning
c.After the image is written, click the "Exit" button to exit, and then you can pull out the TF card and insert it into the development board to start
2.5. Method of flashing Linux image to TF card based on Ubuntu PC
1)First, prepare a TF card with 8GB or larger capacity. The transmission speed of the TF card must be above class10. It is recommended to use a TF card of SanDisk and other brands
2)Then use a card reader to insert the TF card into the computer
3)Download balenaEtcher software, the download address is
https://www.balena.io/etcher/
4)After entering the balenaEtcher download page, please select the Linux version of the software through the drop-down box to download
5)After downloading, use unzip to decompress. The decompressed balenaEtcher-1.5.109-x64.AppImage is the software needed to burn the Linux image
test@test:~$ unzip balena-etcher-electron-1.5.109-linux-x64.zip
Archive: balena-etcher-electron-1.5.109-linux-x64.zip
inflating: balenaEtcher-1.5.109-x64.AppImage
test@test:~$ ls
balenaEtcher-1.5.109-x64.AppImage balena-etcher-electron-1.5.109-linux-x64.zip
6)Download the Linux operating system image file compression package you want to burn from the Orange Pi data download page, and then use the decompression software to decompress it. In the decompressed file, the file ending with ".img" is the operating system image file. The size is generally above 1GB
a.The decompression command of the compressed package at the end of a.7z is as follows
test@test:~$ 7z x Orangepi3-lts_2.1.6_ubuntu_bionic_server_linux4.9.118.7z
test@test:~$ ls Orangepi3-lts_2.1.6_ubuntu_bionic_server_linux4.9.118.*
Orangepi3-lts_2.1.6_ubuntu_bionic_server_linux4.9.118.7z
Orangepi3-<>lts_2.1.6_ubuntu_bionic_server_linux4.9.118.img.sha #Checksum file
Orangepi3-lts_2.1.6_ubuntu_bionic_server_linux4.9.118.img #image file
7)After decompressing the image, you can first use the sha256sum -c *.sha command to calculate whether the checksum is correct. If the prompt is successful, it means that the downloaded image is not wrong, and you can safely burn to the TF card. If the checksum does not match, it means There is a problem with the downloaded image, please try to download again
test@test:~$ sha256sum -c *.sha
Orangepi3-lts_2.1.6_ubuntu_bionic_server_linux4.9.118.img: success
8)Then double-click balenaEtcher-1.5.109-x64.AppImage on the graphical interface of Ubuntu PC to open balenaEtcher (no installation required), and the opened interface is as shown in the figure below