login as: biqu
password: biqu
- After the OS writes to the SD card, there is a FAT32 partition named
BOOT
, opensystem.cfg
file withNotpad
,Notpad++
orVSCode
. - Set
WIFI_SSID
as your actual wifi name andWIFI_PASSWD
as your actual wifi password, The space character can be parsed normally without additional escape character.
For example:WIFI_SSID="CB1 Tester"
- After the OS writes to the SD card, there is a FAT32 partition named
BOOT
, openBoardEnv.txt
file withNotpad
,Notpad++
orVSCode
. - Set as required as shown in the figure below.
- set
fdtfile
tosun50i-h616-biqu-emmc
for CB1 eMMC version, setfdtfile
tosun50i-h616-biqu-sd
(default value) for CB1 normal version - The default value is
console=display
, This means that theUART0
of CB1 is used as the debugging port by default. We can useMobaXterm
to connect to CB1 by UART0 and debug. If klipper wants to useUART0
to control the motherboard, we need to set it toconsole=serial
, now klippe can useUART0
as/dev/ttyS0
. - CB1 will automatically identify the HDMI resolution, but if your HDMI screen cannot report the resolution through the EDID normally, we can forcibly specify the resolution of CB1 output by uncomment
extraargs=video
and set the actual resolution.
For example:
BTT-HDMI7 resolution = 1024x600:extraargs=video=HDMI-A-1:1024x600-24@60
BTT-HDMI5 resolution = 800x480:extraargs=video=HDMI-A-1:800x480-24@60
- Uncomment
overlays=tft35_spi
to enable TFT35 SPI screen, uncommentparam_tft35_spi_rotate=xx
(0, 90, 180, 270) to set TFT35 SPI rotation angle, we may also need to setks_angle
insystem.cfg
to set touch rotation to match the display of TFT35. - Uncomment
overlays=mcp2515
to enable MCP2515 spi to canbus module (Theoretically, it can be multiplexed withtft35_spi
and 'spidev1.2' at the same time, butmcp2515
needs strong real-time, it is better not to enable other SPI1 features when usingmcp2515
). - uncomment
overlays=i2c0
to release '/dev/i2c-0' to user space forBTT Pi
/CB1 eMMC
, The list of i2c device is as follows:- Before uncomment, the system has 3 built-in i2c devices:
/dev/i2c-0
: twi3(PA10/PA11) for the H616 built-in Ethernet PHY device (ac200/ac300)./dev/i2c-1
: for PMU axp313a./dev/i2c-2
: for HDMI's i2c.
- After uncomment, 1 user space i2c + 3 built-in i2c:
/dev/i2c-0
: user space i2c0(PI5/PI6)./dev/i2c-1
: twi3(PA10/PA11) for the H616 built-in Ethernet PHY device (ac200/ac300)./dev/i2c-2
: for PMU axp313a./dev/i2c-3
: for HDMI's i2c.
- Before uncomment, the system has 3 built-in i2c devices:
- uncomment
overlays=spidev1_2
to release 'spidev1.2' to user space (For example: adxl345),spidev1.0
is used byMCP2515
,spidev1.1
is used bytft35_spi
. - uncomment
#param_gpio_shutdown_pin=PC7
and#param_gpio_shutdown_level=0
for GPIO triggers system shutdown feature,#param_gpio_shutdown_pin
is the GPIO used for detection,#param_gpio_shutdown_level
is the triggering level,0
means the falling edge is triggered, and1
means the rising edge is triggered.
- set
- NOTE: TFT35 SPI and MCP2515 multiplex a group of SPI1
SPI1_CLK=PH6 SPI1_MISO=PH8 SPI1_MOSI=PH7 TFT35_SPI_CS=PC7 MCP2515_CS=PC11 MCP2515_IRQ=PC9
Refer to here
NOTE: The CB1 eMMC version can also use the SD card as the OS image source, and the priority of the SD card is higher than on-board eMMC, so when using the eMMC, remember not to insert the OS SD card
-
Download the utility sunxi-fel to your computer (Mac OS is not supported) and download the CB1 driver For windows download sunxi-fel.exe For linux download sunxi-fel-aarch64 For arm download sunxi-fel-armhf
-
Push the DIP switch (USB OTG) and (RPI BOOT) to ON to enter BOOT mode.
As shown in the following figure is for PI4B_Adapter.
For other motherboards, refer to the CM4 eMMC part of the motherboard manual to set the switch.
For some motherboards (e.g. Manta-E3EZ, Manta-M8P-V1.1, Manta-M5P) with OTG/UART selector switch for Type-C, we also need to set the switch to OTG mode according to motherboard's manual -
USB driver for windows (Linux skip this step): refer to the official website of AllWinner
- Download Zadig to the rescue
- Enable
Options->List All Devices
- Select the USB device to install the driver(most likely will be "unknown"). Make sure the device USB ID is "1F3A:EFE8"). Click
Install Driver
after confirming that the information is correct
-
Open the
Powershell
(windows) orconsole terminal
(linux) where you downloaded the sunxi-fel tools and CB1 driver in step 1. -
Run
.\sunxi-fel.exe -v ver
(windows)
sudo ./sunxi-fel-armhf -v ver
(linux-armhf)
sudo ./sunxi-fel-aarch64 -v ver
(linux-aarch64)
to check whether the USB of CB1 is connected normally.
If you getERROR: Allwinner USB FEL device not found!
means that the USB is not recognized. Please recheck whether the driver is installed successfully.
If you getAWUSBFEX soc=00001823(H616)
means that CB1 eMMC is ready.Here on the first line is an example of error you will see if the driver did not install correctly. On the second line is an example of what it will look like after zadig has installed the driver correctly.
-
Run
.\sunxi-fel.exe uboot .\u-boot-sunxi-cb1-emmc.bin
(windows)
sudo ./sunxi-fel-armhf uboot ./u-boot-sunxi-cb1-emmc.bin
(linux-armhf)
sudo ./sunxi-fel-aarch64 uboot ./u-boot-sunxi-cb1-emmc.bin
(linux-aarch64)
to write u-boot to CB1 -
When the uboot is written, the computer will recognize a USB flash disk, and then you can use
balenaEtcher
orRaspberry Pi Imager
to write the OS image to eMMC. The steps are the same as the SD card version. -
Refor to Overlays Settings to set
fdtfile
tosun50i-h616-biqu-emmc
Pin | BTT Pi | CB1 eMMC | CB1 | CM4 | CM4 | CB1 | CB1 eMMC | BTT Pi | Pin | ||||||||
Signal | Description | Signal | Description | Signal | Description | Signal | Description | Signal | Description | Signal | Description | Signal | Description | Signal | Description | ||
1 | 3.3V | 3.3V | 3.3V | 3.3V | 5V | 5V | 5V | 5V | 2 | ||||||||
3 | PC3 | GPIO67 | NC | NC | GPIO2 | I2C1 SDA | 5V | 5V | 5V | 5V | 4 | ||||||
5 | PC0 | GPIO64 | NC | NC | GPIO3 | I2C1 SCL | GND | GND | GND | GND | 6 | ||||||
7 | PC7 | GPIO71 | PI14 | GPIO270 | PC7 | GPIO71 | GPIO4 | GPCLK0 | GPIO14 | UART TX | PH0 | GPIO224, UART0_TX | PH0 | GPIO224, UART0_TX | PH0 | GPIO224, UART0_TX | 8 |
9 | GND | GND | GND | GND | GPIO15 | UART RX | PH1 | GPIO225, UART0_RX | PH1 | GPIO225, UART0_RX | PH1 | GPIO225, UART0_RX | 10 | ||||
11 | PC14 | GPIO78 | PI15 | GPIO271 | PC14 | GPIO78 | GPIO17 | SPI1 CE1 | GPIO18 | PCM CLK | PC13 | GPIO77 | PI7 | GPIO263 | PC13 | GPIO77 | 12 |
13 | PC12 | GPIO76 | PI6 | GPIO262 | PC12 | GPIO76 | GPIO27 |
|
GND | GND | GND | GND | 14 | ||||
15 | PC10 | GPIO74 | PI4 | GPIO260 | PC10 | GPIO74 | GPIO22 |
|
GPIO23 |
|
PC11 | GPIO75 | PI5 | GPIO261 | PC11 | GPIO75 | 16 |
17 | 3.3V | 3.3V | 3.3V | 3.3V | GPIO24 |
|
PC9 | GPIO73 | PI3 | GPIO259 | PC9 | GPIO73 | 18 | ||||
19 | PH7 | GPIO231, SPI1_MOSI | PH7 | GPIO231, SPI1_MOSI | PH7 | GPIO231, SPI1_MOSI | GPIO10 | SPI0 MOSI | GND | GND | GND | GND | 20 | ||||
21 | PH8 | GPIO232, SPI1_MISO | PH8 | GPIO232, SPI1_MISO | PH8 | GPIO232, SPI1_MISO | GPIO9 | SPI0 MISO | GPIO25 |
|
NC | NC | PG13 | GPIO205 | 22 | ||
23 | PH6 | GPIO230, SPI1_CLK | PH6 | GPIO230, SPI1_CLK | PH6 | GPIO230, SPI1_CLK | GPIO11 | SPI0 SCLK | GPIO8 | SPI0 CE0 | NC | NC | PG12 | GPIO204 | 24 | ||
25 | GND | GND | GND | GND | GPIO7 | SPI0 CE1 | PG8 | GPIO200 | PI11 | GPIO267 | PI9 | GPIO265 | 26 | ||||
27 | PC2 | GPIO66 | NC | NC | GPIO0 | EEPROM SDA | GPIO1 | EEPROM SCL | PG7 | GPIO199 | PI10 | GPIO266 | PI10 | GPIO266 | 28 | ||
29 | PC4 | GPIO68 | NC | NC | GPIO5 | GPCLK1 | GND | GND | GND | GND | 30 | ||||||
31 | PI5 | GPIO261 | PI9 | GPIO265 | PG6 | GPIO198 | GPIO6 | GPCLK2 | GPIO12 | PWM0 | PG9 | GPIO201 | PI12 | GPIO268 | PI6 | GPIO262 | 32 |
33 | PI14 | GPIO270 | NC | NC | GPIO13 | PWM1 | GND | GND | GND | GND | 34 | ||||||
35 | PC6 | GPIO70 | PI1 | GPIO257 | PC6 | GPIO70 | GPIO19 | PCM FS | GPIO16 | SPI1 CE2 | NC | NC | PG11 | GPIO203 | 36 | ||
37 | PC15 | GPIO79 | PI13 | GPIO269 | PC15 | GPIO79 | GPIO26 |
|
GPIO20 | PCM DIN | PH10 | GPIO234, IR_RX | PH10 | GPIO234, IR_RX | PH4 | GPIO228 | 38 |
39 | GND | GND | GND | GND | GPIO21 | PCM DOUT | PC8 | GPIO72 | PI2 | GPIO258 | PC8 | GPIO72 | 40 |
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