ROM-5780 user guide
Contents
- 1 資源特性(Features)
- 2 簡介(Introduction)
- 3 訂購資訊(Ordering Information)
- 4 接口布局和尺寸(Layout and Sizes)
- 5 快速入门 (Quick Start)
- 6 Linux系统的基本使用(Linux System Basic Operating Method)
- 7 通用方法(General Method)
- 8 Linux BSP編譯方法(Linux BSP Compile Method)
資源特性(Features)
- Rockchip RK3399 Arm dual Cortex-A72 and quad Cortex-A53 1.8 GHz
- Onboard 2GB LPDDR4 memory and 16GB eMMC
- Support HDMI2.0 4K 60fps, 1x DP, 1x eDP, 1 x LVDS
- Support 4K H.264/H.265 Video decoder
- 2 x USB3.0, 3 x USB2.0,1 x USB2,0 OTG, 3 x UART, 12 x GPIO
- 1 x PCIe2.0, 1 x SATA, 1 x 4-lane MIPI CSI, Gigabit LAN
- Support Debian Linux and Android
簡介(Introduction)
Advantech ROM-5780 SMARC 2.1 Computer-on-Module is powered by Rockchip RK3399 SOC which includes dual-core Arm Cortex-A72 and quad-core Arm Cortex-A53 processors
and Arm Mali-T860MP4 3D graphics engine. It provides rich display interface: HDMI 4K@60Hz, eDP and LVDS to meet different requirement. It also features USB3.0, PCIe 2.0, SATA,
Gigabit Ethernet, MIPI-CSI for embedded applications. It is the ideal solution for POS, vending, infotainment, Medical.
ROM-5780 is paired with the Advantech ROM-DB5901 SMARC2.0 development board for faster end product peripheral integration and time-to-market. The reference schematics and
layout checklist documentations for carrier board development will be provided along with the open-sourced Linux BSP, test utilities, hardware design utilities and reference drivers.
訂購資訊(Ordering Information)
接口布局和尺寸(Layout and Sizes)
ROM-5620 接口布局圖 Board Dimension Layout
ROM-DB5901 接口布局圖 Board Dimension Layout
主板内置插针式引脚排序方式 (Pin Header defination)
Internal I/O
Position | Description | Connector Type |
BAT1 | PIN Header for Battery |
WAFER 8P 2.54mm 180D(M) DIP A2543WV2-8P |
BH1 | RTC Battery Holder |
BATTERY HOLDER 24.9*23.4*8.9 CR2032 BH800.4GG |
CAN1 | CANBus Port 1 |
BOX HEADER 5x2P 2.54mm 180D(M) DIP 23N6960-10S10 |
CAN2 | CANBus Port 2 |
BOX HEADER 5x2P 2.54mm 180D(M) DIP 23N6960-10S10 |
COM1 | COM Port 1 |
BOX HEADER 5x2P 2.54mm 180D(M) DIP 23N6960-10S10 |
COM3 | COM Port 3 (Debug Port) |
BOX HEADER 5x2P 2.54mm 180D(M) DIP 23N6960-10S10 |
CN4 | PCIex1 Connector 1 |
PCIEXPRESS 36P 180D(F) DIP 2EG01817-D2D-DF |
CN5 | PCIex1 Connector 2 |
PCIEXPRESS 36P 180D(F) DIP 2EG01817-D2D-DF |
CN6 | PCIex1 Connector 3 |
PCIEXPRESS 36P 180D(F) DIP 2EG01817-D2D-DF |
CN11 | SATA Connector |
Serial ATA 7P 1.27mm 180D(M) DIP WATM-07DBN4A3B8 |
CN12 | SATA Power Connector |
WAFER 4P 2.5mm 180D(M) DIP 24W1161-04S10-01T |
CN22 | GPIOx8 sets |
PIN HEADER 10x2P 2.0mm 180D(M) DIP 21N22050 |
CN25 | MXM 3.0 Connector |
MXM Conn. 314P 90D(F) SMD AS0B821-S78B-7H |
CN26 | M.2 Key E Slots |
NGFF 75P 0.5mm 90D(F) H=4.2mm SMD AS0BC21-S40BE |
CN38 | FAN (Reserved) | WTB Con. 3P 2.54mm 180D(M) DIP A2543WV0-3P-6T-5e |
CN39 | MIPI-CSI1 (FPC, 4-Lane |
FPC 39P, 0.6mm, H0.9mm |
CN40 | MIPI-CSI0 (FPC, 2-Lane) |
FPC 39P, 0.6mm, H0.9mm |
CN41 | MIPI-CSI0 (Mini-SAS, 2-Lane) |
Mini SAS 36P/0.8mm/(M)/LCP/VA/G15u/ S/BK/W |
CN42 | MIPI-CSI1 (Mini-SAS, 4-Lane) |
Mini SAS 36P/0.8mm/(M)/LCP/VA/G15u/ S/BK/W |
ESPI_CN1 | ESPI |
PIN HEADER 6x2P 2.0mm180D(M) SMD 21N22050-12M00B |
I2C_GP_1 | I2C Pin Header |
WAFER BOX 4P 2.00mm 180D(M) DIP 721-81-04TW00 |
I2C_CN3 | Audio Codec Board |
PIN HEADER 2x10P 2.54mm 180D(M) DIP 21N22564 |
LVDS0 | LVDS0 |
Wafer 2x20P/1.25mm/(M)/NY9T/VA/GFL/ S/WH/W |
LVDS_BK_PWR | LVDS0 Back Light |
WAFER BOX 5P 2.0mm 180D(M) DIP A2001WV2-5P |
LVDS1 | LVDS1 |
Wafer 2x20P/1.25mm/(M)/NY9T/VA/GFL/ S/WH/W |
LVDS1_BK_PWR | LVDS1 Back Light |
WAFER BOX 5P 2.0mm 180D(M) DIP A2001WV2-5P |
SD1 | SD Card Slot |
SD CARD 9P 90D(F) SMD WK2192CS3D- 7H |
SPI_CN1 | SPI Pin Header |
PIN HEADER 4x2P 2.54mm 180D(M) SMD 21N22564 |
SW2 | Reset Button |
TACT SW STS-091 SMD 4P H=3.8mm |
SW4 | SLP Button |
TACT SW STS-091 SMD 4P H=3.8mm |
SW5 | Power Button |
TACT SW STS-091 SMD 4P H=3.8mm |
USB0_OTG1 | USB OTG |
Micro USB 5P/0.65mm/(F)/NY9T/GFL/ RA/S/BK/B |
USB-4-5 | USB Port 4, Port 5 |
PIN HEADER 2x5P 2.0mm 180D(M) SMD 21N22050 |
Rear I/O
Position | Description | Name |
DCIN | DC Jack | A |
CN15A | UART Port 0 | B |
CN15B | UART Port 2 | C |
CN1A | DP Port | D |
CN1B | HDMI Port | E |
CN33 | Type C Controller Programming Header (Reserved Only) |
F |
CN34 | USB Type C |
G |
CN8 |
GbE Ethernet Connector Port |
H |
CN3 | USB Port 1/ 2 |
I |
Audio1 |
MIC Input/ Audio Output |
J |
接口引脚定義 (Pin definitions)
- 電池(BAT1) & 電池扣(BH1)
- CAN(CAN1,CAN2)
- 串口(COM_DB(COM3)、COM1、UART0 、UART2)
- 显示接口(LVDS、LVDS Backlight、HDMI、DP)
- LAN接口(LAN)
- USB接口(USB1-2、USB-4-5、USB Type C、USB OTG)
- 音频接口(Audio Output &Audio Codec)
- 电源及指示灯和开关机复位按钮(Power 、LED、Power Button、Reset Button、Sleep Button)
- GPIO接口
- MINI_PCIE接口_M.2接口_SPI、I2C_接口
机械尺寸 (Mechanical Characteristics)
ROM-5620
快速入门 (Quick Start)
系统下载 (OS Download)
Baidu link for Debian10 Password:nvpp
Dropbox link for Debian10
- 'Linux系统 (Linux OS)'
Version | Date | Product | CPU | Yocto3.0/Ubuntu18.04/Debian10 | SDK | Components | Features | Modules | Test Report | Release | Release notes | Comment |
DIV251009 |
2021-03-25 | ROM-5780 |
RK3399 | ROM5780A3AIM20DIV251009_2021-03-25.img.tgz |
Beta | Release Note | RK3399_RISC_DIV251009.xml |
Linux 燒錄方法 (Linux Flash eMMC Method)
Debug 串口調試 (Debug port Setting)
以 Tera Term 为例介绍如何使用串口调试功能
Baud Rate波特率:115200 Data 数据位:8 Parity 奇偶校验:无 Stop 停止位:1 Flow Control流控:无
Tera Term Tool
Check the Sriel port in Device Manager (查看PC端的串口号):
if you can not identify the Serial device , please check your serial driver.
Debug port connection (串口連接)
Log into Terminal Tool (进入串口调试终端):
Linux系统的基本使用(Linux System Basic Operating Method)
Display Setting (ROM-5780)
U-boot Command :
乙太網路使用方法(Ethernent Testing Method)
Command : ifconfig
Command: Ping - I eth1 8.8.8.8 or Ping - I eth0 8.8.8.8
WiFi使用方法(WIFI Testing Method)
Command : # killall wpa_supplicant # ifconfig wlan0 up # wpa_passphrase "SSID" "PASSWORD" > /tmp/wpa.conf # wpa_supplicant -BDwext -iwlan0 -c/tmp/wpa.conf # udhcpc -b -i wlan0''' ping 8.8.8.8 PING 8.8.8.8 (8.8.8.8) 56(84) bytes of data. 64 bytes from 8.8.8.8: icmp_seq=1 ttl=54 time=2.10 ms 64 bytes from 8.8.8.8: icmp_seq=2 ttl=54 time=2.10 ms
4G使用方法(4G Testing Method)
Command: Test 4G: (EWM-C117FL06E - USB) Step 1: Connect EWM-C117FL06E to Mini PCIE slot on 9680015491 and connect the card to CN6 PCIe_D slot on ROM-DB5901. Step 2: Connect the antenna 1750007990-01 to the SMA (F) connector on 9680015491 and connect the IPEX connector to MT1 on EWM-C117FL06E module. Step 3: Connect the Mini USB cable from 9680015491 to USB 2.0 Type A port on ROM-DB5901. Step 4: Power on and execute the pppd command to connect to the network.
GPIO使用方法(GPIO Operating Method)
串口使用方法(Serial Port Operating Method)
RS-232 Test
SER1_UART2: /dev/ttyLP2: COM1
SER3_UART0: /dev/ttyLP0: COM3
SW6/7 Setting (SW6/7設置)
RS232: 1:on 2:off
RS422: 1:on 2:on
RS485: 1:off 2:on
COM0 (CN15A): UART1 test
Loopback Test (eg. ttyLP1)
UART 1: Change SW7 jumper to switch modes. (1ON 2OFF: RS-232)
UART 1: Change CN27~CN30 jumper to (1-2 short)
# stty -F /dev/ttyLP1 -echo -onlcr 115200 # cat /dev/ttyLP1 & # echo test > /dev/ttyLP1
蓝牙使用方法(BlueTooth Operating Method)
Command : $ hciconfig hci0 up $ bluetoothctl $ discoverable on $ pairable on $ scan on [NEW] FC:18:3C:8D:75:F4 myphone $ scan off $ pair FC:18:3C:8D:75:F4 $ connect FC:18:3C:8D:75:F4
遠程訪問及文件傳輸(Remote Access and File Transimmion)
查看主板IP位址 ( Chech IP Address ):
Command : ifconfig
Windows下SSH访问及文件传输
SSH Remote Log into Device
- SSH远程登录,以putty选择putty.exe(或者使用Xshell、SecureCRT等类似软件)
- 需要设置远程设备的IP、通讯端口(默认22)、通讯方式,登录后验证用户名密码
通用方法(General Method)
查看CPU温度(Check CPU Temperature)
/# cat /sys/devices/virtual/thermal/thermal_zone0/temp 44600 # 或者直接以度爲單位顯示 echo $[$(cat /sys/class/thermal/thermal_zone0/temp)/1000]° >>> 45°
查看CPU频率(Check CPU Frequency)
cat /sys/devices/system/cpu/cpu0/cpufreq/cpuinfo_cur_freq >> 900000 cat /sys/devices/system/cpu/cpu0/cpufreq/cpuinfo_max_freq >> 1200000
查看内存容量(Check Memory Capacity)
查看存储容量(Check Storage Capacity)
網路Ping測試(Ping Network Testing)
ping 8.8.8.8 PING 8.8.8.8 (8.8.8.8) 56(84) bytes of data. 64 bytes from 8.8.8.8: icmp_seq=1 ttl=54 time=2.10 ms 64 bytes from 8.8.8.8: icmp_seq=2 ttl=54 time=2.10 ms
設置RTC (RTC Setting)
Linux BSP編譯方法(Linux BSP Compile Method)
如果有驗證上的錯誤 請使用以下的方法
### repo sync failed with Server certificate verification failed. CAfile: /etc/ssl/certs/ca-certificates.crt CRLfile: none
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export GIT_SSL_NO_VERIFY=1
#or
git config --global http.sslverify false
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