I am a Raspberry Pi CM4 kit with a 5 inch touch screen all-in-one machine. The PoE pin Gigabit Ethernet port supports 4K output, onboard four-way USB2.0, 5-inch touch screen, etc. The all-in-one kit is convenient for users.
Notes:
Do not plug and unplug any device except USB and HDMI while the baseboard is working.
If the fan needs to be replaced, please confirm the fan voltage and then power on.
The USB SLAVE interface is used to burn the image and cannot be used as an OTG interface.
In normal use, it is necessary to provide at least 5V 2.5A power supply for CM4. Otherwise, there may be problems such as automatic shutdown, frequency reduction and so on.
Onboard default 4-way USB 2.0 interface.
Support POE pins, additional POE HAT is required if POE function is required.
The LC29H series can track L1+L5 dual-frequency and multi-GNSS signals, reducing multipath effects in urban canyons and improving positioning accuracy while maintaining low power consumption.
Built-in LNA and SAW filters to achieve high sensitivity and strong anti-interference ability.
Use dual-frequency positioning and RTK technology to meet centimeter-level high-precision positioning requirements.
Suitable for real-time tracking systems and sharing economy applications, helping to develop applications such as drones, smart agricultural machinery, and shared two-wheelers.
Standard Raspberry Pi 40PIN GPIO expansion header, supports Raspberry Pi series boards and Jetson Nano
Supports simultaneous tracking of L1+L5 dual-frequency satellite signals, reducing the multipath effect in urban canyons and improving positioning accuracy.
Supports concurrent reception of multiple GNSS systems (GPS, BDS, GLONASS, Galileo and QZSS) while maintaining low power consumption
Built-in low-noise amplifier and acoustic surface filter to achieve -165dBm high sensitivity and enhanced anti-interference performance
The LC29H series can track L1+L5 dual-frequency and multi-GNSS signals, reducing multipath effects in urban canyons and improving positioning accuracy while maintaining low power consumption.
Built-in LNA and SAW filters to achieve high sensitivity and strong anti-interference ability.
Use dual-frequency positioning and RTK technology to meet centimeter-level high-precision positioning requirements.
Suitable for real-time tracking systems and sharing economy applications, helping to develop applications such as drones, smart agricultural machinery, and shared two-wheelers.
Standard Raspberry Pi 40PIN GPIO expansion header, supports Raspberry Pi series boards and Jetson Nano
Supports simultaneous tracking of L1+L5 dual-frequency satellite signals, reducing the multipath effect in urban canyons and improving positioning accuracy.
Supports concurrent reception of multiple GNSS systems (GPS, BDS, GLONASS, Galileo and QZSS) while maintaining low power consumption
Built-in low-noise amplifier and acoustic surface filter to achieve -165dBm high sensitivity and enhanced anti-interference performance
The LC29H series can track L1+L5 dual-frequency and multi-GNSS signals, reducing multipath effects in urban canyons and improving positioning accuracy while maintaining low power consumption.
Built-in LNA and SAW filters to achieve high sensitivity and strong anti-interference ability.
Use dual-frequency positioning and RTK technology to meet centimeter-level high-precision positioning requirements.
Suitable for real-time tracking systems and sharing economy applications, helping to develop applications such as drones, smart agricultural machinery, and shared two-wheelers.
Standard Raspberry Pi 40PIN GPIO expansion header, supports Raspberry Pi series boards and Jetson Nano
Supports simultaneous tracking of L1+L5 dual-frequency satellite signals, reducing the multipath effect in urban canyons and improving positioning accuracy.
Supports concurrent reception of multiple GNSS systems (GPS, BDS, GLONASS, Galileo and QZSS) while maintaining low power consumption
Built-in low-noise amplifier and acoustic surface filter to achieve -165dBm high sensitivity and enhanced anti-interference performance