DFRobot
LattePanda Mu - A Micro x86 Compute Module (N305 CPU, 16GB RAM, 64GB eMMC)
· MPN: DFR1149
Introduction LattePanda Mu is a micro x86 compute module featuring an Intel N305 octa-core processor, 16GB LPDDR5 memory, and 64GB storage. It offers extens...
Introduction
LattePanda Mu is a micro x86 compute module featuring an Intel N305 octa-core processor, 16GB LPDDR5 memory, and 64GB storage. It offers extensive connectivity, including 3 HDMI/DisplayPort, 8 USB 2.0, up to 4 USB 3.2, and up to 9 PCIe 3.0 lanes. Open-source carrier board files enable users to design custom carrier boards to meet specific requirements.
Small but Powerful
LattePanda Mu features an Intel N305 octa-core processor with a 3.8GHz turbo frequency, delivering strong multitasking capabilities. It achieves a Geekbench 6 multi-core score of 5249 and a single-core score of 1376, outperforming the Raspberry Pi 5, Intel Celeron N5105, and Atom x5-Z8350.
Compact Form Factor
At just 69.6mm x 60mm, the LattePanda Mu fits into space-constrained applications while delivering high-performance computing.
Flexible Power and Performance
The configurable TDP ranges from 9W to 35W, balancing power efficiency and performance. The 9W setting supports passive cooling, while the 35W setting maximizes processing power with active cooling.
Extensive Expansion
LattePanda Mu provides 3 HDMI/DisplayPort, 8 USB 2.0, up to 4 USB 3.2, 9 PCIe 3.0 lanes, 2 SATA 3.0, and 64 expandable GPIOs, offering extensive flexibility.
Carrier Board Options
DFRobot provides a lite carrier board for quick development and a full-function evaluation board for extensive testing. Note: The lite carrier’s PCIe slot requires a 12V power supply.
Simplified Customization
LattePanda offers open-source carrier board files and libraries, reducing development time for custom designs.
Multi-OS Support
Supports Windows 10, Windows 11, and Ubuntu for diverse application needs.
Customization Services
LattePanda provides custom carrier boards, boot screens, BIOS functionality, and OS modifications. For custom solutions, contact solution@lattepanda.com.
Features
- Intel® Core™ i3-N305 (up to 3.8GHz, 8-core, 8-thread)
- 16GB LPDDR5 4800MHz memory with IBECC support
- 64GB eMMC 5.1 storage
- Configurable TDP: 9W ~ 35W
- Windows 10, Windows 11, Ubuntu support
- Rich expansion: 3 HDMI/DisplayPort, 8 USB 2.0, up to 4 USB 3.2, 9 PCIe 3.0 lanes, 2 SATA 3.0, 64 GPIOs
- Open-source carrier board design files (KiCAD)
Specification
- Processor: Intel® Core™ i3-N305, 8 cores, up to 3.8GHz
- Memory: 16GB LPDDR5 4800MT/s with IBECC
- Storage: 64GB eMMC 5.1
- Display: 3 outputs, max resolution 4096 x 2160@60Hz
-
I/O:
- PCIe 3.0: up to 9 lanes
- SATA 3.0: up to 2 ports
- USB 3.2 (10Gbps): up to 4 ports
- USB 2.0 (480Mbps): 8 ports
- I2C, UART, and GPIOs
- Power: 9~20V
- Operating System: Windows, Ubuntu
-
Environment: 0
60°C, 080% relative humidity - Size: 69.6 x 60mm
Projects
Review: The New LattePanda MU Is The Smallest Windows 11 Mini PC! Hands-On First Look
Introduction: The new LattePanda MU is here—smaller than a credit card and supports a real graphics card! This video covers unboxing, specs, Windows testing, benchmarks, and an RTX graphics card test using the LattePanda Carry Board Lite.
Review: LattePanda MU Full Review & Unboxing: Everything You Need to Know!
Introduction: A full review of the LattePanda MU, including unboxing, specs, and testing.
Review: A Tiny x86 SBC with Raspberry Pi GPIO (Radxa X4, Tested)
Introduction: The LP Mu features full-speed 64-bit LPDDR5 4800MT/s memory, outperforming competitors with downgraded 32-bit memory.
Shipping List
- LattePanda Mu Compute Module (N305 16GB) x1
- Product Manual x1
Jargon buster
Plain-language definitions for the technical terms used above.
- DisplayPort
- A digital display interface used to connect monitors and other video displays. It matters because the supported DisplayPort version affects display resolution, refresh rate and monitor compatibility.
- eMMC
- Embedded MultiMediaCard is built-in flash storage soldered onto a board, similar in purpose to an SD card but integrated. It matters because it holds the operating system and files without needing a separate memory card.
- GPIO
- General-purpose input/output pins are microcontroller pins you can set in software to read signals, switch devices on and off, or connect to peripherals. The number of GPIO pins matters because it limits how many buttons, LEDs, sensors, and other parts you can wire directly to the board.
- HDMI
- HDMI is a common digital video and audio connection used by computers, media players, and many displays. If a display kit has HDMI input, it is usually much easier to test with a single-board computer because it can act like a normal monitor.
- I2C
- I2C is a two-wire communication bus used by many sensors and small modules. It matters because several I2C devices can share the same two wires, but each device needs a compatible address and your controller must support I2C.
- TDP
- TDP, or thermal design power, is a guide to how much heat a processor’s cooling system is expected to handle. Checking the TDP rating helps you decide whether a heatsink or case is suitable for the board and workload you plan to use.
- Thread
- A low-power wireless mesh networking standard designed for smart home and IoT devices. It matters because Thread devices can relay messages through each other, helping build reliable networks for sensors and controllers.
- UART
- UART is a simple serial connection that sends data over separate transmit and receive wires, often labelled TX and RX. It matters because this module is designed to replace a wired UART cable with a wireless link while keeping the same serial data format.
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Brands
Supplier page — dfrobot.com
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