Neardi LKD Orin Nano SBC With 4K60fps HDMI Output MIPI-DSI Interface
LKD Orin Nano: A Powerful Embedded AI Board for Edge Computing
The LKD Orin Nano is a high-performance industrial-grade embedded board built around the NVIDIA Jetson Orin NX, making it an ideal solution for edge AI applications. Despite its ultra-compact and thin design, it delivers exceptional AI processing power while offering extensive connectivity and expansion capabilities, making it perfect for robotics, machine vision, industrial automation, and other AI-driven applications.
High-Efficiency AI Computing in a Compact Design
At its core, the LKD Orin Nano is powered by the Jetson Orin NX module, delivering up to 100 TOPS of AI computing power. With an NVIDIA Ampere architecture GPU featuring 1024 CUDA cores and 32 Tensor Cores, along with an NVDLA deep learning accelerator (DLA) and a programmable vision accelerator (PVA), this board provides fast AI inference, real-time image processing, and efficient deep learning capabilities. It is an excellent choice for AI-powered automation, intelligent vision systems, and autonomous machines.
Reliable Industrial-Grade Connectivity & I/O
Engineered for demanding AI and industrial applications, the LKD Orin Nano supports a wide 9~90V/3A voltage input range, ensuring stable performance across various environments. Its dual 1000M Ethernet ports allow for high-speed data transfer, making it ideal for real-time industrial networking, AI edge computing, and smart automation.
Comprehensive Interface and Multimedia Support
To meet the demands of advanced AI and embedded applications, the LKD Orin Nano provides multiple I/O and multimedia interfaces:
✔ 4K60fps HDMI output for ultra-high-definition display needs.
✔ Microphone input and dual speaker outputs, supporting voice recognition and audio AI applications.
✔ Three USB 3.0 ports and one USB 2.0 port, allowing for flexible peripheral expansion.
✔ Dual MIPI-CSI camera inputs to enable high-resolution imaging for machine vision and smart surveillance.
✔ MIPI-DSI display interface, facilitating seamless integration into embedded display systems.
Scalable Storage & Expansion Options
The LKD Orin Nano is designed to support high-speed storage and flexible expansion, featuring:
✔ Mini-PCIe and M.2 Key M slots, enabling NVMe SSD integration and other expansion modules.
✔ WiFi 6 and Bluetooth 5.4, ensuring fast and stable wireless communication.
✔ Versatile industrial communication interfaces, including UART, four RS485, three CAN, GPIO, and additional serial ports, making it suitable for industrial control, smart factories, and IoT applications.
Optimized Software Environment & Open Development
The LKD Orin Nano runs on Ubuntu, providing a stable, reliable, and high-performance software environment for AI and embedded system development. With open-source system support, developers have the flexibility to customize, optimize, and scale their applications to meet specific requirements.
Empowering AI Innovation in Industrial Applications
To help developers and enterprises accelerate AI deployment, we offer comprehensive technical support, streamlining research, development, and mass production cycles. Whether you’re working on robotics, AI-powered vision, industrial automation, or smart surveillance, the LKD Orin Nano provides the computing power, connectivity, and expandability needed to build the next generation of AI solutions at the edge.
| Processor Parameter | |
| CPU | Jetson Orin Nano: 6*A78 |
| GPU | Orin Nano 8GB: 32*Tensor core 1024 cores NVIDIA Ampere architecture GPU 918MHz Orin Nano 4GB: 16*Tensor core 512 cores NVIDIA Ampere architecture GPU 918MHz |
| NPU | Orin Nano 8GB: 40TOPS Orin Nano 4GB: 20TOPS |
| VPU | 1080p30fps video encoding, 4K60fps video decoding |
| DDR | LPDDR, 4/8GB Optional |
| OS | Ubuntu |
| Hardware Info | |
| Power | DC 9~36V |
| USB | 3*Type-A USB3.0 + 1*Type-A USB2.0 1* Type-C USB3.1 |
| Display | 1*Type-A HDMI 1*MIPI-DS |
| Audio | φ3.5mm earphone Jack with L/R audio out φ3.5mm microphone Jack with Mic in 2*2.7W/4Ω speaker out with L/R channel |
| Camera | 2* MIPI CSI (4 Lane) |
| Mini-PCIe | mini PCIe for 2G/3G/4G/5G module |
| M.2 | M.2 NGFF ( M-KEY ) PCIE V3.0 x4 with NVMe SSD supported M.2 Key M-KEY PCIE V2.0 x1 for NVMe SSD |
| SIM card | Micro sim slot for Mini-PCIe 4G LTE module |
| RJ-45 | 2*10/100/1000-Mbps data transfer rates |
| RTC | RTC power on and off supported |
| Serial port | 3*CAN, 4*RS485 |
| Keys | 3* Keys (Power, Reset, Recovery) |
| Wiki Documentation: | http://wiki.neardi.net/docs/welcome |
| GitHub: | https://github.com/neardiGitLab: https://gitlab.com/neardiSDK |
| Repository: | https://gitlab.com/neardi-linux |
| Forum: | https://forum.neardi.com |
| Video Tutorials: | https://www.youtube.com/@neardichannels |
1. Please take a valid purchasing voucher for maintenance requests when you have product failure problems.
2. We kindly provide one year of warranty to the ARM board except for non-warranty components(CPU, RAM, and Flash/ storage chips) and a three-month warranty to display and power adapter from the ex-factory date.
3. Product failure in expired time, we kindly provide paid maintenance service. Charges depend on the assessment by the maintenance department. If goods are seriously damaged, the accessory is discontinued, or other uncontrollable conditions may cause the products can not be fixed, Neardi will not provide maintenance service.
4. Neardi kindly provides one month of warranty for the repaired items, payment should be made to the appointed account. Note: This warranty is only valid for the repaired problem.
5. Please take necessary data backup before the defective item is sent back up for maintenance, all risks caused by no backup should be borne by customers.
6. Neardi will reject items sent back without our permission.
7. To goods within the warranty period, freight should be shared by both sides, otherwise, the customer should bear all maintenance-related freight and customs fees.
Non-warranty Coverage(Paid Maintenance Service):
1. Products out of warranty period;
2. Non-warranty components including CPU, RAM, and Flash chips;
3. Failure caused by improper operations like PCB short circuit, rupture;
4. Bar code or factory ID tampered or other operations cause the products can not be recognized;
5. The bar code or factory ID on the purchasing voucher is not matched with the product itself;
6. Product failure caused by unauthorized maintenance, improper operations, misuse operations, or other unexpected behaviors.
7. Product failure caused by force majeure.
8. Other failures caused during delivery.
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