Avermedia D131LON Engineering Kit built with NVIDIA Jetson Orin Nano 4GB Module
- Product Code: EPI29522
- Availability: 1
-
Rs.42198.00
- (Excluding 18% GST)
OR
D131LON Engineering Kit built with NVIDIA Jetson Orin Nano module, which brings next-level AI performance and power-efficient capability for all autonomous machines. Avermedia D131LON Engineering Kit is efficient SoM makes advanced analytics possible while providing the ability to handle a host of other embedded IoT applications.
Features:
- Embedded NVIDIA Jetson Orin NX 4G Module
- 1 x 2 Lane MIPI CSI 2
- 1 X GbE RJ 45 ( optional PoE) , 40 pin expansion header
- 4 x USB 3.2 and 1 x 4 Kp 30 HDMI output
- AMRs (Autonomous Mobile Robots):Live camera feeds enable rapid and flexible adjustments to workflows, leading to significant productivity growth.
- Smart Security: Live camera feeds facilitate video analysis, enhancing and ensuring community safety.
- Smart Inspection: Live camera feeds enable fast and accurate detection, improving quality control in production.
- Support 24/7 secure remote monitoring, control, and OTA deployment empowered by Allxon
- Expansion Header : 40-pin: 1x UART, 2x SPI, 2x 12C, 1x I2S, 6x GPIOs , 1xOOB supported by Allxon
- MIPI Camera Inputs : 1x 2 lane MIPI CSI-2, 15 pin FPC 1mm Pitch Connector
- Display Output: 1x HDMI 3840 x 2160 at 30Hz for Orin Nano
- Input Voltage: DC 9V to 24V
- Storage : 1x M.2. key M 2280 for SSD
- Input Current: DC IN Jack (on board): 7A (at 9V) to 2.6A (at 24V), ATX 4-Pin Connector: 7A (at 9V) to 2.6A (at 24V)
- Networking : 1x GbE RJ-45 (PoE option), 1xM.2. key E 2230 for Wi-Fi (AC9260)
Package Includes:
1 x D131LON-4G ( W/O SSD)
1 x Supporters
1 x Screw
Attachments :
Download| Brand/Manufacturer | Generic |
| Country Of Origin | China |
| Packer / Importer Address | Constflick Technologies Limited, Building No 13 and 14, 3rd Floor, 2nd Main, Siddaiah Road, Bangalore, Karnataka - 560027 India. |
| MRP | Rs. 0 (Inclusive of all Taxes) |
* Product Images are shown for illustrative purposes only and may differ from actual product.



