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Shanghai Neardi Technology Co., Ltd.

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City:shanghai

Province/State:shanghai

Country/Region:china

Contact Person:MrCola

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4K 1080P Ubuntu Som Module RK3568 Computer On Modules LCB3568 Arm Com

Name: 4K 1080P Ubuntu Som Module RK3568 Computer On Modules LCB3568 Arm Com
Brand: Neardi
Price: 1 USD

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Brand Name :Neardi

Model Number :LCB3568

Place of Origin :Shanghai, China

MOQ :1 piece

Price :Negotiable

Payment Terms :L/C, D/A, D/P, T/T

Supply Ability :10000/pieces/mon

Delivery Time :7 days

Packaging Details :33.5×19×9 cm

SoC :RK3568

Supplier Type :OEM/ODM

CPU :22nm process, quad-core 64-bit Cortex-A55, with a maximum clock speed of 2.0GHz.

GPU :ARM G52 2EE, supports OpenGL ES 1.1/2.0/3.2, OpenCL 2.0, Vulkan 1.1, and has a high-quality 2D graphics engine built-in.

NPU :1 TOPS

VPU :4K/1080P

DDR :LPDDR4 , with options for 1GB/2GB/4GB/8GB (Optional).

eMMC :eMMC 5.1, with options for 8GB/16GB/32GB/64GB/128GB (Optional).

Working Temperature :Enterprise Grade: -20°C to 70°C Industrial Grade: -40°C to 85°C

PCB interface :B2B, 320 Pin

Embedded :Yes

OS :Android / Ubuntu / Buildroot / Debian

Application :Industrial Automation

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Neardi System On Module RK3568 Computer on Modules LCB3568 Arm Som Ubuntu

The LCB3568 is a full-featured core module exquisitely designed based on the Rockchip RK3568 series [including RK3568 and RK3568J] chip platform, with dimensions of only 60mm by 40mm. The connection between the core module and the baseboard uses four dual-slot 0.5mm pitch 80Pin board-to-board connectors, secured with four M2 screws, ensuring stability, reliability, ease of installation, and maintenance.

The LCB3568 includes CPU, DDR, eMMC, and PMU components. The CPU is either the RK3568 or the RK3568J; DDR uses the market mainstream LPDDR4, with lower power consumption and higher frequency, available in 1GB/2GB/4GB configurations; eMMC adopts the high-speed eMMC 5.1 standard, with various capacity configurations from 4GB to 128GB; the PMU consists of the RK809 and multiple DC-DC and LDO components, with CPU core voltages supporting DVFS (Dynamic Voltage and Frequency Scaling).

The LCB3568 adopts a modular design concept, designing the core part, which has the same requirements and strict standards, as a full-function module. It brings out all the functional pins of the CPU, which have undergone comprehensive testing and mass verification. Users can develop products based on this module, saving project development time, reducing corporate costs, and improving company efficiency.

Product Parameters

Function	Description
CPU	RK3568, 22nm process, quad-core 64-bit Cortex-A55, with a maximum clock speed of 2.0GHz.
GPU	ARM G52 2EE, supports OpenGL ES 1.1/2.0/3.2, OpenCL 2.0, Vulkan 1.1, and has a high-quality 2D graphics engine built-in.
NPU	Offers up to 1 TOPS of computational power; supports hybrid operations of INT8/INT16/FP16/BFP16 MAC; compatible with deep-learning frameworks such as TensorFlow, TF-lite, Pytorch, Caffe, ONNX, MXNet, Keras, and Darknet.
VPU	Capable of 4K VP9 and 4K H265 video decoding at up to 60fps. Capable of 1080P H265/H264 video encoding at up to 100fps. Equipped with an 8M ISP with HDR capabilities.
DDR	LPDDR4 RAM, with options for 1GB/2GB/4GB/8GB (Optional).
eMMC	eMMC 5.1 storage, with options for 8GB/16GB/32GB/64GB/128GB (Optional).
PMU	RK806
OS	Android / Ubuntu / Buildroot / Debian
Camera Interface	Compatible with the MIPI Alliance Interface specification v1.2 Up to 4 data lanes, 2.5Gbps maximum data rate per lane One interface with 1 clock lane and 4 data lanes Two interface, each with 1 clock lane and 2 data lanes Support up to 16bit DVP interface (digital parallel input) Support ISP block(Image Signal Processor)
Display Interface	RGB/ BT656/BT1120/ MIPI_DSI_V1.2/ LVDS/ HDMI2.0/Edp1.3/ EBC Support three simultaneous displays HDR10/HDR HLG/ HDR2SDR/SDR2HDR 3D-LUT/P2I/CSC/BCSH/DITHER/CABC/GAMMA/COLOR BAR
USB Interface	1 x USB3.0 HOST, 1 x USB3.0 OTG, 2 x USB2.0 HOST
PCIe3.0 PHY Interface	Support PCIe3.1(8Gbps) protocol and backward compatible with the PCIe2.1 and PCIe1.1 protocol Support two lane Support two PCIe controller with x1 mode or one PCIe controller with x2 mode Dual operation mode: Root Complex(RC)and End Point(EP)
Multi-PHY Interface	Support three multi-PHYs with PCIe2.1/SATA3.0/USB3.0/QSGMII controller USB3 Host controller + USB3 OTG controller PCIe2.1 controller / three SATA controller
Audio Interface	I2S0 with 8 channel TX and RX I2S1 with 8 channel TX and RX I2S2/I2S3 with 2 channel TX and RX PDM with 8channel TDM supports up to 8 channels for TX and 8 channels RX path
Connectivity	Compatible with SDIO 3.0 protocol GMAC 10/100/1000M Ethernet Controller Four on-chip SPI controllers Ten on-chip UART controllers inside Six on-chip I2C controllers Smart Card with ISO-7816 Sixteen on-chip PWMs(PWM0~PWM15) with interrupt-based operation Multiple groups of GPIO 8 single-ended input channels SARADC with 10bits resolution up to 1MS/s sampling rate
Operating temperature	Enterprise Grade: -20°C to 70°C Industrial Grade: -40°C to 85°C
PCB interface	B2B,320 Pin
PCB layers	10 layers
PCB size	L* W H(mm):60 40 * 7.8(PCB thickness 1.6mm)

Developer's Must-Read!

Welcome to our Resource Center, where you can find various helpful links and information for developers.

Please visit the corresponding Wiki documentation link to obtain detailed information about the product of your choice, including the following: Hardware information: Specifications, components, and technical parameters of the product debugging Methods: Common troubleshooting steps and debugging techniques. Interface Information: Available interfaces and their functional descriptions.Firmware Programming: Guidance on firmware updates and programming processesCompiling SDK: Detailed instructions for compiling and configuring the SDK.Linux and Android Development: Development guidelines and best practices for Linux and Android environments.

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

Company Introduction

Shanghai Neardi Technology Co., Ltd. was established in 2014, focusing on the field of intelligent electronic products, providing customers with one-stop solutions for design and production. The company adheres to the strategy of technological innovation and professional service, integrates the technical precipitation and industry experience of Neardi Technology, helps partners to introduce products to the market quickly and efficiently, effectively saves customers' time and resources, and becomes the product accelerator of partners.

4K 1080P Ubuntu Som Module RK3568 Computer On Modules LCB3568 Arm Com

After-sale Service Policy

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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