RK3588 Series Live Stream | RK3588 Android Development Q&A
RK3588 Series Live Course Second Issue
<RK3588 Android Development Q&A>
Live Time: August 16th, Tuesday 19:00
Detailed explanation of the application scenarios and related development processes of RK3588
Covering scenarios such as tablets, smart cockpits, electronic whiteboards,
conference systems, live streaming machines, commercial displays, high-end POS devices, etc.
Research and development issues collection is ongoing,
Please long press the QR code below and take two minutes to fill out the questionnaire
So that engineers can understand the issues in advance and provide targeted answers
2025-01-14
Overview of Development Boards Based on RK3588 Chip
First, we have the Firefly ITX-3588J that I previously reviewed, which you should be familiar with. I have published several articles about it, and I will link them below for those interested.
RK3588 is finally here, Firefly has launched the Firefly ITX-3588J first
RK3588 performance is really strong, comparable to Huawei Kirin 990, Firefly ITX-3588J tested
The most detailed performance review of Firefly ITX-3588J on the internet
Recently, they also released a version with a case, EC-I3588J
2025-01-12
Design Recommendations for ESD/EMI Protection in RK3588 Products
ESD: Electro-Static Discharge refers to the release of static electricity. Static electricity is a natural phenomenon that usually occurs through contact, friction, or induction between electrical devices. It is characterized by long-term accumulation, high voltage (which can reach thousands or even tens of thousands of volts), low charge, small current, and a short duration of action, often causing instability in electronic products or even damage.
EMI: Electromagnetic Interference refers to the disruption caused by electromagnetic waves. In high-speed PCB and system
Efficient Real-Time Video Streaming Based on RK3588
In the digital age, real-time video streaming technology has become an important bridge connecting the real and virtual worlds. Whether it is online education, remote meetings, or live entertainment, real-time video streaming technology plays an indispensable role. Today, we will delve into the importance of this technology and how the RK3588 chip showcases its immense potential in this field.
Real-Time Video Streaming Technology: Importance and Applications
Real-time video streaming technology allows video data to be captured, encoded, and compressed, then transmitted over
Key Configuration for RK3588 MIPI/DVP Camera Debugging
Introduction:
The previous article introduced how to light up a sensor on RK3588, using the MIPI camera IMX577 as an example. From previous articles, we know that RK3588 supports up to 6 MIPI cameras and 1 DVP camera. Therefore, this article serves as a supplement, introducing the key configurations for both MIPI and DVP cameras.
1. Common Camera Interfaces:
Cameras can be categorized based on different interfaces, commonly including: USB camera, MIPI camera, and DVP camera.
① USB Camera:
Common data formats for USB Cameras
RK3588 Development Board Linux Dual Camera Display Solution
The iTOP-RK3588 development board manual has been updated, and subsequent materials will continue to be updated and improved to help users get started quickly, greatly enhancing the speed of research and development.
The RK3588 development board has 4 MIPI CAMERA interfaces, MIPI CSI DPHY at 4.5Gbps, and 2.5Gops MIPI CSI CPHY, allowing for simultaneous input from four channels to meet the needs of