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At EyeCloud, we are committed to driving innovation in embedded systems and edge computing, with a particular focus on automotive testing solutions. Our latest ECFG GMSL3 Frame Grabber series represents a significant leap forward, delivering high-performance, customizable configurations designed for the most demanding automotive testing applications.
From real-time monitoring to high-resolution support and seamless integration, the ECFG GMSL3 series is engineered to enhance the accuracy and efficiency of automotive testing processes. Explore how our cutting-edge technology is setting new standards in the industry, offering robust solutions for factory burn-in tests, AA processes in optical module manufacturing, and beyond!
The ECFGGMSL3series is designed to cater to high-performance, real-time applications. It comes in multiple configurations, each optimized for specific tasks. Here’s a closer look at some of the key setups:
- 8-Channel System: The ECFG G3 supports up to 8 channels, making it highly scalable for complex testing environments.
- Customizable Configuration: It offers the flexibility to configure de-serialization and sensor settings, catering to various testing requirements.
- Real-time Monitoring: The system includes features such as frame rate statistics, voltage, and current detection, ensuring real-time performance monitoring.
- High-Resolution Support: With Fakra connectors and support for up to 8 channels of GMSL3 at a maximum of 17MP, the ECFG G3 is tailored for high-resolution camera systems.
- Ease of Integration: The product is equipped with a USB 3.2 Type-A / USB 3.0 Type-C output, making it easy to integrate with existing systems and infrastructure.
The versatility of the ECFG GMSL3 series makes it a perfect fit for critical applications in the automotive industry, particularly in burn-in tests and AA processes.
1. Factory Burn-In TestsBurn-in tests are essential in ensuring the reliability and durability of automotive components under extreme conditions. The ECFG GMSL3 series excels in this application through:
- High-Resolution Monitoring: Capturing detailed images and video at high frame rates to monitor the performance of automotive components under stress.
- Real-Time Data Analysis: Processing and analyzing data in real-time to detect anomalies and potential failures.
- Error Bits Checking: Ensuring accurate data capture and transmission, crucial for evaluating component performance.
- Camera Configurations: Supports up to 8x GMSL3 17MP cameras capturing at 30fps.
- Data Throughput: Utilizes USB 3.2 for data transfer speeds up to 2.88GB/s.
- Versatility: Ideal for scenarios requiring high frame rates and high resolution video input, such as automated inspection systems.
- Camera Configurations: Supports 2x 17MP at 30fps or 4x 17MP at 15fps, with additional configurations for RAW capture.
- Connectivity: Equipped with Wi-Fi, Ethernet, and 4G capabilities.
- Processing Power: Can handle error bits checking, power monitoring, and other vital tasks.
- Display Options: Outputs to HDMI for video stream display and supports USB inputs for peripherals.
The AA process, also known as Active Alignment technology, is a critical technique in the manufacturing of optical modules, primarily used for the precise assembly of lenses and image sensors to ensure optimal optical alignment and image quality.
This technology involves the use of high-precision motion control systems and real-time image analysis algorithms to dynamically adjust the relative position and angle between the lens and the sensor during the assembly process. AA process in the automotive industry can benefit immensely from the ECFG GMSL3 series through:
- Precision Inspection: Utilizing high-resolution cameras to inspect assembled components, ensuring they meet strict quality standards.
- Process Optimization: Analyzing video data to optimize assembly line processes, reducing errors and improving efficiency.
- Predictive Maintenance: Monitoring machinery and equipment to predict and prevent breakdowns, minimizing downtime and maintenance costs.
- Camera Configurations: Typically uses 1x 17MP at 30fps.
- Additional Capabilities: Integrates Compute Unified Device Architecture (CUDA) for parallel processing tasks, making it suitable for complex analytical applications.
The ECFG GMSL3 series is not just limited to commercial applications. Its robust architecture and advanced features make it an invaluable tool for research and development within the automotive sector.
- Component Testing: Automotive manufacturers can leverage the ECFG GMSL3 to test new components and materials, ensuring they meet performance and safety standards.
- Prototype Development: Facilitating the development and testing of new automotive technologies, from advanced driver-assistance systems (ADAS) to next-generation vehicle designs.
By integrating the ECFG GMSL3 into your testing and development processes, you’re not just investing in a product—you’re investing in the future of automotive innovation. Visit our website to learn more, and for further inquiries, feel free to contact us!
EyeCloud.AI, founded in 2018, is a leading supplier of AI vision appliances and systems. Specializing in advanced hardware design, camera and machine vision systems, image sensor and ISP tuning, and IoT device management, EyeCloud.AI helps tech companies overcome Edge AI vision development and production challenges. The company has developed mass-production machine vision solutions for global markets, including autonomous driving, electric vehicles, mobility robots, and surveillance. EyeCloud.AI offers customizable engineering services to meet unique application requirements quickly and cost-effectively and has received several industry awards for its AI vision innovations.
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