Developer Resources
contact usContact Us
LoginLogin / Register

Camera Interface

Camera InterfaceTechnology Deep Dive

A Vision Guide to Choosing the Right MIPI Interface: D-PHY vs. M-PHY vs. C-PHY vs. A-PHY

Prabu Kumar
by Prabu Kumar
MIPI technology has evolved through multiple versions, particularly in its physical (PHY) layers. These help enable high-speed serial communication architectures that replace traditional parallel camera and display interfaces, improving bandwidth scalability, power efficiency, and EMI performance. The MIPI physical layers: M‑PHY, C‑PHY, D‑PHY, and A‑PHY are actively used in embedded......
Camera InterfaceTechnology Deep Dive

e-con Systems’ High-Performance Cameras and Compute Solutions for NVIDIA Jetson Thor Series

Prabu Kumar
by Prabu Kumar
e-con Systems, an NVIDIA Elite Partner, introduces a portfolio of high-performance cameras and compute platforms optimized for the Jetson Thor series. With support for USB, ONVIF-compliant RouteCAM Ethernet cameras, advanced 10G Holoscan camera solutions, and robust ECU platforms, developers can fully leverage NVIDIA Jetson Thor’s 2070 FP4 TFLOPS AI compute...
Camera InterfaceTechnology Deep Dive

Choosing the Right Interface for Mobility: USB, GMSL, GigE, or FPD-Link?

Prabu Kumar
by Prabu Kumar
Choosing the right camera interface can make or break mobility vision systems, from forklifts and AMRs to autonomous tractors. Interfaces like USB, GigE, GMSL, and FPD-Link III each bring their own strengths and trade-offs that directly impact bandwidth, latency, cabling, and more. Find out how each interface functions in mobility...
Camera InterfaceTechnology Deep Dive

Enabling Next-Gen Vision: e-con Systems explores USB 3.2 Gen2, Infineon EZ-USB™ FX10, and High-Bandwidth Camera Applications

Prabu Kumar
by Prabu Kumar
Infineon’s EZ-USB™ FX10 is a next-gen USB 3.2 Gen2 peripheral controller that enhances imaging speed and reliability. It is an ideal choice for USB cameras, industrial automation systems, and more. Learn more about this controller, USB technology, and why USB 3.2 Gen2 is highly popular....
Camera InterfaceTechnology Deep Dive

What Are FPD-Link III Cameras, Their Working Principles and Real-World Applications?

Prabu Kumar
by Prabu Kumar
FPD-Link III cameras address the limitations of traditional transmission methods. They deliver high-speed data, long-range connectivity, and synchronized control over a single cable. Get insights into how these cameras work, their features, as well as applications....
Camera InterfaceTechnology Deep Dive

An Engineer’s Guide on Data and Control Buses of Imaging Systems

Prabu Kumar
by Prabu Kumar
Communication protocols are a key consideration for high-resolution, high-frame-rate imaging in embedded vision applications. In this blog, we’ll explore how control and data buses enable seamless transmission and timely, synchronized imaging for high-performance embedded applications....
Camera InterfaceTechnology Deep Dive

Choosing the Perfect Camera Interface: GMSL or GigE?

Prabu Kumar
by Prabu Kumar
In high-performance imaging, choosing between GMSL and GigE interfaces is vital for optimizing performance and reliability. GMSL excels in high-speed, low-latency applications within short to medium distances, like drones and autonomous vehicles, while GigE offers cost-effective, longer-range solutions ideal for industrial automation and surveillance. Explore our range of GMSL and...
Camera InterfaceTechnology Deep Dive

Top Factors for Selecting the GMSL Camera Interface and Its Key Applications

Prabu Kumar
by Prabu Kumar
GMSL (Gigabit Multimedia Serial Link) camera interfaces are popular for high-speed data transmission, long-distance support, low latency, etc. For many embedded vision systems, this interface is the right choice. Discover the key considerations for selecting GMSL technology, its popular key applications, and more....