Insights into photochips, fiber optic communication, and active optical cable technologies

Opcsun Technology

Photo chip, optical communication, AOC integration innovation

Photochips, optical fiber communication, and active optical cable AOC are the keys to information communication. Photochips provide low latency and low power consumption, making them ideal for AI data centers. Optical fiber communication ensures long-distance, low-loss, and interference-resistant transmission. Active optical cable AOC supports high-speed data transmission with integrated components, improving data center and multimedia performance. These drive innovation and efficiency in communication infrastructure.

Photochip: The pinnacle of optoelectronic integration

By harnessing the intrinsic properties of light, photochips represent a revolutionary advancement far beyond traditional electronic chip architectures.

Quantum-level latency: With signal propagation near the speed of light, photochips achieve picosecond and even femtosecond-level processing delays, making them ideal for high-speed applications such as complex neural networks and quantum cryptography, vastly outperforming conventional chips in terms of speed and accuracy.

Ultra-low power consumption: By avoiding Joule heating associated with electron transfer, the photochip converts energy through non-radiative interactions and reduces heat dissipation by several orders of magnitude, not only meeting the urgent energy optimization needs of large-scale data centers, but also providing a practical low-power solution for harsh environments such as space and deep-sea exploration.

Optical fiber communication: the mainstay of optical transmission

After decades of development, optical fiber communication has become the core of the global communication backbone network, and its excellent performance is obvious.

Ultra-long distance and ultra-low loss transmission: Optical fiber communication uses high-purity quartz glass fiber to achieve long-distance signal transmission over hundreds or even thousands of kilometers without relaying single-mode optical fiber, ensuring stability. It runs intercontinental submarine optical cables and transoceanic communication links.

Ultra-strong electromagnetic immunity: In complex environments such as high-voltage power transmission and substations, large-scale industrial automation production lines, and 5G base stations, optical fiber communication has a natural immunity to electromagnetic interference due to the electrical neutrality of optical signals; ensuring the safety of complex environments such as MRI equipment, high-speed rail vehicles, and the smooth running of high-precision communication tasks such as control systems.

AOC Active Optical Cables: The Ultimate Partner for Optical Links

As an important hub connecting photo chips and fiber optic communication systems, active optical cable (AOC) has further expanded the application boundaries of optical transmission with its unique technology integration advantages.

Optoelectronic Collection: Active Optical Cable (AOC) integrates optoelectronic devices such as VCSEL lasers, PIN photodiodes, and high-speed TIA amplifiers to achieve instant conversion of optical and electrical signals in millimeter-level physical space. This highly integrated design not only reduces the system failure rate, but also minimizes signal attenuation and distortion during the conversion process, ensuring the original fidelity of data transmission.

Ultra-High Speed ​​Bandwidth: In response to the voracious demand for bandwidth in new application scenarios such as 8K ultra-high definition video streaming, data synchronization in large-scale distributed storage systems, and immersive VR/AR content delivery, active optical cables (AOCs) support bidirectional transmission speeds of up to [X] Gbps or more, and their bandwidth expansion potential will continuously increase with the iteration and upgrade of optical communication technology. By adopting advanced wavelength division multiplexing (WDM) technology, it realizes the parallel transmission of multiple optical signals with different wavelengths within a single optical fiber cable, further enhancing the transmission potential of optical fiber and providing users with an extremely smooth image transmission experience.

OPCSUN HDMI Hybrid AOC Optical Cable 8K/60Hz 48Gpbs 5m
HDMI AOC

OPCSUN USB type C Hybrid AOC Optical Cable 40Gbps 5m
Type-C AOC

OPCSUN USB3.1 type A/C hybrid AOC optical cable 10Gbps 5m
USB3.1 AOC

OPCSUN DP1.4 Full Fiber AOC Optical Cable 8K 32Gpbs 5m
DisplayPort AOC

OPCSUN DVI Hybrid AOC Optical Cable 1920p 4.45Gpbs 5m
DVI AOC

OPCSUN CameraLink Hybrid AOC Optical Cable 5.4Gpbs 5m
CameraLink AOC