• Home
  • About
  • Events Calendar
  • Blueprint Guidelines
  • Privacy Policy
  • Manage Email Delivery
  • NextGenInfra.io
  • buzzwords
  • Archives
  • Milestones
  • On This Day
  • Video Search
Converge Digest
Tuesday, July 14, 2026
  • Home
  • About
  • Events Calendar
  • Blueprint Guidelines
  • Privacy Policy
  • Manage Email Delivery
  • NextGenInfra.io
  • buzzwords
  • Archives
  • Milestones
  • On This Day
  • Video Search
No Result
View All Result
Converge Digest
No Result
View All Result

Home » OneChip Photonics Intros 100G PIC in Indium Phosphide

OneChip Photonics Intros 100G PIC in Indium Phosphide

March 17, 2013
in Optical, Silicon Photonics
A A

OneChip Photonics introduced a Photonic Integrated Circuit (PIC)-based 100 Gbps device that monolithically integrates all of the optical functions required for an optical transceiver into a single Indium Phosphide (InP)-based chip. All of the active components (Distributed Feedback “DFB” laser, Electro-Absorption Modulator “EAM,” and Waveguide Photodetector “WPD”) and passive components (Wavelength Division Multiplexing “WDM” combiner, splitter and Spot-Size Converter “SSC”) of the chip are, uniquely, integrated in one epitaxial growth step – without re-growth or post-growth modification of the epitaxial material.

The company said its Multi-Guide Vertical Integration (MGVI)-based PICs will enable transceiver manufacturers to produce high-speed, low-power and small-size modules for Data Center Interconnect (DCI) applications.

The MGVI platform in Indium Phosphide is based on the same process that inherently produces the best and fastest Heterojunction Bipolar Transistors (HBTs) used in Radio Frequency Integrated Circuits (RFICs). As such, the company also will be able to integrate electronics, such as Transimpedance Amplifiers (TIAs) and modulator drivers, within a commercially available and volume-scalable process. The silicon photonics dream of leveraging high-volume electronic chip production, while combining photonics and electronics onto the same substrate, is ironically best realized in Indium Phosphide.

http://www.onechipphotonics.com

Tags: ComponentsOptical
ShareTweetShareSummarizeSummarize
Previous Post

NeoPhotonics Announces 100G Variable Power Intradyne Coherent Receiver

Next Post

Telstra Tests 1 Tbps with Ericsson

Staff

Staff

Related Posts

Optical

Open RAN xHaul and IPoDWDM Solutions Take Center Stage

February 27, 2025
Optical

Ribbon Completes DWDM Deployment for Bharti Airtel

October 27, 2024
Optical

ECOC24 video: What’s Next for Optical DSPs? 1.6T and Beyond

September 24, 2024
Optical

NTT Achieves Less Than 1ms Latency, Below 1μs Jitter at 400Gbps

April 12, 2024
Video

Big Power Savings with 800G Linear Receive Optics

April 4, 2024
Optical

Fujikura’s AFL to build fiber manufacturing factory in Poland

October 18, 2023
Next Post

Telstra Tests 1 Tbps with Ericsson

Please login to join discussion

Categories

  • 5G / 6G / Wi-Fi
  • AI Infrastructure
  • All
  • Automotive Networking
  • Blueprints
  • Clouds and Carriers
  • Corporate Strategies
  • CPO
  • Data Centers
  • Enterprise
  • Explainer
  • Feature
  • Hot Start-ups
  • Last Mile / Middle Mile
  • Legal / Regulatory
  • Optical
  • Optical I/O
  • Pluggable Optics
  • Quantum
  • Research
  • Security
  • Semiconductors
  • Silicon Photonics
  • Space Networking & Orbital Data Centers
  • Subsea
  • Sustainability
  • Video
  • Webinars
Converge Digest

A private dossier for networking and telecoms

Follow Us

  • Home
  • About
  • Events Calendar
  • Blueprint Guidelines
  • Privacy Policy
  • Manage Email Delivery
  • NextGenInfra.io
  • buzzwords
  • Archives
  • Milestones
  • On This Day
  • Video Search

© 2026 Converge Digest - A private dossier for networking and telecoms.

No Result
View All Result
  • Home
  • About
  • Events Calendar
  • Blueprint Guidelines
  • Privacy Policy
  • Manage Email Delivery
  • NextGenInfra.io
  • buzzwords
  • Archives
  • Milestones
  • On This Day
  • Video Search

© 2026 Converge Digest - A private dossier for networking and telecoms.

This website uses cookies. By continuing to use this website you are giving consent to cookies being used. Visit our Privacy and Cookie Policy.
Go to mobile version