MZM

Semtech Pioneers the Path to 6G with Advanced 5G Wireless Technologies

Retrieved on: 
Tuesday, March 26, 2024
Semiconductor, 5G, Mobile, Wireless, Technology, Telecommunications, DWDM, MZM, TIA, Semtech, MOPA, CDR, Internet of things, Laser, Tias, Corporation, Wavelength-division multiplexing, EML, Silicon, Sumitomo Electric Industries, Exhibition, Ericsson, SFP56, Multimedia, Digital divide, Marketing, PAM4, MIMO, RAN, Mobile phone

Highlighting its Tri-Edge™ GN2256 for 50G DWDM applications alongside its expansive 5G wireless portfolio, Semtech is setting new standards for the telecommunications industry, facilitating the global transition towards next-generation networks and a smarter, more connected world.

Key Points: 
  • Highlighting its Tri-Edge™ GN2256 for 50G DWDM applications alongside its expansive 5G wireless portfolio, Semtech is setting new standards for the telecommunications industry, facilitating the global transition towards next-generation networks and a smarter, more connected world.
  • Semtech is at the forefront of this innovation, crafting chips that enhance the performance and bandwidth capabilities of DWDM systems.
  • Visit us at the Semtech booth #5301 at OFC for a live demonstration of these exciting use-cases.
  • Semtech’s 5G wireless Tri-Edge CDR portfolio includes:
    Semtech’s 5G wireless FiberEdge TIA portfolio includes:
    Semtech’s comprehensive 5G wireless ClearEdge® CDR portfolio includes:

Lightwave Logic EO Polymer Achieves World-Class Performance of 400Gbps with Plasmonic Mach Zehnder Modulator

Retrieved on: 
Thursday, March 28, 2024
Logic, ETH Zurich, Polymer, MZM, LightWave 3D, EO

ENGLEWOOD, Colo., March 28, 2024 /PRNewswire/ -- Lightwave Logic, Inc. (NASDAQ: LWLG), a technology platform company leveraging its proprietary electro-optic (EO) polymers to transmit data at higher speeds with less power in a small form factor, today announced the latest world-class performance of the company's Perkinamine™ EO polymer material operating in an optical interconnect link, at 437.1Gbps employing a PAM8 178GBaud signal encoded by a plasmonic Mach Zehnder modulator (MZM).

Key Points: 
  • In this work, intensity modulated, direct detection (IM/DD) techniques were utilized to drive higher performance.
  • The paper, authored by ETH Zurich, demonstrated data rates beyond 400Gbps for a IM/Dd optical interconnect link for the first time.
  • This world-class result, achieving data rates of 400Gbps per lane, demonstrates that our company's EO polymers are capable of exceeding double the current industry expectation.
  • Dr. Michael Lebby, Chief Executive Officer of Lightwave Logic, commented: "Not only is our EO polymer material ideal for datacenter optical interconnect applications today at 200Gbps – but in my mind, this work proves beyond a doubt that polymers are here to stay, with performance headroom of over 400Gbps using a plasmonic based Mach Zehnder modulator design.

Coherent Thought Leaders to Present at ECOC 2022 and Showcase New Products With Live Technology Demonstrations

Retrieved on: 
Monday, September 19, 2022
CFP2, Electronics, PAM4, Laser, Ethernet, POLS, Representational state transfer, ECOC, Coherence, OSFP, CWDM, OTN, ROADM, MZM, IEEE, Technology, EML, Solution, Nasdaq, DWDM, Silicon, GUI, Indium phosphide, DFB, DSP, WaveMaker, Research, GLOBE, Marketing, DCIS, Data-rate units, Hertz, COHR, Renewable energy, Telecommunications equipment, Printed circuit board, Television, QSFP, VCSEL

This new optical lane speed will support future transceiver products such as 800G-DR4, 800G-FR4, and 1.6T-DR4.2.

Key Points: 
  • This new optical lane speed will support future transceiver products such as 800G-DR4, 800G-FR4, and 1.6T-DR4.2.
  • Coherent will demonstrate our next-generation active optical cable for up to 100 m reach.
  • Coherent will showcase a new generation of 400G-DR4 transceiver modules in a QSFP-DD form factor that supports both Ethernet and OTN FOIC4.8 rates.
  • Coherent will demonstrate its high-transmit-output-power 400G ZR+ QSFP-DD-DCO coherent transceiver for IP-over-DWDM deployments in metro and regional optical transport networks.

Silicon Photonics Unlock New Architecture For 400G Data Center

Retrieved on: 
Monday, August 1, 2022
Silicon, UHD, EML, Silicon photonics, ISI, Leaf, Industry, DR4, Solution, Artificial intelligence, COB, DSP, Multimedia, Architecture, Efficiency, DACS, Machine learning, TOR, Technology, OSNR, PAM4, MZM, AOCS, Microscope

SHENZHEN, China, Aug. 1, 2022 /PRNewswire/ -- FIBERSTAMP is proud to release the 400G data center interconnect architecture based on silicon photonics transceivers.

Key Points: 
  • SHENZHEN, China, Aug. 1, 2022 /PRNewswire/ -- FIBERSTAMP is proud to release the 400G data center interconnect architecture based on silicon photonics transceivers.
  • Currently, what the interconnection scenarios within 2 kilometers of 400G data centers mainly deployed are the 400G QSFP-DD DR4 transceivers based on EML technology.
  • For hyperscale data centers, 400G QSFP-DD silicon photonics optical transceivers have brought some tangible benefits.
  • The launch of FIBERSTAMP's 400G silicon photonics transceivers has paved the road for high-speed 400G data centers.

NeoPhotonics Announces Suite of 53 Gbaud PAM4 Driver ICs for 100G and 400G Hyperscale Data Center Networks

Retrieved on: 
Tuesday, March 8, 2022
Semiconductor, Internet, Hardware, Data Management, Technology, Cloud, Internet, Private Securities Litigation Reform Act, Laser, ISO, MZM, Gallium arsenide, Data-rate units, CMOS, Silicon photonics, Security (finance), U.S. Securities and Exchange Commission, NeoPhotonics Corporation, NYSE, Driver, PAM4, NPTN, CEO, THD, Engineering, Electronics, ISO 9001:2015, Silicon, Mobile phone

NeoPhotonics 53 Gbaud PAM4 driver IC is a linear, differential driver based on gallium arsenide (GaAs) and optimized for 1 x 100 Gbps, 4 x 100 Gbps and 8 x 100 Gbps PAM4-based applications.

Key Points: 
  • NeoPhotonics 53 Gbaud PAM4 driver IC is a linear, differential driver based on gallium arsenide (GaAs) and optimized for 1 x 100 Gbps, 4 x 100 Gbps and 8 x 100 Gbps PAM4-based applications.
  • The Driver IC amplifies the low voltage electrical signal to a level required by the optical modulator, maintaining linearity and achieving sufficient bandwidth.
  • NeoPhotonics linear drivers feature high output voltage > 3.4Vppd, low crosstalk, high gain, high bandwidth >35GHz supporting 53 Gbaud and low total harmonic distortion (THD) to enable best-in-class PAM4 performance.
  • We are pleased to have achieved multiple design wins for our family of 53 Gbaud suite of drivers and are now shipping them in high volume.

HyperLight Enables Multiple Record-breaking Demonstrations with its Ultrahigh Bandwidth Thin-film Lithium Niobate Photonic Integrated Circuits

Retrieved on: 
Thursday, September 23, 2021
Science, Telecommunications, Networks, Research, Hardware, Data Management, Technology, Semiconductor, Radio, ASIC, Federal Institute of Science and Technology, Efficiency, Baud, Analog, Solution, Programmable interrupt controller, KIT, Mach–Zehnder interferometer, SerDes, Linearity, DSP, Bell Labs, Acquisition, Swiss Federal Institute of Technology, MZM, Technology, Research, Silicon, OOK, EPFL, Nyquist, Digital, Noise, ECOC, Karlsruhe Institute of Technology, Computer data storage, Television

HyperLight, a leader in the commercialization of thin-film lithium niobate photonic integrated circuits for datacom, telecom, analog, and quantum applications, announced today that it has successfully demonstrated, together with its partners, a new record-breaking high-speed data transmission using its ultrahigh bandwidth, linear, and low noise thin-film lithium niobate Mach Zehnder (MZM) modulator.

Key Points: 
  • HyperLight, a leader in the commercialization of thin-film lithium niobate photonic integrated circuits for datacom, telecom, analog, and quantum applications, announced today that it has successfully demonstrated, together with its partners, a new record-breaking high-speed data transmission using its ultrahigh bandwidth, linear, and low noise thin-film lithium niobate Mach Zehnder (MZM) modulator.
  • The details of these demonstrations were presented at the ECOC 2021 post-deadline sessions concluded last week.
  • As demand for bandwidth continues to increase, both ethernet switches and optical modules need to keep pace in terms of bandwidth density, power consumption, and cost efficiency.
  • The companys ultrahigh speed, low power, and integrated thin-film lithium niobate electro-optic solutions enable customers to achieve unprecedented system level performances in their applications.