Always private
DuckDuckGo never tracks your searches.
Learn More
You can hide this reminder in Search Settings
All regions
Argentina
Australia
Austria
Belgium (fr)
Belgium (nl)
Brazil
Bulgaria
Canada (en)
Canada (fr)
Catalonia
Chile
China
Colombia
Croatia
Czech Republic
Denmark
Estonia
Finland
France
Germany
Greece
Hong Kong
Hungary
Iceland
India (en)
Indonesia (en)
Ireland
Israel (en)
Italy
Japan
Korea
Latvia
Lithuania
Malaysia (en)
Mexico
Netherlands
New Zealand
Norway
Pakistan (en)
Peru
Philippines (en)
Poland
Portugal
Romania
Russia
Saudi Arabia
Singapore
Slovakia
Slovenia
South Africa
Spain (ca)
Spain (es)
Sweden
Switzerland (de)
Switzerland (fr)
Taiwan
Thailand (en)
Turkey
Ukraine
United Kingdom
US (English)
US (Spanish)
Vietnam (en)
Safe search: moderate
Strict
Moderate
Off
Any time
Any time
Past day
Past week
Past month
Past year
  1. ietresearch.onlinelibrary.wiley.com

    which can generate 107 GBd PAM-4 signals with a 3.7-V ppdiff output swing at a 2.9-W power consumption. Then, in [7], a commercially available differential linear InP amplifier shows 90-GBd PAM-4 signals with a 3.2-V ppdiff output swing, a 55-GHz bandwidth and a power consumption of 3.6 W. However, neither of them conjugates
    • 106-GHz bandwidth InP DHBT linear driver with a 3-V ppdiff swing at 80 ...

      The authors of report a very high-speed power DAC, based on a 0.7-m width InP DHBT technology, which can generate 107 GBd PAM-4 signals with a 3.7-V ppdiff output swing at a 2.9-W power consumption. Then, in [ 7 ], a commercially available differential linear InP amplifier shows 90-GBd PAM-4 signals with a 3.2-V ppdiff output swing, a 55-GHz ...

  2. ietresearch.onlinelibrary.wiley.com

    The authors of report a very high-speed power DAC, based on a 0.7-m width InP DHBT technology, which can generate 107 GBd PAM-4 signals with a 3.7-V ppdiff output swing at a 2.9-W power consumption. Then, in [ 7 ], a commercially available differential linear InP amplifier shows 90-GBd PAM-4 signals with a 3.2-V ppdiff output swing, a 55-GHz ...
  3. ict-twilight.eu

    InP-DHBT linear driver presented in [15] has an 86.8 GHz bandwidth, 4.1 dB of peaking gain, and a 4.9-Vppd PAM-4 output swing at 50 GBd, yielding a 1.52 GBd FoM. Besides, in [16], a 106 GHz bandwidth linear driver with 6.2 dB peaking gain is reported, having a 3-Vppd PAM-4 linear output swing at 80 GBd, resulting in a 1.22 GBd FoM without DSP.
  4. semanticscholar.org

    DOI: 10.1049/el.2020.0654 Corpus ID: 219054619; 106‐GHz bandwidth InP DHBT linear driver with a 3‐V ppdiff swing at 80 GBd in PAM‐4 @article{Hersent2020106GHzBI, title={106‐GHz bandwidth InP DHBT linear driver with a 3‐V ppdiff swing at 80 GBd in PAM‐4}, author={Romain Hersent and Filipe Jorge and Bernadette Duval and Jean-Yves Dupuy and Agnieszka Konczykowska and Muriel Riet and ...
  5. researchgate.net

    InP linear driver differential 80‐GBd PAM‐4 output eye diagrams a At a 2.55‐Vppdiff output swing with a 550‐mVppdiff driver input (inset), b At a 3.0‐Vppdiff output swing with a 660 ...
  6. digital-library.theiet.org

    This Letter reports the design, fabrication and characterisation of a new differential linear driver, fabricated in the III-V Lab 0.7-μm emitter width indium phosphide (InP) double heterojunction bipolar transistor (DHBT) technology. Large-signal ...
  7. (DOI: 10.1049/EL.2020.0654) This Letter reports the design, fabrication and characterisation of a new differential linear driver, fabricated in the III-V Lab 0.7- μ m emitter width indium phosphide (InP) double heterojunction bipolar transistor (DHBT) technology. Large-signal electrical characterisation shows 80-GBd symbol-rate four-level pulse amplitude (PAM-4) modulation conjugated with a ...
  8. semanticscholar.org

    Mar 1, 2024The driver IC was implemented in a 0.5- $\mu \text{m}$ InP-DHBT technology and features a bandwidth well in excess of 110 GHz, with 13 dB of peaking gain at 95 GHz. Besides, it achieves a 9.1-dBm single-ended output power at 1 dB of gain compression and a 2.7% root-mean-square total harmonic distortion (rms-THD) at a 3-Vppd output swing.
  9. bell-labs.com

    III-V Lab. About. Our people. Our women innovators. Locations. History. Awards. Press releases. ... Filipe Jorge. A. Kasbari. Virginie Nodjiadjim. A. Ouslimani. Muriel Riet. 106-GHz bandwidth InP DHBT linear driver with a 3-Vppdiff swing at 80 GBd in PAM-4 7 September 2020 ...
  10. ict-qameleon.eu

    86.8-GHz-bandwidth 4.1-dB peaking-gain linear driver with 4.9-Vppd PAM-4 output-swing at 50-GBd is presented in [5]. Besides, in [6], a 106-GHz-bandwidth 6.2-dB peaking-gain linear driver is shown, with a 3-Vppd PAM-4 linear output swing at 80-GBd, yielding a 1.22-GBd FoM without DSP. In this article, a 3-Vppd linear-output-swing modulator ...

    Can’t find what you’re looking for?

    Help us improve DuckDuckGo searches with your feedback

Custom date rangeX