A novel, low power, downstream clock and data recovery (CDR)-decimator architecture is proposed for next generation, energy efficient 10 Gbit/s optical network units (ONUs).
A 10 Gbit/s DC-coupled burst-mode limiting amplifier (BM-LA) with two-level integration time constants for fast/slow feedback offset cancellation respectively during preamble/payload of the incomin
Single Active Layer is used for self thermal compensation of threshold and power variation in AlGalnAs EML. 90km SMF up to 60ðC and 50km SMF up to 70ðC trans missions are demonstrated.
AlGalnAs large spectral range EAM has been integrated with SOA using Single Active Layer technology.
For the first time, we demonstrate that the use of a long RSOA as remote modulator enables short distance transmission on SMF below the FEC limit at 10 Gbit/s without any electronic processing.
We report the first penalty free transmission experiment over 102.5 km long standard fiber at a bit rate of 10 Gbit/s using a 1.3microns wavelength low chirp integrated DFB/Electroabsorption modula
A REAMSOA chip is characterized as part of an ONU in single-pass and then bidirectional upstream 10 Gbit/s PON configurations.
We integrated an AlGalnAs modulator-amplifier using semi-insulating buried hetrostructure and selective area growth.
Gigabit PON /10 Gbps PON coexistence with two ONU generations on a single 1490 nm downstream wavelength is enabled by bitstacking and affiliated framing measures forming a novel electrical multiple
A vital signs detection system, based on motion sensing principle of the Doppler effect, will be described.
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