transceiver

Transceiver

Amplifier (40)
Antenna (270)
Circuits (1435)
Consumer electronics (474)
Electrical connectors (8)
Electrode (1090)
Electronic converters (51)
Electronic device (277)
Electronic equipment (61)
Logic gate (59)
Microchip (210)
Modem (6)
Multiplexer (10)
Receiver (136)
Sensor (3035)
Transceiver (19)
Transmitter (109)

in cooperation with Thales Research and Technology in the United kingdom, say the tuneable laser source integrated on silicon is a groundbreaking achievement in efforts to secure fully integrated transceivers.

a modulator and passive waveguides on silicon paves the way of further developments on integrated transceivers that can address several application needs in metropolitan and access networks, servers, data centres,

We successfully accomplished this using infrared transceivers mounted to each connection interface. However we later discovered interference issues

Units are also able to communicate with one another in plane at a distance using infrared wireless transceivers

Cutting costs to shed lightright now the optical transceiver is moving onto the circuit board; next it will move inside the chip package,

Tan and company built their igh Doppler resolution passive Wi-fi radaron two multi-frequency, software-defined, FPGA-based transceivers (National Instrumentsusrp,

Cosmic (Columbia High-speed and Mm-wave IC) Lab full-duplex transceiver IC that can be implemented in nanoscale CMOS to enable simultaneous transmission and reception at the same frequency in a wireless radio.

avoiding the need for transceiver assemblies. The new technique, which will be presented 25 march at this year's OFC Conference and Exposition in Los angeles, California,

Optical interconnect technology is incorporated currently into data centers by attaching discrete transceivers or active optical cables,

The prepackaged transceivers are large and expensive, limiting their large-scale use, Offrein said. Furthermore, such transceivers are mounted at the edge of the board,

resulting in a large distance between the processor chip and the optical components. Offrein and his IBM colleagues from Europe

and are attached directly to the processor package without preassembling them into standard transceiver housings. This improves the performance

Photonic integrated circuits (PICS) based on the technology could dramatically change the architecture of fiber-optic transceivers used in data center optical interconnects, by pushing down the cost of chip-level data transfer between logic and memory devices.

and built a novel full-duplex transceiver architecture, which combines electrical balance isolation and active radio frequency cancellation.

The project also developed a prototype transceiver to generate FBMC (Filter Bank Multicarrier transmission) waveforms.

The Commissariat à lnergie Atomique in France is continuing development work on the FBMC transceiver and several consortium members are likely to commercialise the spectrum manager technology.

which will allow the bulk manufacturing of 100 Gbps optical transceivers. Research into ways of boosting the speeds of both processors

which will soon enable manufacturing of 100 Gbps optical transceivers. This will allow datacenters to offer greater data rates and bandwidth for cloud computing and Big data applications.

IBM CMOS integrated nanophotonics technology combines the essential parts of an optical transceiver, both electrical and optical, on one silicon chip.