| Patent application number | Description | Published |
|---|
| 20120001166 | PARELLEL OPTICAL TRANSCEIVER MODULE - A silicon-on-insulator wafer is provided. The silicon-on-insulator wafer includes a silicon substrate having optical vias formed therein. In addition, an optically transparent oxide layer is disposed on the silicon substrate and the optically transparent oxide layer is in contact with the optical vias. Then, a complementary metal-oxide-semiconductor layer is formed over the optically transparent oxide layer. | 01-05-2012 |
| 20120001697 | DIFFERENTIAL AMPLIFIER STAGE WITH INTEGRATED OFFSET CANCELLATION CIRCUIT - A differential amplifier stage and method for offset cancellation include an amplifier having an input and an output. An internal offset cancellation circuit has an input for receiving a control signal to control offset cancellation in the amplifier. The offset cancellation circuit is integrated with the amplifier but isolated from the input and the output of the amplifier, and, in accordance with its isolation, an impedance of the stage is unaffected by the offset cancellation circuit. | 01-05-2012 |
| 20120155864 | ADAPTIVE POWER EFFICIENT RECEIVER ARCHITECTURE - Systems and methods for processing an optical signal are disclosed. The optical signal is converted to a voltage signal and the voltage signal is amplified. In addition, a signal strength and/or a signal quality parameter is monitored and an indication of the signal strength and/or a signal quality parameter is generated. Further, a gain and/or an operating bandwidth on the conversion or the amplification can be adjusted based on the indication to reduce power consumption of an optical receiver. | 06-21-2012 |
| 20120163811 | ULTRA-HIGH BANDWIDTH, MULTIPLE-CHANNEL FULL-DUPLEX, SINGLE-CHIP CMOS OPTICAL TRANSCEIVER - A novel parallel optical module having combined optical signal transmit and receive function for high-speed performance. The optical module includes a plurality, e.g., sixteen 10-Gb/s transmitter and receiver channels for a 160-Gb/s bidirectional aggregate data rate. The module utilizes a single-chip CMOS optical transceiver containing both transmitter and receiver circuits. 16-channel high-speed photodiode (PD) and VCSEL arrays are flip-chip attached to the low-power CMOS IC. The substrate emitting/illuminated VCSEL and PD arrays operate at 985 nm and include collimating lenses integrated into the backside of the substrate. The IC-OE assembly is then flip-chip attached to a high density organic package forming the transceiver optical module. The exclusive use of flip-chip packaging for both the IC-to-optoelectronic (OE) devices and for the IC-to-organic package minimizes the module footprint and associated packaging parasitics. | 06-28-2012 |
| 20120207426 | FLIP-CHIP PACKAGING FOR DENSE HYBRID INTEGRATION OF ELECTRICAL AND PHOTONIC INTEGRATED CIRCUITS - A chip system and method includes a photonics chip and an electrical integrated circuit (IC) flip-chip coupled to the photonics chip to form an optochip. The IC or the photonics chip includes an array of bond pads for attachment to the other. The optochip has an array of bond pads for subsequent attachment to a carrier where the photonics chip includes an exposed edge to connect with at least one waveguide. | 08-16-2012 |
| 20120224849 | OPTICAL INTERCONNECT USING OPTICAL TRANSMITTER PRE-DISTORTION - In one embodiment, the invention provides an optical interconnect comprising a transmitter for generating and transmitting an optical signal, a receiver for receiving the optical signal from the transmitter and for converting the received optical signal to an electrical signal, and a pre-transmitter distort circuit for applying a pre-transmitter distort signal to the transmitter to adjust the shape of the optical signal generated by the transmitter. Distortions are introduced into the optical signal when the optical signal is generated, transmitted to the receiver, and converted to the electrical signal. As a result of the signal applied to the transmitter by the pre-transmitter distort circuit, the optical signal generated by the transmitter has distortions to compensate for the distortions introduced into the optical signal, wherein the electrical signal, into which the optical signal is converted, has a desired shape. | 09-06-2012 |
| 20120224868 | OPTICAL RECEIVER BASED ON A DECISION FEEDBACK EQUALIZER - An optical receiver, a method of operating an optical receiver, a correction based transimpedance amplifier circuit, and a method of adjusting an output of a transimpedance amplifier. In one embodiment, the optical receiver comprises an optical-to-electrical converter, a transimpedance amplifier, and a correction circuit. The optical-to-electrical converter is provided for receiving an optical signal and converting the optical signal to an electrical signal. The transimpedance amplifier is provided for receiving the electrical signal from the optical-to-electrical converter and for generating from the electrical signal an amplified electrical signal. The amplified electrical signal has inter symbol interference resulting from a reduced bandwidth of the transimpedance amplifier. The correction circuit is provided for receiving the amplified electrical signal from the transimpedance amplifier and for generating, from the amplified electrical signal, an output signal including corrections for the inter symbol interference in the amplified electrical signal effectively increasing a bandwidth of the optical receiver. | 09-06-2012 |
| 20120313704 | DIFFERENTIAL AMPLIFIER STAGE WITH INTEGRATED OFFSET CANCELLATION CIRCUIT - A differential amplifier stage and method for offset cancellation include an amplifier having an input and an output. An internal offset cancellation circuit has an input for receiving a control signal to control offset cancellation in the amplifier. The offset cancellation circuit is integrated with the amplifier but isolated from the input and the output of the amplifier, and, in accordance with its isolation, an impedance of the stage is unaffected by the offset cancellation circuit. | 12-13-2012 |
