| Patent application number | Description | Published |
|---|
| 20090102581 | INTERCONNECT FOR SURFING CIRCUITS - An interconnect for surfing circuits is presented. The interconnect includes at least one control signal line, at least one data signal line, and at least one variable capacitor coupled to the at least one control signal line and the at least one data signal line, wherein the capacitance of the variable capacitor is configured to be controlled by a control signal on the control signal line so that a velocity of a data signal transmitted on the at least one data signal line is determined by the value of the capacitance of the variable capacitor. | 04-23-2009 |
| 20090205850 | Steering fabric that facilitates reducing power use for proximity communication - One embodiment of the present invention provides a system that facilitates reducing the power needed for proximity communication. This system includes an integrated circuit with an array of transmission pads that transmit signals using proximity communication. This array is comprised of a set of macropads, where each given macropad is comprised of a set of micropads that can be configured to transmit a signal. A steering fabric routes signals to and within macropads, such that a subset of the micropads in the array can be configured to transmit the signal to a receiving component. Each macropad receives a limited number of input signals, with the steering fabric routing input signals to the micropads of the macropads. By limiting the number of input signals that are routed to the micropads of the macropads, the steering fabric eliminates redundant steering configurations for the array and reduces the power needed to transmit the signal. | 08-20-2009 |
| 20100176878 | CAPACITIVELY AND CONDUCTIVELY COUPLED MULTIPLEXER - A capacitively and conductively coupled multiplexer (C | 07-15-2010 |
| 20100264954 | RECEIVE CIRCUIT FOR CONNECTORS WITH VARIABLE COMPLEX IMPEDANCE - Embodiments of a circuit for use with an inter-chip connection that has a variable complex impedance (which can be conductive, capacitive or both), a system that includes the circuit, and a communication technique are described. This inter-chip connection may be formed between a microspring or an anisotropic film and a metal connector on or proximate to a surface of a chip. Moreover, the circuit may mitigate signal distortion associated with the variable complex impedance. For example, the circuit may include an internal impedance that is electrically coupled in series with the metal connector, and that has an impedance which dominates the variable complex impedance over a range of operating frequencies. Separately or additionally, the circuit may be adapted to correct for the signal distortion. | 10-21-2010 |
| 20100329390 | ADAPTIVE OFFSET-COMPENSATING DECISION-FEEDBACK RECEIVER - A circuit that receives input signals from a transmitter via proximity communication, such as capacitively coupled proximity communication, is described. Because proximity communication may block DC content, the circuit may restore the DC content of input signals. In particular, a refresh circuit in the circuit may short inputs of the circuit to each other at least once per clock cycle (which sets a null value). Furthermore, a feedback circuit ensures that, if there is a signal transition in the input signals during a current clock cycle, it is passed through to an output node of the circuit. On the other hand, if there is no signal transition in the input signals during the current clock cycle, the feedback circuit may select the appropriate output value on the output node based on the output value during the immediately preceding clock cycle. | 12-30-2010 |
| 20110089540 | SEMICONDUCTOR DIE WITH INTEGRATED ELECTRO-STATIC DISCHARGE DEVICE - A semiconductor die is described. This semiconductor die includes an electro-static discharge (ESD) device with a metal component coupled to an input-output (I/O) pad, and coupled to a ground voltage via a signal line. Moreover, adjacent edges of the metal component and the I/O pad are separated by a spacing that defines an ESD gap. When a field-emission or ionization current flows across the ESD gap, the metal component provides a discharge path to the ground voltage for transient ESD signals. Furthermore, the ESD gap is at least partially enclosed so that there is gas in the ESD gap. | 04-21-2011 |
