Patent application number | Description | Published |
20090289348 | SOLUTION FOR PACKAGE CROSSTALK MINIMIZATION - A method of minimizing crosstalk in an IC package including (A) routing a first signal between first pads and a first trace layer in an congested area, (B) routing the first signal between the first and second trace layers in an non-congested area, (C) routing the first signal between the second trace layer and first pins in the non-congested area, (D) routing a second signal between second pads and the first trace layer in the congested area, (E) routing the second signal between the first and the second trace layers in the congested area and (F) routing the second signal between the second trace layer and second pins in the non-congested area, wherein (i) all of the first and second pins are arranged along a line and (ii) the first pins are offset from the second pins by a gap of at least two inter-pin spaces. | 11-26-2009 |
20100080282 | RE-ADAPTION OF EQUALIZER PARAMETER TO CENTER A SAMPLE POINT IN A BAUD-RATE CLOCK AND DATA RECOVERY RECEIVER - An apparatus generally having a first circuit and a second circuit. The first circuit may be configured to (i) generate an equalizer parameter in response to an input signal, the equalizer parameter causing a cancellation of post-cursor inter-symbol interference from a plurality of symbols in the input signal and (ii) generate an output signal in response to both the input signal and the equalizer parameter. The second circuit may be configured to (i) generate a target parameter signal in response to the input signal, the target parameter signal representing a mean value of a plurality of sample points of the symbols and (ii) generate a control signal in response to the target parameter signal, the control signal causing a reduction of the equalizer parameter, the reduction causing a decrease in the cancellation of the post-cursor inter-symbol interference from the symbols, wherein the apparatus does not cancel pre-cursor inter-symbol interference. | 04-01-2010 |
20110006395 | HYBRID BUMP CAPACITOR - A device fabricated on a chip is disclosed. The device generally includes (A) a first pattern and a second pattern both created in an intermediate conductive layer of the chip, (B) at least one via created in an insulating layer above the intermediate conductive layer and (C) a first bump created in a top conductive layer above the insulating layer. The first pattern generally establishes a first of a plurality of plates of a first capacitor. The via may be aligned with the second pattern. The first bump may (i) be located directly above the first plate, (ii) establish a second of the plates of the first capacitor, (iii) be suitable for flip-chip bonding, (iv) connect to the second pattern through the via such that both of the plates of the first capacitor are accessible in the intermediate conductive layer. The first pattern and the second pattern may be shaped as interlocking combs. | 01-13-2011 |
20110142120 | FLOATING-TAP DECISION FEEDBACK EQUALIZER FOR COMMUNICATION CHANNELS WITH SEVERE REFLECTION - An apparatus including a first circuit and a second circuit. The first circuit may be configured to determine values for a predefined metric for a plurality of tap positions within a range covered by a decision feedback equalizer (DFE). The values for a number of taps may be determined in parallel. The second circuit may be configured to set one or more floating taps of the DFE to tap positions based upon the values of the predefined metric. The floating taps in the decision feedback equalizer may be selected adaptively. | 06-16-2011 |
20120257652 | ADJUSTING SAMPLING PHASE IN A BAUD-RATE CDR USING TIMING SKEW - In described embodiments, a transceiver includes a baud-rate clock and data recovery (CDR) module with an eye sampler, and an adaptation module for adaptively setting parameters of various circuit elements, such as timing, equalizer and gain elements. Data sampling clock phase of the CDR module is set for sampling at, for example, near the center of a data eye detected by the eye sampler, and the phase of data error sampling latch(es) is skewed by the CDR module with respect to the phase of the data sampling latch. Since the error signal driving the timing adaptation contains the information of the pulse response that the CDR module encounters, the phase of timing error sampling latch(es) of the CDR module is skewed based on maintaining a relative equivalence of input pulse response residual pre-cursor and residual post-cursor with respect to the timing error sampling clock phase. | 10-11-2012 |
20120262238 | PVT CONSISTENT PLL INCORPORATING MULTIPLE LCVCOS - In described embodiments, a wide toning-range (WTR) inductive-capacitive (LC) phase locked loop (PLL) provides for a large range of differing oscillation frequencies with a set of individual LC voltage controlled oscillator (VCO) paths. The output of each individual wide range LCVCO path is provided to a multiplexor (MUX), whose output is selected based on a control signal from, for example, a device controller. Each of the set of individual wide range LCVCO paths includes a switch that couples the LCVCO to a loop filter of a voltage tuning module, wherein each switch also receives the control signal to disable or enable the LCVCO path when providing the output signal from the MUX. Each switch is configured so as to minimize leakage current drawn by the LCVCO when disabled, and to reduce or eliminate effects of input capacitance of each dormant LCVCO to the loop dynamics of the PLL. | 10-18-2012 |
20130057325 | AUTOMATIC FREQUENCY CALIBRATION OF A MULTI-LCVCO PHASE LOCKED LOOP WITH ADAPTIVE THRESHOLDS AND PROGRAMMABLE CENTER CONTROL VOLTAGE - Described embodiments provide a method of calibrating, by a calibration engine, a phase-locked loop (PLL) having one or more adjustable oscillators. The method includes entering a calibration mode of the PLL. The PLL is set to an initial state, thereby selecting one of the adjustable oscillators for calibration, an initial threshold window, and an initial tuning band of the selected adjustable oscillator. If the control signal of the selected adjustable oscillator is not within the initial threshold window, the calibration engine iteratively adjusts at least one of: (i) the selected tuning band of the selected adjustable oscillator, (ii) the selected adjustable oscillator, and (iii) the selected threshold window until the control signal of the selected adjustable oscillator is within the adjusted threshold window. If the control signal is within the threshold window, the one or more calibration settings of the PLL are stored and used to set the PLL operation. | 03-07-2013 |
20140159807 | MULTIPLE-CLOCK, NOISE-IMMUNE SLICER WITH OFFSET CANCELLATION AND EQUALIZATION INPUTS - A slicer circuit including an input differential is configured to amplify an input reference voltage received at a pair of differential input nodes and provide a differential output voltage at a pair of differential output nodes, and a regeneration latch configured to amplify the differential output voltage. A differential offset compensation voltage is applied to the differential output voltage to provide DC-offset cancellation. A differential equalization voltage is applied to the differential output voltage to provide DFE equalization. A timing scheme employing multiple clocks provides reduced sampling-window width and increased output-signal width. Cross-coupled transistors are used to cancel kickback noise received at the differential output nodes. | 06-12-2014 |