Patent application number | Description | Published |
20130120035 | LOCK DETECTOR AND METHOD OF DETECTING LOCK STATUS FOR PHASE LOCK LOOP - A lock detector for a PLL circuit includes a first signal counting circuit, a second signal counting circuit, a comparator, and a lock status unit. The first signal counting circuit is configured to define a plurality of observation periods according to a first oscillating signal and a predetermined cycle value. The second signal counting circuit is configured to determine a maximum counter value according to a second oscillating signal within each of the observation periods, and the second oscillating signal is generated in relation to the first oscillating signal. The comparator is configured to determine, for each of the observation periods, whether the maximum counter value equals the predetermined cycle value. The lock status unit is configured to generate a lock signal based on the maximum counter value being equal to the predetermined cycle value for a predetermined number of consecutive ones of the observation periods. | 05-16-2013 |
20130134553 | INTERPOSER AND SEMICONDUCTOR PACKAGE WITH NOISE SUPPRESSION FEATURES - Interposer and semiconductor package embodiments provide for the isolation and suppression of electronic noise such as EM emissions in the semiconductor package. The interposer includes shield structures in various embodiments, the shield structures blocking the electrical noise from the noise source, from other electrical signals or devices. The shields include solid structures and some embodiments and decoupling capacitors in other embodiments. The coupling structures includes multiple rows of solder balls included in strips that couple the components and surround and contain the source of electrical noise. | 05-30-2013 |
20130135011 | PHASE FREQUENCY DETECTOR CIRCUIT - A phase frequency detector circuit includes an edge detector circuit, a plurality of phase frequency detector sub-circuits, and a decision circuit. The edge detector circuit is configured to receive a first input signal and a second input signal. The decision circuit is configured to detect whether a blind condition exits based on outputs of the edge detector circuit and outputs of the plurality of phase frequency detector sub-circuits. Responsive to a result of the decision circuit, a corresponding frequency detector sub-circuit of the plurality of phase frequency detector sub-circuit is configured to provide signals for use in determining a phase difference between the first input signal and the second input signal. | 05-30-2013 |
20130135018 | PHASE-LOCKED LOOPS THAT SHARE A LOOP FILTER - A die stack of an integrated circuit includes a plurality of dies. Each die in the die stack includes a phase lock loop (PLL). The PLLs in each of the dies share a loop filter and other corresponding circuits. | 05-30-2013 |
20130168809 | STRUCTURE AND METHOD FOR A TRANSFORMER WITH MAGNETIC FEATURES - The present disclosure provides a semiconductor device. The semiconductor device includes a first inductor formed on a first substrate; a second inductor formed on a second substrate and conductively coupled with the first inductor as a transformer; and a plurality of micro-bump features configured between the first and second substrates. The plurality of micro-bump features include a magnetic material having a relative permeability substantially greater than one and are configured to enhance coupling between the first and second inductors. | 07-04-2013 |
20130278303 | AUTO FREQUENCY CALIBRATION FOR A PHASE LOCKED LOOP AND METHOD OF USE - A phase locked loop includes a phase difference detector configured to receive a reference frequency and a divider frequency and output a phase difference signal. The phase locked loop includes a code generator configured to receive the reference frequency and the phase difference signal, and output a coarse tuning signal and a reset signal. The phase locked loop includes a digital loop filter configured to receive the phase difference signal and output a fine tuning signal. The phase locked loop includes a voltage control oscillator configured to receive the coarse and fine tuning signals, and output an output frequency. The phase locked loop includes a divider configured to receive the reset signal, a divider number control signal and the output frequency, and output the divider frequency. The phase locked loop includes a delta-sigma modulator configured to receive a divisor ratio and the reset signal, and output divider number control signal. | 10-24-2013 |
20130320553 | NOVEL BEAD FOR 2.5D/3D CHIP PACKAGING APPLICATION - An integrated circuit package having a multilayer interposer has one or more metal wiring beads provided in the interposer, each of the one or more metal wiring beads has a convoluted wiring pattern that is formed in one of the multiple layers of wiring structures in the interposer, and two terminal end segments connected to the power lines in the integrated circuit package, wherein the one or more metal wiring beads operate as power noise filters. | 12-05-2013 |
20140001609 | INTERPOSER AND SEMICONDUCTOR PACKAGE WITH NOISE SUPPRESSION FEATURES | 01-02-2014 |
20140015576 | PHASE-LOCKED LOOPS THAT SHARE A LOOP FILTER - An integrated circuit includes a first die and a second die. The first die comprising a first phase-locked loop (PLL) and the second die comprising a second PLL. The integrated circuit includes a shared loop filter, wherein the first PLL in the first die is combined with the shared loop filter to form a first PLL feedback loop, the second PLL in the second die is combined with the shared loop filter to form a second PLL feedback loop and the shared loop filter is configured to provide configurable bandwidths to each of the first PLL feedback loop and the second PLL feedback loop. | 01-16-2014 |
20140021989 | PHASE-LOCKED LOOPS THAT SHARE A LOOP FILTER AND FREQUENCY DIVIDER - An integrated circuit die stack includes a first die having a first phase locked loop (PLL) and a second die having a second PLL. The first PLL includes a first voltage controlled oscillator (VCO) and the second PLL includes a second VCO. The first VCCO and the second VCCO share a frequency divider and a loop filter. | 01-23-2014 |
20140029205 | Band Pass Filter for 2.5D/3D Integrated Circuit Applications - The present disclosure relates to a device and method for a band pass filter with a reduced cost, area penalty, and manufacturing complexity relative to current solutions. An integrated passive device chip comprising a plurality of capacitors embedded in a common molding compound along with a transceiver chip, and arranged within a polymer package. Ultra-thick metallization layers are disposed within the polymer package and configured to couple the integrated passive device chip to the transceiver chip. The ultra-thick metallization layers also form a plurality of transmission lines, wherein the combined integrated passive device chip and transmission lines form a band pass filter with improved frequency response, noise immunity, and cost and area penalty as compared to conventional solutions. The band pass filter may also be coupled to a plurality of solder balls comprising a Flip Chip Ball Grid Array suitable for 2.5D and 3D integrated circuit applications. | 01-30-2014 |
20140097930 | Structure and Method for a Transformer with Magnetic Features - The present disclosure provides a semiconductor device. The semiconductor device includes a first inductor formed on a first substrate; a second inductor formed on a second substrate and conductively coupled with the first inductor as a transformer; and a plurality of micro-bump features configured between the first and second substrates. The plurality of micro-bump features include a magnetic material having a relative permeability substantially greater than one and are configured to enhance coupling between the first and second inductors. | 04-10-2014 |
20140103961 | PHASE FREQUENCY DETECTOR CIRCUIT - A phase frequency detector circuit includes an edge detector circuit, a plurality of phase frequency detector sub-circuits, and a decision circuit. The edge detector circuit is configured to receive a first input signal and a second input signal. The decision circuit is configured to detect whether a blind condition exits based on outputs of the edge detector circuit and outputs of the plurality of phase frequency detector sub-circuits. Responsive to a result of the decision circuit, a corresponding frequency detector sub-circuit of the plurality of phase frequency detector sub-circuit is configured to provide signals for use in determining a phase difference between the first input signal and the second input signal. | 04-17-2014 |
20140145749 | METHOD AND APPARATUS OF RFID TAG CONTACTLESS TESTING - A semiconductor wafer includes a plurality of dies. Each of the plurality of dies includes a radio frequency identification (RFID) tag circuit and a coil. The RFID tag circuit includes a tag core, an RF front-end circuit, an ID decoder, a comparator and conductive line for a unique ID. The RF front-end circuit is configured to receive electromagnetic signals through the coil in each of the plurality of dies and to convert the received electromagnetic signals into commands. The ID decoder is configured to receive the commands and to generate an expect ID. The comparator is configured to compare the unique ID with the expect ID to generate a comparison result. The comparison result is arranged to decide if the tag core is configured to receive commands. | 05-29-2014 |
20140210528 | PHASE LOCKED LOOP (PLL) WITH MULTI-PHASE TIME-TO-DIGITAL CONVERTER (TDC) - One or more techniques or systems for locking a phase locked loop (PLL) are provided herein. In some embodiments, a multi-phase time-to-digital converter (TDC) includes a first phase finder, a phase predictor, a second phase finder, and a phase switch. For example, the first phase finder is configured to generate a first fractional phase signal based on a multi-phase variable clock (CKV) signal. For example, the phase predictor is configured to generate a phase select (QSEL) signal or a multi-phase CKV select (CKVSEL) signal based on a frequency command word (FCW) signal or the multi-phase CKV signal. For example, the second phase finder is configured to generate a second fractional phase signal based on the CKVSEL signal or the QSEL signal. For example, the phase switch is configured to select the first or second fractional phase signal based on a phase error (PHE) signal. | 07-31-2014 |
20140265632 | MiM CAPACITOR - One or more systems and techniques for managing one or more electronic devices are provided. A determination is made that a first capacitor in a set of one or more capacitors has a defect. Responsive to the determination, the first capacitor is disabled, and a second capacitor is enabled. | 09-18-2014 |
20140333355 | PHASE-LOCKED LOOPS THAT SHARE A LOOP FILTER AND FREQUENCY DIVIDER - A shared loop filter includes an input port configured to selectively receive a first input from a first charge pump. The first charge pump is connected to a first phase locked loop (PLL) in a first die. The input port is further configured to selectively receive a second input from a second charge pump, the second charge pump connected to a second PLL in a second die separate from the first die. The shared loop filter further includes an output port configured to selectively provide an output to a first voltage controlled oscillator (VCO). The first VCO is connected to the first PLL. The output port is further configured to selectively output a second output to a second VCO. The second VCO is connected to the second PLL. | 11-13-2014 |
20150116018 | PHASE-LOCKED LOOP CIRCUIT - A phase-locked loop circuit, a phase converter module thereof and a phase-locked controlling method are disclosed herein. The phase converter module is suitable for a phase-locked loop circuit including a digitally-controlled oscillator (DCO) for generating an oscillator output signal and a divider for converting the oscillator output signal into N-phased oscillator output signals. The phase converter module includes a period extender, a phase finder and a time-to-digital converter. The period extender is configured for extending the N-phased oscillator output signals into M*N-phased oscillator output signals corresponding to M oscillation period of the digitally-controlled oscillator. The phase finder is configured for sampling the oscillator output signal with the M*N-phased oscillator output signals to calculate an estimated value of the fractional phase part. The time-to-digital converter is configured to calculate a precise value of the fractional phase part within one sub-period. | 04-30-2015 |
20150130518 | AUTO FREQUENCY CALIBRATION FOR A PHASE LOCKED LOOP AND METHOD OF USE - An apparatus comprises a code generator configured to generate a coarse tuning signal and a reset signal based on a reference frequency and a phase difference signal. The apparatus also comprises a digital loop filter configured to generate a fine tuning signal based on the phase difference signal. The apparatus further comprises a voltage control oscillator configured to generate an output signal based on the coarse tuning signal and the fine tuning signal. The apparatus additionally comprises a divider configured to generate a divider frequency based on a divider control signal and the output signal. The phase difference signal is based, at least in part, on the divider frequency, and the divider is configured to be reset based on the reset signal. | 05-14-2015 |
20150130543 | METHOD AND APPARATUS OF SYNCHRONIZING OSCILLATORS - A circuit includes a first oscillator and a second oscillator. The first oscillator includes an inductive device, a capacitive device, and an active feedback device configured to output a first output signal having a predetermined frequency according to electrical characteristics of the inductive device of the first oscillator and electrical characteristics of the capacitive device of the first oscillator. The second oscillator includes an inductive device, a capacitive device, and an active feedback device configured to output a second output signal having the predetermined frequency according to electrical characteristics of the inductive device of the second oscillator and electrical characteristics of the capacitive device of the second oscillator. The inductive device of the first oscillator and the inductive device of the second oscillator are magnetically coupled. | 05-14-2015 |
20150130545 | COUPLING STRUCTURE FOR INDUCTIVE DEVICE - A circuit includes a coupling structure and a first inductive device. The coupling structure includes two or more conductive loops and a set of conductive paths electrically connecting the two or more conductive loops. The first inductive device is magnetically coupled with a first conductive loop of the two or more conductive loops. | 05-14-2015 |