Patent application number | Description | Published |
20080197931 | OSCILLATOR - The present invention provides an oscillation circuit including: a plurality of multi-stage inverter rings each having an odd number of inverters connected to each other in cascade to form a ring through the same odd number of nodes on the ring; an inverter group for connecting each one of the nodes on any specific one of the multi-stage inverter rings to a counterpart one of the nodes on another one of the multi-stage inverter rings so as to join the specific and other multi-stage inverter rings to each other in order to shift the phases of generated oscillation signals from each other by a fixed difference: and a current source connected to the inverters of the multi-stage inverter rings and the inverters of the inverter group. | 08-21-2008 |
20100026405 | Phase-locked loop circuit, recording-and-reproducing apparatus, and electronic apparatus - A phase-locked loop circuit includes a phase detection unit which detects phase information of an input signal, a loop filter unit including a series circuit of a resistor and a capacitor, first and second pulse-current output units which supply pulse currents corresponding to the phase information output to one and the other of the resistor and the capacitor, and an oscillating unit capable of varying an oscillation frequency in accordance with a component obtained by combining a voltage generated at both ends of the one of the resistor and the capacitor on the basis of the pulse current supplied from the output terminal of the first pulse-current output unit and a voltage generated at both ends of the other one of the resistor and the capacitor on the basis of the pulse current supplied from the output terminal of the second pulse-current output unit. | 02-04-2010 |
20100026406 | Phase-locked loop circuit, recording-and-reproducing apparatus, and electronic appratus - A phase-locked loop circuit includes a phase detection unit, a loop filter unit including a series circuit of a resistor and a capacitor, first and second pulse-current output units which supply differential and single-end pulse currents corresponding to phase information to the resistor and capacitor, an oscillating unit which varies an oscillation frequency in accordance with a voltage generated at the resistor and capacitor, and a calibration unit which obtains information of an oscillation gain in actual operation and corrects an operation of the oscillating unit on the basis of a difference between the oscillation gain in actual operation and a target oscillation gain. The oscillation gain in actual operation represents a characteristic of oscillation frequency versus input signal of the oscillating unit and is obtained using predetermined oscillation control signals on the basis of a difference between actual oscillation frequencies under the oscillation control signals. | 02-04-2010 |
20120075025 | OSCILLATING CIRCUIT - An oscillating circuit includes N nodes outputting oscillating signals, a main loop circuit including N inverting circuits, and a plurality of auxiliary loop circuits. Each inverting circuit in the auxiliary loop circuits is connected in parallel with even numbers of inverting circuits cascaded in the main loop circuit. The circuits for feeding back signals from outputs to inputs of the respective inverters of the main loop circuit have circuit configurations equivalent to each other. Each inverting circuit in the main loop circuit and the auxiliary loop circuits drives an output line such that a phase of an output signal is inverted with respect to a phase of an input signal and has driving power that becomes lower when the phases of the output signal and the input signal are inverted with respect to each other than when the output signal and the input signal are in phase with each other. | 03-29-2012 |
20120194365 | DELTA-SIGMA MODULATOR AND SIGNAL PROCESSING SYSTEM - A ΔΣ0 modulator includes: a plurality of integrators cascaded to an input of an analog signal; a quantizer for quantizing an output signal of the integrator at a last stage and outputting a resultant digital signal; a DA converter for feedback for converting the digital signal obtained by the quantizer into an analog signal and supplying the analog signal to an input side of at least the integrator at a first stage; and an adder, arranged at an input stage side of the integrator at the last stage, for adding an output of the integrator at a preceding stage of the integrator at the last stage to at least one path signal supplied from at least another path via a first resistor having at least a first coefficient. The integrator at the last stage includes an operational amplifier, an integration capacitor, and a second resistor having a second coefficient. | 08-02-2012 |
20120194371 | ANALOG-TO-DIGITAL CONVERSION APPARATUS AND SIGNAL PROCESSING SYSTEM - An AD conversion apparatus includes: a first AD converter for converting an input analog signal into a first digital signal; a second AD converter for converting an analog signal obtained as a result of multiplying the input analog signal by a coefficient α into a second digital signal; a first computing unit for multiplying the first digital signal output by the first AD converter by α | 08-02-2012 |
20120306672 | ANALOG-TO-DIGITAL CONVERSION APPARATUS AND SIGNAL PROCESSING SYSTEM - An analog-to-digital conversion apparatus includes: a first analog-to-digital converter and a second analog-to-digital converter that are configured to convert an input analog signal into a digital signal; a difference imparting part configured to provide a difference of at least a fixed signal α between input analog signals to the first and second analog-to-digital converters, to input the input analog signals thereto; a first non-linear compensation part and a second non-linear compensation part that are configured to compensate non-linear distortions of a first output signal and a second output signal depending on the control variable signal to be supplied; and a non-linear detection part configured to estimate how much the non-linear distortions are compensated by the first and second non-linear compensation parts depending on a first signal by the first non-linear compensation part and a second signal by the second non-linear compensation part. | 12-06-2012 |
20120306673 | ANALOG-TO-DIGITAL CONVERSION APPARATUS AND SIGNAL PROCESSING SYSTEM - An analog-to-digital conversion apparatus includes: a first analog-to-digital converter configured to convert an input analog signal into a digital signal; a second analog-to-digital converter configured to convert an analog signal generated by multiplying the input analog signal by α times with a coefficient α into a digital signal; a first non-linear compensation part configured to compensate a non-linear distortion of a first output signal of the first analog-to-digital converter; a second non-linear compensation part configured to compensate a non-linear distortion of a second output signal of the second analog-to-digital converter; and a non-linear detection part configured to estimate how much the non-linear distortions of the first and second analog-to-digital converters are compensated by the first and second non-linear compensation parts depending on first and second signals by the first and second non-linear compensation parts. | 12-06-2012 |
20130100326 | COMPARATOR, AD CONVERTER, SOLID-STATE IMAGING DEVICE, AND CAMERA SYSTEM - Disclosed herein is a comparator including: a first input sampling capacitance; a second input sampling capacitance; an output node; a transconductance (Gm) amplifier as a differential comparator section configured to receive a slope signal, a signal level of the slope signal changing with a slope, at one input terminal of the Gm amplifier via the first input sampling capacitance, and receive an input signal at another input terminal of the Gm amplifier via the second input sampling capacitance, and subject the slope signal and the input signal to comparing operation; and an isolator configured to hold a voltage of an output section of the Gm amplifier constant, the isolator being disposed between the output section of the Gm amplifier and the output node. | 04-25-2013 |
20130215302 | COMPARATOR, ANALOG-TO-DIGITAL CONVERTOR, SOLID-STATE IMAGING DEVICE, CAMERA SYSTEM, AND ELECTRONIC APPARATUS - A comparator includes a first amplifier and a level holding part. The first amplifier includes differential-pair transistors and outputs a signal of a level corresponding to a comparison result from a first output node. The differential-pair transistors serve as a comparison part that receives a reference voltage, a signal level of which changes with a slope, at a gate of one of the differential-pair transistors, receives an input signal at a gate of the other of the differential-pair transistors, and compares the reference voltage with a potential of the input signal. The level holding part holds a level of the first output node such that the other transistor having an output part thereof connected to the first output node out of the differential-pair transistors of the first amplifier does not fall into a level at which a saturated operation condition is not satisfied. | 08-22-2013 |
20130215303 | COMPARATOR, ANALOG-TO-DIGITAL CONVERTOR, SOLID-STATE IMAGING DEVICE, CAMERA SYSTEM, AND ELECTRONIC APPARATUS - A comparator includes a first amplifier, a second amplifier, and a level holding part. The first amplifier includes differential-pair transistors and outputs a signal of a level corresponding to a comparison result from a first output node. The differential-pair transistors compare a reference voltage with a potential of an input signal. The second amplifier gain up the signal output from the first output node of the first amplifier and outputs the signal from a second output node. The level holding part holds a level of the second output node at a predetermined level. The second amplifier includes a transistor for amplification and a transistor for a current source. The level holding part holds the level of the second output node of the second amplifier such that the transistor for the current source does not fall into a level at which a saturated operation condition is not satisfied. | 08-22-2013 |
20140022430 | SOLID-STATE IMAGING DEVICE AND MANUFACTURING METHOD - There is provided a solid-state imaging device including an imaging unit including a plurality of image sensors, and an analog to digital (AD) conversion unit including a plurality of AD converters arranged in a row direction, each AD converter performing AD conversion of an electrical signal output by the image sensor. Each of the AD converters includes a comparator having a differential pair at an input stage, the differential pair including a first transistor and a second transistor, the first and second transistors are each divided into an equal number of a plurality of division transistors, and an arrangement pattern of the plurality of division transistors constituting the comparator in a predetermined column and an arrangement pattern of the plurality of division transistors constituting the comparator in an adjacent column adjacent to the predetermined column are different from each other. | 01-23-2014 |
20140177771 | CLOCK DATA RECOVERY CIRCUIT, DATA RECEPTION APPARATUS, AND DATA TRANSMISSION AND RECEPTION SYSTEM - A clock data recovery circuit includes: an oscillator that outputs a clock signal; a phase comparator that outputs a signal corresponding to a phase difference between an input reception data signal and the clock signal; a divider that outputs a feedback clock signal; a first variable delay circuit that outputs a delay data signal; a second variable delay circuit that outputs a delay feedback clock signal; a frequency phase comparator that outputs a signal corresponding to a frequency difference and a phase difference between the delay data signal and the delay feedback clock signal; a lock detector that outputs a determination signal indicating whether or not the frequency difference and the phase difference are within a predetermined range; and a multiplexer that receives the determination signal and select a signal of the phase comparator and a signal of the frequency phase comparator. | 06-26-2014 |
20140232916 | SEMICONDUCTOR APPARATUS, SOLID-STATE IMAGE SENSING APPARATUS, AND CAMERA SYSTEM - A semiconductor apparatus, a solid-state image sensing apparatus, and a camera system capable of reducing interference between signals transmitted through adjacent via holes, preventing an increase in the number of the via holes, reducing the area of a chip having sensors thereon and the number of mounting steps thereof. A first chip and a second chip are bonded together to form a laminated structure, a wiring between the first chip and the second chip being connected through via holes, the first chip transmitting signals obtained by time-discretizing analog signals generated by respective sensors to the second chip through the corresponding via holes, the second chip having a function of sampling the signals transmitted from the first chip through the via holes at a timing different from a timing at which the signals are sampled by the first chip and a function of quantizing the sampled signals to obtain digital signals. | 08-21-2014 |
20140293103 | SOLID-STATE IMAGE SENSOR AND CAMERA SYSTEM - There is provided a solid-state image sensor including a pixel array unit in which pixels are arrayed, the pixel including a photodiode converting an optical signal into an electrical signal, and a readout unit which reads out an analog image signal from the pixel to a signal line and processes the read out analog pixel signal in a unit of column. The readout unit includes a ΔΣ modulator which has a function to convert the analog pixel signal in to a digital signal, and an amplifier which is arranged on an input side of the ΔΣ modulator and amplifies the analog pixel signal read out to the signal line using a set gain to input the signal to the ΔΣ modulator. | 10-02-2014 |