Patent application number | Description | Published |
20130077149 | SIGNAL SHAPING CIRCUIT AND LIGHT TRANSMITTING DEVICE - A signal shaping circuit includes an operational circuit that provides weights to a first signal input to a first input element and a second signal input to a second input element, adds or subtracts the second signal to or from the first signal, and outputs a signal obtained by adding or subtracting the second signal to or from the first signal; a divider that divides the signal output from the operational circuit into signals, causes one of the divided signal to be input to the second input element, and outputs the other of the divided signal; a delay element that delays the signal output from the operational circuit and to be input to the divider or the signal output from the divider and to be input to the second input element; and an adjuster that adjusts at least one of the weights provided to the first and second signals. | 03-28-2013 |
20130170580 | EMPHASIS CIRCUIT AND TRANSMITTER - An emphasis circuit includes: an applying circuit to add an emphasis signal to an input differential signal; a feedback path to feed back a differential output of the applying unit; a comparing circuit to compare a direct current component level of a positive phase signal and of a negative phase signal of the differential signal; a direct current component level controlling circuit to control a direct current component level of at least one of the positive phase signal and the negative phase signal; a delay unit circuit to add a delay to at least one of the fed-backed differential signal to generate the emphasis signal and inputs the emphasis signal into the applying unit; and a dummy load coupled to a positive phase signal output or a negative phase signal output of the applying unit. | 07-04-2013 |
20140097331 | LIGHT RECEPTION CIRCUIT AND LIGHT RECEPTION DEVICE - A light reception circuit includes a direct current (DC) level shift circuit that shifts a DC voltage level of a first signal or a second signal and outputs a third signal or a fourth signal, or outputs both of the third signal and the fourth signal so that a DC voltage level of the first signal output from a cathode of a photodiode that generates a signal by photo conversion and a DC voltage level of the second signal output from an anode of the photodiode agree, and a differential amplifier that amplifies a difference between the third signal and the second signal, between the first signal and the fourth signal, or the third signal and the fourth signal, based on the third signal, the forth signal output from the DC level shift circuit, impedance of the DC level shift circuit being lower than input impedance of the differential amplifier. | 04-10-2014 |
20140117873 | LIGHT EMITTING ELEMENT DRIVE CIRCUIT AND LIGHT EMITTING DEVICE - A light emitting element drive circuit includes: a plurality of signal paths that respectively propagate a plurality of signals obtained by branching an input signal, a plurality of filters different in a frequency band to pass a signal; one or more amplifiers configured to amplify a signal, one or more delay circuits configured to delay a signal, and an addition circuit that adds a plurality of signals, the filter different in the frequency band being arranged in each of the plurality of signal paths, the delay circuit being arranged in one or more of the plurality of signal paths relatively low in the frequency band, the amplifier being arranged in one or more of the plurality of signal paths relatively high in the frequency band, and an output end of each of the plurality of signal paths being coupled to the addition circuit. | 05-01-2014 |
20140132351 | AMPLIFIER CIRCUIT - An amplifier circuit includes an amplifier circuit that emitter-grounds a first transistor that amplifies an input signal; and an emitter-grounded feedback circuit in which a collector of the first transistor is connected to an output line of the amplifier circuit and a base is wiring-connected only to the output line by using a resistor. | 05-15-2014 |
20140140708 | EMPHASIS SIGNAL GENERATING CIRCUIT - An emphasis signal generating circuit includes: a branch circuit configured to split a signal into a plurality of paths; a delay circuit provided in one or more of the paths into which the signal has been split by the branch circuit, the delay circuit being configured to delay one or more signals; a phase compensation circuit provided in one or more of the paths into which the signal has been split by the branch circuit, the phase compensation circuit having such characteristics that a transmission intensity of a signal is low in a low frequency band and is high in a high frequency band; and an addition/subtraction circuit configured to perform addition and/or subtraction of signals from the plurality of paths and output a result. | 05-22-2014 |
20150022253 | PHASE COMPENSATION CIRCUIT AND PHASE COMPENSATING METHOD - A phase compensation circuit includes: a first circuit that increases phase characteristic of a specific frequency of an electrical signal; a second circuit that decreases the phase characteristic of the specific frequency of the electrical signal; and a limiting amplifier that amplifies an electrical signal that is processed by at least one of the first circuit and the second circuit. | 01-22-2015 |
20150200768 | MULTI-LANE RE-TIMER CIRCUIT AND MULTI-LANE RECEPTION SYSTEM - A multi-lane re-timer circuit includes: a clock generation circuit to generate a base clock; and reception circuits to generate a reception clock and receive input data signals from lanes, wherein each of the reception circuits includes: a phase frequency detector to generate phase difference signal and frequency difference signal between the input data signal and the reception clock; a clock data regeneration controller to generate a control signal based on the phase difference signal; a phase rotator to generate the reception clock from the base clock; and a decision circuit to receive the input data signal, and wherein the clock generation circuit includes: an input selector to select a signal; a charge pump to generate a charge signal; a loop filter to remove a high frequency component from the charge signal to output a voltage control signal; and a voltage controlled oscillator to generate the reception clock. | 07-16-2015 |