Patent application number | Description | Published |
20090289732 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE AND FREQUENCY SYNTHESIZER - A semiconductor integrated circuit includes: a resonance circuit configured to determine an oscillation frequency; a first MOS transistor connected to the resonance circuit and configured to constitute an oscillation unit for delivering an oscillation output having the oscillation frequency; a second MOS transistor connected in parallel with the first MOS transistor; and a control unit configured to turn on and off the second MOS transistor according to the oscillation frequency, thereby enabling an equivalent gate width based on the first and second MOS transistors to be increased and decreased. Consequently, there is obtained an oscillation output having reduced phase noise, while an adequate oscillation margin is maintained. | 11-26-2009 |
20100033259 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - A semiconductor integrated circuit device includes a plurality of first gates each of which has a first protrusion section protruding from a first active region; a plurality of second gates each of which has a second protrusion section protruding from a second active region adjacent to the first active region in a direction opposite to a protruding direction of the first protrusion section; a second common interconnect which is formed on the first protrusion section of the plurality of first gates and on all drains of the second active region and connects the plurality of first gates and all drains of the second active region; and a third common interconnect which is formed on the second protrusion section of the plurality of second gates and on all drains of the first active region and connects the plurality of second gates and all drains of the first active region. | 02-11-2010 |
20100109781 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - A semiconductor integrated circuit device includes: an amplifier circuit which respectively has one or more input terminals and one or more output terminals; a replica circuit which has the same DC characteristics as those of the amplifier circuit; a reference voltage generation circuit which is connected to a bias terminal of the replica circuit, and which generates a predetermined reference voltage at the bias terminal; and a feedback circuit which takes a difference between the reference voltage generated at the bias terminal of the replica circuit and the voltage generated at a bias terminal of the amplifier circuit, and which performs feedback control by providing negative feedback of the difference to the bias terminal of the amplifier circuit so that the voltage generated at the bias terminal of the amplifier circuit is made equal to the reference voltage generated at the bias terminal of the replica circuit. | 05-06-2010 |
20100237956 | BIAS GENERATION CIRCUIT AND VOLTAGE CONTROLLED OSCILLATOR - This invention includes a bias origination section configured to originate an original bias voltage; a comparison section configured to compare the original bias voltage and a comparison voltage, and output a comparison result; a resistive divider section composed by a resistance circuit including a variable resistor section having a resistor and a switch, and configured to generate the comparison voltage; a bias decision control section configured to determine bias decision data for controlling a resistance value of the variable resistor section so as to bring the comparison voltage close to the original bias voltage, based on a comparison result of the comparison section; and a storage section configured to hold the bias decision data and also output the comparison voltage as a bias voltage by controlling a resistance value of the variable resistor section based on the held bias decision data, thereby generating a low-noise bias with a small area. | 09-23-2010 |
20100271106 | SEMICONDUCTOR INTEGRATED CIRCUIT - A semiconductor integrated circuit includes a mixer circuit unit having a first single gate mixer configured to receive a first input signal having a first frequency and a second input signal having a second frequency as inputs, a second single gate mixer configured to receive the first input signal and a third input signal of a phase inverted from a phase of the second input signal as inputs, a third single gate mixer configured to receive a fourth input signal of a phase inverted from the phase of the first input signal and the second input signal as inputs, and a fourth single gate mixer configured to receive the third and the fourth input signals as inputs; and a 1/2-frequency divider unit configured to receive output signals from the first to the fourth single gate mixers as inputs and output a desired signal. | 10-28-2010 |
20120062296 | TIME TO DIGITAL CONVERTER AND ALL DIGITAL PHASE-LOCKED-LOOP - According to one embodiment, a multiphase circuit, a flip-flop, and a decoder are provided. The multiphase circuit generates multiphase signals of which phases are different from each other by 180/M degrees by dividing a differential oscillation signal by M (M is an integral number not smaller than 2). The flip-flop captures the multiphase signal in synchronization with an input of a reference signal. The decoder decodes an output signal of the flip-flop. | 03-15-2012 |
20120176165 | SEMICONDUCTOR INTEGRATED CIRCUIT - A semiconductor integrated circuit includes a mixer circuit unit having a first single gate mixer configured to receive a first input signal having a first frequency and a second input signal having a second frequency as inputs, a second single gate mixer configured to receive the first input signal and a third input signal of a phase inverted from a phase of the second input signal as inputs, a third single gate mixer configured to receive a fourth input signal of a phase inverted from the phase of the first input signal and the second input signal as inputs, and a fourth single gate mixer configured to receive the third and the fourth input signals as inputs; and a ½-frequency divider unit configured to receive output signals from the first to the fourth single gate mixers as inputs and output a desired signal. | 07-12-2012 |
20140203880 | BIAS CURRENT CIRCUIT AND SEMICONDUCTOR INTEGRATED CIRCUIT - A bias current circuit controls an oscillator that generates an oscillation signal of a frequency corresponding to an input current. The circuit includes a part that detects fluctuation of a control current for variably controlling the frequency of the oscillation signal and a part that generates an input current in which a fluctuation component of the control current is canceled using a current for cancelling the detected fluctuation of the control current. | 07-24-2014 |
20140245103 | MEMORY CONTROLLER, STORAGE DEVICE, AND MEMORY CONTROL METHOD - According to one embodiment, a memory controller includes: a first flash encoding unit that performs flash encoding on user data according to a first scheme to generate user data flash codes; an encoding unit that performs an error correction encoding process on the user data flash codes to generate parities; a second flash encoding unit that performs flash encoding on the parities according to a second scheme to generate parity flash codes; and a memory I/F that writes the user data flash codes and the parity flash codes to the nonvolatile memory. | 08-28-2014 |
20150035690 | DELAY CIRCUIT AND DIGITAL TO TIME CONVERTER - A delay circuit includes a first inverter in which a delay time of rising is larger than a delay time of falling, and a second inverter which is connected in series with the first inverter and in which a delay time of falling is larger than a delay time of rising. Transistors for each of the first and second inverters are connected in series between a power supply terminal and a ground terminal. | 02-05-2015 |