Class / Patent application number | Description | Number of patent applications / Date published |
331185000 | WITH PARTICULAR SOURCE OF POWER OR BIAS VOLTAGE | 22 |
20080238565 | OSCILLATOR CIRCUIT WITH TRANSITION DETECTION ENABLE - An oscillator circuit may be used with controller circuits that are designed to operate with crystals, with no modifications to the pinout or firmware of the controller circuit. In some embodiments, the oscillator circuit includes an enable input that is responsive to low-amplitude transitions, which may be coupled to and driven by the crystal output signal of the controller circuit. When transitions are present on the crystal output signal, the oscillator circuit enables its clock output signal. When the controller circuit disables its crystal output signal, the oscillator circuit no longer detects transitions on the crystal output signal coupled to the oscillator circuit enable input, and disables the clock output signal. | 10-02-2008 |
20080246549 | REAL TIME CLOCK INTEGRATED CIRCUIT AND ELECTRONIC APPARATUS USING THE SAME - A real time clock integrated circuit (RTC IC) and an electronic apparatus thereof are provided. In the RTC IC, only a low-power oscillator is used for generating a standard clock for a real time counter, and the standard clock with a frequency drift of the low-power oscillator is compensated through table lookup. Accordingly, the power consumption, fabrication cost and design complexity of the RTC IC are reduced and the counting operation duration of the RTC IC is prolonged. | 10-09-2008 |
20090085685 | SYSTEM AND METHOD FOR CALIBRATING BIAS CURRENT FOR LOW POWER RTC OSCILLATOR - The integrated circuit package includes a processing core for operating on a set of instructions to carry out predefined processes. A real time clock circuit provides a system clock for the processing core. The real time clock further comprises an internal oscillator that generates the system clock for the integrated circuit package. The internal oscillator has a factory calibrated bias current. An internal oscillator control register controls the operation of the internal oscillator responsive to control bits of the programmable load capacitor array controlled by the processing core. | 04-02-2009 |
20090108950 | OSCILLATION CONTROL APPARATUS AND OSCILLATOR - An oscillation control apparatus is provided with: an oscillating unit for oscillating an oscillating element; an output amplifying circuit having two pieces of same types of transistors series-connected to each other, for outputting a signal from a junction point between the two transistors in response to an oscillation signal outputted from the oscillating unit; a bias unit for generating two DC bias voltages having different levels from each other, which are applied to either respective gates or respective bases of the two transistors; a constant voltage power supply unit for applying a constant voltage to the oscillating unit; and an inverter unit provided between the oscillating unit and any one of either the gates or the bases of the two transistors, for inverting a phase of the oscillation signal outputted from the oscillating unit. Both the oscillation signal outputted from the oscillating unit and one of the two bias voltages are applied to either the gate or the base of one of the two transistors; and both an oscillation signal outputted from the oscillating unit and whose phase has been inverted by the inverting unit and the other bias voltage of the two bias voltages are applied to either the gate or the base of the other transistor of the two transistors. | 04-30-2009 |
20130069732 | SEMICONDUCTOR DEVICE - An oscillation circuit section is provided which can attain the reduction of a consumed power amount and the reduction of a manufacturing cost. In a semiconductor device, voltages are generated to drive the oscillation circuit section by using a plurality of MOS transistors which are connected in serial and each of which is in a diode connection. At this time, each voltage is generated based on a power supply voltage and a ratio of the threshold voltages of the plurality of MOS transistors. Therefore, it is possible to suppress the threshold voltage of each MOS transistor, to save an area of each MOS transistor, and to reduce the consumed power amount of the oscillation circuit section. | 03-21-2013 |
20130069733 | Switched Power Supply - The switched power supply ( | 03-21-2013 |
20130271231 | OSCILLATOR MODULE AND REFERENCE CIRCUIT THEREOF - A reference circuit for an oscillator module is provided. The reference circuit includes a reference voltage generation unit and a reference current generation unit. The reference voltage generation unit includes an electric element having a voltage proportional to absolute temperature (PTAT voltage) and provides a reference voltage based on the PTAT voltage. The reference current generation unit is coupled to the reference voltage generation unit and provides a reference current to the oscillator circuit to serve as an input current based on the PTAT voltage. The oscillator circuit generates a clock signal based on the reference voltage and the input current. The reference voltage and the input current are proportional to absolute temperature and have the same change trend relative to absolute temperature, such that the clock signal is a temperature insensitive signal. An oscillator module including an oscillator circuit and the foregoing reference circuit is also provided. | 10-17-2013 |
331186000 | Regulated | 15 |
20080278252 | Calibration of Voltage Controlled Oscillators - A calibration circuit ( | 11-13-2008 |
20090002087 | LOW-POWER FAST-STARTUP OSCILLATOR WITH DIGITAL FEEDBACK CONTROL - Embodiments of the present invention provide a system for controlling a startup time of an oscillator circuit. The system includes a variable current source coupled to the oscillator circuit, wherein a startup time of the oscillator circuit is proportional to a bias current input into the oscillator circuit from the variable current source. The system also includes a control mechanism coupled to the variable current source and to the output of the oscillator circuit. Upon startup, the control mechanism is configured to adjust the variable current source to input a large startup bias current into the oscillator circuit. After the oscillator circuit outputs a predetermined number of oscillations during startup, the control mechanism is configured to adjust the variable current source to decrease its current to a smaller steady-state bias current into the oscillator circuit. | 01-01-2009 |
20090146753 | OSCILLATOR VOLTAGE SOURCE CIRCUITS - An oscillator voltage source circuit is provided comprising a multiplexer, a plurality of transmission gates, a plurality of resistors, a voltage source circuit, and an output circuit. The multiplexer inputs a digital signal. The transmission gates is individually coupled to the multiplexer and receives the digital signal, wherein the plurality of transmission gate are turned on or off according to the digital signal. The plurality of resistors is coupled in series and individually coupled to the plurality of transmission gates. The voltage source circuit is coupled to the plurality of resistors and provides a first voltage source. The output circuit is coupled to the voltage source and outputs an oscillator voltage source according to the first voltage source and the turned-on or turned-off transmission gates. | 06-11-2009 |
20090184777 | METHOD AND APPARATUS FOR GENERATING OSCILLATING SIGNALS - An apparatus for generating an oscillating signal that includes a circuit to accelerate the time in which an oscillating signal reaches a defined steady-state condition from a cold start. The apparatus includes an oscillating circuit to generate an oscillating signal; a first circuit to supply a first current to the oscillating circuit; and a second circuit to supply a second current to the oscillating circuit, wherein the first and second currents are adapted to reduce the time duration for the oscillating signal to reach a defined steady-state condition. The apparatus may be useful in communication systems that use low duty cycle pulse modulation to establish one or more communications channels, whereby the apparatus begins generating an oscillating signal at approximately the beginning of the pulse and terminates the oscillating signal at approximately the end of the pulse. | 07-23-2009 |
20100085127 | CIRCUIT FOR VOLTAGE CONTROLLED OSCILLATOR - A voltage controlled oscillator and a load cell circuit usable in VCO are provided. The VCO features an internal compensation for process, voltage and temperature using a replica of half of the oscillating stage. The load cell circuit comprises a bias transistor to drain a predetermined current from the oscillating stage, a control transistor to vary resistance offered by it responsive to a control voltage applied and a resistor adapted to provide a clamp resistance. | 04-08-2010 |
20100134197 | Oscillator having feedback path which is capable of supplying reduced voltage potential to oscillation circuit - An oscillator creates a reference voltage based on a pulse signal corresponding to an oscillation output of a crystal oscillation circuit and controls a supply voltage to the crystal oscillation circuit according to the reference voltage. A control signal creating circuit creates a control signal based on the pulse signal and reference voltage generating circuits that control the reference voltage based on the control signal. The control signal creating circuit creates a low-level control signal when the pulse signal is in a low level, creates a high-level control signal when the pulse signal is in a high level, and prevents transition of the control signal from the high level to the low level. | 06-03-2010 |
20110080227 | DRIVE CONTROL DEVICE FOR OSCILLATOR, DRIVE CONTROL METHOD FOR OSCILLATOR, AND MANUFACTURING METHOD FOR OSCILLATOR - To drive an oscillator always at a stable and constant oscillation even if frequency and amplitude of a power supply voltage differ depending on a delivery destination of the oscillator, an oscillator drive control device ( | 04-07-2011 |
20110148540 | DELAY CIRCUIT AND VOLTAGE CONTROLLED OSCILLATION CIRCUIT - A delay circuit includes a delay unit having a first and a second power supply terminals, a pair of differential signal input terminals and a pair of differential signal output terminals. The signals entered to the pair of differential signal input terminals are delayed and output at the pair of differential signal output terminals. The delay circuit also includes a current controller that exercises control to cause a current of a current source, controlled by a current control terminal, to flow through the first and second power supply terminals of the delay unit. The delay circuit also includes a voltage controller that exercises control to provide for a constant potential difference between the first and the second power supply terminals ( | 06-23-2011 |
20110298556 | VOLTAGE SOURCE CIRCUIT FOR CRYSTAL OSCILLATION CIRCUIT - A voltage source circuit for a crystal oscillation circuit is provided, in which the voltage source circuit and the crystal oscillation circuit are formed with the same process. The voltage source circuit includes a current source, a first PMOS, a first NMOS and a regulator unit. The current source is coupled between a voltage source and an output terminal, in which the output terminal outputs a reference voltage. Both of the gates and drains of the first PMOS and the NMOS are coupled to each other, and the first PMOS and the first NMOS are coupled between the output terminal and a ground. The regulator unit generates a work voltage to the crystal oscillation circuit as a voltage source of the crystal oscillation circuit according to the reference voltage. | 12-08-2011 |
20120056687 | VOLTAGE CONTROL OSCILLATOR - A voltage control oscillator implemented in an integrated circuit includes a supply circuit and an oscillating circuit. The supply circuit, implemented with an input/output (I/O) interface element, receives an I/O reference voltage signal and provides a power signal accordingly. The oscillating circuit, implemented with a core circuit element, provides an oscillation signal in response to the power signal. A swing of the oscillation signal is determined according to a level of an I/O reference voltage signal. | 03-08-2012 |
20120268222 | ADAPTIVE CURRENT LIMIT OSCILLATOR STARTER - A power-oscillator-starting circuit for an electronic high frequency induction-heater driver. The induction-heater driver, upon receipt of a turn-on signal, generates a high frequency alternating current, wherein the alternating current through an induction-heater coil is magnetically coupled to an appropriate loss component for a variable-spray fuel-injection system. The induction-heater driver uses a power oscillator that is started and restarted as is appropriate based on a threshold current limit referenced to the supply voltage of the induction-heater driver. | 10-25-2012 |
20130027150 | FAST START UP, ULTRA-LOW POWER BIAS GENERATOR FOR FAST WAKE UP OSCILLATORS - Various embodiments relate to a bias generator including: a bias generator circuit; a master startup circuit that applies current to a first node in the bias generator circuit; a second startup circuit that applies current to additional nodes in the bias generator circuit; and a power switch that receives a power from a power supply and that provides power to the bias generator circuit, the master startup circuit, and the second startup circuit. | 01-31-2013 |
20140062610 | OSCILLATION CIRCUIT, REAL-TIME CLOCK, AND INFORMATION PROCESSING DEVICE - According to one embodiment, a switching unit switches between a first state in which the current source is connected to a first capacitance element and a ground electric potential is connected to a second capacitance element and a second state in which a current source is connected to the second capacitance element and the ground electric potential is connected to the first capacitance element. A comparison unit compares a voltage charged in the first capacitance element and a reference voltage with each other in the first state and compares a voltage charged in the second capacitance element and the reference voltage with each other in the second state. A generation unit generates a periodical pulse based on a comparison result acquired by the comparison unit. The switching unit alternately switches between the first state and the second state based on the comparison result acquired by the comparison unit. | 03-06-2014 |
20140077892 | DC Power Supply Circuit, Oscillator Circuit and Method for Generating a DC Power Supply Signal - A DC power supply circuit comprises an output configured to provide a power supply signal to an RF element for generating an RF output signal. Furthermore, the DC power supply circuit comprises an input configured to receive the RF output signal. The DC power supply circuit is configured to generate the DC power supply signal based on the received RF output signal. | 03-20-2014 |
20140176251 | MEMS MASS BIAS TO TRACK CHANGES IN BIAS CONDITIONS AND REDUCE EFFECTS OF FLICKER NOISE - A technique for tracking changes in bias conditions of a microelectromechanical system (MEMS) device includes applying an electrode bias signal to an electrode of the MEMS device. The technique includes applying a mass bias signal to a mass of the MEMS device suspended from a substrate of the MEMS device. The technique includes generating the mass bias signal based on a target mass-to-electrode bias signal level and a signal level of the electrode bias signal. | 06-26-2014 |