Patent application number | Description | Published |
20130207700 | Electrical Circuit Having a Controllable Oscillator - An electrical circuit including a controllable oscillator, a transmission line and a control loop. The controllable oscillator is configured to generate an oscillating signal. The transmission line is connected to an output of the oscillator, wherein the transmission line has a length which is a fraction of a wavelength of the oscillating signal. The control loop is configured to detect a difference between a first value of a signal parameter of the oscillating signal and a second value of the signal parameter of the oscillating signal having passed the transmission line. Furthermore, the control loop is configured to control the controllable oscillator in accordance with the difference. | 08-15-2013 |
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 |
20140273825 | Semiconductor Chip Configuration with a Coupler - A semiconductor device comprises a semiconductor substrate, a primary coil, and a secondary coil. The primary coil of a coupler is disposed over the semiconductor substrate and the secondary coil of the coupler is disposed over the semiconductor substrate adjacent to the primary coil. The primary coil includes a first end coupled to a first contact terminal, a second end coupled to a second contact terminal, and a first center tap coupled to a reference node. | 09-18-2014 |
20150015431 | System and Method for a Radio Frequency System - In accordance with an embodiment, a method includes producing a baseband variable frequency signal and producing a substantially fixed frequency signal by phase-locking an oscillator to a substantially fixed reference frequency. The method further includes upconverting the baseband variable frequency signal by mixing the variable frequency signal with the substantially fixed frequency signal to produce an RF variable frequency signal. | 01-15-2015 |
20150091663 | System and Method for a Voltage Controlled Oscillator - In accordance with an embodiment, a voltage controlled oscillator (VCO) includes a VCO core having a plurality of transistors, a bias resistor coupled between collector terminals of the VCO core and a first supply node, and a varactor circuit coupled to emitter terminals of the VCO core. The bias resistor is configured to limit a self-bias condition of the VCO core. | 04-02-2015 |
20150117862 | System and Method for a Millimeter Wave Circuit Board - According to an embodiment, a circuit board includes a signal line including at least portion of a first conductive layer that has a first portion extending over a cavity in the circuit board from a first side of the cavity. The circuit board also includes a first plurality of conductive vias surrounding the cavity and the first plurality of vias include at least one blind via disposed adjacent to the first side of the cavity. | 04-30-2015 |
20150305190 | Electronic System - An electronic system includes a carrier including at least one waveguide feeding, a semiconductor chip including a first surface and a second surface, and an integrated RF circuit, and a cooling element including a backshort. The semiconductor chip is mounted to the carrier such that the first surface faces the carrier. The integrated RF circuit is connected to the at least one waveguide feeding. The cooling element is mounted to the carrier such that the backshort is adjacent one end of the at least one waveguide feeding, and the cooling element at least partially covers the semiconductor chip such that the second surface of the semiconductor chip faces the cooling element. | 10-22-2015 |
Patent application number | Description | Published |
20110032045 | OSCILLATOR CIRCUIT - The invention relates to an oscillator circuit comprising: a VCO core having an output terminal for providing an oscillatory output signal thereat and having a supply terminal for receiving a supply voltage from a voltage supply, a subsequent circuit coupled to the VCO core's output terminal and having a supply terminal for receiving a supply voltage from the voltage supply. According to the invention, a decoupling member is arranged between the VCO core's supply terminal and the subsequent circuit's supply terminal for preventing high-frequency signals generated by the subsequent circuit at its supply terminal from entering the VCO core. The decoupling member may comprise a transmission line the length of which is one quarter wavelength associated with a second-harmonic oscillation. | 02-10-2011 |
20110124309 | HETERODYNE RECEIVER - A down-conversion module for a heterodyne receiver comprises a first mixer circuit, a second mixer circuit and an interconnection. The first mixer circuit includes first and second differential control terminals and is arranged to produce a first down-converted differential voltage signal at a first down-converted frequency as a function of a first RF differential input signal applied to the first differential control terminals and of a first RF differential reference frequency signal applied to the second differential control terminals. The second mixer circuit includes two differential pairs of second amplifier elements and the second amplifier elements comprise second differential control terminals and cross-connected pairs of second amplifier output paths for producing a second down-converted differential voltage signal at a second down-converted frequency as a function of the first down-converted differential voltage signal and of a second RF differential reference frequency signal applied to the second differential control terminals. The interconnection includes transmission line elements and is arranged to apply a differential current signal which is a function of the first down-converted differential voltage signal to differential input terminals of the second mixer circuit common to respective pairs of the second amplifier elements. | 05-26-2011 |
20110215844 | FREQUENCY MULTIPLIER CIRCUIT - A frequency multiplier circuit, comprising a first stage including a first differential pair of amplifier elements having respective current conduction paths connected in parallel between first and second nodes and respective control terminals connected to receive input signals of opposite polarity at an input frequency in the radio frequency range, the first and second nodes being connected to respective bias voltage supply terminals through first and second impedances respectively so that current flowing differentially in the current conduction paths of the first differential pair of amplifier elements produces a voltage difference across the first and second nodes at a frequency which contains a harmonic of the input frequency, and a second stage including a second differential pair of amplifier elements coupled at the harmonic of the input frequency with the first and second nodes to amplify differentially the voltage difference and produce an output signal at the harmonic of the input frequency. Radio frequency connections apply the voltage difference across the first and second nodes at the frequency of the harmonic to the second differential pair of amplifier elements and block direct current, and separate direct current connections connect respectively the first differential pair of amplifier elements and the second differential pair of amplifier elements across the bias voltage supply terminals. | 09-08-2011 |
20110267147 | OSCILLATOR CIRCUIT - An oscillator circuit comprises a push-push oscillator and a differential output, comprising a first and a second output circuit. The push-push oscillator has a first and a second branch. Each of the first and second branch comprises an own voltage divider branch of a common bridge circuit. Each of the first and second voltage divider branches comprises an own pair of micro-strip lines connected in series. Each of the first and second voltage divider branches has an own tap. Both taps are connected to each other by at least one of a first capacity and a micro-strip line. The differential output comprises a first and a second output terminal. The first output terminal is connected via the first output circuit to a first node. The second output terminal is connected via the second output circuit to a second node. Each of the first and second nodes of the push-push oscillator is a common node of both of the first and the second branches. | 11-03-2011 |
20120112956 | INTEGRATED CIRCUIT, TRANSCEIVER AND METHOD FOR LEAKAGE CANCELLATION IN A RECEIVE PATH - An integrated circuit for cancelling a radio frequency transmit leakage signal comprises: a transmitter portion comprising at least one amplifier stage for transmitting a radio frequency signal to an antenna port; and a first coupler arranged to operably couple the transmitter portion, the antenna port and a receiver portion. The receiver portion is arranged to receive a first composite signal that comprises a received radio frequency signal from the antenna port and the transmit leakage signal. The receiver portion comprises: a first down-conversion circuit arranged to receive the first composite signal and a local oscillator signal such that the first down-conversion circuit outputs a down-converted composite signal at a first intermediate frequency signal; and a second coupler arranged to receive the down-converted first composite signal at the first intermediate frequency signal and a phase shifted version of the local oscillator signal such that the phase shifted version of the local oscillator signal is arranged to cancel at least a portion of the transmit leakage signal from the down-converted first composite signal. | 05-10-2012 |
20130127502 | LATCH CIRCUIT, FLIP-FLOP CIRCUIT AND FREQUENCY DIVIDER - The invention pertains to a latch circuit comprising a sensing arrangement with one or more sensing transistors adapted to sense an input signal and to provide a first signal based on the sensed input signal, and a sensing arrangement switch device connected or connectable to a first current source, the sensing arrangement switch device being adapted to switch on or off a current to the one or more sensing transistors based on a first clock signal. The latch circuit further comprises a storage arrangement with one or more storage transistors adapted to store the first signal and to provide a second signal based on the first signal, and a storage arrangement switching device connected or connectable to the first current source or a second current source, the storage arrangement switching device being adapted to switch on or off a current to the storage transistors based on a second clock signal, as well as a tuning arrangement connected or connectable to a temperature sensor, the tuning arrangement being adapted to bias a current of the sensing arrangement and/or the storage arrangement based on a temperature signal provided by the temperature sensor. The invention also pertains to a flip-flop circuit with two or more latch circuits and a frequency divider comprising at least one latch circuit as described. | 05-23-2013 |
20130141175 | PUSH-PUSH OSCILLATOR CIRCUIT - A push-push oscillator circuit with a first oscillation branch with a first active device and a first tank adapted to provide a signal having a fundamental frequency f | 06-06-2013 |
20130288622 | TRANSMITTER AND METHOD OF OPERATING A TRANSMITTER - A transmitter is provided that comprises an oscillator, a power amplifier, and a heating element. The power amplifier generates a high power signal according to the low power signal. The transmitter may be operated such that a heat production rate of the group consisting of the power amplifier and the heating element is substantially constant. The heating element may be a dummy power amplifier. A method of operating a transmitter is also disclosed. | 10-31-2013 |
20130293411 | PHASED-ARRAY RECEIVER, RADAR SYSTEM AND VEHICLE - A phased-array receiver comprises a plurality of analog beamforming receive channels, each comprising an antenna element arranged to receive a radio frequency signal and a channel output arranged to provide an analog channel output signal. At least one of the plurality of analog beamforming receive channels comprises an in-phase downconversion mixing circuit connected to the antenna element and a local oscillator source and arranged to provide a downconverted in-phase signal to a phase rotation circuit, and a quadrature downconversion mixing circuit connected to the antenna element and the local oscillator source and arranged to provide a downconverted quadrature signal to the phase rotation circuit. The phase rotation circuit is arranged to provide to the channel output a phase-shifted analog output signal generated from the downconverted in-phase signal and the downconverted quadrature signal. | 11-07-2013 |
20140035780 | ANTENNA DEVICE, AMPLIFIER AND RECEIVER CIRCUIT, AND RADAR CIRCUIT - An antenna device comprises a first chain of at least two antenna components, wherein each of the antenna components comprises a transmit antenna having a line of antenna patches for emitting radar waves; and a receive antenna having a line of antenna patches for receiving radar response waves; wherein the line of antenna patches of the receive antenna is aligned with the line of antenna patches of the transmit antenna. An amplifier and receiver circuit for amplifying radar signals and for receiving radar re-sponse signals, the amplifier and receiver circuit comprises a phase shifter for shifting a phase of the radar signals to be amplified and for synchronously shifting the received radar response signals. A radar circuit comprises a first chain of at least two radar components, wherein each of the radar components comprises: an amplifier and receiver circuit as described above; and a transmit antenna for emitting radar waves; and a receive antenna for re-ceiving radar response waves. | 02-06-2014 |
20140191377 | INTEGRATED CIRCUIT PACKAGE - An integrated circuit package comprising a substrate and at least one semiconductor die is described. A connection unit may provide electrical connections between the substrate and the semiconductor die. The connection unit may comprise a stack of conduction layers and isolation layers stacked atop each other. The stack may include a microstrip line or a coplanar waveguide. The microstrip line or the coplanar waveguide may be part of a balun, a power divider, or a directional coupler. | 07-10-2014 |
20140232589 | RECEIVER CIRCUIT, PHASED-ARRAY RECEIVER AND RADAR SYSTEM - A receiver circuit, comprises an input balun circuit comprising a balanced balun output and being capable of receiving RF signals, an input amplification circuit comprising a balanced amplifier input and a balanced amplifier output, a single balanced in-phase mixing circuit comprising a first unbalanced RF mixer input and a balanced in-phase mixing frequency input, and a single balanced quadrature mixing circuit comprising a second unbalanced RF mixer input and a balanced quadrature mixing frequency input. The balanced amplifier input is connected to the balanced balun output, a first terminal of the balanced amplifier output is connected to provide an amplified RF signal to the first unbalanced RF mixer input and a second terminal of the balanced amplifier output is connected to provide a phase-shifted amplified RF signal to the second unbalanced RF mixer input. | 08-21-2014 |
20150009747 | PHASE SWITCHABLE BISTABLE MEMORY DEVICE, A FREQUENCY DIVIDER AND A RADIO FREQUENCY TRANSCEIVER - A phase switchable bistable memory device comprising a bistable memory component and a phase switching component is described. The bistable memory component comprises a bistable memory stage arranged to receive an input signal and a state transition stage arranged to receive a state transition signal and to cause the bistable memory stage to capture a logical state of the received input signal upon a transition from a first logical state of the state transition signal to a second logical state of the state transition signal. The phase switching component is arranged to receive a clock input signal and a phase control signal, and to output the state transition signal comprising transitions between logical states corresponding to transitions between logical states of the clock input signal and comprising a phase relative to the clock input signal based at least partly on the received phase control signal. | 01-08-2015 |
20150065071 | MIXING STAGE, MODULATOR CIRCUIT AND A CURRENT CONTROL CIRCUIT - A mixing stage includes a first modulation stage that receives an input signal from a first common node of the mixing stage, a first local oscillator input that receives a local oscillator signal, and a first modulation signal output adapted to provide a first modulated signal. A second modulation stage of the mixing stage includes a second input that receives a phase inverted representation of the input signal from a second common node of the mixing stage, a second local oscillator input that receives the local oscillator signal, and a second modulation signal output adapted to provide a second modulated signal. A current generation circuit provides a supply current to the first common node and to the second common node. A current control circuit is adapted to superimpose an offset current to the current of at least one node of the first common node and the second common node. | 03-05-2015 |
20150077163 | DYNAMIC FREQUENCY DIVIDER CIRCUIT - The invention relates to a Frequency Divider Circuit for dividing an input RF signal to a frequency divided RF signal. The circuit comprises a RF pair, a switching-quad pair coupled in series with a transimpedance amplifier and a double pair of emitter followers. The circuit comprises coupling elements for providing first DC paths to first amplifier paths of the RF pair and for providing second DC paths to second amplifier paths of the series arrangement of the switching-quad pair and the transimpedance amplifier. The first DC paths are independent of the second DC paths. RF connections are provided to couple the first and the second amplifier paths for transferring a signal from the first amplifier paths to the second amplifier paths. | 03-19-2015 |
20150249474 | MIXING STAGE, MODULATOR CIRCUIT AND A CURRENT CONTROL CIRCUIT - A mixing stage includes a first modulation stage that receives an input signal from a first common node of the mixing stage, a first local oscillator input that receives a local oscillator signal, and a first modulation signal output adapted to provide a first modulated signal. A second modulation stage of the mixing stage includes a second input that receives a phase inverted representation of the input signal from a second common node of the mixing stage, a second local oscillator input that receives the local oscillator signal, and a second modulation signal output adapted to provide a second modulated signal. A current generation circuit provides a supply current to the first common node and to the second common node. A current control circuit is adapted to superimpose an offset current to the current of at least one node of the first common node and the second common node. | 09-03-2015 |