| Entries |
| Document | Title | Date |
|---|
| 20090002092 | Microwave Power Splitter/Combiner - A microwave, power splitter/combiner ( | 01-01-2009 |
| 20090066442 | Base Unit And Device For The Transfer Of Electromagnetic Fields - A metamaterial is proposed which is composed of base elements having six ports with two ports, respectively. The base element further comprises four nodes connected with a central point via inductors, to which nodes the ports are connected via capacitors. | 03-12-2009 |
| 20090153262 | Repeater of global input/output line - A repeater of a global input/output line includes a data transmitter including first and second drivers for outputting data signals of the global input/output line through different transmission routes in response to a transmission direction control signal, and a third driver for driving the global input/output line in response to an output signal of the data transmitter. | 06-18-2009 |
| 20090174497 | Electrical Module - An electrical module with a first substrate, and a component mounted on the first substrate is specified. The component includes a second substrate and a chip arranged on the second substrate. In the module, a filter circuit is realized that includes shunt arms connected to ground each with at least one parallel resonator. The parallel resonators are arranged on the chip. The ground-side connection of at least two of the shunt arms to each other is realized outside the chip and the second substrate. The ground-side connection of the shunt arms is advantageously realized in the first substrate or on a circuit board on which the first substrate is arranged. | 07-09-2009 |
| 20090212882 | TRANSMIT/RECEIVE UNIT, AND METHODS AND APPARATUS FOR TRANSMITTING SIGNALS BETWEEN TRANSMIT/RECEIVE UNITS - In one embodiment, apparatus for transmitting and receiving data includes a transmission line network having at least three input/output terminals; at least three transmit/receive units, respectively coupled to the at least three input/output terminals; and a control system. The control system is configured to, depending on a desired direction of data flow over the transmission line network, i) dynamically place each of the transmit/receive units in a transmit mode or a receive mode, and ii) dynamically enable and disable an active termination of each transmit/receive unit. Methods for using this and other related apparatus to transmit and receive data over a transmission line network are also disclosed. | 08-27-2009 |
| 20090243751 | Splitter with a printed element - According to one exemplary embodiment, a three-way splitter includes a printed element and a resistive network comprising discrete resistors. A first printed branch, second printed branch, and third printed branch distribute a received communication signal to respective outputs having substantially the same phase, frequency, and impedance. Each printed branch includes a number of substantially ninety-degree angles. In one embodiment, the printed branches are quarter wavelength transmission lines in a frequency range of 1.5 GHz. In one embodiment, the three-way splitter consumes less than one square inch of surface area on a printed circuit board, and can be used in a satellite receiving system, for example. In this embodiment, the three-way splitter is utilized for frequencies in the range of approximately 900 MHz to 2.2 GHz. | 10-01-2009 |
| 20100026414 | FILTER, DUPLEXER, AND COMMUNICATION APPARATUS - A filter includes: a first filter unit includes: a series resonators connected in series to each other between a first input terminal and a first output terminal; a parallel resonators each having one end connected to one terminal of each of the series resonators; and a common inductance having one end connected to the other ends of the parallel resonators and the other end connected to a ground terminal, and a second filter unit includes: a series resonators connected in series to each other between a second input terminal and a second output terminal; a parallel resonators each having one end connected to one terminal of each of the series resonators; and a common inductance having one end connected to the other ends of the parallel resonators and the other end connected to the ground terminal. | 02-04-2010 |
| 20100033263 | FLAT TRANSMISSION WIRE AND FABRICATING METHODS THEREOF - A flat transmission wire is provided which includes a first insulating or dielectric film, a transmission layer formed on at least one surface of the first insulating or dielectric film so as to transmit electrical signals therethrough, a second insulating or dielectric film formed on one surface of the transmission layer, and a functional layer formed on one surface of the second insulating or dielectric film. Further provided are methods for fabricating flat transmission wires which enable the formation of uniform and fine transmission line patterns, and are environmental friendly, as compared to deposition-based methods. | 02-11-2010 |
| 20100066463 | Antenna Feed Device - An antenna feed device ( | 03-18-2010 |
| 20100188162 | WIDEBAND DIVIDER - Disclosed is a power divider including a first amplifier, a second amplifier, and an isolation circuit. The first amplifier includes a first capacitor with one end thereof connected to an input terminal, a first FET having a gate terminal connected to the other end of the first capacitor, a first feedback circuit connected between a drain terminal of the first FET and the one end of the first capacitor, a first source circuit connected between a source terminal of the first FET and the ground, and a second capacitor connected between the drain terminal of the first FET and a first output terminal. The second amplifier includes a third capacitor with one end thereof connected to the input terminal, a second FET having a gate terminal connected to the other end of the third capacitor, a second feedback circuit connected between a drain terminal of the second FET and the one end of the third capacitor, a second source circuit connected between a source terminal of the second FET and the ground, and a fourth capacitor connected between the drain terminal of the second LET and a second output terminal. The isolation circuit is connected between a source of the first FET and a source of the second FET. | 07-29-2010 |
| 20100194488 | Receiving side filter of duplexer and duplexer - To provide a receiving side filter of a duplexer and a duplexer capable of preventing a leakage of an electric field and a magnetic field to the outside. In a receiving side filter having a longitudinal mode resonator type filter including cross finger electrodes and reflectors respectively formed on a piezoelectric substrate and an unbalanced input signal path and balanced output ports respectively provided on an input side and on an output side of the longitudinal mode resonator type filter, and used on a receiving side of a duplexer, a shield electrode connected to a ground electrode side of the cross finger electrode is disposed to surround a periphery of the receiving side filter so that an electric field and a magnetic field leaked to the outside from the receiving side filter are short-circuited by the shield electrode. | 08-05-2010 |
| 20100225412 | Signal Splitter - A signal splitter comprising an input and a plurality of outputs is provided, wherein alternate outputs are connected to phase shifting devices. The phase shifting devices preferably comprise phase shifting transformers and introduce a phase shift of 180°, so that noise components of alternate outputs are antiphase and cancel one another out almost entirely when the signals are summed. Also provided is a cable television network comprising a plurality of such signal splitters to ensure that noise ingress in upstream signals passing into the network is substantially reduced. | 09-09-2010 |
| 20100244979 | DUPLEXER, SUBSTRATE FOR DUPLEXER, AND ELECTRONIC APPARATUS - A duplexer includes a transmit filter connected between a common terminal and a transmission terminal, a receive filter connected between the common terminal and a reception terminal, a capacitor connected in parallel with one of the transmit filter and the receive filter and provided between two terminals of the common terminal, the transmission terminal, and the reception terminal, and a package. The package includes an insulating layer, foot pads that include the common terminal, the transmission terminal and the reception terminal and are formed on one surface of the insulating layer, and interconnections formed on another surface opposite to the one surface of the insulating layer. The capacitor is composed of two capacitor forming units that are connected in parallel with each other and are formed with at least one foot pad of the foot pads and two of the interconnections that overlap with two opposing sides of the at least one food pad respectively. | 09-30-2010 |
| 20110095841 | PHASE SHIFTER - A phase shifter, more particularly relates to a phase shifter for controlling phase velocity by using stubs is disclosed. The phase shifter includes a first line configured to deliver a power into corresponding radiation elements, the first line being a conductor, and a second line configured to deliver the power into corresponding radiation elements, the second line being a conductor. Here, a first phase velocity of a first signal propagated through the first line is different from a second phase velocity of a second signal propagated through the second line. | 04-28-2011 |
| 20110102099 | PHASE SHIFTER USING BULK ACOUSTIC WAVE RESONATOR - A phase shifter using a Bulk Acoustic Wave Resonators (BAWR) is provided. The phase shifter using a BAWR may use a property of a phase shift with respect to a frequency of the BAWR, and also use at least one capacitor, at least one inductor, and the like. | 05-05-2011 |
| 20110140802 | Electrical Coupler and Communication Apparatus Comprising Such an Electrical Coupler - Device comprising a first input configured to receive a first input signal of given wavelength, several distinct pairs of outputs, the two outputs of each pair of outputs being configured to deliver a differential output signal, and an electrically conducting transmission means forming a closed circuit and coupled between the first input and the outputs, at least one length of the portion of the transmission means, coupled between two outputs of a pair of outputs, being substantially equal to an even multiple of a quarter of the said wavelength, the lengths of those portions of the transmission means which couple two homologous outputs of two pairs of outputs being substantially equal, and at least one length of the portion of the transmission means, coupled between the first input and the output closest to the said first input, being substantially equal to a quarter of the said wavelength. | 06-16-2011 |
| 20110260805 | DUAL-TRACK SURFACE-WAVE FILTER - The present invention relates to an integrated dual-track surface-wave filter comprising two input interdigital transducers, an output interdigital transducer, and a shield stripe therebetween, which are integrated on a piezoelectric wafer. The integrated dual-track surface-wave filter is characterized in that the two input interdigital transducers share one output interdigital transducer and one comb-like electrode that has a bus bar arranged at the middle thereof, and in that main lobe regions of apodized envelope curves on the two parallel input interdigital transducers are staggered to be at cross overlapping positions, and in that the bus bar on the common comb-like electrode is segmented to connect respective fingers on the two input interdigital transducers. In this manner, the present invention effectively narrows the chip area occupied, consumes less substrate materials and decreases the volume of the encapsulated enclosure, thereby reducing the manufacture cost effectively. | 10-27-2011 |
| 20110291769 | Method for Matching Timing on High Fanout Signal Paths Using Routing Guides - A method, algorithm, software, architecture and/or system for routing signal paths or connections between circuit blocks in a circuit design is disclosed. In one embodiment, a method of routing can include: (i) determining a signal path between at least three circuit blocks; (ii) placing a routing guide; and (iii) routing the signal path through the routing guide such that a timing of a signal along the signal path at two or more the circuit blocks is substantially matched. The circuit blocks can include standard cells configured to implement a logic or timing function, other components, and/or integrated circuits, for example. The routing guide can include a splitter configured to branch the signal path into at least two associated segments. Embodiments of the present invention can advantageously improve signal timing for high fanout signal paths between circuit blocks in an automated place-and-route flow. | 12-01-2011 |
| 20120025926 | MIXER AND FREQUENCY CONVERTING APPARATUS - A mixer includes an adder that inputs a first high-frequency signal and a second high-frequency signal for local use, adds the first high-frequency signal and the second high-frequency signal, and outputs as an addition signal; a magnetoresistive effect element that includes a fixed magnetic layer, a free magnetic layer, and a non-magnetic spacer layer disposed between the fixed magnetic layer and the free magnetic layer, and is operable when the addition signal has been inputted, to multiply the first high-frequency signal and the second high-frequency signal included in the addition signal using a magnetoresistive effect to generate a multiplication signal; a magnetic field applying unit applying a magnetic field to the free magnetic layer; and a first impedance converting unit that is passive, inputs the multiplication signal outputted from the magnetoresistive effect element, converts the multiplication signal to a lower impedance than an input impedance, and outputs the converted signal. | 02-02-2012 |
| 20120092088 | RADIO COMMUNICATION APPARATUS - A large scale integrated (LSI) circuit includes a first terminal, a second terminal, a transmitting circuit coupled to the first terminal and the second terminal, and a receiving circuit coupled to the first terminal and the second terminal. The first and second terminals are coupled to an external portion of the large scale integrated circuit. The external portion includes a first branching circuit, a second branching circuit coupled to the first branching circuit, and first and second antennas coupled to the second branching circuit. | 04-19-2012 |
| 20120139659 | COMPOSITE RIGHT/LEFT (CRLH) COUPLERS - High-frequency couplers and coupling techniques are described utilizing artificial composite right/left-handed transmission line (CRLH-TL). Three specific forms of couplers are described; (1) a coupled-line backward coupler is described with arbitrary tight/loose coupling and broad bandwidth; (2) a compact enhanced-bandwidth hybrid ring coupler is described with increased bandwidth and decreased size; and (3) a dual-band branch-line coupler that is not limited to a harmonic relation between the bands. These variations are preferably implemented in a microstrip fabrication process and may use lumped-element components. The couplers and coupling techniques are directed at increasing the utility while decreasing the size of high-frequency couplers, and are suitable for use with separate coupler or couplers integrated within integrated devices. | 06-07-2012 |
| 20120182084 | POWER SYNTHESIS CIRCUIT FOR RADIO FREQUENCY POWER AMPLIFIER - A power synthesis circuit for a radio frequency (RF) power amplifier comprises a first matching network and a second matching network, which are connected with two-band signal output ports of the RF power amplifier respectively, and signal coupling circuits which are connected with two-band signal receiving ports respectively. The first matching network and the second matching network are connected with an antenna circuit via a duplexer, and are grounded via an inductor and a switch element which is connected in parallel to the inductor respectively. The leakage of signal among different channels is prevented. The transmission quality of the RF signal is improved. The cost of the power amplifier is reduced and the structure of the power amplifier is simplified. | 07-19-2012 |
| 20120194292 | HIGH AND LOW SPEED SERIAL INTERFACE MULTIPLEXING CIRCUIT - A high and low speed serial interface multiplexing circuit includes a low speed transceiver, a high speed transceiver, an inductor coupled to a communication interface port of the low speed transceiver, a capacitor coupled to a communication interface port of the high speed transceiver, and a transformer coupled to the communication interface port of the high speed transceiver. | 08-02-2012 |
| 20120212302 | HIGH-FREQUENCY SIGNAL COMBINER - A high-frequency signal combiner includes a first input terminal for the connection of a first high-frequency signal, a second input terminal for the connection of a second high-frequency signal, an output terminal for the output of the third high-frequency signal combined from the first and the second high-frequency signal. A first coaxial line extends between the first input terminal and the output terminal. A second coaxial line extends between the second input terminal and the output terminal. Furthermore, an annular core is provided, through the recess of which the first and second coaxial line are guided each in a different direction. The annular core is manufactured from an axially wound strip which includes a first layer made of a magnetizable material and a second layer made of an insulating material. | 08-23-2012 |
| 20120242422 | MAGNETIC RESONANCE ISOLATOR - A magnetic resonance isolator includes a ferrite member, a junction conductor that is arranged on the ferrite member and that includes a first port, a second port, and a third port, a permanent magnet that applies a direct current magnetic field to the ferrite member, a capacitor as a reactance element, and a mounting substrate. A main line arranged between the first port and the second port does not resonate, and an end of a sub-line branching from the main line defines the third port. The capacitor is connected to the third port and to the ground. The phase of a wave reflected from the sub-line is adjusted so as to be shifted by about 90 degrees at the intersection of the junction conductor. | 09-27-2012 |
| 20120274413 | MONOLITHIC POWER SPLITTER FOR DIFFERENITAL SIGNAL - A monolithic power splitter is used to split a pair of input differential signals into two pairs of output differential signals in the present invention. The monolithic power splitter has two input terminals to receive a pair of input differential signals, and it has two one-by-two power splitters integrated in one single chip to split a pair of input differential signals into two pairs of output differential signals with equal power. And, the monolithic power splitter has four output terminals to output two pairs of output differential signals. In one embodiment, the first one-by-two power splitter and the second one-by-two power splitter are made on the same surface of the substrate. In another embodiment, the first one-by-two power splitter and the second one-by-two power splitter are made on opposite surfaces of the substrate. The monolithic power splitter can be used as a power combiner based on the reciprocal property of the power splitter circuit. | 11-01-2012 |
| 20130069738 | IMBALANCE COMPENSATOR FOR CORRECTING MISMATCH BETWEEN IN-PHASE BRANCH AND QUADRATURE BRANCH, AND RELATED IMBALANCE COMPENSATION METHOD AND DIRECT CONVERSION RECEIVING APPARATUS THEREOF - An imbalance compensator includes a phase/filter mismatch correction circuit and a gain mismatch correction circuit. The phase/filter mismatch correction circuit includes an adjustable filter and a processing unit. The adjustable filter is arranged for adjusting a filter coefficient setting according to a first input signal of a first signal branch and a second input signal of a second signal branch, and generating a first compensated signal to the first signal branch according to the filter coefficient setting and the first input signal. The processing unit is arranged for processing the second input signal according to the first compensated signal and generating a second compensated signal to the second signal branch. The gain mismatch correction circuit is arranged for referring to the first and second compensated signals to configure gain compensation, and applying the configured gain compensation to one of the first and second compensated signals. | 03-21-2013 |
| 20130342281 | RADIO FREQUENCY SIGNAL SPLITTER - Disclosed is a signal splitter that includes a coupled transmission line element coupled between two output ports of the signal splitter. The coupled transmission line element is used to lower the isolation between the two output ports for a particular frequency band. The coupled transmission line element includes a first and a second elongate electrical conductor. The first and the second elongate electrical conductor first ends are coupled to the signal transmission path that connects the two output ports. The first and the second elongate electrical conductor second ends are un-terminated. The first elongate electrical conductor and the second elongate electrical conductor are not shorted together, and the first elongate electrical conductor and the second elongate electrical conductor are electrostatically coupled, such as by twisting them together into a helix. | 12-26-2013 |
| 20140049336 | SIGNAL SPLITTER - Signals sent between a first device and a second device are split. A first user adjustable input signal equalization and gain compensates for losses to signals from the first device before the compensated signals are forwarded to the second device, a first analytic instrument and a second analytic instrument. A second user adjustable input signal equalization and gain compensates for losses to signals from the second device before the first compensated signals are forwarded to the first device, the first analytic instrument and the second analytic instrument. | 02-20-2014 |
| 20140253259 | IMPEDANCE COMPENSATION CIRCUIT - The present invention provides an adjustable radio frequency (“RF”) impedance method. Embodiments of the invention provide voltage adjustable RF impedance termination methods. | 09-11-2014 |
| 20140300431 | Broadband non-Foster Decoupling Networks for Superdirective Antenna Arrays - A four port antenna decoupling network which has only two negative capacitors and four or more positive capacitors and a method of improving low frequency receiving performance of two element and four element antenna arrays using one or more wideband decoupling circuits wherein each of said wideband decoupling circuits contain a maximum of two non-Foster components, the two non-Foster components preferably simulating negative capacitors. | 10-09-2014 |
| 20140347144 | SYSTEMS AND METHODS FOR MANUFACTURING PASSIVE WAVEGUIDE COMPONENTS - Various embodiments are directed toward systems and method for manufacturing low cost passive waveguide components. For example, various embodiments relate to low cost manufacturing of passive waveguide components, including without limitation, waveguide filters, waveguide diplexers, waveguide multiplexers, waveguide bends, waveguide transitions, waveguide spacers, and antenna adapters. Some embodiments comprise manufacturing a passive waveguide component by creating a non-conductive structure using a low cost fabrication technology, such as injection molding or three-dimensional (3D) printing, and then forming a conductive layer over the non-conductive structure such that the conductive layer creates an electrical feature of the passive waveguide component. | 11-27-2014 |
| 20150048897 | MONOLITHIC POWER SPLITTER FOR DIFFERENITAL SIGNAL - A monolithic power splitter is used to split a pair of input differential signals into two pairs of output differential signals in the present invention. The monolithic power splitter has two input terminals to receive a pair of input differential signals, and it has two one-by-two power splitters integrated in one single chip to split a pair of input differential signals into two pairs of output differential signals with equal power. And, the monolithic power splitter has four output terminals to output two pairs of output differential signals. In one embodiment, the first one-by-two power splitter and the second one-by-two power splitter are made on the same surface of the substrate. In another embodiment, the first one-by-two power splitter and the second one-by-two power splitter are made on opposite surfaces of the substrate. The monolithic power splitter can be used as a power combiner based on the reciprocal property of the power splitter circuit. | 02-19-2015 |
| 20150130555 | RADIO FREQUENCY SUBSCRIBER DROP UNITS HAVING PRINTED CIRCUIT BOARDS WITH GROUND PLANE LAYERS AND/OR HOUSINGS WITH GROUND WALLS - Radio frequency subscriber drop units include a housing having an input port and an output port and a printed circuit board mounted in an interior of the housing. The printed circuit board includes a dielectric layer, a wiring layer that includes conductive wirings that comprise at least part of a communications path between the input port and the output port that is on a first face of the dielectric layer, and a ground plane layer that includes a conductive ground plane that is on a second face of the dielectric layer. | 05-14-2015 |
| 20160065175 | SURFACE ACOUSTIC WAVE FILTER, SURFACE ACOUSTIC WAVE FILTER DEVICE, AND DUPLEXER - A surface acoustic wave filter includes a longitudinally coupled resonator first filter section and a longitudinally coupled resonator second filter section that is electrically connected to the first filter section in parallel or in series and that is provided next to the first filter section in a surface acoustic wave propagation direction. The first filter section includes a first interdigital transducer group arranged in the surface acoustic wave propagation direction. The second filter section includes a second interdigital transducer group arranged in the surface acoustic wave propagation direction. A reflector between the first interdigital transducer group and the second interdigital transducer group is an integrated shared reflector. A number of electrode fingers in reflecting units in the shared reflector is an odd number of no less than nine. | 03-03-2016 |
