| DELPHI DELCO ELECTRONICS EUROPE GMBH Patent applications |
| Patent application number | Title | Published |
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| 20110215978 | ANTENNA FOR RECEPTION OF CIRCULARLY POLARIZED SATELLITE RADIO SIGNALS - An antenna receiving circularly polarized satellite radio signals has a conductive base surface and a conductor loop oriented horizontally above the base. The loop is configured as a ring line radiator, incorporating a polygonal or circular closed ring line, in a horizontal plane above the conductive base surface. The conductor loop is electromagnetically excited by a device including an antenna connector. The ring line radiator forms a resonance structure that is electromagnetically excited, whereby the current distribution of a running line wave in a single rotation direction occurs on the ring line. At least one vertical radiator extends toward the conductive base surface and is disposed on the ring line radiator, wherein the vertical radiator is electromagnetically coupled both with the ring line radiator and the electrically conductive base surface, to support the vertically oriented component of the electromagnetic field. | 09-08-2011 |
| 20110193755 | ANTENNA ROD FOR A ROD ANTENNA FOR MULTIPLE RADIO SERVICES - An antenna rod for a rod antenna arrangement on a vehicle body, which serves as the ground of the rod antenna arrangement, for electromechanical connection with the electromechanical base connector of a low plastic base part. This base connector is affixed to the vehicle body which part contains the further antenna circuit that is connected to the electromechanical base connector. The antenna rod contains a plastic rod to which an antenna coil is applied. At the lower end of the plastic rod and parallel to its rod axis, an extended electrically conductive element is guided as a coupling conductor, for electromagnetic coupling to the antenna coil, with an overlap of multiple but at least two windings of the antenna coil. The coupling conductor is galvanically separated from the antenna coil by means of a low-loss insulator, to create capacitive coupling to the antenna coil. The coupling conductor, the low-loss insulator, and the antenna rod are connected with one another in mechanically firm manner. The coupling conductor is equipped, at its lower end, with an electromechanical connecting element, for connecting to the electromechanical base connector. | 08-11-2011 |
| 20100302112 | ANTENNA FOR CIRCULAR POLARIZATION, HAVING A CONDUCTIVE BASE SURFACE - An antenna for circular polarization having an electrical dipole radiator which is oriented essentially parallel to an electrically conductive base surface in a plane of symmetry SE oriented perpendicular to the electrically conductive base surface. The dipole is in connection with a slot radiator which is configured in an electrically conductive base surface, with its longitudinal expanse along the intersection line between the plane of symmetry SE and the electrically conductive base surface. The slot radiator connection location is formed by means of connection points situated at the longitudinal edges and lying opposite one another. The electrical dipole radiator and the slot radiator are tuned to one another in their resonance frequencies. The slot radiator and the electrical dipole radiator with dipole feed line are connected with the antenna connection location by way of a combining network, in terms of magnitude and phase, in such a manner that circular polarization exists in the remote field at the frequency at which the radiators are tuned to one another. | 12-02-2010 |
| 20100253587 | ANTENNA FOR RECEPTION OF SATELLITE RADIO SIGNALS EMITTED CIRCULARLY, IN A DIRECTION OF ROTATION OF THE POLARIZATION - An antenna for reception of satellite radio signals emitted circularly in the direction of rotation of polarization has a conductive base surface, an antenna connection point, an antenna element connection point and at least two antenna elements. The first antenna element is a loop antenna formed as a conductor loop disposed substantially parallel but spaced apart from the base surface. The loop antenna has a plurality of capacitors disposed along the conductor loop. The antenna connection point is coupled to at least one interruption of the loop antenna. This connection point is configured to feed a ring current into the loop antenna. There is also at least one additional antenna element extending between the antenna element connection point and the loop antenna. There is at least one antenna output connector linearly polarized in a spatial direction and a plurality of networks forming a matching network and a phase shifter network configured to connect the antenna elements to at least one antenna output connector. The antenna element connection point and the loop antenna are coupled to each other by the two networks. In reciprocal operation of the antenna, the radiation fields of the loop antenna and of the additional antenna element are superimposed with different phases in a far field of the antenna. The additional antenna element has a polarization orientated substantially perpendicular to the polarization of the loop antenna and an essentially orthogonal phase in the far field. | 10-07-2010 |
| 20100183095 | RECEPTION SYSTEM FOR SUMMATION OF PHASED ANTENNA SIGNALS - A diversity antenna system and method comprising a plurality of antennas, a plurality of switches and a plurality of phase shifters, wherein the switches and the antennas are selectively opened and closed or switched on an off to achieve equiphasing. This system separates the noise signal from the useful signal in order to achieve a proper determination of the different phases. In addition there is a receiver which is configured to receive the output of the diversity system. The logic control unit is configured to perform particular steps or algorithms in order to achieve equiphasing of the received signals. | 07-22-2010 |
| 20100066618 | BROADCASTING RECEIVING SYSTEM - To improve the signal/noise ratio of a radio reception system intended for a vehicle, comprising multiple antennas having marked radiation characteristics with a directional effect, in each instance, it is proposed to orient the antennas in the vehicle at spatial sectors, with the proviso that their individual radiation characteristics supplement one another to produce a specific required radiation characteristic. For this purpose, the signals of the antennas are combined in an active combiner, with the interposition of amplifiers, and a sum signal is passed to a receiver by way of an output-side line. | 03-18-2010 |
| 20090073072 | ANTENNA FOR SATELLITE RECEPTION - There is disclosed an antenna for reception of circularly polarized satellite radio signals. The antenna comprises at least one two-dimensional or three-dimensional antenna conductor structure connected with an antenna output connector. The multi-dimensional antenna conductor structure is configured so that it comprises a plurality of antenna conductor sections, which, with reference to a spatial reference point (z) common to the antenna conductor sections, are disposed in pairs, symmetrically and extending in the same direction. The multi-dimensional antenna conductor structure is furthermore configured so that during reciprocal operation of the antenna as a transmission antenna, antenna currents having at least approximately the same size flow in the individual pairs of antenna conductor sections, and the arithmetical average of the current phases of these antenna currents, counted in the same direction, in each instance, in the antenna conductor sections of each pair, has at least approximately the same value in the case of essentially all the pairs of antenna conductor sections, with reference to a common phase reference point (B), during reciprocal operation of the antenna as a transmission antenna. Such an antenna receives left-rotating circularly polarized waves and right-rotating circularly polarized waves equally. The vertical radiation diagram can be filled up towards low elevation angles by means of a vertical, electrically short monopole disposed at the phase reference point (B), whose reception signal is superimposed on that of the antenna conductor structure. | 03-19-2009 |
| 20090042529 | ANTENNA DIVERSITY SYSTEM FOR RELATIVELY BROADBAND BROADCAST RECEPTION IN VEHICLES - There is disclosed an antenna diversity system for relatively broadband broadcast reception in vehicles such as motor vehicles. The device can include a diversity processor having numerous components including a microprocessor for controlling a signal selection switch. In alternative embodiments the processor can be incorporated into a receiver or into a multi-antenna system. One advantage of these designs is that it is able to exist with one reception tuner and being able to select one signal from a plurality of antenna signals A | 02-12-2009 |
| 20090036074 | ANTENNA DIVERSITY SYSTEM HAVING TWO ANTENNAS FOR RADIO RECEPTION IN VEHICLES - There is an antenna diversity system for radio reception in moving vehicles which includes a receiver, and at least two antennas coupled to the receiver. These antennas transmit antenna feed signals to an antenna diversity module coupled between the receiver and the antennas. In at least one embodiment, the antenna diversity module comprises at least one evaluation circuit for evaluating an interference in a reception signal, and at least one processor for adjusting a magnitude em and a phase angle of a linear combination of the antenna feed signals. The evaluation circuit reads and sends an interference indication signal to the processor to create a relatively low interference signal. Thus, the diversity module combines the antenna feed signals in an adjustable manner based on an magnitude of phase angle, to form a linear combined signal that is present at the output of the antenna diversity module as a reception signal. | 02-05-2009 |
| 20080260079 | RECEPTION SYSTEM HAVING A SWITCHING ARRANGEMENT FOR SUPPRESSING CHANGE-OVER INTERFERENCE IN THE CASE OF ANTENNA DIVERSITY - A diversity processing system for providing interference masking signals in an interference suppression circuit. These interference masking signals are generated by an interference detector which through a coupling element couples in a signature signal into a reception signal. This reception signal is then passed to an amplifier, an optional frequency converter, an IF filter, a frequency demodulator and then on to an interference suppression circuit which provides a masking pulse to mask any distortion or interference associated with the diversity switching of antennas during operation. | 10-23-2008 |
