The present invention concerns a system comprising an antenna, an antenna matching network, an amplifier of a radio frequency (RF) module and a matching circuit. The present invention also concerns a device comprising such a system.
In the field of electronics, impedance matching is the practice of designing the input impedance of an electrical load or the output impedance of its corresponding signal source in order to maximize power transfer and minimize reflections from the load.
Almost all mobile telephony system requirements in the original Group System for Mobile Communications (GSM) specification were specified for the conducted performance of a system so impedance matching has only conventionally been carried out for the conducted mode. However, as GSM technology develops and Long Term Evolution (LTE) is being introduced, more frequency bands need to be supported and matching circuits will have to be optimized to cover all frequency bands for both the conducted and the radiated performance of the systems in order to be able to transmit signals more efficiently.
An object of the invention is to provide an improved system comprising an antenna, an antenna matching network, an amplifier of a radio frequency (RF) module, i.e. receiver, transmitter or transceiver circuitry, and a matching circuit.
This object is achieved by a system that includes a switch that is configured to selectively connect the amplifier to test apparatus for determining the RF parameters of signals via the matching circuit when in a first position. The switch is also configured to connect the amplifier to the antenna via the antenna matching network when it is in a second position. Such a system will enable the optimization of the matching circuit taking both the conducted performance of the system (i.e. when the switch is in the first position) and the radiated performance of the system (i.e. when the switch is in the second position) into consideration and will consequently result in the system being able to transmit signals more efficiently when in use. Such a system is particularly suitable for use in LTE-technology applications. It also provides a simple switch that may be used for optimizing the system prior to use and for connecting system components when the system is in use.
According to another embodiment of the invention the system comprises additional dual matching circuitry.
According to another embodiment of the invention at least part of the switch is arranged as a module on a substrate that is arranged to be connected between the amplifier and the antenna. According to a further embodiment of the invention the substrate comprises dielectric material or ceramic material, such as low temperature co-fired ceramic (LTCC). The substrate may comprise a printed circuit board comprising one or more electric circuits or electronic components, an antenna matching network, an antenna or test apparatus.
According to an embodiment of the invention the switch comprises at least one coaxial switch so that coaxial cable may be used to connect the switch to test apparatus and/or to connect the switch to the coaxial cables of a system comprising an antenna, an antenna matching network, an amplifier of a radio frequency (RF) module and a matching circuit. The switch may for example be a 50 ohm switch.
The present invention also concerns a device that comprises at least one system according to any of the embodiments of the invention. According to an embodiment of the invention the device is a communication device such as a mobile telephone, media player, Personal Communications System (PCS) terminal, Personal Data Assistant (PDA), laptop computer, palmtop receiver, camera, television, radar or any appliance that includes a transducer designed to transmit and/or receive radio, television, telephone and/or radar signals.
The present invention will hereinafter be further explained by means of non-limiting examples with reference to the appended schematic figures where;
It should be noted that the drawings have not been drawn to scale and that the dimensions of certain features have been exaggerated for the sake of clarity.
A test apparatus 24 may be connected to contact 20 (as shown in
Such optimization of the matching circuit 16 only takes the conducted performance of the system into consideration and not the radiated performance. When the system is in use the matching circuit 16 will however affect both the conducted performance and the radiated performance of the system, and the efficiency of the system in transmitting signals between the amplifier 14 and the antenna 10 will therefore be adversely affected since the system has not been optimized for both conducted and radiated performance.
Alternatively, when the system is in use (after optimization), the amplifier 14 is connected to the antenna 10 via the matching circuit 16 and the antenna matching network 12 (i.e. when the switch 19 is in the position indicated by the dotted line in
When the switch 18 is in a second position indicated by the dotted line in
The switch 18 may comprise any suitable means of connecting the components of the system as disclosed above. The switch 18 may for example comprise a spring-loaded mechanical probe that is arranged to be moved between a first position in which the amplifier 14 will be connected to test apparatus 24 via a matching circuit 16 and a second position in which the amplifier 14 will be connected to the antenna 10 via the antenna matching network 12.
It should be noted that the switch 18 of a system according to any of the embodiments of the invention may comprise a coaxial switch so that it may be connected to the coaxial cable of a test apparatus 24 and/or to a coaxial cable of a system comprising an antenna, an antenna matching network, an amplifier of a radio frequency (RF) module and a matching circuit.
It should be noted that the systems illustrated and described in this patent application may comprise one or more additional components. The systems may for example comprise an antenna switch or front end module to connect an antenna to any one of a plurality of amplifiers for example to switch in different frequency bands.
Further modifications of the invention within the scope of the claims would be apparent to a skilled person.
Number | Date | Country | Kind |
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10176582.4 | Sep 2010 | EP | regional |
This application claims priority under 35. U.S.C. §119, based on U.S. Provisional Patent Application No. 61/382,508 filed Sep. 14, 2010 and European Patent Application No. 10176582.4 filed Sep. 14, 2010, the disclosures of which are hereby incorporated by reference herein.
Number | Date | Country | |
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61382508 | Sep 2010 | US |