EP1685624A1

EP1685624A1 - Antenna booster

Info

Publication number: EP1685624A1
Application number: EP04787160A
Authority: EP
Inventors: Gerhard Kottschlag; Jens Passoke
Original assignee: Robert Bosch GmbH
Current assignee: Robert Bosch GmbH
Priority date: 2003-11-08
Filing date: 2004-09-17
Publication date: 2006-08-02
Also published as: BRPI0416293A; CN1875523A; JP2007535207A; WO2005045996A1; US20070222524A1; DE10352290A1

Abstract

Disclosed is an antenna booster (110) comprising at least one input (101) for connecting an antenna (100), at least one output (102) for connecting a receiver (120), and at least one means (112, 115) for adjusting the signal level between the input (101) and the output (102). In order to improve the signal-to-noise ratio especially in situations where a high-level noise signal is applied, a narrow-band filter (111) is disposed between the input (101) and the signal level-adjusting means (112, 115), the center frequency of the filter passband being modifiable and being tunable to the receive channel of the receiver (120).

Description

antenna amplifier

State of the art

The invention is based on an antenna amplifier with the generic features of claim 1 and a receiver with the generic features of claim 10.

The signal path of a radio receiving system, in particular in motor vehicles, often consists of an antenna, an impedance matching and / or amplifier and a receiving part. In the element for impedance matching, which is usually close to the

Base of the antenna, the signal picked up by the antenna is actively or passively converted to a new nominal impedance. As a result, a broadband adaptation to the subsequent element, here the receiver, is achieved in the signal path. An active impedance matching, ie an element for impedance matching, which also serves for amplification, enables the simultaneous amplification of the

Antenna recorded signal, for example to compensate for losses in the antenna line between the active impedance matching and the receiver. The element for impedance matching and possibly amplification is referred to below as an antenna amplifier.

Conventional active antenna amplifiers are operated in broadband, that is, the signals of the entire reception band are applied to the active component. One of the disadvantages when using active components in the antenna amplifier is their non-linear behavior, which has a disruptive effect on the reception power, in particular when the antenna is at high voltages due to high field strengths. To the To limit nonlinear effects in the antenna amplifier, the level is reduced with the help of an automatic control. If the level of any signal in the reception area is higher than the application level of this control circuit, the signal in the useful channel, which may have a significantly lower level than the interference signals with the highest level, can be considerably reduced by the control. This will make the

The reception quality of the desired user channel is severely impaired.

The object of the present invention is therefore to improve the interference to useful signal ratio, in particular in situations in which an interference signal with a high level is present.

This problem is solved by an antenna amplifier according to claim 1, a receiver according to claim 10 and a receiving system according to claim 12. In the antenna amplifier according to the invention, it is provided that a narrow-band filter is arranged between the input and the means for signal level adjustment, the center frequency of the filter passband being changeable and tunable to the receiving channel of the receiver.

Information is available in the receiving section as to which channel or which frequency is the desired receiving frequency. This information is now used in the

Antenna amplifier to control a narrow-band filter in such a way that the impairment of the useful channel is largely avoided. The filter is arranged in the signal path in front of the active amplifier element of the antenna amplifier. The pass band of the narrow-band filter is set to the frequency of the desired user channel. This makes the signal level the unwanted

Frequencies reduced and the reception power of the entire system increased. It can be provided that the pass frequency of the filter can be tuned by a tuning signal generated by the receiver and applied to a control connection of the antenna amplifier. The hamper conduction of the information required for the filter for tuning is therefore carried out via separate lines.

Alternatively, it is provided that the pass frequency of the filter can be tuned by a tuning signal generated by the receiver at the output of the antenna amplifier. The tuning signal present at the output of the antenna amplifier and evaluated in the antenna amplifier can be a DC voltage or an analog, for example amplitude, frequency or pulse width modulated signal or a digital data stream. The voltage supply of the antenna amplifier, which can also use the antenna cable, must be taken into account. In this case, the antenna amplifier preferably comprises a device for decomposing or filtering out the signal components at the output. In one development, a supply voltage for the is at the output of the antenna amplifier

Antenna amplifier can be put on. The useful signal of the antenna adapted or amplified in impedance, the tuning signal and the supply voltage are thus transmitted in this case via the same antenna line. A digital data stream can also be transmitted by switching the supply voltage on and off or by changing the voltage in accordance with the digital coding. An energy storage in

Antenna amplifiers, e.g. a capacitor or a coil supplies the antenna amplifier for the duration of the supply voltage shutdown.

A suitable device must be installed in the antenna amplifier to break down the signal components, such as radio signals, control information and / or

Power supply can be provided. The absorption information can be derived from the oscillator voltage or the tuning voltage of the filter means of the front end. It is also conceivable to generate the required information with the aid of an additional digital control module or one already provided in the receiver for other tasks.

In a further development of the antenna amplifier it is provided that the device for decomposing the signal components at the output further comprises a storage unit for storing tuning information. As a result, several settings can be temporarily stored, for example in the form of charging several

Capacitors to different voltage values or as digital information in a control module. This is particularly advantageous if the reception frequency is to be changed quickly and / or for a short time, for example in the case of so-called RDS jumps, and the transmission of the decay information via the antenna line is very slow in relation to this.

In a further development of the antenna amplifier, it is provided that the reactions to control signals, such as switching to previously stored tuning information, take place at defined events or times. This can be done by synchronization to external events, such as an incoming control signal, or internal events, such as exceeding a specified temperature value, are triggered. The implementation of a time reference in the antenna amplifier is particularly advantageous, so that the execution can take place at a predetermined point in time without triggering again by the receiver. This is another suitable alternative for synchronously realizing short RDS jumps in the antenna amplifier and in the receiver.

A further development of the antenna amplifier provides that further control signals can be present at a control connection or at the output. In addition to the transmission of the voting information, other data can also be sent from the receiver to the

Antenna amplifiers are transmitted to influence its operating mode. For example, the signal level measured in the receiver can be used to set the amplifier factor in the antenna amplifier, or the selected reception band activates different amplifier elements, for example one for medium-wave or one for ultra-short-wave reception.

In a further development of the antenna amplifier, this can include a means for generating a return signal present at the output. This return channel can be used as an acknowledgment of receipt for switching commands, transmission of error states such as temperature, current monitoring and the like or other information.

The specifically mentioned problem is also solved by a receiver with means for generating a voting signal and / or further control signals for an antenna amplifier according to one of the preceding claims. In the receiver according to the invention it is preferably provided that the means for generating the tuning signal and / or further control signal comprise a module, the input of which is connected to a microcontroller or an internal tuning signal and the output of which the tuning signal is present in a form which is available for transmission an antenna amplifier according to the invention is suitable. The signal conditioning for frequency tuning of the antenna amplifier can alternatively be integrated in the front-end IC or in the microcontroller.

In a further development, the receiver can have means for recording and / or evaluating information signals generated by the antenna amplifier and in addition to the Radio signals are transmitted include. This can be, for example, information about the signal level, information about the operating state of the antenna amplifier or the like.

The problem specifically mentioned is also solved by a receiving system in particular

Receiving system of a motor vehicle with a receiver and an antenna amplifier according to one of the claims directed to an antenna amplifier.

The antenna amplifier according to the invention, the receiver according to the invention and the reception system according to the invention can also be used for other radio standards and other stationary and mobile reception systems. These can be, for example, mobile reception devices installed in airplanes, ships or other vehicles or stationary reception systems or portable mobile radio devices or the like.

An embodiment of the invention is explained in more detail in the following description with reference to the accompanying drawings. It shows:

FIG. 1 shows a block diagram of an antenna amplifier according to the invention and a receiver according to the invention with transmission of front end information, FIG. 2 shows a block diagram of an antenna amplifier according to the invention and a receiver according to the invention with transmission of tuning information and signal level information.

A receiver 120 comprises filter means 121, which divide the signal path into an FM band and an AM band, the FM filter only allowing a part of the FM band to pass through. The center frequency of this subrange can be changed by a tuning voltage 145. The actual tuning to an individual reception frequency takes place by mixing the reception area with an oscillator signal 141 whose frequency can be changed and then channel filtering the intermediate frequency signal by a filter 125. A PLL synthesizer 144 generates a phase comparison of a reference oscillator 142 with the output signal 141 of the mixing oscillator 140 an oscillator tuning voltage 145, by means of which the mixing oscillator 140 is reverberated at a suitable frequency, by means of which the received channel set is mixed down to the intermediate frequency can be. A control module 150 generates a tuning signal 151 from the oscillator tuning signal 145. The tuning signal 151, which contains information about the selected receiving channel or the receiving frequency, is applied to the input 104 of the receiver 120, as a result of which the tuning signal is sent via the antenna line 103 to the output 102 of the antenna amplifier 110 arrives.

The antenna amplifier 110 comprises an input 101, to which an antenna 100 is connected. Furthermore, the antenna amplifier 110 comprises a narrow-band filler 111 and an active element 112 for impedance matching and / or signal amplification. In principle, the active element is a signal conditioner, which is the

Transforms the impedance of the input 101 to another impedance of the output 102, which corresponds to the input impedance of the receiver 120, and if necessary significantly amplifies the signal originating from the antenna 100. In order to limit non-linear effects in the antenna amplifier 110, the level in the amplifier 112 is regulated or limited. In addition to a narrow-band filter 111 for the FM band and the amplifier

112 for the FM band, a filter 113 for the AM band and an amplifier 114 for the AM band are provided.

The narrow band filter 111 for the FM band is a controllable filter, i. H. the pass frequency can be shifted in the desired reception frequency range. To adjust the pass frequency, a device 115 is used to filter out the tuning information from the signals which are routed via the antenna line. Alternatively, the tuning information could be provided by a device for decomposing the signal components, such as radio signals, anti-virus information and power supply for the active parts of the antenna amplifier 110. In this example, the device 115 is only shown for the signal path of the FM band; the same element could be provided for the signal path of the AM band if its filter 113 were also designed to be narrowband and slimmable.

The device 115 evaluates that present at the output 102 of the antenna amplifier

Signal off and sets the narrowband filter 111 to the reception frequency that is set on the receiver 120. For this purpose, as described above, the assembly 150 converts signals of the PLL synthesizer 144 into an analog or digital tuning signal, which is connected to the input 104 of the receiver 120, reaches the output 102 of the antenna amplifier 110 and with which the pass frequency of the filter 111 is raised the receiving frequency of the receiver 120 is tuned. The output 102 can be used to supply a z. B. DC voltage signal for the voltage supply of the active components of the antenna amplifier 110 are used. By setting the reception frequency of the receiver 120, the narrow-band filter 111 of the antenna amplifier 110 is simultaneously set to the same reception frequency as

Through frequency set.

The device 115 may further comprise means which can buffer one or more settings, e.g. B. in the form of a charge of several capacitors to different voltage values or as digital information in a control module. The temporarily stored information can in particular be information on one or more pass frequencies of the filter 111, so that it is easy to switch back and forth between different pass frequencies.

A block diagram of a further exemplary embodiment according to the invention is shown in FIG. Compared to the first example, the following changes and extensions are planned:

In the receiver 220, a level detector 260 determines the signal strength of the

Intermediate frequency signal and supplies the information to a microcontroller 230. The microcontroller now determines whether the gain of the antenna amplifier should be reduced due to a high signal level and supplies the relevant information and the set reception frequency to the module 250. Both information are now transmitted in a suitable format the antenna line 203 transmits to the antenna amplifier 210. The voting information is filtered out in module 215. The gain to be set is extracted by a module 216 and then controls amplifiers 212 and / or 214.

Claims

Expectations

1. antenna amplifier (110) with at least one input (101) for connecting an antenna (100) and at least one output (102) for connecting a receiver (120) and at least one means for signal level adjustment (112, 115) between input (101) and output (102), characterized in that between the

A narrow-band filter (111) is arranged at the input (101) and the means for signal level adjustment (112, 115), the center frequency of the filter pass band being changeable and tunable to the reception channel of the receiver (120).

2. Antenna amplifier (110) according to claim 1, characterized in that the pass frequency of the filter (111) can be tuned by a generated by the receiver (120) generated by a receiver at a control terminal of the antenna amplifier (110).

3. Antenna amplifier (110) according to claim 1 or 2, characterized in that the pass frequency of the filter (111) can be tuned by a tuning signal generated by the receiver (120) at the output (102) of the antenna amplifier (110).

4. Antenna amplifier (110) according to the preceding claim, characterized in that the tuning signal present at the output (102) of the antenna amplifier (110) and evaluated in the antenna amplifier is a direct voltage or an analog amplitude, frequency or pulse width modulated signal or a digital data stream ,

5. Antenna amplifier (110) according to one of the preceding claims, characterized in that it comprises a device (116) for decomposing or filtering out the signal components at the output (102).

6. Antenna amplifier (110) according to one of the preceding claims, characterized in that a supply voltage for the antenna amplifier can be applied to the output (102) of the antenna amplifier (110).

7. antenna amplifier (110) according to any one of the preceding claims, characterized in that the device (116) further comprises a memory unit for

Storage of voting information includes.

8. Antenna amplifier (110) according to one of the preceding claims, characterized in that further control signals are present at a control connection or the output (102).

9. Antenna amplifier (110) according to one of the preceding claims, characterized in that it comprises a means for generating a return signal present at a control connection or at the output (102).

Antenna amplifier (110) according to one of the preceding claims, characterized in that the reactions to control signals, such as e.g. Switching to previously saved voting information, for defined internal and / or external events.

11. Antenna amplifier (110) according to one of the preceding claims, characterized in that the reactions to control signals, such as e.g. Switching to previously stored frontal information takes place at defined times, the time information being made available by a module for generating a time reference.

12. Receiver (120) with means for generating a tuning signal and / or further control signals for an antenna amplifier (110) according to one of the preceding claims.

13. Receiver (120) according to the preceding claim, wherein the means for generating the tuning signal and / or further control signal comprise a component (151), the input of which is connected to a microcontroller (230) or an internal tuning signal (145) and at the same Output the tuning signal is in a form that is for transmission to an antenna amplifier according to one of the

Claims 1 to 9 is suitable.

14. Receiver according to one of claims 12 or 13 with means for detecting and / or evaluating information signals generated by the antenna amplifier and transmitted in addition to the radio signals.

15. receiving system, in particular receiving system of a motor vehicle, with a receiver (120) and an antenna amplifier (110) according to any one of the preceding claims.