JP2008085578A - Antenna amplifier - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an antenna amplifier capable of reducing suppression and intermodulation distortion in a strong field zone and improving sensibility in a weak field zone. <P>SOLUTION: The antenna amplifier 10 arranged among a plurality of antennas 1A and 1B and a diversity device SWD connecting one of the antennas 1A and 1B to a tuner 5 is composed of amplifiers 3A and 3B connected to the antennas 1A and 1B, respectively, and changeover switches SW1 to SW3. When the receiving level of a desired wave reaches a fixed value or higher, the changeover switches SW1 to SW3 are set to the terminal (a) side and the antenna is selected by the diversity device SWD. When the receiving level of the desired wave is lower than the fixed value, the changeover switches SW1 to SW3 are set to the terminal (b) side, and the amplifiers 3A and 3B are connected in series. The diversity device SWD is fixed on the terminal (m) side, and an amplifier gain is increased. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an antenna amplifier device, and more particularly to an antenna amplifier device that can satisfactorily receive a desired wave in a weak electric field area and improve reception quality by improving an S / N ratio.

  In general, an amplifier circuit (antenna amplifier device) for a high-frequency signal obtained from a radio wave received by an antenna is provided in a preceding stage of a receiver (tuner) that receives and demodulates radio or television radio waves by an antenna. This antenna amplifier device is usually provided with an automatic gain adjustment circuit (AGC circuit) that automatically adjusts the gain. By the way, in a tuner mounted on a moving body such as a vehicle, the vehicle moves and enters a weak electric field area or a strong electric field area, so that the reception environment of the tuner changes. Therefore, a tuner mounted on a mobile body is required to be able to perform good reception even if the reception environment changes. Therefore, in the antenna amplifier device with an AGC circuit, the gain of the amplifier of the antenna amplifier device is set high in order to improve the reception sensitivity of the desired wave in the weak electric field area.

  In this case, in a strong electric field area close to a radio wave transmission antenna, there is a concern that interference due to intermodulation distortion to a desired wave due to strong input radio wave interference may occur. Interference caused by intermodulation occurs even in a normal state unlike intermodulation interference that is likely to occur when there are broadcasting stations or radio stations having different frequencies in the immediate vicinity. For example, in a certain area, there is a desired wave of the frequency fd that the user wants to watch, and there are also two broadcasting stations of the frequencies f1 and f2, and the value of (2f1-f2) or (2f2-f1) is desired. It is assumed that there is a frequency relationship that is close to fd, which is the wave frequency, and the signal levels of the frequencies f1 and f2 are high. In this case, the two radio waves having the frequencies f1 and f2 become interference waves, and a beat occurs or a desired wave cannot be received.

  As a countermeasure against such intermodulation distortion, when a strong input signal is received by the AGC circuit, the gain of the amplifier is lowered to prevent the occurrence of intermodulation distortion, and the circuit configuration is not affected by the distortion. As a method of reducing the gain of the amplifier, a variable attenuator (attenuator) is incorporated in front of the amplifier.

  FIG. 1A shows the configuration of a conventional AGC circuit 7. A high-frequency signal such as a broadcast signal received by the antenna 1 is once attenuated by an attenuator (denoted as ATT in the figure) 2, amplified by an amplifier 3, and input to a tuner 5. Further, the output of the amplifier 3 is branched and input to the AGC level detection unit 4. When the output of the amplifier 3 is high, the AGC level detection unit 4 increases the attenuation of the attenuator to prevent the occurrence of intermodulation distortion. is doing.

  Patent Document 1 discloses an antenna amplifier apparatus that uses an antenna amplifier apparatus in a weak electric field area and does not use an antenna amplifier apparatus in a strong electric field area. FIG. 1 (b) shows the configuration of the receiving device described in Patent Document 1. Changeover switches SWA and SWB are provided before and after the amplifier 3 provided between the antenna 1 and the tuner 5. In the strong electric field area, the change-over switches SWA and SWB are connected to the terminal a side to bypass the amplifier 3, and in the weak electric field area, the change-over switches SWA and SWB are connected to the terminal b side, and the amplifier 3 amplifies the signal. It is like that.

  Furthermore, Patent Document 2 discloses a mobile communication system that combines a receiving device disclosed in Patent Document 1 and a diversity antenna system. In this mobile communication system, three antennas equipped with a high-frequency amplifier circuit (a booster in Patent Document 2) and one antenna without a booster are connected to a selector. In the weak electric field or medium electric field area, the reception signal with the best condition among the three reception signals amplified by the booster is selected by the selector and input to the tuner. In the strong electric field area, there is no booster. One received signal not selected is selected by the selector and input to the tuner.

  As described above, in a tuner mounted on a mobile object, it is a problem to ensure reception performance that can cope with a change in reception environment. In addition to such problems, in a tuner equipped with an antenna amplifier device with an AGC circuit, even if the interference wave and the desired wave are not in a frequency relationship where intermodulation interference occurs, if the AGC amount is large, Can cause another problem of repression. Suppression may occur due to interference signals of all frequencies within the reception band because the AGC operation in the antenna amplifier device has a wide band and does not have frequency selectivity. In some regions, there are few cases where the relationship between the desired wave and the interfering wave has an effect of intermodulation distortion, and therefore, there is a case where suppression that does not depend on the frequency relationship occurs more frequently.

JP-A-8-289210 (FIG. 1) Japanese Patent Laid-Open No. 10-209934 (FIG. 1)

  In order to avoid the problem of suppression, it is necessary to reduce or eliminate the AGC amount of the AGC circuit. In this case, the amplifier gain is increased to improve the sensitivity. There was a problem that a large amount of modulation occurred.

  Therefore, the present invention provides an antenna amplifier device capable of reducing the suppression in a strong electric field area and the occurrence of intermodulation distortion in the antenna amplifier apparatus and achieving both improvement in sensitivity in a weak electric field area. Objective.

  A first form of an antenna amplifier device according to the present invention that achieves the above object is an antenna amplifier device arranged between an antenna and a tuner, and switches according to a plurality of amplifiers and a reception level of a desired wave. And a plurality of changeover switches that operate according to a signal and arrange at least one amplifier between the antenna and the tuner. When the reception level of the desired wave is low, a plurality of amplifiers are connected in series by the changeover signal. It is arranged between the antenna and the tuner.

  Further, a second form of the antenna amplifier device according to the present invention that achieves the above object is an antenna amplifier arranged between a plurality of antennas and a diversity device that connects one of the plurality of antennas to a tuner. When the reception level of the desired wave is equal to or higher than a predetermined value, the antenna and the amplifier connected to it are connected to each input terminal of the diversity device. When the desired wave reception level is less than the predetermined value, at least one set of amplifiers is disconnected from the antenna and the input terminal, and this is inserted in series between the amplifier and the input terminal of the set where the amplifier is not disconnected. A plurality of change-over switches arranged in this manner are provided.

  In these antenna amplifier devices, a level detector for detecting the reception level of the antenna can be provided, and the changeover switch can be operated according to the output of the level detector.

  According to the antenna amplifier device according to the present invention, it is possible to reduce the suppression in the strong electric field area and the generation of the intermodulation distortion in the antenna amplifier apparatus, and to simultaneously improve the sensitivity in the weak electric field area.

  Embodiments of an antenna amplifier device according to the present invention will be described below in detail based on specific examples with reference to the accompanying drawings.

  FIG. 2A shows a first antenna amplifier device 10 of the present invention provided in a receiving system in which a main antenna 1A and a sub-antenna 1B are connected to a tuner 5 via a change-over switch SWD of a diversity device 8. The structure of the Example of this is shown. The antenna amplifier device 10 according to the first embodiment includes two amplifiers 3A and 3B and three changeover switches SW1 to SW3. The switches SW1 to SW3 are for switching between the terminal a and the terminal b.

  An amplifier 3A is directly connected to the main antenna 1A, and the output of the amplifier 3A is connected to the input terminal m of the changeover switch SWD of the diversity device 8 via the changeover switch SW1. The sub-antenna 1B is connected to the amplifier 3B via the changeover switch SW2, and the output of the amplifier 3B is connected to the input terminal s of the changeover switch SWD of the diversity device 8 via the changeover switch SW3. The changeover switch SWD of the diversity device 8 connects either the input terminal m or the input terminal s to the tuner 5.

  The changeover switch SW1 has a terminal a connected to the input terminal m of the changeover switch SWD of the diversity apparatus 8, and a terminal b connected to the terminal a of the changeover switch SW2. The sub-antenna 1B is connected to the terminal a of the changeover switch SW2. The changeover switch SW3 has a terminal a connected to the input terminal s of the changeover switch SWD of the diversity apparatus 8, and a terminal b connected to the terminal a of the changeover switch SW1 and the input terminal m of the changeover switch SWD of the diversity apparatus 8. Connected to the circuit to tie.

  In this embodiment, the three changeover switches SW1 to SW3 are changed over by a switch changeover signal SC output from the tuner 5, and the changeover switch SWD of the diversity device 8 is also changed to the antenna changeover signal SD output from the tuner 5. It can be switched by. Further, the antenna level of the main antenna 1A before being amplified by the amplifier 3A and the antenna level of the sub antenna 1B before being amplified by the amplifier 3B are detected by the level detection circuit 6 and input to the tuner 5. It has become.

  In the first embodiment, the antenna levels of the main antenna 1A and the sub-antenna 1B are detected based on the output level α of the level detection circuit 6. However, since the gains of the amplifiers 3A and 3B are known, The antenna levels of 1A and subantenna 1B may be detected using the output level β of the changeover switch SWD. Further, based on the antenna levels of the main antenna 1A and the sub-antenna 1B detected by the level detection circuit 6, the tuner 5 sends a switch switching signal SC to the three switching switches SW1 to SW3. The embodiment in which the level detection circuit 6 sends the signals directly to the three change-over switches SW1 to SW3 is also possible.

  Here, the operation of the antenna amplifier device 10 configured as shown in FIG. 2A will be described with reference to FIGS. 2A, 2B, and 3. FIG. In FIG. 2B, only the main part of the antenna amplifier device 10 is shown, and the level detection circuit 6 and the switch switching signal SC are not shown. As shown in FIG. 3, when the antenna levels of the main antenna 1A and the sub-antenna 1B are equal to or higher than the determination level K, the electric field strength is medium or high, and when the antenna level is lower than the determination level K, the electric field strength is low. Suppose there is. Here, it is assumed that the antenna levels of the main antenna 1A and the sub antenna 1B are both low at time T. Further, when the gains of the amplifiers 3A and 3B in the conventional circuit are 8 dB, in this embodiment, the gain is set to 4 dB.

  When the antenna levels of the main antenna 1A and the sub-antenna 1B are both medium or high, the three switching switches SW1 to SW3 are controlled to be connected to the terminal a by the switch switching signal SC. This state is shown in FIG. As shown in FIG. 3, when the antenna level of the main antenna 1A is higher than the antenna level of the sub antenna 1B, or when the reception state deteriorates due to noise mixed in the signal of the sub antenna 1B, Under the control of the tuner 5, the changeover switch SWD of the diversity device 8 is controlled to the terminal m side so that the output of the main antenna 1A is selected and input to the tuner 5. Conversely, the antenna level of the sub antenna 1B is the main antenna. When the antenna level is higher than 1A, or when the reception state deteriorates due to noise mixed in the signal of the main antenna 1A, the selector SW SW of the diversity device 8 is controlled to the terminal s side by the control of the tuner 5. Thus, the output of the sub-antenna 1B is selected and input to the tuner 5.

  As described above, when the antenna levels of the main antenna 1A and the sub antenna 1B are both medium or high, any one of the antenna levels of the main antenna 1A and the sub antenna 1B is controlled by the changeover switch SWD of the diversity device 8. The higher antenna is connected to the tuner 5. In this embodiment, the gain of the antenna amplifier device is lower than that of the conventional circuit. However, since the input level is somewhat high in a strong electric field, there is no need to increase the gain of the amplifier. Due to the radio interference, the possibility of occurrence of interference due to intermodulation distortion to the desired wave is reduced. Further, since no AGC circuit is used, it is possible to prevent the occurrence of suppression during a strong electric field and to reduce distortion in the AGC circuit.

  Next, after time T, when the antenna levels of the main antenna 1A and the sub-antenna 1B are both low, all three switches SW1 to SW3 are connected to the terminal b by the switch switching signal SC. The changeover switch SWD of the diversity device 8 is fixed to the terminal m side. This state is shown in FIG. In this state, the sub-antenna 1B is disconnected, and the signal received by the main antenna 1A is amplified by both the amplifier 3A and the amplifier 3B connected in series and input to the tuner 5.

  As described above, when the gains of the amplifiers 3A and 3B in the conventional circuit are 8 dB, the gains of the amplifiers 3A and 3B in this embodiment are set to 4 dB. Therefore, the antenna levels of the main antenna 1A and the sub antenna 1B are When both levels are low, the gain of the antenna amplifier device of this embodiment is the same as that of the conventional circuit in which the gain of the amplifier is set high in order to improve the reception sensitivity of the desired wave in the weak electric field area. The effect of improving the sensitivity of the electric field can be obtained.

  In the first embodiment, the configuration of the antenna amplifier devices 3A and 3B provided in the front stage of the tuner provided with the diversity device 8 has been described. However, the antenna amplifier devices 3A and 3B according to the present invention are replaced with the diversity device 8. A modified embodiment provided in the front stage of the tuner without a gap is possible. This modified example is shown in FIG. In the configuration of the modified embodiment, only the sub-antenna 1B, the changeover switch SW2, and the changeover switch SWD of the diversity device 8 are removed from the first embodiment. In the modification, when the antenna level of the antenna 1 is medium or high, the changeover switches SW1 and SW3 are controlled to the terminal a side, and when the antenna level is low, the changeover switches SW1 and SW3 are controlled to the terminal b side. Is done.

  FIG. 4A shows a schematic configuration of the second embodiment of the antenna amplifier apparatus 10 according to the present invention. The antenna amplifier device of the second embodiment is a simplified configuration of the antenna amplifier device of the first embodiment, and is obtained by removing the changeover switch SW3 from the first embodiment. For this reason, in the second embodiment, the output of the amplifier 3B is directly input to the terminal s of the changeover switch SWD of the diversity device 8. The level detector 6 is provided in the second embodiment as in the first embodiment, but the illustration is omitted.

  Also in the second embodiment, when the antenna levels of the main antenna 1A and the sub antenna 1B are both medium or high, the two change-over switches SW1 and SW2 are both controlled to be connected to the terminal a. This state is shown in FIG. As in the first embodiment, when the antenna level of the main antenna 1A is higher than the antenna level of the sub-antenna 1B, or when the reception state deteriorates due to noise mixed in the signal of the sub-antenna 1B The control of the tuner 5 controls the switch SWD of the diversity device 8 to the terminal m side so that the output of the main antenna 1A is selected and input to the tuner 5, and conversely, the antenna level of the sub antenna 1B is higher. When the antenna level is higher than that of the main antenna 1A, or when the reception state deteriorates due to noise mixed in the signal of the main antenna 1A, the switch SWD of the diversity device 8 is moved to the terminal s side by the control of the tuner 5. Controlled, the output of the sub-antenna 1B is selected and input to the tuner 5.

  Next, when the antenna levels of the main antenna 1A and the sub-antenna 1B are both low, the two changeover switches SW1 and SW2 are controlled so as to be connected to the terminal b, and the changeover switch SWD of the diversity device 8 is controlled. Is fixed to the terminal s side. This state is shown in FIG. In this state, the sub-antenna 1B is disconnected, and the signal received by the main antenna 1A is amplified by both the amplifier 3A and the amplifier 3B and input to the tuner 5.

  The effect of the antenna amplifier device of the second embodiment is the same as that of the antenna amplifier device of the first embodiment, and the cost is reduced as the number of changeover switches is reduced.

  FIG. 5 shows a configuration of a third embodiment of the antenna amplifier device 10 according to the present invention. The tuner 5 is mounted on a moving body such as an automobile, and four antennas are connected via the diversity device 8. The configuration of the antenna amplifier device 10 when connected to the tuner 5 is shown. When the moving body is an automobile, the four antennas are a left front antenna 1FL attached to the left front of the automobile, a right front antenna 1FR attached to the right front of the automobile, a left rear antenna 1RL attached to the left rear of the automobile, It is assumed that the right rear antenna 1RR is attached to the right rear of the automobile.

  An amplifier 3FL is connected to the left front antenna 1FL, an amplifier 3FR is connected to the right front antenna 1FR, an amplifier 3RL is connected to the left rear antenna 1RL, and an amplifier 3RR is connected to the right rear antenna 1RR. The outputs of these amplifiers 3FL, 3FR, 3RL, 3RR are connected to the terminals c, d, e, f of the changeover switch SW4D of the diversity device 8, respectively.

  In the third embodiment, three changeover switches SWF1 to SWF3 are provided for the antenna on the front side of the automobile, and three changeover switches SWR1 to SWR3 are provided for the antenna on the rear side of the automobile. The switches SWF1 to SWF3 and the switches SWR1 to SWR3 switch between the terminal a and the terminal b.

  The changeover switch SWF1 is provided between the output of the amplifier 3FL and the input terminal c of the changeover switch SW4D, and the terminal a is connected to the terminal c. The changeover switch SWF2 is provided between the antenna 1FR and the amplifier 3FR, and the terminal a is connected to the antenna 1FR. The changeover switch SWF3 is provided between the output of the amplifier 3FR and the input terminal d of the changeover switch SW4D, and the terminal a is connected to the terminal d.

  The changeover switch SWR1 is provided between the antenna 1RL and the amplifier 3FL, and the terminal a is connected to the antenna 1RL. The changeover switch SWR2 is provided between the output of the amplifier 3RL and the input terminal e of the changeover switch SW4D, and the terminal a is connected to the terminal e. The changeover switch SWR3 is provided between the antenna 1RR and the amplifier 3RR, and the terminal a is connected to the antenna 1RR.

  The terminal b of the changeover switch SWF1 is connected to the terminal b of the changeover switch SWF2, the terminal b of the changeover switch SWF3 is connected to the terminal b of the changeover switch SWR1, and the terminal b of the changeover switch SWR2 is connected to the terminal b of the changeover switch SWR3. It is connected. The changeover switch SW4D of the diversity device 8 connects any one of the input terminals cf to the tuner 5.

  In this embodiment, the six changeover switches SWF1 to SWF3 and SWR1 to SWR3 are changed over by a switch changeover signal SC output from the tuner 5, and the changeover switch SWD of the diversity device 8 is also output from the tuner 5. Is switched by an antenna switching signal SD. The antenna levels of the antennas 1FL, 1FR, 1RL, and 1RR before being amplified by the amplifiers 3FL, 3FR, 3RL, and 3RR are detected by the level detection circuit 6 and input to the tuner 5.

  In the third embodiment, the antenna level of each antenna 1FL, 1FR, 1RL, 1RR is detected by the output level X of the level detection circuit 6, but the gains of the amplifiers 3FL, 3FR, 3RL, 3RR are known. Therefore, the antenna level of each antenna 1FL, 1FR, 1RL, 1RR may be detected using the output level Y of the changeover switch SW4D. Further, an embodiment in which the switch change signal SC is directly sent from the level detection circuit 6 to the six changeover switches SWF1 to SWF3 and SWR1 to SWR3 is possible.

  Here, the operation of the antenna amplifier device 10 according to the third embodiment configured as shown in FIG. 5 will be described with reference to FIGS. 5, 6A, 6B, and 7. FIG. 6A, 6B, and 7 show only the main part of the antenna amplifier device 10, and the level detection circuit 6 and the switch switching signal SC are not shown.

  In the third embodiment, four antennas are provided, two of which are provided in front of the automobile and the remaining two are provided in the rear of the automobile. (1) Four antennas are provided as a diversity device. (2) A reception method for switching the front antenna and the rear antenna with the diversity device 8 while increasing the gain with one front antenna and increasing the gain with one front antenna, and (3) 4) A receiving method for fixing the diversity device 8 and triple the gain of one antenna, and (4) A receiving method for fixing the diversity device 8 and increasing the gain of one antenna 4 times. A reception method can be selected.

  When only the reception methods (1) and (2) are implemented, the field strength is medium or high when the antenna level of each antenna is equal to or higher than the case level K, as in the first embodiment. When the case level is less than K, the electric field strength can be regarded as a low level. In this case, when the gains of the amplifiers 3A and 3B in the conventional circuit are 8 dB, the gain of each amplifier may be 4 dB. When all the reception methods (1) to (4) are implemented, the antenna level determination level of each antenna may be determined in four steps of weak, low, medium, or high. In this case, the gain of each amplifier may be set to a fixed value lower than that of the conventional circuit such as 3 dB or 2 dB.

(1) Reception method for switching four antennas with a diversity device (1) When performing only the reception method of (2), it is performed when the antenna levels of the four antennas are all medium or high. When the reception methods (1) to (4) are all performed, the antenna levels of the four antennas are all high. The six changeover switches SWF1 to SWF3 and SWR1 to SWR3 are all controlled to be connected to the terminal a. This state is shown in FIG. The antenna having the highest antenna level among the four antennas is selected by the changeover switch SW4D of the diversity device 8 and connected to the tuner 5. In this state, since the gain of the antenna amplifier device is smaller than that of the conventional circuit, the possibility of occurrence of interference due to intermodulation distortion to the desired wave due to strong input radio wave interference in a strong electric field area is reduced.

(2) Reception method for switching between front antenna and rear antenna with diversity device (1) When performing only the reception method of (2), it is performed when the antenna levels of the four antennas are all low, When all of the reception methods (1) to (4) are performed, the antenna levels of the four antennas are all medium. Of the six changeover switches SWF1 to SWF3 and SWR1 to SWR3, the changeover switches SWF1 and SWF2 and the changeover switches SWR2 and SWR3 are controlled to be connected to the terminal b, but the changeover switches SWF3 and SWR1 are connected to the terminal a. It has been done. This state is shown in FIG.

  In this state, the right front antenna 1FR and the right rear antenna 1RR are disconnected, and the signal received by the left front antenna 1FL is amplified by both the amplifier 3FL and the amplifier 3FR and input to the terminal d of the changeover switch SW4D, and left The signal received by the rear antenna 1RL is amplified by both the amplifier 3RL and the amplifier 3RR and is input to the terminal f of the changeover switch SW4D. The tuner 5 receives a signal having a higher antenna level among signals received by the left front antenna 1FL and signals received by the left rear antenna 1RL.

  As described above, when only the reception methods (1) and (2) are performed, when the gain of the amplifier in the conventional circuit is 8 dB, the amplifiers 3FL, 3FR, 3RL, and 3RR of this embodiment are used. Since all the gains can be 4 dB, the gain of the antenna amplifier device of this embodiment can be 8 dB when the antenna level is low. On the other hand, when all the reception methods (1) to (4) are performed, the method (2) is performed at a medium antenna level, so that the gains of the amplifiers 3FL, 3FR, 3RL, and 3RR of this embodiment are obtained. When all are 3 dB, the gain of the antenna amplifier device is 6 dB. When all are 2 dB, the gain of the antenna amplifier device is 4 dB, and reception can be sufficiently performed.

(3) A receiving method in which the diversity device is fixed and the gain of one antenna is tripled. This is a method when all the receiving methods of (1) to (4) are implemented, and the antenna levels of the four antennas are Implemented when all are at low level. Of the six changeover switches SWF1 to SWF3 and SWR1 to SWR3, the changeover switches SWF1 to SWF3 and the changeover switches SWR1 and SWR3 are controlled to be connected to the terminal b, but the changeover switch SWR2 remains connected to the terminal a. There is. This state is shown in FIG.

  In this state, the right front antenna 1FR, the left rear antenna 1RL, and the right rear antenna 1RR are disconnected, and the signal received by the left front antenna 1FL is amplified and switched by the amplifier 3FL, the amplifier 3FR, and the amplifier 3RL. Input to the terminal e of the switch SW4D. The changeover switch SW4D of the diversity device 8 is fixed to the terminal e, and the tuner 5 receives a signal received by the left front antenna 1FL.

  As described above, since the method (3) is performed when the antenna level is low, when the gains of the amplifiers 3FL, 3FR, 3RL, and 3RR in this embodiment are all 3 dB, the gain of the antenna amplifier device is When it is 9 dB and all are 2 dB, the gain of the antenna amplifier device is 6 dB. When the gains are all 3 dB, the gain of the antenna amplifier device is sufficient. When the gains are all 2 dB, the antenna amplifier device is slightly insufficient, but reception is possible.

(4) A receiving method in which the diversity device is fixed and the gain of one antenna is quadrupled. This is a method when all the receiving methods of (1) to (4) are implemented, and the antenna level of the four antennas is Implemented when all are weak. The six change-over switches SWF1 to SWF3 and SWR1 to SWR3 are all controlled to be connected to the terminal b. This state is shown in FIG.

  In this state, the right front antenna 1FR, the left rear antenna 1RL, and the right rear antenna 1RR are disconnected, and the signal received by the left front antenna 1FL is amplified by the amplifier 3FL, the amplifier 3FR, the amplifier 3RL, and the amplifier 3RR. And input to the terminal f of the changeover switch SW4D. The change-over switch SW4D of the diversity device 8 is fixed to the terminal f, and the tuner 5 receives a signal received by the left front antenna 1FL.

  As described above, since the method (4) is performed when the antenna level is weak, when the gains of the amplifiers 3FL, 3FR, 3RL, 3RR in this embodiment are all 3 dB, the antenna amplifier device The gain is 12 dB, and when all are 2 dB, the gain of the antenna amplifier device is 8 dB. When the gains are all 3 dB, the gain of the antenna amplifier device becomes very large as 12 dB, and when the gains are all 2 dB, the gain of the antenna amplifier device is 8 dB, so that reception may be possible.

  As described above, the embodiment in the case of two antennas and the embodiment in the case of four antennas have been described. However, the antenna amplifier device according to the present invention has a particularly limited number of antennas as long as there are a plurality of antennas. is not.

  Furthermore, since the AGC circuit is not used in the embodiment described above, it is possible to prevent the occurrence of suppression during a strong electric field. However, as shown in FIG. 8, even if the circuit is provided with the AGC circuit 7, the antenna amplifier device 10 according to the present invention has a tuner and a tuner as long as the attenuation amount of the attenuator 2 is small. 5 can be provided.

(A) is a circuit diagram which shows an example of the AGC circuit used for the conventional antenna circuit, (b) is a circuit diagram which shows the structure of the antenna circuit incorporating the antenna amplifier apparatus of the conventional patent document. (A) is a circuit diagram showing the configuration of the first embodiment of the antenna amplifier device according to the present invention, (b) is a circuit diagram showing the operation when the antenna level of the antenna amplifier device of (a) is low, ( c) is a circuit diagram showing a configuration of a modification of the first embodiment according to the present invention. It is a time chart which shows operation | movement of the switch shown to Fig.2 (a), (b) when an antenna level changes. (A) is a circuit diagram showing the configuration of the second embodiment of the antenna amplifier device according to the present invention, (b) is a circuit diagram showing the operation of the antenna amplifier device of (a) when the antenna level is low. . It is a circuit diagram which shows the structure of the 3rd Example of the antenna amplifier apparatus which concerns on this invention, and shows operation | movement in case an electric field strength is high. FIG. 5A is a circuit diagram showing an operation when an amplifier is connected in series in two stages in the antenna amplifier apparatus of FIG. 5, and FIG. 5B is a circuit diagram in which three stages of amplifiers are connected in series in the antenna amplifier apparatus of FIG. It is a circuit diagram which shows the operation | movement in the case of using. FIG. 6 is a circuit diagram showing an operation in the case of using the amplifiers connected in series in four stages in the antenna amplifier device of FIG. 5. It is a circuit diagram which shows the Example which integrated the AGC circuit before the antenna amplifier apparatus of this invention.

Explanation of symbols

1, 1A, 1B, 1FL, 1FR, 1RL, 1RR Antenna 2 Attenuator 3, 3A, 3B, 3FL, 3FR, 3RL, 3RR Amplifier 4 AGC level detector 5 Tuner 6 Antenna level detector 7 Diversity device

Claims (3)

An antenna amplifier device disposed between an antenna and a tuner,
Multiple amplifiers,
A plurality of changeover switches that operate according to a changeover signal according to a reception level of a desired wave, and that arrange at least one of the amplifiers between the antenna and the tuner;
An antenna amplifier device comprising: a plurality of amplifiers connected in series and arranged between the antenna and a tuner when the reception level of a desired wave is low. An antenna amplifier device disposed between a plurality of antennas and a diversity device that connects one of the plurality of antennas to a tuner,
A plurality of amplifiers respectively connected to the plurality of antennas;
When the reception level of the desired wave is greater than or equal to a predetermined value, a set of the antenna and the amplifier connected thereto is connected to each input terminal of the diversity device, and at least 1 when the reception level of the desired wave is less than the predetermined value. A plurality of change-over switches arranged so as to be disconnected from the antenna and the input terminal, and to be inserted in series between the amplifier and the input terminal of the set in which the amplifier is not disconnected; An antenna amplifier device comprising: The antenna amplifier device according to claim 1 or 2,
A level detector for detecting the reception level of the antenna is provided;
The antenna amplifier device according to claim 1, wherein the change-over switch operates in accordance with an output of the level detector.

Images