JPH09186618A - Radio receiver - Google Patents
Radio receiverInfo
- Publication number
- JPH09186618A JPH09186618A JP34341695A JP34341695A JPH09186618A JP H09186618 A JPH09186618 A JP H09186618A JP 34341695 A JP34341695 A JP 34341695A JP 34341695 A JP34341695 A JP 34341695A JP H09186618 A JPH09186618 A JP H09186618A
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- circuit
- signal
- reception
- frequency
- filter
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Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、AM受信回路とF
M受信回路とを有するラジオ受信機に関する。The present invention relates to an AM receiving circuit and an F
And a M receiver circuit.
【0002】[0002]
【従来の技術】従来は、AM受信回路とFM受信回路と
を含むラジオ受信機においては、AM受信系統及びFM
受信系統が別々に配置されている。即ち、ラジオ受信機
は図2の如く構成され、AM受信回路において、受信A
M−RF信号は、AM−RF増幅回路(1)で増幅さ
れ、第1AM混合回路(2)でAM局部発振回路(3)
からのAM局部発振信号により第1AM−IF信号に周
波数変換される。第1AM−IF信号は、AMフィルタ
(4)で所定の周波数帯域に制限され、第1AM−IF
増幅回路(5)で増幅された後、第2AM混合回路
(6)で発振回路(7)の出力信号により第2AM−I
F信号に周波数変換される。第2AM−IF信号は第2
AM−IF増幅回路(8)で増幅された後、AM検波回
路(9)でAM検波される。また、受信FM−RF信号
はFM−RF増幅回路(10)で増幅され、FM混合回
路(11)でFM局部発振回路(12)からの局部発振
信号によりFM−IF信号に周波数変換される。FM−
IF信号は、FMフィルタ(13)で所定の周波数帯域
に制限され、FM−IF増幅回路(14)で増幅された
後、FM検波回路(15)でFM検波される。2. Description of the Related Art Conventionally, in a radio receiver including an AM receiving circuit and an FM receiving circuit, an AM receiving system and an FM receiving system are used.
The receiving systems are arranged separately. That is, the radio receiver is configured as shown in FIG.
The M-RF signal is amplified by the AM-RF amplifying circuit (1), and is AM local oscillator circuit (3) by the first AM mixing circuit (2).
The frequency is converted to the first AM-IF signal by the AM local oscillation signal from. The first AM-IF signal is limited to a predetermined frequency band by the AM filter (4),
After being amplified by the amplifier circuit (5), the second AM mixing circuit (6) outputs the second AM-I by the output signal of the oscillation circuit (7).
The frequency is converted to an F signal. The second AM-IF signal is the second
After being amplified by the AM-IF amplifier circuit (8), AM detection is performed by the AM detection circuit (9). Further, the received FM-RF signal is amplified by the FM-RF amplifier circuit (10), and frequency-converted into an FM-IF signal by the local oscillation signal from the FM local oscillation circuit (12) in the FM mixing circuit (11). FM-
The IF signal is limited to a predetermined frequency band by the FM filter (13), amplified by the FM-IF amplification circuit (14), and then FM-detected by the FM detection circuit (15).
【0003】[0003]
【発明が解決しようとする課題】しかしながら、図2の
回路では、AM受信回路とFM受信回路とは別系統であ
るので、RF信号からIF信号に変換するための混合回
路がそれぞれの受信回路で必要となるので、混合回路は
2つ必要であった。特に、図2の回路を集積化した場合
には、混合回路にはコイルが含まれるので、外付け素子
が多くなると共にコイル為の外付けピンが多くなるとい
う問題が発生していた。However, in the circuit of FIG. 2, since the AM receiving circuit and the FM receiving circuit are separate systems, a mixing circuit for converting an RF signal into an IF signal is provided in each receiving circuit. Two mixing circuits were needed as they were required. In particular, when the circuit of FIG. 2 is integrated, since the mixing circuit includes a coil, there is a problem that the number of external elements and the number of external pins for the coil increase.
【0004】[0004]
【課題を解決するための手段】本発明は、AMラジオ受
信回路と、FMラジオ受信回路とを備えるラジオ受信機
において、AM−RF信号またはFM−RF信号とを局
部発振信号に応じてIF信号に周波数変換する周波数変
換回路と、ゲインが可変であり該周波数変換回路の出力
信号を増幅する増幅回路と、該増幅回路の出力信号が印
加されるエミッタフォロア回路と、該エミッタフォロア
回路の出力信号を第1の周波数帯域に制限するFM−I
Fフィルタと、該エミッタフォロア回路の出力信号を第
2の周波数帯域に制限するAM−IFフィルタと、AM
受信またはFM受信を示す信号に応じて、前記増幅回路
のゲインを切り替える切換信号を発生する切換信号発生
回路とを備えることを特徴とする。According to the present invention, in a radio receiver including an AM radio receiving circuit and an FM radio receiving circuit, an AM-RF signal or an FM-RF signal is converted into an IF signal according to a local oscillation signal. A frequency conversion circuit for frequency conversion, an amplifier circuit having a variable gain for amplifying an output signal of the frequency conversion circuit, an emitter follower circuit to which the output signal of the amplifier circuit is applied, and an output signal of the emitter follower circuit To limit the frequency to the first frequency band
An F filter, an AM-IF filter for limiting the output signal of the emitter follower circuit to a second frequency band, and an AM
And a switching signal generating circuit for generating a switching signal for switching the gain of the amplifier circuit according to a signal indicating reception or FM reception.
【0005】また、前記AMラジオ受信回路は前記AM
−RF信号を第1AM−IF信号に周波数変換する第1
周波数変換回路と、前記第1AM−IF信号を第2AM
−IF信号に周波数変換する第2周波数変換回路とを含
むダブルコンバージョン方式の受信回路であることを特
徴とする。さらに、前記増幅回路を前記FM−IFフィ
ルタ及び前記AM−IFフィルタに内蔵化することを特
徴とする。Further, the AM radio receiving circuit is provided with the AM
-First frequency conversion of RF signal into first AM-IF signal
A frequency conversion circuit and a second AM for the first AM-IF signal.
A double conversion type reception circuit including a second frequency conversion circuit for frequency-converting to an IF signal. Further, the amplifier circuit is incorporated in the FM-IF filter and the AM-IF filter.
【0006】[0006]
【発明の実施の形態】図1は本発明の実施の形態を示す
図であり、(16)はAM−RF増幅回路(1)または
FM−RF増幅回路(10)の出力信号のいずれか一方
の出力信号を選択する第1スイッチ、(17)は第1ス
イッチ(16)の出力信号をIF信号に変換するための
混合回路、(18)は局部発振信号を発生する局部発振
回路、(19)はゲインが可変され混合回路(17)の
出力信号を増幅する増幅回路、(20)は増幅回路(1
9)の出力信号が印加されるエミッタフォロア回路、
(21)はエミッタフォロア回路(20)の出力信号を
分岐するための第2スイッチ、(22)は第1及び第2
スイッチ(16)及び(21)を切り換えるため、及
び、ゲインを可変するための出力信号を発生する切換信
号発生回路である。尚、図2の従来例と同一の回路につ
いては、従来例と同一の符号を付し、説明を省略する。FIG. 1 is a diagram showing an embodiment of the present invention, in which (16) is one of the output signals of the AM-RF amplifier circuit (1) or the FM-RF amplifier circuit (10). Switch for selecting the output signal of (1), (17) a mixing circuit for converting the output signal of the first switch (16) into an IF signal, (18) a local oscillation circuit for generating a local oscillation signal, (19) ) Is an amplifier circuit for amplifying the output signal of the mixing circuit (17) with a variable gain, and (20) is an amplifier circuit (1
An emitter follower circuit to which the output signal of 9) is applied,
(21) is a second switch for branching the output signal of the emitter follower circuit (20), and (22) is first and second switches.
A switching signal generation circuit for generating an output signal for switching the switches (16) and (21) and for varying the gain. The same circuits as those in the conventional example of FIG. 2 are denoted by the same reference numerals as those in the conventional example, and the description thereof is omitted.
【0007】図1において、AM受信を示す信号が印加
されると、切換信号発生回路(22)はスイッチ切換信
号及びゲイン切換信号を発生し、スイッチ切換信号に応
じて第1及び第2スイッチ(16)及び(21)は図示
と逆の状態になり、増幅回路(19)のゲインは1とな
る。この状態において、受信AM−RF信号は、AM−
RF増幅回路(1)で増幅され、第1スイッチ(16)
を介して混合回路(17)に印加される。混合回路(1
7)で局部発振回路(18)からの局部発振信号によ
り、周波数が10.7MHzの第1AM−IF信号に周
波数変換される。第1AM−IF信号は、増幅回路(1
9)においてゲイン1で増幅され、エミッタフォロア回
路(20)に印加される。エミッタフォロア回路(2
0)の出力信号は、第2スイッチ(21)を介してAM
フィルタ(4)に印加され、図3(イ)の実線の如き周
波数帯域に制限される。AMフィルタ(4)の出力信号
は、第1AM−IF増幅回路(5)で増幅された後、第
2AM混合回路(6)で発振回路(7)の出力信号によ
り450KHzの第2AM−IF信号に周波数変換され
る。第2AM−IF信号は第2AM−IF増幅回路
(8)で増幅された後、AM検波回路(9)でAM検波
される。In FIG. 1, when a signal indicating AM reception is applied, a switching signal generating circuit (22) generates a switch switching signal and a gain switching signal, and the first and second switches (in accordance with the switch switching signal). 16) and (21) are in the opposite states to those shown, and the gain of the amplifier circuit (19) is 1. In this state, the received AM-RF signal is AM-
The first switch (16) is amplified by the RF amplifier circuit (1).
Is applied to the mixing circuit (17) via. Mixing circuit (1
In 7), the local oscillation signal from the local oscillation circuit (18) is frequency-converted into a first AM-IF signal having a frequency of 10.7 MHz. The first AM-IF signal is transmitted to the amplifier circuit (1
In 9), it is amplified with a gain of 1 and applied to the emitter follower circuit (20). Emitter follower circuit (2
0) output signal is sent to the AM via the second switch (21).
It is applied to the filter (4) and is limited to the frequency band as shown by the solid line in FIG. The output signal of the AM filter (4) is amplified by the first AM-IF amplifier circuit (5) and then converted into a second AM-IF signal of 450 KHz by the output signal of the oscillation circuit (7) in the second AM mixing circuit (6). Frequency converted. The second AM-IF signal is amplified by the second AM-IF amplifier circuit (8) and then detected by the AM detection circuit (9).
【0008】また、FM受信を示す信号が印加される
と、切換信号発生回路(22)はスイッチ切換信号及び
ゲイン切換信号を発生せず、その為、第1及び第2スイ
ッチ(16)及び(21)は図示の状態となり、増幅回
路(19)のゲインはGになる。この状態において、受
信FM−RF信号はFM−RF増幅回路(10)で増幅
され、第1スイッチ(16)を介して混合回路(17)
に印加される。混合回路(17)において、局部発振回
路(18)からの局部発振信号により中心周波数が1
0.7MHzのFM−IF信号に周波数変換される。混
合回路(17)の出力信号は、増幅回路(19)におい
てゲインGで増幅され、エミッタフォロア回路(20)
に印加される。エミッタフォロア回路(20)の出力信
号は、第2スイッチ(21)を介して、FMフィルタ
(13)に印加され、図3(イ)の点線の如き周波数帯
域に制限される。FMフィルタ(13)の出力信号は、
FM−IF増幅回路(14)で増幅された後、FM検波
回路(15)でFM検波される。When a signal indicating FM reception is applied, the switching signal generating circuit (22) does not generate the switch switching signal and the gain switching signal, so that the first and second switches (16) and ( 21) becomes the illustrated state, and the gain of the amplifier circuit (19) becomes G. In this state, the received FM-RF signal is amplified by the FM-RF amplifier circuit (10) and is mixed via the first switch (16) with the mixing circuit (17).
Is applied to In the mixing circuit (17), the center frequency is 1 due to the local oscillation signal from the local oscillation circuit (18).
The frequency is converted into a 0.7 MHz FM-IF signal. The output signal of the mixing circuit (17) is amplified by the gain G in the amplification circuit (19), and the emitter follower circuit (20).
Is applied to The output signal of the emitter follower circuit (20) is applied to the FM filter (13) via the second switch (21) and is limited to the frequency band as shown by the dotted line in FIG. The output signal of the FM filter (13) is
After being amplified by the FM-IF amplification circuit (14), it is FM-detected by the FM detection circuit (15).
【0009】AM受信回路にダブルコンバージョン方式
のうち、AM帯のRF信号を10.7MHzの第1AM
−IF信号に周波数変換するアップコンバージョン方式
を用いており、また、FM受信回路はFM帯のRF信号
を中心周波数10.7MHzのFM−IF信号に周波数
変換するものである。その為、局部発振回路(18)の
局部発振信号の変化は数MHzから数10MHzの間で
あり、そのような周波数範囲で変化可能な局部発振回路
を用いれば局部発振回路を一つとすることができ、その
結果、混合回路を一つとすることができる。また、局部
発振回路(18)をAM用局部発振回路とFM用局部発
振回路とから成り、AM受信及びFM受信に応じてそれ
ぞれの局部発振回路の出力信号を切り換える構成にして
も、混合回路を一つとすることができる。In the AM conversion circuit, the RF signal in the AM band of the double conversion system is transferred to the first AM of 10.7 MHz.
-The up-conversion method of frequency-converting to an IF signal is used, and the FM receiving circuit frequency-converts an RF signal in the FM band into an FM-IF signal having a center frequency of 10.7 MHz. Therefore, the change of the local oscillation signal of the local oscillation circuit (18) is between several MHz and several tens of MHz, and if the local oscillation circuit that can change in such a frequency range is used, one local oscillation circuit can be provided. As a result, there can be only one mixing circuit. Further, even if the local oscillation circuit (18) is composed of an AM local oscillation circuit and an FM local oscillation circuit and switches the output signals of the respective local oscillation circuits according to AM reception and FM reception, the mixing circuit is Can be one.
【0010】ところで、AM受信回路とFM受信回路と
では、トータルゲインが異なる。トータルゲインとは、
ラジオ受信機のRF増幅段からIF増幅段までのゲイン
を加算して得られる総合的なゲインである。トータルゲ
インが変化することにより弱電界時のS/N(信号対ノ
イズ比)が変化し、図3(ロ)の如くトータルゲインの
大または小により入力信号レベル及びノイズレベルが変
化する。即ち、図3(ロ)において、入力信号及びノイ
ズが実線の如く変化した場合を適値となるトータルゲイ
ンとすると、入力信号及びノイズレベルは、トータルゲ
インが大となると点線のように変化し、トータルゲイン
が小となると一点鎖線のように変化する。AM受信及び
FM受信によって、S/Nが最適となり、聴感上の良く
なるトータルゲインは異なる。AMまたはFMの受信に
応じて増幅回路(19)のゲインを切り換えているの
で、トータルゲインがそれぞれの受信に応じて適した値
になる。よって、混合回路(17)を一つとしても、S
/Nの良好なラジオ受信機を提供できる。図1において
は、増幅回路(19)のゲインをFM受信時に高くして
いるが、例えば、ラジオ受信機セットの仕向地に応じた
受信状況によってはAM受信時に増幅回路(19)のゲ
インを高くしてもよい。By the way, the total gain is different between the AM receiving circuit and the FM receiving circuit. What is total gain?
It is a total gain obtained by adding the gains from the RF amplification stage to the IF amplification stage of the radio receiver. As the total gain changes, the S / N (signal-to-noise ratio) in a weak electric field changes, and the input signal level and the noise level change depending on whether the total gain is large or small as shown in FIG. In other words, in FIG. 3B, assuming that the case where the input signal and the noise change as shown by the solid line is the total gain that is an appropriate value, the input signal and the noise level change like the dotted line when the total gain becomes large, When the total gain becomes small, it changes like the one-dot chain line. Depending on the AM reception and FM reception, the S / N is optimized and the total gain for improving the audibility is different. Since the gain of the amplifier circuit (19) is switched according to the reception of AM or FM, the total gain becomes a value suitable for each reception. Therefore, even if only one mixing circuit (17) is provided, S
It is possible to provide a radio receiver having a good / N. In FIG. 1, the gain of the amplifier circuit (19) is increased at the time of FM reception, but the gain of the amplifier circuit (19) is increased at the time of AM reception depending on the receiving situation according to the destination of the radio receiver set, for example. You may.
【0011】尚、一般に、AM受信及びFM受信のいず
れかを選択すると、選択された受信系統はオンし、選択
されない受信系統はオフする。この場合、一方の受信系
統に他方の受信系統に供給されるべき信号が印加されて
も悪影響は発生しないので、第1及び第2スイッチ(1
6)及び(21)を取り除くことができる。図4は、増
幅回路(19)と、AM及びFMフィルタ(4)及び
(13)との他の例である。但し、第1及び第2スイッ
チ(16)及び(21)を取り除いて構成された例であ
る。図4において、混合回路(17)の出力信号は、第
1フィルタ(23)で所定の周波数帯域に制限された
後、増幅回路(19)で増幅され、エミッタフォロワ回
路(20)を構成するトランジスタ(20’)のベース
に印加される。トランジスタ(20’)のエミッタから
発生するエミッタフォロワ回路(20)の出力信号は第
2及び第3フィルタ(24)及び(25)に印加され、
第2フィルタ(24)で図3(イ)の実線の如き周波数
帯域に制限され、第3フィルタ(25)で図3(イ)の
点線の如き周波数帯域に制限される。その後、第2フィ
ルタ(24)の出力信号はAMのIF増幅段に、第3フ
ィルタ(25)の出力信号はFMのIF増幅段に伝送さ
れる。また、AM及びFM受信に応じて、ゲイン切換信
号が切換信号発生回路(22)から発生し、増幅回路
(19)のゲインが切り換わる。また、増幅回路(1
9)や第2及び第3フィルタ(24)及び(25)の入
力抵抗はマッチングを良くするため等しい値に設定され
ている。Generally, when either AM reception or FM reception is selected, the selected reception system is turned on and the non-selected reception system is turned off. In this case, even if a signal to be supplied to the other receiving system is applied to one receiving system, no adverse effect occurs, so the first and second switches (1
6) and (21) can be removed. FIG. 4 is another example of the amplifier circuit (19) and the AM and FM filters (4) and (13). However, this is an example configured by removing the first and second switches (16) and (21). In FIG. 4, the output signal of the mixing circuit (17) is limited to a predetermined frequency band by the first filter (23) and then amplified by the amplification circuit (19) to form the emitter follower circuit (20). It is applied to the base of (20 '). The output signal of the emitter follower circuit (20) generated from the emitter of the transistor (20 ') is applied to the second and third filters (24) and (25),
The second filter (24) limits the frequency band as shown by the solid line in FIG. 3A, and the third filter (25) limits the frequency band as shown by the dotted line in FIG. After that, the output signal of the second filter (24) is transmitted to the IF amplification stage of AM and the output signal of the third filter (25) is transmitted to the IF amplification stage of FM. Further, a gain switching signal is generated from the switching signal generating circuit (22) in response to AM and FM reception, and the gain of the amplifier circuit (19) is switched. In addition, the amplifier circuit (1
9) and the input resistances of the second and third filters (24) and (25) are set to the same value in order to improve matching.
【0012】例えば、セラミックフィルタのような、フ
ィルタリング特性を良くする目的でフィルタリング素子
を直列接続して成るフィルタ回路に、図4の如き構成を
用いれば、第1フィルタ(23)の如く初段のフィルタ
をAM及びFM受信回路で共有化することができ、フィ
ルタリング素子を削減することができる。For example, if a configuration such as a ceramic filter in which filtering elements are connected in series for the purpose of improving the filtering characteristic is used as shown in FIG. 4, the first stage filter such as the first filter (23) is used. Can be shared by the AM and FM receiving circuits, and the number of filtering elements can be reduced.
【0013】[0013]
【発明の効果】以上述べた如く、本発明に依れば、AM
受信回路をダブルコンバージョン方式の受信回路とし、
周波数変換されたIF信号をAM受信またはFM受信に
応じてゲインが切り換わる増幅回路に印加するので、混
合回路を一つとすることができ、また、AM受信及びF
M受信にともにS/Nの良好な受信が可能になるラジオ
受信機を提供することができる。また、IC化した場合
には、混合回路のコイルを削減でき、外付け素子を削減
することができる。As described above, according to the present invention, the AM
The receiving circuit is a double conversion type receiving circuit,
Since the frequency-converted IF signal is applied to the amplifier circuit whose gain is switched according to AM reception or FM reception, one mixing circuit can be used, and the AM reception and F reception can be performed.
It is possible to provide a radio receiver that enables good reception of S / N for both M reception. Further, when integrated into an IC, the number of coils in the mixing circuit can be reduced and the number of external elements can be reduced.
【0014】また、前記増幅回路をAM及びFMのIF
フィルタに内蔵したので、フィルタリング素子を削減で
き、特に、IC化した場合外付け素子を削減できる。In addition, the amplifier circuit is an IF for AM and FM.
Since it is built in the filter, it is possible to reduce the number of filtering elements, and particularly to reduce the number of external elements when integrated into an IC.
【図1】本発明の実施の形態を示すブロック図である。FIG. 1 is a block diagram showing an embodiment of the present invention.
【図2】従来例を示す図である。FIG. 2 is a diagram showing a conventional example.
【図3】本発明を説明するための特性図である。FIG. 3 is a characteristic diagram for explaining the present invention.
【図4】本発明の要部を示すブロック図である。FIG. 4 is a block diagram showing a main part of the present invention.
1 AM−RF増幅回路 4 AMフィルタ 5 第1AM−IF増幅回路 6 第2AM混合回路 7 発振回路 8 第2AM−IF増幅回路 9 AM検波回路 10 FM−RF増幅回路 13 FMフィルタ 14 FM−RF増幅回路 15 FM検波回路 16 第1スイッチ 17 混合回路 18 局部発振回路 19 増幅回路 20 エミッタフォロア回路 21 第2スイッチ 22 切換信号発生回路 1 AM-RF amplification circuit 4 AM filter 5 1st AM-IF amplification circuit 6 2nd AM mixing circuit 7 Oscillation circuit 8 2nd AM-IF amplification circuit 9 AM detection circuit 10 FM-RF amplification circuit 13 FM filter 14 FM-RF amplification circuit 15 FM detection circuit 16 First switch 17 Mixing circuit 18 Local oscillation circuit 19 Amplifying circuit 20 Emitter follower circuit 21 Second switch 22 Switching signal generating circuit
Claims (3)
路とを備えるラジオ受信機において、 AM−RF信号またはFM−RF信号とを局部発振信号
に応じてIF信号に周波数変換する周波数変換回路と、 ゲインが可変であり該周波数変換回路の出力信号を増幅
する増幅回路と、 該増幅回路の出力信号が印加されるエミッタフォロア回
路と、 該エミッタフォロア回路の出力信号を第1の周波数帯域
に制限するFM−IFフィルタと、 該エミッタフォロア回路の出力信号を第2の周波数帯域
に制限するAM−IFフィルタと、 AM受信またはFM受信を示す信号に応じて、前記増幅
回路のゲインを切り換える切換信号を発生する切換信号
発生回路とを備えることを特徴とするラジオ受信機。1. A radio receiver including an AM radio receiving circuit and an FM radio receiving circuit, and a frequency conversion circuit for frequency-converting an AM-RF signal or an FM-RF signal into an IF signal according to a local oscillation signal. An amplifier circuit having a variable gain for amplifying an output signal of the frequency conversion circuit, an emitter follower circuit to which the output signal of the amplifier circuit is applied, and an output signal of the emitter follower circuit limited to a first frequency band FM-IF filter, an AM-IF filter that limits the output signal of the emitter follower circuit to a second frequency band, and a switching signal that switches the gain of the amplifier circuit according to a signal indicating AM reception or FM reception. And a switching signal generating circuit for generating the signal.
信号を第1AM−IF信号に周波数変換する第1周波数
変換回路と、前記第1AM−IF信号を第2AM−IF
信号に周波数変換する第2周波数変換回路とを含むダブ
ルコンバージョン方式の受信回路であることを特徴とす
る請求項1記載のラジオ受信機。2. The AM radio receiving circuit is the AM-RF.
A first frequency conversion circuit for frequency converting the signal into a first AM-IF signal; and a second AM-IF signal for converting the first AM-IF signal.
2. The radio receiver according to claim 1, wherein the radio receiver is a double conversion type reception circuit including a second frequency conversion circuit that frequency-converts a signal.
び前記AM−IFフィルタに内蔵化することを特徴とす
る請求項1または2記載のラジオ受信機。3. The radio receiver according to claim 1, wherein the amplifier circuit is built in the FM-IF filter and the AM-IF filter.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP07343416A JP3075971B2 (en) | 1995-12-28 | 1995-12-28 | Radio receiver |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP07343416A JP3075971B2 (en) | 1995-12-28 | 1995-12-28 | Radio receiver |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH09186618A true JPH09186618A (en) | 1997-07-15 |
JP3075971B2 JP3075971B2 (en) | 2000-08-14 |
Family
ID=18361351
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP07343416A Expired - Fee Related JP3075971B2 (en) | 1995-12-28 | 1995-12-28 | Radio receiver |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3075971B2 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2006013980A1 (en) * | 2004-08-06 | 2006-02-09 | Yazaki Corporation | Receiving system |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP4896002B2 (en) | 2005-03-01 | 2012-03-14 | パナソニック株式会社 | Electronic display medium and screen display control method used for electronic display medium |
JP5418093B2 (en) | 2009-09-11 | 2014-02-19 | ソニー株式会社 | Display device and control method |
KR101984805B1 (en) * | 2014-03-31 | 2019-06-03 | 이종섭 | Mobile terminal and method for controlling display the same |
-
1995
- 1995-12-28 JP JP07343416A patent/JP3075971B2/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2006013980A1 (en) * | 2004-08-06 | 2006-02-09 | Yazaki Corporation | Receiving system |
JP2006050450A (en) * | 2004-08-06 | 2006-02-16 | Yazaki Corp | Reception system |
Also Published As
Publication number | Publication date |
---|---|
JP3075971B2 (en) | 2000-08-14 |
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