JP4552321B2 - Audio signal reproduction circuit and audio equipment having interference wave removing means - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an audio signal reproduction circuit and an audio device having an interference wave removing means, and more particularly, an interference wave removing means for preventing a 900 MHz band interference wave from being mixed into an operational amplifier through a signal line and a power supply line. The present invention relates to an audio signal reproduction circuit and an audio device.
[0002]
[Prior art]
The interference wave removing means in the audio signal reproduction circuit in the prior art is (1) one that prevents the intrusion of the interference wave by providing a shield on the housing, or (2) the interference by applying a filter means to the audio signal containing the interference wave. There are things that remove waves.
(1) In order to remove the interference wave by shielding the casing, it is well known that the panel uses a plastic panel with a conductive paint or a metal panel.
[0003]
On the other hand, there is an “EN55020-A12” standard defined as a radiation restriction of interference waves of a mobile phone of GSM (Global System for Mobile communication). This “EN55020-A12” standard is a regulation related to EMC among standards (including safety, EMC, etc.) prepared by CENELEC (European Electrotechnical Commission), and is an EMS standard (STD) called immunity. ) Is “EN55020”. This is an additional standard that takes into account the influence of GSM that is prevalent in Europe in recent revisions to the standard. Specifically, electronic devices such as audio devices are placed in shield rooms, A radiated electromagnetic field is applied to a measurement sample (audio device), and OK or NG determination is performed by observing the influence. A specific method for measuring will be described later.
[0004]
Such EMC and safety standards can be divided into international standards, regional standards, country standards, and product standards. First, international standards include IEC (International Electrotechnical Commission) and CISPR (International Special Committee on Radio Interference), and regional standards include NAFTA (North American Free Trade Area), EU (European Union) + NFTA (European Free Trade). Alliance). Among them, USA, Canada and Mexico comply with NAFTA standards, Germany, UK, France and 12 other countries comply with EU standards, and Finland, Norway, Sweden and 3 other countries comply with NFTA standards. ing. Of these, countries that comply with EU and NFTA standards participate in CENEELEC, and products must comply with the EN55020 standard created by CENELEC.
[0005]
In compliance with this EN55020 standard, there is a matter that is added (in 20001), which is referred to as so-called immunity test, and the tolerance (disturbance exclusion capability) of the target product against interference from other devices. It is something to regulate. This regulation consists of four items, of which there is a “Radio frequency electromagnetic field carrier” test. This test has been added for the purpose of defining the interference resistance from GSM mobile phones.
[0006]
In this test, “900 MHz ± 5 MHz” is imitated as a disturbing wave and radiated from an antenna by applying “200 Hz” pulse modulation (duty ratio 50%) to an audio device (for example, VCR: Video Cassette). (Recorder). The intensity of the interference wave to be applied is 3 V / m at the side closest to the antenna of the product, and the intensity of this interference wave is that of electrolysis at a point 1.8 m away from the GSM of 2 watt output. Expressed in strength. Judgment whether the product is OK or NG is based on the condition that recording / reproduction is performed under this interference wave, the image has no interference such as occurrence of a beat, and the audio S / N ratio is 40 dB or more. Become.
[0007]
As shown in FIG. 7, an actual measurement technique for satisfying such various conditions is to prepare a shield room 20, and as a measuring device, an interference wave generator 21, an RF signal generator 22, a monitor 23, an audio S / N meter 24 is prepared. The interference wave generator 21 can generate an interference wave from the antenna 125 in the shield room 20. As shown in FIG. 8, this interference wave is a modulated interference wave obtained by applying a pulse modulation of 200 Hz (duty ratio 50%) to an interference wave of 900 MHz ± 5 MHz.
[0008]
In the shield room 20, a set (here, VCR) is placed on a table having a height of 80 cm, and the electric field intensity of the interference wave from the antenna 125 connected to the interference wave generator 21 is set on the antenna 125 side. Set to 3 V / m at the end of (VCR). Specifically, the measurement is performed with the four surfaces of the front (front), rear, and both sides of the set (VCR) facing the antenna 125.
[0009]
The determination condition needs to satisfy the following condition under an interference level of 3 dB / m. (1) There is no image quality deterioration such as beat on the monitor 23 in the video. {Circle around (2)} For voice, the voice S / N ratio is 40 dB or more.
[0010]
Here, the VCR that is a set, that is, the audio reproduction circuit 4A mounted in the audio device is connected to the audio erase head 6, the full erase head 7, and the audio head 9, as shown in FIG. The operational amplifier circuit 5 is an operational amplifier built in the audio IC.
[0011]
The operational amplifier circuit 5 receives and amplifies signals from the heads 6, 7, and 9 and the 2.3 volt power source 12 that generates the 2.3 volt reference voltage by inputting the power source voltage from the 5 volt switching regulator 11. The equalizer amplifier 13 and the line amplifier 14 are configured.
[0012]
The audio reproduction circuit 4A having such a configuration is connected in such a manner that the audio erase head 6, the full erase head 7 and the capacitor C1 are connected in parallel, and the intermediate point between the full erase head 7 and the capacitor C1 is a bias transformer. 8, one terminal of the bias transformer 8 is connected to one side of the audio erase head 6 and the full erase head 7 connected in parallel, and the other terminal is connected to the resistor R 1 and the switch 10. Are connected to the other ground side of the audio erase head 6 and the full erase head 7 connected in parallel. An intermediate point between the switch 10 and the resistor R1 is connected to one terminal of the audio head 9, and the other terminal of the audio head 9 is connected to one input terminal of the equalizer amplifier 13 via a capacitor C2. One input terminal of the equalizer amplifier 13 is connected to the 2.3 volt power supply 12 via a load Z1. The other input terminal of the equalizer amplifier 13 is grounded via a load Z2, and is connected by feedback through its output terminal, a load Z3. The output terminal of the equalizer amplifier 13 is grounded via the load Z4 and is connected to the input terminal of the line amplifier 14 via the load Z4. The output terminal of the line amplifier 14 is connected to an external terminal (not shown).
[0013]
In the operational amplifier circuit 5 having such a configuration and connection state, signals from the heads 6, 7 and 9 are amplified by the equalizer amplifier 13 and can be output via the line amplifier 14.
[0014]
[Problems to be solved by the invention]
However, as described in the prior art, (1) in the configuration in which the interference wave is removed by shielding the casing, (a) the one using the plastic panel coated with the conductive paint has a variation in the contact state in mass production. However, there are problems that environmental considerations are necessary in order to use solvents, etc., and that the cost is high due to the high unit price.
[0015]
In addition, when (b) a metal panel is used, there are problems such as large variations in contact state in mass production, high cost due to high unit price, and restrictions on the disk.
[0016]
Further, (2) those that remove the interference wave by applying filter means to the audio signal including the interference wave, the frequency of the interference wave (200 Hz and its modulation wave) enters the band of the audio signal. There is a problem that it is impossible to remove only the interference wave component.
[0017]
That is, in the above-described audio reproduction circuit 4A described with reference to FIG. 8, when a modulation interference wave obtained by modulating a frequency of 900 ± 5 MHz based on the “EN55020-A12” standard at 200 Hz with a duty of 50% is applied. Considering the influence on the power supply line and the signal line, first, the first modulation interference wave affecting the power supply line, the second modulation interference wave affecting the signal line of the audio head 9, and the full erase head 7. When the third modulation interference wave affecting the signal line of the audio erase head 6 is divided into the third modulation interference wave affecting the signal line of the audio erase head 6, these modulation interference waves affect the circuit as shown below. give.
[0018]
The first modulated disturbance wave affects the switching regulator 11 itself, which is a 5 volt power supply voltage, and a signal including the disturbance wave signal flows in the power supply line, which is a 2.3 volt reference power supply 12 and a load Z1 in the circuit. To the equalizer amplifier 13 (P1 → P2 → P3 → P4).
[0019]
The second modulated disturbing wave affects the audio head 9, and a signal including the disturbing signal superimposed on the connected signal line flows, which is input to the equalizer amplifier 13 via the capacitor C2. (P5 → P6 → P7).
[0020]
The third modulated interference wave affects the full erase head 7, and a signal including the interference signal superimposed on the connected signal line flows, which is a bias transformer 8, a resistor R 1, an audio head 9. Then, the signal is input to the equalizer amplifier 13 via the capacitor C2 (P8 → P9 → P10 → P11 → P12 → P13). In addition, a signal including an interference wave signal superimposed in the full erase head 7 flows and is input to the equalizer amplifier 13 via the capacitor C1, the ground side line, and the load Z2 (P8 → P14 → P15 → P16). Further, the signal flowing through the ground side line is input to the line amplifier 14 via the load Z4 (P15 → P17 → P18).
[0021]
The fourth modulation disturbing wave affects the audio erase head 6, and a signal including the disturbing wave flows in the connected signal line, which is applied to the bias transformer 8, the resistor R1, the audio head 9, and the capacitor C2. To the equalizer amplifier 13 (P19 → P20 → P21 → P22 → P23 → P24). The signal including the interference signal superimposed on the audio erase head 6 is input to the equalizer amplifier 13 via the capacitor C1, the ground side line, and the load Z2 (P19 → P20 → P25 → P26 → P27). Further, the signal including the interference wave signal flowing through the ground side line is input to the line amplifier 14 via the load Z4 (P26 → P28 → P29).
[0022]
Since the interference wave signal that has entered the equalizer amplifier 13 and the line amplifier 14 in this way cannot be removed by the equalizer amplifier 13, it is directly amplified as a signal, fed back through the load Z3, and amplified. The signal is input to the line amplifier 14 via the load Z4 (S1->S2->S3-> S4, S1->S6-> S7). The signal input to the line amplifier 14 cannot be removed in the line amplifier 14 in the end, and is output as it is with the interference signal included (O1).
[0023]
As described above, when an interference wave is added during audio reproduction, the interference wave entering from various paths as well as the reproducing head system is detected in the audio IC, that is, by the equalizer amplifier 13 and the line amplifier 14 of the operational amplifier circuit 5. And as shown in FIG. 10, it appears as a signal component of 200 Hz, and the S / N ratio is deteriorated. Since the low frequency component of 200 Hz is in the band of the actual signal used for the audio signal, it cannot be removed by a filter or the like. Therefore, if the signal is input to the equalizer amplifier 13 that amplifies the signal, it is extremely difficult to remove the interference wave signal, and the accuracy of the signal is deteriorated. In FIG. 9, a 200 Hz interference wave signal that has entered with the actual signal is amplified, amplified as a peak signal, and reproduced, for example, a beat sound is output.
[0024]
Therefore, it is possible to eliminate the influence (side effect) on the desired signal by removing the interference wave before it is amplified and converted, and the filter type structure mounted on the substrate is stable without depending on contact etc. There is a problem that must be solved to increase the degree and to reduce the cost.
[0025]
[Means for Solving the Problems]
In order to solve the above-described problems, an audio signal reproduction circuit and an audio device provided with an interference removal unit according to the present invention are configured as follows.
[0026]
(1) A power supply that generates a reference voltage, Equalizer amplifier that amplifies the signal obtained by the head And line amplifier as output amplifier In an audio reproduction circuit having a connection form for supplying a signal and power by a signal line and a power line to an operational amplifier provided with The power line is connected to the power source and / or the power line before the inlet; and The signal line and Said The power line is Equalizer amplifier and line amplifier At the entrance and / or before the entrance Said Power line and Said The signal line is provided with filter means for detecting and attenuating the frequency band of 900 ± 5 MHz band. , An audio signal reproduction circuit comprising interference wave removing means.
(2) The filter means incorporates a T-type filter at the input of the signal line connected to the input terminal of the equalizer amplifier. , (1) An audio signal reproduction circuit comprising the interference wave removing means described in (1).
(3) The T-type filter is composed of a coil and a capacitor, and two coils connected in series are inserted between the signal line and the input terminal of the equalizer amplifier, and one side of the capacitor is inserted at an intermediate position of the coil. And the other side of the capacitor is grounded. , (2) An audio signal reproduction circuit comprising the interference wave removing means described in (2).
(4) The coil is a 47 nH inductor. , (1) An audio signal reproduction circuit comprising the interference wave removing means described in (1).
(5) The filter means includes a filter having a coil inserted in a signal line connected to the head. , (2) An audio signal reproduction circuit provided with the disturbance removing means.
[0027]
(6) An audio device comprising recording / reproducing means for recording / reproducing an audio signal, and interference wave removing means for removing the interference wave signal when the recording / reproducing means reproduces the interference signal, wherein the interference wave removing means , A power supply that generates a reference voltage, Equalizer amplifier that amplifies the signal obtained by the head And line amplifier as output amplifier Operational amplifier with Of the power supply line connected to the power supply and the power supply line before the entrance, and the equalizer amplifier and the line amplifier of the operational amplifier Signal line connected to the power supply line and / or before the entrance Said Power line and Said The signal line is provided with filter means for detecting and attenuating the 900 MHz frequency band. , Audio equipment.
(7) The filter means incorporates a T-type filter at the entrance of the signal line connected to the input terminal of the equalizer amplifier. (6) described Audio equipment.
(8) The T-type filter is composed of a coil and a capacitor, and two coils connected in series are inserted between the signal line and the input terminal of the equalizer amplifier, and one side of the capacitor is inserted at an intermediate position of the coil. And the other side of the capacitor is grounded. , (7) The audio device according to the description.
(9) The coil is a 47 nH inductor. , (6) The audio device according to the description.
(10) The filter means includes a filter in which a coil is inserted in a signal line connected to the head. , (7) The audio device according to the description.
[0028]
As described above, by providing the filter means in the power supply line and the signal line before entering the operational amplifier circuit in the audio signal reproducing circuit, it is possible to remove or attenuate the 900 MHz band interference signal before processing the signal. It is not affected or practically affected by a so-called 900 MHz band modulated low frequency band, for example, a 200 Hz band interference signal, which is the same as a regular amplified signal that cannot be attenuated or removed by the operational amplifier circuit. Amplification can be performed within a negligible range.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of an audio signal reproduction circuit and audio equipment provided with interference wave removing means according to the present invention will be described with reference to the drawings.
[0030]
The audio signal reproducing circuit according to the present invention is an electronic device, particularly an AV device subject to regulation based on the “EN55020-A12” standard described in the prior art, an audio device in the embodiment, for example, a VTR (Video Tape Recorder), a tuner. An electronic device having an analog (AM modulation) audio recording system such as a video camera (VHS-C), etc., which will be regulated in the future In the example it can be used for audio equipment.
[0031]
The audio device 1 according to the embodiment affects the audio signal reproduced by the recording / reproducing unit 2 including the audio signal reproducing circuit capable of recording and reproducing the audio signal as shown in FIG. It is composed of an interference wave removing unit 3 which is an interference wave removing means for removing the interference wave, and the others are omitted.
[0032]
As shown in FIG. 2, the audio reproduction circuit 4 includes an audio erase head 6, a full erase head 7, and an operational amplifier circuit 5 that is an operational amplifier built in an audio IC chip connected to the audio head 9. .
[0033]
The operational amplifier circuit 5 receives a power supply voltage from a 5 volt switching regulator 11 and generates a 2.3 volt reference voltage, and a T-type filter 15 which is a filter means which is a disturbance wave removing means. In addition, an equalizer amplifier 13 that receives and amplifies signals from the coils and heads 6, 7, and 9 and a line amplifier 14 are included.
[0034]
In the connection state of the audio reproducing circuit 4 having such a configuration, the audio erase head 6, the full erase head 7, and the capacitor C1 are connected in parallel. Between the audio erase head 6 and the full erase head 7, a first coil 16a, which is a filter for removing interference waves, is inserted. A second coil 16b, which is a filter for removing interference waves, is inserted between the full erase head 7 and the capacitor C1. An intermediate point between the second coil 16b and the capacitor C1 is connected to an intermediate position of the bias transformer 8. One terminal of the bias transformer 8 is connected to the ground-side line of the audio erase head 6 and the full erase head 7 connected in parallel, and the other terminal is a resistor R1 and a third coil 16c which is a filter for eliminating interference waves. The audio erase head 6 and the full erase head 7 connected in parallel through the switch 10 are connected. An intermediate point between the third coil 16c and the switch 10 is connected to one terminal of the audio head 9, and the other terminal of the audio head 9 is a capacitor C2, a fourth coil 16d that is a filter for removing interference waves, It is connected to one input terminal of the equalizer amplifier 13 through a T-type filter 15 which is a wave removing filter. The T-type filter 15 includes fifth and sixth coils 16e and 16f and a capacitor C3, which are connected in series between the fourth coil 16d provided on the signal line and the input terminal of the equalizer amplifier 13. Connection configuration in which the fifth and sixth coils 16e and 16f are inserted, one side of the capacitor C3 is connected to an intermediate position between the fifth and sixth coils 16e and 16f, and the other side of the capacitor C3 is grounded It has become. The middle point of the fifth and sixth coils 16e and 16f of the T-type filter 15 is connected to the 2.3 volt power source 12 through a load Z1. Seventh and eighth coils 16g and 16h, which are filters for removing interference waves connected in series, are inserted in the power supply line between the 2.3 volt power supply 12 and the external 5 volt switching regulator 11. . The other input terminal of the equalizer amplifier 13 is grounded via a ninth coil 16i, which is an interference wave removing filter, and a load Z2, and the output terminal of the equalizer amplifier 13 is connected to the first terminal via a load Z3. Nine coils 16i and a load Z2 are connected to an intermediate point. The output terminal of the equalizer amplifier 13 is grounded via a load Z4, and is connected to the input terminal of the line amplifier 14 via the load Z4 and a tenth coil 16j which is a filter for eliminating interference waves. Yes. The output terminal of the line amplifier 14 is connected to an external terminal (not shown).
[0035]
In the audio signal reproduction circuit 4 having such a configuration and connection state, signals from the heads 6, 7, and 9 can be amplified by the equalizer amplifier 13 and output via the line amplifier 14. First to fourth, seventh to tenth coils 16a to 16j and a T-type filter 15 for attenuating signals in the 900 ± 5 MHz band are supplied to a signal line for input to the circuit 5 and a power supply line for supplying power. By providing, the interference wave signal can be removed or attenuated before being input to the operational amplifier circuit 5.
[0036]
Here, the path of the interference wave signal to be removed or attenuated will be described with reference to FIG. The interference wave signal is obtained by modulating a frequency of 900 ± 5 MHz based on the “EN55020-A12” standard explained in the above-described prior art at 200 Hz with a duty of 50%. The second modulation interference wave affecting the signal line of the audio head 9, the third modulation interference wave affecting the full erase head 7, and the signal line of the audio erase head 6. It can be divided into the fourth modulation interference wave, and these modulation interference waves are attenuated on the circuit as shown below.
[0037]
The first modulation disturbing wave affects the 5 volt switching regulator 11 itself, which is the seventh and eighth coils 16g provided on the power supply line between the switching regulator 11 and the 2.3 volt reference voltage 12. , 16h, and further attenuated by the T-type filter 15 via the 2.3 volt reference voltage 12 and the load Z1 in the circuit and input to the equalizer amplifier 13 (P101 → P102 → P103 → P104).
[0038]
The second modulated interfering wave is superimposed on the signal line of the audio head 9, and the signal including the interfering wave signal is attenuated by the fourth coil 16 d through the capacitor C 2, and further, by the T-type filter 15. Attenuated and input to the equalizer amplifier 13 (P105 → P106 → P107).
[0039]
The third modulated interference wave is superimposed on the signal line of the full erase head 7, but is attenuated by the second coil 16b, and further via the bias transformer 8 and the resistor R1, and further to the third coil 16c. Is attenuated by the audio head 9, the capacitor C2, and the fourth coil 16d, is attenuated by the T-type filter 15, and is input to the equalizer amplifier 13 (P108 → P109 → P110 → P111 → P112 → P113). The signal superimposed and attenuated on the full erase head 7 is grounded on the capacitor C1 and ground side (P108 → P114 → P115 → P116).
[0040]
The fourth modulated interference wave is attenuated by the first and second coils 16 a and 16 b when the interference wave is superimposed on the signal line of the audio erase head 6, and further via the bias transformer 8 to the third coil. Attenuated by 16c, attenuated by the fourth coil 16d via the resistor R1, the audio head 9, and the capacitor C2, and further attenuated by the T-type filter 15 and input to the equalizer amplifier 13 (P117 → P118 → P119 → P120 → P121 → P122 → P123). The interference signal superimposed on the audio erase head 6 is attenuated by the first and second coils 16a and 16b, and then flows to the capacitor C1 and the ground side line to be erased (P117 → P118 → P124 → P125). → P126).
[0041]
Then, the signal in which the interference wave is attenuated by the coil and the T-type filter 15 in this way enters the equalizer amplifier 13 and the line amplifier 14 and is amplified together with the normal signal, and is fed back and amplified through the load Z3. The signal is input to the line amplifier 14 via the load Z4 and the tenth coil 16j (S101 → S102 → S103, S101 → S104 → S105). As described above, when the load Z4 is located outside the operational amplifier circuit 5, the load Z4 is affected by an interference wave, and therefore, after being attenuated by the tenth coil 16j at the entrance to the line amplifier 14, the line amplifier 14 is attenuated. Is input. Since the signal input to the line amplifier 14 is in a state in which the interference wave signal is attenuated, the interference wave signal is output in a state that can be ignored (O101).
[0042]
As shown in FIG. 3, the signal amplified by the equalizer amplifier 13 is amplified in a state where the interference wave is attenuated on the input side. (200 Hz noise) can be made a signal that is almost negligible compared to the peak signal shown in FIG. 10 described in the prior art, and the influence on the regular signal can be reduced accordingly. It will be negligible for practical use. Therefore, it is possible to ensure a so-called S / N ratio of 40 dB conforming to the above-mentioned “En55020-A12” standard.
[0043]
As described above, even when an interference wave is applied during reproduction of an audio signal, it is possible to attenuate the interference wave entering from various paths as well as the reproducing head system. As the coil for attenuating, an inductor that effectively acts on an interference wave of 700 ± 5 MHz regulated by the standard of “EN55020-A12”, that is, an inductor of 47 nH is preferable. This inductor is 4 to 6 As shown in FIG. 4, the relationship between the inductor coefficient Q and the frequency is, for example, “40” when the frequency is 0.4 GHz, and the relationship between the impedance and the frequency is 104 to 105Ω when the frequency is 1.4 GHz. As long as the part has a characteristic that draws a steep slope with 0.4 GHz as a boundary in relation to the frequency.
[0044]
In the embodiment, the 47 nH inductor is used as the filter means for attenuating the interference signal. However, the present invention is not limited to this. For example, a device such as a ferrite bead for attenuating the 900 MHz band frequency may be used. The T-type filter provided at the entrance of the equalizer amplifier is a combination of discrete components. Without being limited thereto, a single filter having a three-terminal structure having a filtering characteristic for the 900 MHz band may be used.
[0045]
【The invention's effect】
As described above, the audio signal reproduction circuit and the audio device provided with the interference wave removing unit according to the present invention include the filter unit for attenuating the 900 MHz band interference signal in the signal line and the power line at the entrance of the operational amplifier. Thus, even a signal having the same frequency band as the signal can be removed or attenuated before being input to the operational amplifier, so that a circuit configuration and equipment compliant with the “EN55020-A12” standard can be obtained. effective.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing a configuration of an audio device including an audio signal reproduction circuit according to the present invention.
FIG. 2 is a schematic block diagram showing a configuration of the audio signal reproduction circuit and a path of a disturbing wave signal due to the disturbing wave.
3 is a spectrum of an interfering wave signal measured by a measuring method based on the “EN55020-A12” standard in the circuit configuration in FIG. 2;
FIG. 4 is a graph showing characteristics of an inductor coefficient Q and a frequency of a coil employed in filter means for removing and attenuating the interference wave signal.
FIG. 5 is a graph showing the characteristics of impedance (Ω) and frequency of a coil employed in filter means for removing and attenuating the interfering wave signal.
FIG. 6 is a graph showing the characteristics of inductance (nH) and frequency of a coil employed in the filter means for removing and attenuating the interference wave signal.
FIG. 7 is an explanatory diagram illustrating a measurement method based on the “En55020-A12” standard.
FIG. 8 is a block diagram of an audio signal reproduction circuit that is not provided with means for removing or attenuating a 900 MHz band jamming signal in the prior art.
9 is an actual measurement value showing an output waveform of a signal based on the “EN55020-A12” standard in the circuit in FIG. 8;
10 is a schematic block diagram showing the configuration of the audio signal reproduction circuit shown in FIG. 8 and the path of an interference signal due to the interference.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1; Audio equipment, 2; Recording reproduction | regeneration part, 3; Interference removal part, 4; Audio signal reproduction circuit, 5; Operational amplifier circuit, 6; Audio erase head, 7: Full erase head, 8; Bias transformer, 9; Audio head, 10; switch, 11; switching regulator, 12; 2.3 volt reference power supply, 13; equalizer amplifier, 14; line amplifier, 15; T-type filter, 16a to 16j;

Claims (10)

Audio playback having a connection configuration in which a signal and power supply are supplied to an operational amplifier having a power supply for generating a reference voltage, an equalizer amplifier for amplifying a signal obtained by the head , and a line amplifier as an output amplifier. In the circuit
The inlet and or inlet prior to said power supply line wherein the power line is connected to the power source, and the signal lines and the inlet and or inlet prior to said power supply line and the connecting to said power supply line is the equalizer amplifier and said line amplifiers the signal line, a filter is provided means for detecting the attenuation frequency band of 900 ± 5 MHz band, the audio signal reproducing circuit having an interference wave removal unit. It said filter means, incorporating a T-type filter to the input of a signal line connected to the input terminal of the equalizer amplifier, the audio signal reproducing circuit having an interference wave removal unit of claim 1, wherein. The T-type filter is composed of a coil and a capacitor. Two coils connected in series are inserted between the signal line and the input terminal of the equalizer amplifier, and one side of the capacitor is connected to an intermediate position of the coil. a connection configuration of grounding the other side of the capacitor, according to claim 2 audio signal reproducing circuit having an interference wave removal unit as claimed. The coil is an inductor of 47 nH, the audio signal reproducing circuit having an interference wave removal unit of claim 1, wherein. 3. The audio signal reproduction circuit having an interference removing unit according to claim 2 , wherein the filter unit includes a filter having a coil inserted in a signal line connected to the head. An audio device comprising recording / reproducing means for recording / reproducing an audio signal, and interference wave removing means for removing an interference wave signal when reproducing by the recording / reproducing means,
The interference wave removal means inlet of the power supply line connecting the power supply, equalizer amplifier for amplifying a signal obtained by the head, and the power source of the op amp with line amplifier as an output amplifier for generating a reference voltage and or the entrance before the power supply line, and the equalizer amplifier and the inlet of the signal lines and the power supply line connected to said line amplifiers and or inlet prior to said power line and said signal line of said operational amplifier, a frequency of 900MHz band a filter is provided means for detecting the attenuation band, audio equipment. The audio device according to claim 6 , wherein the filter means incorporates a T-type filter at an entrance of a signal line connected to an input terminal of the equalizer amplifier. The T-type filter is composed of a coil and a capacitor. Two coils connected in series are inserted between the signal line and the input terminal of the equalizer amplifier, and one side of the capacitor is connected to an intermediate position of the coil. a connection configuration of grounding the other side of the capacitor, according to claim 7, wherein the audio device. The coil is an inductor of 47 nH, audio equipment of claim 6, wherein. 8. The audio device according to claim 7 , wherein the filter means includes a filter in which a coil is inserted into a signal line connected to the head.

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