JP3581787B2 - Television tuner - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a shared television tuner capable of receiving both PAL (B / G) and SECAM (L) television broadcasts (hereinafter, abbreviated as TV broadcasts). The present invention relates to a television tuner that can prevent deterioration of reception performance caused by different intermediate frequencies between bands.
[0002]
[Prior art]
TV broadcasting systems adopted in Europe include a PAL (B / G) system adopted in Germany and the like and a SECAM (L) system adopted in France and the like. Shared television tuners capable of receiving TV broadcasts have already been developed.
[0003]
FIG. 3 is a block diagram including a partial circuit diagram showing an example of the configuration of the known shared television tuner.
[0004]
As shown in FIG. 3, the known television tuner includes an input terminal 61, an antenna (ANT) tuning circuit 62, a high frequency amplifier circuit (RFAMP) 63, a high frequency double tuning circuit 64, and a mixing circuit (MIX) 65. A local oscillation circuit (OSC) 66, an intermediate frequency tuning circuit 67, a tuning IC 69, and an output terminal 70.
[0005]
The high-frequency double-tuning circuit 64 has an input terminal connected to the output terminal of the high-frequency amplifier circuit 63, an output terminal connected to the first input terminal of the mixing circuit 65, and variable capacitance diodes 64 ₁ , 64 ₂ and an inductor 64. and ₃ to 64 _7, the capacitor 64 ₈ to _{64 12,} consists the switching diode ₆₄ 13, _{64 14,} resistors ₆₄ 15, _{64 16..} Further, the output terminal of the local oscillation circuit 66 is connected to the second input terminal of the mixing circuit 65.
[0006]
Intermediate frequency tuning circuit 67 has an input terminal connected to the output terminal of the mixing circuit 65, the output terminal is connected to the output terminal 70, an inductor 67 _1, has a capacitor 67 ₂ to 67 _4.
[0007]
The IC 69 includes a band decoder in addition to the PLL circuit, and has a tuning voltage terminal TU and band switching terminals BS2 and BS3. These terminals are connected to the high frequency double tuning circuit 64 and the local oscillation circuit 66, respectively. Have been. The tuning voltage terminal TU generates a tuning voltage, the band switching terminal BS2 generates a positive voltage when a VHF high band TV broadcast is selected, and the band switching terminal BS3 generates a positive voltage when a VHF low band TV broadcast is selected. Occurs.
[0008]
The known shared television tuner having the above configuration operates as follows.
[0009]
With respect to the received signal applied to the input terminal 61, a received signal of a desired channel is selected in the antenna tuning circuit 62, and is amplified in the high frequency amplifier circuit 63. From the amplified reception signal, a reception signal of a desired channel is further selected in a high-frequency double tuning circuit 64, and mixed with a local oscillation signal supplied from a local oscillation circuit 66 in a mixing circuit 65 to be converted into an intermediate frequency signal. . As the intermediate frequency signal, an intermediate frequency signal having a predetermined frequency is selected in the intermediate frequency tuning circuit 67 and output from the output terminal 70.
[0010]
Therefore, when a TV broadcast in the VHF low band is selected, a positive voltage is output from the band switching terminal BS3 of the IC 69, and the high voltage causes the high-frequency double-tuned circuit 64 to turn off the switching diodes 64 ₁₃ and 64 ₁₄ respectively. variable capacitance diodes ₆₄ 1, 64 _2, the inductor ₆₄ 3, 64 _4, the capacitor ₆₄ 8, 64 _9, the inductor 64 ₅ to 64 _7, takes the form of capacitor _{64 10} is inserted and connected.
[0011]
On the other hand, when a TV broadcast in the VHF high band is selected, a positive voltage is output from the band switching terminal BS2 of the IC 69, and the high voltage causes the high-frequency double tuning circuit 64 to turn on the switching diodes 64 ₁₃ and 64 ₁₄ respectively. becomes, the inductor 64 ₅ to 64 _7, the circuit portion consisting of the capacitor _{64 10} are short-circuited, the variable capacitance diode ₆₄ 1, 64 _2, the inductor ₆₄ 3, 64 _4, will form only the capacitor ₆₄ 8, 64 ₉ are connected .
[0012]
Even when selecting TV broadcast in any of the bands, is output tuning voltage from the tuning voltage terminal TU of IC 69, the high-frequency double tuned circuit 64, the variable capacitance tuning voltage via a resistor 64 ₁₅ and the inductor 64 ₃ together applied to the diode 64 _1, since it is applied to the variable capacitance diode 64 ₂ via the resistor _{64 16} and the inductor 64 _4, each capacitance of the variable capacitance diode ₆₄ 1, 64 ₂ is adjusted, tuned to the TV broadcast selected Is done.
[0013]
Similarly to the high-frequency double tuning circuit 64, the local oscillation circuit 66 is selected by adding the positive voltage output from the band switching terminal BS3 or BS2 of the IC 69 and the tuning voltage output from the tuning voltage terminal TU. And outputs a local oscillation signal having a frequency higher than the frequency of the TV broadcast by a certain difference.
[0014]
By the way, in the SECAM (L) TV broadcast in the VHF low band, the frequency of the video carrier and the audio carrier are arranged in a higher / lower order than in the PAL (B / G) TV broadcast. The frequency bandwidth per hit is 1 MHz wider.
[0015]
For this reason, in the known shared television tuner, the video intermediate frequency and the color intermediate frequency are set to the standard 38.9 MHz and 34.47 MHz, respectively, when selecting the PAL (B / G) TV broadcast. On the other hand, when selecting the SECAM (L) system TV broadcasting in the VHF low band, in consideration of the above difference and the characteristics of the intermediate frequency filter (not shown) formed by the surface acoustic wave element, They are set to 33.9 MHz and 38.33 MHz, respectively.
[0016]
FIG. 4 shows a tuning characteristic of the intermediate frequency tuning circuit 67 when a TV broadcast in the VHF low band of a known shared television tuner is selected. In FIG. 4, PI _PAL and CI _PAL are PAL (B / G), respectively. A video intermediate frequency and a color intermediate frequency of the system TV broadcasting, and PI _SEC and CI _SEC are a video intermediate frequency and a color intermediate frequency of the SECAM (L) system TV broadcasting, respectively.
[0017]
As shown in FIG. 4, the tuning characteristic of the intermediate frequency tuning circuit 67 is a single peak characteristic, which is a PAL (B / G) color intermediate frequency CI _{PAL of} 34.47 MHz and a video intermediate frequency PI _{PAL of} 38.9 MHz. It is tuned to the middle of about 36.7 MHz, and is set so that the selectivities for the video intermediate frequency and the color intermediate frequency are almost equal. However, for the SECAM (L) color intermediate frequency CI _{SEC of} 38.33 MHz and the video intermediate frequency PI _{SEC of} 33.9 MHz in the VHF low band, the tuning frequency is biased to a higher value than the middle between them.
[0018]
[Problems to be solved by the invention]
As described above, when selecting the SECAM (L) TV broadcast in the VHF low band, the tuning frequency of the intermediate frequency tuning circuit 67 is biased toward the color intermediate frequency CI _SEC . For this reason, the selectivity of the intermediate frequency tuning circuit 67 is higher for the color intermediate frequency CI _SEC than for the video intermediate frequency PI _SEC, and compared with the case where a TV broadcast in another band is selected, the reproduced video has a higher selectivity. There is a problem that the color becomes dark and a good image cannot be obtained. As a method for solving this problem, when selecting the SECAM (L) system TV broadcasting in the VHF low band, the tuning voltage output from the IC 69 is slightly increased, and the oscillation frequency of the local oscillation circuit 66 is increased. A method of raising each intermediate frequency by 0.6 MHz can be considered. However, this method cannot be used because the tuning frequency of the high-frequency double tuning circuit 64 controlled by the same tuning voltage is shifted to a higher frequency.
[0019]
The present invention solves such a problem, and an object of the present invention is to receive an image in a good condition regardless of whether a PAL (B / G) or SECAM (L) TV broadcast is received. It is to provide a television tuner that can reproduce.
[0020]
[Means for Solving the Problems]
In order to achieve the above object, a television tuner according to the present invention sets a tuning frequency of an intermediate frequency tuning circuit so as to be suitable for TV broadcasting of a PAL (B / G) system, and a SECAM (L) system in a VHF low band. Means for lowering the tuning frequency of the intermediate frequency tuning circuit when receiving the TV broadcast.
[0021]
According to the means, the tuning frequency of the intermediate frequency tuning circuit becomes low when receiving the SECAM (L) TV broadcast in the VHF low band, and the tuning frequency according to the SECAM (L) TV broadcast in the VHF low band. It becomes a tuning frequency and becomes higher when receiving other TV broadcasts, and becomes a tuning frequency corresponding to a TV broadcast of the PAL (B / G) system and a TV broadcast of the SECAM (L) system in a band other than the VHF low band. . Therefore, regardless of which TV broadcast is received, the selectivity of the intermediate frequency tuning circuit for the video intermediate frequency and the color intermediate frequency can be made substantially equal.
[0022]
BEST MODE FOR CARRYING OUT THE INVENTION
In one embodiment of the present invention, the means for lowering the tuning frequency of the intermediate frequency tuning circuit includes providing a variable capacitance diode in the intermediate frequency tuning circuit and applying an additional bias voltage to the variable capacitance diode together with a fixed bias voltage. Thus, the capacitance of the variable capacitance diode is made larger than when only the fixed bias voltage is applied.
[0023]
In one preferable example of the embodiment of the present invention, the additional bias voltage is a divided voltage obtained by dividing a band switching voltage output from a tuning IC provided with a band decoder by a resistance circuit, and is fixed. The bias voltage is higher than the additional bias voltage. A fixed bias voltage is applied to the cathode of the variable capacitance diode, and the additional bias voltage is applied to the anode.
[0024]
In another embodiment of the present invention, the means for lowering the tuning frequency of the intermediate frequency tuning circuit includes providing the intermediate frequency tuning circuit with a fixed capacitor and an additional capacitor connected in series with a switching diode. The additional capacitance is connected in parallel to the fixed capacitance by turning on the switching diode by applying a switching voltage to the diode.
[0025]
In another preferable example of the embodiment of the present invention, the switching voltage is a band switching voltage output from a tuning IC provided with a band decoder. A low fixed bias voltage is applied, and a band switching voltage is applied to the anode.
[0026]
【Example】
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0027]
FIG. 1 is a block diagram including a partial circuit diagram showing a configuration of a first embodiment of a television tuner according to the present invention.
[0028]
As shown in FIG. 1, the television tuner of the first embodiment includes an input terminal 1, an antenna (ANT) tuning circuit 2, a high frequency amplification circuit (RFAMP) 3, a high frequency double tuning circuit 4, a mixing circuit ( MIX) 5, a local oscillation circuit (OSC) 6, an intermediate frequency tuning circuit 7, a tuning IC 9, and an output terminal 10.
[0029]
The high-frequency double-tuned circuit 4 has an input terminal connected to the output terminal of the high-frequency amplifier circuit 3, an output terminal connected to the first input terminal of the mixing circuit 5, the variable capacitance diodes 4 ₁ , 4 _2, and the inductor 4. and ₃ to _{4 7,} capacitors _{4 8} through _{4 12} consists of a switching diode _{4 13, 4 14,} resistors _{4 15, 4 16..} Then, the variable capacitance diode 4 _1, together with the cathode connected to one end of the inductor 4 ₃ is connected to the input terminal via the capacitor 4 _11, the anode is connected to ground. The variable capacitance diode 4 _2, together with the cathode connected to one end of the inductor 4 ₄ is connected to the output terminal via the capacitor 4 _12, an anode is connected to ground. Inductor ₄ 3, _{4 4} are inductively coupled to each other, the inductor _{4 3} at the other end is connected to one end of the inductor _{4 5} through the capacitor _{4 8,} the tuning voltage terminal IC9 through the resistor _{4 15} It is connected to the TU, the other end of the inductor _{4 4} is connected to one end of the inductor _{4 6} through the capacitor _{4 9,} are connected to IC9 tuning voltage terminal TU through the resistor _{4 16.} Inductor ₄ 5, _{4 6} are inductively coupled to each other, the inductor _{4 5} has one end connected to the band switching terminal BS3 in the IC 9, is connected to the band switching terminal BS2 through the switching diode _{4 13,} the other end There is connected to one end of the other end and the inductor 4 ₇ of the inductor 4 _6. Inductor _{4 6} has one end connected to the band switching terminal BS3 in the IC 9, which is connected to the band switching terminal BS2 through the switching diode _{4 14.} Inductor 4 _7, the other end is connected to ground via a capacitor 4 _10. The local oscillator circuit 6 has an output terminal connected to the second input terminal of the mixing circuit 5.
[0030]
The intermediate frequency tuning circuit 7, an input terminal connected to the output terminal of the mixing circuit 5, the output terminal is connected to the output terminal 10, an inductor 7 _1, the capacitor 7 _{2-7 6,} the variable capacitance diode 7 ₇ and it consists of a resistor ₇ 8, _{7 9.} Then, the inductor 7 ₁ has one end connected to the input terminal via the capacitor 7 _3, is connected to the output terminal via the capacitor 7 _4, the capacitor 7 ₅ with the other end connected to the power supply terminal B Connected to the ground via Capacitor _{7 2} are connected in parallel to the inductor _{7 1.} The variable capacitance diode _{7 7} has a cathode connected to one end of the inductor _{7 1,} anode, via a capacitor _{7 6} is connected to the other end of the inductor _{7 1,} IC 9 band switching terminal via further resistors _{7 8} BS4 It is connected to, via a resistor 7 ₉ are connected to the ground point.
[0031]
The IC 9 is, for example, a TSA5520 manufactured by Philips and has a band decoder in addition to a PLL circuit, and has a tuning voltage terminal TU and band switching terminals BS2, BS3, and BS4. Each terminal except BS4 is connected to the high frequency double tuning circuit 4 and the local oscillation circuit 6, and the band switching terminal BS4 is connected to the intermediate frequency tuning circuit 7. The tuning voltage terminal TU generates a tuning voltage, the band switching terminal BS2 generates a positive voltage when a VHF high band TV broadcast is selected, and the band switching terminal BS3 generates a positive voltage when a VHF low band TV broadcast is selected. , And the band switching terminal BS4 generates a positive voltage when the SECAM (L) system TV broadcasting in the VHF low band is selected.
[0032]
The television tuner of the first embodiment having the above configuration operates as follows.
[0033]
As for the reception signal applied to the input terminal 1, a reception signal of a desired channel is selected in the antenna tuning circuit 2 and amplified in the high frequency amplifier circuit 3. From the amplified reception signal, a reception signal of a desired channel is further selected in the high-frequency double tuning circuit 4, and mixed in the mixing circuit 5 with the local oscillation signal supplied from the local oscillation circuit 6 to be converted into an intermediate frequency signal. . As the intermediate frequency signal, an intermediate frequency signal having a predetermined frequency is selected in the intermediate frequency tuning circuit 7 and output from the output terminal 10.
[0034]
Therefore, when selecting TV broadcast in the VHF low band, the output positive voltage from the band switching terminal BS3 in the IC 9, this positive voltage, high-frequency double tuned circuit 4 becomes the switching diode _{4 13, 4 14} OFF, respectively , Variable capacitance diodes 4 ₁ , 4 ₂ , inductors 4 ₃ , 4 ₄ , capacitors 4 ₈ , 4 ₉ , and inductors 4 _{5 to} 4 ₇ , capacitor 4 ₁₀ are inserted and connected.
[0035]
Meanwhile, when selecting the TV broadcast in the VHF high band, a positive voltage is outputted from the band switching terminal BS2 in the IC 9, this positive voltage, high-frequency double tuned circuit 4 is turned on switching diode _{4 13, 4 14,} respectively becomes, the inductor _{4 5} to _{4 7,} the circuit portion consisting of the capacitor _{4 10} are short-circuited, the variable capacitance diode ₄ 1, _{4 2,} inductors ₄ 3, _{4 4,} will form only capacitor ₄ 8, _{4 9} is connected .
[0036]
Even when selecting TV broadcast in any of the bands, is output tuning voltage from the tuning voltage terminal TU of IC 9, the high-frequency double tuned circuit 4, a variable capacitance tuning voltage via a resistor 4 ₁₅ and the inductor 4 ₃ together applied to the diode 4 _1, since it is applied to the variable capacitance diode 4 ₂ through the resistor 4 ₁₆ and the inductor 4 _4, each capacitance of the variable capacitance diode 4 _1, 4 ₂ is adjusted, tuned to the TV broadcast selected Is done.
[0037]
Similarly to the high-frequency double tuning circuit 4, the local oscillation circuit 6 is selected by adding the positive voltage output from the band switching terminal BS3 or BS2 of the IC 9 and the tuning voltage output from the tuning voltage terminal TU. And outputs a local oscillation signal having a frequency higher than the frequency of the TV broadcast by a certain difference.
[0038]
Further, in the television tuner of the first embodiment, the tuning frequency of the intermediate frequency tuning circuit 7 is set so as to be adapted to the PAL (B / G) TV broadcast, and the SECAM (L) system in the VHF low band is used. When a TV broadcast is selected, the tuning frequency is moved to the lower frequency side.
[0039]
That is, the television tuner of the first embodiment outputs a positive voltage from the band switching terminal BS4 of the IC 9 when the TV broadcasting of the SECAM (L) system in the VHF low band is selected. Can be
[0040]
The positive voltage, in the intermediate frequency tuning circuit 7 is applied to the anode of the variable capacitance diode 7 ₇ as divided by additional bias voltage by the resistors 7 _8, 7 _9. In this case, the variable capacitance diode 7 _7, cathode and the power supply voltage is applied as a power supply terminal fixed bias voltage through the inductor 7 ₁ from B, is between the anode and the cathode, the fixed bias voltage and the additional bias voltage The difference voltage is applied, and the capacitance becomes larger than when only the fixed bias voltage is applied. Therefore, the tuning frequency of the intermediate frequency tuning circuit 7 moves to a lower frequency side as compared with the case where no additional bias voltage is applied.
[0041]
On the other hand, when the SECAM (L) TV broadcast and the PAL (B / G) TV broadcast in bands other than the VHF low band are selected, a positive voltage is not output from the band switching terminal BS4 of the IC 9 and the variable capacitance is not output. diode 7 _7, only the power supply voltage to the cathode is applied, the capacitance becomes smaller than when adding additional bias voltage. Therefore, the tuning frequency of the intermediate frequency tuning circuit 7 shifts to the higher frequency side as compared with when the additional bias voltage is applied.
[0042]
Next, FIG. 2 is a block diagram including a partial circuit diagram showing a configuration of a television tuner according to a second embodiment of the present invention.
[0043]
The television tuner according to the second embodiment includes an intermediate frequency tuning circuit 8 instead of the intermediate frequency tuning circuit 7 in the television tuner according to the first embodiment shown in FIG. 8 are the same as those of the first embodiment, and therefore, in FIG. 2, the same components as those in FIG. 1 are denoted by the same reference numerals, and only the configuration and operation of the intermediate frequency tuning circuit 8 will be described below. Description of other configurations and operations is omitted.
[0044]
The intermediate frequency tuning circuit 8, an input terminal connected to the output terminal of the mixing circuit 5, the output terminal is connected to the output terminal 10, an inductor 8 _1, the capacitor 8 _{2-8 6,} and the switching diode 8 ₇ , it is made up of resistor _{8 8} to _{8 10.} The inductor 8 ₁ has one end connected to the input terminal via a capacitor 8 ₃ is connected to an output terminal via a capacitor 8 _4, is connected to the power supply terminal B and the other end through a resistor 8 ₉ Rutotomoni is connected to a ground point through and a parallel connected resistor 8 ₁₀ capacitor 8 _5. Capacitor ₈₂ is connected in parallel to the inductor 8 _1. Capacitor 8 ₆ has one end connected to the anode of the switching diode 8 ₇ and the other end connected to the other end of the inductor 8 _1. Switching diode 8 ₇ has a cathode connected to one end of the inductor 8 _1, an anode is connected to the band switching terminal BS4 of IC9 through the resistor 8 _8.
[0045]
Therefore, when selecting the TV broadcast of the SECAM (L) system lying in the VHF low-band, a positive voltage is outputted from the band switching terminal BS4 of IC 9, the positive voltage via a resistor _{8 8} of the intermediate frequency tuning circuit 8 as a switching voltage It applied to the anode of the switching diode 8 ₇ Te. In this case, the cathode of the switching diode 8 _7, the power supply voltage applied to the power supply terminal B is divided by ₁₀ resistor 8 ₉ and 8 minutes, although applied via an inductor 8 ₁ as a fixed bias voltage, since higher switching voltage than the fixed bias voltage, the switching diode 8 ₇ is turned on. Then, the capacitor 8 ₆ are connected in parallel to the capacitor _82, the tuning capacitance of the intermediate frequency tuning circuit 8 becomes larger than when not applied switching voltage. Therefore, the tuning frequency of the intermediate frequency tuning circuit 8 shifts to a lower frequency side as compared with when the switching voltage is not applied.
[0046]
On the other hand, when the SECAM (L) TV broadcast and the PAL (B / G) TV broadcast in bands other than the VHF low band are selected, a positive voltage is not output from the band switching terminal BS4 of the IC 9 and the switching diode 8 ₇ is turned off, the tuning capacitance of the intermediate frequency tuning circuit 8 is smaller than upon addition of switching voltage. Accordingly, the tuning frequency of the intermediate frequency tuning circuit 8 moves to a higher frequency side than when the switching voltage is applied.
[0047]
FIG. 5 shows the tuning characteristics of the intermediate frequency tuning circuits 7 and 8 when the TV broadcast in the VHF low band is selected in the television tuner of each embodiment. The solid line indicates the TV broadcast of the PAL (B / G) system. This is the characteristic when the TV broadcast is selected, and the broken line is the characteristic when the TV broadcast of the SECAM (L) system is selected. In the figure, PI _PAL and CI _PAL are the video intermediate frequency and color intermediate frequency of the PAL (B / G) TV broadcast, respectively, and PI _SEC and CI _SEC are the video intermediate frequency and color intermediate of the SECAM (L) TV broadcast, respectively. Frequency.
[0048]
As shown in FIG. 5, the tuning characteristics of the intermediate frequency tuning circuits 7 and 8 are different from those of the intermediate frequency tuning circuit 67 in the known television tuner shown in FIG. 4 in the PAL (B / G) system. It does not change when TV broadcasting is selected. When SECAM (L) TV broadcasting is selected, it moves to the lower frequency side, and when either type of TV broadcasting is selected, the tuning frequency is video. It is approximately at the center of the intermediate frequency and color intermediate frequencies.
[0049]
In each of the embodiments, the positive voltage obtained from the band switching terminal BS4 of the IC 9 is used as the additional bias voltage or the switching voltage. However, the additional bias voltage or the switching voltage in the present invention is limited to this positive voltage. Alternatively, another voltage may be used as long as the voltage is obtained only when the SECAM (L) system TV broadcasting in the VHF low band is selected.
[0050]
【The invention's effect】
As described above, according to the television tuner of each embodiment, the tuning frequency of the intermediate frequency tuning circuit is set so as to be adapted to the PAL (B / G) TV broadcast, and the SECAM ( When the TV broadcast of the L) system is selected, the tuning capacity of the intermediate frequency tuning circuit is increased. That is, when the tuning frequency of the intermediate frequency tuning circuit set to be adapted to the PAL (B / G) TV broadcast is lower than the lower frequency band when receiving the SECAM (L) TV broadcast in the VHF low band. And adapts to SECAM (L) TV broadcasting in the VHF low band.
[0051]
Therefore, according to the television tuner of the present invention, the selectivity for the video intermediate frequency and the color intermediate frequency becomes almost the same regardless of which TV broadcast is selected, and the video can be reproduced in a good state. The effect that can be obtained is obtained.
[Brief description of the drawings]
FIG. 1 is a block diagram including a partial circuit diagram showing a configuration of a first embodiment of a television tuner according to the present invention.
FIG. 2 is a block diagram including a partial circuit diagram showing a configuration of a second embodiment of the television tuner according to the present invention.
FIG. 3 is a block diagram including a partial circuit diagram showing a configuration of a known television tuner.
FIG. 4 is a tuning characteristic diagram of an intermediate frequency tuning circuit in a known television tuner.
FIG. 5 is a tuning characteristic diagram of an intermediate frequency tuning circuit in the television tuner according to the present invention.
[Explanation of symbols]
7, 8 intermediate frequency tuning circuit 7 ₇ variable capacitance diode 8 ₂ fixed capacitance 8 ₆ additional capacitance 8 ₇ switching diode 8 ₈ , 8 ₉ resistor 9 tuning IC
BS4 band switching terminal

Claims (4)

An intermediate frequency tuning circuit provided with a variable capacitance diode is provided. The intermediate frequency tuning circuit is capable of receiving PAL (B / G) and SECAM (L) television broadcasts. The tuning frequency of the intermediate frequency tuning circuit is set to PAL (B / G) A fixed bias voltage is applied to the variable capacitance diode so as to adapt to the television broadcasting of the system, and a fixed bias is applied to the variable capacitance diode when receiving the television broadcasting of the SECAM (L) system in the VHF low band. television tuner, characterized in that the additional bias voltage be increased capacitance added together with the fixed bias voltage, and so as to lower the tuning frequency of the intermediate frequency tuning circuit than when a voltage is applied. The additional bias voltage is a divided voltage obtained by dividing a band switching voltage output from a tuning IC provided with a band decoder by a resistance circuit, and the fixed bias voltage is higher than the additional bias voltage. 2. The television tuner according to claim 1 , wherein the fixed bias voltage is applied to a cathode of the variable capacitance diode, and the additional bias voltage is applied to an anode of the variable capacitance diode . 3. An intermediate frequency tuning circuit provided with a fixed capacitor and an additional capacitor connected in series to a switching diode, capable of receiving PAL (B / G) and SECAM (L) television broadcasts; A switching voltage for turning off the switching diode is applied to the switching diode so that the tuning frequency of the intermediate frequency tuning circuit is adapted to television broadcasting of the PAL (B / G) system, and the switching diode is turned off. The additional capacitor is separated from the fixed capacitor, and when receiving a television broadcast of SECAM (L) system in a VHF low band, a switching voltage for turning on the switching diode is applied to the switching diode. Turn on the diode to bring the additional capacitance By connecting in parallel to a fixed capacitor, a television tuner, characterized in that so as to lower the tuning frequency of the intermediate frequency tuning circuit. The switching voltage is a band switching voltage output from a tuning IC provided with a band decoder, a fixed bias voltage lower than the band switching voltage is applied to the cathode of the switching diode, and the anode of the switching diode is applied to the anode. The television tuner according to claim 3, wherein a band switching voltage is applied .

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