JP3916371B2 - Television tuner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a television tuner, and more particularly to a television tuner that prevents a channel selection signal for channel selection from being superimposed on a band switching voltage applied to a local oscillation circuit.
[0002]
[Prior art]
FIG. 2 shows a schematic layout of each circuit and a mutual connection relationship in a conventional television tuner. An integrated circuit 52 is mounted almost at the center of the printed circuit board 51 housed in a metal case (not shown). A high frequency circuit portion 53 and an intermediate frequency tuning circuit (IF tuning) are provided around the integrated circuit 52. 54, a resonance circuit 55, and the like are configured. Then, the integrated circuit 52 and the high frequency circuit unit 53, the intermediate frequency tuning circuit 54, the resonance circuit unit 55, and the like are connected by a conductor line formed on the printed circuit board 51.
[0003]
The integrated circuit 52 includes a VHF low-band local oscillation circuit (VLo / osc) 52a, a VHF high-band local oscillation circuit (VHi / osc) 52b, a UHF band local oscillation circuit (U / osc) 52c, and a VHF band. A mixing circuit (V / mix) 52d, a UHF band mixing circuit (U / mix) 52e, an intermediate frequency amplifier circuit (IF / AMP) 52f, a PLL circuit (PLL) 52g, and the like are configured. A band decoder that generates a band switching voltage for switching each band is also configured in the PLL circuit 52g.
[0004]
In the integrated circuit 52, the PLL circuit 52g, the low-band local oscillation circuit 52a, the high-band local oscillation circuit 52b, and the UHF-band local oscillation circuit 52c are connected to each other by the internal wiring 52h, and the VHF band mixing circuit 52d and the low-band local oscillation circuit 52c are connected to each other. The local oscillation circuit 52a, the VHF band mixing circuit 52d, the high band local oscillation circuit 52b, the UHF band mixing circuit 52e, and the UHF band local oscillation circuit 52c are connected to each other by an internal wiring 52i.
The band switching voltage output from the PLL circuit 52g is input to any of the local oscillation circuits 52a, 52b, and 52c, and the local oscillation signal output from the input local oscillation circuit is input to the PLL circuit 52g. And input to the VHF band mixing circuit 52d or the UHF band mixing circuit 52e.
[0005]
The high-frequency circuit unit 53 selects a television signal to be received from the television signals in the VHF band and receives the VHF-band high-frequency circuit (V / rf) 53a for amplification from the television signal in the UHF band. And a UHF band high-frequency circuit (U / rf) 53b for selecting and amplifying a television signal to be amplified. The VHF band high-frequency circuit 53a is connected to the VHF band mixing circuit 52d, and the UHF band high-frequency circuit 53b is connected to the UHF band mixing circuit 52e.
[0006]
The resonance circuit 55 includes a low-band resonance circuit (VLo / resonance) 55a connected to the low-band local oscillation circuit 52a, and a high-band resonance circuit (VHi / resonance) 55b connected to the high-band local oscillation circuit 52a. , A UHF band resonance circuit (U / resonance) 55c is connected to the UHF band local oscillation circuit 52c. These resonance circuits 55a, 55b, and 55c are for setting the oscillation frequency of each band.
The intermediate frequency tuning circuit 54 is connected to the VHF band mixing circuit 52d and the UHF band mixing circuit 52e and to the intermediate frequency amplification circuit 52f.
[0007]
Further, three first line conductors 56 for inputting the band switching voltage output from the PLL circuit 52g to the high-frequency circuit unit 53 are formed on the printed circuit board 51, and the PLL circuit 52g and the VHF band are used. The high frequency circuit 53a is connected by a low band first line conductor 56a and a high band first line conductor 56b, and the UHF band high frequency circuit 53b is connected between the PLL circuit 52g and the UHF band high frequency circuit 53b. They are connected by one line conductor 56c.
On the printed circuit board 51, there are two second line conductors 57 for channel selection signals connected to the PLL circuit 52g, and a third line conductor 58 for supplying power supply voltage connected to each circuit. The second line conductor 57 is adjacent to the first line conductor 56, and the third line 58 is adjacent to the second line conductor 57. The channel selection data and the clock signal constituting the channel selection signal output from the channel selection means (CPU) 59 provided in the television receiver main body (not shown) are respectively transmitted through the third conductor lines 57a and 57b. Are input to the PLL circuit 52g, and the power supply voltage is supplied from the power supply circuit 60 to the third line conductor 58.
[0008]
In the above configuration, when a VHF low band television signal is received, the channel selection signal output from the channel selection means 59 is input to the PLL circuit 52g, and the low band switching voltage generated by the PLL circuit 52g is the internal wiring 52h. To the low-band local oscillation circuit 52a and to the VHF band high-frequency circuit 53a via the low-band first line conductor 56a. Then, the low-band television signal is input from the VHF band high-frequency circuit 53a to the VHF mixing circuit 52d, and at the same time, the low-band local oscillation signal is input from the low-band local oscillation circuit 52a to the VHF band mixing circuit 52d. Then, an intermediate frequency signal is output from the VHF band mixing circuit 52d, and is output to the output terminal 61 via the intermediate frequency tuning circuit 54 and the intermediate frequency amplification circuit 52f.
[0009]
Similarly, when a VHF high band television signal is received, a channel selection signal is input from the channel selection means 59 to the PLL circuit 52g, and the high band switching voltage generated by the PLL circuit 52g is the high band local oscillation circuit. 52b and input to the VHF band high-frequency circuit 53a via the high-band first line conductor 56b. Then, a high-band television signal is input from the VHF band high-frequency circuit 53a to the VHF band mixing circuit 52d, and at the same time, a high-band local oscillation signal is sent from the high-band local oscillation circuit 52b to the VHF band mixing circuit 52d. Is input. Then, an intermediate frequency signal is output from the VHF band mixing circuit 52d, and is output to the output terminal 61 via the intermediate frequency tuning circuit 54 and the intermediate frequency amplification circuit 52f.
[0010]
Similarly, when a UHF high band television signal is received, a channel selection signal is input from the channel selection means 59 to the PLL circuit 52g, and the UHF band switching voltage generated by the PLL circuit 52g is the UHF band local oscillation circuit. The signal is input to the high frequency circuit 53b for UHF band through the first line conductor 56c for UHF band. Then, a UHF band television signal is input from the UHF band high-frequency circuit 53b to the UHF band mixing circuit 52e, and at the same time, a UHF band local oscillation signal is transmitted from the UHF band local oscillation circuit 52c to the UHF band mixing circuit 52e. Is input. Then, an intermediate frequency signal is output from the UHF band mixing circuit 52e, and is output to the output terminal 61 via the intermediate frequency tuning circuit 54 and the intermediate frequency amplification circuit 52f.
[0011]
[Problems to be solved by the invention]
In the above configuration, the first to third line conductors 56, 57, 58 formed on the printed circuit board 51 are provided adjacent to each other, so that these line conductors are electrically coupled to each other. The channel selection signal input via the second line conductor 57 jumps to the first line conductor 56. For this reason, the channel selection signal is superimposed on the band switching voltage output to the first line conductor 56, and this is input to the local oscillation circuits 52a to 52c via the internal wiring 52h. As a result, the local oscillation signal has large phase noise and C / N deteriorates. The C / N deterioration of the local oscillation signal deteriorates the S / N and phase characteristics of the intermediate frequency signal, causing a problem that noise appears in the image or color unevenness occurs.
[0012]
In addition, the channel selection signal sent from the channel selection means 59 of the television receiver main body is superimposed with a signal of several MHz generated by a crystal oscillator provided in the television receiver main body and its harmonics. These harmonics and the like are input to the PLL circuit 52g or leaked to other circuits to create unnecessary beat signals, resulting in reception interference.
[0013]
Therefore, the television tuner of the present invention aims to prevent the tuning signal input to the PLL circuit from being superimposed on the band switching voltage and to reduce the phase noise of the local oscillation signal as much as possible.
[0014]
In addition, the television tuner of the present invention aims to prevent unnecessary signals from the television receiver main body that are input superimposed on the channel selection signal from being input to the PLL circuit or other circuits. Yes.
[0015]
[Means for Solving the Problems]
  In order to solve the above problems, a television tuner of the present invention includes a printed circuit board housed in a metal case, and the printed circuit board.Arranged at least high frequency circuit, frequency conversion circuit and resonance circuit, PLL circuit, intermediate frequency circuit, first line conductor, second line conductorAnd comprisingPLL circuitIs a band switching voltage that selects the band to be received based on the tuning signal input from the outside.A band decoder for supplying to the high-frequency circuit, wherein the first line conductor supplies the band switching voltage to the high-frequency circuit, and is connected between the band decoder and the high-frequency circuit; The line conductor supplies the channel selection signal to the PLL circuit, is connected between the channel selection signal input terminal and the PLL circuit, and a part of the first line conductor and the second line conductor are connected. Line conductors are arranged so as to be adjacent to each other, and a ground conductor grounded in terms of high frequency is arranged between a part of the adjacent first line conductor and the second line conductor.
[0016]
In the television tuner of the present invention, resistors are inserted in series on both ends of the second line conductor.
[0017]
In the television tuner of the present invention, the ground conductor is extended to be annular, the second line conductor is surrounded, and the ground conductor is straddled by the resistance.
[0018]
In the television tuner of the present invention, the first line conductor is connected to the ground conductor by a capacitor having a low impedance in terms of high frequency.
[0019]
In the television tuner of the present invention, a third line conductor for supplying a power supply voltage to each circuit is formed on the printed board adjacent to the second line conductor, and the ground A conductor was connected to the third line conductor.
[0020]
In the television tuner of the present invention, a capacitor is connected between the second line conductor and the ground, and a T-type high-pass filter is configured by the capacitor and the resistor.
[0021]
  Further, the television tuner of the present invention includes a printed circuit board housed in a metal case, and the printed circuit board.Arranged at least high frequency circuit, frequency conversion circuit and resonance circuit, PLL circuit, intermediate frequency circuit, first line conductor, second line conductorAnd comprisingPLL circuitIs a band switching voltage that selects the band to be received based on the tuning signal input from the outside.A band decoder for supplying to the high-frequency circuit, wherein the first line conductor supplies the band switching voltage to the high-frequency circuit, and is connected between the band decoder and the high-frequency circuit; The line conductor supplies the channel selection signal to the PLL circuit, and is connected between the channel selection signal input terminal and the PLL circuit. The second line conductor has a series resistance at both ends thereof. Insert and connect, between the middle and the grounding pointConnect a capacitor to the capacitor and the series resistor.Further, a T-type high-pass filter is configured.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows a schematic layout of each circuit and a mutual connection relationship in the television tuner of the present invention. The printed circuit board 1 is accommodated in a metal case (not shown), and an integrated circuit 2 is mounted on a substantially central portion of the upper surface thereof. On the printed board 1, a high frequency circuit unit 3, an intermediate frequency tuning circuit (IF tuning) 4, a resonance circuit unit 5 and the like are configured so as to surround the integrated circuit 2. The integrated circuit 2 and the high-frequency circuit unit 3, the intermediate frequency tuning circuit 4, the resonance circuit unit 5, and the like are connected by a conductor line formed on the printed circuit board 1.
[0023]
The integrated circuit 2 includes a VHF low-band local oscillation circuit (VLo / osc) 6, a VHF high-band local oscillation circuit (VHi / osc) 7, a UHF band local oscillation circuit (U / osc) 8, and a VHF. A band mixing circuit (V / mix) 9, a UHF band mixing circuit (U / mix) 10, an intermediate frequency amplifier circuit 11, a PLL circuit unit (PLL) 12, and the like are configured. The PLL circuit unit 12 includes a PLL circuit 12a that outputs a tuning voltage for channel selection and a band decoder 12b that generates a band switching voltage for switching each band.
[0024]
The integrated circuit 2 has a quadrangular shape, and on one side thereof, terminals 2a and 2b connected to the PLL circuit 12a, terminals 2c, 2d and 2e connected to the band decoder 12b, and a power supply voltage are supplied to each circuit in the integrated circuit 2. A terminal 2f is provided. The three terminals 2c, 2d, and 2e and the terminal 2f are provided on both sides of the terminals 2a and 2b. Also, terminals 12g to 12p are provided on the other sides, respectively. These terminals are connected to electrodes (not shown) provided on the printed circuit board 1.
[0025]
In the integrated circuit 2, a PLL circuit 12a, a low-band local oscillation circuit 6, a high-band local oscillation circuit 7, and a UHF-band local oscillation circuit 8 are connected to each other by three internal wirings 13, and a band decoder. 12b, the local oscillator circuit for low band 6, the local oscillator circuit for high band 7, and the local oscillator circuit for UHF band 8 are connected to each other by three internal wires. The internal wiring 14 is connected to terminals 2c, 2d and 2e connected to the band decoder, respectively. Furthermore, the VHF band mixing circuit 9 and the low-band local oscillation circuit 6, the VHF band mixing circuit 9 and the high-band local oscillation circuit 7, the UHF band mixing circuit 10 and the UHF band local oscillation circuit 8 each include three lines. They are connected to each other by internal wiring 15.
Then, the band switching voltage output from the band decoder 12b is input to any of the local oscillation circuits 6, 7, and 8 by any of the internal wirings 14, and the local oscillation signal output from the input local oscillation circuit is The signal is input to the PLL circuit 12 a via any of the three internal wirings 13 and also input to the VHF band mixing circuit 9 or the UHF band mixing circuit 10 by any of the three internal wirings 15.
[0026]
The high-frequency circuit section 3 receives a VHF band high-frequency circuit (V / rf) 3a for selecting and amplifying a television signal to be received from the VHF-band television signals, and a UHF-band television signal. And a UHF band high-frequency circuit (U / rf) 3b for selecting and amplifying a desired television signal. The VHF band high-frequency circuit 3a is connected to the VHF band mixing circuit 2d via the terminal 2j, and the UHF band high-frequency circuit 3b is connected to the UHF band mixing circuit 2e via the terminal 2k. The tuning voltage output from the PLL circuit 12a is supplied to the VHF band high-frequency circuit 3a and the UHF band high-frequency circuit 3b via the terminal 2h.
[0027]
The resonance circuit unit 5 includes a low-band resonance circuit (VLo / resonance) 5a, a high-band resonance circuit (VHi / resonance) 5b, and a UHF-band resonance circuit (U / resonance) 5c. Is connected to the low-band local oscillation circuit 6 through the terminal 21, the high-band resonance circuit 5b is connected to the high-band local oscillation circuit 7 through the terminal 2m, and the UHF band resonance circuit 5c is connected through the terminal 2n. To the UHF band local oscillation circuit 2c. These resonance circuits 5a, 5b and 5c are for setting the oscillation frequency of each band.
Further, the intermediate frequency tuning circuit 4 is connected to the VHF band mixing circuit 9 and the UHF band mixing circuit 10 through a terminal 2i, and is connected to the intermediate frequency amplifier circuit 11 through a terminal 2g. The output terminal of the intermediate frequency amplifier circuit 11 is connected to the terminal 2o. Terminal 2p is grounded.
Further, on the printed circuit board 1, there are three first line conductors 16 (16a, 16b, 16c) for connecting the terminals 2c, 2d and the VHF high frequency circuit 3a, and connecting the terminal 2e and the UHF high frequency circuit 3b. Is formed.
[0028]
Further, terminal portions 1a and 1b for inputting a channel selection signal, a terminal portion 1c for inputting a power supply voltage, and a terminal portion 1d for outputting an intermediate frequency signal are provided on the outer peripheral end of the printed circuit board 1. These terminal portions are connected to external terminals (not shown) protruding outward from the metal case. A channel selection signal is input to the terminal portions 1a and 1b from a channel selection means (CPU) 17 provided in the main body of the television receiver (channel selection data is input to the terminal portion 1a, and a clock signal is input to the terminal portion 1b. The power supply voltage is supplied from the power supply unit 18 to the terminal unit 1c.
The terminal portion 1a and the terminal 2a, and the terminal portion 1b and the terminal 2b are connected by two second line conductors 19 (19a and 19b), respectively. Resistors 20 are inserted in series at both ends of the second line conductor 19. Further, the terminal portion 1 c and the terminal 2 f are connected by the third line conductor 21, and the terminal portion 1 d and the terminal 2 o are connected by the fourth line conductor 22.
[0029]
Here, between the adjacent first line conductor 16 and the second line conductor 19 and between the adjacent second line conductor 19 and the third line conductor 21, a part thereof is the second line conductor 19. An annular ground conductor 23 formed on the printed circuit board 1 is provided along the line conductor 19, and the second line conductor 19 is surrounded by the ground conductor 23. The ground conductor 23 intersects with the portion of the resistor 20 inserted in series with the second line conductor 19 so that the resistor 20 straddles the ground conductor 23 to avoid mutual contact.
[0030]
The ground conductor 23 is divided between the first line conductor 16 and the second line conductor 19 and between the second line conductor 19 and the third line conductor 21, and the divided sides are low. They are connected to each other by DC cut capacitors 24 and 24 having impedance, and one part 23a is connected to the third line conductor 21 and the other part 23b is connected to another ground conductor (not shown) on the printed circuit board 1. Is done.
Further, the three first line conductors 16 are connected to the ground conductor 23 by low impedance DC cut capacitors 25, 25, 25, respectively.
As a result, the first line conductor 16, the ground conductor 23, and the third line conductor 21 have a ground potential in terms of high frequency.
[0031]
Further, when a midpoint of the second line conductor 19 is grounded by the capacitor 26, the two resistors 20 and the capacitor 26 on both sides of the second line conductor 19 constitute a T-type high-pass filter. This high-pass filter is set so as to have a cutoff frequency that does not attenuate the channel selection signal input from the channel selection means 17.
[0032]
In the above configuration, when the channel selection signal of the low band channel is output from the channel selection means 17 and is input to the PLL circuit 12a and the band decoder 12b via the second conductor 19, the band decoder 12b is switched to the low band. A voltage is generated and input to the low-band local oscillation circuit 6 through the internal wiring 14 and also input to the VHF high-frequency amplifier circuit 3a through the first line conductor 16a. The PLL circuit 12a generates a tuning voltage and inputs it to the low-band local oscillation circuit 6 and the VHF high-frequency amplifier circuit 3a. Then, a low-band television signal is input from the VHF high frequency circuit 3 a to the VHF mixing circuit 9, and at the same time, a low-band local oscillation signal is input from the low-band local oscillation circuit 6 to the VHF mixing circuit 9. Then, an intermediate frequency signal is output from the VHF mixing circuit 9, and this is output to the terminal portion 1 c via the intermediate frequency tuning circuit 4, the intermediate frequency amplifier circuit 11, the terminal 2 o, and the fourth line conductor 22.
[0033]
Similarly, when a channel selection signal for the high band channel is output from the channel selection means 17, the band decoder 12 b generates a high band switching voltage and supplies the high band local oscillation circuit 7 via the internal wiring 14. While inputting, it inputs into the VHF high frequency amplifier circuit 3a via the 1st line conductor 16b. The PLL circuit 12a generates a tuning voltage and inputs it to the high-band local oscillation circuit 7 and the VHF high-frequency amplifier circuit 3a. Then, a high-band television signal is input from the VHF high-frequency circuit 3 a to the VHF mixing circuit 9, and at the same time, a high-band local oscillation signal is input from the high-band local oscillation circuit 7 to the VHF mixing circuit 9. The intermediate frequency signal output from the VHF mixing circuit 9 is output to the terminal portion 1c.
[0034]
Similarly, when a channel selection signal for a UHF band channel is output from the channel selection means 17, the band decoder 12 b generates a UHF band switching voltage and supplies the UHF band local oscillation circuit 8 via the internal wiring 14. While inputting, it inputs into the UHF high frequency amplifier circuit 3b via the 1st line conductor 16c. The PLL circuit 12a generates a tuning voltage and inputs it to the UHF band local oscillation circuit 8 and the UHF high-frequency amplifier circuit 3b. Then, a UHF band television signal is input from the UHF high frequency circuit 3 b to the UHF mixing circuit 10, and at the same time, a UHF band local oscillation signal is input from the UHF band local oscillation circuit 8 to the UHF mixing circuit 10. Then, an intermediate frequency signal is output from the UHF mixing circuit 10, and is output to the terminal portion 1 c via the intermediate frequency tuning circuit 4, the intermediate frequency amplifier circuit 11, the terminal 2 o, and the fourth line conductor 22.
[0035]
In the above operation, since the ground conductor 23 provided between the first line conductor 16 and the second line conductor 19 has a shielding effect, the channel selection signal transmitted through the second line conductor 19 is the first. It is difficult to jump to one line conductor 16. Therefore, the channel selection signal is not superimposed on the band switching voltage output from the band decoder 12b, and the phase noise of the local oscillation signal is reduced.
Moreover, since resistance is inserted in series at both ends of the second second line conductor, the second line conductor 19 is equivalently Q-dumped and the coupling with the first line conductor 16 is weakened. For this reason, the tuning signal jumps less.
[0036]
Furthermore, since the second line conductor 19 is surrounded by the ground conductor 23, the selection signal jumps further.
Furthermore, since the channel selection signal jumping to the first line conductor 16 flows to the ground conductor 23 by the low impedance capacitor 25, the channel selection signal is difficult to be superimposed on the band switching voltage.
Furthermore, since the third line conductor 21 that supplies the power supply voltage is originally at the ground potential in terms of high frequency, the ground conductor 23 is connected to the third line conductor 21 to further increase the shielding effect.
[0037]
Furthermore, since a T-type high-pass filter is formed by the capacitor 26 and the resistor 20 connected to the second line conductor 19, unnecessary signals superimposed on the channel selection signal input from the television main body are removed. Can avoid interference.
[0038]
【The invention's effect】
As described above, in the television tuner of the present invention, the first line conductor that transmits the band switching voltage to the high-frequency circuit and the second line conductor that inputs the channel selection signal to the band decoder are on the printed circuit board. A ground conductor formed on the printed circuit board along the second line conductor is provided between at least the first line conductor and the second line conductor, and the ground conductor is grounded at a high frequency. Therefore, the ground conductor has a shielding effect, and the channel selection signal transmitted through the second line conductor is less likely to jump to the first line conductor 16. Therefore, the tuning signal is not superimposed on the band switching voltage output from the band decoder, and the phase noise of the local oscillation signal is reduced.
[0039]
In the television tuner of the present invention, since resistances are inserted in series on both ends of the second line conductor, the second line conductor is equivalently Q-dumped, and the coupling with the first line conductor is Weaken. For this reason, the tuning signal jumps less.
[0040]
In the television tuner of the present invention, the ground conductor is extended to form an annular shape, and the second line conductor is surrounded and the ground conductor is straddled with a resistor. The contact between the ground conductor and the second line conductor can also be prevented.
[0041]
In the television tuner of the present invention, since the first line conductor is connected to the ground conductor by a capacitor having low impedance in terms of high frequency, the channel selection signal jumping to the first line conductor is grounded by the low impedance capacitor. Since the current flows through the conductor, the tuning signal is not easily superimposed on the band switching voltage.
[0042]
In the television tuner of the present invention, a third line conductor for supplying a power supply voltage to each circuit is formed adjacent to the second line conductor on the printed board, and the ground conductor is the third conductor. Because the third line conductor that supplies the power supply voltage is originally at ground potential in terms of high frequency, the ground conductor is connected to the third line conductor to further shield it. Increases effectiveness.
[0043]
In the television tuner of the present invention, a capacitor is connected between the second line conductor and the ground, and the T-type high-pass filter is configured by the capacitor and the resistor. Unnecessary signals superimposed on the station signal are removed, and interference can be avoided.
[0044]
The television tuner of the present invention includes a band decoder for generating a band switching voltage for selecting a band to be received based on a tuning signal input from the outside, and the band to be received by the band switching voltage. A high-frequency circuit that can be switched to select, a capacitor is connected between the second line conductor that inputs the channel selection signal to the band decoder and the ground, and a T-type high-pass filter is formed by the capacitor and the resistor. Since it comprises, the unnecessary signal superimposed on the channel selection signal input from a television main-body part is removed, and interference can be avoided.
[Brief description of the drawings]
FIG. 1 is a layout diagram showing a schematic layout of each circuit and a mutual connection relationship in a television tuner of the present invention.
FIG. 2 is a layout diagram showing a schematic layout of each circuit and a mutual connection relationship in a conventional television tuner.
[Explanation of symbols]
1 Printed circuit board
1a to 1d terminal
2 Integrated circuits
2a to 2p terminals
3 High frequency circuit
3a High frequency circuit for VHF band
3b High frequency circuit for UHF band
4 Intermediate frequency tuning circuit
5 Resonant circuit section
5a Low band resonant circuit
5b Resonant circuit for high band
5c Resonant circuit for UHF band
6 Local oscillator for low band
7 Local oscillator circuit for high band
8 UHF band local oscillation circuit
9 Mixing circuit for VHF band
10 Mixing circuit for UHF band
11 Intermediate frequency amplifier
12 PLL circuit
12a PLL circuit
12b band decoder
13, 14, 15 Internal wiring
16 First line conductor
17 Channel selection means
18 Power supply
19 Second line conductor
20 resistance
21 Third line conductor
22 Fourth line conductor
23 Grounding conductor
24, 25 DC cut capacitor
26 capacitors

Claims (7)

A printed circuit board housed in a metal case, and at least a high frequency circuit, a frequency conversion circuit and a resonance circuit, a PLL circuit, an intermediate frequency circuit, a first line conductor, and a second line conductor disposed on the printed circuit board The PLL circuit includes a band decoder that supplies a band switching voltage for selecting a band to be received based on a tuning signal input from the outside to the high-frequency circuit, and the first line conductor includes the band The switching voltage is supplied to the high-frequency circuit, and is connected between the band decoder and the high-frequency circuit, and the second line conductor supplies the tuning signal to the PLL circuit. The signal line is connected between the signal input terminal and the PLL circuit, and a part of the first line conductor and the second line conductor are arranged adjacent to each other, and the adjacent first line Television tuner characterized in that a high-frequency grounded by a grounding conductor between the part of the body and the second line conductor. The television tuner according to claim 1, wherein the second line conductor has a series resistor inserted and connected to both ends thereof . The ground conductor is formed in an annular shape so as to surround the second line conductor, and the series resistance is disposed so as to straddle the ground conductor at the intersection of the second line conductor and the ground conductor. television tuner according to claim 2, characterized in that. 4. The television tuner according to claim 1, wherein the first line conductor and the ground conductor are connected by a capacitor exhibiting a low impedance at a high frequency . 5. A third line conductor for supplying power supply voltage is disposed on the printed circuit board so as to be adjacent to the second line conductor, and a part of the ground conductor is connected to the third line conductor. The television tuner according to claim 1, wherein the television tuner is any one of the above. The second line conductor are television of claim 5, characterized in that the middle and then a capacitor is connected between the ground point, the capacitor more T-type high-pass filter and the series resistor is constituted John Tuner. A printed circuit board housed in a metal case, and at least a high frequency circuit, a frequency conversion circuit and a resonance circuit, a PLL circuit, an intermediate frequency circuit, a first line conductor, and a second line conductor disposed on the printed circuit board The PLL circuit includes a band decoder that supplies a band switching voltage for selecting a band to be received based on a tuning signal input from the outside to the high-frequency circuit, and the first line conductor includes the band The switching voltage is supplied to the high-frequency circuit, and is connected between the band decoder and the high-frequency circuit, and the second line conductor supplies the tuning signal to the PLL circuit. connect disposed between the signal input terminal and the PLL circuit, the second line conductor, together with the inserts a series resistor at its both ends, Conde between the middle and the ground point Television tuner port connects the more T-type high-pass filter and the series resistor and the capacitor is characterized by being composed.

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