JP3599948B2 - TV tuner with built-in RF modulator - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a TV (television) tuner with a built-in RF (high frequency) modulator, and in particular, an RF modulator integrated with an RF modulator and a TV tuner used for video equipment such as a video tape recorder (VTR). The present invention relates to a built-in TV tuner.
[0002]
[Prior art]
2. Description of the Related Art In recent years, in video equipment such as a VTR, a TV tuner with a built-in RF modulator has been used in which an RF modulator and a TV tuner are integrated in a single metal housing.
[0003]
Here, FIG. 2 is a schematic view showing an example of such a conventional TV tuner with a built-in RF modulator, that is, an example of a configuration in which the RF modulator and the TV tuner are integrated into one metal casing.
[0004]
As shown in FIG. 2, in the TV tuner with a built-in RF modulator, one wiring board 11 is disposed in a housing 14 entirely made of one metal material, and an RF modulator section is provided on the wiring board 11. 1 and a TV tuner unit 2.
[0005]
The RF modulator section 1 has a first phase locked loop (PLL) circuit 3, a first RF amplifier 5, a distributor 6, a second RF amplifier 7, a mixer 8, and the like. The first phase locked loop (PLL) circuit 3 includes a first reference oscillation circuit 3a, a first voltage controlled oscillator (VCO) (not shown), and the like. A crystal oscillator 3c for setting a reference frequency is connected to the circuit 3a, and the first reference oscillation circuit 3a and the crystal oscillator 3c constitute a first reference oscillator 3b. The first reference oscillator 3b oscillates at a frequency of, for example, 4 MHz.
[0006]
On the other hand, the TV tuner section 2 includes at least an input section 12, a third RF amplifier 13, and a second phase locked loop (PLL) circuit 10, and the second phase locked loop (PLL). The circuit 10 includes a second reference oscillation circuit 10a, a second voltage controlled oscillator (VCO) not shown, and the like. The crystal oscillator 3c provided in the RF modulator section 1 and the second reference oscillation circuit 10a of the second phase locked loop (PLL) circuit 10 are disposed on the wiring board 11. The crystal oscillator 3c and the second reference oscillation circuit 10a are connected by the wiring pattern 17, and constitute a second reference oscillator 10b oscillating at, for example, 4 MHz.
[0007]
Therefore, the crystal resonator 3c is shared by the first phase locked loop (PLL) circuit 3 of the RF modulator section 1 and the second phase locked loop (PLL) circuit 10 of the TV tuner section 2, The TV tuner section 2 does not include a crystal oscillator 3c for setting a reference frequency. The input unit 12 has a coil (not shown) constituting an antenna tuning circuit for selecting a received signal, an intermediate frequency trap circuit for removing an external signal having the same frequency as the intermediate signal, and the like, on the wiring board 11. Are located.
[0008]
In addition, a first ground pattern 15 is provided on the wiring board 11 so as to be close to the housing 14 and extend over both the RF modulator section 1 and the TV tuner section 2.
The wiring pattern 17 is arranged between the first ground pattern 15, the input section 12 of the TV tuner 2, and the third RF amplifier 13. The second ground pattern 16 is provided between the RF modulator unit 1 and the TV tuner unit 2. The second ground pattern 16 allows the RF modulator unit 1 and the TV tuner unit 2 are electrically shielded.
Note that a first ground pattern 15 and a second ground pattern 16 are electrically connected to the housing 14 and have a ground potential.
[0009]
At a predetermined position of the second ground pattern 16, an opening 16 a from which the second ground pattern 16 is separated is formed, and is disposed on the RF modulator unit 1 side through the opening 16 a. A wiring pattern 17 for connecting the crystal resonator 3c and the second reference oscillation circuit 10a of the second phase locked loop (PLL) circuit 10 of the TV tuner unit 2 is arranged.
[0010]
Further, the wiring pattern 17 for connecting the crystal resonator 3c and the second phase locked loop (PLL) circuit 10 includes the first ground pattern 15, the input section 12 of the TV tuner section 2, and the third It is routed between the RF amplifier 13 and, therefore, is arranged near the input unit 12 and the third RF amplifier 13.
[0011]
The first ground pattern 15, the second ground pattern 16, and the wiring pattern 17 are formed by etching a copper foil or the like on the wiring board 11.
[0012]
In the configuration described above, the TV signal from the input terminal 4 provided on the RF modulator section 1 side is output to the output terminal 9 via the first amplifier 5, the distributor 6, the second amplifier 7, the mixer 8, and the like. Is input to a TV receiver (not shown), and the TV signal distributed by the distributor 6 is input to the TV tuner 2.
In addition, a video signal from the video signal input terminal 3d and an audio signal from the audio signal input terminal 3e modulate a carrier from the first phase locked loop (PLL) circuit 3 in a modulation circuit (not shown) to generate an RF signal. And is guided to the output terminal 9 via the mixer 8.
[0013]
The first phase locked loop (PLL) circuit 3 of the RF modulator section 1 is used for setting the frequency of the carrier wave, and the second phase locked loop (PLL) circuit 10 of the TV tuner section 2. Is used for tuning.
[0014]
[Problems to be solved by the invention]
However, in a conventional TV tuner with a built-in RF modulator, the first phase locked loop (PLL) circuit 3 of the RF modulator unit 1 and the second phase locked loop (PLL) circuit 10 of the TV tuner unit 2 The first reference oscillator 3b of the first phase locked loop (PLL) circuit 3 of the RF modulator unit 1 and the TV tuner unit 2 are provided on a wiring pattern 17 arranged to share the crystal unit 3c. The fundamental wave and its harmonics of the respective oscillating signals with the second reference oscillator 10b of the second phase locked loop (PLL) circuit 10 are flowing. Since it is arranged near the input unit 12 and the third RF amplifier 13, harmonics of the reference frequency signals of the first reference oscillator 3 b and the second reference oscillator 10 b flowing on the wiring pattern 17 are obtained. However, it is easy to jump to the coil and the like of the input unit 12, and the jumped harmonics cause distortion in each circuit of the TV tuner unit 2, and this distortion causes a problem that beat interference appears on a display screen. May occur.
[0015]
An object of the present invention is to solve this problem, and an object of the present invention is to provide a TV tuner with a built-in RF modulator that does not cause a beat disturbance on a display screen.
[0016]
[Means for Solving the Problems]
An RF modulator built-in TV tuner of the present invention includes a housing, a wiring board disposed in the housing, and an RF modulator section and a TV tuner section provided adjacent to each other on the wavy line board. A first phase locked loop circuit and a crystal oscillator for setting a reference frequency connected to the first phase locked loop circuit provided in the RF modulator section, and an input section provided in the TV tuner section. A second phase-locked loop circuit, a first ground pattern disposed on the wiring board in an area between the input section and the housing, and a wiring board on the first ground pattern. A second ground pattern disposed in a region between the RF modulator unit and the input unit in a state where the crystal unit and the second unit are connected on the wiring board. Set the wiring pattern to connect to the phase locked loop circuit. , Between the housing and the first ground pattern along a wiring pattern on the respective ground patterns, and was disposed between the crystal oscillator and said second ground pattern.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a schematic diagram showing a configuration of a TV tuner with a built-in RF modulator according to an embodiment of the present invention.
[0019]
In FIG. 1, the same components as those shown in the conventional example of FIG. 2 are denoted by the same reference numerals.
[0020]
As shown in FIG. 1, the first ground pattern 15 of the RF modulator built-in type TV tuner according to the embodiment of the present invention has the RF modulator unit 1 side and the TV tuner unit 2 side respectively. The point where the openings 15a and 15b are provided, the point where the wiring pattern 17 is provided between the first ground pattern 15 and the housing 14, and the point where the first ground pattern 15 and the second ground pattern 16 Oite in that on the wiring board 11 are connected to each other, but as the conventional RF modulator built-in TV tuner shown in FIG. 2 are different, the configuration of the other points, the conventional RF modulator It is the same as the built-in TV tuner.
That is, the wiring pattern 17 is disposed along the ground patterns 15 and 16 between the first ground pattern 15 and the housing 14 and between the second ground pattern 16 and the crystal resonator 3c.
[0021]
In this case, in the TV tuner with a built-in RF modulator according to the embodiment of the present invention, the first ground pattern 15 is provided on both the RF modulator unit 1 and the TV tuner unit 2, and the housing 14. Is provided in the vicinity.
[0022]
Then, one end of the wiring pattern 17 is routed into the RF modulator section 1 through the opening 15 a and connected to the crystal resonator 3 c of the RF modulator section 1. The other end is routed into the TV tuner unit 2 through the opening 15b and connected to the second reference oscillation circuit 10a of the second phase locked loop (PLL) circuit 10 of the TV tuner unit 2. I have.
[0023]
Thus, the first reference oscillator 3b of the first phase locked loop (PLL) circuit 3 is formed by the crystal oscillator 3c and the first reference oscillation circuit 3a arranged on the RF modulator section 1 side. The second reference oscillator 10b of the second phase-locked loop (PLL) circuit 10 is configured by the crystal oscillator 3c and the second reference oscillation circuit 10a connected via the wiring pattern 17. Be composed.
[0024]
At this time, since the first ground pattern 15 is arranged between the wiring pattern 17 and the input unit 12 of the TV tuner 2 and the third RF amplifier 13, the wiring pattern 17 is The second RF amplifier 13 and the second RF amplifier 13 are arranged at a position farther apart from the conventional one by the first ground pattern 15. In other words, the first ground pattern 15 separates the wiring pattern 17 from the input unit 12 and the like. Due to the arrangement of the wiring pattern 17, the harmonics of the signal of the reference frequency of the first reference oscillator 3b and the second reference oscillator 10b flowing on the wiring pattern 17 are transmitted to the input unit 12 where the coil and the like are disposed or to the third unit. It is less likely to jump to the RF amplifier 13 or the like.
[0025]
Further, since the wiring pattern 17 is disposed between the first ground pattern 15 and the housing 14, the wiring pattern 17 is sandwiched between members having a ground potential. Even if the above-mentioned higher harmonics radiate, they are absorbed by the casing 14 made of a metal material, and are less likely to jump to the input unit 12 or the third RF amplifier 13 where the coil and the like are arranged. .
[0026]
The TV tuner with a built-in RF modulator according to the embodiment of the present invention having the above-described configuration operates roughly as follows.
[0027]
First, a case where the RF modulator section 1 is operated will be described. An oscillation signal output from a first voltage-controlled oscillator (VCO) (not shown) is generated by a first reference oscillator 3b using a crystal oscillator 3c. The frequency stabilizes.
[0028]
At this time, the oscillation signal (carrier) output from the first voltage controlled oscillator (VCO) is modulated by the video signal supplied to the video signal input terminal 3d and the audio signal supplied to the audio signal input terminal 3e. , Are input to the mixer 8. The RF signal supplied from the distributor 6 via the second RF amplifier 7 is also input to the mixer 8. Then, the signal is supplied from the antenna output terminal 9 as an RF output signal to an antenna input terminal (not shown) of the television receiver.
[0029]
Next, a case where the TV tuner unit 2 is operated will be described. A local oscillation signal output from a second voltage-controlled oscillator (VCO) (not shown) is generated by a quartz oscillator 3c arranged on the RF modulator unit 1 side. The frequency is stabilized by a second reference oscillator 10b including a second reference oscillation circuit 10a of a second phase locked loop (PLL) circuit 10.
[0030]
At this time, the TV broadcast signal supplied through the input unit 12 and the third RF amplifier 13 is selected and tuned by the local oscillation signal output from the second voltage controlled oscillator (VCO). An intermediate frequency (IF) signal corresponding to the TV broadcast signal is obtained.
[0031]
Then, an intermediate frequency signal corresponding to the selected TV broadcast signal is supplied from an intermediate frequency signal output terminal 10c to an intermediate frequency signal processing circuit (not shown) at the next stage.
[0032]
In the embodiment of the present invention, when the first phase-locked loop circuit 3 and the second phase-locked loop circuit 10 share the reference frequency setting crystal resonator 3c, Although the embodiment in which the oscillator 3c is arranged on the RF modulator section 1 side has been described, the crystal oscillator 3c may be arranged on the TV tuner section 2 side.
[0033]
【The invention's effect】
As described above, according to the present invention, a wiring pattern for connecting the crystal oscillator and the second phase locked loop circuit is provided on the wiring board, and the wiring pattern is formed along the first ground pattern along each ground pattern. Since it is arranged between the ground pattern and the housing, and between the second ground pattern and the crystal unit, compared to the conventional RF modulator built-in TV tuner integrated in the metal housing, the wiring pattern is Since the harmonics of the oscillating signal of the reference oscillator that flows do not easily jump to the coil of the input section, there is an effect that problems such as beat interference with the oscillating frequency signal of the input section and the like hardly occur.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing a configuration of an embodiment of a TV tuner with a built-in RF modulator according to the present invention.
FIG. 2 is a schematic diagram showing a configuration of a conventional TV tuner with a built-in RF modulator.
[Explanation of symbols]
REFERENCE SIGNS LIST 1 RF modulator section 2 TV tuner section 3 First phase locked loop (PLL) circuit 3a First reference oscillation circuit 3c Quartz crystal oscillator 5, 7, 13 RF amplifier 10 Second phase locked loop (PLL) circuit 10a Second reference oscillation circuit 11 Wiring board 12 Input unit 14 Housing 15 First ground pattern 16 Second ground pattern 17 Wiring pattern

Claims (1)

A housing, a wiring board disposed in the housing, an RF modulator section and a TV tuner section provided adjacent to each other on the wavy line board , wherein the RF modulator section has a first phase; In addition to providing a locked loop circuit and a crystal oscillator for setting a reference frequency connected to the first phase locked loop circuit, the TV tuner unit includes an input unit and a second phase locked loop circuit, A first ground pattern provided on a wiring board in a region between the input section and the housing; and the RF modulator section connected to the first ground pattern on the wiring board. And a second ground pattern disposed in a region between the input unit and the input unit, a wiring pattern for connecting the crystal oscillator and the second phase locked loop circuit on the wiring board Is provided, and the wiring pattern is The first between the ground pattern and the housing, and the second RF modulator built-in TV tuner, characterized in that disposed between the ground pattern and the crystal oscillator I.

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