JPH10303766A - High-frequency electronic device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve image quality by reducing the level of a disturbing signal caused by an oscillated signal at a modulation section and an oscillated signal from a tuner section, in the case that the modulation section and the tuner section are operated at the same time. SOLUTION: This device is provided with a modulation section 4 having an oscillator 10 and with a tuner section 5 having a highfrequency section 14, that selects a received television signal and provides an output of the selected signal, a mixer 15 that applies frequency conversion to the television signal selected and outputted from the high-frequency section 14, and a local oscillator 16 that gives a local oscillation signal to the mixer 15. Then the high-frequency section 14 has an inter-stage tuning circuit 25 that gives the selected television signal to the mixer 15, a low-pass filter 19 is connected between the inter-stage tuning circuit 25 and the mixer 15, and a cut-off frequency of the low-pass filter 19 is selected higher than a highest frequency of the television signal received by the high-frequency section 14.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high-frequency electronic device in which a modulation section and a tuner section are formed in one metal housing.

[0002]

2. Description of the Related Art Recent video tape recorders (hereinafter referred to as V
TR), the modulation section and the tube are provided in one metal housing.
A high-frequency electronic device having an electronic device is used.

FIG. 4 is a block diagram illustrating such a conventional high-frequency electronic device. In FIG. 4, a high-frequency electronic device 41 includes a modulation section 44 and a tuner section 45 on a printed circuit board 43 housed in one metal housing 42.
Are incorporated. And the modulating unit 44
Has a distributor 46, a mixer 47, a modulator 48, a PLL circuit 49, etc., while a tuner section 45 has a VHF high frequency section 50, a VHF mixer 51, a VHF local oscillator 52, U
An HF high frequency unit 53, a UHF mixer 54, a UHF local oscillator 55, an intermediate frequency amplifier 56, and the like are provided.

An input terminal 57 and an output terminal 58 are attached to the metal housing 42, and the modulation unit 44 and the tuner 45 are shielded from each other by a shield plate 59 connected to the metal housing 42. -Has been hidden.

The television signal input to the input terminal 57 is input to the television receiver (not shown) from the output terminal 58 via the distributor 46 and the mixer 47.
On the other hand, the television signal distributed by the distributor 46 is supplied to the VHF high frequency section 50 and the UHF high frequency section 5 of the tuner section 45.
3 and so on.

The PLL circuit 49 of the modulating section 44 includes a voltage controlled oscillator (hereinafter referred to as VCO) for outputting a carrier signal (not shown).
Is modulated by a modulator 48 with a video signal or the like reproduced by a VTR (not shown), and input as a television signal to a television receiver (not shown) via a mixer 47 and an output terminal 58. I have.
Therefore, the frequency of the carrier signal from the VCO is controlled by the PLL circuit 49 so that it matches the frequency of a predetermined video carrier signal that can be received by the television receiver. The frequency is set to a frequency of a channel that is not used for broadcasting in a region where the channel is used.

On the other hand, a VHF high-frequency section 50 in the tuner section 45 selects a desired channel television signal from television signals in the VHF band.
The F high-frequency section 53 is for selecting a television signal of a desired channel from television signals in the UHF band, and includes an input tuning circuit composed of a single tuning circuit, a high frequency amplifier, and a double tuning circuit (not shown). It has an interstage tuning circuit and the like. Then, the television signal of the selected channel is supplied from each interstage tuning circuit to VHF.
Input to each of the mixer 51 and the UHF mixer 54,
The frequency is converted into an intermediate frequency signal by being mixed with the local oscillation signals from the VHF local oscillator 52 and the UHF local oscillator 55, and is input to a subsequent circuit (not shown) via the intermediate frequency amplifier 56.

[0008]

However, the above-mentioned conventional high-frequency electronic device has a V
A power supply voltage is always applied to the modulation unit 44 and the tuner unit 45 regardless of whether the recording or reproduction is performed by the TR. Therefore, although the modulation section 44 and the tuner section 45 are shielded from each other by the shield plate 49, the modulation section 44
The harmonic of the oscillation signal (carrier signal) from the VCO of the PLL circuit 49 easily jumps to the VHF high frequency section 50 or the UHF high frequency section 53 of the tuner section 45. Then, the jumped harmonics are passed through the VHF high frequency section 50 or the UHF high frequency section 53 to the respective VHF mixers 5.
1. The signal is input to the UHF mixer 54, and is input to the VHF mixer 51 or the UHF mixer 54.
When mixed with the harmonic of the local oscillation signal from the 2 or UHF local oscillator 55, a problem arises that an interference signal having a frequency very close to the frequency of the intermediate frequency signal is generated.

[0009] One example of the above problem is that conventional high frequency electronic equipment is used, for example, in Germany where the output channel is set to channel 32 (ie, the carrier signal from the VCO in modulator 44 is set to the frequency of channel 32). A case where the channel 26 is used for a VTR of a European specification such as that described above, and the channel 26 is recorded will be described.

In this case, the channel 26 in the European television system corresponds to the UHF band, and the UH band of the tuner 45 in the high-frequency electronic device 41 is used.
The F local oscillator 55 outputs a local oscillation signal of 550.15 MHz. On the other hand, since the output channel of the VTR is set to the channel 32, the VCO of the PLL circuit 49 in the modulation section 44 oscillates at 559.25 MHz. The two oscillation signals are input to the UHF mixer 54, and their harmonics are also input.

The frequency of the difference between the fourth harmonic (2237 MHz) of the oscillation signal of the VCO and the fourth harmonic (2200.6 MHz) of the oscillation signal of the UHF local oscillator 55 is 36.4 MHz. This frequency (36.4 MH
z) falls between the video intermediate frequency (38.9 MHz) and the audio intermediate frequency (33.4 MHz) in the television system of the European specification, and this interferes with the regular reception channel 26. It becomes. As a result, the image quality of the recorded television signal has been degraded.

An interference signal based on the above relationship is, for example, a VTR when the receiving channel is channel 26.
Is set to channel 63, and when the receiving channel is channel 38, the output channel of the VTR is channel 44 or channel 4.
5, the output channel of the VTR is set to the channel 22 or the channel 52 when the receiving channel is the channel 46, and so on. Therefore, the high-frequency electronic device of the present invention provides a level of an interfering signal generated by the oscillation signal of the modulation unit and the oscillation signal of the tuner when the modulation unit and the tuner unit are operating at the same time. Is suppressed to improve the image quality.

[0013]

In order to solve the above-mentioned problems, a high-frequency electronic device of the present invention comprises a metal housing, a printed wiring board housed in the metal housing, and a printed wiring board. A modulation unit having an oscillator, a high-frequency unit configured on the printed wiring board, for selecting a television signal to be received from television signals and outputting the selected television signal, and an output from the high-frequency unit. A mixer for frequency-converting the selected television signal, and a tuner having a local oscillator for supplying a local oscillation signal to the mixer. A low-pass filter connected between the inter-stage tuning circuit and the mixer; and a low-pass filter for the low-pass filter. The cutoff frequency was higher than the highest frequency of the television signal which the RF unit receives.

Further, in the high frequency electronic device of the present invention, the high frequency section selects a UHF band television signal to be received from among the UHF band television signals, and outputs the selected UHF band television signal. A UHF high-frequency unit, the mixer includes a UHF mixer that converts the frequency of the selected UHF band television signal output from the UHF high-frequency unit, and the local oscillator includes a UHF mixer. UHF for supplying local oscillation signal
A UHF high-frequency section, a UHF interstage tuning circuit for inputting the selected UHF band television signal to the UHF mixer, wherein the low-pass filter includes at least the UHF interstage tuning circuit. And the UHF mixer.

Further, in the high-frequency electronic device of the present invention, the low-pass filter is an L-type low-pass filter comprising an inductance element and a capacitance element connected between one end of the inductance element and ground. It consisted of.

Further, in the high frequency electronic device of the present invention, the low-pass filter may include an inductance element and a capacitor connected in parallel with each other, and a low-pass filter connected between one end of the inductance element and the capacitor connected in parallel with each other and ground. Inductive M-type row consisting of a capacitive element connected to
It consisted of a pass filter.

Further, in the high-frequency electronic device of the present invention, the capacitive element is formed by a stray capacitance formed between two conductive patterns provided on the printed wiring board.

[0018]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A high-frequency electronic device according to the present invention will be described below with reference to FIGS. First, FIG. 1 shows a block diagram of a high-frequency electronic device according to the present invention. A high-frequency electronic device 1 includes a modulation unit 4 and a tuner unit 5 on a printed wiring board 3 housed in a single metal housing 2. Is built in. The modulator 4 includes a distributor 6, a mixer 7, a modulator 8, a PLL circuit 9, and the like. The PLL circuit 9 includes a voltage-controlled oscillator (hereinafter, referred to as a VCO) 10 that is an oscillator that generates a carrier signal. Have.

On the other hand, the tuner section 5 is a VHF high frequency section 1 which is a high frequency section for selecting and outputting a VHF band television signal to be received from VHF band television signals.
1. A VHF mixer 12, which is a mixer that converts the frequency of a VHF band television signal output from a VHF high frequency unit 11 and outputs an intermediate frequency signal, and a local oscillator that supplies a local oscillation signal to the VHF mixer 12. A certain VHF local oscillator 13, a UHF high-frequency unit 14 that is a high-frequency unit that selects and outputs a UHF-band television signal received from a UHF-band television signal, and a UHF-band television output from the UHF high-frequency unit 14. UHF mixer 1 that is a mixer that converts the frequency of a signal of the same to output an intermediate frequency signal
5, a local oscillator 16 for supplying a local oscillation signal to the UHF mixer 15, a UHF local oscillator 16, an intermediate frequency amplifier 17 for amplifying an intermediate frequency signal from the VHF mixer 12 or the UHF mixer 15, and the like.

The VHF high-frequency unit 11 and the UHF high-frequency unit 14 each have an input tuning circuit, a high-frequency amplifier, an inter-stage tuning circuit, and the like.
Between the F mixer 12, and between the UHF high-frequency unit 14 and the UHF
A first low-pass filter 18 and a second low-pass filter 19 are provided between the mixer and the mixer 15, respectively.

Here, the VHF high-frequency section 11 is constituted by a VHF input tuning circuit 20, a VHF high-frequency amplifier 21, and a VHF inter-stage tuning circuit 22, which are sequentially connected.
The UHF high-frequency section 14 is also a UHF input tuning circuit 23, a UHF
A high-frequency amplifier 24 and a UHF interstage tuning circuit 25 are sequentially connected. The first low-pass filter 18 is provided between the VHF interstage tuning circuit 2 of the VHF high-frequency unit 11.
2 and the VHF mixer 12, and the second low-pass filter 19 is connected to the UHF interstage tuning circuit 25 of the UHF high-frequency unit 14 and the UHF mixer 15.

The first low-pass filter 18 is composed of an induction M-type filter, and includes a first inductance element 26 and a first capacitor 27 connected in parallel with each other, and a first inductance element 26 connected in parallel with each other. It has a second capacitor 27 which is a capacitive element connected between one end of the first capacitor 27 and the ground. Similarly, the second low-pass filter 19 is also formed of an inductive M-type filter, and includes a second inductance element 29 and a third capacitor 30 connected in parallel with each other, and a second inductance element connected in parallel with the second inductance element 29. 29 and the third capacitor 30
And a fourth capacitor 31 which is a capacitive element connected between one end of the capacitor and the ground.

Then, the first low-pass filter 18
The VHF high-frequency section 11 passes through a television signal of the highest frequency (230 MHz in a European television system) among television signals in the VHF band received by the VHF high-frequency section 11, and attenuates a signal having a frequency higher than the highest frequency. The cutoff frequency is, for example, 1000 MHz
The second low-pass filter 19 is set between 1500 MHz and the UHF high-frequency unit 14 receives the UHF signal.
For example, the cutoff frequency is set so that the signal passes through the highest frequency television signal (862 MHz in the European television system) of the television signal of the band and attenuates a signal having a frequency higher than the highest frequency. It is set between 1500 MHz and 2000 MHz.

For this reason, the VHF mixer 12 has a cutoff frequency of approximately 1000 MHz to 15000 MHz.
The input of a signal having a frequency equal to or higher than z is blocked or the level of the signal is suppressed even if the signal is input.
The UVHF mixer 15 has approximately 1500 MHz to 200 MHz.
The input of a signal having a frequency of 0 MHz or more is prevented or, even if the signal is input, the level of the signal is suppressed to a low level.

An input terminal 32 and an output terminal 33 are attached to the metal housing 2 of the high-frequency electronic device 1 of the present invention, and the modulation unit 4 and the tuner unit 5 are connected to the metal housing 2. They are shielded from each other by a shield plate 34.

The television signal input to the input terminal 32 is output to the output terminal 3 via the distributor 6 and the mixer 7.
3 is input to a television receiver (not shown) and can be viewed on this television receiver. On the other hand, the television signal distributed by the distributor 6 is transmitted to the tuner unit 5.
Are input to the VHF high-frequency unit 11 and the UHF high-frequency unit 14. Further, the PL
An oscillation signal output from the VCO 10 of the L circuit 9 is used as a carrier signal, and the carrier signal is modulated by the modulator 8 with a video signal or the like reproduced by a VTR (not shown) in which the high-frequency electronic device 1 is incorporated. As input to a television receiver (not shown) via the mixer 7 and the output terminal 33.

Therefore, the frequency of the carrier signal from the VCO 10 is made to match the frequency of a predetermined video carrier signal corresponding to a channel determined by the television system so that the television receiver can receive the signal. .
To this end, the VCO 10 is under PLL control. The frequency of the carrier signal is generally set to a frequency of a channel not used for broadcasting in an area where the VTR is used, but the frequency can be set to an arbitrary channel frequency by the PLL circuit 9. Has become.

On the other hand, the VHF high-frequency section 11 in the tuner section 5 selects a television signal of a desired channel from television signals in the VHF band, and similarly, UHF.
The high-frequency section 14 is for selecting a television signal of a desired channel from television signals of the UHF band, and the selected television signal of the VHF band is output from the VHF inter-stage tuning circuit 22, and The signal is input to the VHF mixer 12 via the low-pass filter 18. Similarly,
The UHF band television signal selected by the UHF high frequency section 14 is output from the UHF inter-stage tuning circuit 25 and input to the UHF mixer 15 via the second low-pass filter 19.

Here, as described above, the first low-pass filter 18 has a cut-off frequency higher than the highest frequency among the VHF band television signals received by the VHF high-frequency section 11 (for example, , 1500MH
z), the VHF mixer 12 supplies 150 V from the VCO 10 of the PLL circuit 9 in the modulation unit 4 to the VHF mixer 12.
The input of harmonics of 0 MHz or more is blocked or the level is suppressed even if it is input. Similarly, the second low-pass filter 31 has a cutoff frequency of UH
F higher frequency than the highest frequency of the UHF band television signal received by the high frequency
0 MHz), the UHF mixer 15 prevents the input of harmonics of 2000 MHz or more from the VCO 10 of the PLL circuit 9 in the modulation section 4 or suppresses the level of the input harmonic even if it is input. .

Then, the V input to the VHF mixer 12 is
The television signal in the HF band is frequency-converted into an intermediate frequency signal by being mixed with a local oscillation signal from a VHF local oscillator 13 in a VHF mixer 12, and the intermediate frequency output is not shown through an intermediate frequency amplifier 17. The UHF band television signal input to the circuit at the subsequent stage and similarly input to the UHF mixer 15 is supplied to the UHF mixer 1.
In 5, the frequency is converted into an intermediate frequency signal by being mixed with the local oscillation signal from the UHF local oscillator 16, and the intermediate frequency output is input to a subsequent circuit (not shown) via the intermediate frequency amplifier 17. Intermediate frequency amplifier 17
A video demodulator (not shown) is provided at the subsequent stage, and the video signal demodulated by the video demodulator is recorded.

As described above, in the high-frequency electronic device of the present invention, the VHF inter-stage tuning circuit 2 of the VHF high-frequency section 11 is used.
A first low-pass filter 18 is provided between the VHF mixer 2 and the VHF mixer 12, and a second low-pass filter is provided between the UHF interstage tuning circuit 25 of the UHF high-frequency unit 14 and the UHF mixer 15. 19, the PL in the modulation unit 4
The harmonic of the oscillation signal from the VCO 10 of the L circuit 9 is VHF
The input to the mixer 12 and the UHF mixer 15 becomes difficult, and the level of the interference signal generated in the VHF mixer 12 and the UHF mixer 15 can be suppressed to an extremely low level.

In this case, when the harmonic from the VHF local oscillator 13 which mixes with the harmonic of the oscillation signal of the VCO 10 to generate the interference signal and the harmonic from the UHF local oscillator 16 are compared, the harmonic from the UHF local oscillator 16 is compared. Since the order of the harmonics is low, the level of the harmonic from the UHF local oscillator 16 is high (generally, the level of the harmonic increases as the order decreases). Therefore, a disturbing signal is notably output from the UHF mixer 15 rather than the VHF mixer 12. Therefore, at least the UHF high frequency unit 1
By providing the second low-pass filter 19 between the UHF inter-stage tuning circuit 25 and the UHF mixer 15, the generation of an interfering signal can be effectively prevented.

The circuit configuration of the first low-pass filter 18 and the second low-pass filter 19 is not limited to the induction M-type low-pass as shown in FIG. Or an L-type low-pass filter 35 as shown in FIG. 2 constituted by a half section of the constant K filter. This low-pass filter 35
Since it can be simply composed of two parts, the inductance element 36 and the capacitor 37 which is a capacitance element grounded to the ground, the printed wiring board 3 housed in the metal housing 2 does not occupy extra space. Further, impedance matching between the VHF interstage tuning circuit 22 and the VHF mixer 12, and the UHF interstage tuning circuit 25 and the UHF mixer 15
Can be easily obtained.

The first low-pass filter 18 and the second low-pass filter 19 are connected to an induction M as shown in FIG.
If a low-pass filter of the type is used, harmonics from the VCO 10 existing in the range up to the vicinity of the cutoff frequency can be attenuated, so that the VHF mixer 12 or the UHF mixer 1
5 can suppress many interfering signals.

The second capacitor 28 of the first low-pass filter 18 shown in FIG. 1, the fourth capacitor 31 of the low-pass filter 19 for hemorrhoids, or the capacitor 37 shown in FIG. 2 are all grounds. Since these capacitors 28, 31, and 37 are grounded in FIG.
As shown in FIG. 7, a stray capacitance 40 formed between two conductor patterns 38 and 39 provided on the printed wiring board 3.
Can be substituted. Then, for example, the coil 36 of the low-pass filter 35 shown in FIG. 2 is connected to one conductor pattern 38 and the other conductor pattern 39 is connected to the metal casing 2.
Just connect it to. As described above, if the stray capacitance 40 using the printed wiring board 3 is used, the capacitor 37 can be omitted.

[0036]

As described above, the high-frequency electronic device according to the present invention includes a modulation section having an oscillator, and a tuner section having a high-frequency section, a mixer, and a local oscillator. A low-pass filter is connected between the inter-stage tuning circuit and the mixer, and the cut-off frequency of the low-pass filter is set higher than the highest frequency of the television signal received by the high frequency section. Therefore, the harmonics of the oscillation signal from the oscillator of the modulation section are hardly input to the mixer, and the level of the interference signal generated in the mixer can be suppressed to an extremely low level.

In the high-frequency electronic device according to the present invention, the low-pass filter includes at least a UHF inter-stage tuning circuit and a UHF
Since it is connected between the mixer and the mixer, it is possible to effectively prevent the generation of an interference signal.

Further, in the high frequency electronic device of the present invention, since the low-pass filter is constituted by an L-shaped low-pass filter including an inductance element and a capacitance element, the low-pass filter can be easily constituted by two parts, and can be printed. There is no extra space on the wiring board. In addition, impedance matching between the interstage tuning circuit and the mixer can be easily obtained.

Further, in the high-frequency electronic device of the present invention, since the low-pass filter is constituted by an induction M-type low-pass filter, harmonics from the oscillator of the modulation section existing in the range up to the vicinity of the cutoff frequency are obtained. Waves can be attenuated and many interfering signals generated in the mixer can be suppressed.

In the high frequency electronic device of the present invention, the capacitive element of the low-pass filter to be grounded is formed by the stray capacitance formed between two conductive patterns provided on the printed wiring board. In addition, components can be reduced without using a capacitor.

[Brief description of the drawings]

FIG. 1 is a block diagram of a high-frequency electronic device according to the present invention.

FIG. 2 is a circuit diagram of a low-pass filter used in the high-frequency electronic device of the present invention.

FIG. 3 is an explanatory diagram illustrating a method of forming a capacitor of a low-pass filter used in the high-frequency electronic device of the present invention.

FIG. 4 is a block diagram of a conventional high-frequency electronic device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 High frequency electronic device 2 Metal housing 3 Printed wiring board 4 Modulation part 5 Tuner part 6 Distributor 7 Mixer 8 Modulator 9 PLL circuit 10 VCO 11 VHF high frequency part 12 VHF mixer 13 VHF local oscillator 14 UHF high frequency part 15 UHF mixer 16 UHF local oscillator 17 Intermediate frequency amplifier 18 First low-pass filter 19 Second low-pass filter 20 VHF input tuning circuit 21 VHF high frequency amplifier 22 VHF interstage tuning circuit 23 UHF input tuning circuit 24 UHF high frequency Amplifier 25 UHF interstage tuning circuit 26 First inductance element 27 First capacitor 28 Second capacitor 29 Second inductance element 30 Third capacitor 31 Fourth capacitor 32 Input terminal 33 Output terminal 34 Shield plate 35 L-type low-pass filter 36 coil 37 capacitor 38.39 conductor pattern 40 stray capacitance

Claims (5)

[Claims] 1. A metal housing, a printed wiring board housed in the metal housing, a modulator configured on the printed wiring board and having an oscillator, and a television signal configured on the printed wiring board, A high-frequency section for selecting a television signal to be received from among the signals and outputting the selected television signal; a mixer for frequency-converting the selected television signal output from the high-frequency section; and a local section for the mixer. A tuner section having a local oscillator for supplying an oscillation signal, wherein the high-frequency section has an inter-stage tuning circuit for inputting the selected television signal to the mixer, wherein the inter-stage tuning circuit and the A low-pass filter is connected between the mixer and a mixer, and the cut-off frequency of the low-pass filter is set to the maximum value of the television signals received by the high frequency section. High frequency electronic equipment characterized by being higher than the high frequency. 2. The high-frequency section includes a UHF high-frequency section that selects a UHF-band television signal to be received from among UHF-band television signals and outputs the selected UHF-band television signal. The mixer has a UHF mixer that frequency-converts the selected UHF band television signal output from the UHF high frequency unit, and the local oscillator is a UHF local unit that supplies a local oscillation signal to the UHF mixer. An oscillator, and a UHF inter-stage tuning circuit for inputting the selected UHF band television signal to the UHF mixer in the UHF high frequency section, wherein the low-pass filter includes at least the UHF inter-stage tuning circuit. 2. The high-frequency electronic device according to claim 1, wherein the high-frequency electronic device is connected between the UHF mixer. 3. The low-pass filter according to claim 1, wherein the low-pass filter is an L-type low-pass filter including an inductance element and a capacitance element connected between one end of the inductance element and ground. The high-frequency electronic device according to claim 1. 4. The low-pass filter is composed of an inductance element and a capacitor connected in parallel with each other, and a capacitance element connected between one end of the inductance element and the capacitor connected in parallel with each other and a ground. 3. The high-frequency electronic device according to claim 1, wherein the high-frequency electronic device is constituted by an induction M type low-pass filter. 5. The high-frequency electronic device according to claim 3, wherein said capacitive element is formed by a stray capacitance formed between two conductive patterns provided on said printed wiring board. .