JP3788364B2 - High frequency equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a high-frequency device in which a mobile phone and a mobile TV are mounted in the same casing.
[0002]
[Prior art]
As shown in FIG. 7, a conventional high-frequency device has a high-frequency device 1 in which a mobile phone 2 and a mobile TV 3 are mounted in the same casing. The cellular phone 2 includes an antenna switch 5 connected to the antenna 4, a SAW filter 6 connected to one terminal of the antenna switch 5, and a low noise amplifier 7 connected to the output of the SAW filter 6. The output of the low noise amplifier 7 is connected to one input, and the other input is a mixer 9 to which the output of the local oscillator 8 is connected, and the demodulator 10 to which the output of the mixer 9 is connected. And an audio output device 11 to which the output of the demodulator 10 is connected, an audio input device 12, a modulator 13 to which the output of the audio input device 12 is connected, and an output of the modulator 13 as one input. To the other input, a mixer 14 to which the output of the local oscillator 8 is connected, a power amplifier 15 to which the output of the mixer 14 is connected, an output of the power amplifier 15 and an antenna switch. 5 the other terminal of the low pass filter 16 connected between consisted of a loop connected PLL circuit 17. the local oscillator 8.
[0003]
The portable television 3 has an antenna 20 to which a terrestrial digital signal is input, a high-frequency amplifier 21 connected to the antenna 20, and an output of the high-frequency amplifier 21 is connected to one input and the other input Includes a mixer 23 to which the output of the local oscillator 22 is connected, a bandpass filter 24 to which the output of the mixer 23 is connected, an output of the bandpass filter 24 to one input, and the other , The mixer 26 to which the output of the local oscillator 25 is connected, the band pass filter 27 to which the output of the mixer 26 is connected, the demodulator 28 to which the output of the band pass filter 27 is connected, An image display 29 connected to the image output terminal of the demodulator 28, an audio output device 30 connected to the audio output terminal of the demodulator 28, and the local oscillator 2 Consisted loop connected PLL circuit 31. on.
[0004]
A special shield plate 32 is provided between the mobile phone 2 and the mobile TV 3 in addition to the individual shields provided in the individual mobile phone 2 or the mobile TV 3. The special shield plate 32 is mounted so as not to cause interference between the mobile phone 2 and the mobile TV 3. That is, if this shield plate 32 is not provided, the oscillation frequency of the local oscillator 22 leaks to the mobile phone 2 side, and noise may enter the mobile phone 2 or, in the worst case, the call cannot be made. Is provided to do. Further, the frequency of the local oscillator 8 of the mobile phone 2 may interfere with the mobile TV 3 and increase the digital error. Therefore, it also serves to prevent this.
[0005]
[Problems to be solved by the invention]
For this reason, in the conventional configuration, it is necessary to provide a special shield plate 32 separately from the individual shields provided in the individual mobile phone 2 or mobile TV 3.
[0006]
The present invention has been made to solve such problems, and an object of the present invention is to provide a high-frequency device with less interference to each other without using a special shield plate.
[0007]
[Means for Solving the Problems]
In order to achieve this object, the high-frequency device of the present invention is connected to a data comparator for comparing the data of the first data generator and the data of the second data generator, and to the output of the data comparator. Providing a control unit for sending data to the first data generator and the second data generator, and comparing the data contents from the first and second data generators by the data comparator; Thus, when the difference between the output frequency of the power amplifier and the oscillation frequency of the second local oscillator is equal to or smaller than a predetermined value, the control unit can control the second local oscillator based on the data from the data comparator. The shield plate between the mobile phone and the mobile TV is deleted by changing the oscillation frequency of the second time by a minute amount to improve the C / N of the second local oscillator, and the amount of the first intermediate frequency is shifted. Third By varying the oscillation frequency parts oscillator is obtained by the second intermediate frequency at a constant value.
[0008]
As a result, it is possible to obtain a high-frequency device with little interference to each other without using a special shield plate.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
The invention according to claim 1 of the present invention is a high-frequency device in which a mobile phone and a mobile TV are mounted in the same housing, and the mobile phone includes an antenna switch connected to an antenna and one of the antenna switches. A low-noise amplifier to which a signal input to the terminal of the first signal is supplied, and an output of the low-noise amplifier is connected to one input, and a first input in which the output of the first local oscillator is connected to the other input A first demodulator to which the output of the first mixer is connected, a first audio output device to which the output of the first demodulator is connected, and converting the sound into an electrical signal An audio input device, a modulator to which the output of the audio input device is connected, an output of the modulator is connected to one input, and an output of the first local oscillator is connected to the other input Second mixer and the second mixer A power amplifier connected between the output and the other terminal of the antenna switch, a first PLL circuit for controlling the oscillation frequency of the first local oscillator, and connected to the first PLL circuit The portable TV comprises a first data generator that determines a transmission / reception frequency of the mobile phone, and the mobile TV has an antenna to which a terrestrial digital signal including a plurality of segments in one channel is input, and the antenna is input to the antenna A signal is supplied to one input, and a third mixer to which the output of the second local oscillator is connected to the other input, and a first intermediate frequency output from the third mixer. a band-pass filter which is input, the output of the band-pass filter is connected to one input, the other input fourth mixing the output of the third local oscillator is connected When a filter in which the second intermediate frequency is input to be output from the fourth mixer, and a second demodulator which the output of this filter is supplied to the image output terminal of the second demodulator A connected image display; a second audio output connected to the audio output terminal of the second demodulator; a second PLL circuit for controlling the oscillation frequency of the second local oscillator; A third PLL circuit for controlling an oscillation frequency of a third local oscillator; an oscillation frequency of the reception frequency of the portable TV and the oscillation of the third PLL circuit connected to the second PLL circuit and the third PLL circuit; and a second data generator for determining the frequency, and a data comparator for comparing data of said first data generator for the data and the second data generator, connected to the output of the data comparator And generating the first data And a controller for sending data to the second data generator, and comparing the data contents from the first and second data generators with the data comparator, thereby outputting the output of the power amplifier When the difference between the frequency and the oscillation frequency of the second local oscillator is equal to or less than a predetermined value, the control unit reduces the oscillation frequency of the second local oscillator based on the data from the data comparator. The shield plate between the mobile phone and the mobile TV is deleted by changing the amount to improve the C / N of the second local oscillator, and the first intermediate frequency is shifted by the amount shifted. 3 is of the second intermediate frequency by changing the oscillation frequency of the local oscillator high-frequency apparatus at a constant value, by changing a very small amount of oscillation frequency of the second local oscillator, cause interference to the other side Since there is no a, for example, to increase noise during a call in the mobile phone oscillation frequency due to the second local oscillator not be such that disabled the worst case the call.
[0010]
Also in the portable television, since the output of the first local oscillator and the output of the power amplifier do not disturb the second local oscillator, the C / N is not deteriorated and the error is not increased. .
[0011]
In addition, as in the prior art, there is no need to provide a special shield plate between the mobile phone and the mobile TV separately from the individual shield provided for each single mobile phone or mobile TV. Can be planned.
[0012]
The invention according to claim 2 is the high-frequency device according to claim 1, wherein the data contents from the first and second data generators are the reception frequency of the mobile phone and the oscillation frequency of the second local oscillator, respectively. In addition, since the output of the first local oscillator and the output of the power amplifier do not interfere with the second local oscillator in the portable television, the C / N does not deteriorate and the error does not increase.
[0013]
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a circuit diagram of a high-frequency device according to an embodiment of the present invention. A high-frequency device 41 according to the present invention includes a mobile phone 42 and a mobile TV 43 mounted in the same casing.
[0014]
The mobile phone 42 includes an antenna switch 45 connected to the antenna 44, a SAW (surface acoustic wave) filter 46 connected to one terminal of the antenna switch 45, and a low-power connected to the output of the SAW filter 46. The noise amplifier 47, the output of the low noise amplifier 47 are connected to one input, the mixer 49 to which the output of the local oscillator 48 is connected, and the output of the mixer 49 are connected to the other input. Demodulator 50, audio output device (speaker or receiver) 51 to which the output of demodulator 50 is connected, audio input device (microphone) 52 that converts audio into an electrical signal, and output of audio input device 52 Is connected to one input, and the other input is connected to the output of the local oscillator 48. 54, a power amplifier 55 connected to the output of the mixer 54, a low-pass filter 56 connected between the output of the power amplifier 55 and the other terminal of the antenna switch 45, and the local oscillator 48. It is composed of a PLL circuit 57 connected in a loop.
[0015]
The portable television 43 has an antenna 60 to which a terrestrial digital signal is input, a high-frequency amplifier 61 connected to the antenna 60, an output of the high-frequency amplifier 61 is connected to one input, and the other input The mixer 63 to which the output of the local oscillator 62 is connected, the bandpass filter 64 to which the output of the mixer 63 is connected, the output of the bandpass filter 64 is connected to one input, and the other , The mixer 66 to which the output of the local oscillator 65 is connected, the bandpass filter 67 to which the output of the mixer 66 is connected, the demodulator 68 to which the output of the bandpass filter 67 is connected, An image display (such as a liquid crystal display or a cathode ray tube) 69 connected to the image output terminal of the demodulator 68 and a sound output terminal of the demodulator 68 are connected. And an audio output unit 70, a PLL circuit 71 that is loop-connected to the local oscillator 62, and a loop connected PLL circuit 72 to the local oscillator 65. When IQ detection is performed by the mixer 66, two mixers are connected in parallel as the mixer 66, and a low-pass filter that allows passage of about 500 KHz or less is connected to the output of each mixer. Both the low-pass filter and the low-pass filter 67 have a function of passing only one segment signal.
[0016]
Reference numeral 73 denotes a data generator which is connected to the PLL circuit 57 to change the reception and transmission frequencies of the mobile phone 42. A data generator 74 is connected to the PLL circuit 71 and the PLL circuit 72 and changes the reception frequency (reception channel) of the portable television 43. The data generators 73 and 74 are connected to a data comparator 75 to compare data contents. The output is connected to the control unit 76, and based on the contents of the data comparator 75, the data is output to the data generator 73 and the data generator 74 so that the mobile phone 42 and the mobile TV 43 interfere with each other. Do not become. That is, both or one of the oscillation frequencies of the local oscillator 48 or the local oscillator 62 is changed by a minute amount. If the oscillation frequency of the local oscillator 62 is changed, the oscillation frequency of the local oscillator 65 is also changed in order to correct it, and the second intermediate frequency is set to a constant value (4 MHz).
[0017]
Hereinafter, the operation of the control unit 76 will be described with reference to FIGS. When the oscillation frequencies of the mobile phone 42 and the mobile TV 43 are close, they interfere with each other. In this case, the oscillation frequency of the local oscillator 48 may be changed, or the oscillation frequency of the local oscillator 62 may be changed.
[0018]
First, referring to FIG. 2, the description will focus on the oscillation frequency of the local oscillator 62. That is, it is assumed that an interference wave 81 is generated in the vicinity of the output 80 of the local oscillator 62. In this case, the cause of the interference wave 81 is the oscillation frequency of the local oscillator 48. Accordingly, the oscillation frequency of the local oscillator 48 is changed by a minute amount so that the frequency difference between the output 80 and the interference wave 81 becomes 10 KHz or more. This improves the oscillation purity of the local oscillator 62 of the portable television 43, improves C / N, and reduces reception errors. The cause of the generation of the interference wave 81 is that when the oscillation frequency of the local oscillator 62 and the oscillation frequency of the local oscillator 48 are close (10 KHz or less), the oscillation frequency of the local oscillator 62 and the output frequency of the power amplifier 55 are close. (10 KHz or less). Here, when the oscillation frequency of the local oscillator 62 and the output frequency of the power amplifier 55 are close (10 KHz or less), even if the oscillation frequency of the local oscillator 62 itself is changed by a minute amount without changing the oscillation frequency of the local oscillator 48. good. Here, the horizontal axis 83 is frequency (MHz), and the vertical axis 84 is level (dB).
[0019]
In addition, when the oscillation frequency of the local oscillator 48 is close to the frequency of the desired reception channel of the portable television 43 (10 KHz or less), the oscillation frequency of the local oscillator 48 is changed by a small amount in order to reduce spurious interference to the portable television 43. It is necessary to let
[0020]
Next, with reference to FIG. 3, the description will focus on the oscillation frequency of the local oscillator 48. That is, it is assumed that an interference wave 86 is generated near the output 85 of the local oscillator 48. In this case, the cause of the interference wave 86 is the oscillation frequency of the local oscillator 62. Therefore, the oscillation frequency of the local oscillator 62 is changed by a minute amount so that the frequency difference between the output 85 and the interference wave 86 becomes 10 KHz or more. As a result, the oscillation frequency of the local oscillator 48 of the mobile phone 42 can be improved, and it is possible to prevent the mobile phone 42 from entering noise or making the phone call impossible in the worst case. The cause of the generation of the interference wave 86 is a case where the oscillation frequency of the local oscillator 48 and the oscillation frequency of the local oscillator 62 are close (10 KHz or less). Here, the horizontal axis 87 is frequency (MHz) and the vertical axis 88 is level (dB).
[0021]
When the oscillation frequency of the local oscillator 62 is close to the reception frequency of the mobile phone 42 (10 KHz or less), it is necessary to change the oscillation frequency of the local oscillator 62 by a minute amount in order to reduce spurious interference to the mobile phone 42. .
[0022]
As described above, when the interference wave output 81 or 86 is in the vicinity of the oscillation frequency output 80 or 85, the purity of the waveform 90 is lowered as shown by the dotted line 89 in FIG. Therefore, in such a case, the frequency purity is improved by changing the oscillation frequency of either or both of the local oscillator 48 and the local oscillator 62 by a minute amount. Here, the horizontal axis 91 is frequency (MHz), and the vertical axis 92 is level (dB).
[0023]
Next, the frequency of the radio wave used in this embodiment is as follows. That is, the digital terrestrial signal input to the antenna 60 of the mobile TV 43 is composed of a VHF band (90 MHz to 220 MHz) and a UHF band (470 MHz to 770 MHz), and the use frequency of the mobile phone 42 is 1.5 GHz of PDC. It consists of a band (1270 MHz to 1500 MHz) and a WCDMA band (1920 MHz to 2170 MHz).
[0024]
As shown in FIG. 5, the digital terrestrial signal 100 is divided into 13 segments 103 (one segment width is 428 KHz) in one channel 101 (one channel width is 6 MHz). In the VHF band, an independent broadcast is basically transmitted to each segment 103. In the UHF band, basically, a broadcast in which a central segment is independent from other segments is transmitted.
[0025]
The digital terrestrial signal 100 is converted into a first intermediate frequency of approximately 1205 MHz by the mixer 63. Then, the bandpass filter 64 having a bandwidth 104 (1.5 MHz) selects and passes approximately three segments 103a, 103b, and 103c around the desired wave 103b. Here, if the oscillation frequency of the local oscillator 62 is shifted by 10 kHz, the frequencies of the segments 103a, 103b, and 103c are also shifted by 10 KHz as indicated by 105. Next, it is converted into a second intermediate frequency of approximately 4 MHz by the mixer 66. At this time, since the first intermediate frequency is shifted by 10 KHz first, the second intermediate frequency is shifted back to 10 KHz as indicated by 107 in the opposite direction to 4 MHz. The desired wave 103b is selected and passed by the bandpass filter 67 having the bandwidth 106 (428 KHz).
[0026]
Also, as shown in FIG. 6, when there is an output 85 of the local oscillator 48 in the segment 103, the output 80 of the local oscillator 48 can be increased by increasing or decreasing the frequency of the local oscillator 48 by one half segment. Will not interfere with the segment.
[0027]
By performing the control as described above with the control unit 76, the oscillation frequency output from the local oscillator 62 is the frequency input to one terminal of the antenna switch 45 (reception frequency to the mobile phone) or the power amplifier 55. The frequency can be different from the output frequency (transmission frequency of the mobile phone) and the frequency output from the local oscillator 48.
[0028]
By controlling the oscillation frequency of the local oscillator 62 in this way, an individual shield provided between the mobile phone 2 and the mobile TV 3, respectively, between the mobile phone 2 and the mobile TV 3, as in the prior art. It is not necessary to provide a special shield plate 32 separately. That is, the oscillation frequency of the local oscillator 62 does not disturb the mobile phone 42, and the size can be reduced. Therefore, even if there is no special shield plate 32, noise does not enter the mobile phone 42.
[0029]
Further, since the output of the local oscillator 48 and the output of the power amplifier 55 do not interfere with the local oscillator 62, the C / N of the portable television 43 is not deteriorated and errors are not increased.
[0030]
【The invention's effect】
As described above, according to the high frequency device of the present invention, the data comparator for comparing the data of the first data generator and the data of the second data generator is connected to the output of the data comparator, A controller for sending data to the first data generator and the second data generator; and comparing data contents from the first and second data generators with the data comparator When the difference between the output frequency of the power amplifier and the oscillation frequency of the second local oscillator is equal to or smaller than a predetermined value, the control unit determines whether the second local oscillator has the second local oscillator based on the data from the data comparator. By changing the oscillation frequency by a small amount to improve the C / N of the second local oscillator, the shield plate between the mobile phone and the mobile TV is deleted, and the first intermediate frequency is shifted by the amount shifted. 3 local departures By varying the oscillation frequency of the vessel is obtained by the second intermediate frequency at a constant value.
[0031]
Therefore, by changing the oscillation frequency of the local oscillator of either the first local oscillator or the second local oscillator by a minute amount, there is no interference to the other party. For example, the oscillation frequency of the second local oscillator is For this reason, there is no increase in noise during a call on a mobile phone, or in the worst case, a call cannot be made. Also in the portable television, the output of the first local oscillator and the output of the power amplifier do not disturb the second local oscillator, so that the C / N does not deteriorate and the error does not increase.
[0032]
In addition, as in the prior art, there is no need to provide a special shield plate between the mobile phone and the mobile TV separately from the individual shield provided for each single mobile phone or mobile TV. Can be planned.
[Brief description of the drawings]
FIG. 1 is a block diagram of a high-frequency device according to an embodiment of the present invention. FIG. 2 is an explanatory diagram of a relationship between a local oscillation frequency of a mobile phone and an interference wave. FIG. FIG. 4 is an explanatory diagram showing the purity of the local oscillator. FIG. 5 is an explanatory diagram when changing the local oscillation frequency of the mobile TV by a minute amount. FIG. 6 is the mobile phone. Fig. 7 is an explanatory diagram when changing the local oscillation frequency of a minute amount. Fig. 7 is a block diagram of a conventional high frequency device.
DESCRIPTION OF SYMBOLS 41 High frequency apparatus 42 Cellular phone 43 Cellular television 44 Antenna 45 Antenna switch 47 Low noise amplifier 48 Local oscillator 49 Mixer 50 Demodulator 51 Audio output device 52 Audio input device 53 Modulator 54 Mixer 55 Power amplifier 57 PLL circuit 60 Antenna 61 High-frequency amplifier 62 Local oscillator 63 Mixer 64 Band pass filter 65 Local oscillator 66 Mixer 67 Band pass filter 68 Demodulator 69 Image display 70 Audio output unit 71 PLL circuit 72 PLL circuit 73 Data generator 74 Data generator 75 Data comparison 76 Control unit

Claims (2)

A high-frequency device in which a mobile phone and a mobile TV are mounted in the same housing, and the mobile phone is an antenna switch connected to an antenna and a low-frequency signal supplied to one terminal of the antenna switch. A noise amplifier, a first mixer having the output of the low noise amplifier connected to one input and the output of the first local oscillator connected to the other input, and the first mixer A first demodulator to which an output is connected; a first audio output device to which an output of the first demodulator is connected; an audio input device for converting audio into an electrical signal; and an output of the audio input device , A second mixer in which the output of the modulator is connected to one input and the output of the first local oscillator is connected to the other input, and the second mixer The output of the mixer and other of the antenna switch A power amplifier connected to the first terminal, a first PLL circuit for controlling an oscillation frequency of the first local oscillator, and a transmission / reception frequency of the mobile phone connected to the first PLL circuit. The portable TV includes an antenna to which a terrestrial digital signal including a plurality of segments in one channel is input and a signal input to the antenna is supplied to one input. A third mixer having the other input connected to the output of the second local oscillator, and a bandpass filter having the first intermediate frequency output from the third mixer inputted thereto. , the output of the band-pass filter is connected to one input of an output of the fourth mixer output of the third local oscillator is connected to the other input, from the fourth mixer A filter in which the second intermediate frequency is input that a second demodulator with an output of the filter is supplied, and an image display device connected to the image output terminal of the second demodulator, the second A second audio output device connected to the audio output terminal of the demodulator, a second PLL circuit for controlling the oscillation frequency of the second local oscillator, and an oscillation frequency of the third local oscillator A third PLL circuit; a second data generator connected to the second PLL circuit and the third PLL circuit to determine a reception frequency of the portable television and an oscillation frequency of the third PLL circuit; the provided, a data comparator for comparing data of said first data generator for the data and the second data generator is connected to the output of the data comparator, said first data generator Data is sent to the second data generator. And a control unit for transmitting data, and comparing the data contents from the first and second data generators with the data comparator, thereby oscillating the output frequency of the power amplifier and the oscillation of the second local oscillator. When the difference from the frequency is equal to or less than a predetermined value, based on the data from the data comparator, the control unit changes the oscillation frequency of the second local oscillator by a minute amount to change the frequency of the second local oscillator. The shield plate between the mobile phone and the mobile TV is eliminated by improving the C / N, and the oscillation frequency of the third local oscillator is changed by the amount of shifting the first intermediate frequency. A high-frequency device in which the second intermediate frequency is set to a constant value . The high-frequency device according to claim 1, wherein the data contents from the first and second data generators are the reception frequency of the mobile phone and the oscillation frequency of the second local oscillator, respectively .

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