JP3597553B2 - Satellite receiver and television receiver with built-in video tape recorder - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to a satellite broadcast receiver having a plurality of secondary converters for receiving satellite broadcasts, and a television receiver with a built-in video tape recorder equipped with the satellite broadcast receiver.
[0002]
[Prior art]
In a conventional satellite broadcast receiving apparatus, only one secondary converter is required for receiving satellite broadcasts, and there is no need to provide a plurality of secondary converters in the apparatus. This is because each device such as a television receiver (hereinafter abbreviated as a TV) or a video tape recorder (hereinafter abbreviated as a VTR) having a function of receiving a satellite broadcast has a function of only viewing or recording. I just wanted to be there. That is, there is no need to have a function of receiving a satellite broadcast signal of a program other than the satellite broadcast program signal received or recorded by the TV or VTR and outputting the signal to an external device. In recent years, a composite product of a VTR and a TV has been made, but most of the sets have only one secondary converter for receiving satellite broadcasting.
[0003]
However, some satellite broadcast receiving apparatuses include two secondary converters, and such an apparatus has a configuration as shown in FIG. That is, the satellite broadcasting signal received by the satellite broadcasting receiving (BS) antenna 1 and the primary converter 2 installed outdoors is pulled in indoors by the antenna cable 3 and the satellite broadcasting receiving device 100 installed indoors The signal is input to the distributor 5 via the antenna terminal 4. The signal from the primary converter input to the distributor 5 is distributed to two secondary converters 6 and 7, respectively, so that satellite broadcasting is received. However, since the distributor 5 can transmit current to the input side 51 only from one of the two output terminals 52 and 53, the method of supplying power (LNB) to the primary converter 2 is as follows. Of the two connected secondary converters 6 and 7, only one secondary converter 6 can be used, and power cannot be supplied from the other secondary converter 7.
[0004]
For this reason, the secondary converter 6 on the power supply side needs to supply power to the primary converter 2 so that the other secondary converter 7 can perform the receiving operation even if the secondary converter 7 is not in the receiving state. During the operation of the apparatus, the secondary converter 6 on the power supply side must always be operated. Therefore, satellite broadcasting cannot be received by operating only the secondary converter 7 that cannot supply power to the primary converter 2, and both secondary converters 6 and 7 must be operated only for power supply. I had to. Here, reference numeral 8 denotes a microcomputer for controlling the entire apparatus, and particularly, switches 14, a power supply circuit 10 for generating a power supply voltage for the secondary converter 6 and a power supply circuit 11 for generating a power supply voltage for the secondary converter 7. Control. The main power supply circuit 9 supplies necessary power to the microcomputer 8 and the power supply circuits 10 and 11 via power supply lines, and also supplies power to the primary converter 2 via the switch 14.
[0005]
Therefore, in this example, when satellite broadcasting is received, the switch 14 is always turned on, and the power for the primary converter 2 generated from the main power supply circuit 9 is supplied to the diode D of the secondary converter 6, the output side 52 of the distributor 5, the diode D, the input side 51 of the distributor 5, the antenna terminal 4 and the antenna cable 3 are supplied to the primary converter 2. When the secondary converter 6 is receiving satellite broadcasts, the microcomputer 8 can turn on the power supply circuit 10 and turn off the power supply circuit 11, but both the secondary converters 6 and 7 or the secondary If only the converter 7 is receiving satellite broadcasts, both power circuits 10 and 11 must be turned on. Further, reference numeral 12 denotes a receiving circuit on the secondary converter 6 side, and reference numeral 13 denotes a receiving circuit on the secondary converter 7 side.
[0006]
After all, in the device having the above configuration, the secondary converter 6 that supplies power to the primary converter 2 must be in an operating state even when satellite broadcasting is being received only on the secondary converter 7 side. Instead, the power consumed by the secondary converter is additionally required. In addition, since the above-mentioned state also exists in the related circuits, the operations of the two secondary converters 6 and 7 cannot be separated. For this reason, there is a possibility that a problem such as mutual interference of received signals between the secondary converters 6 and 7 may occur, and it is difficult to completely separate the power supply circuits 10 and 11 and the above-mentioned mutual interference is promoted. Had a configuration.
[0007]
By the way, even in an apparatus having not less than two secondary converters but three or more secondary converters, a secondary converter capable of supplying power to the primary converter is always operated to supply power to the primary converter. , The other secondary converter receives the signal from the primary converter. In such a configuration, even when a plurality of secondary converters are desired to be separated and operated independently, a structure in which the respective secondary converters cannot be separated in terms of circuit and operation due to power supply to the primary converter. Therefore, there is a disadvantage that mutual interference of received signals between the secondary converters cannot be avoided. There is also a type of distributor in which power can be supplied from a plurality of secondary converters to the primary converter side. However, in this case, the cost of the distributor itself is unavoidable and the price of the device becomes high. there were.
[0008]
[Problems to be solved by the invention]
In a satellite broadcast receiving device having a plurality of secondary converters for receiving satellite broadcasts, power supply (LNB) to a primary converter attached to an antenna unit for receiving satellite broadcasts is supplied to a secondary converter via an antenna cable. When a distributor that distributes the output of one primary converter to a plurality of secondary converters is used, a commonly used distributor uses only one of the secondary converters. Power was supplied to the primary converter. Therefore, the secondary converter capable of supplying power to the primary converter must always be operating during the operation of the device. For this reason, in particular, the secondary converter capable of supplying power needs to be operated for supplying power to the primary converter even if the receiving operation is not required, and the power consumed by this secondary converter is wasted. In addition, this operation has a disadvantage that it is difficult to completely separate the signals received by the respective secondary converters in terms of the circuit. There is also a type of distributor that can supply power to the primary converter from a plurality of secondary converters. However, since the cost of the distributor itself is high, there is a drawback that the cost of a device in which this is mounted increases. .
[0009]
Therefore, a first aspect of the present invention is to provide a satellite broadcast receiving apparatus which aims to eliminate the above-mentioned drawbacks and operate only a secondary converter required for reception to reduce power consumption. A second aspect of the present invention is a satellite broadcast receiving apparatus for the purpose of completely separating peripheral circuits related to a plurality of secondary converters and eliminating interference of signals received by each secondary converter. Another object of the third invention is to provide a television receiver having a built-in video tape recorder using the above first and second inventions.
[0010]
An input terminal to which a signal from a primary converter for receiving satellite broadcasting is input via an antenna cable,
A distributor that distributes and outputs a plurality of satellite broadcast signals input to the input terminal;
First and second receiving means including a secondary converter for frequency-converting and outputting the signals distributed by the distributor, and capable of receiving a satellite broadcast signal from the primary converter;
A first power supply circuit;
A switch provided between the first power supply circuit and the input side of the distributor; and when the switch is turned on, a voltage from the first power supply circuit is directly supplied to the input side of the distributor. Means for supplying an operating voltage to the primary converter through the antenna cable;
Second and third power supply circuits for supplying operating voltages to the first and second receiving means, respectively;
Said second, said controlling the third power source circuit first, controls the selective operation state of the second receiving means, the first by the control, at least one operation of the second receiving means And control means for turning on the switch when the state is turned on to supply a power supply voltage to the primary converter.
Also, a television receiver with a built-in video tape recorder according to claim 2 is an input terminal to which a signal from a primary converter for receiving satellite broadcasting is input via an antenna cable;
A distributor that distributes and outputs a plurality of satellite broadcast signals input to the input terminal;
A video tape recorder unit that includes a secondary converter that frequency-converts and outputs the first signal distributed by the distributor, and that can receive a satellite broadcast signal from the primary converter;
A television receiver that includes a secondary converter that frequency-converts and outputs the second signal distributed by the distributor, and that can receive a satellite broadcast signal from the primary converter;
A first power supply circuit;
A switch provided between the first power supply circuit and the input side of the distributor; and when the switch is turned on, a voltage from the first power supply circuit is directly supplied to the input side of the distributor. Means for supplying an operating voltage to the primary converter through the antenna cable;
A second and a third power supply circuit for supplying an operating voltage to the video tape recorder unit and the television receiving unit, respectively;
The second, with selectively operating the video tape recorder unit controls the third power source circuit and the television receiver unit, and at least one of the operating state of the video tape recorder unit, and television receiver unit by the control A microcomputer that controls the switch to be turned on when the switch is turned on to supply a power supply voltage to the primary converter;
It is characterized by having.
[0011]
[Action]
According to the first aspect of the present invention, the switch provided between the first power supply circuit and the input side of the distributor is turned on to directly supply the voltage from the first power supply circuit to the input side of the distributor. can do. Further, only the selected one of the first and second receiving means is controlled to be in the operating state, and when at least one of the receiving means is in the operating state, the switch is turned on to supply the power supply voltage to the primary converter. It is controlled to supply. Therefore, it is possible to operate only the desired receiving means, reduce power consumption, and reduce mutual interference between the receiving means.
A television receiver with a built-in video tape recorder according to claim 2 also has
Power consumption can be reduced, and mutual interference between the video tape recorder unit and the television receiver unit can be reduced.
[0012]
【Example】
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing one embodiment of the satellite broadcast receiving apparatus of the present invention. 1 is a satellite broadcast receiving (BS) antenna, 2 is a primary converter arranged near the BS antenna to receive a satellite broadcast signal, and 3 is an antenna connecting the primary converter 2 and the antenna terminal 4 of the satellite broadcast receiving apparatus 100. Cable 5 is a distributor for distributing the signal received by primary converter 2 to a plurality of secondary converters, 6 and 7 are secondary converters for converting the frequency of the signal received by primary converter 2, and 8 is the operation of the entire apparatus. , A main power supply circuit for generating a power supply voltage to be supplied to the entire apparatus, 10 a power supply circuit for generating a power supply voltage to be supplied to the secondary converter 6, and 11 a power supply voltage to be supplied to the secondary converter 7 , A receiving circuit for performing various processes on the signals received by the secondary converters 6 and 7, and a primary converter 14 On the power supply to a switch to turn off.
[0013]
Next, the operation of this embodiment will be described. A radio wave from a geostationary satellite for broadcasting is received by a BS antenna 1 installed outdoors, and a satellite broadcast signal received by a primary converter 2 provided near the antenna is transmitted through an antenna cable 3 and drawn indoors. The signal is input to the input side 51 of the distributor 5 via the antenna terminal 4 of the satellite broadcast receiver 100 installed indoors. The distributor 5 distributes the signal input to the input side 51 to the secondary converters 6 and 7 connected to the output sides 52 and 53. On the other hand, a power supply (LNB) required for the operation of the primary converter 2 is supplied from the input side 51 of the distributor 5 to the primary converter 2 through the antenna cable 3.
[0014]
That is, when one or both of the secondary converters 6 and 7 are receiving, the microcomputer 8 turns on the switch 14 and distributes the power for the primary converter 2 generated from the main power supply circuit 9 to the distributor. 5, the input side 51 of the distributor 5, the antenna terminal 4, and the antenna cable 3 to supply the primary converter 2. When operating the secondary converters 6 and 7, the microcomputer 8 naturally operates the corresponding power supply circuits 10 and 11 to supply power for operating the secondary converters.
[0015]
According to this embodiment, the power supply (LNB) to the primary converter 2 can supply the power transmitted from the main power supply circuit 9 directly to the input side 51 of the distributor 5 through the antenna cable 3 (power supply circuit). Due to the configuration, the secondary converters 6 and 7 and peripheral devices of these converters need only be operated on the side receiving the satellite broadcast, and the common circuit part for the operation of each secondary converter includes the circuit of the distributor 5 Only the blocks are provided, and the other circuit parts can be separated and operated independently. Mutual interference of the received signals between the secondary converters 6 and 7 can be prevented, and the quality of the satellite broadcast received image can be improved. it can. Also, the number of components in the distributor 5 is not different from that of the conventional example, and the secondary converter does not need a circuit for supplying power to the primary converter 2, so that the secondary converter 6 can be made inexpensive. It is possible to reduce the cost of the apparatus 100. Moreover, when a plurality of secondary converters are used, a secondary converter having the same configuration (conventionally, at least one secondary converter had to have a power supply circuit for the primary converter) can be used. 100 costs can be reduced. Furthermore, since the power supply circuit is provided in the distributor 5, it is possible to release the lightning surge from the outside to the power supply circuit 9 from the distributor 5, for example, so that the secondary converters 6, 7 Damage to subsequent circuits can be prevented. Further, since the distributor 5 of the present embodiment can be formed with the same number of parts as the conventional power supply type from the secondary converter to the primary converter, there is no particular increase in the cost here.
[0016]
FIG. 2 is a block diagram showing an embodiment of a television receiver with a built-in VTR on which the above-mentioned satellite broadcast receiving apparatus 100 is mounted. In this example, the satellite broadcast receiving apparatus shown in FIG. 1 is mounted, and the received signal of the secondary converter 6 is supplied to the television receiver 50 and the received signal of the secondary converter 7 is supplied to the VTR section 60. Therefore, the secondary converter 6 is dedicated to watching TV and the secondary converter 7 is dedicated to recording VTR. Since the operations of the television receiving unit 50 and the VTR unit 60 have related operations, for example, the microcomputer 8 that performs an operation of switching a TV input to a signal from the VTR by the switching circuit 21 when reproducing the VTR is used in common. I have. Therefore, in this example, a common power supply circuit 15 for the LNB and the microcomputer 8 is a common part that always operates. The microcomputer 8 always operates because the microcomputer 8 must control timer recording and the like of the VTR unit 60 and power supply control with a remote controller. However, the microcomputer 8 operates from the common power supply circuit 15 in the television receiver 200 with a built-in VTR. The LNB supply circuit that supplies the LNB power to the primary converter 2 through the microcomputer 8 is controlled on / off by the microcomputer 8.
[0017]
Also in this embodiment, the television receiver 50 and the VTR unit 60 can operate independently of each other, except for some common circuit parts. For example, when only the television receiver 50 operates, the VTR unit 60 is not operated. Similarly, when only the VTR unit 60 is operated, for example, for timer recording, the television receiver 50 side does not need to be operated at all, so that power consumption in the circuit operation state is minimized. be able to. Further, most of the circuit blocks can also be separated in content related to the operation of the television receiver and the VTR, and mutual interference from each of the television receiver 50 and the VTR unit 60, for example, grounding and power supply due to sharing of power supply. It is possible to eliminate the influence of surrounding noise and the non-reception secondary converter operation for supplying the LNB on other secondary converters, thereby improving the performance of this type of receiver.
[0018]
【The invention's effect】
As described above, according to the satellite broadcast receiving apparatus of the first aspect of the present invention, it is possible to reduce power consumption by operating only the secondary converter required for reception. Further, it is not necessary to provide the primary converter with a power supply circuit for the secondary converter, so that all the secondary converters need not have a power supply circuit, and the apparatus can be constructed at low cost. Further, according to the satellite broadcast receiving apparatus of the second aspect, it is possible to completely separate peripheral circuits related to a plurality of secondary converters and eliminate interference of signals received by each secondary converter. In addition, if a television receiver with a built-in video tape recorder according to the third aspect is used, it is possible to separate the television reception from the contents related to the operation of the VTR, and to cause mutual interference from the television reception unit 50 and the VTR unit 60. And the secondary converter operation of the non-receiving operation for supplying the LNB to other secondary converters can be eliminated.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of a satellite broadcast receiving apparatus according to the present invention.
FIG. 2 is a block diagram showing an embodiment of a TV with a built-in VTR equipped with the satellite broadcast receiver shown in FIG. 1;
FIG. 3 is a block diagram showing an example of a conventional satellite broadcast receiving device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... BS antenna 2 ... Primary converter 3 ... Antenna cable 4 ... Antenna terminal 5 ... Distributor 6, 7 ... Secondary converter 8 ... Microcomputer 9 ... Main power supply circuit 10, 11 ... Power supply circuit 12, 13 ... Receiving circuit 14 ... Switch 100 ... Satellite broadcasting receiver D ... Diode

Claims (2)

An input terminal to which a signal from a primary converter for receiving satellite broadcasting is input via an antenna cable;
A distributor that distributes and outputs a plurality of satellite broadcast signals input to the input terminal;
First and second receiving means including a secondary converter for frequency-converting and outputting the signals distributed by the distributor, and capable of receiving a satellite broadcast signal from the primary converter;
A first power supply circuit;
A switch provided between the first power supply circuit and the input side of the distributor; and when the switch is turned on, a voltage from the first power supply circuit is directly supplied to the input side of the distributor. Means for supplying an operating voltage to the primary converter through the antenna cable;
Second and third power supply circuits for supplying operating voltages to the first and second receiving means, respectively;
Said second, said controlling the third power source circuit first, controls the selective operation state of the second receiving means, the first by the control, at least one operation of the second receiving means Control means for turning on the switch when the state is turned on to control supply of a power supply voltage to the primary converter. An input terminal to which a signal from a primary converter for receiving satellite broadcasting is input via an antenna cable;
A distributor that distributes and outputs a plurality of satellite broadcast signals input to the input terminal;
A video tape recorder unit that includes a secondary converter that frequency-converts and outputs the first signal distributed by the distributor, and that can receive a satellite broadcast signal from the primary converter;
A television receiver that includes a secondary converter that frequency-converts and outputs the second signal distributed by the distributor, and that can receive a satellite broadcast signal from the primary converter;
A first power supply circuit;
A switch provided between the first power supply circuit and the input side of the distributor; and when the switch is turned on, a voltage from the first power supply circuit is directly supplied to the input side of the distributor. Means for supplying an operating voltage to the primary converter through the antenna cable;
A second and a third power supply circuit for supplying an operating voltage to the video tape recorder unit and the television receiving unit, respectively;
The second, with selectively operating the video tape recorder unit controls the third power source circuit and the television receiver unit, and at least one of the operating state of the video tape recorder unit, and television receiver unit by the control A microcomputer that controls the switch to be turned on when the switch is turned on to supply a power supply voltage to the primary converter;
A television receiver with a built-in video tape recorder, comprising:

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