JP3873709B2 - Receiver - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a receiving apparatus capable of supplying a power supply voltage to a down converter via an antenna cable.
[0002]
[Prior art]
Conventionally, when a satellite broadcast receiver that receives satellite broadcasts receives satellite broadcasts, it is necessary to supply power from the satellite broadcast receiver to the converter attached to the satellite broadcast antenna using an antenna cable. There is.
Further, when a joint reception system for jointly receiving satellite broadcasts is built in an apartment house, for example, one of the plurality of satellite broadcast receivers connected to the joint reception system is received. It is necessary to supply power to the converter using an antenna cable from a device or the like.
[0003]
[Problems to be solved by the invention]
By the way, the conventional satellite broadcast receivers may supply power to the converter even if the antenna cable connecting the converter and the satellite broadcast receiver is short-circuited, and the satellite broadcast receiver itself may break down. there were.
[0004]
In the case of a joint reception system such as an apartment house, when power is supplied from one satellite broadcast receiver to the converter, the power is supplied to the converter from another satellite broadcast receiver, that is, the converter When there are a plurality of power supply lines, devices such as converters and satellite broadcast receivers connected to the joint reception system may be damaged.
[0005]
In particular, conventional satellite broadcast receivers may supply power to converters even when other satellite broadcast receivers are supplying power, which is one of the causes of failure of converters and satellite broadcast receivers. It is connected.
Further, when power is supplied to the converter, if power is supplied to the converter from another satellite broadcast receiver, unnecessary power consumption is generated, which is not preferable from this point. .
[0006]
In other words, the conventional satellite broadcast receivers can supply power even when the antenna power supply line of the converter is short-circuited or when the converter is supplied with power from another satellite broadcast receiver. There is a possibility that a power supply voltage may be supplied to the wire, which may cause various problems.
[0007]
[Means for Solving the Problems]
  In view of the above, the present invention has been made and input via the antenna of the present invention.Broadcast signalThe predetermined frequencyofFrequency converter for converting to signalAgainstthe abovePredeterminedfrequencyofTransmit signalAntenna cableAnd a receiving device configured to supply a predetermined power supply voltage to the frequency converter using the antenna cable as a power supply line.Antenna cablePower supply means for supplying a predetermined power supply voltage to the frequency converter via the above, and the aboveAntenna cableIs detected by the short-circuit detecting means for detecting whether or not the short-circuit state is present, and the short-circuit detecting means,Antenna cableIs detected as being short-circuited, the power supply meansAntenna cableThe power supply voltage is controlled not to be supplied to theAntenna cableIs detected not to be short-circuited, the power supply meansAntenna cablePower supply control means for controlling the supply of power supply voltage toThe short-circuit detection means includes: a short-circuit detection voltage supply means for supplying a short-circuit detection voltage set to a voltage value lower than a voltage supplied to the antenna cable from the power supply means; and a voltage of the antenna cable. And a first detector for detecting whether or not the antenna cable is in a short circuit state, and supplying the short circuit detection voltage to the antenna cable, A short circuit of the antenna cable is detected by the first detector.
[0008]
According to the present invention as described above, the short-circuit detection means automatically detects whether or not the power supply line that supplies the power supply voltage to the frequency converter is short-circuited. When the power supply line is short-circuited, Thus, it becomes possible not to supply the power supply voltage from the power supply means to the frequency converter.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below.
FIG. 1 is a diagram showing a configuration example of a satellite broadcast receiving system.
The satellite broadcast receiving system shown in FIG. 1 includes a parabolic antenna 1, a down converter 2 attached to the parabolic antenna 1, and a satellite broadcast receiving device 10. The down converter 2 and the satellite broadcast receiving device 10 are antennas. Connected by cable 3.
The satellite broadcast wave received by the parabolic antenna 1 is converted into an intermediate frequency signal IF of, for example, an L band (1 GHz to 2 GHz) by the down converter 2 and input to the satellite broadcast receiving device 10 through the antenna cable 3.
[0010]
FIG. 2 is a block diagram showing the main internal configuration of the satellite broadcast receiving apparatus 10 as the first embodiment of the present invention.
In the satellite broadcast receiver 10 shown in FIG. 2, the intermediate frequency signal IF input through the antenna cable 3 is distributed by the distributor 4 and input to the tuner unit 11.
The tuner unit 11 selects a desired satellite broadcast channel from the intermediate frequency signal IF based on the control of the system control unit 12, and selects the selected television signal (TV signal) from a television receiver (not shown). To be sent to the machine. Thus, a desired satellite television broadcast image is displayed on the television receiver.
[0011]
Here, the down converter 2 attached to the parabolic antenna 1 is not provided with a power supply device in order to reduce the size and weight and reduce noise, and it is necessary to supply a power supply voltage from the outside. is there.
For this reason, in a normal satellite broadcast receiving system, the satellite broadcast receiving device 10 is provided with a power supply 17 (power supply means) for the down converter, and the specified power supply voltage V1 is supplied from the power supply 17 for the down converter to the down converter 2. I am trying to supply.
The power supply from the satellite broadcast receiving apparatus 10 to the down converter 2 is performed using the antenna cable 3 for transmitting the intermediate frequency signal IF converted by the down converter 2 to the satellite broadcast receiving apparatus 10. That is, in the satellite broadcast receiving apparatus 10, the antenna line for transmitting the intermediate frequency signal IF converted by the down converter 2 to the tuner unit 11 is used as a voltage supply line for supplying a power supply voltage to the down converter 2. ing.
[0012]
The output voltage V1 of the power supply 17 for the down converter is supplied to the antenna line via the input voltage changeover switch 15.
One of the input voltage changeover switches 15 is connected to an antenna line (power supply line), and among the three terminals t1, t2, and t3 provided on the other side, the terminal t1 is connected to the power supply 17 for the down converter. It is connected. The terminal t2 is connected to the short-circuit detection power source 18, and the terminal t3 is an open end.
The switching control of the input voltage changeover switch 15 is performed by the system control unit 12.
[0013]
2 is merely an example. For example, an open / close switch that opens and closes a connection between the power supply line and the power supply 17 for the down converter, a power supply line (antenna line), and a power supply 18 for detecting a short circuit. It is also possible to separately configure an open / close switch for opening and closing the connection to the.
[0014]
The power supply 17 for the down converter is power supply means for supplying a specified power supply voltage V1 to the downconverter 2. The voltage value is set to, for example, a specified power supply voltage value (+ 15V) of the downconverter 2.
The short-circuit detection power supply 18 is a short-circuit detection voltage supply unit that supplies a short-circuit detection voltage V2 to the power supply line when performing a short-circuit detection as to whether or not the power supply line is short-circuited. The voltage value is set to be higher than the first threshold voltage Vth1 output from the threshold power supply 19 to be operated.
[0015]
The system control unit 12 is configured by, for example, a microcomputer, and performs channel selection control for outputting a channel selection signal corresponding to a user's channel selection operation to the tuner unit 11.
Further, in addition to the tuning control of the tuner unit 11 described above, the system control unit 12 performs a switching control signal for the input voltage changeover switch 15 based on detection signals S1 and S2 from comparators 13 and 14, which will be described later. S3 is output and the input voltage change-over switch 15 is controlled to be switched.
[0016]
In such a satellite broadcast receiving apparatus 10, the comparator 13 that detects whether or not the power supply line (antenna line) that supplies the power supply voltage to the down converter 2 is short-circuited, the down converter 2, and the like. A comparator 14 is provided for detecting whether or not a power supply voltage is supplied from an external device such as a satellite broadcast receiver.
[0017]
The comparator 13 has one input terminal (+ terminal) connected to the power supply line and the other input terminal (−terminal) connected to the threshold power supply 19 that outputs the first threshold voltage Vth1. When the voltage Va of the supply line is higher than the first threshold voltage Vth1, the detection signal S1 is output.
In this case, the first threshold voltage Vth1 output from the threshold power supply 19 may be set to a required voltage value, but the voltage value is a voltage slightly higher than 0V level (GND level) or 0V. When the level is set, the short-circuit detection voltage V2 of the short-circuit detection power source 18 can be set to a low voltage value. Thereby, the power consumption at the time of short circuit detection operation can be made small, for example.
[0018]
The comparator 14 has one input terminal (+ terminal) connected to the power supply line, and the other input terminal (− terminal) outputs the second threshold voltage Vth2 in the same manner as the comparator 13 described above. The detection signal S2 is output when the voltage Va of the power supply line is connected to the power supply 20 and higher than the second threshold voltage Vth2.
In this case, the second threshold voltage Vth2 output from the threshold power supply 20 is set to a voltage value slightly lower than the output voltage V1 of the downconverter power supply 17 (the specified power supply voltage of the converter 2).
[0019]
The display unit 16 is configured by, for example, an LED lamp, and is provided to notify the user that a short circuit has occurred when the satellite broadcast receiving device 10 and the down converter 2 are short circuited.
[0020]
In the satellite broadcast receiving apparatus 10 shown in FIG. 2, the system control unit 12 applies the detection signals S1 and S2 of the comparators 13 and 14 while switching the input voltage changeover switch 15 as follows. Based on the short-circuit detection process for detecting whether or not the power supply line is short-circuited and the power-supply voltage detection process for detecting whether or not the power-supply voltage is supplied from another satellite broadcast receiver, Whether or not to supply voltage to the down converter 2 from the receiving device 10 is determined.
[0021]
Hereinafter, the short circuit detection operation and the power supply voltage detection operation performed by the satellite broadcast receiving apparatus 10 shown in FIG. 2 will be described with reference to FIGS.
FIG. 3 is a flowchart showing processing executed by the system control unit 12 when the satellite broadcast receiving apparatus 10 shown in FIG. 2 performs a short-circuit detection operation.
Note that the short circuit detection operation described below is performed under a state where the satellite broadcast receiving apparatus 10 is connected to the down converter 2 via the antenna cable 3.
[0022]
In this case, first, in step S101, the system control unit 12 switches the input voltage changeover switch 15 to the terminal t2, and supplies the short-circuit detection voltage V2 from the short-circuit detection power source 18 to the power supply line (antenna line). To control.
Next, the system control unit 12 determines the presence or absence of the detection signal S1 from the comparator 13 in step S102.
In step S102, when the detection signal S1 from the comparator 13 is detected, that is, when the voltage Va of the power supply line is higher than the first threshold voltage Vth1, it is determined that the power supply line is not short-circuited. Then, the process proceeds to step S103.
In step S103, the input voltage changeover switch 15 is switched to the terminal 1 to control the power supply line so that the power supply voltage V1 of the downconverter 2 is supplied from the downconverter power supply 17 to complete the process.
That is, when the power supply line is not in a short-circuit state, the connection state between the power supply line and the downconverter power supply 17 is closed, and the processing is completed after the downconverter power supply 17 is connected to the power supply line. ing.
[0023]
On the other hand, in step S102, when the detection signal S1 from the comparator 13 cannot be detected, that is, when the voltage Va of the power supply line is lower than the first threshold voltage Vth1, the power supply line is short-circuited. In step S104, the input voltage changeover switch 15 is switched to the terminal t3, and control is performed so as not to supply the voltage to the power supply line.
That is, when the power supply line is in a short circuit state, the connection state between the power supply line and the down converter power supply 17 is opened, and the power supply line and the down converter power supply 17 are not connected.
Then, in the subsequent step S105, an error display indicating that the power supply line is short-circuited is performed from the display unit 16, and the process is terminated.
[0024]
As described above, the satellite broadcast receiving apparatus 10 automatically performs a short-circuit detection operation to check whether the power supply line (antenna line) of the down converter 2 is short-circuited before supplying power to the down converter 2. When the voltage supply line is short-circuited, power supply from the satellite broadcast receiving device 10 to the down converter 2 is not performed, so that failure of the satellite broadcast receiving device 10 due to a short-circuit of the power supply line is prevented. can do.
[0025]
In addition, when installing the satellite broadcast receiving device 10, the user checks whether the power supply line (antenna line) between the satellite broadcast receiving device 10 and the down converter 2 is short-circuited, or asks a contractor to check. Troublesome work such as scolding is unnecessary. In addition, it is possible to reduce the inspection cost when the contractor is asked.
[0026]
Next, FIG. 4 is a flowchart showing processing executed by the system control unit 12 when the satellite broadcast receiving apparatus 10 performs the power supply voltage detection operation.
The power supply voltage detection process described below is also performed under the state where the satellite broadcast receiving device 10 is connected to the down converter 2 via the antenna cable 3.
[0027]
In this case, the system control unit 12 first switches the input voltage changeover switch 15 to the terminal t3 in step S201 to prevent voltage supply to the power supply line, and then in step S202, from the comparator 14 The presence or absence of the detection signal S2 is determined.
[0028]
Next, in step S202, when the voltage Va of the power supply line is higher than the second threshold voltage Vth2 and the system control unit 12 detects the detection signal S2 from the comparator 14, it already has another satellite broadcast receiving device or the like. From this, it is determined that the power supply voltage of the down converter 2 is supplied. Thereafter, the determination process in step S202 is continued. That is, when the power supply voltage of the down converter 2 is supplied from another satellite broadcast receiver or the like, the connection state between the power supply line and the down converter power supply 17 is left open.
[0029]
On the other hand, when the voltage Va of the power supply line is lower than the second threshold voltage Vth2 in step S202 and the detection signal S2 from the comparator 14 cannot be detected, it is determined that the power supply voltage of the down converter 2 is not supplied. .
In step S203, the input voltage changeover switch 15 is switched to the terminal t1 so that the connection between the power supply line and the downconverter power supply 17 is closed, and the power supply voltage of the downconverter power supply 17 is supplied to the power supply line. The process is terminated by supplying V1.
[0030]
As described above, in the satellite broadcast receiving apparatus 10, before supplying power to the down converter 2, the connection between the power supply line and the down converter power supply 17 is opened, and then the comparator 14 uses the power supply line. Is compared with the second threshold voltage Vth2, and based on the detection signal S2 as a result of the comparison, it is determined whether or not power is supplied to the down converter 2 from another satellite broadcast receiver. I have to. When it is determined that power is supplied from another satellite broadcast receiving apparatus, power supply from the satellite broadcast receiving apparatus 10 to the down converter 2 is not performed.
[0031]
Therefore, for example, when the user receives a satellite broadcast using a collective reception system such as an apartment house, there is no need to perform a troublesome inspection as to whether or not the power supply voltage is supplied to the down converter 2.
Further, when power is not supplied to the down converter 2 from another satellite broadcast receiving device, the power is automatically supplied from the satellite broadcast receiving device 10, so that the user can supply power to the down converter 2. It is possible to provide a broadcast reception environment that is not conscious of supply.
[0032]
In addition, since it is possible to avoid a situation in which the power supply voltage is simultaneously supplied to the down converter 2 from a plurality of satellite broadcast receiving apparatuses, the down converter and the satellite broadcast reception generated by supplying the power supply voltage from the plurality of satellite broadcast receiving apparatuses simultaneously. It is possible to prevent failure of various satellite broadcasting equipment such as devices.
In addition, useless power consumption can be reduced by preventing redundant power supply to the down converter 2.
[0033]
Furthermore, if the second threshold voltage Vth2 input to the comparator 14 is set to a voltage value slightly lower than the specified power supply voltage of the down converter 2 as in the present embodiment, for example, another satellite broadcast receiving device When the power supply voltage supplied to the down converter 2 from the satellite broadcast receiver 10 is less than or equal to the specified power supply voltage, it is possible to automatically supply the specified power supply voltage from the satellite broadcast receiver 10. It is possible to provide a comfortable reception environment for the user without any deterioration in reception due to a decrease in the frequency.
[0034]
In particular, if all the satellite broadcast receiving devices that construct the joint reception system are configured by the satellite broadcast receiving device 10 of the present embodiment, the satellite broadcast receiving device 10 that has supplied power to the down converter 2 is, for example, a device. Even if it becomes impossible to supply the power supply voltage for some reason such as failure of the power supply, the power supply voltage is immediately supplied from the other satellite broadcast receiver 10 to the downconverter 2, so the power supply to the downconverter 2 It is possible to always provide a stable reception environment for users who use the joint reception system without being interrupted.
[0035]
FIG. 5 is a flowchart showing processing executed by the system control unit 12 when the satellite broadcast receiving apparatus 10 according to the present embodiment performs the above-described short-circuit detection operation and power supply voltage detection operation together.
Note that the processing in this case is also performed under the state where the satellite broadcast receiving apparatus 10 is connected to the down converter 2 via the antenna cable 3.
[0036]
Also in this case, the system control unit 12 first controls in step S301 to switch the input voltage changeover switch 15 to the terminal t2 and supply the short-circuit detection voltage V2 from the short-circuit detection power supply 18 to the power supply line. In step S302, the presence / absence of the detection signal S1 from the comparator 13 is determined.
If a negative result is obtained in step S303, it is determined that the power supply line is short-circuited, and the process proceeds to step S304 where the input voltage changeover switch 15 is switched to the terminal t3, that is, the power supply line and the down converter The connection with the power supply 17 is set to the open state, and the process is terminated without supplying the power supply voltage V1 from the downconverter power supply 17 to the power supply line.
[0037]
On the other hand, when a positive result is obtained in step S302, it is determined that the power supply line is not short-circuited, and the process proceeds to step S305.
In step S305, the input voltage changeover switch 15 is switched to the terminal t3 so that the voltage supply to the power supply line is not performed. Then, in step S306, the presence or absence of the detection signal S2 from the comparator 14 is determined.
If an affirmative result is obtained in step S306, it is determined that the power supply voltage of the down converter 2 is already supplied to the power supply line from another satellite broadcast receiver, and the determination in step S306 is performed. Processing will be continued.
[0038]
In step S306, when a negative result is obtained, it is determined that the power supply voltage is not supplied to the down converter 2, and the process proceeds to step S307, where the input voltage changeover switch 15 is switched to the terminal t1, that is, the power supply is performed. The processing is ended by closing the connection state between the line and the power supply 17 for the down converter and supplying the power supply voltage V1 of the down converter 2 to the power supply line.
[0039]
As described above, in the satellite broadcast receiving device 10 as the first embodiment, even when the system control unit 12 performs the short-circuit detection operation and the power supply voltage detection operation together, the same effect as described above is obtained. Will be obtained.
Such a satellite broadcast receiving apparatus 10 can be realized with a simple configuration in which two comparators 13 and 14 and a short-circuit detection power source 18 that outputs a short-circuit detection voltage V2 for short-circuit detection are provided.
[0040]
Next, FIG. 6 is a block diagram showing a main internal configuration of the satellite broadcast receiving apparatus 30 as the second embodiment of the present invention.
The same parts as those in FIG. 2 are denoted by the same reference numerals, and detailed description thereof is omitted.
In the satellite broadcast receiving apparatus 30 shown in FIG. 6, the short circuit detection of the power supply line and the power supply voltage detection to the power supply line are performed by one comparator 13.
In this case, one input terminal (+ terminal) of the comparator 13 is connected to the power supply line, and the other input terminal (−terminal) outputs the first threshold voltage Vth1 via the threshold voltage changeover switch 21. It is configured to be connectable to a threshold power source 19 or a threshold power source 20 that outputs a second threshold voltage Vth2.
In this case, a threshold power supply 19 that outputs the first threshold voltage Vth1 is connected to the terminal t11 side of the threshold voltage changeover switch 21, and a threshold power supply 20 that outputs the second threshold voltage Vth1 to the terminal t12 side. Is connected.
[0041]
That is, in the satellite broadcast receiver 30 shown in FIG. 6, the system control unit 12 performs switching control of the input voltage switching switch 15 and the threshold voltage switching switch 21 based on the detection signal S4 of the comparator 13. A short circuit detection process for the power supply line and a power supply voltage detection process for the down converter 2 are performed to determine whether or not to supply the power voltage to the down converter 2.
[0042]
Hereinafter, the operation of the satellite broadcast receiving apparatus 30 shown in FIG. 6 will be described with reference to the flowchart shown in FIG. The process of the flowchart shown in FIG. 7 shows the process executed by the system control unit 12.
The operation described below is also performed under the condition that the satellite broadcast receiving device 30 is connected to the down converter 2 via the antenna cable 3.
[0043]
In this case, the system control unit 12 first switches the threshold voltage changeover switch 21 to the terminal t11 side in step S401 and supplies the first threshold voltage Vth1 to the negative terminal of the comparator 13. In subsequent step S402, the input voltage changeover switch 15 is switched to the terminal t2, and the short-circuit detection voltage V2 from the short-circuit detection power supply 18 is controlled to be supplied to the power supply line to which the antenna cable 3 is connected.
[0044]
Next, the system control unit 12 determines whether or not there is a detection signal S4 from the comparator 13 in step S403.
In step S403, when the voltage Va of the power supply line is lower than the first threshold voltage Vth1 and the system control unit 12 cannot detect the detection signal S4 from the comparator 13, the power supply line is short-circuited. The process proceeds to step S404 while maintaining the state in which the threshold voltage switch 21 is switched to the terminal t11 side.
[0045]
In step S404, the input voltage changeover switch 15 is switched to the terminal t3 so that the voltage supply to the power supply line is not performed, and then in step S405, the power supply line is short-circuited from the display unit 16. The error display shown is performed and the process is terminated.
[0046]
On the other hand, if the voltage Va of the power supply line is higher than the first threshold voltage Vth1 in step S403 and the system control unit 12 detects the detection signal S4 from the comparator 13, the power supply line is not short-circuited. Determination is made and the process proceeds to step S406.
[0047]
In step S406, the threshold voltage changeover switch 21 is switched to the terminal t12 side, and the second threshold voltage Vth2 is supplied to the negative terminal of the comparator 13.
In subsequent step S407, after the input voltage changeover switch 15 is switched to the terminal t3 and voltage supply to the power supply line is not performed, it is determined whether or not the detection signal S4 from the comparator 14 is detected in step S408. To do.
[0048]
In step S408, when the voltage Va of the power supply line is higher than the second threshold voltage Vth2 and the system control unit 12 cannot detect the detection signal S4 from the comparator 13, the down converter 2 already has another satellite. It is determined that the power supply voltage is supplied from the broadcast receiving device or the like, and thereafter, the determination processing in step S408 is continued.
[0049]
In step S408, when the voltage Va of the power supply line becomes lower than the second threshold voltage Vth2 and the system control unit 12 detects the detection signal S4 from the comparator 13, the power supply to the down converter 2 is performed. The process proceeds to step S409. In step S409, the input voltage changeover switch 15 is switched to the terminal t1, and the power supply voltage V1 of the down converter 2 is supplied to the power supply line to which the antenna cable 3 is connected. Then, the process is terminated.
[0050]
Therefore, even in such a configuration, the same effect as the satellite broadcast receiving device 10 described above can be obtained.
In this case, the short-circuit detection operation and the power-supply voltage operation can be realized only by adding the comparator 13 and the short-circuit detection power source 18 that outputs the short-circuit detection voltage V2 to the conventional satellite broadcast receiving apparatus. It becomes possible.
[0051]
In the present embodiment described so far, the present invention has been described as an independent satellite broadcast receiving device 10 (30). However, this is merely an example, and the satellite broadcast receiving device as the present invention is Needless to say, the present invention can also be applied to satellite broadcast receivers incorporated in various recording devices such as television receivers and video tape recorders.
[0052]
Further, in the present embodiment, the satellite broadcast receiving device of the present invention has been described as a receiving device that receives satellite television broadcast. However, for example, a receiving device such as satellite communication or wireless communication is attached to an antenna. The present invention can be widely applied to a device that supplies a power supply voltage to a down converter.
[0053]
【The invention's effect】
  more thanexplainedAs described above, in the receiving device of the present invention, the short-circuit detecting means detects whether or not the power supply line that supplies the power supply voltage to the frequency converter is short-circuited, and when the power supply line is short-circuited, Since the power supply voltage is not supplied from the power supply means to the frequency converter by the control of the supply control means, it is possible to prevent a failure of the receiving apparatus due to a short circuit of the power supply line.
  Further, when the user installs the receiving apparatus, it is not necessary to perform troublesome work such as checking whether the power supply line is short-circuited or relying on a contractor to check. In addition, it is possible to reduce the inspection cost required when requesting a contractor.
[0054]
The short-circuit detection means for detecting whether or not the power supply line is in a short-circuit state includes a short-circuit detection voltage supply means for supplying a short-circuit detection voltage, and the short-circuit detection voltage is input as a first voltage (threshold voltage). This can be realized simply by adding a simple configuration of providing the first detector. At this time, if the first voltage is set to 0V or a voltage level slightly higher than 0V, the power loss at the time of power supply detection can be reduced.
[0055]
In the receiving device of the present invention, power detection means for detecting whether or not the power supply voltage is supplied to the frequency conversion device is provided, and the power supply is supplied from the outside to the frequency conversion device by this power supply detection means. Is detected, power is not supplied to the frequency converter.
As a result, it is possible to prevent a device failure that occurs when power is supplied from a plurality of receiving devices to the frequency conversion device. In addition, it is possible to reduce useless power consumption by supplying power from a plurality of receiving apparatuses to the frequency conversion apparatus.
[0056]
Moreover, the power supply detection means for detecting whether or not the power supply voltage is supplied to the frequency converter can be realized only by adding a simple configuration of providing the second detector. At this time, if the second voltage supplied to the second detector is set to a voltage value slightly lower than the specified power supply voltage in the vicinity of the specified power supply voltage of the frequency converter, the frequency converter can be reliably connected. Therefore, it is possible to provide a comfortable reception environment for the user.
[0057]
Further, in the receiving apparatus of the present invention, when short-circuit detection and power supply detection are performed, the short-circuit detection means and the power supply detection means can be constituted by a single detector, so that it can be realized with almost no cost increase.
[0058]
Further, for example, if all the reception devices that construct the joint reception system are configured by the reception device of the present invention, for example, even when the power supply voltage is no longer supplied from the reception device that is supplying power to the frequency conversion device. Since the power supply voltage can be immediately supplied from the other receiving device to the frequency conversion device, the power supply to the frequency conversion device is not cut off, and the joint reception that always provides the user with a stable reception environment A system can be realized.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration example of a receiving system using a satellite broadcast receiving apparatus according to an embodiment of the present invention.
FIG. 2 is a main block diagram of a satellite broadcast receiving apparatus according to the first embodiment.
FIG. 3 is a flowchart showing processing of the satellite broadcast receiving apparatus according to the first embodiment.
FIG. 4 is a flowchart showing processing of the satellite broadcast receiving apparatus according to the first embodiment.
FIG. 5 is a flowchart showing processing of the satellite broadcast receiving apparatus according to the first embodiment;
FIG. 6 is a main block diagram of a satellite broadcast receiving apparatus according to a second embodiment.
FIG. 7 is a flowchart showing processing of a satellite broadcast receiving apparatus according to a second embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Parabolic antenna, 2 Down converter, 3 Antenna cable, 4 distributor, 10 30 Satellite broadcasting receiver, 11 Tuner part, 12 System control part, 13 14 Comparator, 15 Input voltage changeover switch, 16 Display part, 17 Down converter Power supply, 18 short-circuit detection power supply, 19 20 threshold power supply, 21 threshold voltage switch

Claims (8)

Is connected via an antenna cable for transmitting the signal of the predetermined frequency for the frequency converter for converting the broadcast signal inputted via an antenna into a signal of a predetermined frequency, the power supply line to the antenna cable As a receiver configured to supply a predetermined power supply voltage to the frequency converter,
Power supply means for supplying a predetermined power supply voltage to the frequency converter via the antenna cable ;
Short-circuit detection means for detecting whether or not the antenna cable is in a short-circuit state;
By the short circuit detecting means, when the antenna cable is detected to be in the short-circuit state, controls so as not to supply the power supply voltage to the antenna cable from the power supply means, said antenna cable is short-circuited Power supply control means for controlling the power supply voltage to be supplied to the antenna cable from the power supply means when it is detected that it is not in a state ;
The short circuit detecting means is
Short-circuit detection voltage supply means for supplying a short-circuit detection voltage set to a voltage value lower than the voltage supplied to the antenna cable from the power supply means;
A first detector that compares the voltage of the antenna cable with a first threshold voltage to detect whether the antenna cable is in a short-circuit state;
A receiving device, wherein the short-circuit detection of the antenna cable is performed by the first detector after the short-circuit detection voltage is supplied to the antenna cable . The power supply control means includes
Switching means for switching the connection between the antenna cable and the power supply means to an open state or a closed state;
Comprising switching control means for controlling switching of the switching means,
When the short-circuit detecting means detects that the antenna cable is in a short-circuited state, the switching control means switches the switching means to an open state, so that the power supply voltage is supplied from the power supply means to the antenna cable . In addition to controlling not to supply,
When the short-circuit detecting means detects that the antenna cable is not short-circuited, the switching control means switches the switching means to the closed state, whereby the power supply voltage is supplied from the power supply means to the antenna cable . The receiving apparatus according to claim 1, wherein the receiving apparatus is controlled to perform the following. The receiving apparatus according to claim 1 , wherein the first threshold voltage is set to 0V or a voltage value slightly higher than 0V. Power supply detection means for detecting whether or not a power supply voltage is supplied to the frequency converter,
The power supply control means includes
When the power detection means detects that power is being supplied to the antenna cable from the outside, the power supply means controls the power supply voltage not to be supplied to the antenna cable, and the antenna 2. The receiving apparatus according to claim 1, wherein when it is detected that power is not supplied from the outside to the cable , control is performed so that power supply voltage is supplied from the power supply means to the antenna cable. . The power supply control means includes
After controlling not to supply the power supply voltage from the power supply means to the antenna cable ,
When it is detected by the power detection means that power is being supplied to the antenna cable from the outside, the switching control means switches the switching means to the open state, so that the power supply means switches from the power supply means to the antenna cable . On the other hand, the power supply voltage is controlled not to be supplied,
When the power supply detecting means detects that the antenna cable is not supplied with power from the outside, the switching control means switches the switching means to a closed state, so that the antenna cable is connected to the antenna cable. The receiving apparatus according to claim 2, wherein the power supply voltage is controlled to be supplied to the receiver. The power detection means is
A second detector that compares the voltage of the antenna cable with a second threshold voltage and detects whether power is supplied to the antenna cable ;
The antenna cable in terms of not performing supply of the power supply voltage from said power supply means, the receiving apparatus according to claim 7, characterized in that the power detection of the antenna cable by the second detector. The receiving apparatus according to claim 6 , wherein the second threshold voltage is set to a voltage value in the vicinity of a specified power supply voltage of the frequency converter and slightly lower than the specified power supply voltage.   2. The receiving apparatus according to claim 1, wherein the first and second detectors are constituted by one detector.

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