JP2007104031A - High frequency signal processing apparatus and television receiver using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technology of accurately connecting a cable for delivering terrestrial and satellite broadcast signals to inputs of a television receiver. <P>SOLUTION: The high frequency signal processing apparatus includes first and second antenna input terminals 11, 12, a first mode wherein the first input terminal receives a terrestrial broadcast signal, the second antenna input terminal receives the satellite broadcast signal and the terrestrial broadcast signal so as to receive the terrestrial broadcast signal and the satellite broadcast signal separately, a second mode wherein the second antenna input terminal receives a mixture of the satellite broadcast signal and the terrestrial broadcast signal from the second antenna input terminal, and after the signals received from the first and second antenna input terminals are respectively amplified and mixed depending on the first or second mode, an equal distributor 24 equally distributes the resulting signal to a post-stage tuners. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention provides a multi-input broadcast signal, for example, an analog terrestrial broadcast using a VHF wave or a UHF wave or a terrestrial digital television broadcast using a UHF wave and a BS or CS digital satellite broadcast using a microwave. The present invention relates to a high-frequency signal processing device (RF distribution processing device) provided in the apparatus, which switches according to a signal input mode, separates, amplifies and mixes input signals, and distributes and outputs again, and a television receiver using the same.

Recent TV (TV receiver) radio wave conditions include the first digitization of BS (Broadcasting Satellite) and CS (Communication Satellite), as well as digital terrestrial broadcasting. An increasing number of housing units have a common hearing system that allows both to view, and an increasing number of households view both.
Some existing TV receivers (television receivers) for digital broadcasting have two antenna terminal connections: satellite and terrestrial, and in some cases, satellite / terrestrial digital / terrestrial analog broadcasting. The wiring on the back of the set is complicated.
Moreover, many of the wall terminals of recent apartments have been mixed with both satellite and terrestrial signals and sent over a single cable. Despite this signal environment in conventional TV sets, Two cables are connected.
In addition, in the housing complex, there may be only one output terminal on the wall where the above-mentioned ground / satellite signals are mixed. In this case, in the conventional TV reception set, 2 terrestrial / satellite broadcast signals are separately transmitted. In some cases, a separate branching device is required, resulting in additional costs.
Further, an example of a desirable home reception system is disclosed in Japan Electronics and Information Technology Association (JEITA).
In Patent Document 1 (Japanese Patent Laid-Open No. 5-129997), a television signal mixing / retransmission unit is provided outdoors, and satellite broadcasting (CS) and satellite broadcasting (BS) are filters (HPF, BPF) via separate input terminals. The UHF and VHF signals for terrestrial broadcasting are mixed by a mixer and supplied to the V / U input terminal by a single cable, and the above-mentioned bidirectional is supplied via a filter (LPF). Supplied to the distributor.
The mixed signal distributed by the bidirectional distributor is supplied to each of the BS tuner (satellite broadcast compatible receiver) and the receiver (satellite broadcast incompatible type).
Japanese Patent Application Laid-Open No. 5-129777

However, as disclosed in Patent Document 1, a mixed satellite / terrestrial broadcast is output from an output terminal of a television signal mixing / retransmission unit provided outdoors. When this is connected to a 2-terminal input for terrestrial / satellite broadcasting or a 3-input terminal for analog / terrestrial digital / satellite digital with a conventional TV reception set, the output of the TV signal mixing / retransmission unit using a distributor is used. It is necessary to output the output signal from the terminal by dividing it into two or three. Providing a new distributor in addition to the outdoor unit also increases the cost burden.
Since the two or three wires of the distributor output use coaxial cables, feeder wires, etc., it becomes complicated to connect to multiple input terminals on the back of the TV set, and connection errors occur and confirmation work is also required. It becomes necessary and wiring work takes time.
Further, since the signal level is attenuated by using the distributor in this manner, the NF (noise factor) of the tuner of the TV receiver in the subsequent stage is adversely affected. In particular, when the electric field strength is low, the image quality is deteriorated. .

  The present invention has been made in view of the above problems, and the object of the present invention is to provide a single cable when indoor wiring is sent by a single cable mixed with terrestrial / satellite broadcast signals. TV can be viewed simply by connecting to the TV set, and even if the conventional satellite / terrestrial broadcast signal is input in two separate systems, it can be handled with a changeover switch, making TV reception easy to complicate An object of the present invention is to provide a high-frequency signal processing device and a television receiver using the same, which contribute to the convenience of viewers by minimizing the back terminal connection of the device.

The high-frequency signal processing device of the present invention is a high-frequency signal processing device built in a television receiver, and the high-frequency signal processing device has one antenna input terminal, and terrestrial broadcasting and satellite broadcasting are connected to the antenna input terminal. Both signals are input, the reception menu displayed on the display device of the television receiver is selected, the switch is switched, the input signal is amplified by an amplifier, and then mixed and output to the subsequent circuit. It is characterized by that.
The high-frequency signal processing device of the present invention is a high-frequency signal processing device built in a television receiver, and the high-frequency signal processing device includes a first input terminal to which a terrestrial broadcast signal is input, a satellite broadcast signal, and a terrestrial broadcast signal. A second input terminal to which a broadcast signal is input; a duplexer connected to the second input terminal and separating the terrestrial broadcast signal and the satellite broadcast signal; the first input terminal; and the demultiplexer A switch connected to the output of the receiver and switched by a control signal to output a terrestrial broadcast signal; a first amplifier connected to the output of the switch for gain control of the terrestrial broadcast signal; and an output of the duplexer A second amplifier for gain control of the satellite broadcast signal, a mixer connected to the outputs of the first and second amplifiers for mixing the terrestrial broadcast signal and the satellite broadcast signal, and the mixer Connected and mixed And a divider for dividing the items.
The high-frequency signal processing device of the present invention is a high-frequency signal processing device built in a television receiver, and the high-frequency signal processing device has first and second antenna input terminals, and the first antenna input A first mode in which a terrestrial broadcast signal is input to the terminal, a satellite broadcast signal and a terrestrial broadcast signal are input to the second antenna input terminal, and the terrestrial broadcast signal and the satellite broadcast signal are input separately; A second mode in which a terrestrial broadcast signal and a satellite broadcast signal are mixed and input from the second antenna input terminal, and the first and second antennas according to the first and second modes. The signals input from the input terminals are amplified and mixed, then equally distributed by a distributor, and supplied to a plurality of tuners in the subsequent stage.
A television receiver using the high-frequency signal processing device of the present invention receives a terrestrial broadcast signal and a satellite broadcast signal, separates and amplifies the terrestrial broadcast signal and the satellite broadcast signal, mixes and distributes, and distributes the plurality of distributed signals. Select a high-frequency signal processing device to be supplied to the tuner, a signal processing device that demodulates sound, images, and data, a display device that displays signals derived from the signal processing device, and a menu displayed on the display device. A television receiver having a control device for controlling the high-frequency signal processing device, wherein the high-frequency signal processing device has first and second antenna input terminals, and a terrestrial broadcast signal is connected to the first antenna input terminal. The first antenna input terminal receives a satellite broadcast signal and a terrestrial broadcast signal, separates the terrestrial broadcast signal and the satellite broadcast signal, and inputs the second mode. A second mode in which a terrestrial broadcast signal and a satellite broadcast signal are mixed and input from an antenna input terminal, and input from the first and second antenna input terminals according to the first and second modes. The amplified signals are respectively amplified and mixed by an amplifier, then equally distributed by a distributor, and supplied to the plurality of tuners.

The high-frequency signal processing device and the television receiver using the same according to the present invention select a menu displayed on the display device, switch the signal path of the high-frequency signal processing device, and terrestrial and satellite broadcasting with one antenna input terminal By inputting both signals and outputting them to the subsequent circuit without degrading the signals, the indoor wiring system mixed with both terrestrial and satellite broadcasts is connected to the back of the TV set in response to indoor wiring systems that are becoming mainstream. Therefore, it is possible to realize a wiring system that can realize a unified wiring and that does not contradict the conventional connection system by a changeover switch.
The high-frequency signal processing device has two input terminals, an input terminal for terrestrial broadcasting, and an input terminal to which a mixed signal of terrestrial broadcasting and satellite broadcasting (mixed broadcasting) is input, terrestrial broadcasting (signal), It has two modes to input mixed broadcast (signal) separately or to input only mixed broadcast, select one from the two modes with the switch, perform high-frequency signal processing, and then equally distribute with the distributor Thus, it can be supplied to the two tuners in the latter stage.
In addition, by providing an attenuator switch function and a gain control function in the high-frequency signal processing apparatus, the RF (Radio Frequency) stage in such a complicated TV receiver balances the weak electric field performance and the strong electric field performance. Well can keep as usual.

FIG. 1 shows a block configuration of a high-frequency signal processing device 10 which is an embodiment of the present invention.
The high-frequency signal processing device (RF distribution processing device) 10 includes an RF unit body 20 including elements such as circuit blocks and switches, and two (antenna) input terminals provided on the input and output sides of the RF unit body 20. 11 and 12 and two output terminals 13 and 14.
The input and output terminals 11, 12, 13, and 14 are constituted by, for example, F-type plug connectors and the like, and satisfy high frequency characteristics. The RF unit main body 20 is provided with a harness connector 15 for supplying a control signal for controlling the satellite amplifier 22 and the ground amplifier 29 and for supplying power.
The RF unit body 20 includes a terrestrial / satellite (broadcast signal) splitter 21, a satellite amplifier (amplifier) 22, a terrestrial / satellite (broadcast signal) mixer 23, an equal distributor 24, a switch 25, and a terrestrial amplifier (amplifier) 29. Etc.

The harness connector 15 is a connector for receiving a role of an interface for receiving a control signal from a system controller (control unit) of the TV receiver body and power supply.
In addition to supplying power to the RF unit main body 20 via the harness connector 15, a control signal for controlling the gain of the built-in satellite amplifier 22 and ground amplifier 29 is supplied, corresponding to the level of the input signal. Thus, the gain of the satellite amplifier 22 and the ground amplifier 29 is automatically controlled.

The terrestrial / satellite demultiplexer 21 includes an LPF (low-pass filter), an HPF (high-pass filter), and the like. For example, the LPF cutoff frequency is 770 MHz, and the HPF cutoff frequency is 900 MHz. The input mixed input signal is separated and output into two terrestrial signals and satellite broadcast signals.
For example, a ground wave analog VHF signal, an analog UHF signal (90 MHz to 770 MHz), and a terrestrial digital signal (UHF signal) are extracted by the LPF and output to the terminal 26 of the switch 25. In the LPF, the intermediate frequency (1 to 2 GHz) of the satellite broadcast signal is not lower than the cutoff frequency and is attenuated, and is not output to the LPF output terminal.
On the other hand, the intermediate frequency (about 1 to 2 GHz) of the satellite broadcast signal is extracted by the HPF and output to the satellite amplifier 22 at the subsequent stage. Since the cutoff frequency of HPF is 900 MHz, for example, the terrestrial VHF analog signal, UHF analog, and digital signal are attenuated and are not output to the output terminal of the satellite amplifier of the terrestrial / satellite demultiplexer 21.

The satellite amplifier 22 is an amplifier that amplifies a signal having a first intermediate frequency of satellite broadcasting, for example, about 1 to 2 GHz, and a high-frequency semiconductor device having a good NF (Noise Figure) is used. As this device, there is a GaAsFET or the like. In addition to this, a silicon heterobipolar transistor of SiGe configuration is used, and the signal demultiplexed by the ground / satellite demultiplexer 21 is amplified with a low noise figure (NF). I do.
The satellite amplifier 22 is composed of an AGC (Automatic Gain Control) amplifier, controls the gain with a control voltage, and outputs a satellite signal of a predetermined output level. In addition to this, a bypass circuit is provided in parallel with the amplifier so that when the electric field is strong, the input signal is output through without passing through the amplification element of the satellite amplifier.

  The terrestrial / satellite mixer 23 mixes the terrestrial broadcast signal amplified by the terrestrial amplifier 29 and the satellite broadcast signal amplified by the satellite amplifier.

  The equal distributor 24 equally distributes the terrestrial / satellite broadcast signal mixed by the terrestrial / satellite mixer 23 to, for example, two systems. The two equally distributed signals are output from the output terminals 13 and 14 and supplied to, for example, two TV tuners in the subsequent stage.

  The switch 25 has a terminal 27 connected to the (antenna) input terminal 11 dedicated to terrestrial broadcasting, and a terrestrial broadcast that is supplied with a mixed input signal from the input terminal 12 and is demultiplexed and extracted by the terrestrial / satellite demultiplexer 21. The terminal 26 to which the signal is supplied is configured to be selectively connected to the output terminal 28. As a result, the terrestrial broadcast signal, which is a dedicated terrestrial wave, and the terrestrial broadcast signal extracted from the mixed signal obtained by mixing the satellite broadcast signal and the terrestrial broadcast signal outside the TV receiver are output to the terrestrial amplifier 29 by switching the switch 25. I have to.

The terrestrial amplifier (amplifier) 29 amplifies the terrestrial broadcast signal, VHF, and UHF signal output from the switch 25. Like the satellite amplifier 22, the ground amplifier 29 is composed of a GaAs field effect transistor or a SiGe heterobipolar transistor, and an amplifier with good NF is used.
The terrestrial amplifier is composed of an AGC (Automatic Gain Control) amplifier, which controls the gain with a control voltage and outputs a terrestrial broadcast signal of a predetermined output level. In addition to this, a bypass circuit is provided in parallel with the amplifier so that when the electric field is strong, the input signal is output through without passing through the amplification element of the satellite amplifier.

The terrestrial / satellite mixer 23 is connected to the output of the terrestrial amplifier 29 and the output of the satellite amplifier 22, and after both signals are mixed, the output signal is output to the subsequent equal divider 24.
The terrestrial / satellite mixer 23 is configured such that impedance matching (matching) is taken between the two input terminals and the output terminal, and insertion loss is small. In this state, the VHF band and UHF band terrestrial analog broadcast signals, terrestrial digital broadcast signals and satellite digital broadcast signals are mixed and output.

The equal distributor 24 is constituted by, for example, a T-type or Y-type distributor to which a resistor is connected. In this case, the output signal level is attenuated by 6 dB with respect to the input signal level. Here, an example of two distributions is shown, but the present invention is not limited to this. Further, since the input signal is amplified by the satellite amplifier 22 and the ground amplifier 29, even if there is a distribution loss in the equal distributor 24, this loss does not affect the NF.
The two mixed signals distributed by the equal distributor 24 are output from the output terminal 13 and the output terminal 14, respectively. In the case of the equal distributor 24, the output levels of the two mixed signals described above are the same.

Next, the operation of the high-frequency signal processing device 10 will be described with reference to FIGS.
FIG. 1 is a diagram for explaining the operation of the high-frequency signal processing apparatus 10 in a mode (mixed mode) in which terrestrial waves (broadcast signals) / satellite waves (broadcast signals) are input as a single line. The terrestrial analog broadcast signal and the terrestrial digital broadcast signal input from the outdoor VHF and UHF antennas are mixed in the input terminal 12 by a mixer while no terrestrial wave (broadcast signal) is input to the input terminal 11. Also, the BS and CS satellite broadcast signals are converted to the first IF signal by the outdoor unit and mixed, and the signal further mixed with the terrestrial broadcast wave (mixed mode) is input.

In the “mixed mode”, a control signal sent from the system controller (control unit) via the harness connector 15 is supplied to the switch 25, the switch 25 is operated and switched, and the terminal 26 and the terminal 28 are connected. As a result, the output terminal of the ground / satellite duplexer 21 is connected to the input terminal of the ground amplifier 29.
The instruction to the system controller is performed by selecting a menu (mixed mode, separated mode) displayed on a display (display device) (not shown) by operating a remote controller or a keyboard and sending a command. The system controller to which the command has been input generates a switching control signal for the switch 25 corresponding to the input mode, and outputs it to the harness connector 15.

The mixed signal input to the input terminal 12 is supplied to the terrestrial / satellite demultiplexer 21. The terrestrial broadcast signal is separated from the satellite broadcast signal by the terrestrial / satellite demultiplexer 21 and output to the terminal 26 of the switch 25. On the other hand, the satellite broadcast signal is output to the satellite amplifier 22.
In the mixed mode example in which a single terrestrial / satellite broadcast signal is input, the satellite amplifier 22 amplifies only the satellite broadcast signal, and the terrestrial amplifier 29 amplifies only the terrestrial broadcast signal.
At this time, the gains of these amplifiers are controlled by the control signal supplied from the harness connector 15 in accordance with the signal levels input to the ground amplifier 29 and the satellite amplifier 22.
When the input signal level is lower than the predetermined level, gain control is performed so that full gain operation is performed. When the input signal level is higher than the predetermined level, the gain of the amplifier is lowered by the control signal to prevent amplifier distortion, and the signal level supplied to the subsequent stage Suppresses and prevents distortion at the later stage.
In addition, a bypass is formed by connecting a switch in parallel between the input and output of the amplifying element constituting the amplifier, and a bypass wiring between the switches. When the level of the input signal is larger than a predetermined value, the input signal is Through is used to prevent distortion from occurring in the amplifying element.

The signals (a, b) amplified by the ground amplifier 29 and the satellite amplifier 22 are mixed again by the ground / satellite mixer 23.
Here, the integrated RF signal (terrestrial broadcast signal and satellite broadcast signal) is equally distributed by the equal distributor 24, and RF (mixed) signals of equal levels are output from the output terminal 13 and the output terminal 14, and the subsequent stage. Are demodulated by a plurality of tuner sections.

FIG. 2 is a diagram for explaining the operation of the high-frequency signal processing device 10 in a mode (separation mode) in which terrestrial waves (broadcast signals) and satellite waves (broadcast signals) are separately input. Here, the number of each block in FIG. 2 is the same as the number in FIG.
A VHF band or UHF band terrestrial analog broadcast signal or a UHF band terrestrial digital broadcast signal is input to the input terminal 11. On the other hand, when only satellite broadcasting is received at the input terminal 12, a mixed signal of only CS and BS satellite broadcasting signals is input at the input terminal 2, and otherwise input from an outdoor VHF or UHF antenna. The terrestrial analog broadcast signal and the terrestrial digital broadcast signal are mixed by the mixer, and the satellite broadcast signal of BS and CS is converted to the first IF signal by the outdoor unit and mixed, and the mixed broadcast signal is further mixed. It is mixed and input via one cable.

In the “separation mode” described above, a control signal sent from the system controller via the harness connector 15 is supplied to the switch 25, the switch 25 is operated and switched, and the terminals 27 and 28 are connected. As a result, only the terrestrial broadcast signal is supplied to the input terminal of the terrestrial amplifier 29.
At this time, as described above, an instruction to the system controller is made by operating a remote controller or the like, a menu (mode) displayed on a display (not shown) is selected, and a command is sent. A switching control signal for the switch 25 corresponding to the input mode is generated from the system controller and output to the harness connector 15. Further, gain control of the amplifiers of the ground amplifier 29 and the satellite amplifier 22 can be performed by a command.

The mixed signal input to the input terminal 12 is supplied to the terrestrial / satellite demultiplexer 21. The terrestrial broadcast signal is separated from the satellite broadcast signal by the terrestrial / satellite demultiplexer 21, and only the satellite broadcast signal is output to the satellite amplifier 22. As described above, since the terrestrial / satellite demultiplexer 21 is provided with an HPF for the signal output to the satellite amplifier (22), the terrestrial broadcast signal having a low frequency is attenuated and the satellite having a high frequency is attenuated. This is because only the broadcast signal (first intermediate frequency) is extracted.
In the example of the separation mode in which two terrestrial / satellite broadcast signals are input, the satellite amplifier 22 amplifies only the satellite broadcast signal, and the terrestrial amplifier 29 amplifies only the terrestrial broadcast signal.
At this time, the operation of controlling the gains of the ground amplifier 29 and the satellite amplifier 22 is the same as that in the “mixed mode”. That is, the gains of these amplifiers are controlled by the control signal supplied from the harness connector 15 according to the signal levels input to the ground amplifier 29 and the satellite amplifier 22.
When the input signal level is lower than the predetermined level, gain control is performed so that full gain operation is performed. When the input signal level is higher than the predetermined level, the gain of the amplifier is lowered by the control signal to prevent amplifier distortion, and the signal level supplied to the subsequent stage Suppresses and prevents distortion at the later stage.
In addition, a switch is provided in parallel between the input and output of the amplifying element constituting the amplifier, and a bypass circuit is provided between the switches, and when the input signal is larger than a predetermined level, the bypass circuit is turned on by this switch and the signal is turned through. The distortion is prevented from occurring in the amplifying element.

The signals (a ′, b ′) amplified by the ground amplifier 29 and the satellite amplifier 22 are mixed again by the ground / satellite mixer 23.
Here, the unified RF signal (mixed signal of the terrestrial broadcast signal and the satellite broadcast signal) is equally distributed by the equal distributor 24, and an equal level RF (mixed) signal is output from the output terminal 13 and the output terminal 14. And output to a plurality of tuner units in the subsequent stage.

Next, a television receiver 100 using the above-described high-frequency signal processing device 10 is shown in FIG.
The television receiver 100 of FIG. 3 includes an RF distribution processing device (high-frequency signal processing device; also referred to as a splitter) 101, 3 broadcast tuners (terrestrial analog broadcast tuner, terrestrial digital broadcast tuner, satellite digital broadcast tuner). (Main) 102, 3 broadcast tuner (comprising terrestrial analog broadcast tuner, terrestrial digital broadcast tuner, satellite digital broadcast tuner) (sub) 103, front end decoder (decoding circuit) 104, video A signal processing circuit (main) 105, a video signal processing circuit (sub) 106, an image display processing circuit 107, a system controller (control unit) 120, a keyboard (device) 121, a remote control 123, and the like.

The RF distribution processing device (high-frequency signal processing device) 101 is composed of the blocks shown in FIGS. 1 and 2, and the terrestrial broadcast signal and the satellite broadcast signal constituting the three broadcast inputs (signals) are separated or mixed. And input as signals of two types of modes (separation mode and mixed mode). The switch is switched by a control signal output from the system controller 120. When the terrestrial broadcast signal and the satellite broadcast signal are input separately (separated mode), the terrestrial broadcast signal is input from the input terminal 11 described above, and the mixed signal (satellite broadcast signal alone or this and the terrestrial broadcast signal is input from the input terminal 12). Are mixed signals).
In the mixed mode, a signal obtained by mixing the terrestrial broadcast signal and the satellite broadcast signal is input to the input terminal 12 of the RF distribution processing apparatus 101.
Then, the terrestrial broadcast signal and the satellite broadcast signal are gain-controlled by different amplifiers and further mixed, and the mixed signal is, for example, equally divided by a distributor and output.

  In the three broadcast tuner (main) 102 and the three broadcast tuner (sub) 103, for example, the satellite broadcast receiving system is composed of a digital tuner unit and a satellite digital demodulation / decoding unit (not shown), and the terrestrial broadcast receiving system is not used. The terrestrial analog broadcast tuner shown in the figure, an IF amplifier corresponding to the tuner, a digital terrestrial broadcast tuner unit, a digital demodulation / decoding unit, and the like are included.

The output signals from the three broadcast tuners (main and sub) 102 and 103 are connected to the front-end decoder 104, and the main TS (transport stream) signal for terrestrial digital broadcast, the main TS for satellite digital broadcast, and the terrestrial analog broadcast baseband signal Is supplied.
The front-end decoder 104 extracts a necessary ST from a TS (transport stream) in which a plurality of STs (streams) such as video and audio are multiplexed in a transmission side multiplexer (MUX) with respect to a digital signal input. I do.
Decoding processing of video, audio and data signals taken out by the TS decoder is performed. For video / audio signals, a signal encoded according to the MPEG standard is decoded (decoded) according to the MPEG standard. Thereby, an image and an audio signal are formed.
On the other hand, for analog signal input, video and audio signals are separated from the baseband from which IF (intermediate frequency) signals are detected by a terrestrial analog (for broadcasting) tuner, and horizontal and vertical synchronization signals are extracted and synchronized. Generate a signal.

  The satellite digital (broadcast) tuner unit is supplied with a satellite broadcast band signal from a high-frequency signal processing device (RF distribution processing device) 101, and selects a satellite digital broadcast channel, that is, selects a frequency. The signal selected here is output to the satellite digital demodulation / decoding unit at the next stage.

  The satellite digital demodulation / decoding unit performs demodulation / decoding such as 8PSK (Phase Shift Keying) and QPSK (Quadrature Phase Shift Keying), TMCC (Transmission and Multiplexing Complex Decoding) on the signal supplied from the satellite digital tuner unit. Deinterleaving, frame separation, error correction, etc. are performed, and the satellite digital broadcast TS is decoded.

  The terrestrial analog / digital tuner unit is supplied with a terrestrial broadcast band signal from a high-frequency signal processing device (RF distribution processing device) 101. When the terrestrial broadcast band signal is a terrestrial analog broadcast signal, the terrestrial analog tuner unit selects a terrestrial analog broadcast channel, for example, a desired channel from VHF or UHF signals. The signal input to the terrestrial analog tuner unit is converted into an IF signal by a conventional local oscillator, mixer, and PLL (Phase Locked Loop) circuit, and further converted into a baseband signal by an IF (detection) circuit.

  The digital terrestrial tuner unit is supplied with a digital terrestrial broadcast band (UHF band) signal from a high-frequency signal processing apparatus (RF distribution processing apparatus) 101, and performs channel selection, that is, frequency selection, for terrestrial digital broadcast. The signal selected here is output to the terrestrial digital demodulation / decoding unit at the next stage.

  The terrestrial digital demodulation / decoding unit performs 64QAM (Quadrature Amplitude Modulation), 16QAM demodulation / decoding, TMCC decoding, deinterleaving, hierarchical processing, and energy despreading processing on the signal supplied from the terrestrial digital tuner unit. Decode TS of terrestrial digital television broadcasting.

  Video signal processing circuits (main and sub) 105 and 106 perform white balance of analog or digital video signals, gamma correction processing, or other data processing.

The image display processing circuit 107 performs display processing of video, audio, and data, and displays a data broadcast screen superimposed on the video signal by key input using the system controller 120 or receives subtitle data to display subtitles. Or superimpose and display. In addition, various menus are displayed on a display device (not shown). For example, digital processing related to menu display is performed to select the channel selection display or the above-described reception mode.
In FIG. 3, since two video signals are input from the video signal processing circuit (main) 105 and the video signal processing circuit (sub) 106, multi-pictures having two or more different channels in one display device. The image can be displayed.

The system controller (control unit) 120 is connected to the RF distribution processing device 101, the three broadcast tuners (main and sub) 102 and 103, the front end decoder 104, the video signal processing circuits 105 and 106, and the image display processing circuit 107 via a bus. Connected, sends and receives commands and outputs control signals.
The system controller 120 is supplied with detection signals from, for example, three broadcast tuners (main and sub) 102 and 103 in order to control the RF distribution processing apparatus 101. The detected result is processed in the system controller (120) and the reception state such as the separation mode and the mixing mode is displayed as a menu on the display device via the bus. The displayed menu is selected with the keyboard 121, for example, and the changeover switch of the RF distribution processing apparatus 101 is switched.

  A detection signal for determining the presence or absence of a satellite digital broadcast signal is supplied from the satellite digital demodulation / decoding unit to the system controller 120 of the control unit, for example. When the satellite digital demodulation / decoding unit receives a satellite digital broadcast signal, a frame synchronization signal and a TMCC (transmission control signal) at the head position of each frame are acquired, and a transport stream is selected. This frame synchronization signal can be used as a detection signal. The detection signal is not limited to this frame synchronization signal as long as it can detect satellite digital broadcasting.

  A detection signal for determining the presence / absence of a terrestrial analog broadcast signal is supplied from the terrestrial analog tuner unit to the system controller 120, for example. An analog (television) receiver, for example, counts video synchronization signals to determine the presence / absence of a video signal, so that this synchronization signal can be used as a detection signal. The detection signal is not limited to this synchronization signal as long as the analog broadcast signal can be detected.

A detection signal for determining the presence or absence of a terrestrial digital broadcast signal is supplied to the system controller 120 from, for example, a terrestrial digital demodulation / decoding unit. Also in this case, similarly to the satellite digital broadcasting, the frame synchronization signal and the TMCC at the head position of each frame are acquired, and the transport stream is selected. This frame synchronization signal can be used as a detection signal.
The detection signal is not limited to this frame synchronization signal as long as satellite digital broadcasting can be detected.

  The remote control (remote control device) 123 can control the switch switching operation, the gain control setting, and the like of the RF distribution processing device in the same manner as the system controller 120. For example, the remote control 123 selects two modes relating to the input signal states of satellite digital broadcast, terrestrial digital broadcast, and terrestrial analog broadcast, which are displayed on a display device (not shown), and the RF distribution processing device 101 Switching is performed, and each broadcast signal is processed and output to the three broadcast tuners 102 and 103 connected in the subsequent stage.

Next, the operation of the television receiver 100 using the RF distribution processing device (high frequency signal processing device) 101 shown in FIG. 3 will be described.
The UHF band or VHF band terrestrial analog broadcast signal and terrestrial digital broadcast signal are mixed outside the television receiver, and this mixed signal and three broadcast signals obtained by further mixing the satellite digital broadcast (BS, CS) are RF. Input to the distribution processing apparatus 101.
A mixed mode that is input to the television receiver through a single cable in which the terrestrial analog broadcast signal, the terrestrial digital broadcast signal, and the satellite digital broadcast signal are mixed and input will be described with reference to FIGS. .
The RF distribution processing apparatus 101 in FIG. 3 has two input terminals and an output terminal. One input terminal is dedicated to terrestrial broadcasting as shown in FIG. 1, and the other input terminal is a mixture of terrestrial broadcasting and satellite broadcasting. Used for mixed broadcasting.
In the mixed mode, the ground wave (broadcast signal) is not input to one input terminal (terrestrial dedicated input terminal). The other input terminal (mixed input terminal) mixes terrestrial analog broadcast signals and terrestrial digital broadcast signals input from outdoor VHF and UHF antennas with a mixer, and these mixed signals are BS and CS satellite digital signals. The broadcast signal is further mixed and input with the signal converted into the first IF signal by the outdoor unit.
The television receiver 100 detects that three terrestrial analog broadcast signals, terrestrial digital broadcast signals, or satellite digital broadcast signals are supplied, and the result is controlled by the system controller 120 and displayed on the display device.
Since there is only one cable supplied to the input of the television receiver 100, a control signal corresponding to this mixed mode is output from the system controller 120 to control the switch 25 of the high-frequency signal processing device 10 shown in FIG.
For example, a control signal sent from the system controller 120 via the harness connector 15 is supplied to the switch 25, and the switch 25 is switched to connect the terminal 26 and the terminal 28 of the high-frequency signal processing device 10 shown in FIG. As a result, the output terminal (26) of the terrestrial / satellite demultiplexer 21 is connected to the input terminal 28 of the terrestrial amplifier 29 via the switch 25.

As described above, the mixed signal input to the input terminal 12 is supplied to the terrestrial / satellite demultiplexer 21. The terrestrial broadcast signal is separated from the satellite broadcast signal by the terrestrial / satellite demultiplexer 21 and output to the terminal 26 of the switch 25. On the other hand, the satellite broadcast signal is output to the satellite amplifier 22.
The satellite amplifier 22 amplifies only the satellite broadcast signal, and the terrestrial amplifier 29 amplifies only the terrestrial broadcast signal.
At this time, the gains of these amplifiers are controlled by the control signal in accordance with the signal levels input to the ground amplifier 29 and the satellite amplifier 22.
When the input signal level is smaller than a predetermined level, these amplifiers are gain-controlled so as to perform a full gain operation. When the input signal level is larger than the predetermined level, the gain of the amplifier is lowered by the control signal. As a result, the distortion of the amplifier is prevented, and the signal level supplied to the subsequent stage is suppressed to prevent the distortion in the subsequent stage.
In addition, a bypass circuit is provided in parallel between the input and output of the amplifying element constituting the amplifier via a switch so that when the level of the input signal is larger than a predetermined value, the input signal is set to be through so that distortion does not occur in the amplifying element. I have to.

The signals amplified by the ground amplifier 29 and the satellite amplifier 22 are mixed again by the ground / satellite mixer 23.
Here, the integrated RF signal (terrestrial broadcast signal and satellite broadcast signal) is equally distributed by the equal distributor 24, and an equal level RF signal is output from each of the output terminals 13 and 14, and the two subsequent stages are output. Three broadcast tuners (main and sub) 102 and 103 demodulate.

Next, the above-described “separation mode” will be described with reference to FIGS.
A ground wave (broadcast signal) of a VHF band or UHF band terrestrial analog signal or a UHF band terrestrial digital signal is input to one input terminal (11) of the RF distribution processor (high frequency signal processor) 101 of FIG. Is done. Only the CS and BS satellite broadcast signals are input to the other input terminal (12), or in other cases, a terrestrial analog broadcast signal and a terrestrial digital broadcast signal input from an outdoor VHF or UHF antenna are mixed. The BS and CS satellite broadcast signals are mixed with the signal converted into the first IF signal by the outdoor unit and input to the mixed signal.

In the separation mode, detection signals (terrestrial analog, terrestrial digital, satellite digital) detected by the three broadcast tuners (main, sub) 102 and 103 are displayed on a display device (not shown) via the system controller 120.
A control signal sent from the system controller 120 via the harness connector 15 is supplied to the switch 25 of the high-frequency signal processing device (RF distribution processing device 101) 20 shown in FIG. 28 is connected. As a result, only the terrestrial broadcast signal input from the input terminal 11 is supplied to the input terminal of the terrestrial amplifier 29.
At this time, as described above, in addition to the operation of the remote controller 123 or the like, the instruction to the system controller can also select the menu displayed on the display device by the keyboard (device) 121, and the displayed mode can be changed. A command is sent to the system controller 120 and a switch 25 control signal for the input mode and gain control of the amplifier are generated and output to the harness connector 15 according to the command command.

On the other hand, the mixed signal input to the other input terminal (12) is supplied to the terrestrial / satellite demultiplexer 21 shown in FIG. The terrestrial broadcast signal is separated from the satellite broadcast signal by the terrestrial / satellite demultiplexer 21, and only the satellite broadcast signal is output to the satellite amplifier 22.
In the example of the separation mode, only the satellite broadcast signal is amplified by the satellite amplifier 22, and only the terrestrial broadcast signal is amplified by the ground amplifier 29.
The gains of these amplifiers are automatically controlled by the control signal supplied from the harness connector 15 in accordance with the signal levels input to the ground amplifier 29 and the satellite amplifier 22.
For example, when the input signal level is smaller than a predetermined level, the gain control of the ground amplifier 29 and the satellite amplifier 22 is performed so as to perform a full gain operation. When the input signal level is larger than the predetermined level, the gain of the amplifier is lowered by the control signal to reduce the distortion of the amplifier. The signal level supplied to the subsequent stage is suppressed or distortion at the subsequent stage is prevented.
In addition, a bypass circuit is provided in parallel between the input and output of the amplifier element constituting the amplifier via a switch, and when the input signal is larger than a predetermined level, the input signal is passed through by the bypass circuit, and no distortion occurs in the amplifier element. I am doing so.

The signals amplified by the ground amplifier 29 and the satellite amplifier 22 are mixed again by the ground / satellite mixer 23.
Here, the integrated RF signal (terrestrial broadcast signal and satellite broadcast signal) is equally distributed by the distributor 24, and equal-level RF signals are output from the output terminal 13 and the output terminal 14, and the two subsequent stages are output. 3 broadcast tuners (main, sub) 102 and 103 are supplied. Obviously, this distribution number is not limited to two.

The mixed RF signal output from the RF distribution processing device 101 in the mixed mode and separation mode described above is demodulated by the three broadcast tuners 102 and 103.
The satellite digital signals are received by the satellite digital demodulation / decoding units of the three broadcast tuners 102 and 103, converted into baseband by frequency conversion. Then, demodulation such as 64QAM and 16QAM, processing such as deinterleaving and error correction is performed, and the TS is decoded.

  In the terrestrial analog tuner sections of the three broadcast tuners 102 and 103, a desired channel is selected from the broadcast channels in the VHF band and the UHF band, and detected to obtain an analog baseband signal.

  The terrestrial digital demodulation / decoding unit of the three broadcast tuners 102 and 103 receives the terrestrial digital broadcast signal, converts the frequency, and converts it to the baseband. Then, demodulation such as 64QAM and 16QAM, deinterleaving, and error correction are performed, and the TS is decoded.

The terrestrial digital broadcast signal, the satellite digital broadcast signal and the terrestrial analog broadcast signal output from the three broadcast tuners 102 and 103 are supplied to the front end decoder 104.
In front-end decoder 104, processing for extracting a necessary ST from a TS (transport stream) in which a plurality of STs (streams) such as video and audio are multiplexed in a transmission side multiplexer (MUX) with respect to a digital signal input I do.
Decoding processing of video, audio and data signals taken out by the TS decoder is performed. As for the video / audio signal, a signal encoded according to the MPEG (Moving Picture Experts Group) standard is decoded (decoded) according to the MPEG standard. Thereby, an image and an audio signal are formed.
On the other hand, for an analog signal input, video signal and audio signal are separated from the baseband detected by the analog broadcast (reception) tuner, and signal processing and synchronization separation of horizontal and vertical synchronization are performed.

The video signal processing circuits (main and sub) 105 and 106 perform processing such as white balance and gamma correction on the analog or digital video signal, and output the signal to the image display processing circuit 107. The image display processing circuit 107 processes video, audio, and data for the video signals output from the video signal processing circuits 105 and 106. For image processing, for example, a command is input from the keyboard 121 input, the video data is processed by the system controller 120, and a data broadcast screen is displayed over the video signal, or subtitle data is received and subtitle superimposition is received. Are displayed in layers.
In FIG. 3, since two video signals are input from the video signal processing circuit (main) 105 and the video signal processing circuit (sub) 106 to the image display processing circuit 107, each image processing is performed, Two or more channel images of a picture can be displayed on the same display device.

Up to now, the case where the mixed signal is connected to the connection terminal on the rear surface of the television receiver with one cable and the case where the terrestrial broadcast and the mixed broadcast are separated and input with two cables have been described. When these connections are made correctly, detection results of terrestrial analog broadcast, terrestrial digital broadcast, and satellite digital broadcast are displayed on the display device of the television receiver.
However, there is a case where the cable connection is wrong in the mixed mode. For example, when a mixed mode signal is input to the input terminal 11 dedicated to terrestrial broadcasting of the RF distribution processing device 101 built in the television receiver via a cable (one), the switch 25 of the RF distribution processing device 101 Since the terminal 26 is connected to the output of the terrestrial / satellite demultiplexer 21, the mixed mode signal is not input to the terrestrial amplifier 29 via the switch 25 from the terrestrial dedicated input terminal 11.
Since it is known that the input signal is in the mixed mode at the time of wiring connection, a menu indicating that the terrestrial analog broadcast, digital terrestrial broadcast, and satellite digital broadcast cannot be received is displayed on the display device. In addition, by displaying this menu separately for the mixed mode or the separated mode, it is possible to confirm an error in the cable connection, and it is possible to perform an accurate wiring connection by changing the connection.

On the other hand, there is a case where the cable connection is wrong in the separation mode. For example, the mixed mode signal is input to the input terminal 11 dedicated to the terrestrial broadcasting of the RF distribution processing apparatus in which the separation mode signal is incorporated in the television receiver via the cables (two), and the mixed mode input terminal 12 is used. When the terrestrial analog broadcast signal and the terrestrial digital broadcast signal are input to the terminal 25, the terminal 28 of the switch 25 of the RF distribution processing apparatus 101 is connected to the terminal 27 and is connected to the input terminal 11 dedicated to the ground.
The mixed mode signal supplied from the terrestrial-only input terminal 11 is input to the terrestrial amplifier 29 via the switch 25, and the terrestrial analog broadcast and terrestrial digital broadcast only signals are input to the terrestrial amplifier 29, and then mixed and distributed. Are output to the three broadcast tuners 102 and 103.
However, both the terrestrial analog broadcast and terrestrial digital broadcast signals input to the mixed mode input terminal 12 are input to the terrestrial / satellite demultiplexer 21. From the terrestrial / satellite demultiplexer 21 to the satellite amplifier 22 However, the two broadcast signals are not output. Also, since the terminal 28 of the switch 25 is connected to the terminal 27 and not connected to the terminal 26, both the terrestrial analog broadcast and terrestrial digital broadcast signals separated by the terrestrial / satellite demultiplexer 21 are supplied to the terrestrial amplifier 29. Not.
At this time, since no signal is supplied to the satellite amplifier 22, the signals output from the equal distributor 24 are only both terrestrial analog broadcast and terrestrial digital broadcast signals output via the terrestrial amplifier 29.
As a result, a menu indicating that only the terrestrial analog broadcast and the terrestrial digital broadcast can be received is displayed on the display device of the television receiver. Since it is known that the input signal is in the separation mode at the time of wiring connection, and this menu is displayed separately for the mixed mode or the separation mode, the wiring connection error can be corrected.
It has been described that the menu displayed on the display device is selected by the operation of the remote controller or the system controller, and the input terminal of the RF distribution processing device is switched. However, of course, the switch 25 is a mechanical switch and switched manually. May be.

As described above, the high-frequency signal processing device and the television receiver using the same select the menu displayed on the display device, switch the signal path of the high-frequency signal processing device, and use the single antenna input terminal for ground and satellite. By inputting both broadcast signals and outputting them to the subsequent circuit without degrading the signals, a mixed indoor wiring system for both terrestrial and satellite broadcasting is becoming mainstream. A complicated wiring can be realized by avoiding complicated connection, and a wiring system that does not contradict the conventional connection system can be realized by a changeover switch.
The high-frequency signal processing apparatus has two input terminals, an input terminal for terrestrial broadcasting and an input terminal that mixes terrestrial broadcasting and satellite broadcasting, and separates terrestrial broadcasting and mixed broadcasting of terrestrial broadcasting and satellite broadcasting. There are two modes for inputting or mixed broadcast input, and the switch selects from the two modes, and after signal processing, it is equally distributed by the distributor so that it can be supplied to the two subsequent tuners.
In addition, by providing an attenuator switch function and a gain control function in the high-frequency signal processing apparatus, the weak electric field performance and the strong electric field performance are maintained in a balanced manner in the high-frequency signal processing of the RF stage in such a complicated TV receiver. Can keep.

It is a figure which shows the block configuration of a high frequency signal processing apparatus. It is a figure which shows the block configuration of another high frequency signal processing apparatus. It is a figure which shows the block configuration of the television receiver using a high frequency signal processing apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10,20 ... High frequency signal processing apparatus, 21 ... Terrestrial / satellite demultiplexer, 22 ... Satellite amplifier (amplifier), 23 ... Ground / satellite mixer, 24 ... Equal distributor, 25 ... Switch, 29 ... Ground amplifier (amplifier) ), 100 ... TV receiver, 101 ... RF distribution processing device, 102, 103 ... 3 broadcast tuner (main, sub), 104 ... front end decoder (decoding circuit), 105,106 ... video signal processing circuit, 107 ... image Display processing circuit 120... System controller (control unit) 121 121 Key (keyboard) 122 Remote control signal detector 123 Remote control device (remote control)

Claims (10)

A high-frequency signal processing device built in a television receiver,
The high-frequency signal processing device has one antenna input terminal, and both terrestrial broadcast and satellite broadcast signals are input to the antenna input terminal, and a reception menu displayed on the display device of the television receiver is selected. A high-frequency signal processing device in which a switch is switched and the input signal is amplified by an amplifier and then mixed and output to a subsequent circuit.   The high-frequency signal processing apparatus according to claim 1, wherein the amplifier includes a first amplifier for gain control of a terrestrial broadcast signal and a second amplifier for gain control of a satellite broadcast signal.   The high-frequency signal processing device according to claim 1, wherein the high-frequency signal processing device includes a distributor, and equally distributes the mixed signal and outputs it to a subsequent stage. A high-frequency signal processing device built in a television receiver,
The high-frequency signal processing device includes:
A first input terminal to which a terrestrial broadcast signal is input;
A second input terminal for inputting a satellite broadcast signal and a terrestrial broadcast signal;
A duplexer connected to the second input terminal and separating the terrestrial broadcast signal and the satellite broadcast signal;
A switch connected to the first input terminal and the output of the duplexer and switched by a control signal to output a terrestrial broadcast signal;
A first amplifier connected to the output of the switch for gain control of the terrestrial broadcast signal;
A second amplifier connected to the output of the duplexer for gain control of the satellite broadcast signal;
A mixer connected to the outputs of the first and second amplifiers for mixing the terrestrial broadcast signal and satellite broadcast signal;
A high-frequency signal processing apparatus, comprising: a distributor connected to the mixer for distributing the mixed signal;   The high-frequency signal processing apparatus according to claim 4, wherein the distributor equally distributes the mixed signal and supplies the mixed signal to a subsequent tuner.   The high-frequency signal processing device according to claim 4, wherein the switch is switched by the control signal generated by selecting a menu displayed on a display device. A high-frequency signal processing device built in a television receiver,
The high-frequency signal processing device has first and second antenna input terminals, a terrestrial broadcast signal is input to the first antenna input terminal, and a satellite broadcast signal and terrestrial broadcast are input to the second antenna input terminal. A first mode in which a signal is input and the terrestrial broadcast signal and the satellite broadcast signal are separately input, and a second mode in which the terrestrial broadcast signal and the satellite broadcast signal are mixed and input from the second antenna input terminal. The signals input from the first and second antenna input terminals are amplified and mixed in accordance with the first and second modes, respectively, and then equally distributed by a distributor. High-frequency signal processing device supplied to multiple tuners.   8. The high-frequency signal processing apparatus according to claim 7, wherein the amplifier includes a first amplifier for gain control of a terrestrial broadcast signal and a second amplifier for gain control of a satellite broadcast signal. A terrestrial broadcast signal and a satellite broadcast signal are input, a terrestrial broadcast signal and a satellite broadcast signal are separated and amplified, mixed and distributed, and a high-frequency signal processing device that supplies the distributed signals to a plurality of tuners, and voice, image, and data A television receiver having a signal processing device for demodulating a signal, a display device for displaying a signal derived from the signal processing device, and a control device for selecting the menu displayed on the display device and controlling the high-frequency signal processing device Because
The high-frequency signal processing device has first and second antenna input terminals, a terrestrial broadcast signal is input to the first antenna input terminal, and a satellite broadcast signal and terrestrial broadcast are input to the second antenna input terminal. A first mode in which a signal is input and the terrestrial broadcast signal and the satellite broadcast signal are separately input, and a second mode in which the terrestrial broadcast signal and the satellite broadcast signal are mixed and input from the second antenna input terminal. The signals input from the first and second antenna input terminals according to the first and second modes are amplified and mixed by an amplifier, and then equally distributed by a distributor. A television receiver supplied to the plurality of tuners.   10. The television receiver according to claim 9, wherein the amplifier includes a first amplifier for gain control of a terrestrial broadcast signal and a second amplifier for gain control of a satellite broadcast signal.

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