JP3598056B2 - Digital broadcast receiver - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a digital broadcast receiving apparatus, and more particularly to a hierarchy in which modulated waves of a plurality of modulation schemes having different C / N values (carrier power to noise power ratio) required for demodulation are time-division multiplexed and broadcast. TECHNICAL FIELD The present invention relates to a receiving apparatus for digital transmission digital broadcasting.
[0002]
[Prior art]
In BS (Broadcasting Satellite) digital broadcasting, a method of selecting a packet of a program requested to be viewed from a signal in which a plurality of TSs (Transport Streams) are multiplexed is adopted. In the hierarchical transmission digital broadcasting in the BS broadcasting, modulated waves modulated by different modulation schemes having different C / N values required for demodulation are time-division multiplexed and transmitted. FIG. 7 shows a conventional example of a digital broadcast receiving apparatus for receiving such a hierarchically transmitted digital broadcast.
[0003]
FIG. 7 is a block diagram showing a conventional digital broadcast receiving apparatus. In the digital broadcast receiving apparatus 70 shown in FIG. 7, 14 is a front end, 15 is a PSK demodulator, 17 is an error corrector, 30 is a demultiplexer, 25 is an AV decoder, and 43 is operating means connected to the control means 50. , 60 are television monitors.
[0004]
The control means 50 includes a memory, a microprocessor (hereinafter also referred to as an MPU) for controlling the entire digital broadcast receiving apparatus 70, a comparator 29, and a PSI processing section 39 having a PID selection control section 41. The illustration of the MPU and the memory is omitted, and the illustration of general connection between the MPU and the memory and other elements is also omitted.
[0005]
In the front end 14, the IF signal of the BS supplied from a tuner (not shown) is subjected to quadrature detection by the quadrature detector 11, and the output is converted to a digital signal by an AD converter (ADC) 13 and supplied to a PSK demodulator 15. . A C / N detector 27 for measuring a carrier power to noise power ratio (C / N) is connected to the AD converter (ADC) 13. The PSK demodulator 15 performs digital demodulation such as nPSK (n is 8, 4, 2), and the error corrector 17 performs error correction. The modulated wave input to the PSK demodulator 15 includes an 8PSK modulated wave for transmitting program information, a 4PSK modulated wave, and a BPSK modulated wave for transmitting control information. The signal is demodulated by a demodulation method suitable for each modulation method of the transmitted signal.
[0006]
The demultiplexer 30 includes a transport stream separator 19 (hereinafter, also referred to as a TS separator) and a packet extracting unit 23. The demultiplexer 30 selects a single transport stream from the output of the error corrector 17 on the basis of the reception channel selected by the user via the operation unit 43, and outputs the packet to be decoded provided from the PSI processing unit 39. An ID packet is separated from the single TS data.
[0007]
That is, a transmission main signal having a plurality of transport streams (TS) and TMCC (Transmission and Multiplexing Configuration Control) data are supplied from the error corrector 17 to a transport stream separator (TS separator) 19. The TMCC data is a transmission control signal such as a transmission method, a frame structure, and a TS-ID (transport ID). The TS separator 19, based on the TS-ID provided from the PSI processing unit 39, forms one transport stream (hereinafter, also referred to as TS) including a transport packet (hereinafter, also referred to as TS packet) of a channel selected by the user. ) Is output to the packet extracting unit 23.
[0008]
Based on the packet ID (hereinafter, also referred to as PID) provided from the PID selection control unit 41, the packet extraction unit 23 converts the transport stream provided from the TS separator 19 into a transport corresponding to the channel selected by the user. The packet is extracted and output to an AV decoder 25 that decodes audio data and video data compressed by the MPEG2 system.
[0009]
The decoded output from the AV decoder 25 is provided to display means such as a television monitor 60. When the user operates the digital broadcast receiving device 70, the operation is performed from the operation unit 43 through the control unit 50. The operation unit 43 is provided on the main body of the digital broadcast receiving apparatus 70 and is connected to the MPU of the control unit 50, or is connected to the MPU of the control unit 50 via a remote controller.
[0010]
In the comparator 29, the magnitude of the output of the C / N detector 27 is compared with a predetermined threshold, and the result is given to the PSI processing unit 39. The PSI (Program Specific Information) is transmitted as a transport packet, and the PSI separated from the received signal by the transport stream separator 19 is provided to the PSI processing unit 39. The PSI is also referred to as program specifying information, and is information necessary for selecting a required program, and includes four tables of PAT, PMT, NIT, and CAT.
[0011]
The PMT (Program Map Table) specifies a packet ID of a TS packet transmitting each coded signal constituting a program and a packet ID of a TS packet transmitting common information among pay broadcast related information. The PSI processing unit 39 gives the TS-ID including the transport packet of the channel number specified by the operation unit 43 to the TS separator 19, and the PID selection control unit 41 outputs the output of the comparator 29 and the PMT and the like. , The packet ID (PID) corresponding to the channel number is given to the packet extracting unit 23.
[0012]
Among the modulated waves input to the PSK demodulator 15, the 8PSK modulated wave has a large C / N value required for demodulation, whereas the 4PSK modulated wave has a C / N value required for demodulation. small. When the C / N value detected by the C / N detector 27 is larger than a predetermined threshold, the packet extracting unit 23 outputs a packet modulated and demodulated by the 8PSK modulation method. On the other hand, when the C / N value detected by the C / N detector 27 is smaller than a predetermined threshold, the packet extracted and modulated by the 4PSK modulation method is output from the packet extracting unit 23. The image of the signal transmitted by the modulation wave by 4PSK has lower quality than the image by 8PSK, but has a feature that the output of the image is continued without being stopped until the C / N value is extremely deteriorated. .
[0013]
The information based on 8PSK and the information based on 4PSK have different PIDs, but the TS-ID may be the same or different. For this reason, based on the output of the comparator 29, the TS separator 19 masks the unnecessary packet out of the packet related to 8PSK and the packet related to 4PSK. In this masking process, for example, when the C / N value is small and a packet based on 4PSK is output from the packet extracting unit 23, the data of the packet related to 8PSK is set to 0 in the TS separator 19, and the 8PSK information is changed to 4PSK information. To prevent data errors and malfunctions from increasing.
[0014]
[Problems to be solved by the invention]
When the reception condition is good in good weather and the C / N value detected by the C / N detector 27 is larger than a predetermined threshold, the packet extracting unit 23 extracts and outputs the packet based on 8PSK as described above. . When the weather deteriorates and the C / N value becomes smaller than a predetermined threshold while the output is displayed on the television monitor 60 via the AV decoder 25, the packet extracting unit 23 switches to a packet using 4PSK. Extract and output. When an image based on 4PSK is displayed on the television monitor 60, the image quality of the image is deteriorated as compared with that based on 8PSK. However, the television monitor 60 continues to display the received image in 8PSK or 4PSK depending on the C / N value of the received signal until the C / N drops extremely and the output of the AV decoder 25 is stopped. I do.
[0015]
However, the C / N threshold for switching between the 8PSK data and the 4PSK data is a value fixed in advance by the manufacturer of the digital broadcast receiving device 70. Therefore, the timing of switching between the 8PSK data and the 4PSK data may be inappropriate for some users.
For example, a certain user wants to switch to 4PSK in which stable reception can be expected when a certain amount of noise becomes noticeable in a received image displayed on the television monitor 60, and a certain user displays the image on the television monitor 60. Even if a certain amount of noise becomes noticeable in the received image, the user wants to continue to select 8PSK that can expect high-resolution image quality.
[0016]
In addition, if the C / N threshold is set to a large value so as to display a received image as much as possible to avoid the danger that the screen is frozen due to the deterioration of the C / N, when the C / N is deteriorated, the lower hierarchy is quickly set. , And the time for displaying the low-quality image obtained by receiving the lower hierarchy becomes longer.
[0017]
The switching of the hierarchy between the selection of the high-layer signal (signal by 8PSK) and the selection of the low-layer signal (signal by 4PSK) is automatically performed based on the fixed threshold as described above. The manner of occurrence of block errors due to the deterioration of C / N has a considerable range visually on the television monitor 60. This is further increased by a hysteresis characteristic provided to avoid a chattering phenomenon (a phenomenon in which the switching of the reception layer is frequently repeated) due to the temporary fluctuation of the C / N. Therefore, it becomes easier for the user to feel that the timing of the hierarchy switching is inappropriate.
[0018]
The present invention has been made in view of the above problems, and an object of the present invention is to provide a digital broadcast receiving apparatus that switches a reception hierarchy at a timing appropriate for a user when a reception state deteriorates.
[0019]
[Means for Solving the Problems]
A digital broadcast receiving apparatus according to the present invention has been made in order to solve the above-mentioned problems, and a first invention is a first modulation method in which a C / N value (carrier power to noise power ratio) required for demodulation is large. Receiving a hierarchically transmitted digital broadcast in which a first modulated wave according to the first embodiment and a second modulated wave according to a second modulation method having a small C / N value required for demodulation are transmitted in a time-division multiplexed manner. In the broadcast receiving apparatus, a C / N measuring unit for measuring a C / N value of a received signal, a threshold setting unit operated by an operating unit, and a first set by the threshold setting unit via the operating unit. Comparison means for comparing the threshold value with the C / N value output from the C / N measurement means; demodulation means for demodulating the modulated wave; and a specific transformer based on the demodulated output output from the demodulation means. Port packet And a decoding unit for decoding the output of the demultiplexer. The demultiplexer is configured to output the first signal when the C / N value of the received signal is equal to or greater than the first threshold value. And outputs a transport packet transmitted by the second modulated wave when the C / N value of the received signal is less than the first threshold value. The digital broadcast receiving apparatus is configured as described above.
[0020]
According to the digital broadcast receiving apparatus of the present invention, the first C / N threshold value set using the operation means and the threshold value setting means is compared with the C / N value of the received signal by the comparison means. When the reception state deteriorates and the C / N value becomes smaller than the first threshold value, based on the output of the comparing means, the signal for the higher hierarchy (the information transmitted by the first modulated wave) is converted to the lower hierarchy. The output from the demultiplexer is automatically switched to a signal for use (information transmitted by the second modulated wave). Since the first threshold value is set by the user by judging the value as appropriate for the user's own feeling, the switching of the reception layer can be performed at a timing appropriate for the user.
[0021]
In a second aspect based on the digital broadcast receiving apparatus according to the first aspect, the threshold value setting means outputs a value selected from a plurality of predetermined threshold values via the operation means to the comparison means. The digital broadcast receiving apparatus is configured as described above.
[0022]
According to the digital broadcast receiving apparatus of the present invention, the plurality of threshold values predetermined as options can be set by the manufacturer of the digital broadcast receiving apparatus within an appropriate C / N range, so that the user has an abnormal By setting a proper threshold value, it is possible to prevent the reception state from falling into an abnormal state.
[0023]
According to a third aspect, in the digital broadcast receiving apparatus according to the second aspect, the threshold value setting means includes: a predetermined reference C / N value; a C / N value larger than the reference C / N value; A digital broadcast receiving apparatus configured to output a value selected via the operation means from a C / N value smaller than a C / N value to the comparison means as the first threshold value.
[0024]
According to the digital broadcast receiving apparatus of the present invention, the manufacturer of the digital broadcast receiving apparatus can set the reference C / N value to a standard C / N threshold value. Threshold can be easily set based on N value
[0025]
A fourth invention is the digital broadcast receiving apparatus according to the first invention, further comprising a television monitor for displaying an output of the decoding means, wherein the threshold setting means is provided when a threshold setting instruction is given through the operation means. Is a digital broadcast receiving apparatus wherein the C / N value of a received signal output from the C / N measuring means is provided to the comparing means as the first threshold value.
[0026]
According to the digital broadcast recording of the present invention, when the user sets the threshold of C / N, he or she does not care about the value of C / N itself, while watching the noise amount of the image displayed on the television monitor. Can be set. Therefore, even when the user does not understand the relationship between the numerical value of C / N and the amount of noise of the image displayed on the television monitor, it is possible to easily set the C / N threshold that meets the user's request. .
[0027]
According to a fifth aspect, in the digital broadcast receiving apparatus according to the fourth aspect, the threshold value setting means includes noise adding means for adding noise to a received signal, and when the first threshold value is set, the noise addition means is provided. When the image to which the noise is added is being displayed on the television monitor while changing the amount of noise to be added by the means, and a threshold setting instruction is given through the operating means, the threshold setting means sets the C / N. A digital broadcast receiving apparatus wherein the C / N value output from the measuring means is provided to the comparing means as the first threshold value.
[0028]
ADVANTAGE OF THE INVENTION According to the digital broadcast receiving apparatus of this invention, by providing the noise addition means, even if the reception state of the actually received digital broadcast is good, it is possible to display an image when the reception state is bad. The user can set the C / N threshold while viewing the image.
[0029]
According to a sixth aspect, in the digital broadcast receiving apparatus according to the fifth aspect, when the first threshold value is set, the noise adding means increases the noise amount gradually at a predetermined time interval or sets a predetermined noise amount. This is a digital broadcast receiving apparatus in which the amount of noise is gradually reduced at time intervals.
[0030]
According to the digital broadcast receiving apparatus of the present invention, since the noise adding means has the scanning means for scanning the amount of noise, there are many C / N value options that can be selected by the user when setting the C / N threshold value. In preparation, even if the user does not manually switch the options (C / N values) and display them on the television monitor, the user can automatically increase or decrease the amount of noise of the noise adding means to automatically select many options. Can be switched.
[0031]
A seventh invention is the digital broadcast receiving device according to the second invention, further comprising a television monitor for displaying an output of the decoding means, wherein the television monitor is selected from a plurality of predetermined thresholds via the operation means. A digital broadcast receiving apparatus configured to display an image having a C / N value on the television monitor.
[0032]
According to the digital broadcast receiving apparatus of the present invention, the operator of the digital broadcast receiving apparatus can select the threshold value while checking the state of the currently selected image by himself, so that a more appropriate selection can be made.
[0033]
BEST MODE FOR CARRYING OUT THE INVENTION
The digital broadcast receiving apparatus according to the present invention includes a first modulated wave by a first modulation method (for example, 8PSK) having a large C / N value required for demodulation, and a second modulated wave having a small C / N value required for demodulation. C / N measuring means for measuring a C / N value of a received signal, which is a device for receiving a hierarchically transmitted digital broadcast in which a second modulated wave by a modulation method (for example, 4PSK) is time-division multiplexed and transmitted. A threshold setting unit operated by an operation unit; a comparison unit configured to compare a first threshold set by a user via the operation unit with a C / N value of a received signal; A demultiplexer for extracting a transport packet in accordance with an output of the comparing means; and a decoding means for decoding an output of the demultiplexer, wherein the demultiplexer has a C / N value of a received signal equal to or greater than a first threshold. Noto Outputs the transport packet transmitted by the first modulated wave, and when the C / N value of the received signal is smaller than the first threshold, the transport packet is transmitted by the second modulated wave. A transport packet is output so that a user can set a switching point (C / N threshold) between high-layer reception and low-layer reception.
[0034]
In the embodiment described below, the program information in digital broadcasting is composed of an 8PSK modulation scheme for a high hierarchy requiring a large C / N value for demodulation and a 4PSK modulation scheme for a low hierarchy requiring a small C / N value for demodulation. The description will be made on the assumption that the data is transmitted after being modulated by two modulation methods.
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a first embodiment of the digital broadcast receiving apparatus according to the present invention. 1 and 7, elements having the same function and the same function are denoted by the same reference numerals, and description thereof will be omitted.
[0035]
The main difference between the digital broadcast receiving apparatus 10 of the first embodiment of the present invention shown in FIG. 1 and the conventional digital broadcast receiving apparatus 70 shown in FIG. 7 is that the control means 40 of FIG. The point that the operation signal input from 43 is given to the threshold setting means 37 via the MPU in the control means 40, and the output of the threshold setting means 37 is given to the comparator 29. The point is to compare the given C / N threshold with the given C / N from the C / N detector 27. Therefore, the PSI processing unit 39 is controlled according to the result of the comparison between the first threshold set by the user and the C / N value of the current received signal.
[0036]
In FIG. 1, the comparator 29 compares the output of the C / N detector 27 with the first threshold output from the threshold setting unit 37, and supplies the first threshold to the PSI processing unit 39. The comparator 29 outputs, for example, two bits “11” when the C / N value of the received signal is equal to or more than a first threshold value set by the user, and the C / N value of the received signal is equal to the first value. Is output when the C / N value of the received signal is less than the second threshold, and "00" is output when the C / N value of the received signal is less than the second threshold. . The second threshold is set in advance by the manufacturer of the digital broadcast receiving device 10.
[0037]
The PSI processing unit 39 changes the transport stream (TS) output by the TS separator 19 and the bucket ID extracted by the packet extraction unit 23 according to the output of the comparator 29 and the channel number selected by the user. When the packet related to 8PSK and the packet related to 4PSK are included in the same TS, only the bucket ID is changed in the output of the comparator 29.
[0038]
As a result, when the output of the comparator 29 is “11”, the packet extracting unit 23 outputs the data of the packet modulated and demodulated by the 8PSK modulation method, and when the output of the comparator 29 is “10”, the packet extractor 23 outputs 4PSK. And outputs the data of the packet modulated and demodulated by the modulation method of (1). Further, when the output of the comparator 29 is “00”, the output from the packet extracting unit 23 to the AV decoder 25 is stopped.
[0039]
The TV monitor 60 displays an image according to the output of the AV decoder 25. The image displayed on the TV monitor 60 is a high quality image for the high hierarchy when the output of the comparator 29 is “11”, and is a low quality image for the low hierarchy when the output of the comparator 29 is “10”. The image is of high quality. When the output of the comparator 29 is "00", one frame of the received image or another image frame prepared in advance is read from the video buffer memory and displayed as a still image. Then, when the output of the comparator 29 returns to a value other than “00”, the display of the received image is restarted.
[0040]
The user of the digital broadcast receiving apparatus 10 can change or specify the first threshold set by the threshold setting unit 37 via the operation unit 43 and the MPU (not shown) of the control unit 40. Hereinafter, the C / N threshold value setting method according to the present invention will be described.
FIG. 3 is a schematic diagram showing a first method of setting a C / N threshold according to the present invention, and is a threshold setting screen displayed on the television monitor 60. In FIG. 3, “current C / N” (the black portion) is displayed according to the output of the C / N detector 27 and indicates the C / N value of the carrier currently being received. The user increments or decrements the C / N value by key operation (operation of an up / down key indicated by a black triangle) of the remote controller or the operation unit 43 of the main body, and the first threshold value of the C / N (user specified) Switch point).
The range that can be selected with the up key or the down key is limited between a predetermined upper limit and a lower limit. The high-layer non-reception point D indicates a C / N value at which high-layer reception becomes impossible, and the lower limit value indicating the settable range is set to be larger than the C / N value D.
[0041]
FIG. 4 is a schematic diagram illustrating a second method of setting the C / N threshold according to the present invention, and is a threshold setting screen displayed on the television monitor 60. In FIG. 4, “current C / N” (the black portion) is displayed according to the output of the C / N detector 27 and indicates the C / N value of the carrier currently being received. The user selects one of a plurality of options (C / N values) prepared in advance by a key operation (operation of an up / down key indicated by a black triangle) of the remote controller or the operation means 43 of the main body, as a first threshold value (C / N value). (Switching point specified by the user).
[0042]
The C / N value that can be selected by the up key or the down key is any of the standard threshold E, the threshold A, and the threshold C, and the three thresholds (C / N values) are set in advance. The threshold value A is a threshold value having a larger C / N value than the threshold value E, and the threshold value C is a threshold value having a smaller C / N value than the threshold value E and a larger C / N value than the high-layer non-reception point D. The currently selected threshold is indicated by a color change next to the up / down key. The figure shows a state where the standard threshold E is selected.
[0043]
Hereinafter, a second embodiment of the present invention will be described with reference to the drawings. The digital broadcast recording apparatus according to the second embodiment of the present invention allows a user to output a received signal or a signal obtained by adding noise to the received signal from an error corrector, decode the signal, and display the decoded signal on a television monitor. Looking at the image quality of the obtained image, when the user feels that it is appropriate as the C / N threshold (first threshold) for switching between the high-layer reception and the low-layer reception, the user presses the setting button at that time. The C / N value is temporarily stored in a memory, and the stored C / N value is given to a comparator as a first threshold value.
[0044]
FIG. 2 is a block diagram showing a second embodiment of the digital broadcast recording apparatus of the present invention. 1 and 2, elements having the same function and the same function are denoted by the same reference numerals, and description thereof will be omitted. The main difference between the device 10 of the first embodiment of the present invention shown in FIG. 1 and the device 20 of the second embodiment of the present invention shown in FIG. 2 is that the control means 41 of FIG. A point at which the PSI processing unit 39 is controlled by the output of the time determination unit 35, and a noise generator 31 in which the threshold setting unit 37 can control the output amplitude, the output of the noise generator 31 is given to the AD converter 13, The difference is that the noise output from the noise generator 31 is added to the output of the quadrature detector 11 and that the C / N value selected by the user is temporarily stored in the memory 45. Then, the user changes the C / N of the signal output from the AD converter (ADC) 13 by changing the output amplitude of the noise generator 31 via the operation means 43, and monitors the image on the television monitor 60. Meanwhile, the C / N threshold (first threshold) when switching between high-layer reception and low-layer reception is set according to the user's own sense. The memory 45 and the switch 47 are actually constituted by the MPU of the control means 41, and the switch 47 is closed only when the threshold value is set.
[0045]
In FIG. 2, the comparator 29 compares the output of the C / N detector 27 with the first threshold value output from the threshold value setting means 37, and the result is given to the timer 33. The comparator 29 outputs, for example, two bits “11” when the C / N value of the received signal is equal to or larger than the first threshold value, and outputs the C / N value of the received signal that is smaller than the first threshold value. When the C / N value of the received signal is less than the second threshold value, “00” is output when the C / N value of the received signal is less than the second threshold value. The second threshold value is a predetermined value.
[0046]
The timer 33 measures the duration during which the value output from the comparator 29 maintains the same value. The time judging unit 35 compares the value of the duration given from the timer 33 with a predetermined value, and gives an output to the PSI processing unit 39 when the value exceeds the predetermined value. For example, when the output of the comparator 29 is "11", the output of the time determination unit 35 is "11", and the output of the comparator 29 changes from "11" to "10" for 5 seconds continuously. When "10" is output, the output of the time judgment unit 35 changes to "10". Further, when the output of the comparator 29 changes from "10" to "00", "00" is output for 5 seconds continuously. The output of the time determiner 35 changes to "00". Further, when "11" is output continuously for 5 seconds after the output of the comparator 29 changes from "10" to "11", the output of the time determiner 35 changes to "11".
[0047]
The PSI processing unit 39 changes the transport stream (TS) output by the TS separator 19 and the bucket ID extracted by the packet extraction unit 23 according to the output of the time determination unit 35 and the channel number selected by the user. . When the packet related to 8PSK and the packet related to 4PSK are included in the same TS, only the bucket ID is changed in the output of the time determination unit 35.
[0048]
As a result, when the output of the time determiner 35 is “11”, the packet extractor 23 extracts and outputs the data of the packet modulated and demodulated by the 8PSK modulation method, and outputs the data of the packet “10”. "", Data of a packet modulated and demodulated by the 4PSK modulation method is extracted and output. Further, when the output of the time determination unit 35 is “00”, the output from the packet extraction unit 23 to the AV decoder 25 is stopped. When the output of the time determination unit 35 is “00”, one frame of the received image or another image frame prepared in advance is read from the video buffer memory, and a still image is displayed on the television monitor 60. Then, when the output of the time determination unit 35 returns to a value other than “00”, the display of the received image is restarted.
[0049]
The noise output from the noise generator 31 is added to the output of the quadrature detector 11 by an AD converter (ADC) 13, and an image including the noise is displayed on a television monitor 60. Further, the C / N detector 27 detects a C / N value deteriorated by the noise given from the noise generator 31, and supplies the C / N value to the comparator 29. The switch 32 is turned ON only when the threshold value of C / N is set, and is turned OFF otherwise, and no noise is given from the noise generator 31 to the ADC 13.
[0050]
FIG. 5 is a schematic diagram showing a third method of setting the C / N threshold according to the present invention, and is a threshold setting screen displayed on the television monitor 60 of the digital broadcast recording device 20 of FIG. In FIG. 5, “current C / N” (the black portion) is displayed according to the output of the C / N detector 27, and the C / N value deteriorated by the noise given from the noise generator 31. Is shown. The user increments or decrements the C / N value by key operation of the remote controller or the operation means 43 of the main body (operation of the up / down key indicated by a black triangle and a setting button thereunder), and the C / N value is incremented or decremented. A threshold value of 1 (switching point specified by the user) is specified.
[0051]
The noise generator 31 gradually decreases or increases the noise level at predetermined time intervals when the user presses the up key or the down key. For example. When the user presses the up key, the noise level gradually decreases from the immediately preceding state, and the C / N gradually increases. Conversely, when the user presses the down key, the noise level gradually increases from the immediately preceding state, and the C / N gradually decreases. As described above, the image is monitored by the television monitor 60 while changing the amount of noise, and when the user feels that the image is appropriate as a switching point (C / N threshold) between the high-level reception and the low-level reception, the user goes up / down. Press the setting button below the down key. As a result, the C / N value at that time is stored in the memory 45, and the stored C / N value is given to the comparator 29 as the first threshold value via the switch 47.
[0052]
FIG. 6 is a schematic diagram showing a fourth method of setting the C / N threshold according to the present invention, which is a threshold setting screen displayed on the television monitor 60 of the digital broadcast recording device 20 shown in FIG. In the fourth method of setting the C / N threshold, a user selects one option from a plurality of options (C / N values) by operating a key on a remote controller or a main body, and the selected C / N is selected. Is displayed on the television monitor 60 in advance. Then, when the user presses the setting button below the up / down key, the C / N value selected at that time is set as the first threshold.
[0053]
That is, by changing the amount of noise output from the noise generator 31, a plurality of C / N value images are prepared, and the C / N image selected by the user operating the up / down key. Is displayed on the TV monitor. When the user presses the setting button in such a state, the C / N value selected at that time is set as the first threshold.
[0054]
In FIG. 6, “current C / N” (the black portion) is displayed according to the output of the C / N detector 27, and indicates the C / N value of the carrier currently being received. The output level of the noise generator 31 is adjusted according to each threshold value so that the C / N value of the signal output from the AD converter (ADC) 13 becomes the C / N value of the threshold A, the threshold B, and the threshold C. Thus, the amount of noise is set in advance. The user operates the keys of the remote controller or the operation unit 43 of the main body to display images of a plurality of C / N values prepared in advance on the television monitor 60, and sets the first C / N threshold (user-specified C / N). Switch point).
[0055]
As the plurality of thresholds (C / N values) prepared in advance, the threshold B is set to a predetermined standard threshold E, the C / N of the threshold A is slightly larger than the C / N of the standard threshold E, The C / N value can be set slightly smaller than the C / N of the standard threshold value E.
[0056]
As described in detail above, according to the digital broadcast receiving apparatus of the present invention, the C / N threshold value for switching the reception hierarchy when the reception state changes can be set by the user, instead of being a fixed value. Therefore, the reception hierarchy can be switched at a timing appropriate for the user.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a first embodiment of a digital broadcast receiving apparatus according to the present invention.
FIG. 2 is a block diagram showing a second embodiment of the digital broadcast receiving apparatus according to the present invention.
FIG. 3 is a schematic diagram showing a first method of setting a C / N threshold according to the present invention.
FIG. 4 is a schematic diagram showing a second method of setting a C / N threshold according to the present invention.
FIG. 5 is a schematic diagram showing a third method of setting a C / N threshold according to the present invention.
FIG. 6 is a schematic diagram showing a fourth method of setting a C / N threshold according to the present invention.
FIG. 7 is a block diagram showing a conventional digital broadcast receiving apparatus.
[Explanation of symbols]
11 Quadrature detector
13 AD converter (ADC)
14 Front end
15 PSK demodulator (demodulation means)
17 Error Corrector
19 Transport stream separator (TS separator)
23 Packet Extractor
25 AV decoder (decoding means)
27 C / N detector (C / N measuring means)
28 Memory 28
29 Comparator (comparing means)
30 Demultiplexer
31 Noise generator (noise adding means)
33 timer
35 Time Judge
37 threshold setting means
39 PSI processing unit
40, 41 control means
41 PID selection control unit
45 memory
60 TV monitor

Claims (7)

A first modulated wave by the first modulation scheme having a large C / N value (carrier power to noise power ratio) required for demodulation, and a second modulated wave by a second modulation scheme having a small C / N value required for demodulation. In a digital broadcast receiving apparatus for receiving a hierarchically transmitted digital broadcast in which the modulated wave of
C / N measuring means for measuring a C / N value of a received signal; threshold setting means operated by operating means; a first threshold set by the threshold setting means via the operating means; Comparing means for comparing the C / N value with the C / N value output from the N measuring means; demodulating means for demodulating the modulated wave; and comparing the specific transport packet from the demodulated output output from the demodulating means. A demultiplexer that extracts in accordance with the output of the means, and decoding means for decoding the output of the demultiplexer.
The demultiplexer outputs a transport packet transmitted by the first modulated wave when a C / N value of the received signal is equal to or greater than the first threshold, and the C / N value of the received signal is the second value. A digital broadcast receiving apparatus for outputting a transport packet transmitted by the second modulated wave when the value is smaller than a threshold value of 1. 2. A digital broadcast receiving apparatus according to claim 1, wherein said threshold setting means outputs a value selected from a plurality of predetermined thresholds via said operation means to said comparison means. Broadcast receiver. 3. The digital broadcast receiving apparatus according to claim 2, wherein said threshold value setting means includes a predetermined reference C / N value, a C / N value larger than said reference C / N value, and a smaller C / N value than said reference C / N value. A digital broadcast receiving apparatus for outputting a value selected from the C / N value via the operating means to the comparing means as the first threshold value. 2. The digital broadcast receiving apparatus according to claim 1, further comprising a television monitor for displaying an output of said decoding means, wherein when a threshold setting instruction is issued through said operation means, said threshold setting means performs said C / N measurement. A C / N value of a received signal output from the means, which is provided to the comparing means as the first threshold value. 5. The digital broadcast receiving apparatus according to claim 4, wherein said threshold value setting means includes noise adding means for adding noise to a received signal, and when setting said first threshold value, the noise amount added by said noise adding means. When the image to which the noise is added is displayed on the television monitor while changing the threshold value, and a threshold setting instruction is given via the operating means, the threshold setting means is output from the C / N measuring means. A digital broadcast receiving apparatus, wherein a given C / N value is given to the comparing means as the first threshold value. 6. The digital broadcast receiving apparatus according to claim 5, wherein when setting the first threshold value, the noise adding means gradually increases the noise amount at a predetermined time interval or gradually increases the noise amount at a predetermined time interval. A digital broadcast receiving apparatus characterized by reducing the number of digital broadcasts. 3. The digital broadcast receiving apparatus according to claim 2, further comprising a television monitor for displaying an output of said decoding means, wherein a C / N value of a value selected via said operating means from a plurality of predetermined thresholds. A digital broadcast receiving apparatus for displaying an image having the following on the television monitor.

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