JP6923177B2 - Broadcast receiving device and broadcasting receiving method - Google Patents

Description

Embodiments of the present invention relate to a broadcast receiving device and a broadcast receiving method.

Recently, in the field of television broadcasting, new broadcasting (advanced BS digital, advanced wideband CS digital) aiming to start the service in 2018 is being studied. Therefore, in the future, the broadcasting wave types of television broadcasting will be a mixture of advanced BS digital and advanced wideband CS digital in addition to the conventional broadcasting wave types of terrestrial digital, BS digital, and wideband CS digital. In advanced BS digital, broadcasting of 4K image quality and 8K image quality is planned. In addition, 4K image quality broadcasting is planned for advanced wideband CS digital.

In addition, the limited reception method (CAS) is adopted in the terrestrial digital broadcasting and the BS / CS digital broadcasting currently in operation. In the limited reception method, a broadcast program is encrypted using encryption technology to enable viewing of a limited broadcast program. In the limited reception method, a CAS card that holds a decryption key and decrypts the broadcast program is adopted in order to decrypt the broadcast program. In addition, the introduction of CAS modules corresponding to these broadcasts is also being considered for advanced BS broadcasts and advanced broadband CS broadcasts that are scheduled to be operated.

By the way, in ARIB STD-B61, which is a standard for advanced BS and CS broadcasting, a "reset request" of a CAS module instruction is defined. The CAS module incorporated in the broadcast receiver may need to be reset in order to stabilize its function, for example, at the timing of upgrading the firmware of the CAS module. Therefore, the CAS module can generate a reset request instructed by the CAS module to the CPU in the broadcast receiver.

It is conceivable that the CAS module that has received the reset instruction will be temporarily unable to execute the descramble processing due to the reset, and will not be able to watch the program. Therefore, according to the standard, even if a reset request is generated by a CAS module instruction, it is not always necessary to reset the CAS module immediately, and the receiver is in an idle state immediately after the viewer performs a power-off operation or the like. During the period, it is supposed to perform a reset.

However, even when the receiver is in the idle state, there is a problem that a function such as scheduled recording may be executed, and a desired function may not be realized by resetting the CAS module.

Special Table 2008-523645

An object of the embodiment is to provide a broadcast receiving device and a broadcast receiving method capable of realizing a desired function even when a reset request of a CAS module instruction occurs.

When the broadcast receiving device according to the embodiment receives a tuner for receiving the advanced broadband broadcast, a CAS module for performing limited reception processing of the advanced wideband broadcast program received by the tuner, and a reset request from the CAS module. , A first determination is made to determine whether or not it is a predetermined period immediately after the power is turned on or a standby state period, and the first determination indicates that the predetermined period immediately after the power is turned on or the standby state period. In this case, a control unit is provided which makes a second determination for determining the non-use period of the CAS module and resets the CAS module during the non-use period based on the second determination.

The block diagram which shows the broadcast receiving apparatus which concerns on 1st Embodiment of this invention. The flowchart for demonstrating the operation of 1st Embodiment. The flowchart which shows the operation flow adopted in the 2nd Embodiment of this invention. The flowchart which shows the operation flow adopted in the 3rd Embodiment of this invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
(First Embodiment)
FIG. 1 is a block diagram showing a broadcast receiving device according to the first embodiment of the present invention. In this embodiment, the non-use period of the CAS module is determined from the reception status including the power off (standby) time, and the reset timing at the time of the CAS module reset request is determined, which is necessary in accordance with the reset request. It prevents the function from being restricted and enables the realization of the desired function.

In FIG. 1, the broadcast receiving device 1 includes a control unit 10. The control unit 10 may be configured by a processor using a CPU or the like and operate using the RAM 10b according to a program stored in the ROM 10a to control each unit, or may be a function of a hardware electronic circuit. It may realize a part or all. The control unit 10 is also provided with a non-volatile memory 10c. The non-volatile memory 10c stores various information extracted from the broadcast signal described later, information related to the control of the reset process, and the like.

The antenna 21 receives an advanced BS broadcast and an advanced wideband CS broadcast (hereinafter, these are referred to as an advanced wideband broadcast) and supplies an advanced wideband broadcast signal to the input terminal 2a of the broadcast receiving device 1. The advanced wideband broadcast signal input to the input terminal 2a is supplied to the tuner unit Tu.

The tuner unit Tu has a plurality of tuners Tu1, Tu2, ... (Hereinafter, these are collectively referred to as tuner Tun). The tuner Tun is controlled by the control unit 10, selects a broadcast signal of a desired channel from the input high-bandwidth broadcast signals, and outputs the selected signal to the signal processing unit 3. The signal processing unit 3 demodulates the input broadcast signal.

In the example of FIG. 1, only the antenna 21 corresponding to one advanced wideband broadcasting is shown, but an antenna corresponding to terrestrial digital broadcasting, BS broadcasting, and CS broadcasting is provided to supply signals from each antenna to the tuner unit Tu. It may be like this. In this case, the signal processing unit 3 performs demodulation corresponding to the modulation method of each broadcast. As a result, the signal processing unit 3 can obtain a stream of each broadcast signal. Although FIG. 1 shows an example in which each broadcast signal is input via an antenna, the transmission path of the broadcast signal is not particularly limited, and IP broadcasts received via an Internet line without going through an antenna or , It may be received via a cable television broadcasting network.

For example, for an advanced wideband broadcast signal, a TLV (Type Length Value) stream can be obtained by demodulation of the signal processing unit 3. The signal processing unit 3 separates the IP packet contained in the TLV stream, and includes video data, audio data, subtitle data, character super, application data, ECM (Entitlement Control Message), and EMM (Entitlement Management Message) contained in the IP packet. ) Is included in various messages.

Further, the signal processing unit 3 extracts a transport stream (transport stream multiplexed according to the MPEG-2 Systems standard) by demodulation processing for the current broadcast signal such as a terrestrial digital broadcast signal. The signal processing unit 3 extracts video data and audio data from the transport stream, and also extracts various messages including ECM and EMM.

The broadcast receiving device 1 is provided with a CAS module 15. The CAS module 15 is used for controlling the limited reception system. The master key Km unique to the module is stored in the CAS module 15. The EMM extracted by the signal processing unit 3 includes a work key Kw for descramble. This EMM is encrypted with an individual master key Km for each module, and the CAS module 15 decrypts the EMM given by the control unit 10 using the master key Km to acquire the work key Kw.

Broadcast data may be encrypted with scrambled keys Ks. The scrambled keys Ks are multiplexed and transmitted to the ECM. The ECM is encrypted by a work key Kw that is variable for each broadcaster, and the CAS module 15 uses the stored work key Kw to decrypt the ECM given by the control unit 10 and scramble the key Ks. To get. The scramble key Ks from the CAS module 15 is supplied to the signal processing unit 3 via the control unit 10, and the signal processing unit 3 performs descramble processing using the scramble key Ks.

The scrambled key Ks is updated in a relatively short time, and the CAS module 15 always acquires the scrambled key Ks and outputs the scrambled key Ks to the signal processing unit 3 while watching the scrambled program. , Need to enable descramble. When a CAS card is used as the IC card 23, the decoding operation of the CAS card is the same as that of the CAS module 15.

The CAS module 15 may be mounted on a chip built in the broadcast receiving device 1 and may be configured, or may be configured by a substrate in which the CAS module is built, and is provided in the broadcast receiving device 1 as shown in the illustration. It is also conceivable that the limited reception function can be realized by inserting the board into a slot that does not. Further, the CAS module 15 has both a limited reception function for advanced wideband broadcasting and a limited reception function for current broadcasting, or has only a limited reception function for advanced wideband broadcasting, and the limited reception function for current broadcasting is described. It may be realized by a CAS card as the IC card 23.

The signal processing unit 3 performs decoding processing on the extracted video and audio of each broadcasting system, and then performs predetermined signal processing to obtain video data and audio data. The signal processing unit 3 gives video data and audio data to the graphic processing unit 4 or the audio processing unit 7, respectively, and gives other data to the control unit 10.

The OSD signal generation unit 5 generates image information (OSD signal) for superimposing display based on the information given by the control unit 10 and supplies the image information (OSD signal) to the graphic processing unit 4. The graphic processing unit 4 manages the digital video data from the signal processing unit 3 and the window drawing based on the GUI (Graphical User Interface) from the OSD signal generation unit 5, and broadcasts the data on the image based on the video data. And GUI-based images are superimposed, and the superimposed images are sent to the image processing unit 6.

For example, in addition to video data, various data for acquiring a program, electronic program guide (EPG) information, program attribute information, subtitle information, etc. are given to the graphic processing unit 4, and the graphic processing unit 4 inputs these. Image generation processing can be performed to display EPG, subtitles, etc. based on the obtained information.

The video processing unit 6 is controlled by the control unit 10 to convert the digital video signal from the graphic processing unit 4 into a format (number of pixels, frame frequency, scanning method) that can be displayed by the video display unit 8, or display color. Is arbitrarily adjusted and output to the image display unit 8. As a result, the image can be displayed on the display screen of the image display unit 8.

Further, the audio processing unit 7 converts the digital audio data from the signal processing unit 3 into an analog audio signal that can be reproduced by the speaker 9, and then outputs the digital audio data to the speaker 9 to reproduce the audio. If the broadcast receiving device is a set-top box or the like, it is not necessary to include the video display unit 8 and the speaker 9.

The broadcast receiving device 1 is provided with a card interface (I / F) 13, communication I / F16, USBI / F17, and HDMII / F18. The card I / F 13 enables data to be transmitted / received between the IC card 23 mounted on the card holder 14 and the control unit 10. For example, when a CAS card compatible with the current digital broadcasting (hereinafter referred to as a B-CAS card) is adopted as the IC card 23, the card I / F 13 transmits / receives data related to the descramble of the current broadcasting.

The communication I / F 16 is an interface corresponding to a predetermined communication path such as a telephone line or a LAN, and is connected to an external device (not shown) via a terminal 2b to transmit / receive data between the external device and the control unit 10. to enable. The HDMI / F18 is an interface compatible with the HDMI (registered trademark) standard, and is connected to an external device (not shown) via the terminal 2d to receive an HDMI signal from the external device and output it to the control unit 10. , The HDMI signal from the control unit 10 can be output to an external device via the terminal 2b.

The USB I / F17 is an interface compatible with the USB standard, and is connected to a USB compatible device such as an HDD 24 via a terminal 2c to enable data transmission / reception between the USB compatible device and the control unit 10. For example, when the HDD 24 is connected to the terminal 2c, the control unit 10 can give video data to the HDD 24 via the USB I / F17 and the terminal 2c for recording.

When the recording unit is composed of an HDD (not shown), an optical disk disk drive, an SD (registered trademark) card reader / writer, or the like built in the broadcast receiving device 1, the control unit 10 records the signal of the broadcast program. It is also possible to record in the department.

For example, when the user specifies recording of a broadcast program, the control unit 10 transfers the descrambled program data (video and audio data) acquired by the signal processing unit 3 to the HDD 24 via the USB I / F17. It can be given and recorded. The control unit 10 can execute the recording of the broadcast program even in the standby state (function standby state).

The broadcast receiving device 1 is provided with an operation unit 11 and a receiving unit 12. The operation unit 11 is composed of switches, keys, buttons and the like (not shown), and outputs an operation signal based on the user operation to the control unit 10. Further, the receiving unit 12 receives an operation signal based on the user operation from the remote controller 22, and outputs the received operation signal to the control unit 10. The control unit 10 controls each unit of the broadcast receiving device 1 based on the operation signals from the operation unit 11 and the reception unit 12. For example, when the remote control unit 7 performs an operation of designating a reception channel number by using an up / down key, a one-touch channel selection key, or the like, each tuner Tun responds to an operation signal from the remote control unit 7. Performs channel selection operation.

The operation unit 11 and the remote controller 22 are provided with a power switch (not shown) for turning on / off the power of the broadcast receiving device 1. The broadcast receiving device 1 is provided with a power supply circuit (not shown) for supplying power to each unit, and the control unit 10 controls the power supply to each unit by operating the power switch to stand by. It is designed to be set to the state.

In the standby state, at least the graphic processing unit 4, the OSD signal generation unit 5, the video processing unit 6, the audio processing unit 7, the video display unit 8 and the speaker 9 in FIG. 1 are stopped, and the control unit 10 operates. Even if the user does, the user cannot watch the broadcast program. When the present embodiment is applied to a decoder that receives high-frequency wideband broadcasting and outputs video and audio, the standby state means a state in which output of video and audio data is stopped.

By the way, the CAS module 15 may be upgraded by transmitting the firmware of the CAS module 15 by broadcasting or the like. In this case, it may be better to reset the CAS module 15 for the purpose of stabilizing the device or for some other reason, and the CAS module 15 is used to reset the CAS module 15 itself. , A reset request may be output to the control unit 10.

Upon receiving the reset request from the CAS module 15, the control unit 10 receives a predetermined period immediately after the power switch on operation (power on operation) or a standby state period due to the power switch off operation (standby operation) (hereinafter, these). Only during the resettable period), the CAS module 15 is allowed to be reset.

Further, in the present embodiment, the control unit 10 controls the execution of the reset according to the execution status of the function in the resettable period even during the resettable period. That is, the control unit 10 first determines the implementation status of the resettable period in both the case where the reset request is held and the resettable period is reached and the reset request is generated after the resettable period is reached. A period during which the CAS module 15 is not used (hereinafter referred to as an unused period) is determined according to the determination result, and whether or not the CAS module 15 can be reset is determined depending on whether or not the CAS module 15 can be reset during this unused period.

Note that the control unit 10 resets the broadcast program currently being received even during normal operation during the non-use period when the CAS module 15 is not used, such as when the broadcast program currently being received is not subject to limited reception by the CAS module 15. Immediately after the request, the CAS module 15 may be instructed to reset. The program that is not subject to limited reception by the CAS module 15 is a program that has not been scrambled.

Further, the non-use period in which the CAS module 15 is not used includes a menu display period in which a program is not displayed on the screen, a display period of an externally input image, and the like even during normal operation.

However, during normal operation, channel switching or the like may occur relatively frequently. Therefore, in the present embodiment, the standby state of the broadcast receiving device 1, that is, the non-use period of the CAS module 15 in the resettable period is set. judge. The control unit 10 can realize various functions in the standby state, for example, as follows. The following functional examples in the standby state are also described in ARIB_TR-B39 and the like.

For example, even in the standby state, the control unit 10 supplies power to the circuit necessary for receiving the download content information by its own timer based on the notification information, downloads the download content, and stands at the end of the download. It has a power control function to turn off the raised power. Further, the control unit 10 keeps the necessary circuit energized, downloads the download contents, and turns off the power at the end of the download even when the power switch is turned off to shift to the standby state. Has a function.

Further, the control unit 10 can perform the same operation as the above-mentioned energization control function for EMM acquisition.

In addition, the control unit 10 can acquire EPG information by channel search in the standby state.

Further, the control unit 10 receives the TMCC in the standby state, and even when the activation control bit of the TMCC is 1, it monitors the emergency information descriptor (MH) in the MPT of the receiving channel to perform an emergency warning broadcast (EWS). Can be received.

In addition, the control unit 10 can execute various reservation operations (program reservation, etc.) by the receiver.

In the present embodiment, among these functions in the standby state and the like, the control unit 10 controls all or a part of the functions requiring the limited reception processing of the CAS module 15 (hereinafter referred to as the reset restriction function). The reset request is held even in the standby state, and the reset is not executed. The reset restriction function may be executed immediately after the power is turned on, and even in this case, the control unit 10 holds the reset request and does not execute the reset.

Then, the control unit 10 resets the CAS module 15 after the execution of the reset limiting function is completed during the resettable period.

For example, the control unit 10 does not perform a reset during the reserved recording in the standby state, and the reserved recording is performed in either case of shifting to the standby state while holding the reset request or when the reset request is generated in the standby state. The reset of the CAS module 15 is executed after the end of.

Further, when the reset of the CAS module 15 may hinder the execution of the reset limiting function, for example, when the execution time of the reset limiting function is reached during the reset of the CAS module 15, the control unit 10 suspends the execution of the reset of the CAS module 15 and instructs the CAS module 15 to reset after the possibility of hindering the execution of the reset limiting function disappears.

For example, when the recording start time of the recording reservation is set after a relatively short time after the transition to the standby state, the reserved recording may be hindered by the reset of the CAS module 15. The control unit 10 resets the CAS module 15 after the recording of the recording reservation is completed.

Next, the operation of the embodiment configured in this way will be described with reference to FIG. FIG. 2 is a flowchart for explaining the operation of the embodiment.

The advanced wideband broadcast signal received via the antenna 21 is supplied to the tuner unit Tu. Each tuner Tu selects a channel based on the user's channel selection operation and outputs a broadcast signal to the signal processing unit 3.

The signal processing unit 3 demodulates the input broadcast signal to obtain a TLV stream. The signal processing unit 3 extracts video and audio from the TLV stream, and also extracts various messages including ECM and EMM. The ECM and EMM are supplied to the CAS module 15 via the control unit 10. The CAS module 15 decodes the EMM with the master key Km and acquires the work key Kw. The CAS module 15 acquires the scramble key Ks from the ECM by using the acquired work key Kw. The scrambled keys Ks are supplied to the signal processing unit 3 via the control unit 10. The signal processing unit 3 performs descramble processing on the program to be limitedly received by using the scramble key Ks from the control unit 10.

The signal processing unit 3 performs decoding processing on the extracted video and audio of each broadcasting system, and then performs predetermined signal processing to obtain video data and audio data. The video data is given to the video processing unit 6 after the images to be superimposed are combined in the graphic processing unit 4, and the audio data is given to the audio processing unit 7.

The video processing unit 6 converts the input video signal into a format that can be displayed by the video display unit 8 and outputs the video signal to the video display unit 8. The audio processing unit 7 converts the digital audio data from the signal processing unit 3 into an analog audio signal that can be reproduced by the speaker 9, and then outputs the digital audio data to the speaker 9 to reproduce the audio. In this way, the program can be viewed on the display screen of the video display unit 8.

When the user specifies the recording of the program, the control unit 10 gives the video and audio descrambled by the signal processing unit 3 to the HDD 24 via the USB I / F17 for recording. At the time of reproduction, the program recorded in the HDD 24 is read out by the control unit 10 and supplied to the signal processing unit 3. In this way, the recorded program is reproduced by the signal processing unit 3 and displayed on the video display unit 8, and can be viewed by the user.

The control unit 10 determines whether or not the reset request has been received in step S1 of FIG. 2, and is in the reception standby state of the reset request. Now, it is assumed that the CAS module 15 outputs a reset request to the control unit 10 for reasons such as a firmware version upgrade. When the control unit 10 receives the reset request, the process shifts to step S2, the received reset request is held in, for example, the RAM 10b, and then in the next step S3, it is determined whether or not the resettable period is reached.

In the present embodiment, the resettable period is set to a predetermined period immediately after the power is turned on or a standby state period, and the control unit 10 shifts to these periods by turning the power switch on or off. judge. For example, it is assumed that the power switch is turned off by the user. Then, the control unit 10 detects the off operation of the power switch, sets the transition to the standby state, determines that the resettable period has been reached, and shifts the process to step S4. When the power switch is turned on by the user, the control unit 10 detects the power switch on operation, releases the standby state, sets the transition to the normal state, and turns on the power. It is determined that the resettable period is until the predetermined period elapses, and the process proceeds to step S4.

In step S4, the control unit 10 determines the execution state of the reset restriction function in the standby state or the reset restriction function executed at the time of transition from the standby state to the normal state. Then, based on this determination result, it is determined whether or not the reset of the CAS module 15 hinders the execution of the reset restriction function (step S5).

For example, when the state shifts to the standby state while holding the reset request and the scheduled recording is performed at the start of the standby state, the control unit 10 uses the CAS module 15 to execute the scheduled recording, and the CAS module 15 is used for CAS. It is determined that the resetting of the module 15 hinders the execution of scheduled recording. Further, for example, when the control unit 10 receives a reset request during standby, if scheduled recording is performed at the time of the reset request, the execution of the recording is hindered by the reset of the CAS module 15. judge.

Further, even if the reset limiting function is not executed during the resettable period, the control unit 10 resets the CAS module 15 when the execution of the reset limiting function may be restricted by the reset. It is determined that the implementation of the reset restriction function is hindered.

For example, when it takes a predetermined time (hereinafter referred to as a reset time) to reset the CAS module 15, the state shifts to the standby state while holding the reset request, and the scheduled recording starts within the reset time from the start of this standby state. If so, the control unit 10 determines that the execution of this scheduled recording is hindered by the reset of the CAS module 15.

When the control unit 10 determines in step S5 that the resetting of the CAS module 15 hinders the execution of the reset limiting function, the control unit 10 returns the process to step S3 and repeats steps S3 to S5. Further, when the control unit 10 determines in step S5 that the resetting of the CAS module 15 does not hinder the execution of the reset limiting function, the control unit 10 shifts the process to step S6 and instructs the CAS module 15 to reset. Is generated, and the reset request held in the RAM 10b in step S2 is cleared. As a result, the CAS module 15 resets. For example, in the standby state, when the scheduled recording using the CAS module 15 is completed, the CAS module 15 is not used, and the control unit 10 resets the CAS module 15 to the CAS module 15 during the non-use period of the CAS module 15.

As described above, in the present embodiment, even when a reset request is generated from the CAS module, the reset request is saved and the reset is suspended immediately after the power is turned on and until the standby state, which is the resettable period. Then, when the resettable period is reached, it is determined whether or not the function executed during standby or the like is restricted by the reset, and the reset is performed only when the restriction is not applied. As a result, it is possible to prevent the desired function from being unable to be performed due to the reset of the CAS module. For example, it is possible to prevent the CAS module from being reset and recording becoming impossible during scheduled recording such as during standby. Further, after the desired function is executed, the held reset can be performed, and the reset can be performed without hindering the execution of the function to ensure the stability of the CAS module.
(Second Embodiment)
FIG. 3 is a flowchart showing an operation flow adopted in the second embodiment of the present invention. In FIG. 3, the same procedure as in FIG. 2 is designated by the same reference numerals and the description thereof will be omitted. The hardware configuration in this embodiment is the same as in FIG. In this embodiment, it is premised that the IC card 23 of FIG. 1 is equipped with a B-CAS card compatible with terrestrial digital broadcasting, BS broadcasting, and CS broadcasting. That is, the CAS module 15 performs limited reception processing for advanced broadband broadcast programs, and the B-CAS card performs limited reception processing for terrestrial digital broadcast, BS broadcast, and CS broadcast programs.

In the first embodiment, it is determined that the reset of the CAS module 15 impedes the reset limiting function during the resettable period, and the execution of the reset is controlled. However, when the limited reception process is performed by the B-CAS card mounted on the card holder 14 not only during the resettable period but also during normal operation, the B-CAS card is used even if the CAS module 15 is reset. There is no particular problem because there is no effect on the limited reception processing. That is, when viewing or recording a program of terrestrial digital broadcasting, BS broadcasting, or CS broadcasting that performs limited reception processing using a B-CAS card, there is no particular problem even if the CAS module 15 is reset.

Therefore, in the present embodiment, the limited reception processing of the CAS module 15 is unnecessary during the non-use period and the resettable period of the CAS module 15 such as when the limited reception processing of the CAS module 15 is unnecessary during normal operation. During the period of use, the CAS module 15 is reset according to the reset request.

FIG. 3 is different from the operation flow of FIG. 2 in that the determination process of step S11 is added. After holding the reset request in step S2, the control unit 10 determines in step S11 whether or not the limited reception process by the CAS module 15 is necessary. When the control unit 10 determines in step S11 that the limited reception process by the CAS module 15 is unnecessary, the control unit 10 shifts the process to step S6 and resets the CAS module 15. When the control unit 10 determines in step S11 that the CAS module 15 requires the limited reception process, the control unit 10 shifts the process to step S3 and performs reset control similar to that of the first embodiment.

For example, if the program being viewed at the time of the reset request is subjected to the limited reception process by the B-CAS card, the control unit 10 issues a reset instruction to the CAS module 15 immediately after the reset request. Further, for example, in the case of shifting to the standby state while holding the reset request, if the reserved recording at the time of shifting to the standby state is a program for which limited reception is performed by the B-CAS card, the control unit 10 may perform the control unit 10. Immediately after the transition to the standby state, the CAS module 15 is reset.

As described above, in the present embodiment, when the limited reception processing by the CAS module is unnecessary, the reset is performed according to the reset request, and the CAS module is reset at a timing earlier than that of the first embodiment. It is possible to establish the stability of the CAS module in a short period of time.
(Third Embodiment)
FIG. 4 is a flowchart showing an operation flow adopted in the third embodiment of the present invention. In FIG. 4, the same procedure as in FIG. 2 is designated by the same reference numeral, and the description thereof will be omitted. The hardware configuration in this embodiment is the same as in FIG. Further, also in this embodiment, it is premised that a CAS card (hereinafter referred to as a B-CAS card) corresponding to terrestrial digital broadcasting, BS broadcasting, and CS broadcasting is installed as the IC card 23 in FIG. As described above, when the program to be viewed or recorded is a program subject to the limited reception processing by the B-CAS card, there is no problem even if the CAS module 15 is reset during the viewing or recording. Therefore, in the present embodiment, when a reset request is generated from the CAS module 15, the channel selection is forcibly switched to the program subject to the limited reception processing by the B-CAS card.

FIG. 4 is different from the operation flow of FIG. 2 in that steps S21 to S24 are added. After holding the reset request in step S2, the control unit 10 determines in step S21 whether or not the B-CAS card is installed. When the B-CAS card is not installed, the CAS module 15 also performs the limited reception process for the current broadcast, and the control unit 10 shifts the process to step S3 and first Reset control is performed in the same manner as in the embodiment of.

When the B-CAS card is installed, the control unit 10 shifts the process from step S21 to step S22 and forces the selected channel to the program of terrestrial digital broadcasting, BS broadcasting or CS broadcasting. To change. Then, in the next step S23, the control unit 10 gives a reset instruction to the CAS module 15, and the CAS module 15 executes the reset.

When the reset of the CAS module 15 is completed, the control unit 10 returns the channel selection channel changed in step S22 to the original channel in the next step S24, and ends the process.

For example, if the program being viewed at the time of the reset request is the program subject to the limited reception processing by the CAS module 15, the control unit 10 selects the program subject to the limited reception processing by the B-CAS card. , Perform reset processing.

As described above, in the present embodiment, when the B-CAS card is installed, when a reset request occurs, the channel selection channel is forcibly changed to a program in which the B-CAS card performs limited reception processing. After that, the reset is executed, and the reset process can be performed without affecting the viewing or recording of the program being selected. As a result, the reset process may be performed at an earlier timing than that of the first embodiment, and the stability of the CAS module can be established in a short period of time.

The present invention is not limited to the above-described embodiment, and can be variously modified at the implementation stage without departing from the gist thereof. In addition, the above-described embodiment includes inventions at various stages, and various inventions can be extracted by an appropriate combination in a plurality of disclosed constituent requirements. For example, even if some constituent requirements are deleted from all the constituent requirements shown in the embodiment, the problem described in the column of the problem to be solved by the invention can be solved, and the effect described in the column of effect of the invention can be solved. If is obtained, a configuration in which this configuration requirement is deleted can be extracted as an invention.

1 ... Broadcast receiver, 2a ... Input terminal, 2b-2d ... Terminal, 3 ... Signal processing unit, 4 ... Graphic processing unit, 5 ... OSD signal generation unit, 6 ... Video processing unit, 7 ... Audio processing unit, 8 ... Video display unit, 9 ... speaker, 10 ... control unit, 10a ... ROM, 10b ... RAM, 10c ... non-volatile memory, 11 ... operation unit, 12 ... receiver, 13 ... card I / F, 14 ... card holder, 15 ... CAS module, 16 ... Communication I / F, 17 ... USBI / F, 18 ... HDMII / F, 21 ... Antenna, 22 ... Remote controller, 23 ... IC card, 24 ... HDD, Tu ... Tuner section, Tu ... Tuner.

Claims (6)

With a tuner that receives advanced broadband broadcasting,
A CAS module for performing limited reception processing of the high-bandwidth broadcast program received by the tuner, and
When a reset request is received from the CAS module , a first determination is made to determine whether or not the period is a predetermined period immediately after the power is turned on or a standby state, and the predetermined period immediately after the power is turned on or the standby is determined by the first determination. When it is shown that it is a period of the state, a second determination for determining the non-use period of the CAS module is performed, and the CAS module is reset in the non-use period based on the second determination. A broadcast receiver equipped with a control unit for resetting. Wherein, during the standby state, the period of downloading the download content, the implementation period of the EMM acquisition function, by channel search other than the at least one period of the acquisition period and the reception processing period of the emergency warning broadcast EPG information The broadcast receiving device according to claim 1, wherein the CAS module is reset by setting the period as the unused period. Wherein, the broadcast receiving apparatus according to the period of non-use, in claim 2 to be set to a period other than the recording period of the reserved recording. With a tuner that receives advanced broadband broadcasting,
A CAS module for performing limited reception processing of the high-bandwidth broadcast program received by the tuner, and
When a reset request is received from the CAS module, it is provided with a control unit that determines the non-use period of the CAS module and resets the CAS module during the non-use period of the CAS module based on the determination result .
Wherein the control unit, the non-use period, during normal operation, when reception of the program is not a limited reception of the subject, or terrestrial digital broadcast, reception release to set upon receipt of the target program of limiting reception by BS broadcasting or CS broadcasting Device. The fourth aspect of claim 4, wherein when the control unit receives the reset request, the tuner controls the tuner to receive a broadcast program by terrestrial digital broadcasting, BS broadcasting, or CS broadcasting, and then resets the CAS module. Broadcast receiver. The tuner receives an advanced wideband broadcast,
The CAS module performs limited reception processing of the high-bandwidth broadcast program received by the tuner.
When the control unit receives the reset request from the CAS module, it makes a first determination to determine whether or not it is a predetermined period immediately after the power is turned on or a standby state period, and the first determination determines immediately after the power is turned on. When it is shown that it is a predetermined period or a standby state period, a second determination for determining the non-use period of the CAS module is performed, and the CAS module is determined in the non-use period based on the second determination. Broadcast reception method to reset.

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