CN103220575A

CN103220575A - Transmitting and receiving method and apparatus for digital television broadcasting data

Info

Publication number: CN103220575A
Application number: CN2013101002052A
Authority: CN
Inventors: 朴晟一
Original assignee: Samsung Electronics Co Ltd
Current assignee: Samsung Electronics Co Ltd
Priority date: 2007-03-19
Filing date: 2008-03-04
Publication date: 2013-07-24
Also published as: KR20100123806A; CA2678408A1; KR101309286B1; KR101235861B1; KR20100123804A; FI124797B; DE112008000458T5; KR101366247B1; KR20100123807A; MX2009009064A; CN103152612A; FI20090328A; CN101663889A; KR20100123805A; CN101663889B; CA2678408C; KR20080085628A; KR101309285B1; KR101373017B1; BRPI0807752A2

Abstract

The invention provides a transmitting and receiving method and apparatus for digital television broadcasting data. Provided are an apparatus and method for reducing power consumption by selectively turning off frame receiving while undesired service is transmitted. The method includes generating a service frame group including all service frames and designating the frame number for service frames so that a radio frequency (RF) receiving unit operates while receiving the service frames corresponding to a desired service and the power of the RF receiving unit is turned off while the service frames corresponding to an undesired service are transmitted, thereby saving power. In addition, the power of the RF device is continuously turned off during various frames so that the RF device can rest for a longer period of time and thus power saving efficiency is excellent.

Description

The method of sending and receiving of digital television broadcasting data and equipment thereof

The application is to be that March 4, application number in 2008 are 200880009010.4, are entitled as the dividing an application of patent application of " method of sending and receiving of digital television broadcasting data and equipment thereof " applying date.

The application requires to be submitted on March 19th, 2007 the 60/907th of United States Patent and Trademark Office, No. 064 U.S. Provisional Patent Application and the priority that was submitted to the 10-2007-0051586 korean patent application of Korea S Department of Intellectual Property on May 28th, 2007, described disclosing all is contained in this for reference.

Technical field

Equipment consistent with the present invention and method relate to a kind of digital television broadcasting, more particularly, relate to a kind of by the optionally digital television broadcasting that cuts down the consumption of energy of closure frame receiving equipment when the service of not expecting is sent out.

Background technology

According to old pattern, watch television broadcasting from fixing position.Yet this pattern changes, that is, user's random time anywhere watches television broadcasting.In order to adapt to the change that spectators watch the mode of television broadcasting, standard and the terminal that is suitable for mobile environment attempted to make by businessman and manufacturer.

Should design described standard and terminal by considering specific mobile environment.That is to say that portable terminal provides service by using limited battery resource to the user.Therefore, when providing service, should provide service for using minimum battery resource with described standard and Terminal Design according to rule.

Summary of the invention

Technical problem

In order to reduce the energy consumption of terminal, need when being transmitted, the unselected service of user close the technology of the electric power of radio frequency (RF) device.

Technical scheme

The invention provides a kind of computer readable recording medium storing program for performing that method and apparatus by sending digital television broadcasting data and a kind of record thereon are used to carry out the computer program of the method that sends digital television broadcasting data that is used for, described method and apparatus when the service that the user does not expect is sent out optionally the closure frame receiving equipment cut down the consumption of energy.

The present invention also provides a kind of computer readable recording medium storing program for performing of computer program that method and apparatus by receiving digital broadcast data and a kind of record thereon are used to carry out the method for receiving digital television broadcast that is used for, described method and apparatus when the service that the user does not expect is sent out optionally the closure frame receiving equipment cut down the consumption of energy.

Beneficial effect

At the method and apparatus that is used for according to an exemplary embodiment of the present invention sending the method and apparatus of digital television broadcasting data and being used for the receiving digital television broadcast data, generation comprises the service frame group of all service frame and specifies the frame label that is used for each service frame, thereby radio frequency (RF) receiving element operation in the corresponding service frame of the service that receives Yu expect, the electric power of RF receiving element is closed when being sent out with the corresponding service frame of the service of not expecting, thereby saves electric power.In addition, in a plurality of image durations, the electric power of RF device is by continuous closing, but makes RF device rest long period of time, thereby electric power is saved the efficient brilliance.Therefore, terminal can be operated long period of time.

Description of drawings

The detailed description to exemplary embodiment of carrying out in conjunction with the drawings, above-mentioned and other parts of the present invention will become apparent, wherein:

Fig. 1 is the diagrammatic sketch of Advanced Television Systems Committee (ATSC) channel system of prior art;

Fig. 2 is the block diagram of improved according to an exemplary embodiment of the present invention ATSC channel system;

Fig. 3 is the diagrammatic sketch of service frame group according to an exemplary embodiment of the present invention;

Fig. 4 is the block diagram that sends the equipment of digital television broadcasting data according to an exemplary embodiment of the present invention;

Fig. 5 is the block diagram of the equipment of receiving digital television broadcast data according to an exemplary embodiment of the present invention;

Fig. 6 is the block diagram of equipment of the transmission digital television broadcasting data of another exemplary embodiment according to the present invention;

Fig. 7 is the block diagram of equipment of the receiving digital television broadcast data of another exemplary embodiment according to the present invention;

Fig. 8 is the flow chart of method of the receiving digital television broadcast data of another exemplary embodiment according to the present invention;

Fig. 9 is the diagrammatic sketch of the protocol stack of senior residual sideband (A-VSB) system;

Figure 10 illustrates the example that the method that will send data according to an exemplary embodiment of the present invention is applied to the A-VSB system of Fig. 9;

Figure 11 is the diagrammatic sketch of the form of SIC according to an exemplary embodiment of the present invention;

Figure 12 illustrates in greater detail the form of the SIC of Figure 11 according to an exemplary embodiment of the present invention;

Figure 13 illustrates the content of frame_group_information according to an exemplary embodiment of the present invention;

Figure 14 illustrates version_indicator_information according to an exemplary embodiment of the present invention;

Figure 15 illustrates additional_service_information according to an exemplary embodiment of the present invention; And

Figure 16 illustrates turbo_channel_information according to an exemplary embodiment of the present invention.

Optimal mode

According to an aspect of the present invention, a kind of method that sends digital television broadcasting data is provided, described method comprises: to being included in each service generation in the channel or distributing at least one service frame, at least one service frame designated frame label described generation or that distribute; Generation comprises all service frame groups of the service frame of designated frame label, and sends the service frame group.

In the step of designated frame label, can be to first service frame designated frame label 1 in the service frame group, and the frame label is increased by 1 for next service frame.

The step that produces the service frame group can comprise: the service frame group is produced service configuration information, described service configuration information is added at least one service frame generation or that distribute, and wherein said service configuration information indicates which service of each service frame and channel corresponding.

According to a further aspect of the invention, provide a kind of equipment that sends digital television broadcasting data, described equipment comprises: the service frame generation unit, to being included in each service generation in the channel or distributing at least one service frame; Frame label determining unit is at least one service frame designated frame label described generation or that distribute; Service frame group generation unit, generation comprises all service frame groups of the service frame of designated frame label, and transmitting element, sends the service frame group.

According to a further aspect of the invention, a kind of method of receiving digital television broadcast data is provided, described method comprises: the service configuration information of Analysis Service frame group, determine frame label with corresponding at least one service frame of service of expectation based on the service configuration information of analyzing, receive at least one service frame in the service frame from be included in the service frame group with described definite frame label, and the electric power of when the service frame that does not have described definite frame label is sent out, closing radio frequency (RF) device that receives service frame.

In the frame label of service frame, can be to first service frame designated frame label 1 in the service frame group, and the frame label is increased by 1 for next service frame.

Described service configuration information can indicate which service of each service frame and channel corresponding.

The step of closing the electric power of RF device can comprise: determine in the service frame from be included in the service frame group and the service of the expectation quantity of corresponding service frame not, multiply each other time of the electric power of determining to close the RF device by quantity the length of single service frame and the service frame of determining, and from the corresponding service frame of service of expectation receive last service frame and close the electric power of RF device at described definite time durations.

According to a further aspect in the invention, a kind of equipment of receiving digital television broadcast data is provided, described equipment comprises: service configuration information interpretation unit, analysis is used for the service configuration information of service frame group, determines frame label with corresponding at least one service frame of service of expectation based on the service configuration information of analyzing; Radio frequency (RF) receiving element, receive service frame in the service frame from be included in the service frame group with described definite frame label, and the RF power control unit, when being sent out, the service frame that does not have described definite frame label closes the electric power of RF receiving element.

Described RF power control unit can comprise: the shut-in time determining unit, determine in the service frame from be included in the service frame group and the service of the expectation quantity of corresponding service frame not, multiply each other time of the electric power of determining to close the RF receiving element by quantity with the length of single service frame and described service frame; And the shut-in time timer unit, from the corresponding service frame of service of expectation receive last service frame and close the electric power of RF receiving element at described definite time durations.

Embodiment

Below, with reference to the accompanying drawing that exemplary embodiment of the present invention is shown the present invention is described more fully.

Fig. 1 is the diagrammatic sketch of Advanced Television Systems Committee (ATSC) channel system of prior art.ATSC is will be as advanced television (ATV) method of the terrestrial television of future generation of the U.S. and the committee that sets up in order to develop.The ATSC channel system is the technical standard of the digital terrestrial television method of future generation of the U.S..

With reference to Fig. 1, channel 1(CH1,10) and channel 2(CH2,12) in frame 14, replace.That is to say that the data of these channels are launched in radio frequency (RF) frame.Therefore, the electric power of the RF device that can't optionally control for the special services that provides by channel.

Fig. 2 is the block diagram of improved according to an exemplary embodiment of the present invention ATSC channel system.

With reference to Fig. 2, in system according to an exemplary embodiment of the present invention,, 20 and 24) and channel 2(CH2,22) be divided into each frame that to be sent out with channel 1(CH1.Among Fig. 2, come transmitting channel 1(CH1,20 and 24 by using frame 30 and 34), come transmitting channel 2(CH2,22 by using frame 32).Therefore, if corresponding from the service of the expectation of receiving equipment with channel 1, then not received frame 32(and channel 2 corresponding frames), thereby the energy consumption of RF device can be reduced.

Fig. 3 is the diagrammatic sketch of service frame group according to an exemplary embodiment of the present invention.

In current exemplary embodiment, can use such service frame group to reduce the energy consumption of receiving equipment.

Among Fig. 3, comprise three services (service 1 is to service 3) in the channel.

In the method that sends digital television broadcasting data according to an exemplary embodiment of the present invention, produce the service frame group 50 that comprises the service that all will be sent out.Each service is corresponding with at least one RF frame 54.Serve corresponding RF frame with each and be known as service frame.

Among Fig. 3, as shown in service configuration 52, service is 1 corresponding with service frame 1 to 4, serves 2 correspondingly with service frame 5 to 8, and serves 3 corresponding to 12 with service frame 9.

Fig. 3 illustrates from receiving terminal and receives service 1.

According to the receiving equipment operation cycle 60, receiving equipment can receive and serve 1 corresponding service frame 1 to 4.Therefore, when service frame 5 to 12 sends, close receiving equipment.In this exemplary embodiment, close the RF device that is included in the receiving equipment.

After sending service frame 1 to 12, send next service frame group.When transmission is included in service frame 1 in the new service frame group, electric power is offered the RF device of receiving equipment, thereby can receive service frame.Therefore, thus the shut-in time that pre-determines the RF device during the shut-in time of determining, close the electric power of RF device.

In order to pre-determine the time of closing the RF device, service configuration information is produced and is sent to receiving equipment from dispensing device.Service that the indication of service configuration information provides and the corresponding information between the service frame.In other words, it is corresponding that service configuration information is indicated which service of each service frame and channel.Use service configuration information, receiving terminal knows that service 1 and service frame 1 in all service frame are corresponding to 4.Because all service frame comprise service frame 1 to 12, so service frame 5 to 12 is corresponding with the time of closing the RF device.Therefore, can determine to close the time of RF device by the equation 1 shown in following.According to circumstances, the shut-in time can reduce α.That is to say, if when thereby there is error in the clock inaccuracy that need receive time of RF stream or terminal when the RF device, may be early than the operation of predetermined shut-in time.Such time is called α.

[equation 1]

The RF device the shut-in time=length-α of (be included in the quantity of all service frame in the service frame group-with the quantity of the corresponding service frame of service of expectation) single frame of *

Fig. 4 is the block diagram that sends the equipment of digital television broadcasting data according to an exemplary embodiment of the present invention.

With reference to Fig. 4, the equipment 400 that sends digital television broadcasting data comprises service frame generation unit 410, frame label determining unit 420, service frame group generation unit 430 and transmitting element 450.

Each service that 410 pairs of service frame generation units are included in the channel produces at least one service frame.

The service frame of 420 pairs of generations of frame label determining unit is determined the frame label.

Service frame group generation unit 430 produces the service frame group that comprises all service frame that produced by service frame generation unit 410.Service frame group generation unit 430 can comprise that also generation will be added to the service configuration information generation unit 440 of the service configuration information on each service frame.Each service frame that the indication of service configuration information is included in the service frame group is corresponding with which service in the channel.

Transmitting element 450 sends the service frame group.

As example, first service frame in 420 pairs of service frame groups of frame label determining unit is determined frame label 1, and by frame label increase by 1 being determined the label of next service frame.

Fig. 5 is the block diagram of the equipment of receiving digital television broadcast data according to an exemplary embodiment of the present invention.

With reference to Fig. 5, the equipment 500 of receiving digital television broadcast data comprises service configuration information interpretation unit 510, RF receiving element 520 and RF power control unit 530.

Service configuration information interpretation unit 510 explains that the service configuration information that is used for the service frame group also obtains and the frame label of corresponding at least one service frame of service of expectation.

RF receiving element 520 receives has the service frame with frame label that service configuration information interpretation unit 510 obtains, and described service frame is included in the service frame in the service frame group.

When the service frame of the frame label that does not have 510 acquisitions of service configuration information interpretation unit was sent out, RF power control unit 530 was closed the electric power of RF receiving element 520.Therefore, the corresponding service frame of service that does not receive Yu do not expect can reduce the power consumption of RF receiving element 520.

Among Fig. 5, RF power control unit 530 comprises shut-in time computing unit 540 and shut-in time timer units 550.

The service that obtains in the service frame that shut-in time computing unit 540 obtains from be included in the service frame group and wish is the quantity of corresponding service frame not, the length of single frame and the quantity of described service frame are multiplied each other, and the time of calculating the electric power of closing RF receiving element 520.The above-mentioned time is identical with the time of closing the RF device that equation 1 provides.

Shut-in time timer units 550 receives from service frame and the corresponding last service frame of the service of expectation, and closes the electric power of RF receiving element 520 at the time durations of being determined by shut-in time computing unit 540 of closing the RF device.Therefore, after all service frame are received accordingly with the service of expecting, close the electric power of RF receiving element 520, through the time that obtains according to equation 1, and then the electric power of unlatching RF receiving element 520, thereby the corresponding service frame of service that receives and expect.

Fig. 6 is the block diagram of equipment of the transmission digital television broadcasting data of another exemplary embodiment according to the present invention.

With reference to Fig. 6, the equipment that sends digital television broadcasting data comprises Service Part 100-1 and 100-2, packing device 110-1 and 110-2, multiplexer 120-1 and 120-2, frame generator 130, reflector 140 and frame burst information inserter 150.

Service Part 100-1 produces the basic stream (ES) of forming each service.For example, if service is the A/V service, then parts and acoustic component/video components are corresponding.

Packing device 110-1 forms bag with each ES.For example, ES is formed transport stream (TS) bag.

Multiplexer 120-1 carries out multiplexing to each bag.Under the situation of TS, each bag is fabricated to a TS.

Frame generator 130 produces frame based on the bag that is re-used that receives.Under the situation of ATSC standard, carry out interleaving treatment in order to produce final frame.

The frame that reflector 140 uses the RF emission to produce.

The information that frame burst information inserter 150 will be used for the frame burst is inserted into bag.For example, the information that is used for the frame burst is the information that comprises the frame label information and be used for the form of frame burst.

Fig. 7 is the block diagram of equipment of the receiving digital television broadcast data of another exemplary embodiment according to the present invention.

With reference to Fig. 7, the equipment of receiving digital television broadcast data comprises that RF receiving equipment 200, frame skip device 210, demodulation multiplexer 220, bale breaker 230, service processor 240, system information processor 250 and control device 260.

RF receiving equipment 200 receives the RF data.

Frame is skipped device 210 and is skipped and the corresponding frame of the unselected service of user.

The data of demodulation multiplexer 220 received frames also are divided into each bag stream with data.

Bale breaker 230 sends to available decoder according to the header packet information analysis package and with data.

Service processor 240 is in the EF decoder, provides available service by the data that receive from bale breaker 230 are decoded to the user.In the exemplary embodiment, service processor 240 is ES decoders.

System information processor 250 receiving system information also send to control device 260 with described information.The example of system information comprises frame burst information etc.

Thereby control device 260 received frame burst information skipped frame or control RF device were not operated in a period of time of determining.

Fig. 8 is the flow chart of method of the receiving digital television broadcast data of another exemplary embodiment according to the present invention.

Among Fig. 8, the not shown processing of carrying out by the RF terminal.But processing that receives the RF frame and the receiving equipment that produces available bag data are shown.

At first, receive data among the operation S100, determine whether comprise service configuration information in the described data among the operation S110.If there is no the data of service configuration information of Jie Shouing and reception are not service configuration information, then receive data up to receiving service configuration information.

If comprise service configuration information in the data that receive, then in operation S120, determine whether be updated compared to the described information of service configuration information that exists.If service configuration information is updated, thereby then only reflect the information that needs at operation S130 Analysis Service configuration information.

Be identified as service frame and definite frame label among the operation S140, determine among the operation S150 whether service frame is corresponding with the service of expectation.

If service frame comprises the service of expectation, then in operation S160, export service data.Among the operation S170, whether the service of determining is finished order and is existed, and repeats above-mentioned processing up to determining to exist service to finish order.

If service frame does not comprise the service of expectation, then skip service frame at operation S180, and at specific a period of time inoperation RF device.

In order to finish aforesaid operations, S190 closes the electric power of RF device and timer is set in operation.The time of timer setting is the shut-in time according to equation 1.

Whether the identification timer arrives the time of setting among the operation S200.If timer also the time that is provided with that do not arrive, then in operation S210, allow past time up to arriving the time that is provided with.

When timer arrives the time that is provided with, open the electric power of RF device and repeat above-mentioned processing.

Fig. 9 is the diagrammatic sketch of the protocol stack of senior residual sideband (A-VSB) system.The A-VSB system supports auxiliary reference system (SRS) and turbo to use.SRS300 comprises and sends the training sequence of the receptivity of the increased terminal that is called equalizer 302.

Turbo uses 310 the channel that can send additional data is provided.

The special data area storage Turbo of the adaptation field (AF) 325 in ATSC standard TS320 uses 310 data.Use 310 information (shown in arrow 340) about SRS300 and turbo by pattern information 332 transmissions among synchronous (DFS) 330 of data field.In the ATSC transmit frame, there are two DFS330.Pattern information is known as the information that sends by DFS330.

The part that sends the turbo application is divided into signaling information channel (SIC) 312 and data channel 314.Each data channel 314 is divided into subchannel.Provide information by SIC312 about subchannel.

Figure 10 illustrates the example that the method that will send data according to an exemplary embodiment of the present invention is applied to the A-VSB system of Fig. 9.

With reference to Figure 10, each A-VSB frame 70 is corresponding with service frame, SIC and service configuration information and corresponding with the frame of the corresponding burst of service.

With reference to the example of Figure 10, the content 80 of signaling information channel (SIC) will be described now.

The frame label of respective frame is 25.Indicate the quantity of all frames by the frame label that uses the last frame in the service frame group, the quantity of described all frames is 42.

Channel comprises two services.Service has 1/2 encoding rate.Here, the numbering of start frame is 1, and the length of all frames is 21.Therefore, the service frame of frame label 1 to 21 is corresponding with first service.

Other services have 1/4 encoding rate.Here, the label of start frame is 22, and the length of all frames is 21.Therefore, the service frame of frame label 22 to 42 is corresponding with second service.

Figure 11 is the diagrammatic sketch of the form of SIC according to an exemplary embodiment of the present invention.

With reference to Figure 11, SIC comprises sign and the Cyclic Redundancy Check that version pointer information, frame group information, turbo channel information, additional service information, filling, the above-mentioned information of indication exist according to an exemplary embodiment of the present invention.

Figure 12 illustrates in greater detail the form of Figure 11.

ServiceConfigurationInformaiont(SCI) be the minimum unit that is included among the SIC.Only comprise a SCI among the SIC in frame.

During each sign is provided with, there are turbo_channel_information_flag, additional_service_information_flag and padding_flad_flag.

There is turbo_channel_information () in the turbo_channel_information_flag indication.

There is additional_service_information () in the additional_service_information_flag indication.

There is the fill area in the padding_flag indication.

With reference to Figure 13 Frame_group_information is described more fully after a while.

With reference to Figure 14 version_indicator_information is described more fully after a while.

With reference to Figure 16 Turbo_channel_information () is described more fully after a while.

With reference to Figure 15 AdditionalServiceDescriptor is described more fully after a while.

CRC illustrates the error-detecting method of SCI.

Figure 13 illustrates the content of Frame_group_information.

Current_frame_number indication current service frame label.

The total_frame_number indication is included in the entire quantity of all service frame in the service frame group.

Because A-VSB is a single-carrier system, so the basic configuration unit of RF frame as the service of the burst transfer that provides support is provided.Form the RF frame by continuous row.Therefore, can not use the service assignment method in the frame, and the RF frame should be divided into divide into groups.Frame grouping is that the continuous row with the RF frame is divided into the method that can divide into groups.

The example of frame grouping can comprise: start frame sign and end frame sign are made up (method 1), comprise start frame sign and length information (method 2) and designated frame label (method 3).

In the

method

1 and 2, when receiving intermediate frame, the frame alignment that can't know reception in all frame groups where.In addition, when the size of frame group is changed, be difficult to detect.Can use the method 3 that does not have the problems referred to above.

The beginning of frame label 1 designated frame group.In addition, when arriving maximum frame label, label reassigned be frame label 1.This is called finish (wrap up).

Can change the size of frame group and the length of each service frame by the signaling procedure in the system.If there is the change of the size of frame group, the time point that the service then can adjusted is repeated.For example, if be 10 in the size of the frame group of the time point in when beginning service, then the time point of first service frame that begins from any service to the time point of first service frame of the corresponding service of beginning of next service frame group, need 10 frames.Yet if system information is updated, thereby the size of frame group becomes 20, from the time point of first service frame of the beginning of corresponding service to next time point that is received first service frame of the corresponding service of service frame group, need 20 frames.

Similarly, if there is the variation of the length of service frame, the time point that the service then can adjusted is repeated.The change of the length of service frame can influence the length of service frame group.Yet,, can not change the length of current service frame according to the method for the length that reduces other service frame.

Therefore, may command is closed the part of the electric power of RF device.

Figure 14 illustrates version_indicator_information.

Version_indicator_information comprises the information that whether is updated about service configuration information and indicates and when upgrade with the information that is done.

The unit of resolution_flag indication frame counter.

For example, if the value of resolution_flag is 1, then frame counter is 20 frame units, if the value of resolution_flag is 0, then frame counter is 1 frame unit.

Frame_counter indicates the renewal of 1 frame unit or 20 frame units with the time point that is done.Accurate unit changes according to the value of resolution_flag.

Each when service configuration information is updated with version added value 1.

Figure 15 illustrates additional_service_information.

Additional_service_information is used to send the additional information on services except the channel descriptor.

Additional_service_information can be divided into various.

Current_index represents the index of the current block of descriptor.

Last_index represents the index of the last piece of descriptor.

Length represents the length of current block.

User_data represents real data of description.

Figure 16 illustrates turbo_channel_information.

Turbo_channel_information represents when the turbo application data being divided into the various configuration informations of each channel during with the channel that is sent out.

Version represents the version of turbo channel information, and the value of version increases progressively by 1.

Turbo_channel_number represents the quantity of whole turbo channels.

Turbo_channel_ID is the information of dividing each turbo channel.

Turbo_fragment_bits is shown index value with the lengths table of turbo channel.

Coding_rates represents the encoding rate of turbo channel.

The service whether the SD_VFG_flag notice is used in the turbo channel in the variable frame group of SD_VFG(is divided).When SD_VFG_flag is set, use SD_VFG.

SD_VFG is to be the frame unit of any amount and the technology that sends data with the turbo channel distribution, that is, the method by the exemplary embodiment of the present suggestion sends data.

Turbo_channel_index represents the order of turbo channel.

Current_frame_number represents the quantity of the start frame of corresponding service.

Frame_block_number represents to form the quantity of the frame of respective service.

As mentioned above, in exemplary embodiment of the present invention, do not consider whether can in frame, form service independently, but the system of electric power of the RF device of On/Off user terminal also can be provided.Therefore, the operation of comparable terminal longer time of the prior art is according to terminal of the present invention.In addition, thereby but close continuously electric power RF device rest long period of time of RF device in a plurality of image durations, so electric power is saved the efficient brilliance.

Exemplary embodiment of the present also can be implemented as the computer-readable code in the computer readable recording medium storing program for performing.Described computer readable recording medium storing program for performing comprises the arbitrary data storage device that can store by the data of computer system reads.The example of computer readable recording medium storing program for performing comprises read-only memory (ROM), random-access memory (ram), CD-ROM, tape, floppy disk and optical data storage device.

Though show particularly and described the present invention with reference to exemplary embodiment, but it should be understood by one skilled in the art that, under the situation of the spirit and scope of the present invention that not disengaging scope is defined by the claims, can carry out various changes on form and the details to it.

Claims

1. one kind is divided at least one turbo channel and in described at least one channel each is divided into the method that at least one service frame sends broadcast data by the broadcast data that broadcast service will be provided, and described method comprises:

To each generation in described at least one broadcast service or distribute described at least one service frame;

Service configuration information to the corresponding broadcast service of each generation indication in described at least one service frame; And

Send service frame and service configuration information.

2. the method for claim 1 also comprises:

Generation comprises a plurality of service frame groups of described at least one service frame,

Wherein, in the precalculated position of a plurality of service frame groups, place and the corresponding service frame of same services.

3. method as claimed in claim 2, wherein, the step of described generation service frame group comprises:

To described at least one service frame designated frame label.

4. method as claimed in claim 2, wherein, service configuration information comprise about with described at least one service in the frame label of each corresponding first service frame and the service frame group in described at least one service in the information of quantity of each corresponding service frame.

5. the method for claim 1, wherein in the step of described transmission, service configuration information is added to described at least one service frame and is sent out.

6. the method for claim 1, wherein service configuration information also comprises the identifier that is used to discern from the turbo channel of described at least one service frame transmission.

7. the method for claim 1, wherein service configuration information comprises the encoding rate information of the coding mode of indicating described at least one service frame.

8. one kind is divided at least one turbo channel and in described at least one channel each is divided into the equipment that at least one service frame sends broadcast data by the broadcast data that broadcast service will be provided, and described equipment comprises:

The service frame generation unit is to each generation in described at least one broadcast service or distribute described at least one service frame;

Service configuration information generation unit is to the service configuration information of the corresponding broadcast service of each generation indication in described at least one service frame; And

Transmitting element sends service frame and service configuration information.

9. equipment as claimed in claim 8 also comprises the group generation unit, produces a plurality of service frame groups that comprise described at least one service frame, wherein, in the precalculated position of a plurality of service frame groups, places and the corresponding service frame of same services.

10. equipment as claimed in claim 9, wherein, the group generation unit is to described at least one service frame designated frame label.

11. equipment as claimed in claim 9, wherein, service configuration information comprise about with described at least one service in the frame label of each corresponding first service frame and the service frame group in described at least one service in the information of quantity of each corresponding service frame.

12. equipment as claimed in claim 8, wherein, transmitting element sends service configuration information by service configuration information being added to described at least one service frame.

13. equipment as claimed in claim 8, wherein, service configuration information also comprises the identifier that is used to discern from the turbo channel of described at least one service frame transmission.

14. equipment as claimed in claim 8, wherein, service configuration information comprises the encoding rate information of the coding mode of indicating described at least one service frame.