JPH10503628A - System and method for transmitting and using television schedule information - Google Patents

Abstract

(57) [Summary] The television schedule information transmission and utilization system (50A to 50D) is a computer (54) which converts TV signals from various television program providers (51) into packets via video blanking interval (VBI) lines. ) Send a network control message related to the TV schedule data given. This data is received by the regional data processing system and sent from the regional data processing system to the subscriber unit (52) for use in constructing an internal database. This internal database is accessible at the subscriber unit (52) and is adapted to display the TV schedule for the channels received on the user's television.

Description

DETAILED DESCRIPTION OF THE INVENTION           System and method for transmitting and using television schedule informationField of the invention   The present invention generally broadcasts, receives and uses television schedule information. Related systems and methods. More specifically, the present invention provides that For example, during the vertical blanking interval (VBI) of a television broadcast, the broadcast The schedule of the rear or cable system television program is edited from the broadcast The schedule is then displayed on the user's television and used interactively. Such systems and methods. As used herein, the term "broadcast" Used in a broad sense to include transmission modes such as cable and telephone transmission.Description of the prior art   Provide interactive TV program schedule system using broadcast schedule information It is known to For example, such a scheduling system may Commonly assigned Young U.S. Pat. No. 4,706,1 issued Nov. 10, 2007 No. 21, and US Patent Application No. 08 / 198,538 to Young et al. I have.   In such a configuration of the schedule system, the broadcast schedule Receive information and edit user broadcast area or cable system schedule Display the schedule on the user's television and interact with the user User equipment can be offered at a sufficiently low price for mass sale, but limited Only a limited amount of memory and data processing capacity is provided. This memory and data The processing restrictions are described in Harlenbeck, US Pat. 38,211. Solution proposed by Harlenbeck The rule is to divide the schedule information into prioritized categories and How much can be used for higher classifications and as many lower priority classifications as possible Is stored in the memory. A serious problem with this solution is the schedule Schedule when there are many programs on the schedule and the need for a lot of information is great. Only a small amount of information about the programs in the file. Therefore, the consumer In light of memory and processor limitations of electronic devices. Further development is required.   Schedule information is transmitted as part of the program broadcast signal and is When the unit collects schedule information from its program broadcast signal, A potential problem arises when the transmitted program is recorded on the VCR and played. public The known subscriber unit retrieves the video signal generated from the recorded program from the broadcast. Lack of ability to distinguish video signals received in real time. As a result, Knits use the latest program schedule information collected from real-time broadcasts to view It overwrites old program schedule information coming from videotape.   Suggestions for transmitting television schedule information along with television broadcast signals are Like one or more lines in a vertical blanking interval (VBI) of a broadcast signal Very low bandwidth transmission modes are often used. Such low bandwidth transmission modes The use of codes requires careful formatting and management of transmissions to avoid practical problems Means that you have to plan. For example, schedule updates When you should send a new, unless you have a special configuration for such updates, The worst transmission delay before the update is received and enters the user's subscriber unit is It can reach 5 hours, which uses a single line of VBI for schedule information One week full schedule transmission time for NTSC television broadcast signals It is. Finally, if there is a slight schedule change, such delays will I can't.   Data encryption in case of broadcast television schedule system based on contract Is important. Without encrypting the data, pirated users can pay The scheduler can collect and use the schedule information. All scales Conventional solutions for encrypting Joule information transmission are not suitable for subscriber units. Requires a faster and more expensive microprocessor.   When implementing a TV schedule system on a national or international basis, different A construct must be created for the time zone. The process that sends the schedule Adjusting schedule times for different time zones in the Add considerable overhead to data transmission. The need for such adjustments in transmission It is desirable to eliminate the need.   In the operation of the TV schedule system, different parts of the system System that gives schedule information embedded in different places of the television signal It is desirable to eliminate the need to impose uniformity throughout. Because of this, schedule It is necessary for the recipient of the information to provide a way to identify it in the television signal Become.   In operation of the broadcast television schedule system, depending on the subscriber unit Available microprocessor processing when collecting new schedule information A significant portion of the time is spent. Old schedule information is deleted and new When schedule information is collected, new information such as the program title A substantial part is the information that already exists in the stored schedule information or the old schedule. It overlaps with the information to be deleted together with the Joule information. Of new schedule information Avoiding the deletion of information that forms part of the process involves collecting new schedule information. To help minimize the amount of processor time allocated to   Consumer electronics have a number of memory constraints, so you can only use available memory. Efficient memory to give subscriber units as much information and functionality as possible It is necessary to use it.Summary of the Invention   Therefore, an object of the present invention is to provide a low-cost microcomputer in a subscriber data processing system. Interactive television program schedule that can be implemented in microprocessor and memory System and method.   Another object of the present invention is to provide a low cost suitable for use in mass produced consumer products. Search for a subset of TV program schedule data with a microprocessor Interactive to send and store TV program schedule data for execution It is to provide a television program schedule system and method.   Yet another object of the present invention is to transmit television program schedule information in an efficient manner. To provide a system and method.   Yet another object of the present invention is to provide television program schedule information in a subscriber data system. It is an object of the present invention to provide a system and method for collecting data more efficiently.   Yet another object of the present invention is to provide a fast scheduler for accepting schedule updates. A system and method is provided that allows module updates to be performed on low bandwidth transmission systems. Is to provide.   Still another object of the present invention is to provide information on schedule currently being broadcast and recorded information. System that can be distinguished from old schedule information included with broadcasts And a method.   Still another object of the present invention is to provide a system for giving priority processing to schedule update information. Systems and methods.   Yet another object of the present invention is to provide a system for selectively encrypting schedule information transmission. To provide systems and methods.   Yet another object of the present invention is to provide a single system in the schedule information transmission portion of the system. System that uses system time and compensates for local time at the subscriber unit. Systems and methods.   Still another object of the present invention is to provide a schedule provided at different positions of a television broadcast signal. To provide a system and method by which subscriber information can be identified by a subscriber unit It is.   Yet another object of the present invention is to provide a new Retain the schedule information part that overlaps with the schedule information part. So that it is not necessary for the subscriber unit to collect the System and method.   It is yet another object of the present invention to use the available memory most efficiently. It is to provide a system and method that uses data compression in a particular way.   The above objectives and related objectives are directed at the novel television schedules disclosed below. This is achieved by using a system and method for transmitting and utilizing information. One In view of the above, the television schedule information transmission and use system according to the present invention comprises: It has a central data processing system. Schedule for a given territory The means for providing information data to the central data processing system is a central data processing system. Connected to the system. The central data processing system is responsible for scheduling for a given territory. Format the Joule information data into a predetermined schedule information transmission format Means. Schedule information data for a given territory The means for transmitting data in a predetermined schedule information transmission format is central data. Data processing system. Multiple territories, each located in a given territory The area data processing system provides schedule information data for a given territory. And a region where each of the plurality of region data processing systems is arranged. Means for selecting schedule information data for the Means for transmitting file information data. Each area has multiple subscriber data There is a management system. Each of the plurality of subscriber data processing systems has a Means for receiving at least a portion of the schedule information data, and a subscriber data processing system. Means for storing schedule information data received by the system, and subscriber data. A part of the schedule information data received by the data processing system Means for assembling for display to a user of the user data processing system; Connected to the means for assembling the schedule information data And a display for displaying the portion.   In another aspect of the invention, the television schedule information transmission system includes a predetermined A predetermined telecommunication device having means for transmitting television schedule data to the territory; Central data processing system for territories and subscriber data for a given territory And a processing system. This system is designed for each territory area It is improved to have a plurality of regional data processing systems arranged. These multiple Each of the regional data processing systems provides schedule information for a given territory. Means for receiving report data, and each of the plurality of area data processing systems is arranged. Means for selecting schedule information data for a specified area, and a schedule for the area. Send schedule information data to multiple subscriber data processing systems in each area Means.   As still another improvement of the TV schedule transmission system, the above-mentioned area data The schedule information data for the area in each of the data processing systems Means for generating schedule information data for the area at different positions of the television transmission signal; Have the ability to send. Each of the subscriber data processing systems has schedule information Means for searching for data in the television broadcast signal.   In yet another aspect of the invention, a method of a system for transmitting television schedule information. Stores schedule information data for a given territory in the territory area. Transmitting to a plurality of regional data processing systems located in each case. Of each area The schedule information data is selected by the area data processing system. Of each area The schedule information data is stored in the area data processing system by a plurality of processes in each area. Sent to the entrant data processing system. Received by each subscriber data processing system The portion of the schedule information data taken is used by each subscriber data processing system user. Assembled to display to the user. This part of the schedule information data Displayed to the user.   The method of the present invention further provides that at least some of the plurality of regional data processing systems Send schedule information data in different parts of TV broadcast signal Including Each of the plurality of subscriber data processing systems is a television broadcast signal. Search for schedule information data.   In yet another aspect of the present invention, a television schedule information transmission system comprises: Predetermined means for transmitting television schedule data for a given territory Central data processing system for a given territory, and And a number of subscriber data processing systems. This system is used for TV schedule Means for transmitting module data as commands to the central processing data system It is improved by providing. The above command is used for multiple subscriber data in the system. Assemble and display instructions for the data processing system and television schedule Used by these commands in multiple subscriber data processing systems. And TV schedule information in a basic format.   In yet another aspect of the invention, a method of a system for transmitting television schedule information. Sends commands from a central data processing system to multiple subscriber data processing systems. Including sending. This command is applied to multiple subscriber data processing systems in the system. Instructions for the system and multiples to assemble and display the TV schedule Television used by these commands in several subscriber data processing systems Schedule information. Television schedules contain multiple subscriber data Assembled from television schedule information in each of the processing systems. Tele Bi-schedule is displayed to each user of multiple subscriber data processing systems You.   In yet another aspect of the present invention, a television schedule information transmission system comprises: Predetermined means for transmitting television schedule data for a given territory Central data processing system for a given territory, and And a number of subscriber data processing systems. This system is scheduled A predetermined character string consisting of a part of information is stored in a plurality of subscriber data processing systems. The central data processing system is provided with means for transmitting to the system. Multiple The means in each of the subscriber data processing systems of the To determine whether the data was collected by the subscriber data system. Multiple modules The means in each of the entrant data processing systems is such that a predetermined character string is Store it in the subscriber data system if not already collected.   In yet another aspect of the invention, a method of a system for transmitting television schedule information. Converts a predetermined character string consisting of a part of schedule information into a system Transmitting to a plurality of subscriber data processing systems within the same. Predetermined character Determine if string was collected by a particular subscriber data processing system Is done. If not already collected, the given character string is added. Stored in the entrant data processing system.   In yet another aspect of the invention, a television schedule information transmission system includes a direct Equipped with direct broadcasting satellite. Central data processing systems provide direct broadcast satellite It has means for transmitting the Levi schedule data directly to the broadcasting satellite. Subscriber data The processing system directly broadcasts TV schedule data to satellites. Means for receiving from stars. This system is a multi-region data processing system Are arranged in the area of a given territory. Multiple area data Data processing system, schedule information data for a given territory Having means for receiving. Area where each of the multiple area data processing systems is located Means are provided for selecting schedule information data for the area. Against the area Send schedule information data to multiple subscriber data processing systems in each area Means are provided.   In yet another aspect of the present invention, a method of a television schedule transmission system comprises: To transmit TV schedule data for direct broadcasting satellites directly to broadcasting satellites including. TV schedule data for direct broadcasting satellites is processed by subscriber data Received directly from the broadcast satellite in the system. Schedule for a given territory Joule information data is stored in the area data processing system located in the area of the predetermined territory. Received at the stem. For the area where the area data processing system is located The schedule information data is selected in the area data processor. In the area The corresponding schedule information data is transmitted to the subscriber data processing system.   In yet another aspect of the invention, a television schedule information transmission system includes a A central data processing system having means for transmitting Levi schedule data ing. The subscriber data processing system is transmitted by the central data processing system Means for receiving at least some of the television schedule data. this The system efficiently stores database items consisting of TV schedule information Improved by providing a subscriber data processing system that includes memory for You. Each data item has a handle as an index into the handle table Which identifies the memory location corresponding to the handle. This is the database Source items can be moved from one memory location to another for waste collection. To do. This is also the database memory that occurs as data age and is discarded To recover holes and connect them to large useful memory blocks. You. This "freely" trades expensive memory microcontroller cycles. To   In yet another aspect of the invention, a method of a system for transmitting television schedule information. Transmitting the television schedule data. TV schedule day At least some of the data items are database items consisting of television schedule information; And received at the subscriber data processing system. Each of the data items With dollars. The handle is a handle table that identifies the corresponding memory location. Used as an index into the bull.   In yet another aspect of the present invention, a television schedule information transmission system comprises: With a central data processing system for certain territories, which TV schedules for a given territory, including updated TV schedule data And means for transmitting the joule data. A given territory may have multiple There is an incoming data processing system. Each of the multiple subscriber data processing systems Levi schedule data receiver and for storing TV schedule data And memory. The memory is connected to the receiver. This system is compatible with other TVs To update TV schedule data already sent for schedule data Means for designating transmission priorities for central data processing systems It is improved by this.   In yet another aspect of the invention, a method of a system for transmitting television schedule information. Updates the TV schedule information transmitted first and the schedule transmitted first. Relative priority for sending TV schedule information to and from the Joule information Including establishing positions. Television schedule information is based on this relative priority. Sent based on At least some of the transmitted TV schedule information Received at the subscriber data processing system.   In yet another aspect of the present invention, a television schedule information transmission system comprises: Predetermined means for transmitting television schedule data for a given territory Central data processing system for a given territory, and And a number of subscriber data processing systems. Multiple subscriber data processing systems Each of the programs includes a receiver for television schedule data. TV schedule A memory for storing the rule data is connected to the receiver. This system is Received TV schedule data to other transmitted TV schedule data The central data processing system should include means for identifying More improved. The means of the subscriber data processing system are TV schedule data received by the TV It is determined whether or not it has a time identification that is later than the time identification of the schedule data.   In yet another aspect of the present invention, a method of a television schedule transmission system comprises: Transmitted TV schedule data to other transmitted TV schedule data Including transmitting TV schedule data to identify No. The transmitted TV schedule data is received by the subscriber data processing system Is done. The TV schedule data is stored in the memory of the subscriber data processing system. Remembered. The TV schedule data is then used by other TV schedule data Data, including the identification by time for the data. TV scale supplied afterwards The identification of the Joule data by time is based on the TV schedule data stored in the memory. Data is compared with the time identification. The stored TV schedule data is The time-based identification of subsequently supplied television schedule data is stored. If later than the time identification of the TV schedule data, Exchanged with the TV schedule data. TV schedule data stored The data is then identified by time in its stored TV schedule data, Note if the TV schedule data supplied to the Is maintained.   In yet another aspect of the present invention, a television schedule information transmission system comprises: Predetermined means for transmitting television schedule data for a given territory Central data processing system for a given territory, and And a number of subscriber data processing systems. Multiple subscriber data processing systems Each of the programs includes a receiver for television schedule data. TV schedule A memory for storing the rule data is connected to the receiver. This system is By subscriber data processing system to assemble and display Levi schedule Steps to encrypt selected parts of required TV schedule data It is improved by including the steps in a central data processing system. Subscriber data processing Management system means encrypts the selected portion of the television schedule data I do.   In yet another aspect of the present invention, a method of a television schedule transmission system comprises: TV schedule day required to assemble TV schedule for display Selectively encrypting a portion of the data. Televisions with encrypted parts Schedule data is transmitted. The TV schedule data is stored in the subscriber data Received at the physical system. Encrypted part of TV schedule data Is decrypted. TV schedule data including the part decrypted here The data is used to compose a television schedule for display.   In yet another aspect of the present invention, a television schedule information transmission system comprises: Predetermined means for transmitting television schedule data for a given territory Central data processing system for a given territory, and And a number of subscriber data processing systems. Multiple subscriber data processing systems Each of the programs includes a receiver for television schedule data. TV schedule A memory for storing the rule data is connected to the receiver. This system is Centralize real-time clock to establish a single system time for communication system It is improved by including it in the data processing system. TV schedule day The means for transmitting data includes means for transmitting a single system time. The receiver is simply Means for transmitting a system time. Memory is saved from a single system time. With the values stored to calculate the real time of the local.   In yet another aspect of the present invention, a method of a television schedule transmission system comprises: Including establishing a single system time associated with real time. Single cis The system time is sent to the subscriber data processing system. Table with a single system time The transmitted television schedule data is transmitted to the subscriber data processing system. single The value to calculate local real-time from one system time is Sent to the data processing system. This value is used to calculate the scale expressed in a single system time. Local time for the TV schedule is calculated from the Joule data.   In yet another aspect of the present invention, a television schedule information transmission system comprises: Predetermined means for transmitting television schedule data for a given territory Central data processing system for a given territory, and And a number of subscriber data processing systems. Multiple subscriber data processing systems Each of the programs includes a receiver for television schedule data. TV schedule A memory for storing the rule data is connected to the receiver. This system is Levi schedule data is combined with daily show list on TV schedule Having means for transmitting television schedule data configured to transmit And is improved by Subscriber data processing system can change from current time to future time To maintain the show list as a rolling window consisting of multiple days extending to It is composed of   In yet another aspect of the invention, a method of a system for transmitting television schedule information. Provides TV schedule information, daily show listings on TV schedule Includes sending as The show list moves from the current time to a future time It is maintained as a rolling window consisting of a number of extending days.   In yet another aspect of the present invention, a television schedule information transmission system comprises: Predetermined means for transmitting television schedule data for a given territory Central data processing system for a given territory, and And a number of subscriber data processing systems. Multiple subscriber data processing systems Each of the programs includes a receiver for television schedule data. TV schedule A memory for storing the rule data is connected to the receiver. This system is Subscriber data processing to store Levi schedule data in memory in compressed form It is improved by configuring the system. Data processing system read-only The memory stores fixed text for the system. This fixed text is It is stored in read-only memory in a compressed form.   In yet another aspect of the invention, a method of a system for transmitting television schedule information. Requires that television schedule data be stored in compressed form in system memory. Including. The system's fixed text is also stored in compressed form in read-only memory. You.   The above objects of the present invention and the objects, effects and characteristics related thereto are described with reference to the accompanying drawings. The following detailed description in light of the above will become readily apparent to those skilled in the art.BRIEF DESCRIPTION OF THE FIGURES   1 to 5 show a system for transmitting and using television schedule information according to the present invention. It is a block diagram of.   FIGS. 6 to 25 show the message formats used in the system of FIGS. FIG.   26 to 60 show data structures and flow charts used in the system of FIGS. FIG. 3 is a diagram showing a chart and a display format. Detailed description of the invention   The accompanying drawings, particularly FIGS. 1-4, show the television schedule information transmission and utilization system. 10A and 50B show a system 50A-50D. The systems 50A-50D provide for video cancellation in TV signals. Various television program providers (providers) ) 51 (eg, PBS, MTV, or showtime) Data and related network control messages as packets. This day Data is obtained by the StarSight subscriber unit 52 and Used to configure the database. This internal database contains the user Subscriber user to view the TV schedule for the channel on which his TV is receiving The knit 52 can be accessed.   Access to the network systems 50A-50D is via a reservation service. Therefore, some messages are protected by a security computer to prevent access by non-subscribers. Data 53. Essentially, the present invention does not U.S. Patent Nos. 4,531,020 and 4,531,021 Are preferred.   Packets are used to detect error detection information and system Includes overhead bytes. The information embedded in the packet is Sage. A message consists of one or more commands. various There are various types of commands, and each type is distinguished by a unique code number. Commands include TV schedule database, time marker, and user approval information. It contains the different types of information needed to compose and maintain the information.   Systems 50A-50D transfer specially formatted data throughout the United States. This is a data network for sending to the subscriber 52 located. This data is Subscribers see their television program listings on their TV screens Construct "on-screen program guide" so that it can be viewed in a conversational manner Used to Information for this network can be found on the UNIX computer 5 4 derived from a database configured by a computer program running on It is. To configure this database, use the Show List File A program listing file called an ist file) is provided to the computer 54. It requires a data supplier (DP) 56 to supply.   Television program schedule data is provided by 56 sales companies. Generated in a simple compatible format. Supplied to Which television programs are released at which times and on which channels The information specifying whether to be projected is encoded. This information is available for 10 days. It is received and processed on all channels nationwide. Anything on TV schedule If there are any changes, they will be made as soon as they are available and on demand. Sent as soon as possible. Below are the special information and fields contained in the file Will be described.   The show list file can be a standard TCP / IP program, FTP, or Use DP's Ethernet and other protocols, using other agreed upon file transfer protocol standards. Computer 54 through a router connected to the digital lease line Electronically transferred to the file system. These files are Due to the huge amount of data, the UNIX file system in the computer 54 Compress using a mutually agreed upon data compression algorithm that is compatible with Can be requested. The operating speed of the lease line 58 is Will be sufficient to transfer the files in a reasonable amount of time.   File is for files completed by 0800 PST (Pacific Standard Time) Is transferred to the computer 54 every day (7 days a week). This daily file transfer Home directory corresponding to the login name used to perform the file transfer Let's go into the bird.   "Main" file download to computer 54 always takes 12 days Things. That is, if today is 10 days, today's data download  For those starting at 0000 GMT (Greenwich Mean Time) on the 22nd.   Data files are sent daily, so program lists that have already been transferred Certain mechanisms must be in place to allow updating No. This is accomplished via an "update" file. The "update" file is The last "update" file (data for any data that is still "activity") Changes), including a record of all changes made since then. "Activity" data Starts on today's date and continues for 11 days (i.e., from today, Everything up to and including the date covered by today's "Main" file Is not defined).   The last minute schedule change will be “Foot” within 5 minutes after any change entry. You need a "flash update" that supplies a "rush update" file and these files The file "trays" across the lease line 58 to the computer 54 throughout the day. "Kuru".   The TV schedule information is processed by the computer 54 and the master data Inserted into the base. During this process, redundant information is removed. For example, if " "Ira Blue Sea Show" aired more than once during the 10 days of schedule information Then, the character string for the title of the show is stored only once in the master database. Is stored in For each channel and day, which shows are released at which times during the day Information for specifying whether the image has been projected is stored. Although not necessary, each show It can include a show title and a show description.   The purpose of the master database is to store all TV schedule data Is stored in a relational database in a standardized way to access. The data is organized in a manner that makes data retrieval efficient.   Television viewers will see a set of television E signal is received. Cable television providers are required to Assign channels to specific channels. All cable companies have their own channel Have a patch. All geographical locations can be received locally. It has a single set of broadcast channels. A subscriber unit is associated with that subscriber. Program channel resources to provide subscribers with TV schedule data You must have a Sting and its channel assignment.   Each set of unique channel assignments is assigned to a "reception group." Each " Is associated with the area name, reception group type (cable, Broadcast, satellite), mail where this set of program channels can be received A set of numbers (zip codes), a list of received program channels, and these Channel assignment for the program channel of FIG.   The “receiving group” and the program channel information are called “lineup”. " "Lineup" information includes information on the commercial companies, subscribers, cable companies, It comes from many sources, such as the analysis of the transmission channel transmission coverage.   "Line-up" information obtained from a single source is not considered accurate . Using a variety of processes to align data from multiple sources, Obtain a database. Once the master database is created, other databases All "line-up" data is compared. When the fix is confirmed, the master Changes to the database are made. One "lineup" is replaced by another "line" The primary key for binding to "up" is that the zip code for those "lineups" Make sure they are the same. After checking the zip code, the channel assignment Are compared by telephone calls to cable companies or subscribers in that area, It is confirmed.   TV schedule data and “Reception group” data in master database The computer program processes this data when entered into the Emits a data stream suitable for transmission over a network. This de The data is compressed and is ideal for "station nodes" and subscribers 52. It is organized as follows. The specific format of the output data stream is described below I do.   Output data streams are grouped and ordered by data type. ing. Due to the method used within the subscriber unit, the data is It is appropriate to order them in the beginning. 1. Security key   Access to that data, a subscription that is authorized to receive that data A security key is needed to restrict the security to only Part of the data stream Encrypts using the industry standard "Data Encryption Standard" security key algorithm Have been. To continue to approve all desired subscriber units and change keys , A series of messages containing the current and future security keys are sent. Subscriber Yu The initial set of knit cryptographic keys acknowledges that the unit will begin collecting data. Acknowledgment sent in a network message. These keys in this approval message The key is encrypted with one key unique to each subscriber unit. 2. Most TV programs are categorized by theme category and sub-category. It is. The master database indicates that the TV program is in a particular genre. Each category contains a set of attributes, indicating whether or not the attribute is valid. Unique genre attributes Each unique combination is assigned a unique theme identification. Each show has a set of A theme identification is assigned based on the channel attribute. Each in the theme data block A table is sent that assigns a text description to the theme identification. 3. Daylight saving time change   A date specifying the time when daylight saving time begins and the time when it ends is transmitted. Daylight saving time A message specifying the exact time to start and the exact time to end Sent repeatedly on the network. The subscriber unit 52 receives this message. Adjust local time to compensate for daylight saving time effects. 4. Receive group data   “Reception group data” is the required channel for all unique “Reception groups”. Includes flannel lineup data. This data is stored in the area ID (for the receiving group Relevant unique number), area type (broadcast, cable, satellite), channel ID (specific Unique number associated with that channel) and the tuned channel number (receive that channel). Channel to which the TV must be tuned to communicate). Which specific module The entrant unit 52 is also assigned a “receiving group” during the approval process. Addition The subscriber unit processes only the data for the "receiving group" that approved it. You. All other "receive group" data is ignored by that subscriber unit. It is. 5. Channel data   Each channel reference in any receive group has its associated channel data Data command. The channel data command is Information about the channel, ie the original channel number (if it is a broadcast channel, Channel to tune to that channel), station call letter, net Including work affiliation (ABC, NBC, CBS) and abbreviation of the channel name I have. Data for any particular channel is sent only once per data cycle Be trusted. 6. Show list data   Show list data contains a list of TV programs and the duration of a particular channel. Includes hours and days. Command is channel ID, start of first program Includes time, a list of subsequent programs, and their duration. Each show Includes a show ID and an optional description ID. Show ID and description ID Each is a unique number associated with the show title or descriptive text. You. Each show is whether it is a pay per view program It also includes a flag that indicates 7. Show title data   All unique show title references in the show list will have an associated " "Show title" command. The “Show Title” command is C), a “theme ID”, and a show title text. Each unique A unique “show title” is included only once in the data stream, Can be used multiple times by The text in the show title is , Has been compressed using Huffman compression technology. 8. Show description data   All unique show description references in the show list are associated "Description" command. The “show description” command is “show description ID” , MPAA ratings, critic ratings, and show description text. Each German A special "show description" is included only once in the data stream and is 52 can be used multiple times. The text in the show description is Huff It is compressed using Mann compression technology. 9. Station node data message   Each PBS station node receives a block of data, which Will be resent from the application node. Serviced by that station node Only the data requested by the subscriber units in the area to be Sent to the node. For example, a station node in San Francisco Cable systems and TVs received by subscribers in the Francisco area Only receive data about the station. Los Angeles data from San It is not received by the Francisco station node.   The purpose of the security software for the Star Site system is Star Site To provide conditional access to a data stream. Some data is dark Has been encoded. Access to the schedule data is provided by the subscriber unit 52. Is conditional because you must know the encryption key of Approved Only those units can receive the encryption key.   Conditional access systems include three levels of encryption. Each unit Has an RSA public / private key pair at the top. Next, up to 256 units Batches share a DES key called a batch key. At the bottom, Program guidance is provided by a DES key (program) shared by all approved units. (Called a key). Program keys that change regularly Since the batch key is distributed under the RSA key and the batch key is distributed under the RSA key, 3 A hierarchy of levels will be obtained.   Either at the factory or in a later message, as follows: Various keys are distributed. * The RSA private key and a consistent number identifying the unit are Is programmed. Starsite keeps a copy of the corresponding RSA public key . * The batch key is an authorization message encrypted with the unit's RSA public key. Distributed within the sage. The acknowledgment message is the batch number, the unit in that batch. User number, Service Type field, and current and next program key. Give to the knit. The approval message is typically a star site and its fields First interaction with the unit in the, but to reassign the batch You can send it at any time. The key distribution message counts the number of units in the batch Therefore, it also indicates whether a certain unit is still approved.   Two security system functions to process authorization and key distribution messages belongs to. The third function is to transfer the encrypted text to one of the program keys. And decrypt it using Text is cipher block chaining ( cipher block chaining (CBC) mode.   Program keys are changed regularly and distributed using key distribution messages . If subscribers are deauthorized, they will not receive a new key distribution message, Therefore, the TV schedule data cannot be decrypted.   The subscriber unit 52 receives and processes TV program schedule data. , And a microprocessor-based system designed to display It is a system. The subscriber unit 52 hardware includes a microprocessor, a lead Only memory, random access memory, security coprocessor, IR brass (Blaster) coprocessor, on-screen display coprocessor, and power management Including circuits. These components are combined by software and are Gram guidance "system. 1. Operating system execution   As described below, a microprocessor has many tasks to perform. ing. Each task must be serviced in real time, but not necessarily There is no need to complete the slice. To perform this function, "Round Robbie "Run" is used. The main loop calls each individual task sequentially. Called The specified task performs its limited function based on its current state. this These tasks must complete all tasks or subtasks within a predetermined time. Is required. In this way, all tasks are limited to their limited tasks Have the opportunity to be executed within a certain time. The last task performs its function and finishes. In other words, the first task is executed again. 2. Memory management   Television program data is dynamic and constantly changing. Shourisu The title, show title, and description are of variable length and change from day to day. For this reason A memory management system that can dynamically allocate and recover data blocks It is deployed. Memory is divided into equally sized allocated blocks. You. A set of memory blocks is called a pool. Memory block in pool A handle table is created that references. Application software sub The routine creates an entry and one or more allocation units in the memory pool. Allocates memory by storing it in a handle table that references the You can guess. The memory resolves the memory reference in the handle table. Release it to release it.   Have contiguous blocks of memory that exceed the length of a single memory block in the pool Is a requirement of the application. This can be multiple if needed. This is done by allocating contiguous memory.   After many memory blocks are deallocated, the memory pool becomes fragmented. There should be many non-contiguous blocks of memory of various sizes U. One of the background tasks is to keep the memory pool from fragmenting. Assigned To move the allocated memory block to the lowest possible memory location . When a block of memory is moved, a reference to that memory is Change within the bull. As a result, application programs are still Has a reference to the lock. As each assigned unit moves, assign Any deallocated blocks between the blocks being allocated will collapse. So As a result, all deallocated memory is at the highest possible memory location, All blocks will be continuous. 3. VBI data processing   VBI data is decoded from the video stream and Processed by Stores data and backs up to assemble packets. FA is used. Comparators detect special sync character sequences used. As soon as these characters are detected, the buffer is reset and the packet is The headers are assembled. If the packet header has the correct cyclic redundancy check If (CRC) is detected, the rest of the packet is assembled. Complete When a packet is assembled, an additional CRC is calculated and its complete packet is calculated. Verify that the message was received without error. Once this is verified, the packet Separated, individual network messages are passed to the command processor You. 4. Command processor   The command processor checks that the encryption bit is set in the command header. Or not. If set, data goes to security module Passed. The security module then decrypts the data and sends the command Return to sa. The command processor determines the correct processing module based on the command function. Functions as a dispatcher that sends commands to the 5. Database processing   The database processor is responsible for storing all TV schedules and channel data. Responsible for delivery and retrieval. The database processor sends data from the command processor. Receive the data and store the data in the database. Application Pro A set of function calls is used to retrieve data about the gram. De The organization of the database is described below. 6. Security processing   The security processor performs two main functions: key management and data decryption. Have. Message containing the correct consistency number or batch number When received from the processor, the security processor receives the message and Is decrypted. In the case of an approval message, the data uses an RSA private key Decrypted. Batch numbers, batch keys, and other control information are decoded , Stored for future use. For key management messages, the data is The key is decrypted using the touch key and the information is stored for future use. Professional The gram key is encrypted and distributed under the batch key. 7. User interface   The user interface receives a remote control command as its main input. You The user requests various functions by pressing buttons on the remote control. The user interface receives these commands and responds with the requested display screen I do. Additionally, when recording begins, or when a unit attempts to collect data Display commands are generated asynchronously.   The application has more than 20 different and unique display screens. Each display The screen is associated with a particular state. Screen data and format Previous screen, time of day, database contents, and which remote control button was pressed Depends on what was done. A steady state is used to limit screen flow.   Entrance, exit, update, and key functions for all restricted screens There is an array of handling functions. The entrance function is the first time you enter a state Called, all necessary data is collected and format the screen. Exit machine The function is called when freeing memory and data for the screen. Update function every minute Called once to update the screen time, if any show ends or what Once any of the recordings have started or completed, they will be drawn again. When a certain state is reached, Is a reference to different software functions for each key on the remote control. Including These functions are performed when the associated remote control is pressed.   The user interface is synchronized with key presses or responds It also has an array of pop-up windows that appear on the screen and disappear from the screen. to manage. Each screen priority (i.e., several pop-ups More than 18 pop-ups to define which ones Category exists. These pop-ups may contain cursors, show descriptions, Message, solicitation message, or request for more information. Wear. Each pop-up category has its own, similar to the main screen state It has entry, exit, update and key handling routines.   In addition, the user interface allows the user to interact with the program guide Lock and unlock the database while you are Control the tuner from the guidance screen and search for themes in the database Schedule data from a data supplier channel at a predetermined time. Responsible for controlling the daemons that collect. 8. VCR record   The goal of the records manager is to maintain a list of record requests, and then Start recording on the channel. There are three types of user interfaces Records are limited, once, weekly, and daily. The user can see if he / she is currently watching Record the show you are playing or select a specific title from one of the guide screens Can be Users can record the program once, weekly or daily If it does, a feature on one of the guides (grid, channel, or theme) Move the cursor to the title and press the "Record" button.   When the user confirms the recording request, an entry is made in the recording queue. Record The queue contains an entry for each of these types of records. 5 for daily records Up to one individual entry is made in the work record queue. Weekly and once A single entry is made for this record. Work record queue at the start of the show It represents all the records made for next week, categorized by time.   The recording daemon calls from real-time execution to determine if it is time to start recording. Will be issued. The first entry in the work record queue is examined and the record is started. Is determined. If so, the software function is executed To start recording. When a recording starts, the recording daemon ends the recording Determine if it is time. When the stop time is reached, the software function is executed Stop recording.   Starting and stopping VCR recording can be done in several ways based on the configuration of the user's device. Done. If a cable converter is not used, the start of recording is as follows: The following operations are performed. 1. Turn on the VCR power supply. 2. Tune the VCR to the desired channel. 3. Set the VCR to the recording mode. If a cable converter is used, the following operations are performed. 1. Turn on the VCR power supply. 2. Tune the VCR to 2, 3 or 4 to the channel. 3. Tune the cable converter to the desired channel. 4. Set the VCR to the recording mode. 5. Currently tuned to which channel user interface software Tell   To stop recording, put the VCR in stop mode and then turn off the power. All of In some cases these commands are performed by sending infrared commands to the device. It is.   Another feature of the recording daemon is to look at weekly queues and daily recording requests, To generate a new entry in the queue. For example, if today is Monday The morning of the day and the entry of the daily record request for the afternoon program Then there are five entries in the work queue: Monday, Tuesday, Wednesday, Thursday and Friday. When the first record is completed on Monday afternoon, work The entry for Monday in the queue is deleted. The recording daemon is waiting for recording Examine the column and add a new entry for the next Monday in the work queue Discover that This entry is added to the chronological location in the work queue. Be added.   In addition, the daemon will maintain an appropriate start time if it changes to daylight savings on the way. You. That is, the demon adds one hour to the show start time in the fall and one hour in the spring To provide for daylight saving time applied to the user's area.   Records managers handle deletions separately or differently depending on the original type of record . 9. Display on screen   The on-screen display (OSD) is used for various display screens. It is used to display textual and graphical information that forms an image. Both Common interfaces are used to control various devices. Three saws Equipment, ITT TPU2740, ITT CCD 3005 and Zilog Z89300. You. The user interface draws text, draws punched rectangles, Defined to draw channel icons and set display attributes Has a set of functions. Make these comments the correct A set of software functions that translates to Noh is used.   Details of the subscriber unit 52 are shown in FIG. The following description is TV reception only (TV Receive Only: TVRO) to the subscriber unit 52 for the system (see FIG. 4) According to With the appropriate changes, the subscriber unit 52 can use the cable system used in the cable system. Bull Decoder Box. The subscriber unit is a television Built into VCRs or installed as a separate standalone unit Can be opened.   This description is based on the electronic hardware of the TV site “TVRO subscriber unit 52”. To the software. TVRO customers use home satella to watch television It is people who have home dishes. TVRO stands for "TV Receive Only: Indicates only TV reception). The TVRO subscriber unit 52 is a customer Customer relays to the TV satellite system of Star Site Electronic Program Guide Make it possible to receive services. The TVRO subscriber unit 52 is Complete self-holding, separation unit installed in-line with the customer's TVRO facility is there.   The subscriber unit receives baseband video from the customer's TVRO. Step The program guide display screen is fused with the customer video at the subscriber unit You. Customers have baseband video out or channel 3/4 RF out I have.   Subscriber unit has TV program schedule superimposed on TV screen Organize and display information in real time. The TV schedule information is Sent to one of the vertical blanking interval (VBI) lines It is. The subscriber unit stores this information locally on board memory. This information The subscriber presses a button on the remote control and the "grid guide" on the TV screen Is displayed in the shape of "".   The subscriber unit 52 comprises the following subsections. An expensive 8-bit microprocessor 100 ・ ROM101 of 64K byte code A 512K RAM 102 for storing program data ・ Customer gate array 103 ・ Segmented base registry for fast memory data manipulation TA 104 Security logic 106 for decoding incoming encrypted data A serial "I. M "bus 108 A serial "starsight" bus 110 (ISB) for internal processor communication ) Monitoring timer 112 for error recovery ・ IR input 113 ・ Infrared receiving circuit 114 An infrared transmission circuit 116 for TV and VCR control ・ IR output 117 CRC-32 encoding and decoding logic 118 Power supply 120 on board ・ Power down RAM data retention ・ Video input 123 ・ On-screen display control and homemat 124 A customer color converter 126 for overlay display ・ RF modulator 127 Select baseband video or RF output 128 or 130   The heart of the TVRO subscriber unit 52 is "8032, 8-bit microprocessor". This microprocessor is used for all sections of the subscriber unit. Control the operation. A short description of this processor is given for reference. Further details In detail, 8032 data from Intel or Signetics Please refer to the book.   The 8032 has an 8-bit data bus and a 16-bit address bus. The upper 8 bits of the address bus are always present and the lower 8 bits of the address bus are Time multiplexed with the data bus, and an external address latch demultiplexes this bus. Re-multiplexed (de-multiplexed). This latch is DBE12 00 is located inside the gate array 103. 8032 has two address spaces, That is, it has a “decode” space and a “data” space. Data space is further RAM memory It is divided into memory and I / O area.   "Decode" refers to all accesses to the program ROM. program The "decode" space is 64K bytes long and 8032 is the "read" All code access is “PSIN” (Progr. am Store ENable) line. The -WR and -RD lines are "code" Don't say during Seth. + ALE to demultiplex the address bus Used. The falling edge of + ALE wraps the lower 8 bits of the address. Touch. -PSEN asserts to initiate a ROM read. Current design Has an EPROM-CS line that is always connected to ground. This is EP Save the RO "OEACCESS" time to a defined space for ROM reading You. By today's standards, this microprocessor has very slow bus timing. This is possible through the use of expensive ROMs.   “Data” refers to all accesses to the external RAM 102. special Additional hardware requires the "data" area to extend beyond the 64K address limit Added to the TVRO subscriber. Via the "base register" sectioning And will be explained later. 8032-RD strobe reads RAM data Assert for capture, -WR strobe asserts for RAM data write Will be. PSEN does not assert during data access. RAM data access Can only be caused by the "MOVX" instruction. Other 8032 instructions Does not assert -RD or -WR. + ALE again locks the address. -RD or -WR asserts to start data transfer I do. The read data must be valid until immediately before invalidating -RD. The write data is valid for the entire time that -WR is asserted.   Along with the RAM data space, there is also a "64 KI / O space". This I / O space is Occupies the same first 64K segment as the data RAM. Which areas are asserted There is a signal called + DRAM_ENABLE used to determine   The I / O space is where the system control registers are located. Writing 18 There are a write register and thirteen read registers. These registers are Used to control various subsystems in the knit. clock Frequency selection, serial bus control, R. The status and control are set in this register. All are controlled by the set. There are other control registers located on the peripheral chip. You. 8032 uses two serial buses to communicate and Control the loop. “IM bus” 108 is a transaction processing unit (TPU 2740) three wire serial buses used to talk to 124 You. The TPU 2740 collects incoming VBI data and performs various star sight over -Format and display the ray screen.   The software serial bus 110 is connected to the secure microprocessor 106 and the IR bus. It is also used to talk to a raster chip (IR Blaster Chip) 116. this Is a two-wire bus with only one serial timing protocol.   The first 64K of 8032 address space has three separate overlapping functions Having. 1. If -PSEN is asserted, the decode ROM is accessed. 2. If + DRAM_ENABLE = logic "0", the I / O register Is accessed. 3. If + DRAM_ENABLE = logic "1", the first 64 K is accessed. The area of 64K or more is always RAM, and the total length is 512K bytes. Overview of 8032 signal   Table 1 summarizes the input and output signals of the 8032 microprocessor.                               Table I Base register description   The 8032 data address space is only 64K bytes long. But T VRO subscriber unit stores more than 64K bytes of TV program data Need to be "Read and write base register" is 80K 64K To access additional memory beyond the limit of   8032 is called “Data Pointer Registe (DPR)”. Use the internal 16-bit register to store the address of the external data location. Do. Base register (located in DBE 1200 gate array) is the actual RAM Add the 16 bit value added to the data pointer value to form the address Hold. The contents of the base register are such that the RAM address is 20 bits long So that it is shifted 4 bits to the left with respect to the data pointer. 20 bits Allows for a 1 megabyte total data RAM size. 8032 is 64K of any external RAM starting at the address written to the base register You can access chunks of bytes. (The base register is 4 8032 starts on an even 16 byte boundary as it is shifted left by bits Any 64K byte segment can be accessed. ) Memory bro There are two base registers so that the clock movement can be performed quickly. If DPTR The value changes for each read and changes again before the write while the block moves. If it had to be changed, it would be very slow and You. The dual base register reads the start address of the read (source) block. Write the start address of the write (destination) block to the base Allow writing to the base address. Writing to the same DPTR address The writing writes a software loop for subsequent reading. This It allows software to quickly block blocks of data anywhere in external RAM. Move around.   One facility may be added to quickly disable the base register. Can also be. The signal + ENABLE_BASE enhances the output of both base registers. All are set to 0. This is done without changing the contents of the base register. This feature provides a quick way to access the first 64K segments of RAM I do. Both RAM reads and writes go to the same location. Processor related data The first 64K segments (register image, software counter value, System parameters). The upper segment is TV program information Is used to store   Table II below shows how the DPTR forms a 20-bit RAM address. Trying to show how it is added to the base register.   Note: Base register shifted 4 bits to the left with respect to the address bus Base Reg. 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 +8032 Addr. 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 = 20 bit Addr. 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0   + DRAM_EN must be 1 to access the external memory area.                               Table II As an example:   The read base register is set to 0001Hex.   The write base register is set to 1080 Hex.   The data pointer (DPTR) is set to 382A Hex. (Note: 20 bits!) (Note: 20 bits!)   + DRAM_EN must be 0 to access the I / O area. Data RAM description   As described above, the data RAM 102 stores TV program guide information. This RAM is currently available in three sizes, 128K, 256K or 512K bytes Available. The data RAM uses a “PSRAM” chip. “PS” is Ps Represents eudo Static. PSRAM is a static RAM pin. This is a standard DRAM packaged out of the package. Spare logic is DRAM Refresh is added to simplify. These PSRAMs also have 3 It also has the feature of holding down power-down data that operates with the voltage lowered.   This product has four modes of PSRAM operation. They are,   1. Sequence up mode   2. Normal data transfer mode   3. Sequence down mode   4. Power down data retention mode It is.   These two parts have some different pinouts and some different ways Works with Circuits are added to compensate for these differences. Which chip Must be set by software depending on whether the loop is used 1 There is a bit call + 512KRAM.   PSRAMs perform "sequence up" after power-on, and Perform “sequence down” before. PSRAM operation (sequence up operation)   After the initial power-up, the PSRAMs are ready for all reads and writes. Before it can be done, it must be "sequenced up." “Sequence up Is somewhat different for 128K and 512K parts. When the PSRAMs are in the power down data holding mode, the logic of the SPRAMs Added to ensure that clock and timing specifications are maintained. Shi If stem power is lost, a large key is needed to power up the PSRAMs. There are facilities that use capacitors or batteries. When power is off, PS Some PSRAM inputs are kept in a known logic state to keep RAM data Must be done. In addition, if these pins are brought to a known logic state, , They must adhere to defined timing constraints. These pins And logic levels are different for 128K and 512K parts.   For 128K parts:   + Chip_Enable 2 (Pin 30) and -REFRESH (Pin 1) When it is moved to ensure holding, both are held at logic "0". Data retention -Chip_Enable (Pin 30) goes high when going from mode to normal operation Before, -REFRESH (Pin 1) must go high at least 225nS.   For 512K parts:   -Chip_Enable (Pin 22) must be held at logic "1" and -OE / -REFRE SH (Pin 24) is a logic “0” when power is moved to ensure data retention. To Must be retained. When going from data retention to normal operation, -OE / -REFRESH (P You must go high for at least 50 nS before in 24) goes high.   How quickly the above sequence can occur after a normal PSRAM REFRESH There is also a timing constraint for. Sequence in DBE1200 Gate Array The sense-up logic controls the above timing. Power-on reset (Pawer  After the On Reset (POR) sequence ends, the microprocessor calls the bit + SEQUENCE_UP [Wr Addr 7400 Hex, bit 5] (Always return this bit to logic “0” Make sure that you toggle). Toggling the + SEQUENCE_UP bit is Start the sequence up state machine. This state machine is the next normal refresh Wait for the end of the flash pulse and, as mentioned above, use the correct timing Will move to the forced logic level. Refresh pulse is about every 11μS And the sequence up process takes about 1 μS. Software When + SEQUENCE_UP is set until the first PSRAM access is attempted It is necessary to wait at least 151 μS for a while. PSRAM operation (normal operation)   Normal PSRAM operation goes very linearly. Refresh is automatic, Transparent to the microprocessor. PSRAM at least once every 15 μS Must be refreshed. Refresh address is generated in PSRAM Born and transparent to the user. To refresh, on PSRAM The refresh pin must be held low for a minimum amount of time. Easy circuit design To refresh, the refresh request is generated by the internal clock divided by 256. With a 24 MHz clock generated this occurs at approximately 10.7 μS.   The refresh pulse to the PSRAM chip is read or written to the PSRAM. Must not occur at the same time as Refresh request and any PSR -PSEN line starts refresh because AM access is asynchronous Used to When a refresh request is detected, the refresh circuit , The next -PSEN waits until a falling edge (falling edge). -PS EN falls at the beginning of code access to the ROM. Code access to ROM Occurs at some time as the 8032 fetches the OP code. You. During this time, it is impossible for the 8032 to access the PSRAM. The refresh is very fast and ends before the -PSEN code fetch is completed. Will be.   Note: This system uses -PSEN toggle to refresh PSRAM. Has a ring. In normal operation, this happens at all times. If Be careful if you use an 8032 emulator. If you If the emulator breaks and stops, the refresh stops. Most emule -PSEN still has the option, even when its breakpoint occurs. Make sure that PSRAM operation (sequence down operation)   Sequence down is the opposite of sequence up. This system is "Initial warning power failure" will interrupt 8032 before power supply voltage begins to drop Detector (Early Warning Power Fail Detector) ". 8032, yes Save any critical PSRAM data, then + SEQUENC Responds to this interrupt by asserting the E_DOWN bit. Seike Sense down forces PSRAM critical inputs to their correct state. And in that way, it will ensure that the timing specifications are maintained. Shi The sequence down logic will ensure that the proper timing Will not start until the end of the refresh. SEQUENCE DOWN The rules are shown below. About 128K part   + REFLESH (pin 1) is forced for + chip_enable 2 (pin 30) Must go to logic "0" at least 60ns before it is made logic "0". No. Since the gate array output will not be defined, after the power disappears, External elements should keep these lines at logic "0". Regarding the 512K part   Chip_enable (pin 22) is connected to -OE / -REFRESH (pin 24) ) Is forced to logic "1" at least 50 nS before it is forced to logic "0". Must be done. PSRAM operation (power down data possession)   Critical input pins are at their power down level (see above) And the voltage to the PSRAM chip remains at 3.0 volts or more. For some time, data will be retained. PSRAM power down latch   Power is provided by the same backup capacitor that powers the PSRAM. There is a very low current JK flip-flop as provided. this Flip-flops drop below the minimum voltage specification during the power-off period. Let the software know if you did it.   At initial power-on, this latch should power up to logic "0" It is. The microprocessor sets the state of this latch on the + RAMV_OK line. Can read. When the latch is “0”, the voltage holds the PSRAM minimum data It is ensured that it falls below the specification and that all RAM data is not valid Should be done. When the latch is “1”, data is available before power down. Still valid.   If + RAMV_OK is logic "0", the microprocessor will Can be set to logic "1" after passing. Once this latch When set to logic "1", the PSRAM Vdd voltage drops below about 3.1 volts. Until you do, it will remain set.   Five states are required to set this latch. 1. The PSRAM voltage must be greater than 3.1 volts (this is JK Release flip-flop reset pin). 2. The PCB +5 volt power supply must be greater than about 4.5 volts (this It releases the system POR)     3. -The ENBLAT line must be set to logic "0".     4. The + BAND0 line must be set to logic "1".     5. The + LAT_CLK line toggles to logic "0" and then to logic "1". Must be   The -ENBLAT and + LAT_CLK lines are for the 8032 microprocessor P Driven by ORT pin. These pins are set by 8032 hardware. Will be initialized to POR time. + BAND0 line is DBE120 0 gate array and reset to logic "0" at POR time. Is set.   By requesting all these states, the spurious noise at power-up is It is desired that the latch could not be set by an is glitch. if If the latch reads a logical "1", the PSRAM indicates that the data is valid. It would not be a bad idea to have the checksum location of Just in this case, the latch may be set by a noise glitch).   MC14xx series CMOS device selected for latch circuit . Because this family of systems guarantees a very low worst case current drain That's why. DBE1200GATE ARRAY 103   Gate array 103 is packaged together in an 84-pin PLCC package. I have. Gate array terminology is slightly different from PCB terminology. PC B uses “+” before the signal name to indicate “active high”. The gate array drops the "+" signal when the signal is "active high". Use only issue names. The PCB uses the signal name to indicate "active low". Use a "-" before. The gate array is used to determine when signals are "active low". In this case, the character "X" is added before the signal name.   Use the following abbreviations for addresses and bits. (6000W.5) = Write to address 6000 hex, bit 5 (6C00R.3) = Read address 6C00hex, bit 3 ADDRESS DECODING   The address decoder is shown on pages 1-9 of Appendix A. 8 deco 8032-RD, the 74F138 model used for enabling Is used with the -WR strobe. The output of the 74F138 is It will only be valid when a source is written or read.   The following table shows the write and read addresses to be decoded. page The number is based on the gate array structure in Annex A where the registers can be found. It shows the page of the composition diagram. "Gate array name" is the decode signal on the configuration diagram Is the name of Table III below shows the I / O write register decode and Table IV Indicates an I / O read register decode. Plus DRAM_EN must be 0 to access these registers Must.           Table IV 8032 I / O READ REGISTERS PSRAM CONTROL   The PSRAM control logic is shown on page 2 of Appendix A. This log Control signals to their appropriate pins depending on the mode in which the chip is present. It consists of several simple gates that can be opened. This chip has two memory It has an idle mode, ie, 128K and 512K. Also, sequence up There are a loop mode and a sequence down mode. PSRAM CONTROL SIGNALS XRFSH_18 (-ReFreSH or address_bit_18)   This is a dual purpose signal to be coupled to pin 1 of the PSRAM chip. Shi When a sequence up occurs, this signal is mode dependent.   In the 128K mode, the -REFRESH signal is directed to this pin.   In the 512K mode, bit 18 from address Mux is directed to this pin. You.   This signal is forced to a logic "0" when a sequence down occurs. . XRAM_OE0 (-RAM output, enable 0)   This is a dual purpose signal to be coupled to pin 24 of the lower PSRAM chip. It is. This signal is mode dependent when sequence up occurs.   In 128K mode, this is for the lower 128K PSRAM chip. PSRAM read output enable line. This line has an address For the lower 128K and claiming the 8032-RD line (asse rt) can only assert (active low).   In 512K mode, this is the PSRAM read output enable and refresh Input. If this signal asserts itself, a refresh occurs. If it asserts with the -chip select pin, the PSRAM read will Occur.   This signal is forced to a logic "0" when a sequence down occurs. . XRAM_WE0 (-RAM write enable 0)   This signal should be coupled to pin 29 of the low order PSRAM chip. A PSRAM write is made when this signal asserts with a valid chip selection. Would. When the sequence is up, this signal will be in both modes. And write enable for the PSRAM.   This signal is don't care when a sequence down occurs. XRAM_OE1 (-RAM output enable 1)   This is a dual purpose signal to be coupled to pin 24 of the top PSRAM chip. is there. When the sequence is up, this signal is Output enable control for reading from the upper PSRAM chip. this The signal is not used in the 512K mode. Because the top chip is instrumental Because it is not controlled. When a sequence down occurs, this signal Don't care. XRAM_WEI (-RAM write enable 1)   This signal should be coupled to pin 29 of the high order PSRAM chip. A PSRAM write is made when this signal asserts with a valid chip select. Would. When the sequence is up, this signal is in 128K mode Is a write enable to the top PSRAM. (Note: Current design is 5 12K mode does not use "top" chip) Sequence down Sometimes this signal is don't care. XCE1 (-chip enable 1)   This is a dual purpose signal to be coupled to pin 22 of the PSRAM chip. When a sequence up occurs, this signal causes the PSRAM chip to Reading and writing can be performed in both modes. Sequence Dow This signal is forced to a logic "1" when a signal is made. 512K PSR The AM chip will force this line during power down data retention mode. Request to be logic "1". This line is not active on 128K PSRAM. Care. CE2_A17 (+ chip enable 2 or address bit 17)   This is a dual purpose signal to be coupled to pin 30 of the PSRAM chip. This signal is mode dependent when sequence up occurs.   In 128K mode, this signal is combined with the + chip enable, which It is always logic "1".   In 512K mode, bit 17 from address Mux is directed to this pin. You. XWRSTROB (-WRite STROBe)   During a write, this is a shorter version of the 8032 write strobe. XWRSTROB is the timing used to write to PSRAMS Signal. Data is available on the PSRAM at the rising edge of XWRSTROB. Written to This rising edge is before the rising edge of 8032-WR To ensure that any PSRAM data retention time is satisfied. Shall be. BASE REGISTERS AND ADDRESS MULTIPLEX ER   The third and fourth pages of the gate array configuration diagram in Appendix A show the base register and 4 shows a PSRAM address multiplexer. To describe the function of the base register See above for details. This part processes the circuit.   This base register is shown on the left side of page two. These regis The output of the filter passes through an "AND" gate before proceeding into the adder. This AND game This forces the base register output quickly and completely at the address input. Can be set to 0.   The output of the adder is fed into the MUX. This MUX is READ ADD RES results on PSRAM address pins, most likely due to fault Position it. -Until WR strobe asserts, 8032 will try to write There is no way to know what you are doing. -When WR claimed, flip flops , MUX on the output of WRITE ADDER. The read adder is Selected for the fault value. Because RAM reading is slightly longer than writing It takes a long time. The double adder assumes that a -WR strobe is asserted. Bang Is provided so that the write address is stable. I. R. RECEIVE CIRCUIT   I. R. The receiving circuit will either release the button on the remote, or Different operating modes, depending on whether it is held down continuously Have. This circuit is on page 5 of Appendix A.   If the valid code is I. R. RECEIVE DATA REGISTER (0 + IRR_VAL (IR receive / valid) when clocked during 800R) Bit and the + VALTIRD (VALid TIL RD) bit are set. + IRR_VAL bit remains set until the remote button is released Will. There are two ways to clear + VALTILRDbitto I do.   1. I. R. RECEIVE DATA REGISTER reading is + Clear VALTILRD.   2. If the remote button is released and then pressed again, + VALTIL RD is cleared when the button is pressed again.   + IRR_NC (IR RECEIVER NO CHANGE) R. First that RECEIVE DATA REGISTER has been read Would be set to It remains set until the remote button is released right.   + IRR_RDY goes high as soon as the remote button is pressed, The state is set until released. SECURITY CLOCK GENEATOR   The security clock generator is in the middle of page 9 of Appendix A Below. This is programmable for the Motorola security chip -It is a clock generator. The original specification for this clock is 5M Hz. To make it possible to change the transmission frequency, this clock Is programmable.   Both the high time and the low time of this clock interval are defined by the I / O address By writing to x, it can be independently programmed. High hours The lower nibble sets the lower time, while the lower nibble sets the lower time. This time , A multiple of the input transmission frequency.   This circuit loads the program nibble into a 74F169 type counter Work by doing. These counters are set as "down counters" And only one of them decrements at any time. One mosquito When the counter reaches 0, the output toggles and the counter reloads, then , The other counter will decrement. Output of program register The inverter at power sets the initial value to "divide-by-7". I. M. SERIAL BUS CIRCUIT   I. M. The bus is used for transmission to the TPU 2740 chip. I. M . The bus circuit is shown in the figure. In order to describe this bus in detail, I.D. M. bus See specifications. Schematically, I. M. The bus has three write serial communication buses It is. The three lines are I.P. M. _CLOCK, I. M. _DATA, and , I. M. Called _IDENTIFY. The DBE1200 gate array is Always, I. M. Bus master, and therefore always M. _CLOCK La Drive in. I. M. _DATA line is a bidirectional data line (external Open drain having a pull-up register). I. M. _ID The ENTIFY line identifies the "IM address" and terminates the transfer. Is the output used to "IM BUS WRITE" is 8032 To the IM slave. "IM BUS READ" is an IM slave -Into the 8032 from the device.   I. M. Bus transfers always start at a one-byte address, and then Or 2 bytes of data. A bit called IIBYTE (3000W.0) Determines how many data bytes to transfer. WXR_BIT (3000 W. The other bit, called 1), is whether the transfer is a read or a write To decide. The eleventh page of Appendix A contains M. Counter and control logic And page 12 shows the I.D. M. 2 shows a data shift register. I. M. CIRCUIT OVERVIEW   I. M. The circuit is operated via control and data registers. Here I will briefly describe.   I. M. BUS ADDRESS REGISTER (2000W 12 pages (XL_IM_AD). 8032 indicates the slave with which communication is to be established. Write the 8-bit address of the device. This address is 74HCT2 in the figure. The data is latched at 73 and transferred to the shift register when the transfer starts. if The same address is used for two consecutive I.O. M. If accessed on transfer, this There is no need to reload registers. The byte written to this register is always In addition, all I.D. M. First byte written from gate array for transfer Will.   I. M. WRITE DATA 1 REGISTER (2400W 12 Page XL_IM_D1). The bytes contained in this register are M. write I. M. This is the second byte shifted out on the bus. This cash register The star must be reloaded after each transfer.   I. M. WRITE DATA 2 REGISTER (2800W 12 Page XL_IM_D2). The bytes contained in this register are M writing However, only if the transfer length is set to 2 bytes, shift out This is the third byte that was set. This register must be reloaded after each transfer. I have to.   I. M. READ DATA BYTE1 (1000R 12 pages XR D_BYT1). After a read transfer, this register contains the input data byte. No. If it is a one-byte read transfer, the data is present in this register. Would. If it is a two-byte read transfer, the second byte received Will be in this register.   I. M. READ DATA BYTE2 (1400R 12 pages XR D_BYT2). After a two-byte read transfer, this register stores the first input data -Includes bytes. During a 1-byte read transfer, the output address is Wrap back and end. This lap characteristic is It can be used for checking and diagnosis.   I. M. BUS CONTROL REGISTER (3000W 9 pages XIM_CTRL). Bit 1 of this register indicates whether the transfer is a read Or write. Bit 0 of this register is 1, Alternatively, it determines whether two data bytes are transferred.   I. M. BUS START TRANSFER REGISTER (2C 00W page 11 XSTRT_IM). Write any value to this register Including, I. M. Will start the bus hardware.   I. M. BUS STATUS REGISTER (1800R 6 pages Eye XSW_LO). Bit 7 of this register contains the + IM_BUSY line. No. This line is M. High during the transfer. I. M. Circuit operation   The logic of page 11 is I. M. Control bus transfers. I. M. Clock (I M_P_CK) and the 8032 input oscillator are both derived from 24 MHz You. 8032 does not specify any timing for the input oscillator, The timing is very loose for a 12 MHz input clock. For this reason States that the start transfer pulses from 8032 and IM_P_CK are asynchronous This must be assumed. The first three flip-flops in the lower left of the figure Rops resynchronizes these signals to provide I.P. M. Used to initiate a bus transfer Is done.   After the transfer is started, the 74F269 counter on page 11 counts from zero Will start up. The EN_IMCK line has IM_P_CK as I.P. M. bus Enables gate out to clock pin 14. The first eight clocks Clock out the address; M. _IDENTIFY line at this time Will assert in the meantime. When the counter reaches a count of 8, I.P. M. _ The IDENTIFY line will be invalid.   I. M. If _WRITE is in progress, M. _DATE line is for transfer Output will continue for the rest. I. M. _READE in progress If I. M. _DATE line switches from output to input after 8th count Would be wrong. A count depending on the state of the 11 BYTE (3C00W.0) bit After events 16 or 24, the transfer will be interrupted.   After all clocks have completed, M. _IDENTIFY line is transferred Once again goes low for a while to indicate completion. All this time In the meantime, the IM_BUSY bit is asserted and used as status by 8032 it can. IM_P_CLK is obtained by dividing the 24 MHz oscillator by 32 Generated. This generates a clock edge approximately every 1.3 μS. All black It takes 32 μS to transfer the data. Watchdog timer   The watchdog timer is on page 13 of the gate array schematic in Appendix A. This timer is set to EN_WDOG (3000W.7). Can be turned on and off. Wow The dogdog timer is reset in normal operation by writing to address 6400W. Is The data written to this address is "don't care".   The watchdog timer is 16 bits long, and the OSC_256 clock More clocked. This timer is a synchronous timer provided by the gate array vendor. It is created from the counter clock (1_SCBR). Is the watchdog timer zero? Start and count up. If overflow is possible, The reset line will assert. Reset line to gate array Power will also assert. Gate array POR internal reset Before assertion, the 8032 reset line will assert approximately 256 clocks. Would. 8032 indicates that the reset line has been asserted to properly reset Requires that a fixed number of clocks be provided. Note: The POR line inside the gate array is connected to the OSC divider clock on page 9. Except for the IM Read Data Register on page 12, completely bring the chip to a known state Reset. CRC32 polynomial circuit   The CRC32 polynomial circuit is on pages 15-18 of the gate array schematic. This time The path is used to check or generate a CRC32 polynomial circuit. This The polynomial circuit is 4 bytes long and is used to verify data integrity. It is.   This circuit has two modes of operation, CRC32 on and CRC32 off. Bit X_EN_XOR (6000W.4) determines the mode. This bit When logic is logic "0", CRC32 logic is enabled and CRC32 The data written to the register is multiplexed by the CRC32 polynomial circuit. Bit When the logic is "1", the CRC32 polynomial is disabled and the CRC32 The data shift to the register remains unchanged.   The circuit consists of four 8-bit read data registers, one write data It consists of a register, the above control bits and control logic. Below is a summary of the registers Is described. CRC32 read register 3 (7000R) CRC32 read register 2 (7400R) CRC32 read register 1 (7800R) CRC32 read register 0 (7C00R) CRC32 write data register (6800W) X_EN_XOR control bit (6000W.4) CRC32 circuit operation   Data is entered into the CRC circuit one byte at a time. This returns that byte This is done by writing to the CRC32 write data register (6800W). You. After the 8032 completes the write, the hardware state machine takes one byte. And shifts it to the CRC circuit (this shift occurs if the OSC is 24 MHz). About 1.5 μS). If all bytes are shifted, what you get Can be read from the four CRC32 read registers. The CRC circuit is It can be turned off to initialize the four registers to known values.   The CRC32 write data register is on page 18. This is a parallel input series Output shift register. End of 8032WR strobe, page 15 Starts the shift logic. This logic indicates that the start of the shift is OSC_2 Will synchronize to the clock. 3-bit counter counts exactly 8 counts To stop the circuit.   Initializing the CRC32 circuit to a known value using the X_EN_XOR bit Can be. Some CRC circuits have 32 bits set to all zeros And the other CRC32 circuits have all bits set to 1 Start more. When X_EN_XOR is set to logic "1", CR All exclusive OR gates of the C circuit are disabled. This is the CRC32 book The data written to the write data register is stored in an invariable CRC32 flip-flop. Allows you to enter the rop chain. This feature is also used in CRC calculation. Enable break. Software reads data when break occurs And stored in four CRC32 read registers. After that, Data is reloaded into these registers. The polynomial circuit of CRC32 is as follows: OUTPUT_1 = 4 mA, normal speed (output port control bit) OUTPUT_2 = 2 mA, slow (10 nS) rise / fall time (PSRAM address output) OUTPUT_3 = 2mA, normal speed output OUTPUT — 4 = 4 mA, normal speed output (used for clock) Note: Since output 1 and output 2 have different grooves, the output bit current may vary between groups. Can be easily changed. INPUT_1 = TTL input level with Schmitt trigger INPUT_2 = TTL input level I / O_1 = 2mA output driver (active H is available), open Drain or tri-state possible, input is TTL level I / O_2 = 2 mA output driver (active H is available), input is T TL level (data bus)                               Table V TPU2740 on-screen controller 124   TPU 2740 is an on-screen display (OSD) controller Functions as a closed caption data (CCD) VBI data slide. It also functions as a satellite. The TPU 2740 is called a first processor (FP) RISC-based processor that collects VBI data It communicates with the serial bus and is used to control the OSD. Internal TPU 274 0 circuit is operating at four times the input clock frequency (this is 18 MHz 72 MHz for the TVRO board with an input clock of z). 8032 and T Communication with the PU 2740 is via a 3-wire IM serial bus 108.   The TPU 2740 is a complete digital chip and has baseband video data. The data must first be digitized before it can be used by the TPU. 6 A bit analog-to-digital converter (μPC660) converts this digitization Do.   The μPC 660 is shown on page 1 of the TVRO schematic in Appendix A. Input video The video signal is about 1 volt PP, which is known before digitizing. Must be "clamped" to the DC level of “Video Clan” on page 1 Do this using the “back porch clamp” method I have. This clamp will have a "back porch" area of about 3.69 volts DC. Input the video signal to the A / D converter ("back porch") Is an area where a color burst exists).   Page 1 register net consisting of R15, R16, R17 and R18 The work sets a voltage level for its clamp and A / D circuit. A / D The upper reference (pin 11) is set to about 4.52 volts and the lower reference (pin 13) Is set to about 3.35 volts. The input video signal back porch area is 3.69 If biased to volts DC (pin 12), the maximum peak-to-peak The peak swing should always be between the reference pins. TRU's incoming bidet The VBI closed caption data is removed using only the E signal. Therefore Does not require the entire 4 MHz video bandwidth, so R7 and C6 are approximately Form a low pass filter that rolls off the TPU video at 1 MHz. (note: The clamp voltage ratio is the same as the expected video signal IRE value. )   TPU circuitry detects vertical and horizontal sync from digitized video I do. The OSD and VBI data slicers use these signals for timing functions. Used for Programmable converter detects vertical and horizontal sync Used for In order for this converter to accurately detect synchronization, It is important that the lamp functions correctly. FP reads the output of the synchronization detection network. The horizontal line can be counted and therefore, a specific VBI line can be counted. Reads VBI data from the You can start with the exact video scan line. Specific lead inflamins When a VBI signal containing data is detected, the TPU's VBI network Data into an internal register that the FP can read. FP is this data Is read and inserted into the buffer. After that, the VBI data is sent to the IM bus via the IM bus. 032.   The TPU has good digitized video and a stable horizontal timing on pin 27. Need the criterion Horizontal rate signal is + burst gate from MC1378 And sent to the TPU at pin 27. Either of these signals disappear Or a defective signal, the TPU cannot produce a stable overlay. There will be.   The OSD part of the TPU consists of cache memory, character memory, And an external 256K × 4 bit DRAM (U9). FP is IM bus Read out high-level graphic commands from the Stored in the DRAM memory of Cache memory, timing network and cache Along with the lacquer generation hardware, the TRU's FPs are R, G, B Output graphic data to UT line. Using the output of R, G, B Color is generated. The FBLOUT (fast blanking output) signal is If the power contains R, G, B data from the TRU or the incoming video is passed Decide what should be done.   The TPU uses 256K × 4 to store overlay screen and data It has a bit DRAM (U9). This is a fast page mode DRAM Reads screen data constantly, even when there is no overlay on the screen This avoids refresh logic. R, G, B color converter   The StarSight Telecoast graphic display has eight colors, That is, black, white, gray, yellow, light yellow, light Requires lean and red. These colors are the standard eight made by TPU Not NTSC saturated color. "Color converter circuit" Digital color is "feeling good" color of Starsight graphic display Required to convert to This circuit is shown on page 2 of the PCB schematic. ing. The color converter consists of three "8-1 analog switches" ing. There is one switch for each of the R, G, and B outputs. Desirable R, G , B voltage is provided. Analog switch Output their outputs based on the 3-bit digital R, G, B signals from the TPU Bypass the appropriate voltage to TPU R, G, B outputs are open drain So that all TTL level swings are multiplexed analog Available for switches. Page 14 R14 and C18 are R, G, B channels. Low cost RC for fast blanking signals to compensate for delay in Form a delay. Overlay generator and video synchronizer   Motorola's MC1378 is the primary main unit for video synchronizers. Used as a building block. This MC1378 is remote Mode (REMOTE MODE) (Pin 1 is set to HIGH Work). In this mode, the external video is synchronized Required to generate the audio signal. Here, the appendix for the block diagram of 1378 is shown. See page 3 of the TVRO schematic in Appendix A.   A1 volt peak-to-peak NTSC video signals are 1378 and TP U must be sent to pin 24 to provide timing information for both No.   The signal on pin 24 is a remote video signal (Remote Video Si). gnal).   This signal is internally clamped in 1378 and then the composite sink (Co composite sync) is separated. This synthetic sink is a vertical synth Isolator (Vertical Sync) and 4.03 MHz horizontal Phase Locked Loop (Horizontal Phase Locked Lo) used to lock op). Synthetic sink (pin 39) and vertical sink ( Vertical Sync) (pin 38) both debug and timing Is available for external use.   Another synthesis sink locks the 4.03 MHz PLL (using PD1) Used to The VCO in this PLL is about 4.03 MHz ceramic Formed as a resonator. Self-running frequency of this ceramic resonator is adjusted by C39 It must be. The best way to adjust this VCO is to set the frequency counter Use and adjust C39 until the frequency becomes 15,750 Hz at U1-5 Is Rukoto. This adjustment is performed so that the video-in signal (Vi video in signal) is disconnected.   The 4.03 MHz VCO output is divided by 256 to obtain the horizontal frequency, Further, it is further decoded to generate “BURST GATE”. You. The burst gate (MC13778 pin 5) is about 4 uS wide and about 3.5 Centered on 8 MHz color burst. This signal is used for overlay display This is the main timing reference. This is for both 1378 and TPU2740. Used more extensively by people. TPUHA, using burst gate, Decide when to start burley. Overlay from Burst Gate A programmable counter in the TPU that sets the delay before starting You. One of the jetters on the burst gate is on the overlay from the offending side Annoying side to side motion Will occur.   Color bursts from remote video are gated by burst gating Locked 4X color sub-carrier oscillator using PD3WO controlled Used for   Phase of locally generated synthesized video from encoder locks PD3 And a similar sub-carrier reference used for this is, Ensure that the subcarrier phases of both the local and remote signals are approximately equal The operation is performed by means of PD4. Overview of phase detector operation 1. PD1 compares to the incoming remote horizontal sink and internally Lock the 4.03 MHz VCO that was mounted. This is the fluctuation of the VCR source Work fast to follow. This PLL filter network is a C24 , C38 and R19. 2. PD2 is not used for this design. 3. PD3HA, gated phase detector (gated phase d) divides into four for incoming remote signal bursts Locked crystal oscillator frequency. 4. PD4 is a remote color burst where the outgoing local color burst comes in at PD3 Internal phase shifter to ensure that it is in phase with the Control. 5. PD5 is not used in this operation mode. Video path in MC1378   Remote video is AC-coupled and provided via pin 24 and Then, it is clamped to the appropriate DC level (blank is 0 volts). This clamped video is fed to a high speed video switch and this high speed video switch The switch switches between local video and remote video. Control by Overlay Enable Is done. The second path leads to PD3, where the remote video The burst is compared to the four divided crystal oscillator frequencies. Third par Is the recognition director that determines whether the incoming signal is PAL or NTSC (Identity Director).   The local video has a 1 volt peak directly coupled at pins 14, 15 and 16. Generated from R, G and B signals which are two peak inputs. Then color -Difference (Color Difference), BY, RY and Matrix for generating luminance and luminance Y signals follows Good. The BY and RY signals are clamped and their respective modulators are Sent to The modulated BY and RY signals are summed up to 3.58 MHz , And this signal is supplied to the pin 18. This chroma The signal is 3.58M consisting of C33, C34, C35, R22, R13 and T1. It is filtered by a band pass filter of Hz. This filtered chroma signal The signal is fed back at pin 20. At this point, the chroma signal is 40 Added to the luminance signal passing through the 0nS delay line. This delay line is And a long path for the chroma signal passing through the bandpass filter. Become. This delay line, similar to the linear group delay, has at least a 4 MHz band. Good linearity characteristics over the entire width and band width. Combination of chroma and luma The synchronizing signal becomes a composite NTSC video signal, which is subsequently Clamped by video clamp and fed to high speed video switch , Mixed with the remote video at output pin 27.   To maintain local video amplitude accurately with respect to remote video amplitude The two boost amplitudes are compared with an ACC detector and the locally generated chroma Set equal using variable gain ACC amplifier in the path.   Absolute boost amplitude of the remote signal is detected by a kill detector If the chroma of the locally generated signal drops below the specified level for the remote boost When it drops, it is turned off. This kill level determines the value of resistor R3 at pin 31. It can be adjusted by changing. 470K is about 10-20mVp-p Kill with mote boost. The normal boost is 286 mVp-p. Power supply   This system has 5 VDC digital, 5 VDC analog, and possibly 1 Requires 2VDC analog (for some RF modulators).   The current conditions are as follows.       5VDC digital 550mA       5VDC analog 150mA       12VDC analog 80mA   The microprocessor (PWRBAD line) has 4 VDC digital supply. Be set to zero at least 10 mS before dropping below 75 volts is important. This allows the microprocessor to process the running database. Are completed, and the DRAMs can be stopped in order. This is Say Using the S80731AN power supervisor IC (U2) manufactured by Ko This is done by monitoring regular power. About 8 volts irregular power supply After decreasing to the following, the S80731AN determines PWRBAD (ass ert). This allows the microprocessor to start the power down of the subroutine. An interrupt in the server occurs. U3 monitors the 5VDC supply and DBE 120 Control the RESET line into 0. This causes the power to rise and fall In the meantime, a clean reset signal is generated. Transmitter 116   The function of the IR transmitter 116 is controlled by the MC68HC05C9 microprocessor. Be demonstrated. This microprocessor uses software to communicate with 8032 Programmed to interface with Air Serial Bus 110 You. This microprocessor processes IR signals for most of the VCR's. Pulses can be generated on those output pins that simulate. MC68 The ROM in the HC05C9 contains executable programs, codes and sequences. Control the VCR via infrared. Port B on MC68HC05C9 is , It is used to set the corresponding serial address. clock The signal is a programmable clock divider in the DBE1200 gate array. Generated by   FIG. 6 shows how packets 300, messages 302, and commands 304 Indicates whether they are related. FIG. 7 shows the packet 300 in more detail. . Unless otherwise indicated, all fields are binary two's complement.   2's complement numbers). All in the field All unset bits are reserved and initially set to zero. All of A multi-byte variable, unless otherwise indicated, stores the most significant byte First (big endian format) mat)). However, there is an exception, and the fields of CRC16 and CRC32 Is the least significant byte first stored in reverse order (small In the endian format (little endian format) You.   All visible text strings are printable sentences It consists only of characters (characters), and here, printable Defined by ASCII value in the range of 32 (20H) to 122 (07AH) Character. Letters in both upper and lower cases are supported Have been. All fixed files containing ASCII strings that do not fill the field Fields are padded with NULL (ASCII value 0) characters. Other special features Unless specified, symbol strings that do not fill the field do not end with NULL. Packet 300   Is the packet 300 error detection information and information operated by the subscriber unit? Consisting of The packet fields shown in FIG. 7 are stored in Table VI as shown below. It has the description shown.                               Table VI Message 302   The message 302 is an information holding part of the packet 300. As shown in FIG. In addition, they consist of one or more commands 304. The message is , Contains an integer number of commands, and the commands are not separated between messages. No. The size field in the packet header indicates when all commands will be processed. Used to determine if The optimal size of the message field is 250 bytes or less. Commands larger than 250 bytes Should be included alone in the packet. Following the last byte in the last command The byte is always the first byte of the CRC32 field. Command 304   Command 304 creates a TV schedule database, the latest time of day In addition to addressing user authorization and security issues. Star Data Transmission Network (S elements of tarSight Transmission Network) It is.   Different commands are distinguished by a special value known as "Cmd type" Is done. It is included in the least significant 6 bits of the first byte of the command . A total of 64 special command types are possible. The second field is "Cmd length", which is used to determine the byte size of the command Is done. This size includes the fields of “Cmd type” and “Cmd length”. . The "Cmd Length" field may be one or more bytes. Te Table II indicates all commands and specifies the size of the "Cmd length" field doing. This table contains the encryption offset for the command. This concept is explained in detail in the sections that follow this table.   Recognize the command type (which will happen when a new command is executed) Not a subscriber unit calculates the command length and substitutes the command Must skip / ignore (ignore).   The most significant bit (MSB) of the first byte of the Command indicates that the command is encrypted It is a flag for signaling whether or not. If set, commands are encrypted , Clear and unencrypted. Join in encrypted format Only commands that have passed to the user unit are Show List commands, Authorization command and key distribution command (Key Distri bution Command). However, the subscriber unit is optional Should be tailored to decrypt the command.   The start offset of the encrypted part of the command is also Listed. Most commands leave some of their content in their clear, This prevents the network entity processing the packet stream from Filter out required commands without decrypting the command guts. To (The encryption offset for future commands is Note that it can change when executed. )   The second most significant bit (second MSB) of the first byte of Command is Indicates which of the keys should be used when decrypting the command. this When the bit is clear, decryption program key 0 is used and set Key 1 is being used.   Since it is necessary to add an initialization vector and pad characters, The process of encrypting commands uses the amount of memory needed to store the commands. Increase the amount. The initialization vector contains the encrypted byte stream. An 8-byte field that is always prepended at the start of the game . Pad operations are performed on the byte stream before the byte stream is encrypted. Is added to the The purpose of the pad operation is to ensure that the encrypted data is “tamper”. It is to help the security module determine whether it has been compromised. sufficient Pad characters are added to make the length of the raw data stream a multiple of eight . If the length is a multiple of 8, eight pad characters are added. Pad character The value is the number of fill bytes added. For example, three extra bytes are the command , Each fill byte has the value 3. Command encryption The data is stored as shown in FIG.   Future revisions of this command set will add field definitions to existing commands. Add. The command processor returns all data after the last recognized field. Should be adjusted to ignore.   Some commands are addressed to specific units or specific unit groups. Is performed. The unit consists of two parts, a 4-byte batch number and a 1-byte unit number. Is addressed using a logical address composed of The number of batches is the same Is used as the group address sent to the unit group sharing the same batch number. You. A batch number of zero has a reserved meaning and addresses all units. All other possible batch numbers are valid addresses. (For example, the number of batches = 0 The command transmitted with is transmitted to the system wide area broadcast (system wide block). Command with a batch address of 23456 Sent to units of batch group 23456 only. Other batch glue The unit in the loop should ignore the latter command. )   The unit number is used to identify a particular unit of the batch group. Preferably, up to 255 units are contained in one batch group. Ze The number of units in (b) is reserved to address all units in a 1-byte group. It has the meaning. (For example, a logical address having a batch number of 23456 and a unit number of 0) Dresses are directed to all units in batch group 23456. )   The commands required to build a subscriber unit database are typically Are repeatedly sent in the order shown in Table VIII.                               Table VIII   Other messages may be sent in this periodic stream at random Are scattered on a reasonable basis. Transmission errors cause message loss, Note that commands may be received out of order. In particular, show Note that there is a gap in Urist. Subscriber unit message Be able to handle the loss and out-of-order.   The following sections describe each command. Command is its non-cryptographic Although the encryption form is shown, the reader is advised that encryption will I understand that you can do this in India. Time Command   Time Command (Figure 10) specifies the current time and date You. These are sent periodically at a predetermined rate. The subscriber unit 52 (FIG. 1) 4) resets the current time and date to match the value received in this message. Let it match. The time command field shown in FIG. 10 is described in Table IX. ing.                               Table IX Daylight Saving Time Change Command )   The Daylight Saving Time Change Command is the next daylight saving time Interim changes take place, thereby determining the time over which these The display of the schedule data can show the correctly adjusted local time You. The subscriber unit is the time (obtained from the authorization command) Add a zone offset to group against changes corresponding to that local change time. You have to calculate the standard time of the Linwich. The show list uses this calculated green Indicated by a time offset affected by daylight saving time, when standard time approaches Will be entered later. Field of the daylight saving time change command shown in FIG. Is defined in Table X.                               Table X Region Command   For the area command, Star Site Data can be used and All channels that can be received by the subscriber unit in one given area identification I do. One area command is received by the data provider station. Sent to each area of the area. For example, the channel of each cable system The lineup constitutes one area. If the authorization command is in Region I Send D. Once the region ID is known, the channel data for each channel in that region Data is obtained from the Channel Data Command.   The channel ID of this command is used for each channel in the user area. After obtaining the flannel data, it is not needed by the subscriber unit. But, The channel ID and version are used to determine whether channel data is lost (eg, power Supply in the event that it has to be re-acquired). Must be carried.   The channel ID entry is used by the user to enter the setup screen. Subscriber unit displays channel ID entry until sequence is changed They should be listed in the default order they should be. The order of the channels is somewhat numerical Yes, all channels such as HBO and DISNEY have the number of natural channels = 1. Given by the “Name Affiliation” field They are arranged in betting order.   Only the base channel is sent to the region command (Duplicate Channel Comman d). The region command (Region Command) shown in FIG. Bull XI.                               Table XI                               Table XI Channel data command   Channel data commands provide useful channel information for various displays You. The channel data command is sent to the data provider station (PBS station). Sent to each channel in all regions served by the . The subscriber unit includes a channel ID entry that matches one of the region lists Collect information of all channels in the area using channel data command You.   Only the base channel is sent in the channel data command (dual channel Command). The field of the channel data command shown in FIG. Bull XII.                             Table XII Showlist command   Show list command provides daily schedule data to any channel I do. Show list commands (even when the channel is not broadcast) No gaps in the schedule. Show list commands are available for all areas of the system. Sent to all channels in the region. The showlist command is a multiplex show Lot entries, each entry being one of the Corresponding to one show.   The show list command represents at least 24 hours of schedule data. The first entry for the show list is at 12:00 midnight GMT Begin. Programs that span the boundaries between consecutive show lists It is represented only once in the show list to which the start time belongs. The next show list is The program from the previous show list is added to it with a dummy show entry Indicates the time of the overrun. These fill character entries should be 'dum flg' When the set indicates a show entry at this time slot, Found at the end of the day's show list. Only the first entry in the show list , 'Dum flg' set. The dummy show entries are Title and descriptive text labeled it as a fill character entry Works the same as a valid show entry, except that it is replaced by Step B If the start time of the gram is exactly the same as the show list boundary time, This is represented only once in the show list.   When showlist commands are encrypted, showlist command encryption is , Starting at byte 11 in the above diagram (ie, 'nbr sho w slot entries' field). The show list command is If it is not appropriate for the knit area or has already been received, the show squirrel Command can be discarded. Ignore unnecessary show lists Means that the subscriber unit's data processing Help Putt. The fields of the show list command shown in FIG. Table XIII. Table 13 Show title command   The show title command includes the name of the program (eg, COSBY SHOW) and Contains some program attributes used in theme search. Shortite Are usually compressed using a Huffman encoding scheme.   Uncompressed show titles must be between 1 and 86 bytes in length No. Due to the limited display capabilities of subscriber units, Titles larger than 38 bytes have been omitted.   Show in the show list for at least one channel in the subscriber area The show title command must be saved in the database if there are any I have to. All other show title commands must be ignored No. The required show title should be short-listed with the SID number in the show list. You can find out by matching the SID number in the command. As shown in FIG. The fields of the title command are defined in Table 14.                               Table 14 Show description command   The show description command was used to describe program episodes and search for themes. And some program attributes. Show descriptions are usually related to the show title. It is compressed using the same Huffman encoding scheme used.   Uncompressed show descriptions must be between 1 and 162 bytes in length Absent. Because the display capacity of the subscriber unit is limited, the length is 120 Descriptions of more than bytes are omitted. All territories served by the data provider A show description command is sent for all shows that have an area description. Join In the show list for at least one channel in the region of the If is referenced, the show description command must be saved in the database. I have to. All other show description commands must be ignored. Must The required show description is the DID number in the show list and the show description command. This is indicated by the matching DID numbers. Show description command as shown in Figure 16 Fields are defined in Table 15.                               Table 15 Theme category commands   The Theme Category command displays the main Identify the category. These categories are listed in the hierarchy theme search function. Form the first index. For each main theme category, a specific 8-bit ID number and text string are specified. This text string is a category Name Lee's entry. This entry is a command Are listed in order.   Command is a barge that is incremented each time the theme category command changes Including the number of options. Subscriber units transmit commands with different version numbers When replaced, replaces the version present in the command recorded in memory There must be. The fields of the theme category command as shown in Figure 17 Are defined in Table 16.                         Table 16 Theme sub-category instructions   The theme subcategory command is the subcategory indicated by the subscriber's unit Identify resources. These are displayed after the user has selected the main theme category. is there. Each main theme category has one or more sub-categories. Subcategory is the second level of a hierarchical search scheme To form Each subcategory has a parent category 8-bit ID and a unique 16-bit ID. Includes the number of theme IDs and the text string that names the input Have been. The inputs are listed serially in the instructions in the suggested display order.   The instructions include a version number, which is Incremented each time the sub-category instruction is changed. The subscriber unit is the bar When an instruction with a different number of versions is sent, the current version of the instruction stored in memory is sent. Change the version. All subscriber units have the same theme / category ID, When there is no input including the category ID and the version number, Remember the name. The fields of the theme subcategory instruction shown in FIG. , Defined in Table 17.                     Table 17 Subscriber unit reset command   The subscriber whose star observation control center was selected by the subscriber unit reset command Reset the unit. Different types of resets can be sent. Figure As shown in FIG. 19, the fields of the Subscriber Unit Reset Command are defined in Table 18. Is defined.                                   Table 18 Authorization order   Authorization orders allow subscriber units to collect and display schedule data. Authorize. When the subscriber calls for the star observation service, the order is sent.   Until the authorization command is received, the subscriber unit does not know in which area As a result, it is not clear which channel should collect data. Similarly, The entrant unit is required to decrypt the various orders until it receives the authorization order. You do not have a decryption key.   The authorization order contains the serial number given to the customer service representative during the authorization process. To address individual subscribers. The first originating subscriber unit, a single region Range and are limited to support two separate VBI lines of the same tuning frequency. Figure The fields of the authorization instruction as shown in 20-22 are defined in Table 19.                     Table 19   Long-term assignment IR code instruction   The long-term assigned infrared code command is used to control the Identifies the control code used by the universal remote control chip. This code Describes the IR blaster language, which is the language of the URC chip. Sent selectively to devices not in the internal database. Customer Service Representative Transmission usually occurs when a person is in contact with a user called a star observer. Because , They are for VCR / cable box / TV in subscriber unit manual Was not found.   The IR code may be addressed to a particular unit via a sequential number or Unit with production code, equipment type (eg, VCR) and equipment ID To be addressed. When these instructions are addressed to the SUs, they are required by the user. Requests are sent once or repeatedly. Long-term assignment as shown in FIG. The fields of the IR code instruction are defined in Table 20.                                 Table XX Key distribution command   The key distribution command is the current and to be used to decrypt the encryption command. And the next program key. Subscriber unit has key distribution including batch number You need to observe the data stream for the command. Command found When done, it contains the permission bit mask, both keys, and the authorization data field. Must be sent to the Star Site Security Processor. Subscriber unit If the bit in the permission bit mask corresponding to the unit number is 0, the subscriber Authorization is required and data collection must be suspended. The key distribution key shown in FIG. The command field is defined in Table XXI.                               Table XXI Subscriber unit commands   This command is used to send data bytes to one or more subscriber units. Used. Format and content definitions are private to subscriber units. It is. The network does not attempt to interrupt the data.   This command separates commands and initialization data into separate, format, and network messages. Hooks to send to subscriber units during development without having to define provide. The bulk of these messages can be temporary in nature. Figure The fields of the subscriber unit command shown in Table 25 are defined in Table XXII. I have.                               Table XXII   The following describes the internal data structure of the subscriber unit 52 database engine doing. A general feature of subscriber unit data is hierarchical. data structure Are as follows in descending order.   The theme category and theme sub-category select the shows to watch. Used for Those that match the theme category / subcategory pair Share a common data value (theme index) used to extract keys . The theme data hierarchy in descending order is as follows.   For the description of the network command received by the subscriber unit, InSight Data Transmission Network Protocol Description Network Protocol description). Database memory pool summary   The memory manager is the application part of the subscriber unit Allocate and free memory blocks required by the minute. Application Refers to the memory block via the application software handle (HANDLE). Me The handle of the moly block is a table containing the pool index (POOL INDEX) Index for the entry. Pool index is a memory block (MEMORY BLOCK) is a scaled address that is translated into an address. this The handle method is used when a system object ages and dies. Memory blocks without requiring specific updates of application data structures Allow it to be relocated.   The memory manager periodically performs the unnecessary information collection process to save unused memory blocks. Collect locks and rejoin them into big blocks. Application Use the handle to refer to the memory block via the handle table. , Memory blocks relocated by specific updates of application data structures can do. In addition, the memory pool is temporarily locked and during the critical period Prevent block relocation.   Each memory block has a size and an object type (OBJECT TYPE) as the first element. This is due to memory block relocation and margin Help.   The object form is divided into two main groups. 16 blocks of memory A small object that can be defined in less than a single object. Currently in memory Each block is 16 bytes long. Code inside small object first NIBBLE Object form and in the second NIBBLE of the first byte of the memory block Has the length in the block coded as follows. Long objects can be The first byte of the block contains the coded object form and the memory block. The second byte of the block has the number of units allocated.   The first byte of the memory block is bitwise ANDed with 0xCO If it is 0, it is a large object, otherwise it is a small object. Project. Database memory pool access method   A graphical representation of the database memory pool access method is shown in FIG. . Further details are as follows. Handle table   The handle table is a fixed allocation table as shown in FIG. Includes entries, free entries, and in-use entries. Free En The bird always has a 2 MSB set so that it is not confused with a busy entry.   Busy entries are referenced via handles, for example, show title entries Contains an index into the pool for the database entry to be created. Database item Is an index into the handle table. Database item The index can change to collect unnecessary information in the pool, The file does not change as long as the item exists in the database. Database Removed items return their handles to the top of the free list.   Handle table entry 0 is always the head of the free list. The table is all Initialized for all free entries, each entry is the index of the next entry Contain the box.   The size of the handle table is based on the database items that can be held in the pool. Limit the number. Systems with different numbers of channels may have different handle sizes. Request. Database Schedule Access Overview   The database show schedule is shown in FIG. Channel data Maintained in an internal database engine data structure called the channel data table It is. The channel data table selects the channel accessed by a certain area. Select. The channel data table indicates whether the area command and the channel data command It is constructed by a system command processor. Channel-related information Extracted from the area command and placed in the channel data table.   The use area ID is extracted from the permission command. The area ID is This is key information for the occurrence of a file. The region ID is processed by the subscriber unit Select the area command to be accessed, define the channel ID to be accessed, and Data table, show list, show title and show description. Select and browse theme categories and theme subcategories. Once cha Once the channel data table has been defined, the channels can be accessed directly via the channel data table. Referenced.   Each lower level table in the show schedule is accessed via the handle Is done. The handle points to the pointer in the memory channel data table and the handle Is translated.   As shown in FIG. 29, the channel data table contains information for each channel in the area.                     Information. This data is available in the channel header (Channel                     Banner) channel, tuning and display                     Against channel gliffs and during setup                     To access schedule data (show list)                     Used for                               Table XXIII Channel entry   There is one channel entry for each channel in the region (see also FIG. 29). Yo).                               Table XXIV Channel Duplicates Table   The channel replication table (FIG. 30) shows each channel of the region (Region) which is a replication of the basic channel. Include information on the channel. This data is used for pay-for-view channels. Used to adjust the display of locks (Blocks). All of the channels , Share a common basic Channel Show List, but Add start time to channel show list offset. Basic channel I D (Base Channel ID) is not stored in the configuration. Instead, the configuration is a channel Handle by channel entry in the data table (Channel Data Table) Called. If the channel entry has a duplicate channel, the duplicate channel The Duplicate Channel Handle field thereby updates the table. It has a handle number for accessing it. Further details are provided in Table XXV .                                 Table XXV Channel Duplicates Entry   There is one channel replication entry for each replication channel in the region. Further Details are provided in Table XXVI.                               Table XXVI Show list handle table   Show list handle table (Figure 31) shows the show list for each day of the week. Including handle to. This table contains the “show resources” located in the channel data table. Indicated by the strike handle table "handle. Through this table, to plan You can access the show list representing the weeks that you deserve. Change Further details are provided in Table XXVII.                               Table XXVII Show list   The show list (FIG. 32) contains 24+ hours of planning for a given channel. No. If it is the only time that actually includes more than 24 hours of planning, It is when the program starts on the current day and crosses the 24 hour line. All You list always starts at the same time every day. Dummy Slot is , Generated if necessary to handle overflow from the previous day. Complete of the plan For each set, seven individual show lists are assigned to a given Subscriber Unit. ) For all Program Originators supported by Required. Access to the show list is a show for a given day of the week. -Via the list handler table. Further details are provided in Table XXVIII Is done.                             Table XXVIII Show entry   Channel planning is provided by an ordered sequence of show entries. available. These entries show the show duration, title, and possibly episodes. Give a description of the code. Entry indicates that the show has a description and / or group ID It is either 4, 6 or 8 bytes long depending on whether or not it is present.   Finding the entry corresponding to a given start time, in turn, is the start of the list. Need an entry to be scanned from and add a duration value. Shaw Li The strike must have no gaps. Further details provided in Table XXIX Is done.                               Table XXIX Show title   The show title (FIG. 33) contains the normally compressed text of the show title. Each one There is one entry for each show title.   The show title is a pool elementary item. The entry shows the subscriber device shows the title Including the SID that does not already have the Is generated whenever a show list is received. Ent When a file is created, a handle is assigned to it and "Need It" Is required) "flag is set in the show title handle table entry.   The size of the entry is determined by the length of the title. Single pool block Returns the (null title string when a new SID is received in the show list Including). Entries are followed by the appropriate show title message. Filled when removed and the "Need It" flag is cleared. by the time, Entries can be relocated and expanded to multiple pool blocks (but , Its handle remains the same. ) Further details are provided in Table XXX .                                 Table XXX Database show title hash table access scheme   The database show title hash table access scheme is shown in FIG. You. Show title handle table   The show title handle table (FIG. 35) indicates whether a show title is required or not. Pool-based table used to determine if it has already been received It is. One show table for each possible value that the SID can hash A title handle table exists; that is, 256 tables.   The show title handle table entry is a channel that is the data that the SU is collecting All unique SIs received in every show list message for D. The particular table in which the entry is made depends on the hash value of the SID. The lower 8 bits of the SID.   These tables must be updated when the SID is deleted from the database No. The show handle table walker background task is turned on and These tables were assessed at intervals and compared to the Reference Counts, which went to zero. And then check them. Walker has an entry that can be deleted look for. Further details are provided in Table XXXI.                               Table XXXI Show title handle table entry   The show title handle table contains multiple entries. Each of these entries Contains the following fields: Show title hash table   The show title hash table (FIG. 36) provides a pool for each possible SID hash value. Fixed size, pre-allocated containing only the index It is a table. The SID hash value is an index in this table. nth d The value of the entry is the sum of all received SIDs hashed to n so far. An index into the pool for the containing show title handle table. Change Further details are provided in Table XXXII.                               Table XXXII Show description   The show description (FIG. 37) is a (normally) compressed version of the show episode description. Including Kist. There is one entry for each unique show description. Show description , Pool-based item. The entry indicates that the SU does not already have a show description Show list containing the DID (channel for the data the SU is collecting) Is generated whenever is received. That is, the “need it” flag -Description Set in handle table entry.   The size of the entry is determined by the length of the description. Single pool block Will return the new DID when it is received on the show list (with a null description string). Including). The entry will be followed by the appropriate show description message. Filled when taken and the "need it" flag is cleared. Then , Entries may be relocated and expanded into multiple pool blocks (but not Handle remains the same). Further details are provided in Table XXXIII You.                             Table XXXIII Database Show Description Access Overview   FIG. 38 illustrates the database show title hash table access scheme. Show description handle table   The show description handle table (FIG. 39) indicates whether a show description is required or Pool-based table used to determine if it has already been received It is. One show description handle for each possible value that the DID can hash There are tables; ie, 256 tables.   The show description handle table entry corresponds to the channel on which the SU is collecting data. Every unique D received in every show list message Performed on ID. The specific table in which the entry is made is the hash value of the DID Determined; that is, the lower 8 bits of the DID.   These tables must be updated when the DID is deleted from the database. Must. Show Handle Table Walker background task is turned on and DID Are erased, for example, when their reference counts are 1 , Always access these tables. This Walker can be deleted Find an entry that can be made. Further details are available in Table XXXIV.                           Table XXXIV Show Title Handle Table entry   Show Title Description Handle Table contains multiple entries. these Each entry contains the fields shown in Table XXXIV.                               Table XXXV Show Description Hash Table   This Show Description Hash Table (Figure 40) is a fixed size, with each possibility In a pre-allocated table that contains only the index for the DIDHash value is there. The DID Hash value is an index into this table. The nth value is Show Description Handle Ta containing all DIDs received so far up to n An index into Pool for ble. Details are as follows. Theme category table   The theme category table (Fig. 41) is used to download the theme Including the definition of the Each theme category is used to search for a particular type of show Is done. Each theme category contains one or more theme subcategories. Each Each theme category in the user category table has a related theme subcategory. With Golly. Further details are given in Table XXXVI.                           Table XXXVI Theme category entry   There is one theme category entry for each theme category. Further Details are shown in Table XXXVII.                             Table XXXVII Theme subcategory table   The theme subcategory table (Fig. 42) shows the themes included in the theme category. Contains information about subcategories. One for each theme subcategory table Is referred by the theme category entry. Each theme sub-category Tree includes name, qualifiers and theme index . The theme index in the show title and show description is Matches against the Tegory's theme index. Theme index is one When matched, identify which shows are members of the theme subcategory. Further details are given in Table XXXVIII.                               Table XXXVIII Theme subcategory entry   There is one theme subcategory for each channel in the region . Further details on theme subcategory entries are shown in Table XXXIX ing.                               Table XXXIX   This section is sent between all processors in subscriber unit 52. Explains the message. Some subscriber unit equipment is not used at all. All messages may or may not be required Have been. The message format is followed by a description of each field in the message. A diagram showing the mat is shown. Gray fields are currently used Indicates a missing field. However, bits in this field are set to 0. To maintain compatibility with future equipment. All feel C is two's complement unless otherwise indicated. Database Engine-I / O processor is linked by 1M bus at 1Mbit / s ing. This I / O processor has one or more specific vertical blank interval lines. Network (Vertical Blanking Interval line) Data received and requested by the data engine processor. Send bytes. The database engine controls the tuning channels and Identify the vertical blank interval (VBI) line to use.   The database engine also provides a graphical display to the I / O processor. Commands are generated and scrolled, for example, to fill a rectangle with a predetermined color. Save or restore the pixel count for a given rectangle on the lean. all The subscriber unit screen is such a graphic display command It is composed of   The database engine determines the packet length followed by one or more additional commands. Issue a command to the I / O processor in the packet containing the field (Figure 43). I / O  The processor transfers every packet byte to the RAM command buffer and When the transfer is completed, the commands are executed in the order in which they are received in the packet. I / O indicates the processor is busy until all commands have been executed Set the status flag. The packet size is sent to the I / O processor. The first two bytes received in any given command sequence. Only one Command packets can be sent to the I / O processor at one time.   Graphic commands   The following commands are for the television connected or integrated into the subscriber unit 52 The basic graphics required to depict the set's system display screen Defines the operation.   Screen coordinates are based on (0,0) in the upper left corner of the screen. TPU2740  Allows as much as 503 heights in the X coordinate. And the system maximum X is 251 . This allows the system to maintain the X coordinate in a single byte, and , Two pixels of different colors can include a 'system pixel'. Thus, (251, 207) is the lower right corner of the screen and X received in the command The coordinates must be doubled in this 2740.   All colors in the following commands are in the TPU2740 color in the nibble above and below the color byte. Consisting of Using two separate colors in a single system pixel Therefore, the number of colors that can be displayed can be increased. The actual system pixel Setting the two colors along the X coordinate uses the two colors in the color byte. Related to setting 2740 consecutive pixels. When the area is filled , These colors must be dithered. That is, along the X coordinate The colors used for consecutive 2740 pixels are the two given in the appropriate color byte Alternate between the colors. Even columns start with color 1 and odd columns (for example, (For example, the Y coordinate has an odd number), which starts with color 2 and continues along the X coordinate. Alternating between the two colors for xels.   This 2740 graphics routine uses the X or Y coordinates If the number exceeds the limit, clip output is performed (clip output). That is, the graphic If the coordinates for the operation are outside (0,0) and (251,207), Do not wrap.   Violating parameter values are ignored. The default 'cmd type' field is Causes all subsequent commands in the packet to be ignored. sand That is, the IOP ends with a packet that detects the specified command type. Graphic commands have higher priority than VBI processing. Set graphic default   The set graphic default command (Figure 44) is issued to the I / O processor (IOP). Reset all graphic variables to their initial values. This command returns Used when the power is turned on when the base engine is in the reset state. this The IOP initializes the following values:   ・ Shadow width = Shadow height = 3   ・ Shadow color = Black   ・ Small Font Delta X = 6   ・ Small font delta Y = 10   ・ Large font delta X = 8   ・ Large font delta Y = 15   ・ Highlight = White   ・ Underline 1 = Gray   ・ Underline 2 = Black   Further details are provided in Table XXXX.                               Table XXXX Erase screen   The erase screen command (FIG. 45) is generated by the I / O processor. Blanks and replaces all display buffer pixels with the specified "transparent" color. To set. Further details can be found in Table XXXXI.                             Table XXXXI Rectangle drawing   Draws a rectangle with the specified dither color. The pair set in the command Fill or outline a rectangle in a single operation based on the corresponding flag bit Or embossed. Each of these operations is a separate operation. Can be done independently of the work. For example, replace the blank rectangle with "outline" You can draw by simply setting the flag bits.   In the case of a solid color, a filled rectangle, ie, “fill color 1”, “fill color 1”, And both "le color 2" must be the same value. After filling the rectangle, Embossing, then contour enhancement and shading. No. Further details can be found in FIG. 46 and Table XXXXII.                             Table XXXXII 47A to 47E show examples of rectangles. Save rectangle   Saves the pixel content of the specified rectangle on the screen to a temporary buffer, It can be restored later by the original command. See Figure 48 for more details And in Table XXXXIII.                             Table XXXXIII Rectangle restoration   Restores the rectangle previously saved by the save rectangle command to the screen. Should be restored The rectangle is identified by its "pop-up ID" field. Depending on the restored coordinates Thus, a previously saved rectangle can be returned to a different location on the screen. Was For example, this corresponds to moving a certain cursor or icon. Further points can be found in FIG. 49 and Table XXXIV.                             Table XXXXIV Rectangular vertical movement   The move rectangle vertically command (Figure 50) effectively moves the rectangle on the screen The specified rectangular pixel content to another location in display memory. Let This command only handles vertical movement. If the specified scroll size is Scroll up or down the rectangle line by line until achieved You. Further details can be found in Table XXXXV.                             Table XXXXV ASCII string to write   Print an ASCII string to the screen. The first character of this string Departure coordinates coincide with the upper left corner of the character. Subsequent characters are AS On a single horizontal line until a CII carriage return character is encountered It is in. Subsequent characters are at the bottom of the screen and are re- Open output "Data Y" (eg, set graphic for each font (Defaulted to the default command). Illegal character Kuta outputs "?" In each place.   The character may be output in one of the two fonts. Large Only uppercase characters are supported in fonts. more than this Details are shown in FIG. 51 and Table XXXXVI.                             Table XXXXVI Channel icon drawing   Draws a channel icon at the specified coordinates. The coordinates of this icon are If it holds one or two character channel names Represents the upper left corner of a rectangle that would exactly accommodate the con. These coordinates are Adjusted if ASCII Channel Name field is longer than 2 characters Must be done. In this case, the IOP is the X coordinate sent in this command 3^*(Channel name length-1). Channel Ne If the string does not contain any characters An empty channel icon is drawn (ie 1-2 if byte 5 = 0) An empty icon of character size is drawn). 5 2 and in Table XXXVII.                           Table XXXXVII Examples of channel icons are shown in FIGS. 53A-53C. Use of transparent color is prohibited   Transparent color use prohibition command (Fig. 54) has a color code number Specifies that transparent pixels are not displayed. This command makes the color transparent Used to indicate when it should not be It must be sent every time a is drawn. Further details are as follows It is. Network data acquisition and control interface   The system data contains one or more Vertical Blanking Intervals (VBTs). ) PBS network on line, MTV, Showtime and other communications Received via the communication source. The I / O processor obtains data from each line If it is a multiple line, store it in a separate input buffer. Data is, Even if the framing code is incorrect for a given field, the IO It is stored in the P input buffer. In this case, two bytes of 03s are stored. De Data contains at least one command for which the command pocket requires a response In some cases, it is forwarded only to the database engine processor.   If a response to the database requires, the I / O processor may request the requested data. Transfer as many bytes as possible, up to the number of data bytes. Input buffer If so, the I / O processor will either empty the buffer or Start dumping data until reset is issued. The full buffer is Causes the database engine to send the "ovfl" flag to be sent in the next response.   The I / O processor can handle up to 2 VBI lines of system data, Or system data from line 21 and closed caption data Can be handled. Data is always for each system data VBI row Obtained from both fields. Closed caption data is both fields Obtained from   The I / O processor responds to any command requiring a response within 10 milliseconds. Answer. VBI stop   The VBI stop command (FIG. 55) is used to notify the I / O processor about VBI processing. Initialize the internal variables. All VBI buffer counters are cleared , Any acquired data will be lost. VBI data acquisition is set VBI control Stop until a parameter or flash VBI buffer command is received It is. Further details are as follows. Set VBI control parameters   The set VBI control parameter command (FIG. 56) allows the database Engine can specify parameters that control the acquisition of VBI data. You. This command (i.e., the flash VBI buffer command) Must be issued after the I stop command to enable VBI data acquisition .   Parameters must be sent for all VBI lines (up to 2 lines) No. Each new Set VBI control parameter command will return all previous Change parameters. The parameters are laid out with the bottom VBI line first. Must be ordered by in number. See Table XX for more details XXVIII.                           Table XXXXVIII VBI read status   The VBI read status command (Fig. 57) is specified to the I / O processor The status information is returned on the specified VBI line buffer. No more details The point is in Table XXXIX. The returned status is formatted as shown in FIG. 58, for which It is further described in Table I.   rate The data rate for this VBI line. 0 = Telecapsi Rate, 1 = full rate.                                     Table L “Read VBI Buffer”   The “Read VBI Buffer” command (Fig. 59) causes the I / O processor to Restores a given number of data bytes from the buffer in row I. Actual return data byte The number of bytes is equal to or less than the required number of bytes. Details are given in Table LI. The restored data has the format of FIG. Details are shown in Table LII. You.                                     LII “Flush VBI Buffer”   The “Flush VBI Buffer” command allows the I / O processor to Transfer all the data present in the VB or a specific VB without stopping data collection. Reset VBI processing for row I. Sent by last “Set VBI” command The parameter enables VBI processing again. This command is called “Stop Re-enable VBI processing postponed by the "VBI" command. If data is transferred, the same response as for the “Read VBI Buffer” command Answer format. Details are given in Table LIII. Receive group   The receiving group (or RG) has a combined channel lineup, named The entity to be called. Reception groups can be broadly divided into terrestrial, wired and It is classified into three types of satellites. Examples are shown in Table LIV.                                   Table LV   Some RGs, especially wired RGs, are of interest, as well as marketing and other You will get relevant information that might be useful for your work. Some examples of such information: Contact name phone number Fax number ADI DMA   Each StarSight subscriber unit is a "member", a so-called only RG It is believed that there is. When operation starts, the subscriber unit will be assigned to which RG You must be informed that you are a member, and as a result, The nap will be displayed. Description of lineup   The lineup is the actual list of channels received on a particular RG. Thing In fact, at any time, there is a one-to-one mapping between RG and active lineup. each There is only one active lineup for RG, and each active lineup And there is only one RG. Two RGs sometimes have the same receive channel list there is a possibility. Also, one list is changed and the other list is not changed. There are also possibilities. For this reason, each lineup is dedicated to RG. La Startups are usually based on physical maps (TV stations and cable systems) Is a description of the information obtained by looking at the map) You. There is a physical area that the lineup can cover Contains information about possible channels. The purpose of the lineup is To define which channels of the RG need data assistance is there.   Make sure the physical areas of cable and terrestrial television are well defined. Therefore, the available channels that can be received by TV viewers in that area are different. I know. What listings do these channels have for a particular RG? To construct the lineup required to know whether to transmit data Become.   For multiple lineup maps, cover or overlap the same area To do Is possible. An example of this is two adjacent homes, one of which is a home antenna Might be receiving TV on the other, while the other might be watching cable TV. . In this case, the cable TV subscriber will have many different channels depending on the cable. The RG belongs to a different RG than the neighbor of the unwired subscriber Become. In the above case, the StarSight data for both RGs is transmitted from one PBS station and The subscriber unit will view the data defined for that subscriber unit. You.   For terrestrial television, a particular RG may contain one to several tens of channels. Yes, it may include weak radio stations in the fringe area. Wired system In the case of systems, the lineup is very well defined and all of the wired systems It is the same for the subscriber. The lineup for satellite viewers is the East Coast There may be some differences on the West Coast, but it ’s almost the same for US viewers. One group covers all of the continental United States. File layout specifications   The station list identifies and records the basic characteristics of a single ground station or satellite feed. It consists of a record having each record being recorded.   Use fields to handle non-editing and rebroadcasting stations, if any If so, specify where the station schedule information can be obtained. If the station is currently edited If not, the number in this field is set to zero. If different station ID Is used to provide schedule information (that is, this station is a rebroadcasting station). In this case, this field will contain the ID of the other station. If the station Always handled (schedule is edited and data is provided by its ID If this is the case, this field is left empty.   The station list contains the line items provided by the seller to StarSight. Whether or not the feed is present in the Required to include inputs for each station or feed that provides data to StarSight Is done. This is how StarSight provides data to the station for a show or test. This is because the need for data is sometimes checked. In such cases, StarSight Create a lineup including stations and provide sellers with only schedule information. In some cases, they ask for service.   In general, the seller will be responsible for all U.S. Data shall be provided to StarSight for a particular designated local feed. You. The station list contains entries identifying each of these, and all aliases for them. By power, and seller An entry for all feeds that appear in the lineup provided to StarSight Must include power.   Other fields are the station call letter or satellite feed name, the common abbreviation of the name, The effective date and the expiration date (related to the change of the station call character) are shown. Lineup list The lineup list consists of the following two types of records. RG record   The RG record contains information such as contact name, location, type of service, daytime discounts, etc. Details about one RG. Lineup record   Each lineup record describes one of the channels received by that RG It is a thing. Aggregate of all currently active records describing channels within a particular RG Constitutes the RG lineup. That there are records that are not currently valid However, it does not mean that the effective date and time is in the future or This is because it was in the past. Each record has an associated RG and channel. The record is currently valid (along with knowledge of the current date and time) Contains enough information to determine In addition, multiple channels can be configured. It also contains information that makes it possible.   The lineup list is modified after the complete lineup list was last transmitted. To transmit a lineup list update consisting of only the corrected RG lineup Can be updated in an incremental manner. Update a specific RG lineup Note that you must make a full update. That is, The update list may only update part of the RG, but the update The RG to be updated is transmitted by transmitting all lineup information for that RG. Must be renewed.   Transmission of the entire lineup list is performed weekly, and transmission of the lineup list update is performed daily. Will be done. File naming convention   Station and lineup list file names shall be assigned as follows: You. The basic name of each file shall consist of six characters indicating the date. The basic name is It shall be separated from the suffix by a period, and the suffix shall be in accordance with Table LV below. To indicate the type of the file.                                   Table LV File contents   These files consisted of ASCII text with a range of 20-7E hex Records will be included. The only exception to this is the ASCII line feed, record End of terminator OA hex. File transfer   Station and lineup files are pipe-separated files consisting of carriage return / line feed end records. It is a format (PDF) ASCII file. These files are stored in StarSight electronically Must be transferred. Composite channel   Issuance of composite channels is handled through the lineup. If you can tune alone If an active channel regularly broadcasts programs from multiple program sources, The channel is known as a composite channel. (Example: Wired channel 41 is a day One part may air VHI and another part of the day may air HBO).   The lineup is the same "tuned channel" for each feed that becomes a composite channel Address this by assigning What data is compiled for the composite The start and stop times can be used to determine what to do.   Composite channels are rarely seen on terrestrial television and satellite broadcasts, but are available. This is quite common for line providers.   Each record in the station file list file is derived from the fields defined in Table LVI. Become. Each field is represented by an ASCII "pipe" (7C hex) character in the next field. Separated from C. If no data is available, the specified default Fields with zero size may be left empty. Files with non-zero minimum size Fields are mandatory. Note: tell StarSight that the station list entry is being deleted The “Station ID” and “Last Modified Date / Time” fields Station with data in it and all other fields are empty The list record is transmitted. This tells StarSight internal processing about the station. To stop the implementation of the management. Station list recording format                                   Table LVI   A detailed description of the station list record format is given in Table LVII. Have been.                               Table LVIII An example of a station list record is given in Table LVIII.                             Table LVII   The record containing the data described above is as follows: Lineup list   A lineup database is available for each channel currently active for each RG And may also include future lineups for each RG. “Cha The “channel” is a separate, regular supply. This is explained using a separate record.   Several agreements have been made to minimize StarSight's processing load Must be adhered to.       1. Each field is represented by an ASCII "pipe" (7C hex) character. The boundaries can be determined from: If no data is available, a special error of 0 Fields with the specified dimensions remain empty and fields with the minimum non-zero dimensions. Field is required.       2. To signal the starlight that RG will be eliminated, the "expiration date / Except for including special expiring days / hours in the "Time" field, 0 in the field "Record count" and the normal observation RG record are transmitted. The field is formatted for this specification. This is a star site To stop the internal processing associated with this RG at special days / hours . Note: Due to the inherent delay in processing this type of information, new Reusing this RG number to identify a new RG is not a good idea. This RG numbers must be re-assigned to ensure that there are no issues of this nature. Should not be used.       3. The lineup is based on all lineup records associated with this RG. Must always be described in its entirety, with the RG record being followed immediately .       4. When there are both current and future lineups defining RGs, First transmitted along with the RG record with the earlier of the two valid data, then With all of the current lineup, followed by future valid data Other RG records are added by all of the lineup records for future lineups Obeyed.       5. If any lineup data is provided for a given RG , Full lineup for RG (all currently active and periodically Including all of those things).       6. All records dealing with a given RG must be contiguous in the file Absent. For example, in the same file, handle RG100, then handle RG101, It is not allowed to have a record that deals with RG100.       7. The lineup information is sorted in ascending order for the value of the next key.         a. RG number         b. valid data         c. Power supply         d. Tuning channel #       8. Provide this information in any field of this name in the RG record The "expiration date / time" for information in the given lineup. You can definitely schedule.       9. Any changes to any record in the lineup will be By updating the "last date / time of lineup information" in the RG record Must be reflected.     10. If there is no field in the lineup record for "last date / time correction" Note that This is the “last date / time of lineup information” in the RG record. Is processed by updating "Lineup Information Last Date / Time Correction" File Field update means that the entire lineup for RG has been updated and changed Means     11. If there is no field in the lineup record for "valid date / time" Note that This updates the "Effective Date / Time Correction" in the RG record Is handled by The value of the “Effective Date / Time Correction” field is The full list of line-up records that follow the record will be available on that date and time (or Means enabled). The RG recording format is shown in Table LVIII.                   Table LVIII Explanation of RG field field# 1. Recording type (1 byte)     This field is always one of the ASCII characters "R" or "S" in the upper case. And specify that this record is an RG record. If the record type is "S", this record is used to describe a particular satellite. , The meaning of certain fields is redefined (described in more detail below). Of both records The type has the same number of fields, but when the recording type is "S", That field is always empty. 2. Lineup record count (1-4 bytes)     The decimal of the lineup record follows this record. That is, the number of next records is It is used to completely define this RG lineup. 3. RG number (8 bytes)     This number is the unique 8-digit decimal ID of this RG. RG numbers are re-designated I can't do that. Even if the RG number is specified once (for example, if the company (By deviating from the loess) may eventually deviate from use. But this , The RG number should not be reused. 4. RG group type (1 byte)     Lineup type is what type of service this RG is targeting Define     0 = TV broadcast, which is a conventional TV channel RG.     1 = Standard cable system, this is a conventional cable frequency plan.     2 = IRC cable (IRC is a modified cable frequency plan)     3 = HRC cable (HRC is another modified cable frequency plan)     4 = Cable system, unknown frequency plan     5 = Satellite     RG name (if the recording type is "R") (up to 120 bytes)     Satellite name (if recording type is "S")     Redundancy up to 120 characters to state RG or satellite as unambiguous as possible Use a good description. If cable RG, add MSO name field if appropriate Use it. The RG name uniquely identifies a corporation that can have its own lineup. Should be specified. For example, each headend of a cable system has its own line Can be installed, even if it is a single number, or a cable system. Each headend has something unique, even if it is a unique combination of Should have a name. 6. Cable system name (if record type is "R") (up to 120 bytes ) Satellite code (if the recording type is "S")     If a cable, this can be done by a multi-system operator (MSO) It may be an operated system. If so, this cable Name the commonly used name in the community to identify the stem. If If it is a star, the usual letter / number combination to call this satellite, eg Gal Name the G3 for axy3. 7. MSO name (if record type is "R") (up to 120 bytes)     Satellite operator (if record type is "S")     If a cable, this can be done by a multi-system operator (MSO) It may be an operated system. If so, specialize this cable system. Name the commonly used name in the community to specify. If it is a satellite, This is a system operated by a multi-system operator (MSO) Maybe. If so, name the MSO. If a satellite, Name the perlator. 8. RG local contact (0 to 120 bytes)     The name of the local contact at the cable company 9. Contact phone number (up to 20 bytes)     Name of local contact person for cable company Ten. Street address (up to 120 bytes)     Address of the local contact person for the cable company 11． City (up to 120 bytes)   The name of the city where the contact was located 12． State (0-2 bytes, alpha)     This is a two-letter abbreviation for the state's United States Postal Service. 13. Postal code (0 to 10 bytes)     The postal code is formatted as 5 bytes,-(dash) 4 bytes It is. In rare cases, only the first five bytes are available. 14. DMA name (when record type = "R") (up to 120 bytes)     Orbit (orbit) position (when record type = "S")     What name does Nielsen use to indicate the DMA this RG is in? 15． DMA rank (always empty when record type = "S" Yes) (3 bytes, numbers) 16． ADI name (always empty when record type = "S" is there)     (Up to 120 bytes)     What is the name used by Arbitron to indicate this ADI has a certain ADI? 17． ADI rank (always empty when record type = "S" Yes) (3 bytes, numbers) 18． Community served (empty when record type = "S") It is)     (Up to 300 bytes)     Towns, Circles, Communities (Communities) supplied by this RG Comma separated list of districts, districts, or counties. This list is not complete Even if it is wrong, it is possible on the side containing too many names, not too few It should be as concise and accurate as possible. 19. Comments (up to 300 bytes)     Distinguish this RG from those who are close to the person performing the data entry fields or others Any special information that will help you to do this, in particular, Is important for star sites to be aware of It is important. 20. RG General Information Last Modified Data / Time (1 0 bytes, numbers)     GMT data and time. This record was last modified.     format       yymmddhhmm. For example, 930710514 twenty one. RG Lineup Information Last Modified Data / Time ( 10 bytes, numbers)     GMT data and time. Finally, any lineup related to this RG Modified. Format yymmddhhmm. For example, 9307 110514 Note: The value "000000000000" is reserved and special Meaning that there is no lineup available for this RG. twenty two. Valid data / time (10 digits)     GMT data / time. The following lineup will be effective. Idiomatic Alternatively, it is used to specify lineup information that is not yet valid, It will be valid with future data and time. This field contains information Specify the data and time that was valid or valid. twenty three. Expiration data / time (empty or 10 digits)     GMT data / time. This field is the lineup in this piece Specify future data and time when the formation is no longer valid. Me Assuming that this data / time compromised does not include the last minute, This means that the up-up ends at the beginning, not at the end.   An example of an RG record is given in Table LIX.                               Table LIX   A sample record containing the specified data is as follows.   Table LX shows the lineup record format.                                 Table LX   The detailed description of the lineup record is as follows. 1. Record type (1 byte)     "R" = normal lineup record, "T" = satellite TVRO line Up record 2. RG number (8 numbers) 3. Tunable channel (1 to 3 bytes)       This is the channel you will adjust to receive this program Flannel. This is when the cable system (when the record type is "L") Of the system and TVRO (when the record type is "T") The cable channel number or letter of the responder number. 4. Source (empty when record type = "T")     Some cable systems have a choice between two or more separate cables That is, when this is such a system, Specify whether to use a cable. If this is a single source system Leave empty. 5. Channel ID (12 bytes)     This is to check the schedule information of this channel It is the only (unique) number used. This is its unique Snah Of the stations configured in the station list using the About one. 6. Channel type (1 number)     This is what kind of channel (cable and TVRO lineup) Apply to   a do not know   1 = Basic   2 = Extended basic   3 = Premium   4 = PPV   b Meaning of bends request 7. Day (0-7 bytes)     These are the days of the week on which this feed will be used. Non-composite channel For Le, the day of the week would be 1234567. About non-composite cases Leaves the field empty because this is a very common case Defining to be defined is equivalent to specifying all seven days. Up to seven days Any combination can be specified in this field.     These numbers are single bytes with the following meanings:     1 = Sunday 2 = Monday     3 = Tuesday 4 = Wednesday     5 = Thursday 6 = Friday     7 = Saturday     Thus, the 257 "Day of the Week" field specifies Monday, Thursday and Saturday I do. 8. Start time (4 bytes)   This is the start time (GMT) from which this channel is used. Should be used. For non-composite channels, The start time is always 0000 hour GMT.   Stop time (4 bytes)   This is the stop time (GMT) for the data from this station is there. For non-composite channels, the stop time is , Always 0000h GMT. Data / time specification does not include last minute Is assumed to be non-inclusive, not at the end, but at the beginning , Which means the lineup expires.   End of record   ASCII line feed (0AHex) or carriage return (0Dh) ex) Example: Lineup including current and future data on two-cable systems   The virtual lineup below uses only two channels on each of the two cables Indicates the system to be used, for which there is a current and future lineup doing. This data is sorted as described above, ie, for source A The currently valid information is given first (in ascending order by channel number). ), Then the information currently valid for source B, then the source Future information for A is given last, and future information for source B is given. Bold or boldfaced records are actually between the two lineups Only the record that is different, channel 2 of cable B is given again You. However, note that future lineups will be given as a whole I want to be. Example: Delete RG   This example below is the example described above, valid January 15, 1994 at 0400 GMT, Here's how to delete the RG described in: This is just a normal RG record with expiration data / time filed. Note that the Unlike the normal case, "line up record No subsequent lineup record, as indicated by a 0 in the field .   Glossary   The following terms are used as described below. Listed in this glossary Missing terms are known to those in the listing data industry and related industries. It is what has been.   CAC: Community Access Channel   Channel: separate frequency bands assigned to television stations   Composite Channel: One or more channels, two or more PO time-shares programming   DP: Data Provider (Program Listing Data Provider)   Data Provider: TV program listing data Supplier   Field (FIELD): The subpart of a record. Made of )   GMT: Greenwich Mean Time (Global Standard Time)   HRC: Cable system frequency transfer standard   Star Sight (StarSight): Star Sight Telecast Incorporated   IRC: Cable system frequency transfer standard   Local: Television broadcast within 35 miles of cable provider Station   Map (MAP): Reference to the physical area of the receiving group (RG)   MPAA (Motion Picture Artists Association): Movie People Association (for viewers) Appropriate guidelines)   MSO (Multiple System Operator): Multiple system operators Operate the cable system. )   PO: Program organizer (TV station, TV cable provider, service Telite Video Provider)   Prime time: Evening hours when the highest rating time is considered   Program Organizer: (see PO)   PST: Pacific Standard Time (West Coast Time)   Record: A defined sequence of ASCII characters in a file   RG: Reception group, TV channels available in defined geographic areas Le   Runtime: Show or movie length in minutes   Service Provider: Head end of cable system, Television broadcasting station that carries the program data of the star site   Show list: Schedule list as described herein. Pipe delimiter format (Pipe Delimited Fo rmat) file containing records   Start Time: Local time (hour-minute) when the show starts   SU: Abbreviation for Subs criber Unit), used to decode starlight data.   SyndEx: Syndicate Exclusivity   TCP / IP: Transmission Control Protocol, ie Transmission Control Pro Transmission Control Protocol / Internet Protocol)   Specified zone: a specified distance or area from a broadcasting station Outline of this description   The following instructions send TV listing data to Starsight Retecast In this context, the requirements of the data provider are specified in detail. This is Shori The format of the list (pipe delimiter file) is specified in detail. these The format of each record in the file is also specified in detail.   Details of the electronic transfer of these files to the Star Site and SyndEx Special files required by national program oddities such as Requirements and details are also outlined.   Of the show list records used to create the star site electronic database The format is highly aggregated in our database program The format of these is There is no need to change or change other than the event. The sinter of the field used If the text and meaning have been given in advance in writing, The use of Vendor-Defined Field (described below) is allowed.   File transfer specifications   File transfer media and speed   The show list file is a DP Ethernet connected to a router. (Ethernet) and digital leased line Star Site Telecast U using FTP, a quasi-TCP / IP program It will be sent electronically to the NIX file system. Lease line operet Solution speed is to transfer all data files in a reasonable time. It is enough.   File transfer protocol and compression   Data may be TCR / IP file transfer protocol or mutually agreed upon Using other file transfer protocol standards, Star Site Telecast U Transferred to the NIX file system. This file contains the transferred data. So to make our UNIX file system compatible with each other It needs to be compressed using a data compression algorithm.   File transfer details   Files should be transferred weekly with file transfer completed by 0800 RST. Seven days, every day, will be transferred to the star site. Daily file transfer Home directory corresponding to the rosin name used to perform the In the house.   Downloading the “main” file to the star site is always 12 days ahead Data. Therefore, if today is the tenth day, today's data download The code is during the start time starting at 0000 GMT on the 22nd day.   (See the GMT specifications below)   Since data files are sent daily, the program list that has already been transferred Some mechanism is needed to update the content. This is "Upda te "file. This Update file contains the latest Up Since a date file has been created, it contains a record of all changes made And changes all data on days that are still "active". "Active" Data begins on today's date and continues for 11 days, from today to today Covered by the "Main" file and covering all days not including that day Defined as days.   The class of service being plugged in requires "Flash Updates" However, within five minutes of entering all the changes, the class of service   Updates "file. Such files are available throughout the day. “Trickle” through the lease line to the other side.   Show list file introduction   StarSight Telecast uses specially formatted data in the United States Forward to star site subscribers throughout the United States. This data is -Called a site, where the subscriber places a television program on the television screen An "on-screen program guide" that allows you to interactively display your listing The information for this network is available at our UNI Database created by computer program running on X computer Derived from To create a database, the data provider will use a star site Supply a program listing file called a show list file It is required to be.   GMT   Showlist file is a chronological record of your TV program listings It is a set of The star site shows that the first record is the GMT After show file list or 0000h GMT with custom time You need the first show to start. Thus, the first of each show list file Records for the first show at midnight or after, The last record in the list file is the last record starting before 2400 hours GMT. It's about the show.   In other words, a given Main file has a day beginning at 0000 GMT and With only 400 GMT, only records for PO for one day are collected It is acceptable. Conversely, the Main file contains all POs for that day. Must accommodate show.   The "Start Time" field in all show list records is always GMT , The data provider provides daylight savings time twice a year. You are warned that you must consider. That is, once in the summer tie When the time comes, once again, it's time to return to standard time in the fall. this All time changes must be made unless the PO lives in a state or country without daylight savings time. Must be performed for all program data and all POs. Sama Depending on the time, the DP is adjusted one hour forward in the spring and one hour late in the fall Collecting or transferring records to a PO file modified by the adjustment Will do.   When the program time is adjusted to GMT, the program list record always shows the daytime savings. Transition data should immediately follow without gaps or duplication I want to be aware that SyndEx and Network Exclusivity   According to the FCC rules, TV cable providers must be able to Prevent programs that collide directly with both gram and time and content ( At the request of the local bureau). This allows cable providers During the collision time, the program on that channel can be replaced. Obstruction To display the correct schedule for the slot during the downtime. Within 24 hours prior to the arrest of the index ). Sports delete   According to the FCC rules, if a specified percentage Remove sporting events from local TV broadcasts if Tage tickets do not sell can do. StarSite asks for information about this removal. Hybrid channel   Some cable providers use one cable channel for many programs. Divided into program segments, and at different times, two or more programs on one channel. A program from the program creator may be inserted. What service at a certain time Provide information to star sites that clearly explains what happens on such channels Is required for DP. This information is available on the channel where the hybrid program occurs Is specified in the PO list.   Numerous PO information for hybrid channels can be found in the RG list format described above. (RG List Format Specificaiton). Community access channel   The FCC will provide each cable provider with at least one core for public use. Request to support Community Access Channel (CAC). Private city The public will be responsible for such public perspectives, public information or approved public programs. You can find the program time on this channel. Star sites are Requests a program list with program information for CAC, CAC program list The name is bound to the name of each cable system. . LPTV LPTV   Low-power (mostly privately owned) TV stations are present in many parts of the United States I do. Some of these low power stations have DP program list support. Would require. This is based on the program list file for each LPTV. And is processed for each station.   Syntax, network exclusivity, sports removal, hybrid channels, public Determine the exact format of the data for access channels, low power stations It should be. Definition of program list file   The program list file contains a number of records, including television program lists. Consisting of This program list record has a predetermined number of fields. Most The field is of a given size with several fields of variable size It is. This gives the program list record the minimum and maximum bit size . (See program list record field definition for exact min / max size See).   Excluding the end of the record terminator, that is, 0A hex (line feed), The tuple list file consists of an ASCII symbol and a 20 hex to 7 hex range before and after the ASCII symbol. Includes only those enclosed. This means that the control code, new line code or record Code from becoming part of the program listing file. Program list file name   In this description, three types of files are described. These are all the same record Although they have a format, they are used somewhat differently. These can be The main, update, and fresh files File. The main file contains only data for certain data . The main file is responsible for the initial loading of all data for such data. Hit. Update file revise program list data provided early Include information to do. This update file relies on new information Also includes data covering several days. Fresh file contains updated information Including No.   The name of the main file is “MAIN” followed by the date. It consists of four numbers, a period and a suffix “DAT”. For example , MAIN0812., MAIN0812. Mainframe with DAT enabled It is a file name.   The update file name consists of the letters "UPDT" followed by the date , And a period and a suffix “DAT”. An example For example, when "UPDT0812" is set, UPDT0812. DAT valid File name.   The fresh file name is "FLSH" followed by the date And optionally a period and a suffix "DAT" Consists of For example, when “FLSH0642” is set, FLSH0642. DAT Is a valid update file name.   It provides an interface to different types of computers, The naming change is virtually identical to all existing computer operating systems. It is chosen to work in the beginning. The alphabetic characters in the file name are Either all upper cases or all lower cases, mixed case Is not allowed.   Each PO data specifies the PO in the first field of each record for that PO Have a portion of the file itself, identified by This ID number (Not to exceed 12 bytes) consist of ASCII digits 0 to 9 Identified by the station ID number assigned to this PO in the file, which is a separate document Specified. Program list file length   Each file contains a program listing record identified in any of the documents. This file contains records that are required to fill 24 hours a day.   Each record in a given file has an "execution time" field, Defined by the "start time" specified in the start time field of the record Program length. By this start time and execution time, The contents of the file are continuous 24 hours a day without any gaps in the time sequence. You. Consecutive files   All "main" file records have any time gaps, such as daily and weekly It has a continuous start time and run time without any.   Table LXI shows the format of the program list record.                               Table LXI   End of record marker and end of file marker Is a single line feed (OA hex) and / or carriage return (OD he x).   Show types for general programming are shown in Table LXII.                                 Table LXII note:   The show type indicator always has a fixed three-character length. Need If so, an indicator may be additionally used.   Show types for sports programming are shown in Table LXIII.                                 Table LXIII note:   The show type indicator always has a fixed three-character length. Need If so, an indicator may be additionally used.   Detailed show list field class description.   The show list record field is divided into four classes. So These are the data field that contains the program information and the data that separates the data field. A limiter field, a record terminator that terminates and separates And the end of the file terminator. Description of the field class.   All fields in the following specifications are minimum and maximum sizes expressed in bytes. Note that we have Many fields have a fixed length and Should not change from fixed length. Other fields have variable minimum and maximum lengths. But the minority is defined as minimum or maximum. Fixed length feel Even if the password contains meaningless data, it is Must be packed into length. Maximum field length must also be attached No field must exceed its maximum length. Data field text   The text contained in any field contains no control codes, Field has an AS set within the range of hexadecimal values including 20-7E Contains only CII characters. delimiter Separates the different fields of the show list record and Unique within the code, except as a delimiter, show list recode Not used within. There are equal numbers of delimiters and data fields. Shaw Li The record is a field, delimiter, ..., ..., field, deli It has patterns of Mita and End of Recode. The delimiter is Following the last data field in the field. End of recode   All recodes are based on the last data field in the show list recode. End with the end of record terminator following the last delimiter. this Terminator is ASCII code for line feed (OA hex) or carry. Return (OA hex) or both in either order. End of file   The end-of-file terminator is the text string "ZZZZZEOF After the last data record in the Show list file, all Until the signal that data has been transferred, the end-of-file terminator There must be. Detailed data field description. field# 1. Station ID   (1 to 12 bytes) The station ID is the source of this program (telephone Used to indicate satellite stations, cable channels or satellite providers) (The station list specified by the data provider) This is a unique number. It's a 10 decimal digit Must not be exceeded. No other characters are allowed. 2. Start data   (8 bytes) Indicates the GMT data when the program is broadcast (year, month, day) 8 bytes. This data is used for all recodings in a given file. D must be the same. One to four bytes are the current year, for example, 19 It defines 1991.     Three or four bytes define the month, with January being defined as 01 and December as 12.     5 or 6 bytes indicate the day from 01 to 31. 3.Start time   (4 bytes) The number of 4 bytes is the program broadcast time GMT, military time Is entered as a system.     1 and 2 bytes are the time in GMT time when the program is broadcast You.   (Example     6 am = 06,     Noon = 12,     6:00 pm = 18,     Midnight = 00)     The 3 and 4 bytes are for the program to be broadcast.   (Example: 1 minute past = 01, 1 minute ago = 59) 4. Runtime   (4 bytes) The program length in minutes. The minimum show runtime length is At 0005 minutes, the maximum length is 9999 minutes. (Star Site Database Program Lam divides the show into multiple shows that are 240 minutes long with a runtime greater than 240 minutes. Cut. ) Runtime data is shown in Table LXIII.                                   Table LXIII     Sample fragment of the above show list record field field# 5. Closed caption   (1 byte) At the end of the show, this field contains the heading “Y” (yes). Otherwise, a heading "N" (no) is added. 6.stereo   (1 byte) When the show is stereo, this field is “Y” (yes) Otherwise, "N" (no). 7.color   (1 byte) When the show is color, this field is “C” (color) Otherwise, it is "B" (black & White). 8. Type   (3 bytes) Programs showing movies, sports, news, talk shows, etc. Symbol that indicates the system.     (See Tables LXI and LXII.) 9.Movie number   (0 to 10 decimal digits) This unique number is dependent on the data provider. Tied to each show or movie broadcast, given as a unique number for the show It depends on the toll. Once this number is used, it indicates the title Remains locked as.   Examples of these fields are given in Table LXIV.                                 Table LXIV   A sample fragment of the record field of the above show listing is: That's right.             Y | N | C | MOV | 123567890 | field# 10. Group ID   (5 bytes) The number of 5 bytes is 000 for no program link. 00 to 65535 for unique program links from 65,535 It is. This number should be more than one that needs to be linked together for recording purposes. Take into account the unique groupings of the above special programs (programs) or shows . The linking or grouping of these programs is provided in ROOT1 and ROOT2. Required for continuous recording of programs that do not have the same title It is. These fields are 00000 if there is no program link And if there is a link, it will be a unique decimal number up to 65,535. This unique number is related to the completion of linked programming and is related to this number Such shows are also kept until they leave the database. After that time, This number is returned to the state before the start of the operation and can be used again. Permanently There is no provision to lock the group ID number of any show.   The upper bound of 65,535 is that this number is 2 bytes by Star Sight. This is necessary because it is converted to binary numbers and sent to the SU in this way.   If not incompatible with the recording time, this number should be Over and link each other as a set of two or more shows on two or more different channels Used to 11. title   (0 to 50 bytes) This field contains the title of the program, Includes names of games, talk shows, etc.   Examples of these fields are given in Table LXV.                                 Table LXV   A sample fragment of the record field in the show list above is: It is.           0000 | People fly |   The description fields of the following four programs have different descriptions when used. Should. Multiple statements are intended to be multiple copies of the same statement. There is no. The description must enter the smallest field to which it fits perfectly. No. If there are four different program descriptions, a decreasing order Insert the description into the appropriate length field.   Fields 12-19: description, critique, episode title, production year and director.     12. Program description 1 (0 to 300 bytes) This is a program, show, sport It is the longest description of sports competitions.     13. Program description 2 (0 to 200 bytes) This is a program, show, sport It is a short description of the description of sports competitions.     14． Program description 3 (0 to 100 bytes) This is a program, show, sport It is a short description of the description of sports competitions.     15. Program description 4 (0 to 50 bytes) This is a program, show, sport This is the shortest description used to describe sports competitions.     16. Criticism (1 byte) Criticism that rates movies. This is a critic if If there is no reputation, it is "0" or, depending on the quality of the movie, up to 4 and 1, 2, 3 or 4.     17． Episode (0 to 50 bytes) Prepare for the description of the sword.     18. Year (0 or 4 bytes) This is the year the movie or show was produced You.     19. Director (0 to 25 bytes) Name of the film director.   Examples of these fields are given in Table LXVI.                                 Table LXVI   A sample fragment of the record field in the show list above is: It is.     Wings develop in humans, fly south during the winter to help foreign populations | Wings develop in humans , Fly south during the winter to help the country | People wing up and help the country | People fly and the country Help | 4 | Flyers | 1999 | John Filmmaker |   Fields 20-25: Star Name 20. Star 1 surname (0 to 25 bytes) The surname of the first actor. 21. Star 1 name (0 to 25 bytes) First actor's name (intermediate name). 22. Star 2 surname (0 to 25 bytes) The surname of the second actor. 23. Star 2 name (0 to 25 bytes) Second actor name (intermediate name). 24. Star 3 Last Name (0 to 25 bytes) Last name of the third actor. 24. Star 3 name (0 to 25 bytes) Name of third actor (intermediate name).   Examples of these fields are given in Table LXVII.                               Table LXVII   A sample fragment of the record field in the show list above is: It is.     Falls | Joe | Floats | Mary | Soars |   Genre bytes field: fields 26-49   The genre byte field is divided into three categories. 1st category Lee is a Theme category, which is a summary of the type of show Prepare for the description. Starlight separates programs when a theme search is performed. The information of the theme is used to divide into categories. The second category is MPA A-grade, movie-viewers and others of this age who see this show Used to signal class. This rating is usually only valid for movies . The third category further describes the MPAA rating.   The following 24 data fields describe the type of theme of the program. this Of these 24 fields, the largest five are the ones in any one The set is also set as “T”. Some things are incompatible with each other and when However, it is not set to “T” at the same time.   field#   26. action   27. adventure   28. biography   29. classic   30. comedy   31. dance   32. Documentary drama (docudrama)   33. documentary   34. Drama   35. Fantasy   36. history   37. Horror   38. martial arts   39. musical   40. Mystery   41. Opera   42. Romance   43. Satire   44. Science   45. Science fiction   46. Suspense   47. Thriller   48. Western   49. Situation Comedy   An example of a record fragment containing the above fields is given in Table LXVIII. Have been.                               Table LXVIII   A sample fragment of the above program list recording field is as follows: .     T | T | F | F | T | F | F | F | F | T | F | F | F | F | F | F |     T | F | T | T | F | F | F | MPAA designation: fields 50-56 Field ♯ 50. G (1 byte) General audience. 51. NC17 (1 byte) No children under 17. 52. No NR (1 byte) specified. 53. Guidance of PG (1 byte) parent. 54. PG (1 byte) Guidance for parents under the age of 13. 55. R (1 byte) restriction. 56. AO (1 byte) adult only. The strictest specification.   Examples of these fields are shown in Table LXIX.                                 Table LXIX   The sample fragments in fields 50-56 are as follows:     T | F | F | F | F | F | F | MPAA designation: fields 57-62 Field ♯ 57. Blasphemy (1 byte) 58. Naked (1 byte) 59. Violence (1 byte) 60. Adult situation (1 byte) 61. Adult theme (1 byte) 62. Adult language (1 byte) 63. PPV event: field 63.         (1 byte) Indicates that this program is a pay-per-view-event Set to 'T' to display, 'F' otherwise, blank if unknown.   Samples of these field fields are shown in Table LXX.                                 Table LXX The recording fragment for field 5763 is as follows. T | F | T | F | T | T | T | Field 64 and above: Seller defined field   All fields after 'PPV Event' are (Except the mandatory end) is optional. Minimum and maximum number of these fields The number is not specified and the number of characters in any of these fields No special restrictions are enforced.   Seller uses this part of the record to ensure that the specified format is escorted May be provided with additional data relating to programs that make it difficult or impossible. The fields defined by each vendor are used to prescribe one data element. Must be done.   The contents of the field are free format, except that all All data must be transcribed as printable ASCII text Vertical Bar (hex 7C), Carriage Return (hex 0D), and , Linefeed (hex 0A) does not occur as data. The reason is that these characters ‘Field Delimiterk’ (Vertical Bar) and ‘End-of-Record’ (Carriage Retur n and Linefeed).   The intention is to let the seller list the program as freely as possible. Show Thailand Additional information about the group, genre, category, subcategory, etc. These fields provide other types of information that you cannot yet expect. Can be placed in If you use these fields, Tell the star site how these fields will be used by sellers. A well-defined document must be provided separately.   The examples below do not prescribe a fixed format, One field that may be able to supplement the record with other information Are merely examples of the possible methods. In this example, the seller has a regular format Assuming that sports programs can be categorized beyond what is prescribed in I do. Seller must document the field separately from the data itself: For example, suppose Seller XYZ provided a document containing the following information to a star site: . Field name Content or meaning SPNAME Sports name SPENV “Indoor” or “Outdoor” SPS “Professional”, “Amateur” or “Pro-Am” SPLIVE If any, the game is live. SPTEAM If any, this is a team sport.   Syntax in seller defined fields supplied by seller XYZ Note to the user: “Field name” should be a seamless ASCII string from the above list. Tring (spaces and tabs are not allowed). In some cases, The presence of a field name indicates a "true" condition; in other cases, Values above the first name are also specified. After the field name, if the value is specified Followed by a single space or tab, and everything else in the field Configure that value.   In the case of this information, the seller XYZ specifies the seller's rules as seen in the example below. A record with the following fields can be transmitted to the star site: Field defined by the first seller 64 SPNAME Hockey Field defined by second seller 65 SPS Professional Field specified by third seller 66 SPENV indoor Field specified by the fourth seller 67 SPTEAM Fifth Seller Defined Field 68 SPLIVE   In this record, SPENV is specified, for example, in field $ 66. If so, it may be specified in any vendor-defined field, Note that it need not be mentioned at all. Same note, but all sell This applies to the fields specified by the Lord. This gives field names as data This is true because of the method used in this example. Seller responds to the field It is more rigid than all fields are always present, with or without data If you choose to stick to sexual practice, the name or usage of each field It is completely position dependent and can be individually documented, thus This would eliminate the need to transmit field names with data. Izu This is also possible, and the seller will explain first if there is another method he likes This is probably possible if you are within the rules you set.   A sample fragment of the above program list recording field is as follows: .   SPNAME Field Hockey | SPS Professional | SPEN V Indoor | SPTEAM | SPLIVE End of recording (LINEFEED hex 0A) and / or (CARRIAGERE TURN hex 0D)   Marks the end of the record.   After the last data record in the file, the seller has a special end-of-file Records, and this special end-of-file record has a text Begins with the string "ZZZZZEOF" and then (possibly specified by the seller End-of-Record is defined as a record followed by an intervening field). Is defined. Starlight software expects call sign value You will encounter this text string. The reading of that value is saved in this Tested against the values given. If they match, starlight Software stops reading the file.   More importantly, this text string was tested for completion of file transfer. It is also used for When a new file appears in the data entry index Input software checks the last record in the file for this symbol. You. If the symbol is not found, data transfer is aborted It has either been lost or has not yet been completed. Any case But it's still not appropriate to start loading data.   The definition of this record is such that it begins with ZZZZZEOF and End-of-R Note that it terminates at ecord. The rest of the record Is specified by the seller, within the usual restrictions on the fields specified by the seller be able to. Imminent information that may be useful here includes counting the number of file records. Event, creation data / time, list of stations with problems, or sales There is other summary information that the Lord considers relevant. Special note:   Of program listing records used to launch the Starlight electronic database The format is highly integrated in our database program and these Format is any format without the written consent of Starlight Telecast. Do not change in any way. Use of seller-defined fields used Provided that the syntax and meaning of the field is clearly documented before use Is acceptable. The PO name used in the program list file is Star Site Data The PO name is unique because it is queried by the database application And must be constant. PO name without legitimate coordination with star site Doing so may cause data mismatches in the star site database. And   Novel television schedule that can achieve the above object of the present invention It will now be readily apparent to one skilled in the art that information transmission systems and methods have been provided. Should be. The system and method are used in a Babscriber data processing system. And a low-cost microprocessor. This system and method By law, television program schedule data is On mass-produced consumer products to perform subset searches of data Propagation in a manner that allows the use of low-cost microprocessors suitable for use Sent and recorded. Television program schedule information is stored in this system. To the subscriber data processing system in an efficient manner in terms of methods and methods And is obtained by this subscriber data processing system. Schedule C) A quick schedule revision that adapts to changes A law can be provided. The system and method may be used in a current broadcast schedule. Distinguish between the information and the old schedule division involved for recorded broadcasts be able to. The system and method provide schedule revision information prioritization. You. Schedule information transmission is selectively encoded in the system and method Is done. A single system is used in the schedule information transmission part of this system and method. Time, and local time correction is performed at the subscriber unit. Will be In this system and method, the subscriber unit is a television Identify schedule information provided at different locations of the broadcast signal it can. New schedule information already acquired by the subscriber unit The schedule information portion where the information portion is copied is To avoid having to reacquire by the bus scriber unit, Retained in systems and methods. The benefits obtained with this system and method Data compression is adopted in a unique way to make more efficient use of allocated memory .   Various modifications of the embodiments and details of the invention shown and described can be made. Will be more readily apparent to those skilled in the art. Such changes are attached hereto. It is intended to be included within the spirit and scope of the appended claims.

────────────────────────────────────────────────── ─── Continuation of front page    (81) Designated countries EP (AT, BE, CH, DE, DK, ES, FR, GB, GR, IE, IT, LU, M C, NL, PT, SE), OA (BF, BJ, CF, CG , CI, CM, GA, GN, ML, MR, NE, SN, TD, TG), AP (KE, MW, SD, SZ, UG), AM, AT, AU, BB, BG, BR, BY, CA, C H, CN, CZ, DE, DK, EE, ES, FI, GB , GE, HU, IS, JP, KE, KG, KP, KR, KZ, LK, LR, LT, LU, LV, MD, MG, M N, MW, MX, NO, NZ, PL, PT, RO, RU , SD, SE, SG, SI, SK, TJ, TM, TT, UA, UZ, VN (72) Inventor Ebright Allen R             United States California             95030 Los Gatos Wood Acres             Closeup Road 16121 (72) Inventor Coach Jeffrey J             United States California             95132 San Jose Pinnacle Court             3532 (72) Inventor Warden David P             United States California             94064 Redwood City Pio             Box 1386 (72) Inventor Sokolik Constantine             United States California             94065 Redwood City Pio             Box 7357 (72) Inventor Alesiani Gianbatista A             United States California             94114 San Francisco Landers               Avenue 74

Claims (1)

[Claims] 1. A television schedule information transmission system,   A central data processing system;   Schedule information data for a given area is provided to the central data processing system. Means connected to the central data processing system for providing   The central data processing system stores schedule information for the predetermined area. There is a means to format And   Further, for a predetermined area in the predetermined schedule information transmission format, Connected to the central data processing system to transmit schedule information data Means to be   Processing of a plurality of regional data respectively located in one area of the predetermined area System,   The plurality of regional data processing systems store schedule information data for a predetermined area. Means for receiving data, and the plurality of regional data processing systems are provided. Means for selecting schedule information data for an area in which the area is located; Means for transmitting schedule information data about   And a plurality of subscriber data processing systems in the region.   Each of the plurality of subscriber data processing systems includes a schedule information data for the area. Means for receiving at least a portion of the data, and Means for storing the received schedule information data, and said subscriber data processing system. Received by the subscriber data processing system to show to the user of the system Means for assembling a portion of schedule information data, said schedule information Connected to the means for assembling a portion of the data; Television having a display for showing a portion of the Schedule information transmission system. 2. In the television schedule information transmission system, The schedule information data is stored in a plurality of regional data To the physical system transmission system,   The schedule information for each region using the regional data processing system Select the data,   Using the regional data processing system, schedule information data for each region Data to multiple subscriber data processing systems in each region,   Each subscriber data processing system is shown to the user of each subscriber data processing system. Assembling a portion of the schedule information data received by the system,   Showing a portion of said schedule information data to a user.