DE19927243A1 - Receiver for reception of multiplexed radio wave - Google Patents

Abstract

The receiver maintains the current reception frequency if the country network codes agree, and if stored region code gives the programme for the local region, whilst the demodulated code gives a programme for a wider region. The receiver receives a radio signal containing information about the transmission containing a country code, a regional code and a network code. The receiver has a reception device that can alter the reception frequency, a demodulator for the information transmitted with the radio wave, a code memory and a comparator for comparing the demodulated and stored codes. The current reception frequency is maintained if the country and network codes agree and the stored region code gives a programme for a local region whilst the demodulated region code gives a programme for a wider region.

Description

BACKGROUND OF THE INVENTION 1. FIELD OF THE INVENTION

The present invention relates to a receiver that is capable of is to receive a multiplexed broadcast wave on which the broadcast relevant information is multiplexed.

2. DESCRIPTION OF THE PRIOR ART

A radio data system (RDS) is as a service for the supply of Radio listeners with information related to broadcast programs is known. In particular, when broadcasting Pro from a radio station broadcast information related to radio tion, such as information related to the content of the programs, or the like, as data in a multiplexed modulation scheme sends. On the receiver side, this will be related to broadcasting de information is demodulated so that a radio listener based on the demodulated data can select a desired program.

The radio data system uses 57 KHz as an auxiliary carrier, what the third harmonic of a 19 KHz stereo pilot signal from the Fre frequency band modulated waves is out. The secondary carrier is amplitude modulated with a data signal that is broadcast in Related information, such as program content, indicates that tert and double phase encoded to provide a radio data signal produce. The amplitude-modulated subcarrier is frequency modulate broadcast on a main carrier.

As is apparent from Fig. 1, which shows a baseband coding structure of the radio data signal, the radio data signal is repeatedly transmitted in a multiplexed manner with 104 bits as a group. A group has four blocks, each consisting of 26 bits, and each block comprises a 16-bit information word and a 10-bit check word. With regard to type 0A, as an example, block 1 is assigned a program identification code (program identification or PI code) which represents a network, block 2 is assigned a traffic program identification code (TP code) and a traffic announcement identification code ( traffic announce identification or TA code), a block 3 alternative frequency data (AF data) for a group of network stations which broadcast the same programs, and a block 4 data from program service name information data (PS service data) such as the name of a broadcasting station, the name of a network, etc., as shown in FIG . Each group is also classified by four bits into one of 16 types 0 through 15 according to the contents of the group. There are two versions, A and B, defined for each type (0-15). These identification codes are contained in block 2 . It should be noted that AF data of a network station is only sent in the type 0A group, while PS data is sent in the type 0A and 0B group.

The PI code in turn consists of a 4-digit value, the hexa is displayed in decimal and a 1-digit country code indicating a country gives a 1-digit area code that covers a coverage area for round radio programs in the country, and a 2-digit network code that specifies the identifier of a network. The area code is also called denotes a REG code and is set to a respective value from "0" to "F" set. The REG code, which is "0", indicates that there is only one only broadcast station indicates, "1" indicates that the same program is broadcast Countries being broadcast, "2" indicates that the same program is broadcast over an entire country, and "3" indicates that the same  program in a relatively wide area, just like a federal state is broadcast within a country. The one set to "4" - "F" REG code indicates that each broadcasting station within the same network zes individually broadcasts a local program. Assuming that for example, three radio stations belong to the same network, are when the REG code is assigned to each of the three broadcasting stations is net, in the event that the three broadcasting stations have the same program broadcast for a wide range, is set to "3", the REG-Co of the three radio stations each to a different value, which is equal to or greater than "4", such as "4", "5" and "6", in the case represents that the three radio stations each have different local Pro broadcast gram. It can generally be said that round radio stations belonging to the same network, the same program broadcast for a wide range if their REG codes are "1" - "3" are while the respective broadcast stations that are on the same network broadcast locally different programs if their REG- Codes are "4" - "F". A radio station that "1" - "F" for the REG Code can accept programs for a wide range or for broadcast a local area so that the REG code that corresponds to the round radio station is assigned, depending on whether a broadcasting pro intended for a wide area or for a local area is. The REG code is therefore variable. The REG code, which is "0", specifies a single broadcasting station that does not form a network and always that REG code set to "0".

Assuming that a ge to a network NW (NW = network) listening radio station BSa, for example, on a first channel of the preset channels of a receiver is set to a Channel polling operation started when a channel selector button goes to the first  Channel is heard, is pressed to listen to a program that is on the network NW is broadcast. In the channel polling mode, the receiver receives ger a transmission frequency of the radio station BSa, pulls a radio data signal from a received broadcast wave and reads the PI code within the radio data signal. If all four digits in the out read PI code to corresponding stored in a memory The digits of a PI code fit for the BSa radio station Receiver continues the reception state on the same frequency. In the sem receiving state, the receiver receives a radio wave from a radio station that belongs to the same network NW as that Broadcasting station BSa, and the same area and the same country how the radio station covers BSa.

If not all four digits in the PI code fully correspond to the ent speaking digits of the saved PI code, it is determined whether the remaining digits of the read PI code with the exception of the REG codes for the corresponding digits of the saved PI code for the radio station BSa fit. If the read PI code with Aus acceptance of the REG code does not yet match, a search mode or whose frequency data stored in the memory used to Change reception frequency and thus a radio wave search operation to search for a new broadcast wave. Then in the same way as described above, the receiver determines whether all four digits in a PI code are from the radio wave search operation resulting radio wave to corresponding, in the Spei cher saved digits of the PI code for the radio station BSa pas sen.

If the PI code is saved with the exception of the REG code PI code, the receiver sets the emp  initial state on the current reception frequency when an in this set REG switch is switched off. The REG switch is switched off by a user when the REG- Code is ignored and switched on if the REG code is taken into account becomes. If the PI code is saved with the exception of the REG code PI code fits, and the REG switch is switched on, the Receiver through the aforementioned radio wave search operation and determines whether all four digits in a PI code are out of round radio wave search operation resulting radio wave to corresponding, digits of the PI code stored in the memory for the broadcasting sta tion BSa fit.

In the channel polling mode, however, the receiver, if the REG switch is turned on, a receiving state on one against Do not resume the broadcast wave currently received unless all four Digits in a read PI code from the received broadcast wave match corresponding digits stored in the memory of the PI code for the BSa radio station.

For example, a broadcasting station BSa belonging to a network NW (at a frequency of 90 MHz) is set on a first channel of a receiver at a location PA within an area A, as illustrated in FIG. 3. The PI code for the broadcasting station BSa has been stored in a memory. Furthermore, the PI code of the broadcasting station BSa has been set to "C312" for programs aimed at a wide area and to "C412" for programs aimed at a local area. If a channel selection button belonging to the first channel is then actuated to listen to a program which is broadcast in the network NW at a location PB within an area B, the radio wave search mode is started since no radio wave is received by the radio station BSa can be. If a broadcasting station BSb (on a frequency of 100 MHz) belonging to the network NW exists within the area B, the receiver receives a broadcasting wave from the broadcasting station BSb to check the PI code due to the broadcasting wave searching operation. The PI code of the broadcasting station BSb has been set to "C312" for programs which are aimed at a wide area and to "C512" for programs which are aimed at a local area.

If the PI code stored in the memory for broadcasting station BSa is "C312", and the PI code stored in the memory for the radio station BSb is also "C312", the receiver holds the Receive frequency to 100 MHz and continuously receives the broadcast wave from the radio station BSb. On the other hand, if the in the Spei saved PI code for the broadcasting station BSa is "C312" and the PI code stored in the memory for the broadcasting station BSb Is "C512" or if the saved PI code for the broadcasting station BSa is "C412" and the stored PI code for the broadcasting station BSb Is "C312", the receiver ignores the broadcast wave from the broadcast station BSb and keeps the receiving frequency at 90 MHz according to the Broadcasting station BSa, whose broadcast wave is not received at the PB site can be.

If the REG switch is off, on the other hand, a pro occurs blem in that the receiver is also a radio wave from one Can receive radio station that belongs to the same network and which has an area code (REG code) different from that differs, which is stored in the PI code for the broadcasting station BSa can be found. In particular with the help of the above  game explained, a PI code that is on "C312" for broadcasting that belongs to the same network is changed to "C412" or "C512" be changed, whereas a PI code that is set to "C412" or "C512" is, can only be changed to "C312". If the REG switch is turned off, the receiver tends to do so even if it has one Broadcast wave received by a broadcasting station that has a PI code ("C512") that never matches the saved PI code ("C412") in Relationship could be to maintain the reception of the radio wave hold.

SUMMARY OF THE INVENTION

It is an object of the present invention to provide a receiver create who is able to receive a broadcast wave from a selected broadcasting station that maintain a PI code which is different from a PI code stored in the receiver only in an area code (REG code), provided that the Area code from the received broadcast wave of the selected one Broadcast station is pulled out in a predetermined relation hung to the area code in the stored PI code.

The present invention provides a receiver for receiving a multiplexed broadcast wave related to broadcasting includes standing information on which a country code for identification of a country, an area code that is either a program for a indicates a wide area or a program for a local area, and a network code for identifying a network is multiplexed, the Receiver comprises: a receiving means capable of receiving an emp to change the initial frequency for receiving a broadcast wave Demodulation means for demodulating those related to broadcasting hung information received by one in the receiving means  a broadcast wave, a memory for storing a country code, an area code and a network code contained in the demodulating means be demodulated in response to a store instruction, and a Comparison means for comparing a country code, an area code and a network code which re-demodulates in the demodulation means with the country code, the area code and the network code that are in stored in the memory, the receiving means continuing on to receive a current reception frequency if the result a comparison carried out by the comparison means indicates that the Country code and the network code newly demo in the demodulation means be matched to the country code and the network code contained in the Storage means are stored, and when stored in the memory area code indicates a program for a local area rend the area code newly demodulated in the demodulation means Program for a wide range.

In the receiver according to the invention, the receiver sets the Reception of the broadcast wave continues when the in the newly received Broadcast wave contained area code and the stored in the memory area code are related in such a way that one indicates wide area and the other indicates a local area where by making it possible to change the saved PI-Co which is suitable for a radio station for reception.

The present invention also provides a receiver for emp catch a multiplexed broadcast wave that is related to broadcasting in Be Drawing information includes and on which a country code for Identify a country, an area code that is either a program for a wide area or a program for a local area indicates and a network code is modulated to identify a network,  the receiver comprising a receiving means capable of receiving a Change the reception frequency for receiving a radio wave, a demodulation means for demodulating the broadcasting in Be drawing information received by one in the receiving means gene broadcasting wave, a memory for storing a country code, an area code and a network code contained in the demodulating means be demodulated in response to a store instruction, and a Comparison means for comparing a country code, an area code and a network code in which the modulation means are newly demodulated with the country code, the area code and the network code that are in stored in the memory, the receiving means continuing on to receive a current reception frequency if the result a comparison carried out by the comparison means indicates that the Country code and the network code newly demo in the demodulation means be matched to the country code and the network code contained in the Storage means are stored, and when stored in the memory area code indicates a program for a wide area, while rend the area code newly demodulated in the demodulation means Program for a local area.

In the receiver according to the invention, the receiver sets the Reception of the broadcast wave continues when the in the newly received Broadcast wave contained area code and the stored in the memory area code are related in such a way that one indicates wide area and the other indicates a local area where by making it possible to change the saved PI-Co which is suitable for a radio station for reception.

The present invention also provides a receiver for Receive a multiplexed broadcast wave that is broadcast with the  Related information includes and on which a country code for Identify a country, an area code that is either a program for a wide area or a program for a local area there, and a network code for identifying a network is multiplexed where at the recipient comprises: a receiving means capable of receiving one Change the reception frequency for receiving a radio wave, a demodulation means for demodulating the broadcasting in Be drawing information received by one in the receiving means gene broadcasting wave, a memory for storing a country code, an area code and a network code contained in the demodulating means be demodulated in response to a store instruction, and a Comparison means for comparing a country code, an area code and a network code which re-demodulates in the demodulation means with the country code, the area code and the network code that are in are stored in the memory, and if the result is one of the Comparison means performed comparison indicates that the country code and network code which are newly demodulated in the demodulation means, match the country code and network code stored in the memory are stored, and if the area code stored in the memory indicates a program for a local area during which in the De modulation means newly demodulated area code a program for one local area indicates that the receiving means only continues on one receive current reception frequency when the two loading realm codes are the same.

In the receiver according to the invention, the receiver sets the Reception of the broadcast wave only continues when the two code areas are the same if both ent in the newly received radio wave held area code as well as the area stored in the memory  code specify a program for a local area, which makes it possible is made, a change in the saved PI code for a Broadcast station suitable for reception.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 shows a base band coding structure for a Radiodatensi gnal,

Fig. 2 shows a format for a group of the type 0A,

Fig. 3 is a diagram for explaining the operation of receptions and seminars gers, when it moves from one location PA within a range of A to a location PB within a range B,

Fig. 4 is a block diagram illustrating the configuration of an RDS receiver to which the present invention is applied, and

Fig. 5 is a flow chart illustrating a channel polling operation performed by a processor in a controller that the receiver is equipped with.

DESCRIPTION OF THE PREFERRED EMBODIMENT

An embodiment of the present invention will be next described in detail with reference to the accompanying drawings.

Fig. 4 illustrates the configuration of an RDS receiver to which the present invention is applied. In the illustrated receiver, a radio wave is selected from a desired radio station from an antenna 1 , FM-multiplexed radio waves and is converted into an intermediate frequency signal (IF signal) in an apron device 2 . The IF signal is fed to an FM detector 4 via an IF amplifier 3 . The Vorfeldeinrich device 2 uses, for example, a scheme of a PLL synthesizer (PLL = Phase Locked Loop = phase locked loop), using a PLL circuit which comprises a programmable frequency divider and is designed such that a division ratio of the programmable frequency divider by a controller 14 , which will be described later is controlled to perform station selection operation. A detection output signal of the FM detector 4 is supplied to an MPX demodulator circuit 5 (MPX = multiplex) which separates the output signal of the FM detector 4 into L (left) and R (right) audio signals when a stereo broadcast wave has been received.

When the detection output signal of the FM detector 4 passes through a filter 6 , a subcarrier at 57 kHz, which is amplitude-modulated with a double phase-coded data signal, ie, a radio data signal, is extracted and demodulated in a PLL circuit 7 . The demodulated output is fed to a digital (D) PLL circuit 8 and a decoder 9 . The D-PLL circuit 8 generates a clock for data demodulation based on the demodulated output from the PLL circuit 7 . The generated clock is fed to a gate or gate circuit 10 . A synchronization detector 11 generates a synchronization detection signal when it detects that the D-PLL circuit 8 is synchronized, and supplies the synchronization detection signal to the gate circuit 10 . The gate circuit 10 opens in response to the synchronization detection signal. The decoder 9 decodes a double-phase coded data signal, which is the demodulated output of the PLL circuit 7 , in synchronism with the clock generated in the D-PLL circuit 8 .

Output data from the decoder 9 have a group structure of 104 bits, which consist of four 26-bit blocks, as shown in FIG. 1, and are successively supplied to a group block sync (synchronizer) & error detection circuit 12 . The group block sync & error detection circuit 12 performs group block synchronization based on a 10-bit offset word to which a 10-bit check word of each block is assigned, and performs error detection in a 16-bit information word on the Basis of the checkword. The error-detected data is corrected for errors at the next stage in an error correction circuit 13 and then supplied to the controller 14 .

The controller 14 , which includes a microcomputer, brings code information in each of the blocks of the radio data sequentially input therein into groups, ie radio data information, associated with the contents of a program currently received by a broadcasting station, (the aforementioned TA code, TP code, PI code, AF data, PS data, etc.) and stores the collected code information in a memory 15 . The controller 14 controls a reception frequency data to determine the division ratio of a programmable frequency divider (not shown) of a PLL circuit that forms part of the front end device 2 based on a station selection instruction from an operation unit 16 to perform a station selection operation. The received frequency data value can be, for example, a count value of a counter.

The receiver also includes a level detector 17 for detecting a received signal level (electric field strength) based on the level of an IF signal in the IF amplifier 3 , and a station detector 18 for detecting a received station and thus a station detection signal to output when the level of an IF signal in the IF amplifier 3 is equal to or higher than a predetermined level and when a detection output in the FM detector 4 , which has a so-called S-curve characteristic, falls within a predetermined level range . The, received Si detected by the level detector 17 gnalpegel and the output from the station detector 18 are fed Stationsde both the controller 14 tektionssignal.

A channel polling operation performed by the processor of the controller 14 will be described with reference to a flowchart illustrated in FIG. 5. It is assumed herein that the frequency of an RDS broadcasting station BSa belonging to a network NW has already been set on a first channel of preset channels of the receiver and that a user turns on a channel selector button corresponding to the first channel the operating unit 16 has operated to hear a program broadcast on the network NW, causing the channel polling operation to be initiated. It is also assumed that the memory 15 stores a PI code (country code, REG code and network code) and frequency data for the BSa radio station.

In the channel calling operation, the processor first tunes a frequency according to the frequency data stored in the memory 15 (step S1). This puts the receiver in a receiving state at a frequency that is preset on the first channel. Then, the processor determines whether or not a radio data signal has been extracted from a received signal at the currently received frequency (step S2). If no radio data signal has been extracted, the processor proceeds to step S7, which will be described later, to search for a new broadcast wave.

In contrast, when a radio data signal has been extracted, the processor reads out a PI code in the radio data signal (step S3) and determines whether all four digits of the read PI code correspond to the corresponding digits of the PI stored in the memory 15 - Codes for the radio station BSa fit (step S4). If all four digits of the PI code found in the broadcast wave received at the current receive frequency match the corresponding digits of the PI code stored in the memory 15 for the broadcast station BSa, the processor allows the receiver at the current receive frequency at a receiving station continues (step S5). That is, since all four digits of the PI code found in the broadcast wave received at the current reception frequency match the corresponding digits of the PI code stored in the memory 15 for the broadcast station BSa, the receiver has a broadcast wave from one to the network NW belonging radio station received.

If all four digits of the PI code found in the broadcast wave received at the current reception frequency do not match the corresponding digits of the PI code stored in the memory 15 for the broadcasting station BSa, the processor determines in step S4 whether the three digits of the PI codes read out, with the exception of the REG code, may or may not match the corresponding digits of the PI code stored in the memory 15 for the radio station BSa (step S6). If the three digits of the read PI code other than the REG code do not match the corresponding digits of the PI code stored in the memory 15 for the broadcasting station BSa, the processor executes a broadcast wave searching operation to search for a new broadcast wave search (step S7). In the radio wave search mode, a station can be selected, for example using an AF data list for the network NW, which has previously been stored in the memory. Alternatively, a seek mode can be used to sample a receivable frequency range of the receiver while monitoring the output of the station detector 18 so that the seek mode is stopped when the station detection signal is detected from the output of the station detector 18 .

After executing step S7, the processor determines whether the Receiver has received a new broadcast wave or not (step S8). When the receiver has received a new broadcast wave, returns the processor returns to step S2 to determine if there is a radio tensignal from a received signal on the current emp frequency has been pulled out or not. After that, the operations described above are repeated.

If the processor determines in step S6 that the three digits of the read PI code except the REG code match the corresponding digits of the PI code stored in the memory 15 for the broadcasting station BSa, the processor determines whether a REG switch (not shown) arranged in the operating unit 16 is switched on or not (step S9). The REG switch is switched off when the REG code is ignored and switched on when the REF code is taken into account by an operator operation. If the REG switch is turned off, the processor proceeds to step S5, where the receiver continues the reception state at the current reception frequency. When the REG switch is turned on, the processor distinguishes the REG code within the PI code stored in the memory 15 for the broadcasting station BSa (step S10). If the REG code is in a range from "0" to "3", it indicates due to the discrimination at step S10 that the PI code stored in the memory for the broadcasting station BSa was set as the broadcasting station BSa has broadcast a program for a wide area, in which case the processor proceeds to step S5, in which the receiver continues the reception state at the current reception frequency. If the REG code is in a range from "4" to "F", this indicates, due to the distinction at step S10, that the PI code stored in the memory was set for the broadcasting station BSa when the broadcasting station BSa was a program has broadcast for a local area, in which case the processor distinguishes the REG code in the PI code read out (step S11).

If the REG code is in the range of "0" to "3" due to the Un decision at step S11 includes the currently received round radio wave a program that is aimed at a wide area, and the PI code stored in the memory for the radio station BSa was discontinued when the radio station BSa started a program for a lo calendered area, so that the processor proceeds to step S5 progresses, in which the receiver the reception state on the opposite current reception frequency continues. If the REG code in a Be ranges from "4" to "F" due to the distinction at step S11, the broadcast wave currently being received includes a program which is directed to a local area and which is stored in the memory saved PI code for the. Broadcasting station BSa was discontinued when the Rund radio station BSa has broadcast a program for a local area. Since the REG codes of the read PI code and the saved PI If the codes do not match, the processor proceeds to step S7 by one Broadcast wave search mode for searching for a new broadcast wave to perform.

If the receiver does not have a new broadcast wave at step S8 can receive, this means that the receiver is not a broadcast wave can receive from the radio station belonging to the network NW, which is set on the first channel, so that the processor on an on show, which is not shown, indicates the fact that the recipient of the  cannot receive new broadcast wave (step S12).

In the channel polling mode, for example, the broadcasting station BSa belonging to the network NW (at a frequency of 90 MHz) is set to the first channel of the receiver at the location PA in the area A, as illustrated in the aforementioned Fig. 3. The PI-Co de for the radio station BSa has been stored in a memory at the same time. Furthermore, the PI code of the broadcasting station BSa has been set to "C312" for programs aimed at a wide area and to "C412" for programs aimed at a local area. Subsequently; when the user presses a channel selection button belonging to the first channel of the receiver to listen to a program broadcast on the network NW at a location PB within an area B, the broadcast wave search operation is started at step S7 because a broadcast wave cannot be received by the radio station BSa. If there is a broadcasting station BSb belonging to the network NW (at a frequency of 100 MHz) within the area B, the receiver receives a broadcasting wave from the broadcasting station BSb for checking the PI code due to the broadcasting wave searching operation. The PI code of the broadcasting station BSb has been set to "C312" for programs aimed at a wide area and to "C512" for programs aimed at a local area.

Under the above conditions, the receiver keeps the reception frequency at 100 MHz and continuously receives the broadcast wave from the broadcast station BSb when the PI code stored in the memory 15 for the broadcast station BSa is "C312" and the PI code for the broadcast station BSb which is currently received by the receiver at location PB in area B to which the receiver has moved is also "C312". On the other hand, if the PI code stored in the memory for the broadcasting station BSa is "C312" and the PI code for the broadcasting station BSb currently received by the receiver at the location PB in the area B to which the receiver is moving "C512", the processor discriminates at step S10 that the REG code in the PI code stored in the memory 15 for the broadcasting station BSa is in a range from "0" to "3", which indicates that a program is broadcast for a wide area so that the processor proceeds to step S5, in which the receiver holds the reception frequency at 100 MHz and continuously receives the broadcast wave from the broadcasting station BSb. When the PI code of the broadcasting station BSa stored in the memory 15 is "C412", and the PI code for the broadcasting station BSb currently received by the receiver at the location PB in the area B to which the receiver is moving is "C312", the processor discriminates at step S11 that the REG code in the PI code extracted from the received broadcast wave is in a range from "0" to "3", which indicates that a program is broadcast for a wide area so that the processor proceeds to step S5, in which the receiver holds the reception frequency at 100 MHz and continuously receives the broadcast wave from the broadcast station BSb.

However, if the PI code stored in the memory 15 for the broadcasting station BSa is "C412" and the PI code for the broadcasting station BSb currently received by the receiver at the location PB in the area B to which the receiver is moving is "C512", the processor discriminates at step S11 that the REG code in the PI code extracted from the received broadcast wave is in the range of "4" to "F", indicating that a program for a local area is broadcast so that the processor proceeds to step S7 to perform a broadcast wave search operation for searching for a new broadcast wave.

In the above embodiment, while the receiver is provided with the REG switch, the present invention can be applied to any receiver without a REG switch. In such a receiver without a REG switch, the processor immediately proceeds to step S10 if the processor determines in step S6 that the three digits of the PI code read, with the exception of the REG code, correspond to the corresponding digits in the Memory 15 stored PI codes fit for the radio station BSa.

According to the present invention as described above the reception of the broadcast wave is maintained when an area code, which is contained in a newly received radio wave, and a Be rich code stored in a memory in such a relation hung that one indicates a wide range and the other egg specifies a local area, which makes it possible to make a change tion of a saved PI code for a broadcasting station for emp start reflecting appropriately. The present invention is particular in station selection processing to execute a preset one Call effective if a receiver is constructing without a REG switch or to execute a network sequence using an AF code processing.

Claims (3)

1. A receiver for receiving a multiplexed broadcast wave comprising information related to the broadcast and having a country code for identifying a country, an area code indicating either a wide area program or a local area program, and one Network code for identifying a network is multiplexed, the receiver comprising:
a receiving means capable of changing a receiving frequency for receiving a broadcast wave,
demodulating means for demodulating the information related to the broadcast from a broadcast wave received in the receiving means,
a memory for storing a country code, an area code and a network code which are demodulated in the demodulating means in response to a memory instruction, and
a comparison means for comparing a country code, an area code and a network code which are newly demodulated in the demodulation means with the country code, the area code and the network code which are stored in the memory,
wherein the receiving means continues to receive at a current reception frequency when the result of a comparison made by the comparing means indicates that the country code and the network code newly demodulated in the demodulating means match the country code and the network code which are in are stored in the storage means, and when the area code stored in the memory indicates a program for a local area, while the area code newly demodulated in the demodulating means indicates a program for a wide area. 2. A receiver for receiving a multiplexed broadcast wave comprising information related to the broadcast and having a country code for identifying a country, an area code indicating either a wide area program or a local area program, and one Network code is modulated to identify a network, the receiver comprising:
a receiving means capable of changing a receiving frequency for receiving a broadcast wave,
demodulating means for demodulating the information related to the broadcast from a broadcast wave received in the receiving means,
a memory for storing a country code, an area code and a network code which are demodulated in the demodulating means in response to a memory instruction, and
a comparison means for comparing a country code, an area code and a network code which are newly demodulated in the demodulation means with the country code, the area code and the network code which are stored in the memory,
wherein the receiving means continues to receive at a current reception frequency when the result of a comparison made by the comparing means indicates that the country code and the network code newly demodulated in the demodulating means match the country code and the network code which are in are stored in the storage means, and when the area code stored in the memory indicates a program for a wide area, while the area code newly demodulated in the demodulating means indicates a program for a local area. 3. A receiver for receiving a multiplexed broadcast wave comprising information related to the broadcast and having a country code for identifying a country, an area code indicating either a wide area program or a local area program, and one Network code for identifying a network is multiplexed, the receiver comprising:
a receiving means capable of changing a receiving frequency for receiving a broadcast wave,
demodulating means for demodulating the information related to the broadcast from a broadcast wave received in the receiving means,
a memory for storing a country code, an area code and a network code which are demodulated in the demodulating means in response to a memory instruction, and
a comparison means for comparing a country code, an area code and a network code in which the modulation means are newly demodulated with the country code, the area code and the network code stored in the memory,
wherein when the result of a comparison performed by the comparing means indicates that the country code and network code newly demodulated in the demodulating means match the country code and the network code stored in the memory and when the one stored in the memory Area code indicates a program for a local area, while the area code newly demodulated in the demodulation means indicates a program for a local area, the receiving means only continues to receive at a current reception frequency if the two area codes are the same.