JP2005136724A - Television signal receiving system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve the signal quality of a television signal in simple configurations by reducing the number of signal receiving antennas for a television signal receiving system. <P>SOLUTION: In this television signal receiving system, when a first television signal S1A is received by a signal receiving antenna 30 for telephone set of a portable telephone set 2 mounted on a charger 3, a second television signal S1B is received by a signal receiving antenna 31 for a charger of the charger 3, and the first and second television signals S1A and S1B are diversity-processed by the portable telephone set 2. Thus, the signal receiving antenna 30 for the telephone set to be used when the portable telephone set 2 is independently used as the receiver of television broadcasting is also used when the portable telephone set 2 and the charger 3 are both used as the receiver of television broadcasting. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a television signal receiving system, for example, a television signal receiving system constructed from a mobile phone and a charger for charging a secondary battery for driving the mobile phone and receiving a television signal of terrestrial digital television broadcasting. It is suitable for application to.

A portable wireless communication device constructed from a conventional portable wireless device and an in-vehicle adapter performs wireless communication using a transmission / reception antenna provided in the portable wireless device when the portable wireless device main body is used alone. When a machine is connected to an in-vehicle adapter, it is connected to the in-vehicle adapter, and diversity reception is performed using a transmission / reception antenna and a reception antenna installed in a moving body such as an automobile (for example, see Patent Document 1).
Japanese Patent Application Laid-Open No. 6-224809 (page 3, page 4, page 5, FIG. 1)

  By the way, for a portable wireless communication device having such a configuration, when using terrestrial digital television broadcasting for a mobile phone whose operational regulations are currently being formulated, one signal receiving antenna for receiving a television signal is used in the portable wireless device. It is conceivable that a user can view a broadcast program of digital terrestrial television broadcasting via the display unit and the speaker of the portable wireless device by receiving a television signal.

  However, the communication form of a television signal in terrestrial digital television broadcasting is such that the television signal is transmitted from only one transmitting station such as Tokyo Tower installed in a predetermined broadcasting area. The signal reception antenna's reception efficiency decreases due to the occurrence of so-called fading, where the received electric field fluctuates in time due to the multipath of the television signal in places behind buildings and in homes and offices. The quality may be significantly degraded.

  Therefore, for such a portable wireless communication device, the transmitting / receiving antenna and the receiving antenna connected to the in-vehicle adapter are replaced with two signal receiving antennas for receiving a television signal, and the portable wireless device is connected to the in-vehicle adapter. In some cases, a method of improving the signal quality by compensating or reducing fading by diversity receiving a television signal using the two signal receiving antennas can be considered.

  However, according to such a method, in addition to the signal receiving antenna provided in the mobile phone, two signal receiving antennas for diversity reception are also installed in the mobile body, so that the number of signal receiving antennas in the portable wireless communication apparatus is small. There is a problem that the configuration becomes complicated due to the increase.

  The present invention has been made in view of the above points, and intends to propose a television signal receiving system capable of improving the signal quality of a television signal with a simple configuration.

  In order to solve such a problem, in the present invention, in a television signal receiving system constructed from a portable terminal that is a receiver of a television broadcast and a signal receiving device that detachably attaches the portable terminal, the portable terminal When the television signal transmitted from the transmitting station is received as the first television signal by the first signal receiving antenna of the portable terminal in a state where the signal receiving device is attached to the signal receiving device, the second signal provided in the signal receiving device A television signal transmitted from a transmitting station by a signal receiving antenna is received as a second television signal and transmitted to a portable terminal, and the first television signal received by the portable signal at the first signal receiving antenna The second television signal fetched from the signal receiving apparatus is diversity-processed.

  Therefore, the first signal receiving antenna used when the portable terminal is used alone as a receiver for television broadcasting is also used when the portable terminal and the signal receiving device are used as a receiver for television broadcasting. By sharing the reception of one television signal, the number of signal receiving antennas provided in the television signal receiving system for realizing diversity processing can be reduced.

  According to the present invention, when the television signal transmitted from the transmitting station is received as the first television signal by the first signal receiving antenna of the mobile terminal attached to the signal receiving device, The second signal receiving antenna receives the television signal transmitted from the transmitting station as a second television signal and sends it to the portable terminal. The portable terminal receives the first signal received by the first signal receiving antenna. The first signal used when the portable terminal is used alone as a television broadcast receiver by performing the diversity processing on the television signal and the second television signal fetched from the signal receiving device. Even when the receiving antenna is used as a television broadcast receiver in combination with the portable terminal and the signal receiving device, the receiving antenna receives the first television signal. By also used as, it is possible to reduce the number of signal receiving antennas provided in the television signal receiving system for realizing the diversity processing, it is possible to improve the signal quality of the television signal thus a simple configuration.

  Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

(1) First Embodiment In FIGS. 1 and 2, reference numeral 1 denotes a television signal receiving system constructed as a whole from a mobile phone 2 and a charger 3, and the mobile phone 2 is a vertically long and relatively thin rectangular parallelepiped. A battery pack 6 containing a secondary battery is attached to a notch 5 formed at one end of the back plate 4A (hereinafter referred to as the lower end) with respect to the telephone casing 4 formed in a shape. In addition, a telephone connector 7 is provided on the lower end face plate 4B.

  On the other hand, the charger 3 has a charger housing 9 in which the upper surface plate 9A is formed in a rectangular parallelepiped shape, and one end portion of the upper surface plate 9A in the longitudinal direction (hereinafter referred to as a front end portion). A mounting portion 10 is formed of a concave portion having a rectangular opening whose longitudinal direction and long sides are orthogonal to each other, and a charger connector 11 that is paired with the telephone connector 7 is provided on a bottom plate 10A of the mounting portion 10.

  As a result, the charger 3 is provided with the lower end side of the telephone casing 4 on the lower center side of the front panel 4C with the front panel 4C of the telephone casing 4 facing the front end side of the charger casing 9. When the various operation keys 12 are exposed so as to be pressed and inserted into the mounting portion 10 of the charger housing 9 so as to hide the microphone 13 built in the lower end portion of the front plate 4C, the charging is performed. The device connector 11 can be connected to the telephone connector 7.

  Further, a power supply cable 15 having one end connected to the charging circuit 14 in the charger housing 9 is drawn out from the rear side plate 9B of the charger housing 9, and the other end of the power supply cable 15 is connected to a commercial power source (see FIG. (Not shown).

  The charger 3 is configured such that the internal control unit 16 that controls the charger 3 as a whole detects the presence or absence of conduction between specific terminals of the charger connector 11 and the telephone connector 7, so that the mobile phone 2 is connected to the charger 3. 3 (that is, whether or not the telephone housing 4 is inserted into the mounting portion 10 of the charger housing 9 and the charger connector 11 is connected to the telephone connector 7). 2 is attached to the charger 3, the power supplied from the commercial power source is supplied to the power source unit 17 of the mobile phone 2 via the charging circuit 14, the charger connector 11 and the telephone connector 7 in this order, and thus the power source unit 17 The secondary battery in the battery pack 6 is charged.

  When the secondary battery in the battery pack 6 is charged, the central processing unit (CPU: Central Processing Unit) 20 in the telephone casing 4 operates from the power supply unit 17 to each circuit unit in the telephone casing 4 to operate power. Are supplied and operated, and various processes are executed by controlling each circuit unit in accordance with various programs stored in the memory 21 in advance.

  As a result, the central processing unit 20 collects the user's voice with the microphone 13 when the telephone processing is executed in response to the pressing operation of the various operation keys 12 while the mobile phone 2 is used alone, and the obtained analog signal is obtained. Is transmitted to the transmission / reception processing unit 25 as digital audio data via the signal processing unit 24 and subjected to predetermined transmission processing to generate a transmission signal, and the generated transmission signal is used as the other end of the telephone casing 4. Is transmitted to a base station (not shown) managed and operated by the wireless communication system from the drawer-accommodating type wireless communication antenna 26 provided on the left side of the upper end face plate 4D of the unit (hereinafter referred to as the upper end).

  At this time, the central processing unit 20 receives a reception signal corresponding to the other party's voice transmitted from the base station by the wireless communication antenna 26 and captures the reception signal in the transmission / reception processing unit 25. The digital audio data obtained is sent as an analog audio signal via the signal processing unit 24 to the speaker 27 built in the upper end of the front panel 4C of the telephone housing 4 and sent to the other party. The user and the other party are allowed to talk by outputting voice.

  In addition to such a configuration, in the case of the television signal receiving system 1, the mobile phone 2 has a single whip antenna that receives a digital terrestrial television broadcast television signal on the right side of the upper end face plate 4 </ b> D of the telephone housing 4. One signal receiving antenna (hereinafter referred to as a telephone signal receiving antenna) 30 is provided so as to be able to be pulled out and stored.

  The charger 3 is a single whip antenna that receives a digital terrestrial television broadcast television signal at the other end of the upper plate 9A of the charger housing 9 (hereinafter referred to as the rear end). A second signal receiving antenna (hereinafter referred to as a charger signal receiving antenna) 31 is provided vertically.

  Further, as shown in FIG. 3, when the mobile phone 2 is attached to the charger 3, the electrical length L between the telephone signal receiving antenna 30 and the charger signal receiving antenna 31 is a broadcast program of terrestrial digital television broadcasting. Of the wavelengths of each broadcast frequency (for example, 470 [MHz] to 770 [MHz]), for example, a quarter wavelength with respect to the wavelength of the lowest (that is, the longest wavelength) broadcast frequency (that is, 470 [MHz]) The arrangement position of the charger signal receiving antenna 31 is selected so as to be approximately.

  As a result, the charger 3 minimizes the phase correlation of the television signals received by the telephone signal receiving antenna 30 and the charger signal receiving antenna 31, respectively, and the telephone signal receiving antenna 30 and the charger signal receiving antenna 31. Thus, it is possible to receive television signals arriving from different transmission paths (that is, multipaths) from the transmitting station, and thus, both the telephone signal receiving antenna 30 and the charger signal receiving antenna 31 are televisions by the spatial diversity method. The signal can be received with diversity.

  Then, the central processing unit 20 (FIG. 2) of the mobile phone 2 detects the presence or absence of conduction between specific terminals of the phone connector 7 and the charger connector 11 while the mobile phone 2 is being activated. Whether or not the mobile phone 2 is attached to the charger 3 is detected.

  In this state, when a broadcast program viewing request for digital terrestrial television broadcasting is input via the operation key 12, the central processing unit 20 conducts electrical continuity between specific terminals of the telephone connector 7 and the charger connector 11 at that time. It is determined whether or not the mobile phone 2 is attached to the charger 3 based on the presence / absence detection result.

  As a result, when the mobile phone 2 is not attached to the charger 3, the central processing unit 20 shifts to the single receiver function mode in which the mobile phone 2 functions alone as a receiver for digital terrestrial television broadcasting. The television signal S1 received by the telephone signal receiving antenna 30 is taken into the high frequency demodulator 36 via the signal switching circuit 35 and subjected to demodulation processing including phase adjustment and gain adjustment, and then analog-digital converted by the analog-digital conversion circuit 37. Thus, for example, broadcast program data D1 composed of a digital transport stream conforming to the MPEG (Moving Picture Experts Group) standard is regenerated, and this is decoded by the decoder 38, whereby the program video data D2 of the broadcast program and the program are decoded. Audio data D3 is generated.

  Thus, the central processing unit 20 converts the program video data D2 and the program audio data D3 from digital to analog in the signal processing unit 24, and provides the obtained program video signal S2 on the upper center side of the front plate 4C of the telephone housing 4. The program image is transmitted to the display unit 39 and displayed, and the program audio signal S3 is transmitted to the speaker 27 to output the program audio, thereby allowing the user to view a broadcast program of digital terrestrial television broadcasting.

  When the mobile phone 2 is attached to the charger 3 when the broadcast program viewing request is input, the central processing unit 20 instructs the control unit 16 of the charger 3 to receive the television signal S1. As a result, the mobile phone 2 and the charger 3 are combined to shift to a composite receiver function mode in which the mobile phone 2 and the charger 3 function as a receiver for terrestrial digital television broadcasting, and both the telephone signal receiving antenna 30 and the charger signal receiving antenna 31 are diversity. Operate for reception.

  Here, in digital terrestrial television broadcasting, in practice, a transmission station sequentially alternates a television signal S1 divided into predetermined units and a transmission signal that hardly contributes to the generation of program video and program audio on the receiving side. Is sending to.

  Therefore, the central processing unit 20 receives the television signal (hereinafter referred to as the first television signal) S1A and the transmission signal (hereinafter referred to as the second transmission signal) received by the telephone signal receiving antenna 30. S5A is taken into the signal switching circuit 35.

  The control unit 16 of the charger 3 operates based on the power supplied from the commercial power supply at this time, and receives the television signal (that is, the first television signal S1A) received by the charger signal receiving antenna 31. The television signal is originally the same but shifted in phase due to a difference in communication path. Hereinafter, this television signal will be referred to as a second television signal in particular, and S1B and the transmission signal (that is, the first transmission). The signal S5A is a transmission signal that is originally the same but has a phase shift due to a difference in communication path. Hereinafter, this transmission signal is referred to as a second transmission signal.) S5B is a charger connector 11 and a telephone connector. 7 are sent to the signal switching circuit 35 sequentially.

  The switching control unit 40 is connected to the telephone signal receiving antenna 30 by controlling the signal switching circuit 35 during a period during which a transmission signal is transmitted from the transmitting station (hereinafter referred to as a guard interval period). By switching the connection of the first input terminal 35A and the second input terminal 35B connected to the charger signal receiving antenna 31 to the output terminal 35C at a high speed, the first signal received by the telephone signal receiving antenna 30 is received. Is transmitted as digital first transmission data D5A via the analog-digital conversion circuit 41, and the second transmission signal S5B received by the charger signal receiving antenna 31 is digitally transmitted via the analog-digital conversion circuit 41. As second transmission data D5B.

  Thereby, the switching control unit 40 detects and compares the received electric field strengths of the telephone signal receiving antenna 30 and the charger signal receiving antenna 31 based on the first and second transmission data D5A and D5B, respectively.

  As a result, when the received signal strength of the telephone signal receiving antenna 30 is greater than the received signal strength of the charger signal receiving antenna 31, the switching control unit 40 determines that the telephone signal receiving antenna 30 is the charger signal receiving antenna. By virtue of the fact that the direction in which the antenna gain is maximum than 31 and the direction in which the transmission signal arrives (that is, the same as the direction in which the television signal S1 arrives) match or are close to each other, The telephone signal receiving antenna 30 is selected for receiving the television signal S1.

  Thereafter, the switching control unit 40 controls the signal switching circuit 35 during a period in which the television signal S1 is transmitted from the transmitting station instead of the transmission signal (hereinafter referred to as a television signal transmission period). By connecting the first input terminal 35A to the output terminal 35C, only the first television signal S1A received by the telephone signal receiving antenna 30 is sent to the high frequency demodulator 36 via the signal switching circuit 35.

  Further, when the reception signal strength of the charger signal reception antenna 31 is greater than the reception field strength of the telephone signal reception antenna 30, the switching control unit 40 causes the charger signal reception antenna 31 to be more inward than the telephone signal reception antenna 30. Since the direction in which the antenna gain is maximum and the direction in which the transmission signal arrives (that is, the same as the direction in which the television signal S1 arrives) match or are close to each other, the television signal S1 can be efficiently received. The charger signal receiving antenna 31 is selected to receive the television signal S1.

  As a result, the switching control unit 40 thereafter receives the signal from the charger signal receiving antenna 31 by controlling the signal switching circuit 35 and connecting the second input terminal 35B to the output terminal 35C during the television signal transmission period. Only the second television signal S <b> 1 </ b> B is transmitted to the high frequency demodulator 36 via the signal switching circuit 35.

  In this way, the switching control unit 40 controls the signal switching circuit 35 for each television signal transmission period, and receives the first and second televisions received by the telephone signal receiving antenna 30 and the charger signal receiving antenna 31. By executing switching diversity processing for switching one of the first and second television signals S1A and S1B to be sent to the high-frequency demodulator 36 out of the signals S1A and S1B, the two signal receiving antennas 30 for the telephone and the charger One of the first and second television signals S1A and S1B received by the signal receiving antenna 31 is efficiently received and one with little deterioration, that is, one with good signal quality is selectively transmitted to the high frequency demodulator 36.

  The central processing unit 20 thus selects one of the first and second television signals S1A and S1B received by the telephone signal receiving antenna 30 and the charger signal receiving antenna 31 in the switching diversity process. The first and second television signals S1A and S1B are sent to the high frequency demodulator 36, the analog / digital converter circuit 37, the decoder 38, the signal processor 24, the display unit 39, and the speaker 27 in the same manner as in the single receiver function mode described above. By performing signal processing for viewing the broadcast program (hereinafter referred to as viewing signal processing), the user is allowed to view the broadcast program.

  In the above configuration, when the central processing unit 20 of the mobile phone 1 is requested to view a broadcast program of digital terrestrial television broadcasting via the operation key 12, the television signal reception process stored in the memory 21 in advance is performed. The television signal reception processing procedure RT1 shown in FIG. 4 is executed according to the program.

  When executing the television signal reception processing procedure RT1, the central processing unit 20 determines whether or not the mobile phone 2 is attached to the charger 3 in step SP1.

  If an affirmative result is obtained in step SP1, this indicates that the mobile phone 2 is attached to the charger 3 for charging the secondary battery in the battery pack 6, and at this time the central processing is performed. The unit 20 moves to the following step SP2.

  In step SP2, the central processing unit 20 performs one of the telephone signal receiving antenna 30 and the charger signal receiving antenna 31 having a higher received electric field strength among the telephone signal receiving antenna 30 and the charger signal receiving antenna 31 by switching diversity processing. The received first or second television signal S1A or S1B is switched by the signal switching circuit 35 so as to be sent to the high frequency demodulator 36, and the first and second television signals S1A and S1B are processed for viewing signals. Thus, the user is allowed to view the broadcast program, and the process proceeds to the subsequent step SP3.

  In this way, the central processing unit 20 in the state where the mobile phone 2 is attached to the charger 3, the first and second signals received by the telephone signal receiving antenna 30 and the charger signal receiving antenna 31 by switching diversity processing. By sequentially selecting one of the two television signals S1A and S1B having good signal quality, fading caused by multipath of the television signal S1 transmitted from the transmitting station can be reduced, and thus the program video In addition, it is possible to allow the user to watch the broadcast program while minimizing the deterioration of the program audio.

  On the other hand, if a negative result is obtained in step SP2, this means that the mobile phone 2 is removed from the charger 3 and is being used outside the home. At this time, the central processing unit 20 Control goes to step SP4.

  In step SP4, the central processing unit 20 allows the user to view the broadcast program by processing only the television signal S1 received by the telephone signal receiving antenna 30 for viewing, and then proceeds to step SP3.

  In this way, the central processing unit 20 can receive the television signal S1 by the telephone signal receiving antenna 30 and allow the user to view the broadcast program even when the mobile phone 2 is not attached to the charger 3. .

  In step SP3, the central processing unit 20 determines whether or not to end the viewing of the broadcast program, and if a negative result is obtained, the process returns to step SP1 until a positive result is obtained in step SP3. Cyclically repeats the processing of step SP1-SP2-SP3 or step SP1-SP4-SP3 to receive the television signal S1 by the cellular phone 2 alone or by the cellular phone 2 and the charger 3, and thus broadcast the broadcast program to the user. Watch.

  In step SP3, when the central processing unit 20 obtains an affirmative result by inputting a broadcast program viewing end command via the operation key 12, it proceeds to step SP5 and ends the television signal reception processing procedure RT1. To do.

  According to the above configuration, when the cellular phone 2 is disconnected from the charger 3, only the television signal S1 received by the telephone signal receiving antenna 30 provided in the cellular phone 2 is subjected to viewing signal processing, When the telephone 2 is attached to the charger 3, the first and second received respectively by the telephone signal receiving antenna 30 provided in the mobile phone 2 and the charger signal receiving antenna 31 provided in the charger 3. By selecting one of the first and second television signals S1A and S1B having good signal quality by switching diversity processing among the television signals S1A and S1B in order and processing the signal for viewing, a cellular phone 2 is used alone as a receiver for digital terrestrial television broadcasting, and the mobile phone 2 and charger 3 are combined to provide digital terrestrial television. The number of signal receiving antennas provided in the television signal receiving system 1 for realizing spatial diversity can be reduced by operating the telephone signal receiving antenna 30 in both cases when used as a receiver for television broadcasting. Thus, the television signal receiving system 1 that can improve the signal quality of the television signal S1 with a simple configuration can be realized.

  The television signal receiving system 1 also allows the first and second signals received by the telephone signal receiving antenna 30 and the charger signal receiving antenna 31 when the broadcast program is viewed with the mobile phone 2 attached to the charger 3. TV signals S1A and S1B are switched and diversity-processed, so that the mobile phone 2 can be used for charging a secondary battery in the battery pack 6 in a room such as a home or office. As described above, even in a place where fading is likely to occur due to the multipath of the television signal S1, the signal quality of the television signal S1 is improved by switching diversity processing, and the deterioration of the program video and program audio is suppressed as much as possible. Despite being able to watch programs and thus being within the terrestrial digital television broadcast area Ejingu by it is possible to prevent the signal viewing location of a broadcast program in the deterioration of the quality of the television signal S1 is limited.

  The television signal receiving system 1 operates while charging the secondary battery in the battery pack 6 by the charger 3 when the broadcast program is viewed with the mobile phone 2 attached to the charger 3. , Broadcast programs can be viewed for a long time.

  Further, in the television signal receiving system 1, a charger signal receiving antenna 31 is suspended from the rear end portion of the charger housing 9 in the charger 3, and the mounting portion 10 provided at the front end portion of the charger housing 9. When the broadcast program is viewed with the mobile phone 2 attached to the charger 3 by inserting the lower end portion of the telephone case 4 with the front plate 4C facing the front end side, The signal receiving antenna 31 for the charger is connected to the phone housing for the user who views the program video displayed on the display unit 39 of the mobile phone 2 from the front plate 4C side of the body 4 (that is, the front end side of the charger housing 9). The body 4 can be positioned as far as possible from the back plate 4A side.

  Therefore, in the television signal receiving system 1, the antenna gain decreases when the user receiving the broadcast program is touching the charger signal receiving antenna 31, and the signal quality of the second television signal S1B further exceeds the deterioration due to fading. Deterioration can be prevented, and thus the signal quality of the television signal S1 can be accurately improved by the switching diversity processing.

  In addition to this, in the television signal receiving system 1, the telephone casing 4 of the cellular phone 2 is formed relatively thin, and the front plate 4C of the telephone casing 4 faces the front end side of the charger casing 9. In order to mount the telephone casing 4 on the mounting portion 10 provided at the front end of the upper surface plate 9A of the charger casing 9, the telephone signal receiving antenna 30 provided on the right side of the upper end face plate 4D of the telephone casing 4 is charged. Can be positioned as close as possible to the front side plate of the charger housing 9 (that is, the side plate on the front end side of the charger housing 9), and thus the arrangement of the signal receiving antenna 30 for the telephone and the signal receiving antenna 31 for the charger is provided. Due to the positional relationship (that is, the positional relationship for securing the electrical length L between the telephone signal receiving antenna 30 and the charger signal receiving antenna 31), the charger housing 9 is in the longitudinal direction of the top plate 9A. It is possible to prevent the size of the waste.

  In the first embodiment described above, the case where power is supplied from the commercial power source to the charger 3 has been described. However, the present invention is not limited to this, and the charger 3 The power may be supplied from a secondary battery provided on the mobile body such as the mobile phone 2 in a state where the mobile phone 2 is attached to the charger 3 even when the user gets into the mobile body. The first and second television signals S1A and S1B received by the telephone signal receiving antenna 30 and the charger signal receiving antenna 31 are subjected to switching diversity processing, so that the television signal S1 due to the occurrence of fading even in the moving mobile body. It is possible to improve the degradation of signal quality and allow the user to view a broadcast program.

  Further, in the first embodiment described above, the telephone casing 4 is placed on the upper surface plate 9A of the charger casing 9 with the front panel 4C of the telephone casing 4 facing the front end side of the charger casing 9. Although the case where it mounts | wears with the mounting part 10 provided in the front-end part was described, this invention is not restricted to this, It is provided in the right side surface board (namely, upper end surface board 4D of the telephone housing | casing 4). The telephone case 4 is provided at the front end of the upper surface plate 9A of the charger housing 9 with the side plate from the signal receiving antenna 30 for the telephone facing the front end side of the charger housing 9. You may make it mount | wear to the mounting part which has a rectangular opening whose long side and long side of the upper surface board 9A are parallel.

  Even in the mounting method of the telephone casing 4 to the charger casing 9, the telephone signal receiving antenna 30 provided on the right side of the upper end face plate 4 </ b> D of the telephone casing 4 is positioned as close as possible to the front side panel of the charger casing 9. Thus, it is possible to prevent the charger housing 9 from being unnecessarily enlarged in the longitudinal direction of the upper surface plate 9A due to the positional relationship between the telephone signal receiving antenna 30 and the charger signal receiving antenna 31. be able to.

(2) Second Embodiment FIGS. 5 and 6 in which the same reference numerals are assigned to corresponding parts to those in FIGS. 1 and 2 show a television signal receiving system 50 according to the second embodiment. The configuration is the same as that of the television signal receiving system 1 according to the above-described first embodiment except for the partial circuit configuration of the telephone 51 and the charger 52.

  In this case, the central processing unit 55 of the mobile phone 51 detects the presence / absence of conduction between specific terminals of the phone connector 7 and the charger connector 11 while the mobile phone 51 is being activated. When it is detected whether or not the telephone 51 is attached to the charger 52, and a broadcast program viewing request is input via the operation key 12 in a state where the mobile telephone 51 is not attached to the charger 52, The mobile phone 51 shifts to a single receiver function mode that allows the mobile phone 51 to function alone as a receiver for digital terrestrial television broadcasting.

  As a result, the central processing unit 55 takes in the television signal S1 received by the telephone signal receiving antenna 30 into the high frequency demodulator 56 and performs demodulation processing including phase adjustment and gain adjustment, and then the analog / digital conversion circuit 57 performs analog / digital conversion. Thus, for example, the broadcast program data D1 formed of a digital transport stream conforming to the MPEG standard is regenerated, and this is taken into the decoder 38 via the data synthesizing unit 58 and decoded so that the program video of the broadcast program is obtained. Data D2 and program audio data D3 are generated.

  The central processing unit 55 performs digital-to-analog conversion of the program video data D2 and the program audio data D3 in the signal processing unit 24, and sends the obtained program video signal S2 to the display unit 39 to display the program video. The program audio signal S3 is sent to the speaker 27 to output the program audio, thereby allowing the user to view a broadcast program of terrestrial digital television broadcasting.

  When the mobile phone 51 is attached to the charger 52 when the broadcast program viewing request is input, the central processing unit 55 instructs the control unit 60 of the charger 52 to receive the television signal S1. As a result, the mobile phone 51 and the charger 52 are combined to shift to a composite receiver function mode in which the mobile phone 51 and the charger 52 function as a digital terrestrial television broadcast receiver, and the first television signal S1A received by the telephone signal receiving antenna 30 is obtained. The first broadcast program data D1A is regenerated by analog-to-digital conversion by the analog-digital conversion circuit 57 and taken into the data synthesis unit 58.

  Further, the control unit 60 of the charger 52 operates based on the electric power supplied from the commercial power supply at this time, takes in the second television signal S1B received by the signal receiving antenna 31 for charger into the high frequency demodulating unit 61, and outputs the phase. After performing demodulation processing including adjustment and gain adjustment, the analog-to-digital conversion circuit 62 performs analog-to-digital conversion to regenerate the second broadcast program data D1B composed of, for example, a digital transport stream that conforms to the MPEG standard. The data is sent to the data synthesizer 58 via the charger connector 11 and the telephone connector 7 sequentially.

  The data synthesizer 58 detects the reception S / N (signal / noise) ratio of the first and second broadcast program data D1A and D1B, respectively.

  As a result, if the detected reception signal-to-noise ratio is large, the data synthesis unit 58 has a small noise superimposed on the first and second broadcast program data D1A and D1B. It is determined that the first and second television signals S1A and S1B have been efficiently received by the functional signal receiving antenna 31, and a weighting coefficient having a larger value is selected as the reception S / N ratio is larger.

  On the other hand, if the detected signal S / N ratio is small, the data synthesizer 58 has a large noise superimposed on the first and second broadcast program data D1A and D1B. It is determined that the first and second television signals S1A and S1B received by the functional signal receiving antenna 31 are deteriorated, and a smaller weighting coefficient is selected as the received S / N ratio is smaller.

  Then, the data synthesis unit 58 deteriorates by multiplying the first and second broadcast program data D1A and D1B by multiplying by a weighting coefficient having a value corresponding to the detected reception S / N ratio, respectively. The synthesized broadcast program data D10 is received more efficiently than the first and second television signals S1A and S1B, and the proportion of the first and second television signals S1A and S1B less deteriorated is increased. It is generated and sent to the decoder 38.

  In this way, the central processing unit 55 receives the first and second television signals S1A and S1B obtained by the telephone signal receiving antenna 30 and the charger signal receiving antenna 31, respectively. Diversity processing by maximum ratio combining (hereinafter referred to as maximum ratio combining diversity processing) in which broadcast program data D1A and D1B are weighted and added according to the power S / N ratio is executed to generate composite broadcast program data D10. Then, the generated composite broadcast program data D10 is processed by the signal processing unit 24, the display unit 39, and the speaker 27 in the same manner as the single receiver function mode described above, thereby allowing the user to view the broadcast program.

  In the above configuration, when the central processing unit 55 of the mobile phone 51 is requested to view a broadcast program of digital terrestrial television broadcasting via the operation key 12, the television signal reception process stored in the memory 21 in advance is performed. The television signal reception processing procedure RT2 shown in FIG. 7 is executed according to the program.

  When executing the television signal reception processing procedure RT2, the central processing unit 55 determines whether or not the mobile phone 51 is attached to the charger 52 in step SP11.

  If an affirmative result is obtained in step SP11, this indicates that the mobile phone 51 is mounted for charging the secondary battery in the battery pack 6 with respect to the charger 52. The unit 55 proceeds to subsequent step SP12.

  In step SP12, the central processing unit 55 performs the first and second television signals S1A and S1B based on the first and second television signals S1A and S1B respectively received by the telephone signal receiving antenna 30 and the charger signal receiving antenna 31 by maximum ratio combining diversity processing. The second broadcast program data D1A and D1B are weighted and added using a weighting coefficient corresponding to the received S / N ratio to generate composite broadcast program data D10, and the generated composite broadcast program data D10 is a viewing signal. By processing, the user is allowed to view the broadcast program, and the process proceeds to the subsequent step SP13.

  In this way, the central processing unit 55, in a state where the mobile phone 51 is attached to the charger 52, is the noise superimposed on the first and second broadcast program data D1A and D1B by the maximum ratio combining diversity processing. Is greatly reduced, the fading caused by the multipath of the television signal S1 transmitted from the transmitting station can be compensated, and the quality of the broadcast program data can be improved as the composite broadcast program data D10, thus. It is possible to allow a user to view a broadcast program while minimizing deterioration of program video and program audio.

  On the other hand, if a negative result is obtained in step SP12, this indicates that the mobile phone 51 is removed from the charger 52 and is being used at a place where the mobile phone 51 is located. Control goes to step SP14.

  In step SP14, the central processing unit 55 causes the user to view the broadcast program by processing only the television signal S1 received by the telephone signal receiving antenna 30, thereby proceeding to step SP13.

  In this way, the central processing unit 55 can receive the television signal S1 by the telephone signal receiving antenna 30 and allow the user to view the broadcast program even when the cellular phone 51 is not attached to the charger 52. .

  In step SP13, the central processing unit 55 determines whether or not to end the viewing of the broadcast program. If a negative result is obtained, the process returns to step SP11, and thereafter, until a positive result is obtained in step SP13. Receives the television signal S1 by the mobile phone 51 alone or by the mobile phone 51 and the charger 52 by cyclically repeating the process of step SP11-SP12-SP13 or step SP11-SP14-SP13, and broadcasts the program to the user. To watch.

  In step SP13, when the central processing unit 55 obtains an affirmative result by inputting a broadcast program viewing end command via the operation key 12, it proceeds to the subsequent step SP15 and ends this television signal reception processing procedure RT2. To do.

  According to the above configuration, when the mobile phone 51 is disconnected from the charger 52, the television signal S1 received by the telephone signal receiving antenna 30 provided in the mobile phone 51 is subjected to viewing signal processing, and the mobile phone When 51 is attached to the charger 52, the first and second televisions respectively received by the telephone signal receiving antenna 30 provided in the mobile phone 51 and the charger signal receiving antenna 31 provided in the charger 52. The first and second broadcast program data D1A and D1B based on the John signals S1A and S1B are weighted and added using the weighting coefficient corresponding to the received S / N ratio by maximum ratio combining diversity processing, and the combined broadcast program data D10 By generating the above, it is possible to obtain the same effect as that obtained by the first embodiment described above, and in addition to this, The first and second broadcast program data D1A and D1B are superimposed on the first and second television signals S1A and S1B by weighted addition using a weighting coefficient unit corresponding to the received S / N ratio. The synthesized broadcast program data D10 can be generated with greatly reduced noise, and thus the signal quality of the television signal S1 can be remarkably improved.

  In the above-described second embodiment, the case where power is supplied from the commercial power source to the charger 52 has been described. However, the present invention is not limited to this, and the vehicle is supplied to the charger 52. The power may be supplied from a secondary battery provided on the mobile body such as the mobile phone 51 in a state where the mobile phone 51 is mounted on the charger 52 even when the user gets into the mobile body. A maximum ratio combining diversity process is performed on the first and second broadcast program data D1A and D1B based on the first and second television signals S1A and S1B received by the telephone signal receiving antenna 30 and the charger signal receiving antenna 31. Thus, it is possible to improve the deterioration of the signal quality of the television signal S1 due to the occurrence of fading even in the moving body and allow the user to view the broadcast program.

(3) Other Embodiments In the first and second embodiments described above, the case where the present invention is applied to the television signal receiving system 1 described above with reference to FIGS. 1 to 7 has been described. However, the present invention is not limited to this, and a television signal receiving system constructed from a PDA (Personal Digital Assistance) having a television broadcast receiving function and its charger, a mobile phone or a PDA, and a built-in secondary battery. Various other television signal receiving systems such as a television signal receiving system constructed from a signal receiving device which is operable and has a signal receiving antenna for space diversity as in the case of the chargers 3 and 52 can be used. Can be widely applied.

  In this case, in the television signal receiving system having such a signal receiving device, for example, the signal receiving device is formed so that the charger housing 9 and the charger signal receiving antenna 30 of the chargers 3 and 52 can be folded. Then, the portability of the signal receiving device can be improved.

  In such a television signal receiving system, if the mobile phones 2 and 51 and the PDA are attached to such a signal receiving device, fading is likely to occur in the shadow of the building as seen from the transmitting station of the television signal S1. Thus, it is possible to improve the signal quality of the television signal S1 and allow the user to view a broadcast program in which the deterioration of the program video and the program audio is suppressed as much as possible, and thus, although it is within the broadcasting area of terrestrial digital television broadcasting. In addition, it is possible to further improve that the viewing location of the broadcast program is limited due to the deterioration of the signal quality of the television signal S1 due to fading, as compared with the first and second embodiments described above.

  In the first and second embodiments described above, the case where the mobile phones 2 and 51 described above with reference to FIGS. 1 to 7 are applied as the mobile terminal that is a television broadcast receiver has been described. However, the present invention is not limited to this, and various other portable terminals such as mobile phones and PDAs that receive television signals of terrestrial analog television broadcasting and satellite digital television broadcasting can be widely applied. .

  Further, in the first and second embodiments described above, the chargers 3 and 52 described above with reference to FIGS. 1 to 7 are used as a signal receiving device to which a portable terminal that is a television broadcast receiver is detachably attached. The present invention is not limited to this, but the present invention is not limited to this. For receiving a television signal for a terrestrial analog television broadcast or a satellite digital television broadcast that does not have a PDA charger or a charging function. Various other signal receiving apparatuses such as a signal receiving apparatus can be widely applied.

  Furthermore, in the first and second embodiments described above, FIGS. 1 to 7 are described as the first signal receiving antenna that receives the television signal transmitted from the transmitting station as the first television signal. Although the case where the telephone signal receiving antenna 30 formed of a whip antenna is applied has been described, the present invention is not limited to this, and various other first signal receiving antennas such as a plate antenna can be widely used. Can be applied.

  Furthermore, in the first and second embodiments described above, the second television that is received and transmitted as a second television signal from the signal receiving device when mounted on the signal receiving device. Although the case where the telephone connector 7 described above with reference to FIGS. 1 to 7 is applied as the signal capturing means for capturing the John signal has been described, the present invention is not limited to this, and the signal receiving device and the portable terminal Various other signal capturing means can be widely applied, such as an infrared light receiving unit according to the communication system of the second television signal.

  Furthermore, in the first and second embodiments described above, the first television signal received by the first signal receiving antenna and the second captured by the signal capturing means when mounted on the signal receiving device. As diversity processing means for diversity processing with respect to a television signal, the switching control unit 40 and signal switching circuit 35 for executing the switching diversity processing described above with reference to FIGS. 1 to 7, and the data combining unit 58 for executing maximum ratio combining diversity processing. However, the present invention is not limited to this, and various other diversity processing means such as a diversity processing circuit that executes diversity processing by the selective combining method or the equal gain combining method are used. Can be widely applied.

  Further, in the first and second embodiments described above, only the first television signal received by the first signal receiving antenna is processed for viewing a broadcast program when not attached to the signal receiving device. The high frequency demodulation described above with reference to FIG. 1 to FIG. 7 as signal processing means for signal processing the diversity processing result of the first television signal and the second television signal by the diversity processing means when attached to the signal receiving device. Unit 36, analog / digital conversion circuit 37, decoder 38, central processing unit 20, signal processing unit 24, display unit 39 and speaker 27, decoder 38, central processing unit 55, signal processing unit 24, display unit 39 and speaker 27. Although the case where it applied is described, this invention is not limited to this, The first signal receiving antenna is not attached to the signal receiving device. Only the received first television signal is subjected to signal processing for viewing a broadcast program, and the diversity processing result of the first television signal and the second television signal by the diversity processing means when mounted on the signal receiving device. Can be widely applied to other various signal processing means.

  Further, in the first and second embodiments described above, FIGS. 1 to 7 are described as the second signal receiving antenna that receives the television signal transmitted from the transmitting station as the second television signal. Although the case where the signal receiving antenna 31 for a charger composed of a whip antenna is applied has been described, the present invention is not limited to this, and a plurality of whip antennas for space diversity and one or a plurality of plate-like antennas are used. Various other second signal receiving antennas such as an antenna can be widely applied.

  Further, in the first and second embodiments described above, as a signal sending means for sending the second television signal received by the second signal receiving antenna to the portable terminal when the portable terminal is mounted, FIG. Although the case where the control units 16 and 60 and the charger connector 11 described above with reference to FIG. 7 are applied has been described, the present invention is not limited to this, and the second television between the signal receiving device and the portable terminal. Various other signal transmitting means can be widely applied, such as an infrared emitting unit corresponding to a signal communication method.

  Further, in the first and second embodiments described above, the reception field strength detection means for periodically detecting the reception field strengths of the first and second signal reception antennas has been described above with reference to FIGS. Although the case where the switching control unit 40 is applied has been described, the present invention is not limited to this, and various other received field strength detecting means such as a received field strength detection circuit independent of the switching control unit 40 are provided. Can be widely applied.

  Further, in the first and second embodiments described above, the reception S / N ratio detecting means for detecting the reception S / N ratio of the first and second television signals has been described above with reference to FIGS. Although the case where the data synthesizing unit 58 is applied has been described, the present invention is not limited to this, and various other receiving S / Ns such as a receiving S / N ratio detection circuit independent of the data synthesizing unit 58 are described. The ratio detection means can be widely applied.

  Further, in the first and second embodiments described above, the first and second television signals are multiplied by a weighting coefficient corresponding to the received S / N ratio detected by the received S / N ratio detecting means. As the combining means for executing the maximum ratio combining diversity processing by weighted addition, the high frequency demodulation sections 56 and 61, the analog-digital conversion circuits 57 and 62, and the data combining section 58 described above with reference to FIGS. 1 to 7 are applied. Although the present invention is not limited to this, the present invention is not limited to this, and various other combinations such as a combining unit that performs maximum ratio combining diversity processing on the first and second television signals S1A and S1B in an analog stage. The means can be widely applied.

  Further, in the first and second embodiments described above, the terminal housing in which the first signal receiving antenna is disposed at a predetermined position is formed in the shape of a vertically long and relatively thin rectangular solid described above with reference to FIGS. However, the present invention is not limited to this, and the present invention is not limited to this, and the first and second relatively thin rectangular parallelepiped shapes formed so as to be foldable via the hinge portion. Various other terminal casings such as a casing can be widely applied.

  Further, in the first and second embodiments described above, the terminal housing has a mounting portion mounted on one end portion of the predetermined face plate with the front plate facing the one end portion side, and the other end portion of the predetermined face plate. A case where the charger housing 9 in which the top plate 9A described above with reference to FIGS. 1 to 7 is formed in a rectangular parallelepiped shape is applied as the device housing in which the second signal receiving antenna is disposed. However, the present invention is not limited to this, and various other apparatus housings can be widely applied, such as the first and second housings that can be folded via the hinge portion. .

  The present invention can be used in a television signal receiving system such as a mobile phone and a charger, a mobile phone and a signal receiving device.

1 is a schematic perspective view showing a first embodiment of the overall configuration of a television signal receiving system according to the present invention. It is a block diagram which shows the circuit structure of a mobile telephone and a charger. It is a rough-line perspective view with which it uses for description of arrangement | positioning of the signal receiving antenna for telephones and the signal receiving antenna for chargers when a mobile telephone is mounted | worn with the charger. It is a flowchart which shows a television signal reception processing procedure. It is a rough-line perspective view which shows the whole structure of the television signal receiving system by 2nd Embodiment. It is a block diagram which shows the circuit structure of a mobile telephone and a charger. It is a flowchart which shows a television signal reception processing procedure.

Explanation of symbols

50 …… Television signal receiving system, 2, 51 …… Mobile phone, 3, 52 …… Charger, 4 …… Telephone casing, 6 …… Battery pack, 7 …… Telephone connector, 9 …… Charger casing Body 10... Mounting portion 11. Charger connector 14. Charging circuit 16 60 control unit 20 55 central processing unit 24 signal processing unit 27 speaker 30 …… Signal receiving antenna for telephone, 31 …… Signal receiving antenna for charger, 35 …… Signal switching circuit, 36, 56, 61 …… High frequency demodulator, 37, 41, 57, 62 …… Analog / digital conversion circuit, 38... Decoder, 39... Display unit, 40... Switching control unit, 56 and 61... High frequency demodulation unit, 57 and 62. , S1A ... First television signal, S1B... Second television signal, D1A... First broadcast program data, D1B... Second broadcast program data, D10... Composite broadcast program data, RT1, RT2. Television signal reception processing procedure.

Claims (11)

A television signal receiving system constructed from a portable terminal that is a receiver of a television broadcast and a signal receiving device that is detachably mounted on the portable terminal,
The mobile device
A first signal receiving antenna for receiving a television signal transmitted from a transmitting station as a first television signal;
A signal capturing means for capturing the second television signal transmitted by receiving the television signal from the signal receiving device as a second television signal when mounted on the signal receiving device;
Diversity processing for diversity processing of the first television signal received by the first signal receiving antenna and the second television signal captured by the signal capturing means when attached to the signal receiving device Means,
When not mounted on the signal receiving device, only the first television signal received by the first signal receiving antenna is processed for viewing a broadcast program, and when mounted on the signal receiving device, the diversity is processed. Signal processing means for performing signal processing on the result of the diversity processing of the first television signal and the second television signal by the processing means,
The signal receiving device is
A second signal receiving antenna for receiving the television signal transmitted from the transmitting station as the second television signal;
A television signal receiving system comprising: signal sending means for sending the second television signal received by the second signal receiving antenna to the portable terminal when the portable terminal is attached. The diversity processing means of the mobile terminal is:
Signal switching means for switching between the first television signal and the second television signal to be processed by the signal processing means;
Receiving field strength detecting means for periodically detecting the receiving field strength of the first and second signal receiving antennas;
Based on the received electric field strength detected by the received electric field strength detecting means, the first or second signal receiving antenna having the higher received electric field strength among the first and second signal receiving antennas is used. 2. The television signal according to claim 1, further comprising: a switching control unit configured to control the signal switching unit so as to select the first or second television signal and to perform switching diversity processing. Receiving system. The diversity processing means of the portable wireless device is:
Receiving S / N ratio detecting means for detecting a receiving S / N ratio of the first and second television signals;
Maximum ratio combining diversity processing is performed by multiplying the first and second television signals by weighting coefficients corresponding to the reception S / N ratio detected by the reception S / N ratio detection means and multiplying them by weighting. The television signal receiving system according to claim 1, further comprising: a combining unit that executes The mobile device
A terminal housing in which the first signal receiving antenna is disposed at a predetermined position;
Provided on the front plate of the terminal housing, and displaying means for displaying the program video of the broadcast program,
The signal receiving device is
The terminal housing has a mounting portion mounted on one end portion of the predetermined face plate with the front plate facing the one end portion side, and the second signal receiving antenna is disposed on the other end portion of the predetermined face plate. The television signal receiving system according to claim 1, further comprising an apparatus housing. The signal receiving device is
When the terminal casing is mounted on the apparatus casing, the electrical length between the first and second signal receiving antennas is about ¼ wavelength with respect to the wavelength of the broadcast frequency of the television signal. The television signal receiving system according to claim 4, wherein an arrangement position of the second signal receiving antenna is selected. The mobile device
A mobile phone,
The signal receiving device is
The television signal receiving system according to claim 1, comprising a charger for charging a secondary battery provided in the mobile phone. A portable terminal that is detachably attached to a signal receiving device and is a television broadcast receiver,
A first signal receiving antenna for receiving a television signal transmitted from a transmitting station as a first television signal;
The second television signal transmitted by receiving and transmitting the television signal as a second television signal by a second signal receiving antenna provided in the signal receiving device when mounted on the signal receiving device. A signal capturing means for capturing;
Diversity processing for diversity processing of the first television signal received by the first signal receiving antenna and the second television signal captured by the signal capturing means when attached to the signal receiving device. Means,
When not mounted on the signal receiving device, only the first television signal received by the first signal receiving antenna is processed for viewing a broadcast program, and when mounted on the signal receiving device, the diversity is processed. A portable terminal comprising: signal processing means for performing signal processing on the result of the diversity processing of the first television signal and the second television signal by the processing means. A signal receiving device that detachably attaches a portable terminal that receives a television signal transmitted from a transmitting station as a first television signal and receives and processes the broadcast signal for viewing a broadcast program,
When the portable terminal is mounted, when the television signal transmitted from the transmitting station is received as the first television signal by the first signal receiving antenna provided in the portable terminal, the transmitting station A second signal receiving antenna for receiving the television signal transmitted from as a second television signal;
Diversity processing of the second television signal received by the second signal receiving antenna and the first television signal received by the first signal receiving antenna and the second television signal And a signal sending means for sending to the portable terminal. A television signal reception processing method by a television signal receiving system constructed from a portable terminal that is a receiver of a television broadcast and a signal receiving device that is detachably attached to the portable terminal,
When the portable terminal is attached to the signal receiving apparatus, the first signal receiving antenna provided in the portable terminal receives a television signal as the first television signal and is provided in the signal receiving apparatus. A television signal receiving step of receiving the television signal as a second television signal by the second signal receiving antenna;
A diversity processing step of performing diversity processing on the first and second television signals received by the first and second signal receiving antennas. A television signal reception processing method for a mobile terminal, which is detachably attached to a signal reception device and is a television broadcast receiver,
When the portable terminal is attached to the signal receiving device, the first signal receiving antenna provided in the portable terminal receives the television signal transmitted from the transmitting station as the first television signal, and A second signal receiving antenna provided in the signal receiving apparatus receives the television signal transmitted from the transmitting station as a second television signal, and captures the received second television signal. A signal capture step;
A diversity processing step of performing a diversity process on the first television signal received by the first signal receiving antenna and the second television signal captured from the signal receiving device; Television signal reception processing method for portable terminal. A television signal reception processing method for a signal receiving apparatus that detachably attaches a portable terminal that receives a television signal transmitted from a transmission station as a first television signal and performs reception processing for viewing a broadcast program. ,
When the television signal transmitted from the transmitting station is received as the first television signal by the first signal receiving antenna provided in the portable terminal attached to the signal receiving device, the signal reception is performed. A television signal receiving step of receiving the television signal transmitted from the transmitting station as a second television signal by a second signal receiving antenna provided in the apparatus;
Diversity processing of the second television signal received by the second signal receiving antenna with respect to the first television signal received by the first signal receiving antenna and the second television signal And a signal sending step for sending to the portable terminal for the purpose.

Images