JP2004364095A - Receiver and reception controlling method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prolong the lifetime of a battery by making a switch to a broadcasting service with small power consumption at the time of driving the battery. <P>SOLUTION: A television receiver 1 is provided with a first reception reproducing means (11a and 12a) for reproducing broadcast contents corresponding to a frequency band by receiving all of a plurality of segments, a second reception reproducing and outputting means (11b and 12b) for reproducing broadcast contents corresponding to the frequency band by receiving a portion of the plurality of segments, a power generating means (16) for generating power from either an external power feeding means or an internal power feeding means, a determining means (16 and 17) for determining whether the generated power is generated by the external power feeding means or by the internal power feeding means, and an operation control means (16 and 17) for operating either the first reception reproducing means or the second reception reproducing means according to a determination result by the determining means. When the power generated by the power generating means is generated by the internal power feeding means, if the first reception reproducing is prevented from operating, the power consumption of a receiver can be suppressed because the first reception reproducing means has larger power consumption than the second reception reproducing means to be able to prolong the lifetime of an internal power source (that is, battery). <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a receiver that is applied to a terrestrial digital broadcasting system and receives data distributed from the broadcasting system, and a reception control method in an electronic device.
[0002]
[Prior art]
ISDB-T (Integration Services Digital Broadcasting Terrestrial) is a technical standard for digital terrestrial broadcasting in Japan, which was established in 1999. The greatest feature of the ISDB-T system is that one broadcast channel has a multiplex structure (for example, see Non-Patent Document 1). That is, 13 transmission units (bandwidth of about 429 KHz) called "segments" are multiplexed in a frequency band (channel) of about 5.75 MHz assigned to one carrier.
[0003]
The operator combines segments to form a high-definition (high-definition) digital television broadcast (HDTV) for fixed receivers, a standard digital television broadcast (SDTV) for fixed or mobile receivers, Simultaneously, a simple moving image broadcast such as a mobile phone, a PDA (Personal Digital Assistance), or a car navigation system is simultaneously cast. Simulcast (SIMULCAST: a composite word of Simultaneous and Broadcast) refers to broadcasting of "simultaneous contents." Also called simulcast.
[0004]
FIG. 10 is a diagram showing an example of terrestrial digital broadcasting services and the concept of reception thereof. In this figure, two service examples are shown. One is a service for simulcasting a 12-segment high-definition broadcast or a standard broadcast and a one-segment simple video broadcast (see the example of channel X in the figure), and the other is a 9-segment high-definition broadcast. And a service for simulcasting a three-segment standard broadcast and a one-segment simple moving image broadcast (see the example of channel Y in the figure). For the time being, terrestrial digital broadcasting in Japan is considered to provide the former service (simultaneous casting of "12-segment broadcasting" and "1-segment broadcasting").
[0005]
As described above, in the ISDB-T system, since 12-segment broadcasting and 1-segment broadcasting are simulcast for the time being, viewers can receive 12-segment broadcasting using a fixed receiver or use a portable receiver. To receive a one-segment broadcast, or to receive a 12-segment broadcast or a one-segment broadcast using a small portable digital television receiver. You can enjoy the broadcast of the contents flexibly.
[0006]
[Non-patent document 1]
"Digital Broadcasting Textbook (Bottom)" IDG Japan Co., Ltd., first edition published on February 1, 2003, pages 48-50
[0007]
[Problems to be solved by the invention]
By the way, when receiving a 12-segment broadcast using a portable small digital TV receiver, especially when the digital TV receiver is powered by a battery, the battery needs to be as long as possible. However, since many circuits (tuning circuit, demodulation circuit, decoding circuit, etc.) corresponding to the number of segments operate at the same time, the power consumption is relatively large and it is difficult to meet the above-mentioned demand (extension of battery life). is there.
[0008]
Therefore, an object of the present invention is to extend the life of a battery by switching to a broadcasting service that consumes less power when the battery is driven, particularly in a digital television receiver that can be driven by a battery.
[0009]
[Means for Solving the Problems]
The present invention is a receiver for receiving data distributed from a broadcasting system including a plurality of segments in a frequency band, and receiving all of the plurality of segments to broadcast contents corresponding to the frequency band. A first receiving / reproducing means for reproducing, a second receiving / reproducing output means for reproducing a broadcast content corresponding to the frequency band by receiving a part of the plurality of segments, an external power supply means, Power supply means, power supply generation means for generating power from either the external power supply means or the internal power supply means, and whether the power supply generated by the power supply means is generated by the external power supply means Determining means for determining whether or not the signal is generated by the internal power supply means; and a first reception / reproduction means, Further comprising an operation control means for operating one of the second receiving and reproducing means is characterized in.
According to the present invention, when the power generated by the power generation unit is generated by the internal power supply unit, the second reception and reproduction unit is operated, in other words, the first reception and reproduction unit is operated. If the first receiving / reproducing means is not operated, the power consumption of the first receiving / reproducing means is larger than that of the second receiving / reproducing means. Can be achieved.
In a preferred aspect of the present invention, the display device further comprises display means for displaying a screen for setting a determination condition of the determination means on a display.
In this aspect, the user can arbitrarily set the judgment condition of the judgment means on the screen displayed on the display. For this reason, free customization suitable for each user's use environment becomes possible, and usability can be improved.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the specification or examples of various details and examples of numerical values, character strings, and other symbols are merely reference for clarifying the idea of the present invention, and all or some of them Obviously, the idea of the invention is not limited. In addition, well-known techniques, well-known procedures, well-known architectures, and well-known circuit configurations (hereinafter, “known matters”) will not be described in detail, but this is also for the purpose of simplifying the description, It does not intentionally exclude all or some of the matters. Such a well-known matter can be known to those skilled in the art at the time of filing the present invention, and is naturally included in the following description.
[0011]
FIG. 1 is a conceptual diagram of a system including a terrestrial digital television receiver according to an embodiment. A terrestrial digital television receiver (hereinafter, simply referred to as a "television receiver") 1 is a portable type, and a liquid crystal display is provided on the front surface of a body 2 having an external shape (small and thin shape in the figure) suitable for carrying. A flat display panel (with a touch panel) 3 such as a panel, an operation button group 4 such as a channel selection button and the like, and a speaker sound hole 5 are arranged, and a receiving rod is provided at an arbitrary position (upper side in the figure) of the body 2. An antenna 6 is mounted, and a DC jack 7 is provided at an arbitrary position (right side in the figure) of the body 2. The television receiver 1 corresponds to a receiver, and the flat display panel 3 corresponds to a display.
[0012]
The illustrated television receiver 1 operates by a dual power supply system of an internal power supply and an external power supply. That is, the television receiver 1 is provided with an AC / DC converter 8 (also simply referred to as an AC adapter or a DC adapter) that converts a commercial power supply (AC 100 V) into a predetermined DC voltage and outputs the DC voltage. When operated by an external power supply, the AC plug 8a of the AC / DC converter 8 is inserted into a power outlet, and the DC plug 8b is inserted into the DC jack 7. When operated by the internal power supply, the DC plug 8b is connected to the DC jack 7. You can remove it from.
[0013]
Note that, instead of the AC / DC converter 8, a DC / DC converter that converts a battery voltage (DC12V, DC24V, or DC42V) of a vehicle such as an automobile into a predetermined DC voltage and outputs the same may be used. When using either the AC / DC converter 8 or the DC / DC converter, the voltage applied to the DC jack 7 is both "external power supply".
[0014]
FIG. 2 is a block diagram of the television receiver 1. The television receiver 1 includes therein a receiving unit 10, a demodulation unit 11, a decoding unit 12, a display control unit 13, an audio output unit 14, a speaker 15, a power control unit 16, a central control unit 17, an operation unit 18, and the like. It is comprised including.
[0015]
Explaining each unit, the receiving unit 10 is a tuning circuit (tuner) that receives an ISDB-T television signal (see a terrestrial digital broadcast signal in FIG. 1). For all (n: n is 50 channels from 13 to 62 channels of UHF) television signals, the same number of tuning blocks corresponding to 13 segments of each reception channel are provided. The receiving unit 10 selectively operates an arbitrary tuning block of an arbitrary channel to receive a segment corresponding to the tuning block. S1 to S13 in the figure schematically represent 13 tuning blocks of a certain reception channel. A vertically long rectangular figure composed of the same block schematically represents one reception channel. That is, the number of vertically elongated rectangular figures is the same as the number n of channels, and each of the rectangular figures has a schematic structure in which thirteen tuning blocks S1 to S13 are mounted.
[0016]
As described at the beginning, terrestrial digital broadcasting in Japan is considered to be a simultaneous cast of “12-segment broadcasting” and “1-segment broadcasting” for the time being, and in this case, the 12-segment broadcasting is the seventh segment ( Twelve segments (segments corresponding to blocks S1 to S6 and S8 to S13) except for the segment corresponding to block S7 are used, and one segment broadcast uses a seventh segment (segment corresponding to block S7). . As will be described later in detail, the television receiver 1 of the present embodiment can selectively receive a 12-segment broadcast and a 1-segment broadcast.
[0017]
The demodulation unit 11 demodulates 12 or 1 segment of an arbitrary reception channel extracted by the reception unit 10 by a method corresponding to OFDM (Orthogonal Frequency Division Multiplexing). According to the ISDB-T system, 13 segments can be divided into groups having a maximum of three different modulation systems. For example, 64 QAM (Quadrature Amplitude Modulation) and 1 segment broadcasting are used for 12 segment broadcasting. A modulation method such as DQPSK (Differential Quadrature Phase Shift Keying) can be used for the.
[0018]
Hereinafter, assuming that 64QAM is used for 12-segment broadcasting and DQPSK is used for 1-segment broadcasting, the demodulation unit 11 includes a 64QAM demodulation block 11a and a DQPSK demodulation block 11b. The demodulation unit 11 also deactivates the demodulation block of the 12-segment broadcast (that is, the 64-QAM demodulation block 11a) at the time of receiving at least one-segment broadcast, similarly to the reception unit 10 described above, in a state in which no power is consumed. ). The 64QAM demodulation block 11a corresponds to a part of the first reception / reproduction means, and the DQPSK demodulation block 11b corresponds to a part of the second reception / reproduction means.
[0019]
The decoding unit 12 is for expanding the 12-segment broadcast or the 1-segment broadcast demodulated by the demodulation unit 11 and their voices using an algorithm suitable for each compression method. For example, the decoding unit 12 is an MPEG (Moving Picture Experts Group). 12 segment ("SEG" in the figure is an abbreviation of a segment), which is expanded by a broadcast decoding block 12a, H.-2. It includes a 1-segment broadcast decoding block 12b that expands according to H.264 or MPEG-4, and an audio decoding block 12c that expands using MPEG-2_AAC (Advanced Audio Coding). Then, similarly to the above-described receiving unit 10 and demodulating unit 11, the decoding unit 12 sets the 12-segment broadcast decoding block 12a to a state in which power is not consumed when receiving at least one segment broadcast. The 12-segment broadcast decoding block 12a corresponds to a part of the first receiving and reproducing unit, and the 1-segment broadcasting decoding block 12b corresponds to a part of the second receiving and reproducing unit.
[0020]
The display control unit 13 controls display of the flat display panel 3. This display control is a mode used during normal use, that is, a video signal of a 12-segment broadcast or a 1-segment broadcast decoded by the decoding unit 12 is output to the flat display panel 3 to display images of those broadcasts. There are at least two modes: a normal mode to be performed and a mode used for initial settings and the like, for example, a setting mode for displaying a system setting selection screen described later.
[0021]
The audio output unit 14 drives the speaker 15 by amplifying the audio signal of the 12-segment broadcast or the audio signal of the 1-segment broadcast decoded by the decoding unit 12. The audio output unit 14 may be configured to generate an electronic operation sound and drive the speaker 15 when a later-described system setting selection screen is displayed on the flat display panel 3.
[0022]
The power control unit 16 receives signals from one of an internal power supply (hereinafter, simply referred to as a “battery”) 19 of the television receiver 1 and an external power supply applied to the DC jack 7 (reception unit 10, demodulation unit 11, It generates various internal power supplies Va necessary for the decoding unit 12, the display control unit 13, the audio output unit 14, the central control unit 17, the flat display panel 3, and the like.
[0023]
FIG. 3 is a block diagram illustrating an example of the power control unit 16. In this figure, the power supply control unit 16 detects the voltage of the DC jack 7 (that is, the voltage of the external power supply) Ext, and the voltage detection circuit 16a detects when the voltage detection circuit 16a does not detect the voltage Ext of the external power supply. While the voltage Eint is selected, when the voltage detection circuit 16a detects the voltage Eext of the external power supply, the voltage selection circuit 16b that selects the voltage Eext and the television set based on the voltage (Ext or Eint) selected by the voltage selection circuit 16b. A power supply generation circuit 16c that generates various internal power supplies Va necessary for the operation of each section of the receiver 1 and the above-described internal power supply Va are distributed to supply the distributed voltages Va1 to Van to the respective sections of the television receiver 1. And a distribution circuit 16d.
[0024]
Although the number of transmission lines of the internal power supply Va is one in the drawing, the number of lines does not always match the type of the internal power supply Va. For example, Va may be a set of different voltages.
[0025]
Here, the detection result of the voltage detection circuit 16a is output to the central control unit 17 as a power supply type notification signal (a signal notifying the type of the power supply from which Va is generated). The control signal from the central control unit 17 is input to the distribution circuit 16d. The distribution circuit 16d individually turns on / off each of the distribution voltages Va1 to Van supplied to each unit of the television receiver 1 based on the control signal. Therefore, the power control unit 16 has the following functions.
[0026]
That is, the power supply control unit 16 has a function of determining the type of power supply that is the generation source of the internal power supply Va. Generally, an electronic device of a dual power supply system of an external power supply and an internal power supply gives priority to an external power supply. Therefore, if the television receiver 1 according to the present embodiment follows the example, the power supply control unit 16 When an external power supply is applied to the DC jack 7, various internal power supplies Va are generated from the external power supply (voltage Ext) regardless of the presence or absence of the battery 19. The internal power supply Va is generated from the voltage Eint.
[0027]
In addition, the power supply control unit 16 has a function of notifying the above-described determination result (the result of determining whether or not the external power is being applied to the DC jack 7) to the central control unit 17, and responds to the notification to the central control unit 17. It has a function of individually turning on and off various internal power supplies Va in accordance with a predetermined control signal returned from the control unit 17. Here, the internal power supply that is turned off is at least a block that is deactivated at the time of receiving one-segment broadcast (blocks S1 to S6 and S8 to S13 of receiving unit 10, 64QAM demodulating block 11a of demodulating unit 11). , An internal power supply to the 12-segment broadcast decoding block 12a) of the decoding unit 12.
[0028]
Next, the central control unit 17 is a part that controls the operation of the television receiver 1, and is configured by, for example, a microcomputer. The central control unit 17 performs a normal television reception control, for example, switching of a reception channel or a flat type, in accordance with an operation signal from an operation unit 18 including an operation button group 4 (see FIG. 1) such as a channel selection button. The display of the display panel 3 is adjusted, and the volume of the speaker 15 is adjusted. In addition, the central control unit 17 continuously or periodically executes “power control” described below, and displays a system setting selection screen on the flat display panel 3 as necessary, so that the The user is prompted to select a “power control mode” described later, and the selected information is stored in a memory (not shown).
[0029]
FIG. 4A is a diagram illustrating a conceptual flowchart of “power control” executed by the central control unit 17. In this flowchart, the central control unit 17 determines whether or not external power is currently applied to the DC jack 7 based on the notification signal from the power control unit 16 (step S11). If the external power is applied, the "12-segment broadcast receiving mode" is selected (step S12). If the external power is not applied, the "1-segment broadcast receiving mode" is selected (step S13). In any case, the process returns to step S11.
[0030]
FIG. 4B is a diagram illustrating a comparison table between the “12-segment broadcast reception mode” and the “1-segment broadcast reception mode”. When the 12-segment broadcast reception mode is selected, power is supplied to the 12-segment blocks (S1 to S6, S8 to S13) of the reception unit 10, the 64QAM block 11a of the demodulation unit 11, and the 12-segment decoding block 12a of the decoding unit 12. Supplied. On the other hand, when the one-segment broadcast reception mode is selected, power is supplied to the one-segment block (S7) of the reception unit 10, the DQPSK block 11b of the demodulation unit 11, and the one-segment decoding block 12b of the decoding unit 12. Note that power is supplied to blocks not described in the comparison table regardless of the type of mode.
[0031]
Now, in the comparison table, attention is paid to “power supply”. However, in terms of “non-power supply”, at least when the 1-segment broadcast reception mode is selected, the 12 Since power is not supplied to the tuning blocks (S1 to S6, S8 to S13), the 64QAM block 11a of the demodulation unit 11, and the 12-segment decoding block 12a of the decoding unit 12, these blocks are in a state of stopping operation.
[0032]
Therefore, according to the above embodiment, when external power is applied (“YES” in step S11), “12-segment broadcast reception mode” is selected (step S12), and television broadcasting of good image quality is performed. Can be received. If the external power supply is not applied (“NO” in step S11), it is determined that the television receiver 1 is operating on the internal power supply (battery 19), and “1 segment broadcast reception mode” is selected. (Step S <b> 13), the blocks unnecessary for the reception of the one-segment broadcast are deactivated, the power consumption is suppressed, and the life of the battery 19 can be extended.
[0033]
In addition, the extension of the present invention is not limited to the above-described embodiment, and naturally includes various modifications and developments within the scope of the technical idea.
[0034]
FIG. 5 is a diagram showing a development example. In the above embodiment, the “12-segment broadcast receiving mode” and the “1-segment broadcast receiving mode” are switched by determining whether the power source is the external power source or the internal power source. There are two types of batteries, high performance batteries such as alkaline batteries and NiCad batteries, and low performance batteries such as manganese batteries. Here, “performance” refers to a discharge time during which a rated voltage can be maintained when the same load is connected. A battery with a long discharge time is called high performance, and a battery with short discharge time is called low performance.
[0035]
When a high-performance battery is used, the "12-segment broadcast reception mode" may be selected with priority on image quality as long as the usage time is short. When a low-performance battery is used, it is desirable to select the “one-segment broadcast reception mode” with time priority. As described above, even if the internal power supply is simply used, the “12-segment broadcast reception mode” or the “1-segment broadcast reception mode” may be selected depending on the performance of the battery 19, or on a case-by-case basis.
[0036]
The illustrated development example is adapted to flexibly cope with such a case. That is, a switch 20 for switching the battery type is provided at an appropriate place on the body 2 of the television receiver 1 (in the battery box 2a in the illustrated example). The switch 20 is, for example, a slide type switch that can be switched between two positions, a high performance position and a low performance position. When a high-performance battery 19 is inserted into the battery box 2a, the switch 20 is set to the high-performance position, and when a low-performance battery 19 is inserted, the switch 20 is set to the low-performance position.
[0037]
FIG. 6 is a diagram showing a conceptual flowchart of the above-mentioned "power control" (see FIG. 4A) improved in accordance with this development example. In this flowchart, the difference from the above “power control” is that when it is determined that the battery 19 is not an external power source, in other words, when it is determined that the battery is an internal power source, the battery 19 used as the internal power source is That is, a process (step S21) for determining whether or not the device is high-performance is added. If the battery 19 is a high-performance battery, the "12-segment broadcast receiving mode" is selected (step S12). If the battery 19 is a low-performance battery, the "1-segment broadcast receiving mode" is selected (step S13). The determination of high performance or low performance is made by checking the position of the switch 20. In this way, the "12-segment broadcast receiving mode" and the "1-segment broadcast receiving mode" can be selected alternatively according to the performance of the battery.
[0038]
In the above-described development example, the type of the battery is artificially determined and the switch 20 is switched. However, since this method is troublesome and the possibility of a determination error cannot be denied, it is desirable to automate the method. .
FIG. 7 shows an example in which the type of battery is improved so that it can be automatically determined. In this figure, a battery 19 'is a rechargeable battery, that is, a secondary battery. A charging circuit 16d is connected to the secondary battery 19 '. When an external power is applied to the DC jack 7, the charging circuit 16d charges the secondary battery 19' using the external power.
[0039]
On the other hand, a temperature sensor 16e is provided in contact with (or in the vicinity of) the secondary battery 19 ', and the output of the temperature sensor 16e is input to the battery type determination circuit 16f. Here, the type of the secondary battery 19 ′ is, for example, a nickel-cadmium battery or a nickel-metal hydride battery, and it is known that there is a difference in temperature change during charging depending on the type. (See, for example, column [0016] of JP-A-6-251802).
[0040]
Therefore, the battery type determination circuit 16f shown in the drawing checks the change tendency of the battery temperature (output of the temperature sensor 16e) during charging of the secondary battery 19 ', and registers the temperature change pattern for each battery type registered in advance. The type of the secondary battery 19 'can be automatically determined by collating with.
[0041]
By doing so, it is not necessary to make an artificial determination of the battery type, and it is not necessary to switch the switch 20 one by one, so that it is possible to reduce labor and eliminate erroneous determination.
[0042]
FIG. 8A is a diagram showing another development example. In the above embodiment, when the internal power supply (or the low-performance battery 19) is used, the “one-segment broadcast reception mode” is unconditionally selected. However, in this mechanism, for example, power consumption is sacrificed. However, it cannot cope with the case where the user wants to give priority to the image quality.
[0043]
Therefore, in the illustrated example of development, when displaying the system setting selection screen on the flat display panel 3, the power control mode setting screen (screen) 21 is displayed. The power control mode setting screen 21 is configured by appropriately laying out some graphical button objects. For example, a button 21a for automatic selection, a button 21b for not automatic selection, an OK button 21c, a cancel button 21d, and the like are appropriately laid out. The button 21a for automatic selection and the button 21b for non-automatic selection can be selectively pressed (touch operation on the touch panel). When the button 21a for automatic selection is pressed, the internal power supply (or the low-performance battery 19) is pressed. ) Is unconditionally selected and the "1 segment broadcast receiving mode" is unconditionally selected, and if the button 21b which is not automatically selected is pressed, the "12 segment broadcast receiving mode" is selected regardless of the power supply type. The operator presses the OK button 21c to confirm these pressing operations, and presses the cancel button 21d to invalidate them.
[0044]
In this way, for example, when operating with the internal power supply, if the user wants to prioritize the image quality even at the expense of power consumption, the user can press the button 21b that is not automatically selected and then press the OK button 21c. Good.
[0045]
FIG. 8B is a diagram showing still another development example in which the detailed setting of the automatic selection is performed by the user's intention. The illustrated power control mode setting screen (screen) 22 is configured by appropriately laying out some graphical button objects. For example, a broadcast reception mode selection button when using an external power supply (12-segment broadcast button 22a, 1-segment broadcast button 22b), a broadcast reception mode selection button when using high-performance batteries (12-segment broadcast button 22c, 1-segment broadcast button 22d) , A broadcast receiving mode selection button (12-segment broadcast button 22e, 1-segment broadcast button 22f), an OK button 22g, a cancel button 22h, and the like when a low-performance battery is used.
[0046]
Pair of 12-segment broadcast button and 1-segment broadcast button arranged side by side ... Pair of 12-segment broadcast button 22a and 1-segment broadcast button 22b, pair of 12-segment broadcast button 22c and 1-segment broadcast button 22d, 12-segment broadcast The pair of the button 22e and the one-segment broadcast button 22f can be selectively pressed (touch operation on the touch panel). The operator presses the OK button 21g to confirm these pressing operations, and presses the cancel button 21h to invalidate them.
[0047]
In this way, for example, in either the external power supply, the internal power supply (using a high-performance battery), or the internal power supply (using a low-performance battery), “12-segment broadcasting” or “1 segment "Broadcast" can be set, and whether to prioritize power consumption or image quality can be left to the user's judgment.
[0048]
FIG. 9 is a diagram showing a conceptual flowchart of “power control” corresponding to the development example of FIG. In this flowchart, it is determined whether the automatic selection is "Yes" or "No" (step S31). If "No", the default reception mode (for example, "12-segment broadcast reception mode" with priority on image quality) is selected (step S31). Step S32). On the other hand, when “automatic selection” is performed, the current power supply type (internal power supply using a high-performance battery / internal power supply using a low-performance battery) is determined based on the notification signal from the power supply control unit 16 and the position of the switch 20. / External power supply) (step S33), and reads out the power supply control mode setting information (information previously set on the power supply control mode setting screen 22 in FIG. 8B) stored in the memory, and sets the power supply control mode setting information. An appropriate reception mode is selected based on the information and the above-described power supply type determination result (step S34).
[0049]
For example, if the power source is an external power source and the setting information is “12-segment broadcast receiving mode”, the same mode is selected. If the power source is an external power source and the setting information is “1-segment broadcast receiving mode”, the same mode is selected. I do. Alternatively, if the internal power supply uses a high-performance battery and the setting information is “12-segment broadcast reception mode”, the same mode is selected, and if the internal power supply uses a high-performance battery and the setting information is “1”. In the case of "segment broadcast receiving mode", select the same mode. Alternatively, if the internal power supply uses a low-performance battery and the setting information is “12-segment broadcast reception mode”, the same mode is selected. If the internal power supply uses a low-performance battery and the setting information is “1 In the case of "segment broadcast reception mode", the same mode is selected. As described above, since an appropriate reception mode according to the user's setting is selected, it is possible to use a flexible method in which it is up to the user to decide which of image quality and power consumption is to be prioritized.
[0050]
【The invention's effect】
According to the present invention, when the power generated by the power generation unit is generated by the internal power supply unit, the second reception and reproduction unit is operated, in other words, the first reception and reproduction unit is operated. If the reproducing means is not operated, the power consumption of the first receiving / reproducing means is larger than that of the second receiving / reproducing means, so that the power consumption of the receiver can be suppressed, and the internal power supply (that is, the battery) Life can be extended.
Further, according to the aspect of the present invention, the user can arbitrarily set the judgment condition of the judgment means on the screen displayed on the display. For this reason, free customization suitable for each user's use environment becomes possible, and usability can be improved.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram of a system including a terrestrial digital television receiver according to an embodiment.
FIG. 2 is a block diagram of the television receiver 1.
FIG. 3 is a block diagram illustrating an example of a power supply control unit 16.
FIG. 4 is a diagram showing a conceptual flowchart of “power control” executed by a central control unit 17 and a diagram showing a comparison table between “12-segment broadcast receiving mode” and “1-segment broadcast receiving mode”.
FIG. 5 is a diagram showing a development example.
FIG. 6 is a diagram showing a conceptual flowchart of the above-described “power control” (see FIG. 4A) improved in accordance with an advanced example.
FIG. 7 is a diagram showing an example improved so that a battery type can be automatically determined.
FIG. 8 is a diagram showing another development example and a diagram showing still another development example.
9 is a diagram showing a conceptual flowchart of “power control” corresponding to the development example of FIG. 8;
FIG. 10 is a diagram illustrating an example of a terrestrial digital broadcast service and a reception concept thereof.
[Explanation of symbols]
S1 to S6 tuning block (first receiving and reproducing means)
S7 Tuning block (second receiving / playing means)
S8 to S13 Synchronization block (first reception / reproduction means)
1 TV receiver (receiver)
3 flat display panel (display)
8 AC / DC converter (external power supply means)
11a 64QAM demodulation block (first receiving and reproducing means)
11b DQPSK demodulation block (second receiving and reproducing means)
12a 12-segment broadcast decoding block (first receiving and reproducing means)
12b One-segment broadcast decoding block (second receiving and reproducing means)
13 Display control unit
16. Power supply control unit (power supply generation means, judgment means)
17 Central control unit (judgment means)
19 Battery (internal power supply)
21 Power control mode setting screen (screen)
22 Power control mode setting screen (screen)

Claims (3)

A receiver for receiving data distributed from a broadcasting system including a plurality of segments in a frequency band,
A first receiving and reproducing unit that reproduces broadcast content corresponding to the frequency band by receiving all of the plurality of segments;
A second reception / playback output unit for playing back broadcast content corresponding to the frequency band by receiving a part of the plurality of segments;
External power supply means,
Internal power supply means,
Power generation means for generating power from any of the external power supply means or the internal power supply means,
Determining means for determining whether the power generated by the power generation means is generated by the external power supply means or generated by the internal power supply means;
A receiver comprising: an operation control unit that operates one of the first reception / reproduction unit and the second reception / reproduction unit based on a result of the determination by the determination unit. 2. The receiver according to claim 1, further comprising display means for displaying a screen for setting a determination condition of the determination means on a display. A reception control method of an electronic device having a function of receiving data distributed from a broadcast system including a plurality of segments in a frequency band,
A first receiving and reproducing step of reproducing broadcast content corresponding to the frequency band by receiving all of the plurality of segments;
A second reception and reproduction step of reproducing a broadcast content corresponding to the frequency band by receiving a part of the plurality of segments;
A power generation step of generating power from either the external power supply or the internal power supply;
A determining step of determining whether the power generated in the power generating step is generated from an external power source or generated from an internal power source;
A reception control method, comprising: an operation control step of operating one of a first reception / reproduction step and a second reception / reproduction step based on a result of the determination in the determination step.

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