JP4401147B2 - Frequency diversity receiver for digital broadcast receiver - Google Patents

Description

  The present invention relates to a frequency diversity receiver in a digital broadcast receiver.

  Frequency diversity reception technology is used in receivers for digital broadcasting such as terrestrial digital TV (television) broadcasting. Diversity reception is a reception method that obtains a good reception signal such as less fading effect by selecting or combining from two or more types of reception signals. In particular, frequency diversity reception is performed with a plurality of different carrier waves. This is a receiving method for improving characteristics by receiving and selecting or combining the same transmitted signals (for example, see Patent Document 1 below).

  As a modulation method for terrestrial digital broadcasting, OFDM (Orthogonal Frequency Division Multiplexing), which is one of the newest technologies, is employed. In the reception, in order to obtain the head of the symbol, the synchronization unit performs drawing, and the FFT (Fast Fourier Transform) window position is obtained. The TMCC (Transmission and Multiplexing Configuration Control) signal is decoded by FFT, and the head of the frame is obtained by the TMCC frame synchronization bit. Here, the TMCC signal is a transmission control signal including various kinds of information necessary for demodulation, and particularly requires reliability.

  Even after the frame synchronization is established, even if the TMCC frame synchronization bits are different, the resynchronization is not performed immediately and several frames are protected (frame protection state). By doing so, when an error occurs in the synchronization bit due to an instantaneous interruption or noise, it is possible to quickly recover without resynchronization. However, if the protection is applied even though the synchronization is actually out of sync, the out-of-synchronization branch will be synthesized for the frame being protected. Regardless of protection, weighting synthesis is always performed by power (transmission path response).

  Since no noise-resistant TMCC signal is received in the branch in the frame protection state, it is assumed that many errors have occurred in the data carrier. However, since weighting is normally performed according to the transmission path response, erroneous data is combined with a small weighting value, and it is considered that there is little deterioration in reception performance. However, in actuality, the input level is raised by AGC (Automatic Gain Control) and the noise level is raised at the same time, the value of the transmission line response to the wrong data becomes large, and the wrong data is given a large weighting value. The reception performance is greatly degraded.

Japanese Patent No. 2971817

  The present invention has been made in view of the above-described problems, and an object of the present invention is to reduce the reception state of only one branch to a frame protection state in a state where the combining operation is performed in a plurality of branches, for example, two branches. Frequency diversity for a digital broadcast receiver that prevents the deterioration of reception performance by removing the branch in the frame protection state from the compositing target when the reception state of both branches deteriorates and the frame protection state occurs. To provide a receiving apparatus. A further object of the present invention is to determine that the data carrier is normal data when frame protection is caused by instantaneous noise. It is an object to provide a frequency diversity receiving apparatus for a digital broadcast receiver that improves reception performance by combining two (plurality) branches without waste.

To achieve the above object, according to the present invention, there is provided a frequency diversity receiving apparatus in a digital broadcasting receiver, and a combining unit for synthesizing data received by a plurality of branches, the frame protection state of the plurality of branches in response, the a lube lunch controller to determine the branch to be composited in the synthesis section, a frequency diversity reception apparatus characterized by comprising a are provided.

  According to one aspect of the present invention, the branch control unit determines to remove a branch in a frame protection state from a synthesis target.

  According to another aspect of the present invention, the branch control unit determines whether or not the frame protection state is in error, and when the frame protection state is in error, the branch control unit determines that the branch is to be combined.

According to another aspect of the present invention, the branch control unit determines to operate at least one branch when all the branches are in the frame protection state.

Also, according to one aspect of the present invention, the branch control unit determines whether or not there is an error in each of the frame protection states of all the branches , and when only the frame protection state of one branch is in error. Decides to operate only the one branch, and decides to perform the combining operation by the plurality of branches when the frame protection state of the plurality of branches is in error.

Further, according to one aspect of the present invention, the branch control unit determines whether or not an error for each frame protection status of all branches, when the frame protection status of all the branches not in error, Make a decision to operate only one of the branches.

According to the present invention, there is also provided a digital broadcast receiver including a frequency diversity receiver, wherein the frequency diversity receiver includes a combining unit that combines received data by a plurality of branches, and a frame of the plurality of branches. A digital broadcast receiver comprising: a branch control unit that determines a branch to be combined in the combining unit in accordance with a protection state.

  In the frequency diversity receiving apparatus for a digital broadcast receiver according to the present invention, when a reception operation is deteriorated only in one branch due to an obstacle or fading from a state where the combining operation is performed in a plurality of branches, for example, two branches, frame protection is achieved. However, it is possible to prevent the reception performance from deteriorating without adversely affecting the reception performance of the other branch.

  Further, in the frequency diversity receiver for digital broadcast receiver according to the present invention, the reception state of both branches deteriorates due to obstacles and fading from the state of combining operation in a plurality of branches, for example, two branches, and frame protection is achieved. Even in this case, reception performance can be improved by arbitrarily selecting a branch having a good reception state.

  Further, even when frame protection is instantaneously caused by noise or the like, branches can be combined without waste, and combining by diversity can be performed optimally, and reception performance is improved.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

  FIG. 1 is a block diagram showing a configuration of a frequency diversity receiver for a digital TV broadcast receiver as an embodiment of the present invention. As shown in the figure, a first branch receiving unit 20 that performs OFDM demodulation is connected to the first antenna 10 via a first tuner 12. Note that OFDM is an orthogonal frequency division multiplexing system that is a modulation system suitable for digital broadcasting for mobiles.

  The first branch reception unit 20 includes a frame protection generation unit 22, a CN ratio (carrier to noise ratio) measurement unit 24, a reception level detection unit 26, and a PWM power measurement unit 28. . The frame protection generator 22 generates a frame protection state (a state in which several frames are protected without performing resynchronization when the TMCC frame synchronization bits are different after frame synchronization is established) A frame protection signal indicating that the state is present is generated. A PWM (Pulse Width Modulation) power measurement unit 28 measures a control amount in automatic gain control, that is, an AGC (Automatic Gain Control) control amount.

  Similarly, a second antenna 30, a second tuner 32, and a second branch receiving unit 40 are provided. The second branch receiving unit 40 includes a frame protection generating unit 42, a CN ratio measuring unit 44, a reception level. A detection unit 46 and a PWM power measurement unit 48 are provided.

  A frequency division diversity unit 50 is connected to the subsequent stage of the first branch receiving unit 20 and the second branch receiving unit 40. The frequency division diversity unit 50 includes a first power calculation unit 52 that calculates power based on a reception signal from the first branch reception unit 20, and a first timing for storing the reception signal and the calculated power. A buffer 54 is provided. A second power calculation unit 56 and a second timing buffer 58 are also provided for the second branch.

  Further, the frequency division diversity unit 50 is provided with a buffer control unit 60 that controls to output symbol data in synchronization with the first timing buffer 54 and the second timing buffer 58. The data from the first timing buffer 54 and the data from the second timing buffer 58 output in synchronism are combined in the maximum ratio combining unit 62 based on the ratio of the maximum power values. The output of the maximum ratio combining unit 62 is guided to an error correction unit (not shown). It is possible to provide not only the first and second branches but also third, fourth,... Branches having the same configuration.

  In order to control the buffer control unit 60, a branch control unit 70 is provided in the preceding stage. The configuration of the branch control unit 70 is shown in FIG. As shown in the figure, the branch control unit 70 includes a master determination unit 72, a slave composition availability determination unit 74, and an operation branch number control unit 76. The master determination unit 72 receives the frame protection signal, the CN ratio measurement value signal, the reception level signal, and the PWM power value signal from each of the first branch reception unit 20 and the second branch reception unit 40, and either branch As the master branch. The slave composition enable / disable determining unit 74 receives the frame protection signal, the CN ratio measurement value signal, the reception level signal, and the PWM power value signal from the slave branch via the master determination unit 72, and receives the data received by the slave branch as the master branch. Whether to synthesize with the received data is output to the operation branch number control unit 76. The operation branch number control unit 76 outputs a branch combination status signal for controlling the number of operation branches to the buffer control unit 60 based on the slave combination determination signal and the master determination signal from the master determination unit 72. .

  The branch control unit 70 performs control to prevent deterioration in reception performance by optimally performing control when only one branch is frame protected. The master determination unit 72 selects a master branch from an arbitrary branch, but in one embodiment, the branch that is frame-protected is not a master branch, and the other branch is a master branch. After that, the slave combination availability determination unit 74 determines whether or not to combine the slave branch with the master branch. However, if the slave is frame-protected, it is excluded from the combination target and performs a one-branch operation only by the master. Thereby, mixing of noise is prevented, and deterioration of reception performance is avoided.

  In the above-described control, the master determination unit 72 and the slave composition enable / disable determination unit 74 do not set the branch in the frame protection state as the master branch and perform the one branch operation with the other branch as the master branch. There is a possibility that the frame protection state is erroneously set. If the frame protection is incorrect, there is a possibility that data with less noise is received for the data carrier. Therefore, the master determination unit 72 detects whether the frame protection is wrong, and if it is wrong frame protection, the branch can also become a master branch, and the two branches are combined without waste to deteriorate the reception performance. prevent.

  For example, the master determination unit 72 uses the CN ratio measurement value signal as a reference for determining that the branch can become a master branch due to an error in frame protection. As a specific operation, when the master determination unit 72 selects a master branch after the operation is started, the branch that is originally under frame protection is not set as a master, but if the CN ratio measurement value is larger than a certain value, the frame protection is performed. The branch that is in the middle is selected as a master branch in the same manner as the branch that is not in frame protection, thereby enabling the normal two-branch operation.

  Alternatively, the master determination unit 72 uses the reception level signal as a reference for determining that the branch can become a master branch due to an error in frame protection. As a specific operation, when the master determination unit 72 selects a master branch after the start of operation, the branch that is originally frame-protected is not set as the master, but if the reception level is larger than a certain value, the frame is being protected. A certain branch can be selected as a master branch in the same manner as a branch that is not in frame protection, thereby enabling a normal two-branch operation.

  Alternatively, the master determination unit 72 uses the PWM power value signal as a reference for determining that the branch can become a master branch due to an error in frame protection. As a specific operation, when the master determination unit 72 selects a master branch after the operation starts, the branch that is originally under frame protection is not set as a master, but the PWM power value (AGC control amount) is smaller than a certain value. In this case, a branch that is in frame protection is set as a master branch selection target in the same manner as a branch that is not in frame protection, thereby enabling a normal two-branch operation.

  Also, the master determination unit 72 can use all of the CN ratio measurement value signal, the reception level signal, and the PWM power value signal as a reference for determining that the branch can become a master branch due to an error in frame protection. . By using all of the CN ratio measurement value, the reception level, and the PWM power value, erroneous frame protection can be normally detected, and deterioration of reception performance can be prevented.

For example, in order to detect erroneous frame protection using all of the CN ratio measurement value, the reception level, and the PWM power value, the master determination unit 72, when all of the following three conditions are satisfied as determination criteria: Judged as incorrect frame protection.
-CN ratio measurement value is larger than a certain value.
• Received signal level value is greater than a certain value.
・ PWM power value is smaller than a certain value.
As a specific operation, when the master determination unit 72 selects a master branch after the operation is started, the branch that is originally frame-protected is not set as a master, but if all the above three conditions are satisfied, the frame is being protected. A certain branch can be selected as a master branch in the same manner as a branch that is not in frame protection, thereby enabling a normal two-branch operation.

Alternatively, the master determination unit 72 satisfies any one of the following three conditions as a determination criterion in order to detect erroneous frame protection using all of the CN ratio measurement value, the reception level, and the PWM power value. It is determined that the frame protection is wrong when
-CN ratio measurement value is larger than a certain value.
• Received signal level value is greater than a certain value.
・ PWM power value is smaller than a certain value.
As a specific operation, when the master determination unit 72 selects a master branch after the operation is started, the branch that is originally under frame protection is not set as a master, but any one of the above three conditions is satisfied. Similarly to the branch not in frame protection, the branch in which frame protection is being performed is selected as a master branch, thereby enabling the normal two-branch operation.

  The master determination unit 72 can also use the CN ratio measurement value signal and the reception level signal as a reference for determining that the frame protection is erroneous and that the branch can become the master branch. By using the CN ratio measurement value and the reception level, erroneous frame protection can be normally detected, and deterioration of reception performance can be prevented. Moreover, since there are few judgment conditions, control becomes easy.

For example, in order to detect erroneous frame protection using the CN ratio measurement value and the reception level, the master determination unit 72 detects erroneous frame protection when all of the following two conditions are satisfied. to decide.
-CN ratio measurement value is larger than a certain value.
• Received signal level value is greater than a certain value.
As a specific operation, when the master determination unit 72 selects a master branch after the operation is started, the branch that is originally frame-protected is not set as a master, but if all of the above two conditions are satisfied, the frame is being protected. As a branch that is not subject to frame protection, a branch that is a master branch can be selected, thereby enabling a normal two-branch operation.

Alternatively, the master determination unit 72 detects the erroneous frame protection using all of the CN ratio measurement value and the reception level, and when any one of the following two conditions is satisfied as a determination criterion: Judged as incorrect frame protection.
-CN ratio measurement value is larger than a certain value.
• Received signal level value is greater than a certain value.
As a specific operation, when the master determination unit 72 selects a master branch after the operation is started, the branch that is originally under frame protection is not set as a master, but either one of the above two conditions is satisfied. Similarly to the branch not in frame protection, the branch in which frame protection is being performed is selected as a master branch, thereby enabling the normal two-branch operation.

  In addition, the master determination unit 72 can use the CN ratio measurement value signal and the PWM power value as a reference for determining that the branch can be a master branch due to an error in frame protection. By using the CN ratio measurement value and the PWM power value, erroneous frame protection can be normally detected, and deterioration of reception performance can be prevented. Moreover, since there are few judgment conditions, control becomes easy.

For example, in order to detect erroneous frame protection using the CN ratio measurement value and the PWM power value, the master determination unit 72 detects erroneous frame protection when all of the following two conditions are satisfied as determination criteria. to decide.
-CN ratio measurement value is larger than a certain value.
・ PWM power value is smaller than a certain value.
As a specific operation, when the master determination unit 72 selects a master branch after the operation is started, the branch that is originally frame-protected is not set as a master, but when all the above two conditions are satisfied, the frame is being protected. A certain branch can be selected as a master branch in the same manner as a branch that is not in frame protection, thereby enabling a normal two-branch operation.

Alternatively, when the master determination unit 72 satisfies any one of the following two conditions as a determination criterion in order to detect erroneous frame protection using all of the CN ratio measurement value and the PWM power value: It is determined that the frame protection is incorrect.
-CN ratio measurement value is larger than a certain value.
・ PWM power value is smaller than a certain value.
As a specific operation, when the master determination unit 72 selects a master branch after the operation is started, the branch that is originally under frame protection is not set as a master, but either one of the above two conditions is satisfied. Similarly to the branch not in frame protection, the branch in which frame protection is being performed is selected as a master branch, thereby enabling the normal two-branch operation.

  In addition, the master determination unit 72 can use the reception level signal and the PWM power value signal as a reference for determining that the branch can become a master branch due to an error in frame protection. By using the reception level and the PWM power value, erroneous frame protection can be normally detected, and deterioration of reception performance can be prevented. Moreover, since there are few judgment conditions, control becomes easy.

For example, in order to detect erroneous frame protection using the reception level and the PWM power value, the master determination unit 72 determines erroneous frame protection when all of the following two conditions are satisfied as a criterion: .
• The received signal level is greater than a certain value.
・ PWM power value is smaller than a certain value.
As a specific operation, when the master determination unit 72 selects a master branch after the operation is started, the branch that is originally frame-protected is not set as a master, but if all the above two conditions are satisfied, the frame is being protected. A certain branch can be selected as a master branch in the same manner as a branch that is not in frame protection, thereby enabling a normal two-branch operation.

Alternatively, in order to detect erroneous frame protection using the reception level and the PWM power value, the master determination unit 72 detects an erroneous frame when any one of the following two conditions is satisfied as a determination criterion: Judge as protection.
• The received signal level is greater than a certain value.
・ PWM power value is smaller than a certain value.
As a specific operation, when the master determination unit 72 selects a master branch after the operation is started, the branch that is originally under frame protection is not set as a master, but either one of the above two conditions is satisfied. Similarly to the branch not in frame protection, the branch in which frame protection is being performed is selected as a master branch, thereby enabling the normal two-branch operation.

  By the way, the branch control unit 70 also performs control to prevent deterioration in reception performance by optimally performing control when both branches have frame protection. In one embodiment, when both branches are in the frame protection state and both branches contain noise, the master determination unit 72 selects one branch as the master branch and sets the other branch as a synthesis target. Instead, by operating with only one branch, noise is prevented and reception performance is prevented from deteriorating.

  For example, the master determination unit 72 uses the CN ratio measurement value signal as a reference for determining one of the two branches that are frame-protected as the master branch. As a specific operation, when the master determination unit 72 selects a master branch after the start of operation, when both branches are under frame protection, the branch having the larger CN ratio measurement value is set as the master branch, while the other branch This branch is excluded from the synthesis target, and the operation with only one branch by the branch with good reception performance is performed.

  Alternatively, the master determination unit 72 uses the reception level signal as a reference for selecting one of the two branches that are frame protected as the master branch. As a specific operation, when the master determination unit 72 selects the master branch after the operation is started, when both branches are in frame protection, the branch having the higher reception level is set as the master branch, while the other branch is selected. Is excluded from the synthesis target, and the operation in only one branch by the branch having good reception performance is performed.

  Alternatively, the master determination unit 72 uses the PWM power value signal as a reference for determining one of the branches that are frame protected as a master branch. As a specific operation, when the master determination unit 72 selects the master branch after the operation starts, when both branches are under frame protection, the branch having the smaller PWM power value is set as the master branch, while the other branch is selected. The branch is excluded from the synthesis target, and the operation with only one branch is performed by the branch having good reception performance.

  By the way, even when both branches are in the frame protection state, there is a possibility that the frame protection state is erroneously caused by noise or the like. If the frame protection is incorrect, there is a possibility that data with less noise is received for the data carrier. Therefore, the master determination unit 72 also performs control for detecting whether each branch is in an erroneous frame protection state and improving reception performance.

  For example, the master determination unit 72 uses the CN ratio measurement value signal as a reference for determining whether or not the frame protection state of each branch is in error when both branches are in the frame protection state. As a specific operation, the master determination unit 72 selects a master branch after starting the operation. If both branches are in frame protection but the CN ratio measurement value of one branch is equal to or greater than a certain value, the branch is selected. Is determined to be erroneous frame protection, and one branch operation is performed in that branch. Further, the master determination unit 72 causes the synthesis operation in two branches to be performed when the CN ratio measurement value is greater than or equal to a certain value in both branches.

  Alternatively, the master determination unit 72 uses the reception level signal as a reference for determining whether or not the frame protection state of each branch is in error when both branches are in the frame protection state. As a specific operation, the master determination unit 72 selects a master branch after starting the operation. If both branches are in frame protection but the reception level of one branch is equal to or higher than a certain value, It is determined that the frame is erroneously protected, and one branch operation is performed in that branch. In addition, when both branches have a reception level that is greater than or equal to a certain value, the master determination unit 72 performs a combining operation on two branches.

  Alternatively, the master determination unit 72 uses the PWM power value as a reference for determining whether or not the frame protection state of each branch is in error when both branches are in the frame protection state. As a specific operation, the master determination unit 72 selects a master branch after the operation is started. If both branches are under frame protection but the PWM power value of one branch is less than a certain value, Determines that frame protection is incorrect, and causes one branch operation to be performed on that branch. In addition, when both branches have a PWM power value that is equal to or less than a certain value, the master determination unit 72 causes the combining operation in two branches to be performed.

  The master determination unit 72 uses all of the CN ratio measurement value signal, the reception level signal, and the PWM power value as a reference for determining whether or not the frame protection state of each branch is in error when both branches are in the frame protection state. Can also be used. By using all of the CN ratio measurement value, the reception level, and the PWM power value, erroneous frame protection can be normally detected, and deterioration of reception performance can be prevented.

For example, in order to detect erroneous frame protection using all of the CN ratio measurement value, the reception level, and the PWM power value, the master determination unit 72, when all of the following three conditions are satisfied as determination criteria: Judged as incorrect frame protection.
-CN ratio measurement value is larger than a certain value.
• Received signal level value is greater than a certain value.
・ PWM power value is smaller than a certain value.
As a specific operation, after the operation is started, the master determination unit 72 determines that both branches are in frame protection but one of the branches satisfies all the above three conditions. Then, one branch operation is performed in that branch. In addition, when both the branches satisfy the above three conditions, the master determination unit 72 performs a combining operation on two branches.

Alternatively, the master determination unit 72 satisfies any one of the following three conditions as a determination criterion in order to detect erroneous frame protection using all of the CN ratio measurement value, the reception level, and the PWM power value. It is determined that the frame protection is wrong when
-CN ratio measurement value is larger than a certain value.
• Received signal level value is greater than a certain value.
・ PWM power value is smaller than a certain value.
As a specific operation, after the operation is started, the master determination unit 72 is in frame protection in both branches, but if one branch satisfies any one of the above three conditions, an erroneous frame is determined for that branch. It judges that it is protection, and performs one branch operation in that branch. In addition, when both branches satisfy any one of the above three conditions, the master determination unit 72 performs the synthesis operation in two branches.

  The master determination unit 72 can use the CN ratio measurement value signal and the reception level signal as a reference for determining whether or not the frame protection state of each branch is in error when both branches are in the frame protection state. . By using the CN ratio measurement value and the reception level, erroneous frame protection can be normally detected, and deterioration of reception performance can be prevented.

For example, in order to detect erroneous frame protection using the CN ratio measurement value and the reception level, the master determination unit 72 determines that the frame protection is incorrect when all of the following two conditions are satisfied as determination criteria. To do.
-CN ratio measurement value is larger than a certain value.
• Received signal level value is greater than a certain value.
As a specific operation, after the operation is started, the master determination unit 72 determines that both branches are in frame protection, but if one branch satisfies all the above two conditions, that branch is determined to be erroneous frame protection. Then, one branch operation is performed in that branch. In addition, when both of the branches satisfy all the above two conditions, the master determination unit 72 causes the combining operation in two branches to be performed.

Alternatively, the master determination unit 72 is erroneous when any one of the following two conditions is satisfied as a determination criterion in order to detect erroneous frame protection using the CN ratio measurement value and the reception level. Judged as frame protection.
-CN ratio measurement value is larger than a certain value.
• Received signal level value is greater than a certain value.
As a specific operation, after the operation is started, the master determination unit 72 is in frame protection for both branches, but if one branch satisfies any one of the above two conditions, the branch is erroneous. It is determined that the frame is protected, and one branch operation is performed in that branch. In addition, when both branches satisfy any one of the above two conditions, the master determination unit 72 performs the synthesis operation in two branches.

  The master determination unit 72 may use the CN ratio measurement value signal and the PWM power value signal as a reference for determining whether or not the frame protection state of each branch is in error when both branches are in the frame protection state. it can. By using the CN ratio measurement value and the PWM power value, erroneous frame protection can be normally detected, and deterioration of reception performance can be prevented.

For example, in order to detect erroneous frame protection using the CN ratio measurement value and the PWM power value, the master determination unit 72 detects erroneous frame protection when all of the following two conditions are satisfied as determination criteria. to decide.
-CN ratio measurement value is larger than a certain value.
・ PWM power value is smaller than a certain value.
As a specific operation, after the operation is started, the master determination unit 72 determines that both branches are in frame protection, but if one branch satisfies all the above two conditions, that branch is determined to be erroneous frame protection. Then, one branch operation is performed in that branch. In addition, when both the branches satisfy the above two conditions, the master determination unit 72 performs a combining operation in two branches.

Or, in order to detect erroneous frame protection using the CN ratio measurement value and the PWM power value, the master determination unit 72 is erroneous when any one of the following two conditions is satisfied as a determination criterion. Judged as frame protection.
-CN ratio measurement value is larger than a certain value.
・ PWM power value is smaller than a certain value.
As a specific operation, after the operation is started, the master determination unit 72 is in frame protection for both branches, but if one branch satisfies any one of the above two conditions, an erroneous frame is detected for that branch. It judges that it is protection, and performs one branch operation in that branch. In addition, when both branches satisfy any one of the above two conditions, the master determination unit 72 causes the synthesis operation in two branches to be performed.

  Further, the master determination unit 72 can use the reception level signal and the PWM power value signal as a reference for determining whether or not the frame protection state of each branch is in error when both branches are in the frame protection state. By using the reception level and the PWM power value, erroneous frame protection can be normally detected, and deterioration of reception performance can be prevented.

For example, in order to detect erroneous frame protection using the reception level and the PWM power value, the master determination unit 72 determines erroneous frame protection when all of the following two conditions are satisfied as a criterion: .
• The received signal level is greater than a certain value.
・ PWM power value is smaller than a certain value.
As a specific operation, after the operation is started, the master determination unit 72 determines that both branches are in frame protection, but if one branch satisfies all the above two conditions, that branch is determined to be erroneous frame protection. Then, one branch operation is performed in that branch. In addition, when both the branches satisfy the above two conditions, the master determination unit 72 performs a combining operation in two branches.

Alternatively, in order to detect erroneous frame protection using the reception level and the PWM power value, the master determination unit 72 detects an erroneous frame when any one of the following two conditions is satisfied as a determination criterion: Judge as protection.
• The received signal level is greater than a certain value.
・ PWM power value is smaller than a certain value.
As a specific operation, after the operation is started, the master determination unit 72 is in frame protection for both branches, but if one branch satisfies any one of the above two conditions, an erroneous frame is detected for that branch. It judges that it is protection, and performs one branch operation in that branch. In addition, when both branches satisfy any one of the above two conditions, the master determination unit 72 causes the synthesis operation in two branches to be performed.

  By the way, as a result of determining whether or not there is an error in both of the frame protection states, the branch control unit may be in an error state in both of the frame protection states. In such a case, the master determination unit 72 determines to operate only one of the branches. Thereby, mixing of noise can be prevented and deterioration of reception performance can be prevented.

  For example, when it is determined that both branches are frame-protected and both branches are not erroneous frame protection, the master determination unit 72 selects a master branch from them and performs one-branch operation. The CN ratio measurement value signal is used as a criterion for determining the one branch. As a specific operation, when the master determination unit 72 selects a master branch after the start of operation, when it is determined that both branches are in frame protection and neither branch has erroneous frame protection, the CN ratio The larger branch is used as the master branch, while the other branch is excluded from the synthesis target, and one branch operation is performed by the branch having the better reception performance.

  Alternatively, when it is determined that both branches have frame protection and both branches are not erroneous frame protection, the master determination unit 72 selects a master branch from them and performs one branch operation. The reception level signal is used as a reference for selecting one branch. As a specific operation, when the master determination unit 72 selects the master branch after the operation starts, when it is determined that both branches are in frame protection and both branches are not erroneous frame protection, the reception level The larger branch is used as the master branch, while the other branch is excluded from the synthesis target, and one branch operation is performed by the branch having the better reception performance.

  Alternatively, when it is determined that both branches have frame protection and both branches are not erroneous frame protection, the master determination unit 72 selects a master branch from them and performs one branch operation. The PWM voltage value is used as a reference for selecting one branch. As a specific operation, when the master determination unit 72 selects a master branch after the start of operation, when it is determined that both branches are in frame protection and neither branch is erroneous frame protection, the PWM voltage The branch having the smaller value is set as the master branch, while the other branch is excluded from the synthesis target, and one branch operation is performed by the branch having the better reception performance.

It is a block diagram which shows the structure of one Embodiment of the frequency diversity receiver by this invention. It is a block diagram which shows the structure of the branch control part in FIG.

Explanation of symbols

10: First antenna 10
DESCRIPTION OF SYMBOLS 12 ... 1st tuner 20 ... 1st branch receiving part 22 ... Frame protection generation part 24 ... CN ratio measurement part 26 ... Reception level detection part 28 ... PWM power measurement part 30 ... 2nd antenna 32 ... 2nd tuner 40 ... second branch reception unit 42 ... frame protection generation unit 44 ... CN ratio measurement unit 46 ... reception level detection unit 48 ... PWM power measurement unit 50 ... frequency division diversity unit 52 ... first power calculation unit 54 ... first Timing buffer 56 ... second power calculation unit 58 ... second timing buffer 60 ... buffer control unit 62 ... maximum ratio combining unit 70 ... branch control unit 72 ... master determining unit 74 ... slave combining enable / disable determining unit 76 ... operation branch Number control unit

Claims (6)

A frequency diversity receiver in a digital broadcast receiver,
A synthesizing unit for synthesizing received data by a plurality of branches;
A branch to be combined is determined by the combining unit according to a frame protection state in which the frames are protected without performing resynchronization when the TMCC frame synchronization bits after frame synchronization are different among the plurality of branches. A branch control unit,
Comprising a, the branch control unit may decide to remove the branch in which the frame protection state from the combination target, frequency diversity receiving apparatus. A frequency diversity receiver in a digital broadcast receiver,
A synthesizing unit for synthesizing received data by a plurality of branches;
A branch to be combined is determined by the combining unit according to a frame protection state in which the frames are protected without performing resynchronization when the TMCC frame synchronization bits after frame synchronization are different among the plurality of branches. A branch control unit,
Comprising a, the branch control unit, frame protection state determines whether or not an error, if the wrong frame protection state, a decision to the branch composited, frequency diversity receiving apparatus. A frequency diversity receiver in a digital broadcast receiver,
A synthesizing unit for synthesizing received data by a plurality of branches;
A branch to be combined is determined by the combining unit according to a frame protection state in which the frames are protected without performing resynchronization when the TMCC frame synchronization bits after frame synchronization are different among the plurality of branches. A branch control unit,
Comprising a, the branch control unit, when all the branches is a frame protection state, a decision to operate the at least one branch, frequency diversity receiving apparatus. The branch control unit determines whether or not there is an error in each of the frame protection states of all branches, and when only the frame protection state of one branch is in error, decides to operate only that one branch. The frequency diversity receiver according to claim 3 , wherein when the frame protection states of a plurality of branches are in error, a decision is made to perform a combining operation by the plurality of branches. The branch control unit determines whether each of the frame protection states of all branches is in error, and determines that only one of the branches is operated when the frame protection state of all branches is not an error. The frequency diversity receiver according to claim 3 . A digital broadcast receiver comprising the frequency diversity receiver according to any one of claims 1 to 5.

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