JP3603753B2 - Signal processing device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a signal processing device, and more particularly, to a signal processing device that can be suitably used for a radio base station device having a baseband section in a redundant configuration.
[0002]
[Prior art]
In a predetermined signal processing device such as a wireless base station device, a plurality of sets of the same signal processing system are provided so that the function of the device itself does not stop even when a failure occurs. For example, taking a wireless base station apparatus as an example, a plurality of baseband signal processing units for processing a baseband signal are provided. With such a redundant configuration, even if a failure occurs in a part of the processing system, the wireless base station device itself does not stop. Further, the baseband signal processing unit is connected to these different systems so that they can communicate with each other, thereby equalizing the processing of the entire baseband signal processing unit. Such a technique is disclosed in, for example, JP-A-9-504662, JP-A-62-112432, and JP-A-10-65579.
[0003]
FIG. 5 illustrates an example of a configuration of a conventional baseband signal processing unit. Here, a case of a wireless base station apparatus using a W-CDMA (Wideband Code Division Multiple Access) system is shown. The radio base station apparatus 11 converts a radio signal 14 including a plurality of transmission / reception antennas 12 and an RF (Radio Frequency) unit 13, a baseband signal processing unit 15, and an analog signal output from the radio unit 14 into a digital signal. A / D converter 16 is provided. In this radio base station apparatus 11, the first and second A / D converters 21 are used as the A / D converters 16. ₁ , 21 ₂ There are two circuits. The baseband signal processing unit 15 includes first to fourth reception signal processing units 22. ₁ ~ 22 ₄ Is provided.
[0004]
The first and third reception signal processing units 22 among them ₁ , 22 ₃ Is the first A / D converter 21 ₁ And a second received signal processing unit 22. ₂ , 22 ₄ Is the second A / D converter 21 ₂ The processing of the signal sent from is performed. However, the first and second A / D converters 21 ₁ , 21 ₂ It is necessary to ensure the operation of the entire baseband signal processing unit as much as possible, even if any failure occurs in one of them. Therefore, the first and second reception signal processing units 22 ₁ , 22 ₂ And the third and fourth reception signal processing units 22 ₃ , 22 ₄ Are connected in advance by flat cables 25 and 26, and when a failure occurs, one A / D converter 21 is connected. ₁ Or 21 ₂ The signal processing can be performed using only the signal.
[0005]
FIG. 6 shows a connection state of the reception signal processing unit when both the first and second A / D converters are normal. First and second A / D converters 21 shown in FIG. ₁ , 21 ₂ Both have a built-in state notification circuit (not shown), and output a normal signal when each circuit is normal, and output an error signal when any abnormality occurs. In the normal case shown in FIG. 6, the first A / D converter 21 ₁ Sends the normal signal 31 as a status notification to the first received signal processing unit 22 ₁ Output to In this state, the first A / D converter 21 ₁ To the first received signal processing unit 22 ₁ The received data 32 after the A / D conversion is transmitted and processed. Similarly, the second A / D converter 21 ₂ Sends a normal signal 33 as a status notification to the second received signal processing unit 22. ₂ Output to In this state, the second A / D converter 21 ₂ To the second received signal processing unit 22 ₂ The received data 34 after the A / D conversion is sent out and processed.
[0006]
That is, the first received signal processing unit 22 ₁ And the second reception signal processing unit 22 ₂ Are separate A / D converters 21 ₁ , 21 ₂ Are supplied with received data 32 and 34 from the A / D converter 21. ₁ , 21 ₂ Are normal, the reception signal processing unit 22 of these different systems ₂ , 22 ₂ Transmission and reception of signals 35 and 36 are not performed between them.
[0007]
FIG. 7 shows a case where a failure occurs in the first A / D converter. First A / D converter 21 ₁ , The received data 32 is stored in the first received signal processing unit 22. ₁ Not sent to On the other hand, the first A / D converter 21 ₁ To the first received signal processing unit 22 ₁ , An error signal 41 is output as a status notification. Therefore, the first reception signal processing unit 22 that has received the error signal 41 ₁ Is the normal second A / D converter 21 ₂ To the second received signal processing unit 22 ₂ First received signal processing unit 22 via ₁ The received reception signal 42 is input and processed. The path 43 shown by the broken line is the reverse of the second A / D converter 21. ₂ First received signal processing unit 22 when a failure occurs in ₁ To the second received signal processing unit 22 ₂ This represents a received signal passing through the receiver. In this case, there is no output of this signal.
[0008]
FIG. 8 shows a main part of a baseband signal processing unit of such a conventional radio base station apparatus. First and second A / D converters 21 ₁ , 21 ₂ The first to fourth received signal processing units 22 ₁ ~ 22 ₄ First to fourth printed circuit boards 52 provided with ₁ ~ 52 ₄ Is inserted and fixed. These first to fourth printed circuit boards 52 ₁ ~ 52 ₄ Are manufactured as completely identical substrates, and a pair of connectors 53 and 54 are arranged at the other end thereof.
[0009]
First printed circuit board 52 ₁ Connector 53 and second printed circuit board 52 ₂ Flat cable 25 between connectors 54 ₁ Is connected to the first printed circuit board 52 ₁ Connector 54 and second printed circuit board 52 ₂ Flat cable 25 between connectors 53 ₂ Is connected. Similarly, the third printed circuit board 52 ₃ Connector 53 and fourth printed circuit board 52 ₄ Flat cable 26 between connectors 54 ₁ Are connected to the third printed circuit board 52 ₃ Connector 54 and fourth printed circuit board 52 ₄ Flat cable 26 between the connectors 53 ₂ Is connected.
[0010]
Thus, the flat cable 25 ₁ And flat cable 25 ₂ It is crossed, and the flat cable 26 ₁ And flat cable 26 ₂ It is crossed. Thus, the flat cable 25 ₁ , 25 ₂ Are the first to fourth printed circuit boards 52. ₁ ~ 52 ₄ Is used as a substrate having the same structure to enhance mass productivity.
[0011]
FIG. 9 shows an outline of the configuration of the first printed circuit board. Here, the first printed circuit board 52 ₁ , The second to fourth printed circuit boards 52 ₂ ~ 52 ₄ Since these circuits are completely the same, their description will be omitted. First printed circuit board 52 ₁ Has a received signal processing unit 22 ₁ Is arranged. Received signal processing unit 22 ₁ Is the flat cable 25 shown in FIG. ₁ The second printed circuit board 52 as a counterpart board using ₂ While receiving data 61 from the flat cable 25 ₂ The second printed circuit board 52 as a counterpart board using ₂ The data 62 is transmitted. In addition, the first and second A / D converters 21 ₁ , 21 ₂ The normal signal 31 or the error signal 41 as a status notification is received from the board 51 (see FIG. 8) incorporating the above-described components in addition to the received data 32 after the A / D conversion.
[0012]
FIG. 10 shows, as an example, the input / output relationship of signals in a reception signal processing section of a conventional first printed circuit board and second printed circuit board. First and second A / D converters 21 ₁ , 21 ₂ A normal signal 31 or an error signal 41 in addition to the received data 32 or 34 after A / D conversion from the board 51 in which ₁ , 22 ₂ To be entered.
[0013]
[Problems to be solved by the invention]
By the way, in the conventional radio base station apparatus described above, as shown in FIG. ₁ , 25 ₂ However, although the cost can be reduced, there is a problem in that a large number of wires cross, and signal interference may occur at this portion. Of course, the reception signal processing unit 22 ₁ ~ 22 ₄ Or printed circuit board 52 ₁ ~ 52 ₄ Of these flat cables 25 by using different circuit configurations for the even-numbered and odd-numbered ₁ , 25 ₂ Can be arranged in parallel. However, for this purpose, it is necessary to prepare two kinds of different circuits or printed circuit boards, so that cost reduction cannot be achieved, and there is a possibility that a printed circuit board is erroneously inserted at the site. In addition, there is a problem that the labor for managing the ordering and storage of the printed circuit boards increases.
[0014]
In the above description, the radio base station apparatus has been described as an example. However, in general, the same applies to a signal processing apparatus that processes an A / D converter and a signal processing board that processes a signal after the conversion by duplicating the signal processing board. There was a problem.
[0015]
Therefore, an object of the present invention is to duplicate an A / D converter and a signal processing board for processing a signal after the conversion, and to provide a signal processing board having the same configuration when a failure occurs in one of the A / D converters. When a normal output of the AD converter is supplied to one of the substrates, a signal processing device which does not need to cross a signal input / output transmission path for communicating between a pair of signal processing substrates is provided. To provide.
[0016]
[Means for Solving the Problems]
According to the first aspect of the present invention, (a) a plurality of A / D converters for converting a predetermined analog signal into a digital signal are provided, and the converted digital signal and the converted An A / D converter housing board provided with a pair of A / D converter side connectors for respectively outputting a signal indicating the presence or absence of a failure of the target A / D converter; A connector connecting section for connecting to the A / D converter side connector of the converter housing board, a signal processing section for processing the converted digital signal input via the connector connecting section, and a predetermined position. Between a pair of data input / output connectors arranged at intervals and prepared for inputting / outputting data when an A / D converter fails, between a signal processing unit and a pair of data input / output connectors Located in the connector connection Connector switching means for alternately switching between a pair of data input / output connectors to be an input connector and a pair to be an output connector depending on which of the pair of A / D converter side connectors is connected to the unit. (C) a signal processing board prepared by the number of A / D converter-side connectors having the same configuration and (c) a signal processing board connected to the pair of A / D converter-side connectors; The signal processing device is provided with a pair of cable groups for connecting the output connectors in parallel.
[0017]
That is, the invention according to claim 1 relates to a signal processing device in which a signal processing board is connected to each of a plurality of A / D converter side connectors provided on an A / D converter housing board. The processing board has the same configuration with a pair of data input / output connectors prepared for inputting / outputting data when an A / D converter fails. Therefore, these paired signal processing boards can be used to input / output data via the signal processing board in which no fault has occurred in any of the two corresponding A / D converters. In general, a pair of data input / output connectors of these signal processing boards are connected so as to cross each other. However, in the present invention, a signal processing unit and a pair of data input / output connectors are connected. Depending on which of the pair of A / D converter-side connectors the connector connecting portion is connected to between the connector for data input / output, the side serving as the input connector and the side serving as the output connector of the pair of data input / output connectors are alternately provided. The connector switching means for switching is arranged. As a result, the input side and the output side of the pair of data input / output connectors of one pair of the signal processing board and the other signal processing board can be reversed, and the pair of cable groups can be connected to the data input board. The output connectors can be connected in parallel. Therefore, the wires do not cross at this portion, and signal interference can be prevented.
[0018]
According to the second aspect of the present invention, (a) a plurality of A / D converters for converting an analog reception signal input from an antenna into a digital reception signal are provided, and the converted A / D converters correspond to the respective A / D converters. An A / D converter housing board having a pair of A / D converter side connectors for outputting a digital reception signal and a signal indicating the presence or absence of a failure in the A / D converter to be converted; B) A connector connecting section connected to the A / D converter side connector of the A / D converter housing board, and a reception signal processing section for processing a converted digital reception signal input via the connector connection section. A pair of data input / output connectors which are arranged at predetermined positions at intervals and are provided for inputting / outputting data when an A / D converter fails, a reception signal processing unit, Pair data Depending on which of the pair of A / D converter-side connectors is connected between the output connectors, the side of the pair of data input / output connectors to be used as the input connector and the side to be used as the output connector are determined. Connected to a pair of A / D converter side connectors and (c) a pair of A / D converter side connectors provided with the same number of A / D converter side connectors and having the same configuration with connector switching means for alternately switching. The signal processing device is provided with a pair of cables for connecting the respective data input / output connectors of the received signal processing board in parallel.
[0019]
That is, according to the second aspect of the present invention, a plurality of A / D converters provided on an A / D converter housing substrate having a plurality of A / D converters for converting an analog reception signal input from an antenna into a digital reception signal. The present invention relates to a signal processing device in which a reception signal processing board is connected to each of the converter-side connectors, and these reception signal processing boards are prepared for inputting and outputting data when an A / D converter fails. The boards have the same configuration with a pair of data input / output connectors. Therefore, when a pair of these reception signal processing boards is used, the data of the data is transmitted via the reception signal processing board in which no fault has occurred in any of the two corresponding A / D converters. In order to enable input / output, it is common to connect the pair of data input / output connectors of these reception signal processing boards so as to cross each other. However, in the present invention, the signal processing unit and the pair of data input / output connectors are connected. Depending on which of the pair of A / D converter-side connectors is connected between the data input / output connector, the side of the pair of data input / output connectors that serves as the input connector and the side that serves as the output connector Are arranged alternately. As a result, the input side and the output side of the pair of data input / output connectors of one pair of the reception signal processing board and the other reception signal processing board can be reversed, and a pair of cable groups can be connected. The data input / output connectors can be connected in parallel. Therefore, the wires do not cross at this portion, and signal interference can be prevented.
[0020]
According to a third aspect of the present invention, in the signal processing device according to the first or second aspect, each of the connector switching units corresponds to the first and second data input / output connectors. A bidirectional buffer and one of a total of two buffer portions for transmitting a signal in a predetermined same direction in the first and second bidirectional buffers are logically connected to the other as a signal for turning on / off a function as a buffer. A logic circuit for inputting an inverted signal; and a processing-substrate-specific logic signal supply means for applying a predetermined inverted signal of the logic to one of the pair of data input / output connectors to the logic circuit. It is characterized by having.
[0021]
That is, according to the third aspect of the present invention, each of the connector switching means includes first and second bidirectional buffers corresponding to one pair of data input / output connectors, respectively, and both of the first and second bidirectional buffers. A logic circuit for inputting a signal whose logic is inverted with respect to the other as a signal for turning on / off a function as a buffer to one of a total of two buffer portions for transmitting a signal in a predetermined same direction in the directional buffer; A signal whose logic is inverted by a pair of signal processing substrates or reception signal processing substrates is added to a corresponding logic circuit. Thereby, one and the other of a total of two buffer portions for transmitting signals in the same predetermined direction in the first and second bidirectional buffers are formed by either a pair of signal processing substrates or a reception signal processing substrate. It is turned on or off, and the connector on the input side and the connector on the output side are reversed for each signal processing board or received signal processing board.
[0022]
According to a fourth aspect of the present invention, in the signal processing device according to the first aspect, the pair of data input / output connectors is configured such that an A / D converter other than the failed A / D converter has an A / D converter in which a failure has occurred. It is characterized in that a digital signal after conversion is supplied to a / D converter and a signal for causing the signal processing unit to process the signal is input / output.
[0023]
In other words, according to the fourth aspect of the present invention, data is transmitted to the signal processing board disposed on the output side of the A / D converter on the side of the failure via the A / D converter on which the failure has not occurred. It is shown that it is given.
[0024]
According to a fifth aspect of the present invention, in the signal processing device according to the second aspect, the pair of data input / output connectors includes an A / D converter in which a failure has occurred from an A / D converter other than the A / D converter in which the failure has occurred. It is characterized in that a converted digital reception signal is supplied to a / D converter, and a signal for causing the reception signal processing unit to process the signal is input / output.
[0025]
In other words, according to the fifth aspect of the present invention, the data is transferred to the reception signal processing board disposed on the output side of the A / D converter on the faulty side via the A / D converter on which no fault occurs. Is given.
[0026]
According to a sixth aspect of the present invention, in the signal processing device according to the first or second aspect, the cable group is a flat cable, and a pair of data input / outputs of a processing board formed by a pair of flat cables. Are connected so as to be parallel to each other.
[0027]
That is, the invention according to claim 6 shows that a pair of signal processing boards or a reception signal processing board is connected by a pair of flat cables arranged in parallel. Cable wiring other than such a flat cable may be used, and in this case, a situation where the cables cross can be avoided.
[0028]
BEST MODE FOR CARRYING OUT THE INVENTION
[0029]
【Example】
Hereinafter, the present invention will be described in detail with reference to examples.
[0030]
FIG. 1 shows a baseband signal processing section of a radio base station apparatus as a signal processing apparatus according to an embodiment of the present invention. The substrate 101 of the baseband signal processing unit of the wireless base station device includes first and second A / D converters 102. ₁ , 102 ₂ The first to fourth reception signal processing units 103 are provided in a connector (not shown). ₁ ~ 103 ₄ First to fourth printed circuit boards 104 provided with ₁ ~ 104 ₄ Is inserted and fixed. These first to fourth printed circuit boards 104 ₁ ~ 104 ₄ Are manufactured as completely the same substrate, and a pair of connectors 105 and 106 are arranged at the other ends thereof.
[0031]
First printed circuit board 104 ₁ Connector 105 and second printed circuit board 104 ₂ Cable 108 between the connectors 105 ₁ Is connected to the first printed circuit board 104. ₁ Connector 106 and second printed circuit board 104 ₂ Cable 108 between connectors 106 ₂ Is connected. Similarly, the third printed circuit board 104 ₃ Connector 105 and fourth printed circuit board 104 ₄ Flat cable 109 between the connectors 105 ₁ Is connected to the third printed circuit board 104. ₃ Connector 106 and fourth printed circuit board 104 ₄ Cable 109 between the connectors 106 ₂ Is connected.
[0032]
Thus, the first printed circuit board 104 ₁ And the second printed circuit board 104 ₂ A pair of flat cables 108 between ₁ , 108 ₂ Are arranged in parallel at predetermined intervals, and the third printed circuit board 104 ₃ And the fourth printed circuit board 104 ₄ A pair of flat cables 109 between ₁ , 109 ₂ Are also arranged in parallel at predetermined intervals.
[0033]
FIG. 2 corresponds to FIG. 9 and shows the outline of the configuration of the first printed circuit board of the present embodiment. Here, the first printed circuit board 104 ₁ , The second to fourth printed circuit boards 104 shown in FIG. ₂ ~ 104 ₄ Since these circuits are completely the same, their description will be omitted. First printed circuit board 104 ₁ Includes the received signal processing unit 103 ₁ Is arranged. This received signal processing unit 103 ₁ Is the received signal processing unit 22 shown in FIG. ₁ This is the same circuit. The substrate 101 of the baseband signal processing unit shown in FIG. 1 is the same as the substrate 51 shown in FIG. Therefore, the flat cable 108 ₁ The second printed circuit board 104 as a partner board by using ₂ 112 is the same as data 61 in FIG. ₂ The second printed circuit board 104 as a partner board by using ₂ Is the same as the data 62 in FIG. First and second A / D converters 102 ₁ , 102 ₂ The normal signal 114 or the error signal 115 as a status notification sent from the board 101 (see FIG. 1) incorporating the above is the same as the normal signal 31 or the error signal 41 in FIG.
[0034]
However, the first printed circuit board 104 of the present embodiment ₁ , The second printed circuit board 104 of the other ₂ Is input. Second printed circuit board 104 ₂ In the case of, the first printed circuit board 104 is used as the board number data 116. ₁ Enter the number data of. The third printed circuit board 104 ₃ In the case of the fourth printed circuit board 104 as the board number data 116 ₄ Enter the number data of. Similarly, the fourth printed circuit board 104 ₄ In the case of the third printed circuit board 104 as the board number data 116 ₃ Will be entered. The board number data 116 is “0” when the number of the printed board 104 of the other party is even, and is “1” when the number is odd. First printed circuit board 104 ₁ Has a second printed circuit board 104 ₂ , The board number data 116 is inputted, so that the board number data 116 becomes “0”.
[0035]
The first A / D converter 102 shown in FIG. ₁ From the received signal processing unit 103 ₁ The received data 118 after the A / D conversion is input in addition to the normal signal 114 or the error signal 115. Second A / D converter 102 not shown in FIG. ₂ From the received signal processing unit 103 ₂ , The received data after the A / D conversion is input in addition to the normal signal 114 or the error signal 115.
[0036]
This first printed circuit board 104 ₁ Has a first bidirectional buffer 121 for inputting and outputting data 112 and a second bidirectional buffer 122 for inputting and outputting data 113. The first bidirectional buffer 121 connects in parallel two buffers 123 and 124 whose signal transmission directions are opposite to each other. The second bidirectional buffer 122 also connects in parallel two buffers 125 and 126 whose signal transmission directions are opposite to each other. One buffer 124 of the first bidirectional buffer inputs the board number data 116 via the inverter 127. One buffer 126 of the second bidirectional buffer is adapted to directly input the board number data 116.
[0037]
Therefore, the first printed circuit board 104 that inputs the signal “0” as the board number data 116 ₁ In the case of (1), the buffer 126 for directly inputting the signal is disabled and the data 113 is output. On the other hand, the buffer 124 is enabled and the data 112 is input / output.
[0038]
FIG. 3 shows a signal transmission relationship between the first and second printed boards of the baseband signal processing unit shown in FIG. 1 and a board to which these are attached. A substrate 101 includes first and second A / D converters 102. ₁ , 102 ₂ Is incorporated. First A / D converter 102 ₁ Sends a normal signal 114 or an error signal 115 as a status notification to the reception signal processing unit 103 of the first printed circuit board. ₁ To be supplied. Similarly, the second A / D converter 102 ₂ Sends a normal signal 114 or an error signal 115 as a status notification to the reception signal processing unit 103 of the second printed circuit board. ₂ To be supplied.
[0039]
First and second printed circuit boards 104 shown in FIG. ₁ , 104 ₂ For the first and second A / D converters 102 ₁ , 102 ₂ First, a signal transmission path in the case where is normal will be described. In this case, the first A / D converter 102 ₁ The normal signal 114 is transmitted to the first reception signal processing unit 103 in addition to the reception data 118 after the A / D conversion. ₁ Has been entered. Second A / D converter 102 ₂ In addition to the received data 119 after the A / D conversion, the normal signal 114 ₂ Has been entered. In such a normal state, the first reception signal processing unit 103 ₁ Captures the received data 118 and performs processing such as detection. Second received signal processing section 103 ₂ Similarly, the input reception data 119 is fetched and processing such as detection is performed.
[0040]
Next, the first A / D converter 102 ₁ A case where a failure has occurred will be described. In this case, the first A / D converter 102 ₁ No received data 118 is output from the first receiving signal processing unit 103 instead of the normal signal 114. ₁ Will be entered. In this state where a failure has occurred, the first reception signal processing unit 103 of the first printed circuit board ₁ Is a pair of the second printed circuit board 104 ₂ Will receive the received data. At this time, the flat cable 108 shown in FIG. ₁ Using the second printed circuit board 104 ₂ Receives data 112 from. This flat cable 108 ₁ Flat cable 108 provided in parallel with ₂ Is the first received signal processing unit 103 ₁ To the second received signal processing unit 103 ₂ Is used as a route for data 113 to be output. Therefore, the flat cable 108 ₁ , 108 ₂ Signal interference between the two is prevented.
[0041]
Next, the second A / D converter 102 ₂ A case where a failure has occurred will be described. In this case, the second A / D converter 102 ₂ No received data 119 is output from the second received signal processing unit 103 instead of the normal signal 114. ₂ Is input to In this state where a failure has occurred, the second reception signal processing unit 103 of the second printed circuit board ₂ Is the first printed circuit board 104 as a pair ₁ Will receive the received data. At this time, the flat cable 108 shown in FIG. ₂ Using the first printed circuit board 104 ₂ Receives data 113 from. This flat cable 108 ₂ Flat cable 108 provided in parallel with ₁ Is the second received signal processing unit 103 ₂ From the first received signal processing unit 103 ₁ It is used as a path for data 112 to be output to. Therefore, also in this case, the flat cable 108 ₁ , 108 ₂ Signal interference between the two is prevented.
[0042]
In the above-described embodiment, the buffers 124 and 126 have been described as elements enabled by the signal “1” (high level). However, the buffers 124 and 126 may be configured by elements enabled by the signal “0” (low level). Of course. Further, although the inverter 127 is connected to the buffer 124 side, it may be connected to the other buffer 126 side. Further, in the embodiments, the wireless base station apparatus based on the W-CDMA system has been described, but it is obvious that the present invention can be applied to general signal processing apparatuses other than wireless. Further, in the embodiment, the first to fourth reception signal processing units 103 ₁ ~ 103 ₄ Are the respective printed circuit boards 104 ₁ ~ 104 ₄ Has been described on a predetermined substrate, but the number of reception signal processing units 103 is not limited to these numbers.
[0043]
FIG. 4 shows a case where six reception signal processing units are arranged in parallel as an example. In this modification, the first to sixth received signal processing units 103 ₁ ~ 103 ₆ First to sixth printed circuit boards 104 provided with ₁ ~ 104 ₆ Is inserted into a connector (not shown) of the substrate 101A and fixed. These first to sixth printed circuit boards 104 ₁ ~ 104 ₆ Are manufactured as completely the same substrate, and a pair of connectors 105 and 106 are arranged at the other ends thereof. Fifth and sixth printed circuit boards 104 added to the embodiment shown in FIG. ₅ , 104 ₆ Flat cable 141 between the connectors 105 ₁ Are connected, and the fifth and sixth printed circuit boards 104 ₅ , 104 ₆ Flat cable 141 between the connectors 106 ₂ Is connected. Although a specific circuit is not shown on the substrate 101A, the first to third A / D converters 102 ₁ ~ 102 ₃ Is incorporated.
[0044]
As described above, the present invention can be applied in the same manner even when the number of printed circuit boards 104 having the same configuration and including the A / D converter 102 and the received signal processing unit 103 (see FIG. 2) is increased. It is not necessary to cross the data input / output flat cables 108, 109, 141,... Connected between the pair of connectors 105, 106.
[0045]
【The invention's effect】
As described above, according to the first, third, fourth, and sixth aspects of the present invention, the connector connecting portion is provided between the signal processing portion and the pair of data input / output connectors. Depending on which of the A / D converter-side connectors is connected, connector switching means for alternately switching between the input connector side and the output connector side of the pair of data input / output connectors is arranged. The input and output sides of a pair of data input / output connectors of one of the signal processing boards and the other signal processing board can be reversed. Can be connected in parallel. Therefore, the wires do not cross at this portion, so that not only the interference of the signals can be prevented, but also the wiring work can be performed efficiently by using the same signal processing board as much as the wiring does not cross.
[0046]
According to the second, third, fifth and sixth aspects of the present invention, the input side of a pair of data input / output connectors of one processing substrate and the other processing substrate in a pair. And the output side can be reversed, and a pair of cable groups can be connected in parallel between the data input / output connectors. Therefore, the wires do not cross at this portion, so that not only the interference of signals can be prevented, but also the efficient wiring work can be performed using the same processing substrate as much as the wires do not cross.
[0047]
[Brief description of the drawings]
FIG. 1 is a perspective view illustrating a main part of a baseband signal processing unit of a wireless base station device according to an embodiment of the present invention.
FIG. 2 is a block diagram corresponding to FIG. 9 and showing an outline of a configuration of a first printed circuit board of the present embodiment.
FIG. 3 is a block diagram showing first and second printed boards of the baseband signal processing unit shown in FIG. 1 and a board to which these are attached;
FIG. 4 is a perspective view illustrating a main part of a baseband signal processing unit of a wireless base station device in which first to sixth received signal processing units are arranged in a modified example of the present invention.
FIG. 5 is a block diagram illustrating an example of a configuration of a conventional baseband signal processing unit.
FIG. 6 is an explanatory diagram showing a connection state of a reception signal processing unit when both the first and second A / D converters are normal.
FIG. 7 is an explanatory diagram showing a connection state of a reception signal processing unit when a failure occurs in a first A / D converter.
FIG. 8 is a perspective view illustrating a main part of a baseband signal processing unit of a conventional wireless base station device.
FIG. 9 is a block diagram showing an outline of a configuration of a conventional first printed circuit board.
FIG. 10 is a block diagram showing a first printed circuit board, a second printed circuit board, and a board to which these are attached in the related art.
[Explanation of symbols]
101 Baseband signal processing board
102 A / D converter
103 reception signal processing unit
104 Printed circuit board
105, 106 connector
108, 109, 141 Flat cable
112, 113 data
114 Normal signal
115 Error signal
116 Board number data
118 Received data after A / D conversion
121 first bidirectional buffer
122 second bidirectional buffer
124, 126 buffers
127 Inverter

Claims (6)

A plurality of A / D converters for converting a predetermined analog signal into a digital signal are provided. The digital signal after the conversion and the failure of the A / D converter to be converted are corresponded to the respective A / D converters. An A / D converter housing board having a pair of A / D converter side connectors for outputting a signal indicating presence / absence, respectively;
A connector connecting section connected to the A / D converter side connector of the A / D converter housing board, a signal processing section for processing a converted digital signal input via the connector connecting section, A pair of data input / output connectors which are arranged at predetermined positions and which are provided at intervals to input and output data when the A / D converter fails, a pair of the signal processing unit and the pair of data input / output connectors The pair of A / D converter-side connectors arranged between the data input / output connectors is connected to one of the pair of A / D converter-side connectors. A signal processing board prepared by the same number as that of the A / D converter-side connectors and having the same configuration including connector switching means for alternately switching a side to be a connector;
A pair of cables for connecting the data input / output connectors of the signal processing board connected to the pair of A / D converter side connectors in parallel. Signal processing device. A plurality of A / D converters for converting an analog reception signal input from an antenna into a digital reception signal are provided. The digital reception signal after conversion and the A / D to be converted are provided in correspondence with the respective A / D converters. An A / D converter housing board having a pair of A / D converter side connectors for respectively outputting a signal indicating the presence or absence of a failure of the D converter;
A connector connecting part respectively connected to the A / D converter side connector of the A / D converter housing board, and a reception signal processing part for processing a converted digital reception signal inputted through the connector connection part. A pair of data input / output connectors which are arranged at predetermined positions at intervals and are provided for inputting / outputting data when the A / D converter fails, the reception signal processing unit; An input connector of the pair of data input / output connectors is disposed between the pair of data input / output connectors, depending on which of the pair of A / D converter side connectors is connected to the connector connection portion. A reception signal processing board prepared by the same number as the number of the A / D converter-side connectors and having the same configuration including connector switching means for alternately switching a side to be an output connector and a side to be an output connector;
A pair of cables for connecting the data input / output connectors of the reception signal processing board connected to the pair of A / D converter side connectors in parallel. Characteristic signal processing device. Each of the connector switching means includes first and second bidirectional buffers corresponding to a pair of data input / output connectors, one in each of the first and second bidirectional buffers. A logic circuit for inputting a signal whose logic is inverted with respect to the other as a signal for turning on / off the function as a buffer to one of a total of two buffer portions for transmitting signals, and one of a pair of data input / output connectors 3. The signal processing apparatus according to claim 1, further comprising: a processing-substrate-specific logic signal supply unit that supplies predetermined logically inverted signals to the logic circuit. The pair of data input / output connectors supply a digital signal after conversion from an A / D converter other than the failed A / D converter to the failed A / D converter to process the signal. 2. The signal processing device according to claim 1, wherein a signal for processing the signal is input and output by the unit. The pair of data input / output connectors supply a converted digital reception signal from an A / D converter other than the failed A / D converter to the failed A / D converter to receive the converted digital received signal. 3. The signal processing device according to claim 2, wherein a signal for causing the signal processing unit to process the signal is input and output. The cable group is a flat cable, and a pair of flat cables are connected to the pair of data input / output connectors of the paired processing boards so as to be parallel to each other. The signal processing device according to claim 1.

Images