JP2004048177A - Receiver and receiving timing detection method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To normally execute an AGC control and a timing synchronous detection and reduce the power consumption. <P>SOLUTION: A threshold comparator 120 compares the receiving level with a specified threshold in a specified period to output the comparison result to a start signal generator 130. The generator 130 generates an AGC control start signal and a timing synchronous detection start signal for starting operations of the AGC control and the timing synchronous detection if the receiving level exceeds the specified threshold as the comparison result by the comparator 120, and it outputs them to an AC controller 140 and a timing synchronous detector 150, respectively. The controller 140 starts the AGC control according to the AGC control start signal to do an automatic gain control. The timing synchronous detector 150 starts the timing synchronous detection according to the timing synchronous detection start signal. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a receiving device and a receiving timing detecting method.
[0002]
[Prior art]
In a conventional wireless communication system, for example, TDMA (Time Division Multiple Access) or CSMA (Carrier Sense Multiple Access) is applied as an access technique. In a wireless communication system to which these methods are applied, there are sections on the propagation path where no signal is transmitted. For this reason, when the receiving apparatus performs random access or establishes timing synchronization with the base station apparatus immediately after being started, the receiving level and the receiving timing of the received signal are unknown, and the receiving apparatus constantly performs automatic reception. It is necessary to perform operations of gain control (AGC: Auto Gain Control) and synchronization detection. Then, in the signal section, the receiving device causes the control by the AGC to follow the reception level and detects a target reception timing. In other words, this receiving device performs AGC and synchronization detection operations regardless of whether or not a signal is being transmitted.
[0003]
Specifically, for example, as shown in FIG. 13, in a section 20 where the reception level is equal to the sum of the noise level and the signal level, while the signal is being transmitted, in a section 10 where the reception level is equal to the noise level, Although the signal has not been transmitted, when the receiving apparatus starts receiving at the time of starting random access or at the time of starting, the receiving apparatus also performs AGC control and synchronization detection operations in section 10.
[0004]
Then, in section 20, which is a signal section, the AGC control follows the received signal level, and the timing of the target received signal is detected.
[0005]
[Problems to be solved by the invention]
However, the conventional receiving apparatus operates the AGC control circuit and the timing synchronization circuit even in a noise section where no signal is transmitted (for example, section 10 in FIG. 13). A false detection of synchronization may occur in a noise section. If an erroneous detection occurs, the receiving apparatus performs a reception processing operation for a while after that, and when a signal arrives immediately after the erroneous detection, the AGC control and the timing synchronization detection are normally performed on the received signal. There is a problem that can not be done.
[0006]
Further, even in a noise section where a signal is not transmitted on the propagation path, there is a problem that wasteful power is consumed because the AGC control and the synchronization circuit operate.
[0007]
The present invention has been made in view of the above points, and has as its object to provide a receiving apparatus and a receiving timing detecting method capable of performing AGC control and timing synchronization detection normally and reducing power consumption. I do.
[0008]
[Means for Solving the Problems]
The receiving apparatus according to the present invention includes: edge detection means for detecting an edge indicating a transition point from a noise section to a signal transmission section based on a reception level of a reception signal; and an automatic gain control for the reception signal when the edge is detected. And an automatic gain control means for starting the synchronization detection of the received signal when an edge is detected.
[0009]
According to this configuration, an edge which is a transition point from a noise section to a signal transmission section is detected based on a reception level of a reception signal, and when an edge is detected, automatic gain control and synchronization detection of the reception signal are started. Therefore, in the noise section, the AGC control circuit and the timing synchronization detection circuit are not operated, and these circuits are operated only when a signal is transmitted, so that the AGC control and the timing synchronization detection are performed normally and the power consumption is reduced. Reduction can be achieved.
[0010]
In the receiving apparatus according to the present invention, the edge detecting means may include a threshold comparing unit that compares a receiving level with a predetermined threshold at a predetermined cycle, and the reception level may be equal to or greater than a predetermined threshold as a result of the comparison by the threshold comparing unit. And a start signal generation unit for generating a start signal for operating the automatic gain control means and the synchronization detection means in the case of
[0011]
According to this configuration, the reception level is compared with the predetermined threshold every predetermined period, and the start signal is generated when the reception level becomes equal to or higher than the predetermined threshold. The operation of timing synchronization detection can be started reliably.
[0012]
In the receiving apparatus according to the present invention, the edge detecting means may include a threshold comparing unit that compares a receiving level with a first threshold at predetermined intervals, and as a result of the comparison by the threshold comparing unit, the receiving level may be the first threshold. A counter for counting the number of times equal to or greater than the threshold value, a counter value determining unit for comparing the counter value of the counter with a second threshold value, and a counter value determined by the counter value determining unit as a result of the second value. A configuration including a start signal generation unit that generates a start signal for operating the automatic gain control unit and the synchronization detection unit when the threshold value becomes equal to the threshold value.
[0013]
According to this configuration, the reception level is compared with the first threshold every predetermined period, and a start signal is generated when the number of times the reception level has exceeded the first threshold is equal to or greater than the second threshold. Therefore, for example, even when instantaneous impulsive noise occurs in a noise section, a change point from the noise section to the signal transmission section can be accurately detected.
[0014]
In the receiving apparatus according to the present invention, the edge detecting means may include a threshold comparing unit that compares a receiving level with a first threshold at predetermined intervals, and as a result of the comparison by the threshold comparing unit, the receiving level may be the first threshold. A slope detection unit that calculates a difference from a previous reception level and detects a slope when the difference is equal to or more than a threshold, a slope determination unit that compares the detected slope with a second threshold, and the slope determination unit And a start signal generation unit that generates a start signal for operating the automatic gain control unit and the synchronization detection unit when the inclination becomes equal to or smaller than the second threshold value as a result of the comparison. .
[0015]
According to this configuration, the reception level is compared with the first threshold in each predetermined cycle, and when the reception level is equal to or greater than the first threshold, the slope of the reception level is detected. Since the start signal is generated when the threshold value becomes equal to or less than the threshold value of 2, the operations of AGC control and timing synchronization detection can be started when the reception level is reliably in the signal transmission section and stabilized. , AGC convergence time can be reduced.
[0016]
In the receiving apparatus according to the present invention, the edge detecting means may include a counter for counting the number of times the inclination has become equal to or less than the second threshold value as a result of the comparison by the inclination determination unit, and a counter value of the counter set to a third value. A counter value determining unit that compares the automatic gain when the counter value is equal to the third threshold value as a result of the comparison by the counter value determining unit. A configuration for generating a start signal for operating the control means and the synchronization detection means is employed.
[0017]
According to this configuration, the reception level is compared with the first threshold in each predetermined cycle, and when the reception level is equal to or greater than the first threshold, the slope of the reception level is detected. Since the start signal is generated when the number of times equal to or less than the threshold value of 2 becomes equal to or more than the third threshold value, for example, even when instantaneous impulsive noise occurs in a noise section, signal transmission from the noise section is performed. A point of change to the section can be accurately detected, and when the reception level surely becomes that of the signal transmission section and becomes stable, the operations of AGC control and timing synchronization detection can be started. The convergence time of AGC can be shortened.
[0018]
The receiving apparatus according to the present invention employs a configuration in which the counter sets a counter value to 0 when a reception level becomes equal to or less than the first threshold as a result of the comparison by the threshold comparing unit.
[0019]
According to this configuration, since the counter value is set to 0 when the reception level becomes equal to or less than the first threshold, the number of times that the reception level becomes equal to or more than the first threshold can be counted continuously. A change point from the noise section to the signal transmission section can be reliably detected.
[0020]
The receiving apparatus of the present invention further includes a falling edge detecting unit that detects a falling edge indicating a transition point from a signal transmission section to a noise section based on a reception level of a received signal, wherein the edge detecting unit includes: An edge detection operation is performed after a falling edge is detected by the falling edge detection means.
[0021]
According to this configuration, the edge detection operation is performed after detecting the falling edge indicating the transition point from the signal transmission section to the noise section based on the reception level of the received signal. In this case, a change point from the noise section to the signal transmission section can be reliably detected.
[0022]
A communication terminal device according to the present invention employs a configuration including any one of the receiving devices described above.
[0023]
According to this configuration, the same operation and effect as the receiving device according to any of the above can be realized in the communication terminal device.
[0024]
A base station apparatus according to the present invention employs a configuration including any one of the receiving apparatuses described above.
[0025]
According to this configuration, the same operation and effect as the receiving device according to any of the above can be realized in the base station device.
[0026]
A method for detecting a reception timing according to the present invention includes the steps of: detecting an edge indicating a transition point from a noise section to a signal transmission section based on a reception level of a reception signal; and, when an edge is detected, automatically controlling a gain of the reception signal. And starting synchronization detection.
[0027]
According to this method, an edge which is a transition point from a noise section to a signal transmission section is detected based on a reception level of a reception signal, and when an edge is detected, automatic gain control and synchronization detection of the reception signal are started. Therefore, in the noise section, the AGC control circuit and the timing synchronization detection circuit are not operated, and these circuits are operated only when a signal is transmitted, so that the AGC control and the timing synchronization detection are performed normally and the power consumption is reduced. Reduction can be achieved.
[0028]
BEST MODE FOR CARRYING OUT THE INVENTION
The gist of the present invention is to detect a change point between a section in which a reception level of a received signal indicates a level of only noise and a section in which a level of a sum of a noise and a signal indicates, and detect only a change point in a section indicating the level of the sum of a noise and a signal The operation of automatic gain control and timing synchronization detection.
[0029]
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0030]
(Embodiment 1)
FIG. 1 is a block diagram showing a configuration of a receiving apparatus according to Embodiment 1 of the present invention. The receiving apparatus shown in FIG. 1 includes a radio unit 100, a reception level detection unit 110, an edge detection unit including a threshold comparison unit 120 and a start signal generation unit 130, an AGC control unit 140, and a timing synchronization detection unit 150. I have.
[0031]
Radio section 100 performs predetermined radio processing such as filtering, down-conversion, gain control, and quadrature detection on a reception signal received via an antenna, and transmits a baseband signal to reception level detection section 110 and timing synchronization. Output to the detection unit 150. Reception level detection section 110 detects the reception level of the baseband signal and outputs the detection level to threshold value comparison section 120 and AGC control section 140.
[0032]
Threshold comparing section 120 compares the reception level with a predetermined threshold at a predetermined cycle, and outputs a result of the comparison to start signal generating section 130. Start signal generating section 130 has an AGC control start signal and a timing synchronization detection start signal for starting operations of AGC control and timing synchronization detection when the reception level is greater than a predetermined threshold value as a result of comparison by threshold comparing section 120. Are generated and output to the AGC control unit 140 and the timing synchronization detection unit 150. In other words, the start signal generation unit 130 makes a determination using the result of the threshold comparison, so that the timing at which the reception level switches from the section indicating the level of the noise only to the section indicating the level of the sum of the noise and the signal (hereinafter, referred to as the timing). This timing is referred to as “edge”), and when an edge is detected, an AGC control start signal and a timing synchronization detection start signal are generated.
[0033]
AGC control section 140 starts AGC control in response to the AGC control start signal output from start signal generation section 130 and, based on the current reception level output from reception level detection section 110, uses It controls an amplifier (not shown) and performs automatic gain control. The timing synchronization detection section 150 starts timing synchronization detection in response to the timing synchronization detection start signal output from the start signal generation section 130, detects synchronization timing, and decodes the baseband signal into a subsequent demodulation section (not shown). Output to
[0034]
Next, the operation of the receiving apparatus having the above configuration will be described with reference to the flowchart shown in FIG. It is assumed that the AGC control unit 140 and the timing synchronization detection unit 150 are not operating in the initial state.
[0035]
First, the reception level detection section 110 detects the reception level. For example, in the case of a baseband signal, the reception level is detected by performing the calculation shown in the following (Equation 1).
[0036]
Σ ｛(I-ch) ² + (Q-ch) ² ・ ・ ・ (Equation 1)
Here, (I-ch) indicates the in-phase component of the signal, and (Q-ch) indicates the quadrature component of the signal. Further, an average process of the reception level may be performed to suppress the noise component. Note that the reception level may be detected by the wireless unit 100. In this case, the reception level detection unit 110 can be configured by using a level detection circuit for the intermediate frequency band.
[0037]
Then, the obtained reception level is output to threshold comparing section 120 and AGC control section 140. The output reception level is compared with a predetermined threshold at predetermined intervals by threshold comparison section 120 (ST1000). Here, the predetermined threshold value to be compared with the reception level is larger than the reception level in the section where the signal is not transmitted (that is, the reception level indicating only the noise), and is the reception level in the section where the signal is transmitted (that is, the reception level). (Reception level indicating the sum of signal and noise).
[0038]
The comparison result by threshold comparing section 120 is output to start signal generating section 130, and when the reception level is smaller than a predetermined threshold, it is determined that the reception level is a level of only noise. Thereby, the point in time when the receiving apparatus according to the present embodiment starts reception is within a section in which no signal is transmitted, so that the reception level is a value smaller than the threshold value, and is a level of only noise. Will be determined. Since the comparison by the threshold comparing unit 120 is performed at predetermined intervals, while the receiving level is smaller than the threshold, the determination that the receiving level is the noise level and the comparison by the threshold comparing unit 120 are repeated.
[0039]
On the other hand, if the reception level becomes higher than the predetermined threshold value as a result of the comparison by threshold comparison section 120, the reception level is determined to be the level of the sum of noise and signal, and the AGC control start signal and the timing synchronization detection signal are detected. A start signal is generated and output to AGC control section 140 and timing synchronization detection section 150, respectively. Therefore, during a reception operation of the receiving apparatus according to the present embodiment, when a transition is made from a section in which no signal is transmitted to a section in which a signal is transmitted, the reception level exceeds a threshold at a certain point (edge). Therefore, it is determined that the level is the sum of the noise and the signal, and the AGC control start signal and the timing synchronization detection start signal are generated. Thus, the edge is detected from the reception level, and the AGC control start signal and the timing synchronization detection start signal are generated.
[0040]
Then, when the AGC control start signal is output to AGC control section 140, an amplifier (not shown) in radio section 100 is controlled by AGC control section 140, and AGC control is started (ST1100). At the same time, when a timing synchronization detection start signal is output to timing synchronization detection section 150, detection of synchronization timing is started by timing synchronization detection section 150 (ST1100), and the baseband signal is sent to a subsequent demodulation section (not shown). Output and demodulated.
[0041]
FIG. 3 is a diagram showing an example of a temporal transition of the reception level after the receiving device according to the present embodiment starts the receiving operation. In the figure, in section 200, no signal is transmitted, and the reception level detected by reception level detecting section 110 is equal to the noise level. In section 210, a signal is transmitted, and the reception level detected by reception level detection section 110 is equal to the sum of the signal and noise.
[0042]
Here, in the section 200, the radio unit 100, the reception level detection unit 110, the threshold comparison unit 120, and the start signal generation unit 130 are operating, and as described above, the threshold comparison unit 120 and the start signal generation unit 130 As a result, the reception level is determined, and the edge detection operation is performed. Then, at t1 of the section 210 in which the signal is received, the reception level exceeds the threshold value, which means that an edge has been detected, and the start signal generation unit 130 generates an AGC start signal and a timing synchronization detection start signal. The control unit 140 and the timing synchronization detection unit 150 start operating. As a result, after t1, AGC control and timing synchronization detection are performed on the received signal.
[0043]
As described above, according to the present embodiment, even when the arrival time of the signal to be received is uncertain, the interval from the noise only to the interval that is the sum of the signal and the noise is determined based on the reception level. AGC control and timing synchronization detection are started when the edge is detected, and the AGC control circuit and the timing synchronization circuit are operated only when the reception processing is performed. In other words, only the noise is detected. In the section (1), the AGC control circuit and the timing synchronization circuit are not operated at all, so that the power consumption during standby can be reduced, and the AGC control circuit and the timing synchronization circuit can be operated normally when the intended signal is received.
[0044]
(Embodiment 2)
A feature of the second embodiment of the present invention is that edge detection accuracy is improved by adding a temporal condition to a determination condition for detecting an edge.
[0045]
FIG. 4 is a block diagram showing a configuration of a receiving apparatus according to Embodiment 2 of the present invention. In the receiving apparatus shown in the figure, the same parts as those of the receiving apparatus shown in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted.
[0046]
The edge detecting section of the receiving apparatus according to the present embodiment has counter 300 and counter value determining section 310 in addition to the edge detecting section of the receiving apparatus according to Embodiment 1 (FIG. 1).
[0047]
The counter 300 is set to 0 in an initial state, and is incremented or reset according to the comparison result output from the threshold comparing unit 120. Specifically, the counter 300 is incremented when the reception level detected by the reception level detection unit 110 is higher than a predetermined threshold (hereinafter, referred to as “threshold 1”) as a result of the comparison by the threshold comparison unit 120. , When the reception level is smaller than a predetermined threshold (threshold 1). The counter value determination unit 310 compares the counter value of the counter 300 with a predetermined threshold (hereinafter, referred to as “threshold 2”) and detects an edge. Specifically, when the counter value is smaller than the threshold value 2, the counter value determination unit 310 determines that the reception level is a level of only noise, and when the counter value is equal to the threshold value 2, the reception level is equal to the signal and noise. Is determined to be the level of the sum of, and an edge is detected.
[0048]
Next, the operation of the receiving apparatus having the above configuration will be described with reference to the flowchart shown in FIG. It is assumed that the AGC control unit 140 and the timing synchronization detection unit 150 are not operating in the initial state.
[0049]
First, counter 300 is reset, and the counter value is set to 0 (ST2000). Then, as in the first embodiment, the reception level of the baseband signal is detected by reception level detection section 110, and is compared with threshold value 1 at predetermined intervals by threshold comparison section 120 (ST2100).
[0050]
The comparison result by threshold comparing section 120 is output to counter 300. If the reception level is smaller than threshold 1, the counter value is reset to 0 again (ST2000), and the comparison by threshold comparing section 120 is repeated. On the other hand, when the reception level becomes equal to threshold value 1, the counter value of counter 300 is incremented (ST2200). Then, when the counter value is incremented, the counter value is output to counter value determination section 310 and compared with threshold value 2 (ST2300).
[0051]
As a result of this comparison, if the counter value is smaller than the threshold value 2, it is determined that the reception level detected by the reception level detection unit 110 is a level of only noise. If the counter value becomes equal to the threshold value 2 as a result of the comparison, the reception level detected by the reception level detection unit 110 is determined to be the sum of the signal and noise. As a result, when the number of times the reception level exceeds the threshold 1 becomes the threshold 2 continuously as a result of the comparison performed at predetermined intervals by the threshold comparison unit 120, the reception level is determined by the level of the sum of the signal and the noise. That is, an edge is detected.
[0052]
When the counter value is smaller than threshold value 2, the comparison by threshold value comparing section 120 is repeated (ST2100). On the other hand, when the counter value becomes equal to threshold value 2, AGC control start signal is generated by start signal generating section 130. Then, a timing synchronization detection start signal is generated and output to AGC control section 140 and timing synchronization detection section 150, respectively, and the operation of AGC control and timing synchronization detection is started (ST2400).
[0053]
FIG. 6 is a diagram illustrating an example of a temporal transition of the reception level after the reception device according to the present embodiment starts the reception operation. In this figure, as in FIG. 3, no signal is transmitted in the section 200, and the reception level detected by the reception level detection unit 110 is equal to the noise level. In section 210, a signal is transmitted, and the reception level detected by reception level detection section 110 is equal to the sum of the signal and noise.
[0054]
Here, in the section 200, the radio unit 100, the reception level detection unit 110, the threshold comparison unit 120, the counter 300, the counter value determination unit 310, and the start signal generation unit 130 are operating. The comparison unit 120, the counter 300, the counter value determination unit 310, and the start signal generation unit 130 determine the reception level and perform the edge detection operation. As shown in FIG. 6, during this edge detection operation (section 200), the reception level may temporarily exceed the threshold 1 due to, for example, impulsive noise. No edge is detected because it does not exceed. Then, at t2 of the section 210 in which the signal is received, the number of times the reception level exceeds the threshold 1 is equal to the threshold 2, so that an edge is detected, and the start signal generation unit 130 detects the AGC start signal and the timing synchronization. A detection start signal is generated, and the AGC control unit 140 and the timing synchronization detection unit 150 start operating. As a result, after t2, AGC control and timing synchronization detection are performed on the received signal.
[0055]
As described above, according to the present embodiment, since a temporal condition is added to the comparison between the reception level and the threshold value, erroneous determination of edge detection due to impulsive noise can be prevented, and the accuracy can be improved. The AGC control circuit and the timing synchronization circuit are operated only when the processing is performed, in other words, the AGC control circuit and the timing synchronization circuit are not operated at all in the section of only noise, and the power consumption during standby is reduced. The AGC control circuit and the timing synchronizing circuit can be operated normally when a target signal is received.
[0056]
(Embodiment 3)
A feature of the third embodiment of the present invention is that the edge detection accuracy is improved by adding a condition relating to a temporal change amount of a reception level to a determination condition for detecting an edge.
[0057]
FIG. 7 is a block diagram showing a configuration of a receiving apparatus according to Embodiment 3 of the present invention. In the receiving apparatus shown in the figure, the same parts as those of the receiving apparatus shown in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted.
[0058]
The edge detecting section of the receiving apparatus according to the present embodiment has a tilt detecting section 400 and a tilt determining section 410 in addition to the edge detecting section of the receiving apparatus according to Embodiment 1 (FIG. 1).
[0059]
The inclination detection unit 400 calculates a difference between the reception level compared with the predetermined threshold (hereinafter, referred to as “threshold 1”) by the threshold comparison unit 120 and the reception level compared with the previous threshold 1 by: The gradient of the reception level (that is, the amount of time change of the reception level) is detected. The inclination determining unit 410 compares the absolute value of the inclination of the reception level with a predetermined threshold (hereinafter, referred to as “threshold 2”) to detect an edge. Specifically, when the absolute value of the slope of the reception level is larger than threshold 2, slope determination section 410 determines that the reception level is a level of only noise, and the absolute value of the slope of the reception level is larger than threshold 2. If it is smaller, it is determined that the reception level is the level of the sum of the signal and the noise, and the edge is detected.
[0060]
Next, the operation of the receiving apparatus having the above configuration will be described with reference to the flowchart shown in FIG. It is assumed that the AGC control unit 140 and the timing synchronization detection unit 150 are not operating in the initial state.
[0061]
First, as in the first embodiment, the reception level of the baseband signal is detected by reception level detection section 110, and compared with threshold value 1 at predetermined intervals by threshold comparison section 120 (ST3000).
[0062]
The comparison result by threshold comparing section 120 is output to inclination detecting section 400, and when the reception level is smaller than threshold 1, the comparison by threshold comparing section 120 is repeated (ST3000). On the other hand, when the reception level becomes equal to the threshold 1, the difference between the reception level used for comparison by the threshold comparison unit 120 this time and the reception level used for comparison by the previous threshold comparison unit 120 is determined by the inclination detection unit 400. Is calculated, and the inclination of the reception level is detected. Then, inclination determining section 410 compares the absolute value of the inclination of the reception level with threshold value 2 (ST3100).
[0063]
As a result of this comparison, if the absolute value of the slope of the reception level is larger than threshold value 2, it is determined that the reception level detected by reception level detection section 110 is a level of only noise. Further, as a result of the comparison, if the absolute value of the slope of the reception level is smaller than the threshold value 2, the reception level detected by the reception level detection unit 110 is determined to be the sum of the signal and noise. As a result, even if the reception level exceeds threshold 1 as a result of comparison by threshold comparing section 120, no edge is detected in a transition section in which the reception level gradually increases, and the slope of the reception level becomes smaller than threshold 2 An edge is detected at a stable point.
[0064]
When the absolute value of the slope of the reception level is larger than threshold value 2, the comparison by threshold comparing section 120 is repeated (ST3000). On the other hand, when the absolute value of the slope of the reception level is smaller than threshold value 2, the process starts. AGC control start signal and timing synchronization detection start signal are generated by signal generation section 130 and output to AGC control section 140 and timing synchronization detection section 150, respectively, to start the operation of AGC control and timing synchronization detection (ST3200).
[0065]
FIG. 9 is a diagram illustrating an example of a temporal transition of the reception level after the receiving device according to the present embodiment starts the receiving operation. In this figure, as in FIG. 3, no signal is transmitted in the section 200, and the reception level detected by the reception level detection unit 110 is equal to the noise level. In section 210, a signal is transmitted, and the reception level detected by reception level detection section 110 is equal to the sum of the signal and noise.
[0066]
Here, in the section 200, the radio unit 100, the reception level detection unit 110, the threshold comparison unit 120, the inclination detection unit 400, the inclination determination unit 410, and the start signal generation unit 130 are operating, and as described above, The threshold level comparing section 120, the inclination detecting section 400, the inclination determining section 410, and the start signal generating section 130 determine the reception level and perform the edge detection operation. As shown in FIG. 9, the reception level is in a transient state immediately after the section 210 in which the signal is received. In this state, even if the reception level exceeds the threshold value 1, the absolute value of the slope of the reception level becomes Since it is larger than the threshold value 2, no edge is detected. Then, at t3, when the transient state of the reception level has passed and the absolute value of the gradient of the reception level becomes smaller than the threshold value 2 at the time t3, an edge has been detected, and the AGC start signal and the timing A synchronization detection start signal is generated, and the AGC control unit 140 and the timing synchronization detection unit 150 start operating. Thus, after t3, AGC control and timing synchronization detection are performed on the received signal.
[0067]
As described above, according to the present embodiment, the end point of the transition section when the reception level changes from the section indicating the level of only noise to the section indicating the level of the sum of noise and a signal is detected as an edge. AGC control and timing synchronization detection can be started at accurate timing. In addition, in the reception level detection section 110, especially when a value obtained by averaging a plurality of samples of the baseband signal is used as the reception level, AGC is required to prevent AGC control in a transient state where the reception level is gradually increasing. The convergence time can be reduced.
[0068]
(Embodiment 4)
A feature of the fourth embodiment of the present invention is that edge detection accuracy is further improved by using a combination of the determination conditions of the second and third embodiments as a determination condition for detecting an edge. It is.
[0069]
FIG. 10 is a block diagram showing a configuration of a receiving apparatus according to Embodiment 4 of the present invention. In the receiving apparatus shown in the figure, the same parts as those of the receiving apparatus shown in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted.
[0070]
The edge detecting section of the receiving apparatus according to the present embodiment includes, in addition to the edge detecting section of the receiving apparatus according to Embodiment 1 (FIG. 1), a tilt detecting section 500, a tilt determining section 510, a counter 520, and a counter value. The determination unit 530 is provided.
[0071]
The inclination detection unit 500 calculates a difference between the reception level compared with the predetermined threshold (hereinafter, referred to as “threshold 1”) by the threshold comparison unit 120 and the reception level compared with the previous threshold 1 by: The gradient of the reception level (that is, the amount of time change of the reception level) is detected. Slope determination section 510 compares the absolute value of the slope of the reception level with a predetermined threshold (hereinafter, referred to as “threshold 2”) to detect an edge. Specifically, when the absolute value of the slope of the reception level is larger than threshold 2, slope determination section 510 determines that the reception level is a level of only noise, and the absolute value of the slope of the reception level is larger than threshold 2. If it is smaller, it is determined that the reception level is the level of the sum of the signal and the noise, and the edge is detected.
[0072]
The counter 520 is set to 0 in the initial state, and is incremented or reset according to the comparison result of the threshold comparing unit 120 and the determination result of the inclination determining unit 510. Specifically, the counter 520 is reset when the reception level detected by the reception level detection unit 110 is smaller than a predetermined threshold (hereinafter, referred to as “threshold 1”) as a result of the comparison by the threshold comparison unit 120. When the reception level is larger than the threshold 1 and the absolute value of the slope of the reception level is smaller than a predetermined threshold (hereinafter, referred to as “threshold 2”), the value is incremented. The counter value determination unit 530 compares the counter value of the counter 520 with a predetermined threshold (hereinafter, referred to as “threshold 3”), and detects an edge. Specifically, when the counter value is smaller than the threshold value 3, the counter value determination unit 530 determines that the reception level is a level of only noise, and when the counter value becomes equal to the threshold value 3, the reception level is set to the signal and noise. Is determined to be the level of the sum of, and an edge is detected.
[0073]
Next, the operation of the receiving apparatus having the above configuration will be described with reference to the flowchart shown in FIG. It is assumed that the AGC control unit 140 and the timing synchronization detection unit 150 are not operating in the initial state.
[0074]
First, counter 520 is reset, and the counter value is set to 0 (ST4000). Then, as in the first embodiment, the reception level of the baseband signal is detected by reception level detection section 110, and compared with threshold value 1 at predetermined intervals by threshold value comparison section 120 (ST4100).
[0075]
The comparison result by threshold comparing section 120 is output to inclination detecting section 500, and when the reception level is smaller than threshold 1, the counter value of counter 520 is reset to 0 (ST4000), and the comparison by threshold comparing section 120 is repeated. (ST4100). On the other hand, when the reception level becomes equal to the threshold value 1, the inclination detection unit 500 determines the difference between the reception level used for comparison by the current threshold comparison unit 120 and the reception level used for comparison by the previous threshold comparison unit 120. Is calculated, and the inclination of the reception level is detected. Then, inclination determining section 510 compares the absolute value of the inclination of the reception level with threshold value 2 (ST4200).
[0076]
The result of the determination by the slope determination unit 510 is output to the counter 520. When the absolute value of the slope of the reception level is larger than the threshold value 2, the reception level detected by the reception level detection unit 110 is a level of only noise. Is determined, and the comparison by the threshold value comparing unit 120 is repeated (ST4100). On the other hand, when the absolute value of the slope of the reception level is smaller than threshold value 2, the counter value of counter 520 is incremented (ST4300). Then, when the counter value is incremented, the counter value is output to counter value determination section 530 and compared with threshold value 3 (ST4400).
[0077]
As a result of the comparison, when the counter value is smaller than the threshold value 3, it is determined that the reception level detected by the reception level detection unit 110 is a level of only noise. When the counter value becomes equal to the threshold value 3 as a result of the comparison, the reception level detected by the reception level detection unit 110 is determined to be the sum of the signal and the noise. Thereby, as a result of the comparison of the reception level by threshold comparison section 120 and the determination of the inclination of the reception level by inclination determination section 510, the reception level exceeds threshold 1 and the absolute value of the inclination of the reception level is smaller than threshold 2 When the number of times reaches the threshold value 3 continuously, the reception level is determined based on the level of the sum of the signal and the noise, and the edge is detected.
[0078]
When the counter value is smaller than threshold value 3, the comparison by threshold value comparing section 120 is repeated (ST4100). On the other hand, when the counter value becomes equal to threshold value 3, start signal generating section 130 causes AGC control start signal to start. And a timing synchronization detection start signal is generated and output to AGC control section 140 and timing synchronization detection section 150, respectively, and the operation of AGC control and timing synchronization detection is started (ST4500).
[0079]
As described above, according to the present embodiment, when there is impulsive noise having a large reception level in a section where a signal is not transmitted, or when the reception level is in a transient state and gradually increases, edge detection is performed. AGC control and timing synchronization detection with more accurate timing to detect an edge after reliably transitioning from a section in which the reception level indicates only noise level to a section in which the reception level indicates the sum of signal and noise without making a determination Can be started, and the AGC control circuit and the timing synchronization detection circuit are not operated at all in the section where only the signal is not transmitted and the power consumption during standby can be reduced.
[0080]
(Embodiment 5)
A feature of the fifth embodiment of the present invention is to detect a falling edge of a reception level.
[0081]
The configuration of the receiving apparatus according to the present embodiment corresponds to Embodiment 1 (FIG. 1), Embodiment 2 (FIG. 4), Embodiment 3 (FIG. 7), or Embodiment 4 (FIG. 10). The configuration is the same as that of the receiving device, and the description thereof is omitted.
[0082]
FIG. 12 is a diagram illustrating an example of a temporal transition of the reception level after the reception device according to the present embodiment starts the reception operation. In the figure, in section 610, no signal is transmitted, and the reception level detected by reception level detecting section 110 is equal to the noise level. In section 600 and section 620, a signal is transmitted, and the reception level detected by reception level detection section 110 is assumed to be equal to the level of the sum of the signal and noise. As shown in FIG. 12, in the present embodiment, a signal is transmitted when the receiving device starts a receiving operation. For this reason, the reception level at the start of the reception operation satisfies the conditions for edge detection in the first to fourth embodiments, and the receiving apparatus operates the AGC control unit 140 even though no edge of the reception level is detected. Then, the operation of the timing synchronization detecting section 150 is started. However, since the AGC control and the timing synchronization detection are not started from the beginning of the received signal, the received signal cannot be correctly demodulated even if the timing synchronization or the reception processing is performed.
[0083]
Therefore, threshold comparing section 120 of the receiving apparatus according to the present embodiment holds a threshold for detecting a falling edge of the reception level, and compares the reception level with this threshold at the start of the reception operation. Until the reception level becomes smaller than the threshold value, the rising edge detection operation by the edge detection unit is stopped, and once it is detected that only the noise is present on the transmission path, the rising edge of the reception signal is again detected. Operate to detect. That is, in FIG. 12, the operation of detecting the rising edge is started after t4, and the edge of the signal in the section 620 is detected.
[0084]
Thus, even when the receiving operation is started during a section in which a signal is being transmitted on the transmission line, the edge detection of the next rising edge of the received signal can be reliably detected without immediately operating the AGC control circuit and the timing synchronization detecting circuit. It can be carried out.
[0085]
As described above, according to the present embodiment, even when the start time of the reception operation is within the section where the signal is being transmitted, the AGC and the synchronization timing detection means are not operated immediately, but once. After detecting that only the noise is present on the transmission path, the head timing of the received signal is detected again, so that the AGC control and the timing synchronization detection can be normally performed. The timing synchronization detection circuit is not operated at all, and power consumption during standby can be reduced.
[0086]
【The invention's effect】
As described above, according to the present invention, AGC control and timing synchronization detection can be performed normally, and power consumption can be reduced.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a receiving apparatus according to Embodiment 1 of the present invention.
FIG. 2 is a flowchart showing an operation of the receiving apparatus according to the first embodiment.
FIG. 3 is a diagram for explaining an operation of the receiving apparatus according to the first embodiment.
FIG. 4 is a block diagram showing a configuration of a receiving apparatus according to Embodiment 2 of the present invention.
FIG. 5 is a flowchart showing the operation of the receiving apparatus according to the second embodiment.
FIG. 6 is a diagram for explaining an operation of the receiving apparatus according to the second embodiment.
FIG. 7 is a block diagram showing a configuration of a receiving apparatus according to Embodiment 3 of the present invention.
FIG. 8 is a flowchart showing the operation of the receiving apparatus according to the third embodiment.
FIG. 9 is a diagram for explaining an operation of the receiving apparatus according to the third embodiment.
FIG. 10 is a block diagram showing a configuration of a receiving apparatus according to Embodiment 4 of the present invention.
FIG. 11 is a flowchart showing an operation of the receiving apparatus according to the fourth embodiment.
FIG. 12 is a view for explaining the operation of the receiving apparatus according to Embodiment 5 of the present invention.
FIG. 13 is a diagram for explaining the operation of a conventional receiving apparatus.
[Explanation of symbols]
100 Radio unit
110 reception level detection unit
120 threshold comparator
130 Start signal generator
140 AGC control unit
150 Timing synchronization detector
300, 520 counter
310, 530 counter value determination unit
400, 500 Tilt detector
410, 510 inclination determination unit

Claims (10)

Edge detection means for detecting an edge indicating a transition point from the noise section to the signal transmission section based on the reception level of the received signal,
When an edge is detected, automatic gain control means for starting automatic gain control of the received signal,
Synchronous detection means for starting synchronous detection of a received signal when an edge is detected;
A receiving device comprising: The edge detecting means,
A threshold comparing unit that compares the reception level with a predetermined threshold for each predetermined cycle,
As a result of the comparison by the threshold comparison unit, a start signal generation unit that generates a start signal for operating the automatic gain control unit and the synchronization detection unit when a reception level is equal to or higher than a predetermined threshold,
The receiving device according to claim 1, further comprising: The edge detecting means,
A threshold comparing unit that compares the reception level with the first threshold every predetermined cycle;
A counter that counts the number of times the reception level has become equal to or greater than the first threshold as a result of the comparison by the threshold comparing unit;
A counter value determination unit that compares a counter value of the counter with a second threshold value,
A start signal generation unit that generates a start signal for operating the automatic gain control unit and the synchronization detection unit when the counter value becomes equal to the second threshold value as a result of the comparison by the counter value determination unit; ,
The receiving device according to claim 1, further comprising: The edge detecting means,
A threshold comparing unit that compares the reception level with the first threshold every predetermined cycle;
As a result of the comparison by the threshold comparison unit, when the reception level is equal to or greater than the first threshold, a slope detection unit that calculates a difference from a previous reception level and detects a slope,
A slope determination unit that compares the detected slope with a second threshold,
As a result of the comparison by the inclination determination unit, a start signal generation unit that generates a start signal for operating the automatic gain control unit and the synchronization detection unit when the inclination becomes equal to or less than the second threshold value,
The receiving device according to claim 1, further comprising: The edge detecting means,
A counter that counts the number of times that the inclination has become equal to or less than the second threshold value as a result of the comparison by the inclination determination unit;
A counter value determination unit that compares a counter value of the counter with a third threshold value,
The start signal generation unit includes:
When the counter value becomes equal to the third threshold value as a result of the comparison by the counter value determination section, a start signal for operating the automatic gain control means and the synchronization detection means is generated. The receiving device according to claim 4. The counter is
6. The receiving apparatus according to claim 3, wherein a counter value is set to 0 when a reception level falls below the first threshold value as a result of the comparison by the threshold comparing section. Falling edge detecting means for detecting a falling edge indicating a transition point from the signal transmission section to the noise section based on the reception level of the received signal,
The edge detecting means,
2. The receiving apparatus according to claim 1, wherein an edge detecting operation is performed after a falling edge is detected by said falling edge detecting means. A communication terminal device comprising the receiving device according to claim 1. A base station apparatus comprising the receiving apparatus according to any one of claims 1 to 7. Detecting an edge indicating a transition point from the noise section to the signal transmission section based on the reception level of the received signal;
Initiating automatic gain control and synchronization detection of the received signal when an edge is detected;
A reception timing detection method, comprising:

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