JP2004064242A - Cdma receiver system and cdma receiving method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To sustain uplink transmission power of a communication terminal at an appropriate level and to sustain downlink transmission power of a base station at an appropriate level. <P>SOLUTION: The CDMA receiver 100 comprises a switch section 104 for selectively switching the output signal from an analog receiving section 102 or 103 having an AGC means for processing a receiving signal and controlling the receiving gain automatically, and a TPC determining section 109 generating a designation for increasing the uplink transmission power from a communication terminal on the opposite side and a designation for decreasing the uplink transmission power alternately at a given period during a transition period where selection at the switch section 104 is switched. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a CDMA receiving apparatus and a CDMA receiving method for receiving and processing an incoming wave in a mobile communication system using a direct-spread CDMA (Code Division Multiple Access) system.
[0002]
[Prior art]
FIG. 7 is a block diagram showing a configuration of a conventional CDMA receiver. The conventional CDMA receiving apparatus 700 includes an antenna 701, analog receiving sections 702 and 703, a selection switch section 704, a monitoring control section 705, a RAKE receiving section 706, a reference SIR determining section 707, a received SIR measuring section 708, and a TPC determining section 709. , A spread multiplexing unit 710 and an analog transmitting unit 711.
[0003]
The antenna 701 receives information that is an incoming radio wave, generates a reception signal, and provides the reception signal to the analog reception units 702 and 703. One of the analog receiving units 702 and 703 is used as an active system. The other of the analog receiving units 702 and 703 is used as a backup system for backup when one of the analog receiving units 702 and 703 fails. The analog receiving units 702 and 703 perform AGC correction on a signal received from the antenna 701 and AD-convert the received signal.
[0004]
The monitoring control unit 705 monitors the failure state of the active analog receiving unit 702 or 703. Upon detecting a failure in the active analog receiving unit 702 or 703, the monitoring control unit 705 switches the input destination of the active analog receiving unit 702 or 703 from the active analog receiving unit 702 or 703 to the standby analog receiving unit 703 or 702. A switching instruction to switch to is given. The changeover switch unit 704 switches the selection from the output signal of the active analog reception unit 702 or 703 to the output signal of the standby analog reception unit 703 or 702 in response to the switching instruction from the monitoring control unit 705. The signal is sent to RAKE receiving section 706 as a received signal.
[0005]
RAKE receiving section 706 despreads the received signal after AD conversion and performs RAKE synthesis to generate a signal. Reference SIR determination section 707 measures reception quality using the signal RAKE-combined by RAKE reception section 706 and determines a reference SIR so as to satisfy desired reception quality. Here, the SIR is a desired signal to interference wave reception power ratio (Signal to Interference Ratio).
[0006]
Receiving SIR measuring section 708 measures a receiving SIR using a signal from RAKE receiving section 706. TPC (Transmission Power Control bit) determining section 709 compares the reception SIR measured by reception SIR measuring section 708 with the reference SIR determined by reference SIR determining section 707, generates TPC bits for uplink transmission power control and spreads them. This is provided to the multiplexing unit 710. Spreading multiplexing section 710 spreads and multiplexes the TPC bits for uplink transmission power control from TPC determining section 709 and provides the result to analog transmitting section 711. Analog transmitting section 711 performs D / A conversion on the TPC bits for uplink transmission power control that have been spread and multiplexed from spreading / multiplexing section 710 and provides the result to antenna 701. Antenna 701 transmits the TPC bit for uplink transmission power control from analog transmission section 711 to the communication terminal device as a radio wave.
[0007]
FIG. 8 is a block diagram showing a configuration of another conventional CDMA receiving apparatus. In the conventional CDMA receiving apparatus shown in FIG. 8, the same components as those in the CDMA receiving apparatus shown in FIG. 7 are denoted by the same reference numerals.
[0008]
As shown in FIG. 8, the CDMA receiving apparatus 800 includes an antenna 701, analog receiving units 702 and 703, a selection switch unit 704, a monitoring control unit 705, a RAKE receiving unit 706, a TPC extracting unit 801, a transmission power determining unit 802, A spreading multiplexing unit 710 and an analog transmitting unit 711 are provided.
[0009]
The antenna 701, analog receiving units 702 and 703, selection switch unit 704, monitoring control unit 705, RAKE receiving unit 706, spreading multiplexing unit 710, and analog transmitting unit 711 are the same as those shown in FIG.
[0010]
TPC extracting section 801 obtains a downlink transmission power control TPC bit transmitted from the communication terminal apparatus based on a signal from RAKE receiving section 706. The transmission power determining section 802 determines a downlink transmission power value using the downlink transmission power control TPC bits obtained by the TPC extracting section 801.
[0011]
[Problems to be solved by the invention]
However, in the conventional CDMA receiving apparatus, when switching to the standby analog receiving unit occurs due to a failure of the active analog receiving unit or the like, AGC is newly started inside the standby analog receiving unit. Therefore, a certain period of time (switching transition period) is required from the start of AGC until the AGC correction value converges to a certain value. Therefore, since the AGC correction value during the switching transition period is not guaranteed to be an expected value, there is no guarantee that the delay profile creation using the AGC correction value and the output of RAKE combining also become the expected value. As a result, the measured value of the desired signal received power to interference wave received power ratio (SIR) calculated using the output after RAKE combining becomes an indefinite value, so that the TPC bit for uplink transmission power control also becomes an indefinite value, There is a problem that the uplink transmission power value of the communication terminal device that determines the transmission power after referring to the transmission power control TPC bit becomes excessively large or small.
[0012]
Further, in the conventional CDMA receiving apparatus, since the RAKE combined output has an undefined value during the switching transition period as described above, the downlink transmission power control TPC bit obtained using the RAKE combined output also has an undefined value. In addition, there is a problem that the downlink transmission power value of the base station becomes excessively large or small.
[0013]
SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and is capable of preventing a TPC bit for uplink transmission power control from becoming an indefinite value and enabling a CDMA system to set an uplink transmission power value of a communication terminal device to an appropriate value. An object of the present invention is to provide a receiving apparatus and a CDMA receiving method.
[0014]
Further, the present invention provides a CDMA receiving apparatus and a CDMA receiving method capable of preventing a downlink transmission power value used for control from becoming an indefinite value and making a downlink transmission power value of a base station an appropriate value. With the goal.
[0015]
[Means for Solving the Problems]
A CDMA receiving apparatus according to the present invention includes first and second analog receiving means including AGC means for processing a received signal and automatically controlling a receiving gain, and the first analog receiving means or the second analog receiving means. Selection switching means for selecting any one of the output signals of the communication terminals, and controlling the increase / decrease of the uplink transmission power value from the communication terminal apparatus on the communication partner side using the signal after the RAKE reception processing of the output signal from the selection switching means. And an uplink transmission power control means.
[0016]
In the CDMA receiving apparatus of the present invention, in the above configuration, the uplink transmission power control means converts the output signal of the first or second analog receiving means from the output signal of the second or first analog receiving means to the output signal of the second or first analog receiving means. A configuration in which an instruction to increase the uplink transmission power value and an instruction to decrease the uplink transmission power value from the communication terminal device are alternately generated in a predetermined cycle during a switching transition period that is a time of selection switching by the selection switching unit. Take.
[0017]
According to these configurations, in the switching transition period, an instruction to increase the uplink transmission power value and an instruction to decrease the uplink transmission power value from the communication terminal device on the communication partner side are alternately generated at a predetermined cycle. The power control TPC bit is prevented from becoming an indefinite value, and the uplink transmission power value from the communication terminal device on the communication partner side repeatedly increases and decreases with a predetermined width every predetermined period. The uplink transmission power value can be set to an appropriate value.
[0018]
In the CDMA receiving apparatus of the present invention, in the above configuration, the uplink transmission power control means converts the output signal of the first or second analog receiving means from the output signal of the second or first analog receiving means to the output signal of the second or first analog receiving means. A RAKE receiving process using an AGC value calculated by the first or second analog receiving unit selected immediately before the switching by the selection switching unit during a switching transition period that is a time of selection switching by the selection switching unit. A reference SIR and a measurement SIR are calculated using the signal after the transmission, and an instruction to increase the uplink transmission power value or an instruction to decrease the uplink transmission power value from the communication terminal apparatus based on the reference SIR and the measurement SIR. Is adopted.
[0019]
According to this configuration, during the switching transition period, the uplink transmission power control unit performs the rake reception process using the AGC value calculated by the first or second analog receiving unit selected immediately before the switching by the selection switching unit. A reference SIR and a measurement SIR are calculated using the signal after the above, and an instruction to increase the uplink transmission power value from the communication terminal device on the communication partner side based on the reference SIR and the measurement SIR or the uplink transmission power value is calculated. Since an instruction to decrease the transmission power is generated, uplink transmission power control can be performed without using an unstable AGC value, so that the uplink transmission power value of the communication terminal apparatus can be set to an appropriate value.
[0020]
The CDMA receiving apparatus of the present invention may be arranged such that in said configuration, said first or second AGC value selected immediately before switching by said selection switching means is used as said AGC value used in said switching transition period, which is a switching time by said selection switching means. A configuration using an average value of the AGC values calculated by the analog receiving means 2 is adopted.
[0021]
According to this configuration, in addition to the above-described effects, the average value of the AGC values calculated by the first or second analog reception unit selected immediately before the switching by the selection switching unit is used as the AGC value used in the switching transition period. Since uplink transmission power can be controlled without using an unstable AGC value, the uplink transmission power value of the communication terminal apparatus can be set to an appropriate value.
[0022]
In the CDMA receiving apparatus of the present invention, in the above-described configuration, the downlink transmission power control unit may be configured to convert the output signal of the first or second analog receiving unit into an output signal of the second or first analog receiving unit. A configuration is adopted in which the downlink transmission power value is set to the downlink transmission power value immediately before the selection switching by the selection switching unit in a switching transition period that is a time for selection switching by the selection switching unit.
[0023]
According to this configuration, in the switching transition period, the downlink transmission power value used for control is set to the downlink transmission power value immediately before selection switching by the selection switching unit, so that the downlink transmission power value is prevented from becoming an undefined value. Thus, the downlink transmission power value of the base station can be set to an appropriate value.
[0024]
In the CDMA receiving apparatus of the present invention, in the above-described configuration, the downlink transmission power control unit may be configured to convert the output signal of the first or second analog receiving unit into an output signal of the second or first analog receiving unit. A RAKE receiving process using an AGC value calculated by the first or second analog receiving unit selected immediately before the switching by the selection switching unit during a switching transition period that is a time of selection switching by the selection switching unit. A transmission power control bit transmitted from the communication terminal apparatus is demodulated using the signal after the transmission, and the increase / decrease of the downlink transmission power value is controlled based on the demodulated transmission power control bit.
[0025]
According to this configuration, in the switching transition period, the signal after the RAKE reception processing using the AGC value calculated by the first or second analog receiving unit selected immediately before the switching by the selection switching unit is used. To demodulate the transmission power control bit transmitted from the communication terminal device on the communication partner side and control the increase / decrease of the downlink transmission power value based on the demodulated transmission power control bit, an unstable AGC value is set. Since downlink transmission power control can be performed without using the downlink transmission power value, it is possible to prevent the downlink transmission power value used for control from becoming an indefinite value and to set the downlink transmission power value of the base station to an appropriate value.
[0026]
The CDMA receiving apparatus according to the present invention, in the configuration, the AGC value used in the switching transition period that is a switching time by the selection switching unit, the first or the AGC value selected immediately before the switching by the selection switching unit. A configuration using an average value of the AGC values calculated by the second analog receiving means is employed.
[0027]
According to this configuration, in addition to the above-described effects, the average value of the AGC values calculated by the first or second analog reception unit selected immediately before the switching by the selection switching unit is used as the AGC value used in the switching transition period. Therefore, the downlink transmission power value used for control can be prevented from becoming an indefinite value, and the downlink transmission power value of the base station can be set to an appropriate value.
[0028]
A base station apparatus according to the present invention employs a configuration including the CDMA receiving apparatus.
[0029]
According to this configuration, a base station device having the above-described effects can be obtained.
[0030]
According to the CDMA receiving method of the present invention, the output of the second or first analog receiving means is converted from the output signal of the first or second analog receiving means provided with AGC means for processing the received signal and automatically controlling the receiving gain. A switching step of switching selection to a signal, and an instruction to increase an uplink transmission power value and an instruction to decrease the uplink transmission power value from a communication terminal device on the communication partner side during a switching transition period that is a switching time of the switching step. Generating alternately at a predetermined cycle.
[0031]
According to this method, in the switching transition period, an instruction to increase the uplink transmission power value and an instruction to decrease the uplink transmission power value from the communication terminal device on the communication partner side are alternately generated at a predetermined cycle. Since the control TPC bit is prevented from becoming an indefinite value, the uplink transmission power value from the communication terminal device on the communication partner side repeatedly increases and decreases with a predetermined width every predetermined period. The transmission power value can be set to an appropriate value.
[0032]
According to the CDMA receiving method of the present invention, the output of the second or first analog receiving means is converted from the output signal of the first or second analog receiving means provided with AGC means for processing the received signal and automatically controlling the receiving gain. Using a AGC value calculated by the first or second analog receiving means selected immediately before the switching during a switching transition period, which is a switching time of the switching step, for switching the selection to a signal, An SIR calculation step of calculating a reference SIR and a measurement SIR using the signal after the reception processing, and an uplink transmission from a communication terminal device on the communication partner side based on the reference SIR and the measurement SIR calculated in the SIR calculation step Generating an instruction to increase the power value or an instruction to decrease the uplink transmission power value. .
[0033]
According to this method, during the switching transition period, the AGC value calculated by the first or second analog receiving unit selected immediately before the selection of the output signal of the first or second analog receiving unit is switched is used. A reference SIR and a measurement SIR are calculated using the signal after the RAKE reception processing, and an instruction to increase the uplink transmission power value from the communication terminal device on the communication partner side based on the reference SIR and the measurement SIR or the uplink Since an instruction to reduce the transmission power value is generated, uplink transmission power control can be performed without using an unstable AGC value, so that the uplink transmission power value of the communication terminal device can be set to an appropriate value.
[0034]
According to the CDMA receiving method of the present invention, the output of the second or first analog receiving means is converted from the output signal of the first or second analog receiving means provided with AGC means for processing the received signal and automatically controlling the receiving gain. The downlink transmission power value is set to the downlink transmission power value immediately before the switching of the selection in the switching step of switching the selection to the signal and in the switching transition period that is the switching time of the switching step.
[0035]
According to this method, in the switching transition period, the downlink transmission power value used for control is used as the downlink transmission power value immediately before the selection switching for the output signal of the first or second analog receiving means. Can be prevented from becoming an indefinite value, and the downlink transmission power value of the base station can be set to an appropriate value.
[0036]
According to the CDMA receiving method of the present invention, the output of the second or first analog receiving means is converted from the output signal of the first or second analog receiving means provided with AGC means for processing the received signal and automatically controlling the receiving gain. Using a AGC value calculated by the first or second analog receiving means selected immediately before the switching during a switching transition period, which is a switching time of the switching step, for switching the selection to a signal, Using the signal after the reception processing, demodulating the transmission power control bit transmitted from the communication terminal device on the communication partner side, and increasing or decreasing the downlink transmission power value based on the demodulated transmission power control bit. Controlling).
[0037]
According to this method, during the switching transition period, the AGC value calculated by the first or second analog receiving unit selected immediately before the selection of the output signal of the first or second analog receiving unit is switched is used. Using the signal after the RAKE reception processing, the transmission power control bit transmitted from the communication terminal device on the communication partner side is demodulated, and the downlink transmission power value is increased or decreased based on the demodulated transmission power control bit. , The downlink transmission power can be controlled without using an unstable AGC value, so that the downlink transmission power value used for control is prevented from becoming an indefinite value, and the downlink transmission power value of the base station is controlled. Can be set to an appropriate value.
[0038]
BEST MODE FOR CARRYING OUT THE INVENTION
According to a first aspect of the present invention, an output signal of the first or second analog receiving means provided with an AGC means for processing a received signal and automatically controlling a receiving gain is provided by the second or first analog receiving means. In a switching transition period for switching selection to an output signal, an instruction to increase an uplink transmission power value and an instruction to decrease the uplink transmission power value from a communication terminal device on the communication partner side are alternately generated in a predetermined cycle.
[0039]
Further, a second gist of the present invention is that the second or first analog receiving means includes an AGC means for processing a received signal and automatically controlling a receiving gain from an output signal of the first or second analog receiving means. In the switching transition period for switching the selection to the output signal of the means, using the signal after the RAKE reception processing using the AGC value calculated by the first or second analog receiving means selected immediately before the switching, A reference SIR and a measurement SIR are calculated, and an instruction to increase an uplink transmission power value or an instruction to decrease the uplink transmission power value from a communication terminal device on the communication partner side is generated based on the reference SIR and the measurement SIR. is there.
[0040]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0041]
(Embodiment 1)
FIG. 1 is a block diagram showing a configuration of a CDMA receiving apparatus according to Embodiment 1 of the present invention. The CDMA receiver shown in FIG. 1 is used for a base station device of a mobile communication system.
[0042]
As shown in FIG. 1, CDMA receiving apparatus 100 according to Embodiment 1 of the present invention includes antenna 101, analog receiving sections 102 and 103, selection switch section 104, monitoring control section 105, RAKE receiving section 106, reference SIR It has a determining unit 107, a received SIR measuring unit 108, a TPC determining unit 109, a spreading multiplexing unit 110, and an analog transmitting unit 111.
[0043]
The input terminals of the analog receiving units 102 and 103 are connected to the output terminal of the antenna 101. The input terminal of the selection switch 104 is connected to the output terminals of the analog receivers 102 and 103. The monitoring control unit 105 is connected between the analog receiving units 102 and 103 and the selection switch unit 104. The input terminal of the rake receiving unit 106 is connected to the output terminal of the selection switch unit 104. An input terminal of the reference SIR determination unit 107 is connected to an output terminal of the rake reception unit 106. The input terminal of the reception SIR measurement unit 108 is connected to the output terminal of the rake reception unit 106. The input terminals of the TPC determination unit 109 are connected to the output terminals of the monitoring control unit 105, the reference SIR determination unit 107, and the reception SIR measurement unit 108. The input terminal of spreading multiplexing section 110 is connected to the output terminal of TPC determining section 109. An input terminal of the analog transmission unit 111 is connected to an output terminal of the spread multiplexing unit 110. An output terminal of the analog transmission unit 111 is connected to an input terminal of the antenna 101.
[0044]
The antenna 101 receives and processes information that is an incoming radio wave, generates a received signal, and provides the received signal to the analog receiving units 102 and 103. One of the analog receiving units 102 and 103 is used as a working system. The other of the analog receiving units 102 and 103 is used as a backup system for backup when one of the analog receiving units 102 and 103 fails. The analog receiving units 102 and 103 automatically control the reception gain by AGC correction on the received signal to calculate the AGC value, and then AD-convert the received signal.
[0045]
The monitoring control unit 105 monitors the failure state of the active analog receiving unit 102 or 103. When the monitoring control unit 105 detects a failure of the active analog receiving unit 102 or 103, the monitoring control unit 105 sends an input to the changeover switch unit 104 from the active analog receiving unit 102 or 103 to the standby analog receiving unit 103 or 102. A switching instruction to switch to is given. The changeover switch unit 104 switches the selection from the output signal of the working analog receiving unit 102 or 103 to the output signal of the standby analog receiving unit 103 or 102 in response to the switching instruction from the monitoring control unit 105. The signal is sent to RAKE receiving section 106 as a received signal.
[0046]
RAKE receiving section 106 performs despreading processing on the received signal after AD conversion at a predetermined timing, corrects the phase shift in the propagation path for the despreading processing outputs for the number of paths, and then adjusts the timing. Combine at maximum ratio. Here, the process of using the amplitude information in the process of the RAKE receiving unit 106 is performed using the AGC value obtained by the working analog receiving unit 102 or 103. Reference SIR determination section 107 measures the reception quality using the demodulated signal after the RAKE reception processing by RAKE reception section 106 and determines the reference SIR that satisfies the desired reception quality.
[0047]
Reception SIR measurement section 108 measures reception SIR using a demodulated signal such as a pilot symbol after RAKE reception processing by RAKE reception section 106. TPC determining section 105 compares the reference SIR from reference SIR determining section 107 with the received SIR from received SIR measuring section 108, and when the received SIR is smaller than the reference SIR, the TPC determining section 105 An instruction to increase the uplink transmission power value is used as the TPC bit for uplink transmission power control, and an instruction to decrease the uplink transmission power value from the mobile U station on the communication partner side when the reception SIR is larger than the reference SIR is transmitted upstream. The power control TPC bit is provided to spreading multiplexing section 110. Spreading multiplexing section 110 spreads and multiplexes the TPC bits for uplink transmission power control from TPC determining section 109 and provides the result to analog transmitting section 111. Analog transmitting section 111 converts the TPC bits for uplink transmission power control, which are spread and multiplexed from spreading and multiplexing section 110, from DA to DA and provides the result to antenna 101. Antenna 101 transmits the uplink transmission power control TPC bit from analog transmission section 111 to the communication terminal apparatus as a radio wave.
[0048]
Here, when the monitoring control unit 105 detects a failure in the active analog receiving unit 102 or 103, the monitoring control unit 105 sends an input to the changeover switch unit 104 from the active analog receiving unit 102 or 103 to the standby analog receiving unit 102 or 103. A switching instruction to switch to 103 or 102 is given. The changeover switch unit 104 switches the selection from the output signal of the working analog receiving unit 102 or 103 to the output signal of the standby analog receiving unit 103 or 102 in response to the switching instruction from the monitoring control unit 105. The signal is sent to RAKE receiving section 106 as a received signal.
[0049]
When the selection is switched by the changeover switch unit 104, the standby analog receiving unit 102 or 103 starts AGC correction corresponding to a predetermined sector or a branch for each sector. Only the switching transition period is required from the start of the AGC correction by the standby analog receiving unit 102 or 103 until the AGC correction value converges to a certain value, and the AGC correction value in this switching transition period may be an indefinite value. High. A demodulation result received by RAKE using an AGC correction value, which is an undefined value, often has an undefined value. When the reception SIR measurement or the reference SIR measurement is performed using the demodulation result having the undefined value, the TPC bit for uplink transmission power control obtained by the TPC determination section 107 also has an undefined value. For this reason, the uplink transmission power value from the communication terminal device on the communication partner side becomes excessively large or small.
[0050]
In order to prevent this problem, the monitoring control unit 105 gives a switching instruction to the TPC determining unit 109 during the switching transition period, and the TPC determining unit 109 sets the reception SIR measuring unit 108 and the reference SIR Regardless of the output of the decision unit 107, an instruction to increase the uplink transmission power value and an instruction to decrease the uplink transmission power value of the TPC bits for uplink transmission power control are alternately generated at a predetermined cycle, and are provided to the spread multiplexing unit 110. For example, when the value of the instruction to increase the uplink transmission power value is “1”, the value of the instruction to decrease the uplink transmission power value is “0”, and the uplink transmission power control is performed in a 666.7 μs cycle, , TPC determining section 105 alternately switches the TPC bit for uplink transmission power control to “1” or “0” at a period of 666.7 μs.
[0051]
As described above, according to the first embodiment of the present invention, TPC determining section 109 determines the uplink transmission power value from the communication terminal apparatus on the communication partner side during the switching transition period, which is the time for selection switching by selection switching switch section 104. In order to alternately generate an instruction to increase the uplink transmission power value and an instruction to decrease the uplink transmission power value at a predetermined cycle, the uplink transmission power value from the communication terminal apparatus which is the communication partner side repeatedly increases and decreases by a predetermined width every predetermined cycle. Therefore, the uplink transmission power value of the communication terminal device can be set to an appropriate value. Further, according to the first embodiment of the present invention, since the uplink transmission power value of the communication terminal device can be set to an appropriate value, it is possible to prevent the uplink transmission power value from the communication terminal device from becoming excessively large. Thus, interference with another user's communication terminal device and interference with other cells can be reduced.
[0052]
(Embodiment 2)
Next, a second embodiment of the present invention will be described in detail with reference to the drawings. FIG. 2 is a block diagram showing a configuration of a CDMA receiving apparatus according to Embodiment 2 of the present invention. In the second embodiment of the present invention, the same components as those in the first embodiment of the present invention are denoted by the same reference numerals. The CDMA receiver shown in FIG. 2 is used for a base station device of a mobile communication system.
[0053]
As shown in FIG. 2, CDMA receiving apparatus 200 according to Embodiment 2 of the present invention includes antenna 101, analog receiving sections 102 and 103, selection switch section 104, monitoring control section 105, RAKE receiving section 106, reference SIR It includes a determination unit 107, a reception SIR measurement unit 108, a TPC determination unit 109, a spread multiplexing unit 110, an analog transmission unit 111, and a memory device 201. That is, CDMA receiving apparatus 200 according to Embodiment 2 of the present invention is obtained by adding memory device 201 to CDMA receiving apparatus 100 according to Embodiment 1 of the present invention. The memory device 201 is connected between the selection switch 104 and the RAKE receiver 106. The input terminal of the rake receiving unit 106 is connected to the output terminal of the monitoring control unit 105. The input terminal of the TPC determination unit 109 is not connected to the output terminal of the monitoring control unit 105.
[0054]
Next, the operation of CDMA receiving apparatus 200 different from CDMA receiving apparatus 100 will be described.
[0055]
The memory device 201 stores the previous AGC value calculated by the active analog receiving unit 102 or 103. When detecting the failure of the active analog receiving unit 102 or 103, the monitoring control unit 105 gives a switching instruction to the RAKE receiving unit 106 together with the changeover switch unit 104. The RAKE receiving unit 106 uses the signal after the RAKE receiving process obtained by performing the RAKE receiving process using the previous AGC value input from the memory device 201 during the switching transition period in which the switching instruction is received, as the reference SIR determining unit 107. And received SIR measurement section 108.
[0056]
In this case, the monitoring control unit 105 does not give the switching instruction to the TPC determining unit 109 during the switching transition period. Therefore, TPC determining section 105 compares the reference SIR from reference SIR determining section 107 with the received SIR from received SIR measuring section 108, and when the received SIR is smaller than the reference SIR, communication terminal apparatus on the communication partner side. And the instruction to decrease the uplink transmission power value from the communication terminal device on the communication partner side when the received SIR is larger than the reference SIR. It is provided to spreading multiplexing section 110 as TPC bits for uplink transmission power control.
[0057]
As described above, according to the second embodiment of the present invention, during the switching transition period, the RAKE reception is performed using the AGC value calculated by analog receiving section 102 or 103 selected immediately before switching by selection switching section 104. A reference SIR and a measurement SIR are calculated using the processed signal, and an instruction to increase the uplink transmission power value from the communication terminal device on the communication partner side based on the reference SIR and the measurement SIR or the uplink transmission power value Since the instruction to reduce the transmission power is generated, the uplink transmission power control can be performed without using the unstable AGC value, so that the uplink transmission power value of the communication terminal apparatus can be set to an appropriate value.
[0058]
Further, according to Embodiment 2 of the present invention, since the uplink transmission power value of the communication terminal device can be set to an appropriate value, it is possible to prevent the uplink transmission power value from the communication terminal device from becoming excessively large. Thus, interference with another user's communication terminal device and interference with other cells can be reduced.
[0059]
(Embodiment 3)
Next, a third embodiment of the present invention will be described in detail with reference to the drawings. FIG. 3 is a block diagram showing a configuration of a CDMA receiving apparatus according to Embodiment 3 of the present invention. In the third embodiment of the present invention, the same components as those in the first embodiment of the present invention are denoted by the same reference numerals. The CDMA receiver shown in FIG. 3 is used for a base station device of a mobile communication system.
[0060]
As shown in FIG. 3, CDMA receiving apparatus 300 according to Embodiment 3 of the present invention includes antenna 101, analog receiving sections 102 and 103, selection switching section 104, monitoring control section 105, RAKE receiving section 106, reference SIR It includes a determination unit 107, a reception SIR measurement unit 108, a TPC determination unit 109, a spread multiplexing unit 110, an analog transmission unit 111, and a memory device 301. The memory device 301 is connected between the selection switch 104 and the RAKE receiving unit 106. The input terminal of the rake receiving unit 106 is connected to the output terminal of the monitoring control unit 105. That is, CDMA receiving apparatus 300 according to Embodiment 3 of the present invention is obtained by adding memory device 301 to CDMA receiving apparatus 100 according to Embodiment 1 of the present invention.
[0061]
Next, the operation of CDMA receiving apparatus 300 different from CDMA receiving apparatus 100 will be described.
[0062]
The memory device 301 stores several AGC values calculated by the active analog receiving unit 102 or 103. When detecting the failure of the active analog receiving unit 102 or 103, the monitoring control unit 105 gives a switching instruction to the RAKE receiving unit 106 together with the changeover switch unit 104. RAKE receiving section 106 performs a RAKE receiving process using an average value of several AGC values input from memory device 301 during a switching transition period during which a switching instruction is received, and uses the signal after the RAKE receiving process as a reference. This is given to SIR determination section 107 and reception SIR measurement section 108. That is, the AGC value used by the active analog receiving unit 102 or 103 selected immediately before the switching by the selection switching unit 104 is used as the AGC value used in the switching transition period that is the switching time by the selection switching unit 104. The average value is used.
[0063]
In this case, the monitoring control unit 105 does not give the switching instruction to the TPC determining unit 109 during the switching transition period. Therefore, TPC determining section 105 compares the reference SIR from reference SIR determining section 107 with the received SIR from received SIR measuring section 108, and when the received SIR is smaller than the reference SIR, communication terminal apparatus on the communication partner side. The TPC bit for uplink transmission power control is used to indicate that the uplink transmission power value is to be increased, and when the received SIR is larger than the reference SIR, an instruction to decrease the uplink transmission power value from the communication terminal device on the communication partner side is issued. It is provided to spreading multiplexing section 110 as TPC bits for uplink transmission power control.
[0064]
As described above, according to the third embodiment of the present invention, in addition to the effects of the second embodiment of the present invention, the AGC value used in the switching transition period is selected immediately before the switching by the selection switching unit. Since the average value of the AGC values calculated by the first or second analog receiving means is used, uplink transmission power control can be performed without using an unstable AGC value. Value.
[0065]
(Embodiment 4)
Next, a fourth embodiment of the present invention will be described in detail with reference to the drawings. FIG. 4 is a block diagram showing a configuration of a CDMA receiving apparatus according to Embodiment 4 of the present invention. In the fourth embodiment of the present invention, the same components as those in the first embodiment of the present invention are denoted by the same reference numerals. The CDMA receiving apparatus shown in FIG. 4 is used for a base station apparatus of a mobile communication system.
[0066]
As shown in FIG. 4, CDMA receiving apparatus 400 according to Embodiment 4 of the present invention includes antenna 101, analog receiving sections 102 and 103, selection switching section 104, monitoring control section 105, RAKE receiving section 106, and TPC extraction It comprises a unit 401, a transmission power determining unit 402, a spreading multiplexing unit 110, and an analog transmitting unit 111.
[0067]
The input terminal of the TPC extraction unit 401 is connected to the output terminal of the rake reception unit 106. The input terminal of the transmission power determination unit 402 is connected to the output terminals of the monitoring control unit 105 and the TPC extraction unit 401. The output terminal of transmission power determining section 402 is connected to the input terminal of spreading multiplexing section 110.
[0068]
The antenna 101 receives and processes information that is an incoming radio wave, generates a received signal, and provides the received signal to the analog receiving units 102 and 103. One of the analog receiving units 102 and 103 is used as a working system. The other of the analog receiving units 102 and 103 is used as a backup system for backup when one of the analog receiving units 102 and 103 fails. The analog receiving units 102 and 103 perform A / D conversion of the received signals after performing gain adjustment by AGC correction on the received signals to calculate the AGC value.
[0069]
The monitoring control unit 105 monitors the failure state of the active analog receiving unit 102 or 103. When the monitoring control unit 105 detects a failure of the active analog receiving unit 102 or 103, the monitoring control unit 105 sends an input to the changeover switch unit 104 from the active analog receiving unit 102 or 103 to the standby analog receiving unit 103 or 102. A switching instruction to switch to is given. The changeover switch unit 104 switches the selection from the output signal of the working analog receiving unit 102 or 103 to the output signal of the standby analog receiving unit 103 or 102 in response to the switching instruction from the monitoring control unit 105. The signal is sent to RAKE receiving section 106 as a received signal.
[0070]
RAKE receiving section 106 performs despreading processing on the received signal after AD conversion at a predetermined timing, corrects the phase shift in the propagation path for the despreading processing outputs for the number of paths, and then adjusts the timing. Combine at maximum ratio. Here, the processing using the amplitude information in the processing in the rake receiving unit 106 is performed using the AGC value obtained by the working analog receiving unit 101 or 102.
[0071]
TPC extracting section 401 obtains TPC bits for downlink transmission power control transmitted from the communication terminal apparatus based on the signal from RAKE receiving section 106. Downlink transmission power determination section 402 determines a downlink transmission power value using the downlink transmission power control TPC bits obtained by TPC extraction section 401 when a switching instruction is not received from monitoring control section 105. Further, the downlink transmission power determining unit 402 is a switching time of the selection by the selection switching unit 104 from the output signals of the working analog receiving units 102 and 103 to the output signals of the standby analog receiving units 103 and 102. In the switching transition period, that is, during the period when the switching instruction is received from the monitoring control unit 105, the downlink transmission power value immediately before the selection switching by the selection switching unit 104 is set.
[0072]
Spreading multiplexing section 110 spreads and multiplexes the downlink transmission power value from TPC determining section 109 and supplies the result to analog transmitting section 111. Analog transmitting section 111 controls transmission power based on the downlink transmission power value spread and multiplexed from spreading multiplexing section 110.
[0073]
As described above, according to Embodiment 4 of the present invention, in the switching transition period, the downlink transmission power value used for control is set to the downlink transmission power value immediately before selection switching by the selection switching unit. Can be prevented from becoming an indefinite value, and the downlink transmission power value of the base station can be set to an appropriate value.
[0074]
(Embodiment 5)
Next, a fifth embodiment of the present invention will be described in detail with reference to the drawings. FIG. 5 is a block diagram showing a configuration of a CDMA receiving apparatus according to Embodiment 5 of the present invention. In the fifth embodiment of the present invention, the same components as those in the fourth embodiment of the present invention are denoted by the same reference numerals. The CDMA receiver shown in FIG. 5 is used for a base station device of a mobile communication system.
[0075]
As shown in FIG. 5, CDMA receiving apparatus 500 according to Embodiment 5 of the present invention includes antenna 101, analog receiving sections 102 and 103, selection switch section 104, monitoring control section 105, RAKE receiving section 106, TPC extracting section The transmission apparatus includes a transmission power determining unit 402, a spreading multiplexing unit 110, an analog transmitting unit 111, and a memory device 501. The memory device 501 is connected between the selection switch 104 and the RAKE receiver 106. The input terminal of the rake receiving unit 106 is connected to the output terminal of the monitoring control unit 105. That is, CDMA receiving apparatus 500 according to Embodiment 5 of the present invention is obtained by adding memory device 501 to CDMA receiving apparatus 400 according to Embodiment 4 of the present invention.
[0076]
Next, the operation of CDMA receiving apparatus 500 different from CDMA receiving apparatus 400 will be described.
[0077]
The memory device 501 stores the previous AGC value calculated by the active analog receiving unit 102 or 103. When detecting the failure of the active analog receiving unit 102 or 103, the monitoring control unit 105 gives a switching instruction to the RAKE receiving unit 106 together with the changeover switch unit 104. RAKE receiving section 106 transmits, to TPC extracting section 401, a signal after RAKE receiving processing obtained by performing RAKE receiving processing using the previous AGC value input from memory device 501 during the switching transition period in which the switching instruction is received. give.
[0078]
TPC extracting section 401 obtains TPC bits for downlink transmission power control transmitted from the communication terminal apparatus based on the signal from RAKE receiving section 106. In this case, the monitoring control unit 105 does not give the switching instruction to the transmission power determining unit 402 during the switching transition period. Therefore, transmission power determining section 402 determines the downlink transmission power value using the downlink transmission power control TPC bits obtained by TPC extracting section 401.
[0079]
As described above, according to the fifth embodiment of the present invention, during the switching transition period, the RAKE is performed using the AGC value calculated by the active analog receiving unit 102 or 103 selected immediately before switching by the selection switching unit. Using the signal after the reception processing, demodulates the transmission power control bit transmitted from the communication terminal device on the communication partner side, and controls the increase or decrease of the downlink transmission power value based on the demodulated transmission power control bit. Therefore, it is possible to perform downlink transmission power control without using an unstable AGC value, thereby preventing the downlink transmission power value from becoming an indefinite value and setting the downlink transmission power value of the base station to an appropriate value. can do.
[0080]
(Embodiment 6)
Next, a sixth embodiment of the present invention will be described in detail with reference to the drawings. FIG. 6 is a block diagram showing a configuration of a CDMA receiving apparatus according to Embodiment 6 of the present invention. In the sixth embodiment of the present invention, the same components as those in the sixth embodiment of the present invention are denoted by the same reference numerals. The CDMA receiving apparatus shown in FIG. 6 is used for a base station apparatus of a mobile communication system.
[0081]
As shown in FIG. 6, CDMA receiving apparatus 600 according to Embodiment 6 of the present invention includes antenna 101, analog receiving sections 102 and 103, selection switching section 104, monitoring control section 105, RAKE receiving section 106, and TPC extraction. It includes a unit 401, a transmission power determining unit 402, a spreading multiplexing unit 110, an analog transmitting unit 111, and a memory device 601. The memory device 601 is connected between the selection switch 104 and the rake receiving unit 106. The input terminal of the rake receiving unit 106 is connected to the output terminal of the monitoring control unit 105. That is, CDMA receiving apparatus 600 according to Embodiment 6 of the present invention is obtained by adding memory device 601 to CDMA receiving apparatus 400 according to Embodiment 4 of the present invention.
[0082]
Next, the operation of CDMA receiving apparatus 600 different from CDMA receiving apparatus 400 will be described.
[0083]
The memory device 601 stores several AGC values calculated by the active analog receiving unit 102 or 103. When detecting the failure of the active analog receiving unit 102 or 103, the monitoring control unit 105 gives a switching instruction to the RAKE receiving unit 106 together with the changeover switch unit 104. RAKE receiving section 106 performs a RAKE receiving process using an average value of several AGC values input from memory device 601 during a switching transition period during which a switching instruction is being received, and uses the signal after the RAKE receiving process as a reference. This is given to SIR determination section 107 and reception SIR measurement section 108. That is, the AGC value used by the active analog receiving unit 102 or 103 selected immediately before the switching by the selection switching unit 104 is used as the AGC value used in the switching transition period that is the switching time by the selection switching unit 104. The average value is used.
[0084]
TPC extracting section 401 obtains TPC bits for downlink transmission power control transmitted from the communication terminal apparatus based on the signal from RAKE receiving section 106. In this case, the monitoring control unit 105 does not give the switching instruction to the transmission power determining unit 402 during the switching transition period. Therefore, transmission power determining section 402 determines the downlink transmission power value using the downlink transmission power control TPC bits obtained by TPC extracting section 401.
[0085]
As described above, according to the sixth embodiment of the present invention, in addition to the effect of the fifth embodiment of the present invention, the AGC value used in the switching transition period is selected immediately before switching by the selection switching unit 104. Since the average value of the AGC values calculated by the working analog receiving units 102 or 103 is used, the downlink transmission power value is prevented from becoming an indefinite value, and the downlink transmission power value of the base station is adjusted to an appropriate value. be able to.
[0086]
The present invention can be applied to a base station device in a mobile communication system. Further, the present invention includes a CDMA receiving method for performing an operation in the CDMA receiving apparatus.
[0087]
【The invention's effect】
As described above, according to the present invention, it is possible to prevent an uplink transmission power control TPC bit from becoming an indefinite value and to set an uplink transmission power value of a communication terminal device to an appropriate value.
[0088]
Further, according to the present invention, it is possible to prevent the downlink transmission power value used for control from becoming an indefinite value and to set the downlink transmission power value of the base station to an appropriate value.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a CDMA receiving apparatus according to Embodiment 1 of the present invention.
FIG. 2 is a block diagram showing a configuration of a CDMA receiving apparatus according to Embodiment 2 of the present invention.
FIG. 3 is a block diagram showing a configuration of a CDMA receiving apparatus according to Embodiment 3 of the present invention.
FIG. 4 is a block diagram showing a configuration of a CDMA receiving apparatus according to Embodiment 4 of the present invention.
FIG. 5 is a block diagram showing a configuration of a CDMA receiving apparatus according to Embodiment 5 of the present invention.
FIG. 6 is a block diagram showing a configuration of a CDMA receiving apparatus according to Embodiment 6 of the present invention.
FIG. 7 is a block diagram showing a configuration of a conventional CDMA receiver.
FIG. 8 is a block diagram showing a configuration of another conventional CDMA receiver.
[Explanation of symbols]
100, 200, 300, 400, 500, 600 CDMA receiver
101 antenna
102, 103 Analog receiver
104 Selection switch unit
105 Monitoring control unit
106 RAKE receiving unit
107 Reference SIR determination unit
108 Receive SIR measurement unit
109 TPC determination unit
110 Spreading multiplexing section
111 Analog transmitter
201, 301, 501, 601 memory device
401 TPC extraction unit
402 transmission power determination unit

Claims (12)

First and second analog receiving means including AGC means for processing a received signal and automatically controlling a receiving gain, and selecting one of the output signals of the first analog receiving means or the second analog receiving means. Selection switching means, and an uplink transmission power control means for controlling an increase or decrease of an uplink transmission power value from a communication terminal device on the communication partner side by using a signal after the RAKE reception processing of an output signal from the selection switching means, A CDMA receiver comprising: The uplink transmission power control unit is a switch that is a switching time of the selection by the selection switching unit from the output signal of the first or second analog receiving unit to the output signal of the second or first analog receiving unit. 2. The CDMA receiving apparatus according to claim 1, wherein in the transition period, an instruction to increase the uplink transmission power value and an instruction to decrease the uplink transmission power value from the communication terminal apparatus are alternately generated at a predetermined cycle. . The uplink transmission power control unit is a switch that is a switching time of the selection by the selection switching unit from the output signal of the first or second analog receiving unit to the output signal of the second or first analog receiving unit. In the transition period, the reference SIR and the measurement SIR are determined using the signal after the RAKE reception processing using the AGC value calculated by the first or second analog reception means selected immediately before the switching by the selection switching means. And calculating an instruction to increase the uplink transmission power value or an instruction to decrease the uplink transmission power value from the communication terminal apparatus based on the reference SIR and the measured SIR. CDMA receiver. The AGC value used by the first or second analog receiving means selected immediately before the switching by the selection switching means is used as the AGC value used in the switching transition period, which is the switching time by the selection switching means. 3. The CDMA receiver according to claim 2, wherein an average value is used. The downlink transmission power control unit is a switch that is a switching time of the selection by the selection switching unit from the output signal of the first or second analog receiving unit to the output signal of the second or first analog receiving unit. 2. The CDMA receiving apparatus according to claim 1, wherein in the transition period, the downlink transmission power value is a downlink transmission power value immediately before selection switching by the selection switching unit. The downlink transmission power control unit is a switch that is a switching time of the selection by the selection switching unit from the output signal of the first or second analog receiving unit to the output signal of the second or first analog receiving unit. In the transition period, the communication terminal apparatus uses the signal after RAKE reception processing using the AGC value calculated by the first or second analog reception means selected immediately before switching by the selection switching means, and 2. The CDMA receiving apparatus according to claim 1, wherein the transmission power control bit transmitted from the base station is demodulated, and the increase / decrease of the downlink transmission power value is controlled based on the demodulated transmission power control bit. As the AGC value used in the switching transition period, which is the switching time by the selection switching means, the AGC value calculated by the first or second analog receiving means selected immediately before the switching by the selection switching means. 6. The CDMA receiver according to claim 5, wherein an average value is used. A base station apparatus comprising the CDMA receiver according to any one of claims 1 to 7. A switching step of switching selection from an output signal of the first or second analog receiving means to an output signal of the second or first analog receiving means, which comprises an AGC means for processing a received signal and automatically controlling a receiving gain; Generating an instruction to increase an uplink transmission power value and an instruction to decrease the uplink transmission power value from a communication terminal apparatus on the other side of communication in a switching transition period, which is a switching time of the switching step, in a predetermined cycle. And a CDMA receiving method. A switching step of switching selection from an output signal of the first or second analog receiving means to an output signal of the second or first analog receiving means, which comprises an AGC means for processing a received signal and automatically controlling a receiving gain; Using a signal after RAKE reception processing using an AGC value calculated by the first or second analog receiving means selected immediately before the switching in a switching transition period which is a switching time of the switching step. An SIR calculating step of calculating a reference SIR and a measurement SIR by using the reference SIR and the measurement SIR calculated in the SIR calculating step. Generating an instruction to decrease the uplink transmission power value. A switching step of switching selection from an output signal of the first or second analog receiving means to an output signal of the second or first analog receiving means, which comprises an AGC means for processing a received signal and automatically controlling a receiving gain; A CDMA receiving method, wherein a downlink transmission power value is set to a downlink transmission power value immediately before the selection switching in a switching transition period that is a switching time of the switching step. A switching step of switching selection from an output signal of the first or second analog receiving means to an output signal of the second or first analog receiving means, which comprises an AGC means for processing a received signal and automatically controlling a receiving gain; Using a signal after RAKE reception processing using an AGC value calculated by the first or second analog receiving means selected immediately before the switching in a switching transition period which is a switching time of the switching step. Demodulating transmission power control bits transmitted from a communication terminal device on the communication partner side, and controlling increase / decrease of a downlink transmission power value based on the demodulated transmission power control bits. A CDMA receiving method.

Images