JP3675247B2 - Code division multiple access communication system and transmission power control method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mobile communication system and a transmission power control method thereof, and more particularly, to a mobile communication system of a reservation type access control system to which code division multiple access (CDMA) is applied and a transmission power control method thereof.
[0002]
[Prior art]
In the CDMA system, a plurality of mobile terminals share the same frequency band and communicate with one base station. Therefore, for example, for a received desired signal wave transmitted from the mobile terminal A to the base station, another modulated wave (undesired signal wave) transmitted from the other mobile terminal B to the base station becomes interference, and the mobile terminal It interferes with the communication between A and the base station. The degree of this interference depends on the reception level of undesired signal waves received by the base station. If the degree of interference increases to a certain degree or more, communication between the mobile terminal and the base station becomes impossible. That is, if the transmission power from the mobile terminal is controlled as a whole system and the signal level always received at the base station can be limited to the minimum required reception power, the channel that the base station can communicate with is maximized. The number of channels that can be communicated will decrease as it goes out of that state.
[0003]
Regarding the transmission power control technology of CDMA mobile communication, there is a transmission power control method described in TIA / EIA / IS-95, which is a standard system for digital cellular telephones in North America. The IS-95 transmission power control method will be described below.
[0004]
In cellular telephones, bidirectional communication is essential, so that when a communication is performed between a base station and a mobile terminal, a set of upstream and downstream channels is secured. Here, the uplink direction indicates the direction in which data is transmitted from the mobile terminal to the base station, and the downlink direction indicates the direction in which data is transmitted from the base station to the mobile terminal.
[0005]
The base station measures the reception power of data transmitted from the mobile terminal, and creates a transmission power control signal according to the measured reception power. As the transmission power control signal, a transmission power control signal “1” is created for a mobile terminal whose data reception power is larger than the target reception power. Conversely, a transmission power control signal “0” is generated for a mobile terminal whose data received power is smaller than the target received power. The created transmission power control signal is inserted into transmission data transmitted from the base station to the mobile terminal and transmitted to the mobile terminal. In accordance with the transmission power control signal, the mobile terminal performs control so that the transmission power is reduced when it is “1” and the transmission power is increased when it is “0”. This will be specifically described with reference to FIG. Each mobile terminal (mobile terminals 1 to n) and the base station communicate with each other using a pair of uplink and downlink channels. The upper stage is a downstream channel, and the lower stage is an upstream channel. In particular, the height of the uplink transmission data is drawn so as to correspond to the reception power of the uplink transmission data at the base station.
[0006]
In communication with the mobile terminal 1, the base station inserts transmission power control signals 132a, 132b, 132c,... For the mobile terminal 1 into the downlink data transmission channel 130a to the mobile terminal 1. The mobile terminal 1 changes the transmission power when transmitting uplink transmission data according to the transmission power control signal obtained by receiving the channel 130a. In this way, the base station performs transmission power control of the mobile terminal 1 using the downlink data transmission channel 130a. The same applies to the mobile terminal 2 and below.
[0007]
[Problems to be solved by the invention]
With the advancement of mobile communication technology, demand for not only a telephone but also a data communication function is increasing for mobile communication.
[0008]
In order to effectively use a channel in one-way communication represented by data communication, a CDMA packet communication method has been proposed. The CDMA packet communication system is described in, for example, “Yano, Masami, Hasegawa, Doi,“ Development of CDMA packet mobile communication system ”, IEICE Communication Society Conference, B-389 (1996)”.
[0009]
In the case of a telephone, the communication is always bi-directional communication in the uplink direction and the downlink direction. On the other hand, in data communication represented by the CDMA packet data communication system, it is assumed that unidirectional communication is performed only in the uplink direction or only in the downlink direction. In such a one-way communication, a conventional transmission power control method based on the premise that a pair of uplink and downlink channels perform transmission power control with each other cannot be applied.
[0010]
If a downlink channel is ensured only for the purpose of uplink transmission power control, one channel is occupied only for uplink transmission power control, and channel use efficiency is very high. Get worse.
[0011]
[Means for Solving the Problems]
Therefore, in the present invention, in a CDMA mobile communication system typified by a CDMA packet data communication system, a base station performs transmission power control on a plurality of mobile terminals using a downlink channel common to the mobile terminals. It was decided.
[0012]
The base station measures the reception level of data transmitted from the mobile terminal for each channel, and creates a transmission power control signal based on the measurement result for each channel. The obtained transmission power control signals are collected in a format predetermined by the system, and transmitted to a plurality of mobile terminals using a common channel.
[0013]
From the transmission power control signal transmitted from the base station, the mobile terminal extracts the transmission power control signal corresponding to the uplink channel used by the terminal itself, and changes the transmission power to the specified value accordingly. To continue sending data.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows an example of the configuration of a mobile communication network to which the present invention is applied. Reference numeral 200 denotes a public network including a fixed terminal 201 such as a telephone. A mobile communication network 202 includes a plurality of base stations 203a, 203b,... And is connected to the public network 200. Each base station 203 (a, b...) Communicates with the mobile terminals 204 a, 204 b... Existing in each service area (cell) using the radio channel 205.
[0015]
Hereinafter, a case where the present invention is applied to a CDMA packet communication system will be described in detail as an example.
[0016]
FIG. 2 shows an example of a control system of a reservation-type access control mobile communication system to which the present invention is applied. This control system has a reserved channel (uplink) and a response channel (downlink) shared by a plurality of mobile terminals in the area. FIG. 2 shows an example of a system in which a pilot channel 8 (downlink), which is a dedicated channel for transmitting a pilot signal 9 transmitted by the base station, is provided as a reference signal for the mobile terminal.
[0017]
A mobile terminal having a data transmission request transmits a reservation packet 4 to the base station using the reservation channel 1 at an arbitrary timing. For each received reservation packet, the base station performs a scheduling process for selecting a channel through which the mobile terminal can transmit data from among a plurality of existing uplink transmission channels. A time slot 7 is defined for the transmission channel. The base station selects an uplink transmission channel and a time slot through which a mobile terminal having a data transmission request can transmit data through scheduling processing. In order to transmit the scheduling result to the mobile terminal, the base station creates a response packet 5 corresponding to each reservation packet. The created response packet is transmitted to the mobile terminal in the area using the response channel 2. The mobile terminal that has requested data transmission recognizes the response packet addressed to itself from the received response packet, and transmits the data packet from the uplink transmission channel 3 using the channel designated by the base station.
[0018]
For example, in FIG. 2, the mobile terminal that has transmitted the reservation packet 4a receives the response packet 5a transmitted to its own terminal from among the response packets transmitted from the base station, and receives the transmission channel 3a specified in the response packet. The data packet 6a is transmitted using the time slot 7a.
[0019]
A first embodiment for realizing the uplink transmission power control method of the present invention will be described with reference to FIGS.
[0020]
FIG. 3 shows the configuration of the base station of the first embodiment.
[0021]
After the reception signal received by the antenna 30 passes through the circulator 31, the reception radio module 32 performs demodulation of the baseband signal and reception processing at high / intermediate frequencies. Since signals of a plurality of channels are multiplexed in the received signal, the received signal is input to a synchronization acquisition / spectrum despreading circuit (33, 42a to n) provided for each channel, and spectrum despreading processing is performed. Applied.
[0022]
The reservation packet output from the synchronization acquisition / spectrum despreading circuit 33 for the reservation channel is subjected to detection processing by the detection unit 35 through the signal line 50 and error correction decoding processing such as Viterbi decoding by the decoding unit 36. The packet decoding unit 37 analyzes the reservation content such as the terminal ID of the mobile terminal that is the transmission source of the reservation packet and the amount of transmission data from the decoded reservation packet, and transmits the reservation content to the response packet creation unit 38.
[0023]
The reservation packet output from the reservation channel synchronization acquisition / spectrum despreading circuit 33 is also input to the reservation channel reception level measurement unit 39 through the signal line 51. The reserved channel reception level measurement unit 39 performs reception level measurement such as a signal-to-noise power ratio (SN ratio). The reception level measurement result is input to the reserved channel transmission start transmission power control signal generator 40, and operations such as comparison with the reference reception level are performed. Based on the comparison result, a transmission power control signal for designating transmission power when the mobile terminal starts transmission of a data packet is created and input to the response packet creation unit 38.
[0024]
The response packet creation unit 38 creates a response packet from the reservation content input from the packet decoding unit 37 and the transmission power control signal input from the reserved channel transmission start transmission power control signal generation unit 40. An example of the response packet is shown in FIG. The terminal ID 100 is the ID of the mobile terminal that has transmitted the reservation packet. This is the destination of the response packet and is obtained from the reservation content. The use channel 101 and the slot number 102 are scheduled based on the reservation contents in the reservation packet creation unit 38, and specify an uplink transmission channel and a time slot to be used by the mobile terminal. The transmission power 103 at the start of transmission is a transmission power control signal input from the reserved channel transmission start transmission power control signal generator 40, and specifies the transmission power when the mobile terminal starts data transmission. This transmission power control signal at the start of transmission may specify a relative increase / decrease with the transmission power when the reservation packet is transmitted, or may specify an absolute value of the transmission power. Well this is defined as a system. A CRC (Cyclic Redundancy Check) 104 is added to the response packet for error detection and correction.
[0025]
The response packet created as described above is input to the encoding unit 47. The encoding unit 47 performs error correction encoding such as convolutional encoding. The encoded response packet is input to the transmission channel transmission power control signal insertion unit 41.
[0026]
On the other hand, data packets transmitted using each uplink transmission channel are output from the synchronization acquisition / spectrum despreading circuits 42a to 42n provided for each of the plurality of uplink transmission channels. The data packet passes through the signal line 52 and is detected and decoded for each channel, and the received data is extracted from the signal line 54.
[0027]
Similar to the reservation packet, the data packet output from the synchronization acquisition / spread spectrum despreading circuits 42 a to 42 n for the upstream transmission channel is also input to the transmission channel reception level measurement unit 45 through the signal line 53. An example of the configuration of the transmission channel reception level measurement unit 45 is shown in FIG. Reception level measuring units 45a to 45n corresponding to each of a plurality of uplink transmission channels 53a to 53n measure reception levels such as an SN ratio.
[0028]
The reception level measurement result is input to the transmission channel transmission power control signal generator 46. An example of the configuration of the transmission channel transmission power control signal generator 46 is shown in FIG. The transmission power control signal generators 46a to 46n provided for each uplink transmission channel perform operations such as comparison between the reception level and the target reception level, and update the transmission power when the mobile terminal continues data transmission. Create the specified transmit power control signal. The update designation transmission power control signal is also determined by the system in the same manner as the transmission start time transmission power control signal. The created transmission power control signal is input to the transmission channel transmission power control signal insertion unit 41.
[0029]
The transmission channel transmission power control signal insertion unit 41 inserts the transmission power control signal created by the transmission channel transmission power control signal creation unit 46 between the response packets input from the response packet creation unit 38. An example of the insertion method is shown in FIG.
[0030]
The response packet (110a, b...) Has a structure as shown in FIG. The transmission power control signal created by the transmission channel transmission power control signal creation unit 46 is inserted into the response channel at predetermined intervals. In FIG. 7, the transmission power control signal 111 is inserted between the response packets 110a and 110b.
[0031]
The transmission power control signal includes transmission power control signals 111a to 111n corresponding to transmission channels 1 to n.
[0032]
The base station must perform transmission power control for the mobile terminal with sufficient frequency in order to suppress the fluctuation of the reception level of the received data packet. If the transmission power control signal is the same as the IS-95 system, it can be composed of n bits. In general, a data packet transmits several tens of bits of information so that a certain amount of information can be transmitted at one time. The response packet as shown in FIG. 4 can be made sufficiently small with respect to the size of the data packet. For this reason, even if a configuration using both a response channel and a transmission power control channel is employed as in this embodiment, transmission power control can be performed with sufficient frequency. Further, by performing reception of the response packet and reception of the transmission power control signal on the same channel, the mobile terminal can make the receiver of the response packet and the transmission power control signal common. Thereby, the circuit scale of the mobile terminal can be reduced.
[0033]
It is also possible to perform transmission power control with a transmission power larger than the transmission power of the response packet in order to reliably perform transmission power control.
[0034]
The response packet and the transmission power control signal are subjected to spread spectrum processing by the response channel spreading circuit 48. The spread spectrum response packet and the transmission power control signal are multiplexed with other downlink channels in the adder 58, transmitted through the transmission radio module 49 and the circulator 31, and then transmitted from the antenna 30.
[0035]
FIG. 8 shows an example of the configuration of the mobile terminal according to the first embodiment.
[0036]
An operation when the mobile terminal transmits a reservation packet will be described.
[0037]
After the reception signal received by the antenna 60 passes through the circulator 61, the reception radio module 62 performs demodulation of the baseband signal and reception processing at a high / intermediate frequency. The pilot signal output from the pilot channel synchronization acquisition / spectrum despreading circuit 150 is input to the reception level measuring unit 151. The reception level measurement unit 151 performs reception level measurement such as an S / N ratio on the received pilot signal. The obtained reception level measurement result is input to reserved channel amplification gain calculation section 152. Reservation channel amplification gain calculation section 152 determines the transmission power of the reservation packet from the reception level of the pilot signal.
[0038]
Here, in a mobile communication system having an independent pilot channel, a pilot signal is always transmitted from a base station at a constant transmission power level. Therefore, when the reception signal-to-noise ratio of the pilot signal is large, it is considered that the mobile terminal exists near the base station, and the reserved channel amplification gain calculation unit 152 calculates a small value as the amplification gain. Conversely, when the reception signal-to-noise ratio of the pilot signal is small, it is considered that the mobile terminal exists at a position far from the base station, and the reserved channel amplification gain calculation unit 152 calculates a large value as the amplification gain. Note that the transmission power of such a reservation packet can be determined even if it is not a pilot signal as long as it is a control channel signal common to each mobile terminal.
[0039]
Next, the operation when the mobile terminal that transmitted the reservation packet to the base station receives the response packet transmitted by the base station will be described.
[0040]
The response packet output from the synchronization acquisition / spectrum despreading circuit 63 for the response channel is subjected to detection processing by the detection unit 64 and error correction decoding processing such as Viterbi decoding by the decoding unit 65. Through the above processing, information on the channel and slot number to be used included in the response packet as shown in FIG. 4 can be obtained as the reception response data. The initial transmission power holding unit 125 holds the transmission power signal at the start of transmission in the response packet, and inputs the transmission power at the start of transmission to the data channel amplification gain calculation unit 124. Data channel amplification gain calculation section 124 calculates a gain for transmitting a data packet with the transmission power specified by the transmission power at the start of transmission. The obtained gain is set as the amplification gain of the variable gain amplifier 68.
[0041]
The data packet transmitted from the mobile terminal is amplified by the variable gain amplifier 68 with the amplification gain designated by the data channel amplification gain calculation unit 124, transmitted from the antenna 60 after passing through the wireless module for transmission 69 and the circulator 61. The
[0042]
Next, transmission power control when the mobile terminal is transmitting a data packet to the base station will be described.
[0043]
The transmission power correction unit 123 extracts a transmission power control signal from the signals in the response channel processed by the synchronization acquisition / spectrum despreading circuit 63 and the detection unit 64 for the response channel. The transmission power correction unit 123 selects a transmission power control signal corresponding to the uplink transmission channel currently used by the terminal from the extracted transmission power control signal. For example, in the example of FIG. 7, a mobile terminal that is transmitting a data packet using the transmission channel 1 selects the transmission power control signal 111a. The transmission power control signal thus selected is input to the amplification gain calculation unit 124. The transmission channel amplification gain calculation unit 124 calculates an amplification gain such that the transmission power becomes a value specified by the transmission power control signal, and updates the amplification gain of the variable gain amplifier 68. The data packet is amplified with the amplification gain updated by the variable gain amplifier 68, and then transmitted from the antenna 60 via the transmission wireless module 69 and the circulator 61.
[0044]
FIG. 9 shows transmission power control realized by the base station and the mobile terminal performing the operations described above.
[0045]
The base station inserts transmission power control signals 142a, 142b, 142c,... Into a response channel 140 common to mobile terminals in the area and transmits the response channels. The power control signal 142 includes a transmission power control signal portion for each transmission channel 1 to n. The mobile terminal 1 to the mobile terminal n which are transmitting data packets 1 to n to the base station can transmit the transmission power control signals 142a, 142b, 142c,... To the uplink transmission channel used by the own terminal. The corresponding transmission power control signal part is extracted. The mobile terminal changes the transmission power of the data packet according to the extracted transmission power control signal.
[0046]
In FIG. 9, the height of the data packet is drawn so as to correspond to the reception level when the data packet is received by the base station. For example, in the uplink transmission channel 1, the transmission power control signals 142a, 142b and 142c receive control signals to increase, decrease, and increase the transmission power, respectively, and the transmission power is controlled in the mobile terminal.
[0047]
Note that the mobile terminal ignores the transmission power control signal when the mobile terminal is not transmitting a data packet. In addition, after the mobile terminal transmits the data packet, the transmission power control signal received while the time required for measuring the reception level of the data packet by the base station (referred to as “control delay time”) has not passed is ignored. To do. This is because the transmission power control information before the control delay time elapses may be a transmission power control signal based on a data packet transmitted by a different mobile terminal, resulting in erroneous control.
[0048]
With the above operation, the base station can perform transmission power control of the uplink transmission channel 1 to the uplink transmission channel n by using only the response channel that is a control channel common to the mobile terminals.
[0049]
The first embodiment has a configuration that is particularly suitable for data communication by one-way communication. However, data communication may be performed by bidirectional communication. In such a case, the transmission power control signal can be included in the data of the downlink transmission channel. Hereinafter, as a second embodiment, a mobile communication system suitable for two-way data communication and particularly capable of simplifying the circuit configuration of a mobile terminal will be described.
[0050]
FIG. 10 shows the configuration of the base station of the second embodiment.
[0051]
Elements corresponding to those of the base station of the first embodiment shown in FIG. 3 are assigned the same reference numerals. The operation of the base station for the reservation packet received by the base station is the same as in the first embodiment.
[0052]
Regarding the data packet received by the base station, the base station performs the same operation as in the first embodiment, and obtains received data from the signal line 54. Further, the transmission channel reception level measurement unit 45 and the transmission channel transmission power control signal creation unit 46 calculate a transmission power control signal for each uplink transmission channel.
[0053]
Here, consider a case where the base station transmits a data packet using the downlink transmission channel k to the mobile terminal that is transmitting the data packet to the base station using the uplink transmission channel i. In this case, the base station inputs the transmission power control signal corresponding to the uplink transmission channel i to the transmission channel transmission power control signal insertion unit 59 of the downlink transmission channel k and inserts it in the data packet. At this time, the transmission power control signal corresponding to the uplink transmission channel i may be inserted into the response channel as in the first embodiment.
[0054]
As an example, a case will be described in which a base station transmits a data packet using a downlink transmission channel n to a mobile terminal that transmits the data packet to the base station using the uplink transmission channel 1. In this case, the transmission power control signal for the uplink transmission channel 1 created by the transmission channel transmission power control signal creation unit 46 is input to the transmission channel transmission power control signal insertion unit 59n for the downlink transmission channel n. The transmission channel transmission power control signal insertion unit 59n inserts a transmission power control signal in the data packet. The data packet obtained in this way is subjected to spread spectrum processing by the spread spectrum circuit 57n and multiplexed with signals of other channels by the adder 58. The multiplexed signal is transmitted from the antenna 30 after passing through the transmission wireless module 49 and the circulator 31.
[0055]
FIG. 11 shows the configuration of the mobile terminal of the second embodiment.
[0056]
Elements corresponding to those of the mobile terminal of the first embodiment shown in FIG. 8 are assigned the same reference numerals. When the mobile terminal transmits a reservation packet, when receiving a response packet transmitted from the base station to the own terminal, or when only transmitting a data packet to the base station (one-way communication), switch 70 is used. Connected to 70a, the same operation as in the first embodiment shown in FIG. 8 is performed.
[0057]
Next, the operation when the mobile terminal simultaneously performs both transmission of data packets to the base station and reception of data packets transmitted from the base station (two-way communication) will be described. In this case, the switch 70 is connected to the 70b side.
[0058]
The data packet is received via the antenna 60, the circulator 61, and the reception wireless module 62, and subjected to reception processing by the transmission channel synchronization acquisition / spectrum despreading circuit 63b and the detection unit 64. The data packet output from the detection unit 64 is subjected to error correction decoding by the decoding unit 65, and received data is obtained through the signal line 66. The output of the detection unit 64 is also input to the transmission power correction unit 123. The transmission power correction unit 123 extracts only the transmission power control signal inserted in the data packet at the base station and inputs it to the transmission channel amplification gain calculation unit 124. The transmission channel amplification gain calculation unit 124 calculates the amplification gain of the variable gain amplifier 68 as in the first embodiment, and updates the amplification gain.
[0059]
When the base station and the mobile terminal perform the configuration and operation of the second embodiment, the mobile terminal always receives only one of the response channel or the transmission channel, thereby transmitting and receiving data packets with the base station, It becomes possible to receive transmission power control from the base station. Therefore, the mobile terminal only needs to have one detection unit and one decoding unit, and an increase in the circuit scale of the mobile terminal can be suppressed.
[0060]
In the above embodiments, the present invention is applied to a mobile communication system of the reservation type access control method, and in particular, an example in which a base station transmits a transmission power control signal to each mobile terminal using a response channel has been shown. However, even if the channel is other than the response channel, the present invention can be applied if the channel is common to the mobile terminals. That is, if the base station uses a common channel for the mobile terminal, the base station transmits the transmission power control signal to a plurality of mobile terminals using one channel if the transmission power control signal is transmitted using the common channel. Can be performed. Of course, the transmission power control of the mobile terminal may be performed by providing a dedicated transmission power control channel and the base station transmitting the transmission power control signal using the dedicated transmission power control channel.
[0061]
【The invention's effect】
According to the present invention, it is possible for the base station to perform transmission power control on the mobile terminal even for one-way communication in the uplink direction from the mobile terminal. In particular, even in a CDMA packet communication system, which is a communication system suitable for data communication, uplink transmission power control using a channel efficiently can be performed.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a mobile communication network to which the present invention is applied.
FIG. 2 is a diagram showing a reservation type access control system to which the present invention is applied.
FIG. 3 is a diagram illustrating a first embodiment of a base station that implements transmission power control of the present invention.
FIG. 4 is a diagram illustrating the structure of a response packet.
FIG. 5 is a configuration diagram of a transmission channel reception level measurement unit.
FIG. 6 is a configuration diagram of a transmission channel transmission power control signal creation unit.
FIG. 7 is a diagram illustrating an example of inserting a transmission power control signal between response packets.
FIG. 8 is a diagram illustrating a first embodiment of a mobile terminal that implements transmission power control according to the present invention.
FIG. 9 is a diagram illustrating uplink transmission power control realized by a base station and a mobile terminal performing the operation of the first embodiment;
FIG. 10 is a diagram illustrating a second embodiment of the base station that implements the transmission power control of the present invention.
FIG. 11 is a diagram illustrating a second embodiment of a mobile terminal that implements transmission power control according to the present invention.
FIG. 12 is a diagram illustrating conventional transmission power control in the uplink direction.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Reserved channel, 2, 140 ... Response channel, 3 ... Uplink transmission channel, 4 ... Reserved packet, 5 ... Response packet, 6 ... Uplink data packet, 7 ... Time slot, 30, 60 ... Antenna, 31, 61 ... Circulator , 32, 62 ... Radio module for reception, 33, 42, 63, 120, 150 ... Synchronous acquisition / spectrum despreading circuit, 35, 43, 64, 121, ... Detection circuit, 36, 44, 65, 122 ... Decoding circuit , 37 ... Packet decoding unit, 38 ... Response packet creation unit, 39 ... Reserved channel reception level creation unit, 40 ... Transmission power control signal creation unit at transmission start, 41, 59 ... Transmission channel transmission power control signal insertion unit, 45 ... Transmission channel reception level measurement unit 46 ... Transmission channel transmission power control signal creation unit 47, 56 ... Encoding unit 48, 57 ... Spectrum expansion Circuit, 49, 69 ... Wireless module for transmission, 58, 154 ... Adder, 100 ... Terminal ID, 101 ... Used channel, 102 ... Used slot number, 103 ... Transmission power at transmission start, 104 ... CRC bit, 111, 142 Transmission power control signal 123 Transmission power correction unit 124 Data channel amplification gain calculation unit 125 Initial transmission power holding unit 151 Pilot channel reception level measurement unit 152 Reservation channel amplification gain calculation unit 68 153 ... Variable gain amplifier, 70 ... Switch 130 ... Downstream traffic channel, 131 ... Upstream traffic channel, 132 ... Transmission power control signal, 200 ... Public network, 201 ... Telephone, 202 ... Mobile communication network, 203 ... Base station, 204 ... mobile terminals.

Claims (9)

An uplink transmission channel for uplink data transmission between a plurality of terminals and a terminal set corresponding to the uplink transmission channel and used for transmission of a signal including a transmission power control signal in the uplink transmission channel Using at least a part of a first downlink channel that can be used and a second downlink channel that is used in common by the plurality of terminals and can be used to transmit the transmission power control information to the plurality of terminals. A base station that performs communication by CDMA,
A control signal generator for generating a transmission power control signal for controlling signal transmission of the terminal by the uplink transmission channel in response to reception of a signal from the terminal by the uplink transmission channel ;
A transmission unit for spreading and transmitting the transmission power control signal,
The transmission unit, when using the first downlink channel for the terminal, transmits the transmission power control signal to the terminal via the first downlink channel . The base station according to claim 1 , wherein
A reception level measurement unit for measuring the reception level of the received signal;
The base station, wherein the control signal creation unit creates the transmission power control signal based on the measured reception level. The base station according to claim 1 , wherein
The base station characterized in that the control signal creation unit creates the transmission power control signal corresponding to uplink transmission channels from a plurality of the terminals, and multiplexes and transmits the plurality of transmission power control signals. Between the base station and a plurality of terminals, an uplink transmission channel for uplink data transmission and a terminal addressed to the terminal corresponding to the uplink transmission channel are used to transmit a transmission power control signal in the uplink transmission channel A terminal in a CDMA wireless communication system in which a first downlink channel that can be configured and a second downlink channel that is used in common by the plurality of terminals are set,
A receiving circuit for receiving a transmission power control signal transmitted from the base station on the first or second downlink channel ;
Possess a transmitter which transmits the signal to the up transmission channel at the transmission power determined based on the received transmission power control signal,
The terminal characterized in that the receiving circuit receives the transmission power control signal on the second downlink channel when there is no transmission on the first downlink channel toward the terminal. 5. The terminal according to claim 4 , wherein the transmission power control signal is generated in response to reception of a signal in the uplink transmission channel from the terminal in the base station. In a mobile terminal that communicates with a base station using a spread spectrum method,
A common transmission power control signal that is transmitted from the base station through a response channel and includes transmission power control signals to a plurality of mobile terminals, and a response packet that indicates a power channel to which the mobile terminal should transmit a data packet. A first receiving circuit for receiving;
A second receiving circuit for receiving a data packet including a transmission power control signal transmitted from the base station;
A switch for switching a connection between the first receiving circuit and the second receiving circuit with an amplification gain calculating unit;
A transmission circuit configured to transmit a data packet with a transmission power value corresponding to the amplification gain calculated by the amplification gain calculation unit on the transmission channel indicated by the response packet; and the amplification gain calculation unit includes the common transmission A mobile terminal characterized in that an amplification gain is calculated from a power control signal or a transmission power control signal extracted from the data packet. The mobile terminal according to claim 6 , wherein
When the mobile terminal is performing unidirectional communication, the switch connects the first receiving circuit to the amplification gain calculation unit,
A mobile terminal characterized in that, when the mobile terminal is performing bidirectional communication, the second receiving circuit is connected to the amplification gain calculating section. The mobile terminal according to claim 6 , wherein
The response packet includes a transmission power control signal at the start of transmission,
The amplification gain calculation unit calculates a transmission start amplification gain from the transmission start transmission power control signal,
The mobile terminal, wherein the transmission circuit starts transmission of a data packet with a transmission power value corresponding to the amplification gain at the start of transmission. The mobile terminal according to claim 6 , further comprising: a second receiving circuit that receives a control signal transmitted from the base station, the mobile terminal recognizing its transmission power value;
A reception level measuring unit for measuring the reception level of the control signal;
A reservation channel amplification gain calculation unit for calculating a reservation packet amplification gain for sending a reservation packet indicating a transmission request for a data packet from the measured reception level of the control signal;
The mobile terminal, wherein the transmission circuit transmits the reservation packet with a transmission power value corresponding to the reservation packet amplification gain.

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