JP3285089B2 - Receiving method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a CDMA (Code D)
More particularly, the present invention relates to a receiving circuit provided in a mobile terminal in a mobile communication system to which a CDMA system is applied.

[0002]

2. Description of the Related Art In recent years, the number of subscribers in a mobile communication system has been increasing, and an increase in subscriber capacity is required. Therefore, as one method that can increase the subscriber capacity, a CDMA method in which one frequency band is shared by signals spread by a plurality of mathematically orthogonal codes has been considered.

[0003] In a mobile communication system to which the CDMA system is applied, a plurality of finger receiving units for despreading transmitted data are provided in a receiving circuit of a mobile terminal in correspondence with a plurality of multipaths. After the data is despread in each finger receiving unit, the despread data is synthesized.

FIG. 14 is a block diagram showing a configuration example of a receiving circuit provided in a mobile terminal in a conventional mobile communication system.

As shown in FIG. 14, in this conventional example,
An antenna 1 and a radio unit 2 for receiving data, and a plurality of finger receiving units 3-1 to 3 that despread data received via the antenna 1 and the radio unit 2 corresponding to a plurality of multipaths -N and finger receiving units 3-1 to 3-3
A maximum ratio combining unit 4 for combining data despread by −n
A search engine 5 for detecting each multipath component,
A timing control unit 7 for controlling operation timings of the finger receiving units 3-1 to 3-n and a CPU 6 for controlling the operation of the timing control unit 7 based on a detection result of the search engine 5 are provided.

In the receiving circuit configured as described above, when data is received by the antenna 1 and the radio unit 2, the received signal is transmitted to the plurality of finger receiving units 3-1 to 3-1.
3-n, and thereafter, the maximum ratio combining unit 4 combines the data that has been despread by the plurality of finger receiving units 3-1 to 3-n, and outputs the combined data to a subsequent circuit (not shown). Is done.

The plurality of finger receiving units 3-1 to 3-3
-N is all operating at the time of data reception.

[0008]

However, in the conventional receiving circuit as described above, when data is received, all of the plurality of finger receiving sections operate even in a silent state, so that unnecessary current is generated in the silent state. There is a problem of consumption.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems of the conventional technology, and has as its object to provide a receiving circuit capable of reducing current consumption in a silent state. .

[0010]

In order to achieve the above object, the present invention provides an antenna and a signal received by a radio unit.
Is included in the signal received by the antenna and the radio unit.
Number based on the presence or absence of voice or data
In response to multiple multipaths at multiple receivers controlled
A receiving method that despreads and combines and outputs the despread signal
, Based on the number of communicating base station devices
The signal received by the antenna and the radio section
Or the receiver that operates when no data is included
The number is controlled .

[0011]

[0012]

[0013]

[0014]

Further, a signal transmitted via radio is
An antenna and a radio section for receiving,
Audio or data included in the signal received by the
The number of operations is controlled based on the presence or absence of
The antenna and the radio section corresponding to each multipath
Fingers to despread the signal received via
Receiving unit and the plurality of finger receiving units
A receiving unit having at least a combining unit for combining signals.
A receiving method that operates when a signal received by the antenna and the radio unit does not include voice or data, based on the number of base station devices that are performing communication. Is characterized by controlling the number.

[0016] In addition, the signal received by the antenna and the radio section is received.
Signal to the signal received by the antenna and radio section
Number that operates based on the presence or absence of voice or data included
Supports multiple multipaths with multiple receivers controlled
To receive and despread, and combine and output the despread signal
Whether the method is in a soft handover state
On the basis of the signal received by the antenna and the radio section.
Works if the issue contains no voice or data
It is characterized in that the number of receiving units is controlled.

Also, a signal transmitted via radio is
An antenna and a radio section for receiving,
Audio or data included in the signal received by the
The number of operations is controlled based on the presence or absence of
The antenna and the radio section corresponding to each multipath
Fingers to despread the signal received via
Receiving unit and the plurality of finger receiving units
A receiving unit having at least a combining unit for combining signals.
Receiving method using a soft handover
Based on whether the antenna and the radio section
Received signal contains no voice or data
Control the number of receivers that operate when the
You.

In the case of a soft handover state,
The number of base stations communicating with the receiving circuit.
When the communication unit is operating and not in the soft handover state
Required to detect the presence of voice or data.
Operating a minimum number of receiving units.

Also, the radio signal received by the antenna and the radio unit is received.
Data is sent to multiple receivers corresponding to multiple multipaths
To despread and combine and output the despread data.
The presence of voice is detected based on the despread data
Operating the plurality of receiving units based on the detection result.
A receiving method for controlling the number of receiving sections to perform,
Of the receivers with the highest correlation value
It is characterized in that

Further, an antenna for receiving data and an antenna for receiving data are provided.
And multi-path, respectively, and
Reversely expands the data received via the antenna and
A plurality of finger receivers to be scattered, and the plurality of fingers
The number of combining units that combine the data despread by the receiving unit is small.
The receiving circuit having at least one of the plurality of fins.
Voice based on the data despread by the
Absent, and based on the detection result,
A receiving method for controlling the number of operating receiving units,
The receiver having the highest correlation value among the plurality of receivers is always
It is characterized by being operated.

In addition, when a speech sound is detected, all
The receiver is operated.

[0022]

Also, the signal received by the antenna and the radio section
Data is sent to multiple receivers corresponding to multiple multipaths
To despread and combine and output the despread data.
The presence of voice is detected based on the despread data
Operating the plurality of receiving units based on the detection result.
A receiving method for controlling the number of receiving sections to perform,
If the road is in a handover state,
At least two of the receiving units are always operated, and the receiving circuit
If the handset is not in a handover state,
One of the units is always operating
And

Further, an antenna for receiving data and an antenna for receiving data are provided.
And multi-path, respectively, and
Reversely expands the data received via the antenna and
A plurality of finger receivers to be scattered, and the plurality of fingers
The number of combining units that combine the data despread by the receiving unit is small.
The receiving circuit having at least one of the plurality of fins.
Voice based on the data despread by the
Absent, and based on the detection result,
A receiving method for controlling the number of operating receiving units,
If the receiving circuit is in a handover state,
Operating at least two of the receiving units at all times,
If the receiving circuit is not in the handover state,
One of the number of receivers must always be operating.
And features.

Further, when a voice sound is detected, all
The receiver is operated.

When the receiving circuit is in the handover state, the two receiving units having the highest correlation value among the plurality of receiving units are always operated, and when the receiving circuit is not in the handover state, The receiver having the highest correlation value among the plurality of receivers is always operated.

[0027]

[0028]

Also, the radio signal received by the antenna and the radio section
Data is sent to multiple receivers corresponding to multiple multipaths
To despread, combine the despread data, and combine the combined data.
Decrypts and outputs the data, and
To detect the presence or absence of voice, and based on the detection result,
A receiving method that controls the number of operating receivers out of the number of receivers
The correlation value is highest among the plurality of receiving units.
The receiver is always operated.

Further, an antenna for receiving data and an antenna for receiving data are provided.
And multi-path, respectively, and
Reversely expands the data received via the antenna and
A plurality of finger receivers to be scattered, and the plurality of fingers
A combining unit for combining the data despread by the receiving unit;
The number of decoding units for decoding data synthesized by the synthesis unit is small.
Decoding is performed by the decoding unit using the receiving circuit at least
The presence or absence of voice is detected based on the detected data.
Of the receiving unit operating among the plurality of receiving units based on the result.
A receiving method for controlling the number, wherein the receiving unit having the highest correlation value among the plurality of receiving units is always operated.

Further, when a voice sound is detected, all
The receiver is operated.

(Operation) In the present invention configured as described above, the presence or absence of voice is detected based on the data despread by the finger receiving unit, and a plurality of finger receiving units are detected based on the detection result. Among them, the number of operating finger receiving units is controlled.

More specifically, when a sound is detected by the detecting means, all the finger receiving sections are controlled to operate, and when no sound is detected by the detecting means, the presence or absence of voice is detected. Only the minimum finger receiver (preferably 1 or 2) required for operation is controlled to operate.

Thus, no useless current is consumed in the silent state.

[0035]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a diagram showing an example of the configuration of a mobile communication system having a mobile terminal provided with the receiving circuit of the present invention.

As shown in FIG. 1, the present configuration example has a plurality of mobile terminals 10a and 10b having the receiving circuit of the present invention and service areas 40a and 40b, respectively.
The base station apparatuses 20a and 20b are connected to the base station apparatuses 20a and 10b via wireless lines, and an exchange 30 that controls exchange of the base station apparatuses 20a and 20b. The mobile terminals 10a and 10b and the base station devices 20a and 20b are not limited to two but are provided in plurality.

In the mobile communication system configured as described above, the mobile terminals 10a and 10b
a in the service area 40a of the mobile terminal 1
0a and 10b receive the service by the base station 20a, and when the mobile terminals 10a and 10b are in the service area 40b of the base station device 20b, the mobile terminals 10a and 10b
10b is served by the base station 20b. Furthermore, when the mobile terminals 10a and 10b are present near the boundaries of a plurality of service areas, the mobile terminals 10a and 10b communicate with a plurality of base station devices (soft handover).

Hereinafter, the mobile terminals 10a and 10b described above will be described.
The receiving circuit provided therein will be described in detail with reference to some specific examples.

(First Embodiment) FIG. 2 is a block diagram showing a first embodiment of the receiving circuit of the present invention.

In the present embodiment, as shown in FIG. 2, an antenna 1 and a radio unit 2 for receiving data, and data received via the antenna 1 and the radio unit 2 are input, and despreading of the data is performed. A plurality of finger receiving units 3-1 to 3-n for performing a plurality of multipaths;
Controlling the maximum ratio combining unit 4 for combining the data despread by -1 to 3-n, the search engine 5 for detecting each multipath component, and the operation timing of the finger receiving units 3-1 to 3-n Control unit 7, CPU 6 controlling the operation of timing control unit 7 based on the detection result in search engine 5, and detecting the presence or absence of voice based on the data despread by finger receiving unit 3-1. A sound / silence detecting section 8 as a detecting means, and a finger receiving section 3-2 based on a detection result of the sound / silence detecting section 8
To the clock control unit 9 for controlling the supply of clocks to the finger receivers 3-2 to 3 -n under the control of the clock control unit 9. 12-n. Note that a frame signal for maintaining synchronization of the finger receiving units 3-1 to 3-n is transmitted from the timing control unit 7 to the finger receiving units 3-1 to 3-n.
Is always output.

Hereinafter, control of the operation of the finger receiving section in the receiving circuit configured as described above will be described.

FIG. 3 is a flowchart for explaining the operation of the receiving circuit shown in FIG.

The base station 20a (see FIG. 1) and the mobile terminal 10
a (see FIG. 1), a voice call is started (step S1), and when data is received via the antenna 1 and the wireless unit 2 (step S2), first, the SW 12 is controlled by the clock control unit 9 under the control of the clock control unit 9. −2 to 12-n are all in a conductive state, and the clock is supplied to all of the finger receiving units 3-1 to 3-n.
The data received via the antenna 1 and the radio unit 2 is despread in 1-3-n (step S3).

Next, the presence / absence of voice is detected by the voice / non-voice detector 8 based on the data despread by the finger receiver 3-1 (step S4). Returning to step S3, the finger receiving unit 3-
The data received via the antenna 1 and the radio unit 2 is despread in 1-3 to n.

When silence is detected in step S4, SW1 is controlled by the clock control unit 9.
2-2 to 12-n are in the open state, and the clock is not supplied to the finger receiving units 3-2 to 3-n.

Thus, the finger receiving units 3-2 to 3-3
The operation of -n stops, and the data received via the antenna 1 and the radio unit 2 is despread only by the finger receiving unit 3-1 (step S5).

Returning to step S4, the presence / absence of a voice is detected by the voice / non-voice detector 8 based on the data input to the finger receiver 3-1.

(Second Embodiment) In the above-described first embodiment, one sound / non-sound detection unit is provided.
One finger receiving unit connected to the sound / non-sound detecting unit always operates, the presence / absence of voice is detected based on data input to the finger receiving unit, and the other finger receiving unit is detected based on the detection result. Is controlled, but a plurality of sound / non-sound detectors are provided so as to be connected to each of the plurality of finger receivers, and the finger receiver having the highest correlation value is always operated. It is also possible to control the operation of another finger receiving unit based on the detection result of the presence / absence of a sound in the sound / silence detecting unit connected to.

FIG. 4 is a block diagram showing a receiving circuit according to a second embodiment of the present invention.

In this embodiment, as shown in FIG. 4, an antenna 1 and a radio unit 2 for receiving data, and data received via the antenna 1 and the radio unit 2 are input, and despreading of the data is performed. A plurality of finger receiving units 3-1 to 3-n for performing a plurality of multipaths;
Controlling the maximum ratio combining unit 4 for combining the data despread by -1 to 3-n, the search engine 5 for detecting each multipath component, and the operation timing of the finger receiving units 3-1 to 3-n A timing control unit 7, a CPU 6 for controlling the operation of the timing control unit 7 based on a detection result of the search engine 5, and finger receiving units 3-1 to 3-3.
-Voiced / silent detectors 8-1 to 8-8 for respectively detecting the presence or absence of voice based on the data despread in each of -n
-N and control by CPU 6 or sound / silence detection unit 8
A clock control unit 9 for controlling the supply of a clock to the finger receiving units 3-1 to 3-n based on the detection results at -1 to 8-n, and the finger receiving units 3-1 to 3-3 under the control of the clock control unit 9 SW12-1 to 12-n for switching the supply of the clock to each of -n. Note that a frame signal for maintaining synchronization of the finger receiving units 3-1 to 3-n is constantly output from the timing control unit 7 to the finger receiving units 3-1 to 3-n.

Hereinafter, control of the operation of the finger receiving section in the receiving circuit configured as described above will be described.

FIG. 5 is a flowchart for explaining the operation of the receiving circuit shown in FIG.

The base station 20a (see FIG. 1) and the mobile terminal 10
a (see FIG. 1), a voice call is started (step S11), and when data is received via the antenna 1 and the radio unit 2 (step S12), first, the SW12 is controlled by the clock control unit 9 under the control of the clock control unit 9. -1 to 12-n are all in a conductive state, and a clock is supplied to all of the finger receiving units 3-1 to 3-n. Is despread (step S1).
3).

Next, the presence / absence of speech is detected by the sound / non-speech detecting units 8-1 to 8-n based on the data despread by the finger receiving units 3-1 to 3-n (step S14). If the presence of a sound is detected, the process returns to step S13, and the data received via the antenna 1 and the radio unit 2 is despread in the finger receiving units 3-1 to 3-n.

If silence is detected in step S14, the finger receiving unit having the highest correlation value among the finger receiving units 3-1 to 3-n is notified from the CPU 6 to the clock control unit 9, and the clock control unit 9 executes the clock control. Under the control of the unit 9, the clock is supplied to the finger receiving unit having the highest correlation value, and the clock is not supplied to the other finger receiving units.

Here, assuming that the finger receiving unit 3-1 has the highest correlation value, the SW 12-1 is turned on by the control of the clock control unit 9, and the SWs 12-2 to 12-n
Is opened, the clock is supplied to the finger receiving units 3-1 and the clock is not supplied to the finger receiving units 3-2 to 3-n.

Thus, the finger receiving units 3-2 to 3-3
The operation of -n stops, and the data received via the antenna 1 and the radio unit 2 is despread only by the finger receiving unit 3-1 (step S15).

Then, returning to step S14, the presence / absence of voice is detected by the sound / non-sound detection unit 8-1 based on the data input to the finger reception unit 3-1.

(Third Embodiment) In the first and second embodiments described above, voice / silence detection is performed before voice decoding, but voice / silence detection is performed after voice decoding. Then, the operation of the finger receiving unit can be controlled based on the detection result.

FIG. 6 is a block diagram showing a third embodiment of the receiving circuit of the present invention.

In this embodiment, as shown in FIG. 6, an antenna 1 and a radio unit 2 for receiving data, and data received via the antenna 1 and the radio unit 2 are input, and despreading of the data is performed. A plurality of finger receiving units 3-1 to 3-n for performing a plurality of multipaths;
Controlling the maximum ratio combining unit 4 for combining the data despread by -1 to 3-n, the search engine 5 for detecting each multipath component, and the operation timing of the finger receiving units 3-1 to 3-n A timing control unit 7, a CPU 6 for controlling the operation of the timing control unit 7 based on the detection result of the search engine 5, a decoding unit 11 for Viterbi decoding of the data combined by the maximum ratio combining unit 4, and a decoding unit. A sound / silence detecting section 18 which is a detecting means for detecting the presence or absence of a voice based on the data decoded at 11; and a finger receiving section 3 based on the control by the CPU 6 or the detection result in the sound / silence detecting section 18. -1 to 3-n, and a clock control unit 9 for controlling the supply of clocks to the finger receiving units 3-1 to 3-n under the control of the clock control unit 9. Tsu switch the supply of click SW12-
1 to 12-n. Note that a frame signal for maintaining the synchronization of the finger receiving units 3-1 to 3-n is output from the timing control unit 7 to the finger receiving unit 3.
-1 to 3-n are always output.

The control of the operation of the finger receiving section in the receiving circuit configured as described above will be described below.

FIG. 7 is a flowchart for explaining the operation of the receiving circuit shown in FIG.

The base station 20a (see FIG. 1) and the mobile terminal 10
a (see FIG. 1), a voice call is started (step S21), and when data is received via the antenna 1 and the radio unit 2 (step S22), first, the SW 12 is controlled by the clock control unit 9 under the control of the clock control unit 9. -1 to 12-n are all in a conductive state, and a clock is supplied to all of the finger receiving units 3-1 to 3-n. Is despread (step S2).
3).

Next, the maximum ratio combining section 4 combines the data despread by the finger receiving sections 3-1 to 3-n (step S24).

Next, in the decoding unit 11, the data combined by the maximum ratio combining unit 4 is Viterbi-decoded and output (step S25).

Next, the presence / absence of voice is detected by the voice / non-voice detection unit 18 based on the data output from the decoding unit 11 (step S26).
Returning to step S23, the finger receiving units 3-1 to 3-
n, the data received via the antenna 1 and the radio unit 2 is despread.

When silence is detected in step S26, the finger receiving unit having the highest correlation value among the finger receiving units 3-1 to 3-n is notified from the CPU 6 to the clock control unit 9, and the clock control unit 9 executes the clock control. Under the control of the unit 9, the clock is supplied to the finger receiving unit having the highest correlation value, and the clock is not supplied to the other finger receiving units.

Here, assuming that the finger receiving section 3-1 has the highest correlation value, the SW 12-1 is turned on by the control of the clock control section 9, and the SWs 12-2 to 12-n
Is opened, the clock is supplied to the finger receiving units 3-1 and the clock is not supplied to the finger receiving units 3-2 to 3-n.

Thus, the finger receiving units 3-2 to 3-3
The operation of -n stops, and the data received via the antenna 1 and the radio unit 2 is despread only by the finger receiving unit 3-1 (step S27).

The data despread by the finger receiving section 3-1 is input to the decoding section 11 via the maximum ratio combining section 4 and is subjected to Viterbi decoding by the decoding section 11, and thereafter, voice / silence detection is performed. The unit 18 detects the presence or absence of audio based on the data decoded by the decoding unit 11.

In the third embodiment, the second
Although the finger receiving unit having the highest correlation value is operated as in the first embodiment, the operation may be performed for one predetermined finger receiving unit as in the first embodiment.

(Fourth Embodiment) In a mobile communication system, like a mobile terminal 10b shown in FIG. 1, a mobile terminal is located in an area where service areas 40a and 40b of two base station devices 20a and 20b overlap. If there is, the mobile terminal enters a handover state in which services are received from at least two base station apparatuses.

Therefore, in the area, it is necessary to operate at least two finger receiving units.

FIG. 8 is a block diagram showing a fourth embodiment of the receiving circuit of the present invention.

In the present embodiment, as shown in FIG. 8, an antenna 1 and a radio unit 2 for receiving data, and data received via the antenna 1 and the radio unit 2 are input, and despreading of the data is performed. A plurality of finger receiving units 3-1 to 3-n for performing a plurality of multipaths;
Controlling the maximum ratio combining unit 4 for combining the data despread by -1 to 3-n, the search engine 5 for detecting each multipath component, and the operation timing of the finger receiving units 3-1 to 3-n And a CPU 6 for controlling the operation of the timing control unit 7 based on the detection result of the search engine 5, and the finger receiving units 3-1 and 3
-2, voice / silence detection units 8-1 and 8-2 for detecting presence / absence of voice based on data despread, and voice / silence detection units 8-1 and 8-2, respectively. And a clock control unit 9 that controls the supply of a clock to the finger receiving units 3-3 to 3-n based on the clock. SW12-3 to switch
To 12-n. The timing control unit 7 outputs a frame signal for maintaining synchronization of the finger receiving units 3-1 to 3-n.
It is always output to 1-3-n.

Hereinafter, control of the operation of the finger receiving section in the receiving circuit configured as described above will be described.

FIG. 9 is a flowchart for explaining the operation of the receiving circuit shown in FIG.

The base station 20a (see FIG. 1) and the mobile terminal 10
a (see FIG. 1) (step S31), and when data is received via the antenna 1 and the radio unit 2 (step S32), first, the SW 12 is controlled by the clock control unit 9. -3 to 12-n are all in a conductive state, and a clock is supplied to all of the finger receiving units 3-1 to 3-n. Is despread (step S3).
3).

Next, the presence / absence of speech is detected by the sound / non-speech detectors 8-1 and 8-2 based on the data despread by the finger receivers 3-1 and 3-2 (step S1). S34) Sound / silence detection units 8-1, 8-2
If a sound is detected in at least one of the above, the process returns to step S33, and the data received via the antenna 1 and the radio unit 2 is despread in the finger receiving units 3-1 to 3-n.

When silence is detected by both the sound / silence detecting sections 8-1 and 8-2 in step S34,
SW12-3 to SW12 are controlled by the clock control unit 9.
2-n is in the open state, and the finger receiving units 3-3 to 3-3
No clock is supplied to -n.

Thus, the finger receiving units 3-3 to 3-3
The operation of -n stops, and the data received via the antenna 1 and the radio unit 2 is despread only by the finger receiving units 3-1 and 3-2 (step S35).

Then, returning to step S34, the sound / non-sound detecting sections 8-1 and 8-2 set the finger receiving section 3
The presence or absence of voice is detected based on the data input to -1 and 3-2.

In the fourth embodiment, two finger receivers are operated. However, the number of base stations (preferably three) for performing communication during soft handover in an actual system or zone configuration is preferable. ), It is preferable to set the number of finger receiving units that need to be operated.

(Fifth Embodiment) In the above-described fourth embodiment, two sound / silence detecting units are provided in consideration of the handover state, and are connected to the sound / silence detecting unit. The two finger receivers that are operated constantly operate, the presence or absence of voice is detected based on data input to the finger receiver, and the operation of the other finger receivers is controlled based on the detection result. When silence is detected, the mobile terminal operates at least two finger receiving units if the mobile terminal is in the soft handover state, and operates only one finger receiving unit if the mobile terminal is not in the soft handover state. Further, it is possible to further reduce the current consumption in the silent state.

FIG. 10 is a block diagram showing a fifth embodiment of the receiving circuit of the present invention.

In the present embodiment, as shown in FIG. 10, an antenna 1 and a radio unit 2 for receiving data, and data received via the antenna 1 and the radio unit 2 are input, and despreading of the data is performed. A plurality of finger receiving units 3-1 to 3-n performing in response to a plurality of multipaths; a maximum ratio combining unit 4 for combining data despread by the finger receiving units 3-1 to 3-n; A search engine 5 for detecting each multipath component, a timing control unit 7 for controlling operation timings of the finger receiving units 3-1 to 3-n, and an operation of the timing control unit 7 based on a detection result in the search engine 5 A controlling CPU 6 and finger receiving units 3-1,
3-2, a sound / silence detecting section 8-1, which detects the presence or absence of a voice based on the data despread in each of the sections.
8-2 and a clock control unit 9 for controlling the supply of a clock to the finger receiving units 3-2-3-n based on the control by the CPU 6 or the detection result in the sound / non-sound detecting units 8-1 and 8-2. And SWs 12-2 to 12-n that switch the supply of a clock to each of the finger receivers 3-2 to 3-n under the control of the clock controller 9. In addition, from the timing control unit 7,
A frame signal for maintaining the synchronization of the finger receiving units 3-1 to 3-n is constantly output to the finger receiving units 3-1 to 3-n.

Hereinafter, control of the operation of the finger receiving section in the receiving circuit configured as described above will be described.

FIG. 11 is a flowchart for explaining the operation of the receiving circuit shown in FIG.

The base station 20a (see FIG. 1) and the mobile terminal 10
a (see FIG. 1), a voice call is started (step S41), and when data is received via the antenna 1 and the radio unit 2 (step S42), first, the SW 12 is controlled by the clock control unit 9 under the control of the clock control unit 9. −2 to 12-n are all in a conductive state, and a clock is supplied to all of the finger receivers 3-1 to 3-n. Is despread (step S4).
3).

Next, the presence / absence of speech is detected by the sound / non-sound detection units 8-1 and 8-2 based on the data despread by the finger reception units 3-1 and 3-2 (step S44). ), If a sound is detected in at least one of the sound / non-sound detecting units 8-1 and 8-2, the process returns to step S43, and the antenna 1 and the radio unit 2 are used in the finger receiving units 3-1 to 3-n. Are despread.

If no sound is detected by both the sound / non-sound detection units 8-1 and 8-2 in step S44,
The search engine 5 and the CPU 6 determine whether the mobile terminal is in a handover state (step S4).
5) If it is determined that the state is not the handover state, SW 12-2 to 12 are controlled by the clock control unit 9.
-N is in the open state, and the finger receiving units 2-2 to 3-
No clock is supplied to n.

Thus, the finger receiving units 3-2 to 3-3
The operation of -n stops, and the data received via the antenna 1 and the radio unit 2 is despread only by the finger receiving unit 3-1 (step S46).

Then, returning to step S44, the presence / absence of voice is detected by the sound / non-sound detection unit 8-1 based on the data input to the finger reception unit 3-1.

If it is determined in step S45 that the mobile terminal is in the soft handover state,
Under the control of the clock control unit 9, the SW 12-2 is set to the conductive state and the SWs 12-3 to 12-n are set to the open state, and the clock is not supplied to the finger receiving units 3-3 to 3-n. In this case, it is assumed that the finger receiving section 3-1 receives a signal from one base station apparatus and the finger receiving section 3-2 receives a signal from the other base station apparatus.

Thus, the finger receiving units 3-3 to 3-3
The operation of -n stops, and the data received via the antenna 1 and the radio unit 2 is despread only by the finger receiving units 3-1 and 3-2 (step S47).

Then, returning to step S44, the sound / non-sound detecting sections 8-1 and 8-2 set the finger receiving section 3
The presence or absence of voice is detected based on the data input to -1, 3-2.

(Sixth Embodiment) In the above-described fifth embodiment, two sound / non-sound detecting sections are provided.
One finger receiving unit connected to the sound / silence detecting unit always operates, and at the time of handover, two finger receiving units connected to the sound / silence detecting unit always operate, and the finger receiving unit is operated. The presence or absence of voice is detected based on the input data, and the operation of another finger receiving unit is controlled based on the detection result.
A silent detector is provided so as to be connected to each of the plurality of finger receivers, and one or two finger receivers having the highest correlation value are operated, and a sound / silence detector connected to the finger receiver is operated. It is also possible to control the operation of the other finger receiving units based on the detection result of the presence / absence of voice in the above.

FIG. 12 is a block diagram showing a sixth embodiment of the receiving circuit of the present invention.

In this embodiment, as shown in FIG. 12, an antenna 1 and a radio unit 2 for receiving data, and data received via the antenna 1 and the radio unit 2 are input, and despreading of the data is performed. A plurality of finger receiving units 3-1 to 3-n performing in response to a plurality of multipaths; a maximum ratio combining unit 4 for combining data despread by the finger receiving units 3-1 to 3-n; A search engine 5 for detecting each multipath component, a timing control unit 7 for controlling operation timings of the finger receiving units 3-1 to 3-n, and an operation of the timing control unit 7 based on a detection result in the search engine 5 CPU 6 to control, finger receiving units 3-1 to
3-n, voiced / silent detection units 8-1 to 8-n respectively detecting presence / absence of voice based on data despread in each
8-n and a clock control unit 9 for controlling supply of a clock to the finger receiving units 3-1 to 3-n based on control by the CPU 6 or detection results of the sound / non-sound detecting units 8-1 to 8-n. And SW12-1 to 12-n which switch the supply of a clock to each of the finger receiving units 3-1 to 3-n under the control of the clock control unit 9. In addition, from the timing control unit 7,
A frame signal for maintaining the synchronization of the finger receiving units 3-1 to 3-n is constantly output to the finger receiving units 3-1 to 3-n.

Hereinafter, control of the operation of the finger receiving section in the receiving circuit configured as described above will be described.

FIG. 13 is a flowchart for explaining the operation of the receiving circuit shown in FIG.

The base station 20a (see FIG. 1) and the mobile terminal 10
a (see FIG. 1), a voice call is started (step S51), and when data is received via the antenna 1 and the radio unit 2 (step S52), first, the SW 12 is controlled by the clock control unit 9 under the control of the clock control unit 9. -1 to 12-n are all in a conductive state, and a clock is supplied to all of the finger receiving units 3-1 to 3-n. Is despread (step S5).
3).

Next, the presence / absence of voice is detected by the sound / non-sound detection units 8-1 to 8-n based on the data despread by the finger reception units 3-1 to 3-n (step S54). ), If a sound is detected, the process returns to step S53, and the data received via the antenna 1 and the radio unit 2 is despread in the finger receiving units 3-1 to 3-n.

When silence is detected in step S54, search engine 5 and CPU 6 determine whether the mobile terminal is in a handover state (step S55), and when it is determined that the mobile terminal is not in the handover state, finger reception is performed. The finger receiving unit having the highest correlation value among the units 3-1 to 3-n is notified from the CPU 6 to the clock control unit 9. Under the control of the clock control unit 9, the clock is transmitted to the finger receiving unit having the highest correlation value. The clock is not supplied to the other finger receiving units.

Here, assuming that the finger receiving section 3-1 has the highest correlation value, the SW 12-1 is turned on by the control of the clock control section 9, and the SWs 12-2 to 12-n
Is opened, the clock is supplied to the finger receiving units 3-1 and the clock is not supplied to the finger receiving units 3-2 to 3-n.

As a result, the finger receiving units 3-2 to 3-3
The operation of -n stops, and the data received via the antenna 1 and the radio unit 2 is despread only by the finger receiving unit 3-1 (step S56).

Then, returning to step S54, the presence / absence of voice is detected in the sound / non-sound detection section 8-1 based on the data input to the finger receiving section 3-1.

When it is determined in step S55 that the mobile terminal is in the handover state, the finger receiving unit having the highest correlation value among the finger receiving units 3-1 to 3-n has the second highest correlation value. The CPU 6 notifies the clock control unit 9 of the high finger receiving unit,
Under the control of the clock control unit 9, the clock is supplied to the finger receiving unit having the highest correlation value and the finger receiving unit having the second highest correlation value, and the clock is not supplied to the other finger receiving units.

Here, assuming that the finger receiving unit 3-1 has the highest correlation value and the finger receiving unit 3-2 has the second highest correlation value, the clock control unit 9 controls the SWs 12-1 and 12-2. Is conducting, SW12-3 to 1
2-n is in the open state, and the finger receiving units 3-1 and 3
-2, a clock is supplied to the finger receiving unit 3-3 to
The clock is not supplied to 3-n.

As a result, the finger receiving units 3-3 to 3-3
The operation of -n stops, and the data received via the antenna 1 and the radio unit 2 is despread only by the finger receiving units 3-1 and 3-2 (step S57).

Then, returning to step S54, the sound / non-sound detecting sections 8-1 and 8-2 set the finger receiving section 3
The presence or absence of voice is detected based on the data input to -1, 3-2.

In the first to sixth embodiments described above, the operation of the finger receiving unit is controlled by the presence or absence of a voice during a voice call. In the case of communication in which data is a burst, power save reception may be performed in a section where no received data exists.

[0115]

According to the present invention having the above-described structure, the detecting means for detecting the presence or absence of voice based on the data despread by the finger receiving unit, and a plurality of detecting means based on the detection result of the detecting means. Control means for controlling the number of operating finger receiving sections of the finger receiving sections, and when sound is detected by the detecting section, control is performed so that all finger receiving sections operate, and When silence is detected, the configuration is such that only one or two finger receivers necessary for detecting the presence or absence of voice are controlled to operate, so that current consumption in a silent state is reduced. be able to.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating a configuration example of a mobile communication system having a mobile terminal provided with a receiving circuit of the present invention.

FIG. 2 is a block diagram showing a first embodiment of the receiving circuit of the present invention.

FIG. 3 is a flowchart for explaining the operation of the receiving circuit shown in FIG. 2;

FIG. 4 is a block diagram showing a second embodiment of the receiving circuit of the present invention.

FIG. 5 is a flowchart for explaining the operation of the receiving circuit shown in FIG. 4;

FIG. 6 is a block diagram showing a third embodiment of the receiving circuit of the present invention.

FIG. 7 is a flowchart for explaining the operation of the receiving circuit shown in FIG. 6;

FIG. 8 is a block diagram showing a fourth embodiment of the receiving circuit of the present invention.

FIG. 9 is a flowchart for explaining the operation of the receiving circuit shown in FIG. 8;

FIG. 10 is a block diagram showing a fifth embodiment of the receiving circuit of the present invention.

FIG. 11 is a flowchart for explaining the operation of the receiving circuit shown in FIG. 10;

FIG. 12 is a block diagram showing a sixth embodiment of the receiving circuit of the present invention.

FIG. 13 is a flowchart for explaining the operation of the receiving circuit shown in FIG. 12;

FIG. 14 is a block diagram illustrating a configuration example of a receiving circuit provided in a mobile terminal in a conventional mobile communication system.

[Explanation of symbols]

 Reference Signs List 1 antenna 2 radio section 3-1 to 3-n finger receiving section 4 maximum ratio combining section 5 search engine 6 CPU 7 timing control section 8, 8-1 to 8-n, 18 sound / silence detection section 9 clock control section 10a, 10b Mobile terminal 11 Decoding unit 12-1 to 12-n SW 20a, 20b Base station device 30 Switching system 40a, 40b Service area

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H04B 1/69-1/713 H04J 13/00-13/06 H04B 7/26

Claims (15)

(57) [Claims] 1. A signal received by an antenna and a radio unit
Is included in the signal received by the antenna and the radio unit.
Number based on the presence or absence of voice or data
In response to multiple multipaths at multiple receivers controlled
A receiving method that despreads and combines and outputs the despread signal
In the above, based on the number of communicating base station devices,
Voice or data in the signal received by the antenna
To control the number of receivers that operate when no is included
A receiving method, characterized in that: 2. Receiving a signal transmitted via wireless communication
An antenna and a radio unit for performing
Of voice or data contained in the signal received
The number of operations is controlled based on the presence or absence, and multiple
Corresponding to each path, via the antenna and the radio section.
Finger reception to despread the received signal
And a signal despread by the plurality of finger receivers
And a combining unit that combines at least
The receiving method used , wherein the number of base stations communicating with each other is determined based on the number of base stations.
Voice or data in the signal received by the antenna
To control the number of receivers that operate when no is included
A receiving method, characterized in that: 3. A signal received by an antenna and a radio unit.
Is included in the signal received by the antenna and the radio unit.
Number based on the presence or absence of voice or data
In response to multiple multipaths at multiple receivers controlled
A receiving method that despreads and combines and outputs the despread signal
In, based on whether or not the soft handover state,
The signal received by the antenna and the radio section
Controls the number of receivers that operate when no data is included
A receiving method characterized by controlling. 4. Receiving a signal transmitted via wireless communication
An antenna and a radio unit for performing
Of voice or data contained in the signal received
The number of operations is controlled based on the presence or absence, and multiple
Corresponding to each path, via the antenna and the radio section.
Finger reception to despread the received signal
And a signal despread by the plurality of finger receivers
And a combining unit that combines at least
The receiving method used , based on whether or not a soft handover state
The signal received by the antenna and the radio section
Controls the number of receivers that operate when no data is included
A receiving method characterized by controlling. 5. A receiving method according to claim 3 or claim 4.
Communication with the receiving circuit in the soft handover state,
The receivers of the number of base stations that are performing communication are operated, and if not in a soft handover state, voice or data
The minimum number of receivers required to detect
A receiving method characterized by operating a communication unit. 6. A data received by an antenna and a radio section.
Data in multiple receivers corresponding to multiple multipaths
Spread and despread data are combined and output.
Then, based on the despread data, detect the presence or absence of voice,
Operate among the plurality of receiving units based on the detection result
In the receiving method for controlling the number of receiving units, the receiving unit having the highest correlation value among the plurality of receiving units is always used.
A receiving method characterized by being operated. 7. An antenna for receiving data and an antenna for receiving data.
Corresponding to the line section and the plurality of multipaths, respectively.
Despreads data received via antenna and radio
A plurality of finger receiving units, and the plurality of finger receiving units
The number of synthesizing units that synthesize data despread by the
A receiving circuit having the plurality of fingers;
The presence or absence of voice based on the data despread by the receiver
Detecting, and based on the detection result,
A receiving method for controlling the number of operating receiving units, wherein the receiving unit having the highest correlation value among the plurality of receiving units is always used.
A receiving method characterized by being operated. 8. The receiving method according to claim 6 or claim 7.
In law, to operate all the receiver when detecting the sound of speech
A receiving method, characterized in that: 9. The data received by an antenna and a radio section.
Data in multiple receivers corresponding to multiple multipaths
Spread and despread data are combined and output.
Then, based on the despread data, detect the presence or absence of voice,
Operate among the plurality of receiving units based on the detection result
In the receiving method for controlling the number of receiving units, when the receiving circuit is in a handover state, the receiving unit may be configured to perform the above-described duplication.
If at least two of the number of receiving units are constantly operated, and the receiving circuit is not in the handover state,
One of the plurality of receiving units is always operated
A receiving method, characterized in that: 10. An antenna for receiving data, and
A radio unit, corresponding to each of a plurality of multipaths,
Despread data received via antenna and radio
A plurality of finger receivers,
The synthesis unit that synthesizes data despread by the
A plurality of fingers using a receiving circuit
-The presence or absence of voice based on the data despread by the receiver
Is detected, and based on the detection result, the plurality of reception units are detected.
A receiving method for controlling the number of receiving sections operating, wherein the receiving circuit is in a handover state,
If at least two of the number of receiving units are constantly operated and the receiving circuit is not in the handover state,
One of the plurality of receiving units is always operated
A receiving method, characterized in that: 11. The receiving device according to claim 9 or claim 10.
In the communication method, if all the voices are detected, all receivers are activated.
A receiving method, characterized in that: 12. The method according to claim 9, wherein:
In the receiving method described above, if the receiving circuit is in a handover state,
Of the two receiving units with the highest correlation value
Operating, and when the receiving circuit is not in the handover state,
Always operates the receiver with the highest correlation value among multiple receivers
A receiving method characterized in that the receiving method is performed. 13. A data received by an antenna and a radio section.
The chromatography data at a plurality of receiving portions corresponding to the plurality of multipath
Despread, combine the despread data, and combine the data
And outputs it, based on the decoded data.
To detect the presence or absence of voice, and based on the detection result,
Receiving method for controlling the number of operating receiving units among the receiving units
In the highest correlation value is higher receiver among the plurality of receiving portions always
A receiving method characterized by being operated. 14. An antenna for receiving data, and
A radio unit, corresponding to each of a plurality of multipaths,
Despread data received via antenna and radio
A plurality of finger receivers,
A combining unit for combining the data despread by the communication unit;
The number of decoding units that decode data synthesized by the
Using the receiving circuit having the
The presence or absence of voice is detected based on the detected data, and the detection result
Number of receiving units operating among the plurality of receiving units based on
A receiving method of controlling the highest correlation value is higher receiver among the plurality of receiving portions always
A receiving method characterized by being operated. 15. The method according to claim 13 or claim 14.
In the receiving method, operate all the receiving units when detecting a sound of voice
A receiving method, characterized in that: