CN1499763A - Method and equipment for reaching synchronization to base station - Google Patents
Method and equipment for reaching synchronization to base station Download PDFInfo
- Publication number
- CN1499763A CN1499763A CNA021503680A CN02150368A CN1499763A CN 1499763 A CN1499763 A CN 1499763A CN A021503680 A CNA021503680 A CN A021503680A CN 02150368 A CN02150368 A CN 02150368A CN 1499763 A CN1499763 A CN 1499763A
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Abstract
First, signal transferred by base station is received. The signal includes main synchronizing channel, secondary synchronizing channel and common guiding channel. Sampling signal obtains sampled signal. Parts of sampled signal are selected respectively to be as first time interval signal and second time interval signal. Result based on calculating coding of first time interval signal, main synchronizing channel, second time interval signal, secondary synchronizing channel and common guiding channel makes mobile unit synchronize to base station. The invention is applicable to CDMA in width frequency.
Description
Technical field
The present invention relates to a kind of mobile unit and base station of in the Wideband-CDMA system, making and reach synchronous method and device, relate in particular to and utilize main synchronizing channel, secondary synchronization channel and common pilot channel coding, make mobile unit and base station reach synchronous method and device.
Background technology
Code division multiple access system (Code-Division Multiple Access, CDMA) in, before mobile unit will be reached the online transmission of carrying out signal with the base station, need finish earlier and the base station between code synchronism and sequential synchronous.In synchronous base station system, as CDMA-2000, use same identification sign indicating number (Scramble Code) with different time displacement, mobile unit is finished with the base station easily synchronously.
And in asynchronous base station system,, then be to use different identification codes as Wideband-CDMA (Wideband Code DivisionMultiple Access).Therefore, in the Wideband-CDMA system, mobile unit not only will be reached the synchronous of sequential with the base station, more will reach the synchronous of identification code.
In addition, reaching when synchronous with the base station, initial frequency has very big uncertainty.Generally speaking, (voltage control temperature compensatedcrystal oscillators, not precision VCTXO) is about 10/1000000ths to voltage controlled temperature compensated crystal oscillator, also equates with 20kHz among the wireless frequency 2GHz.The uncertainty of this frequency can cause the reduction of the uncertainty and the efficient of sequential.And this synchronous efficiency can influence the start delay (switched-on delay) of mobile unit.
In the W-CDMA system, the base station is mainly discerned by the identification code (Scrambling code) of down link, generally when system design, have 512 main available repeated uses of down link identification code, because branch is discerned the mode complexity of other its identification code and must be carried out the long period synchronously, and in order to quicken the synchronous of mobile unit and base station, in " Cell searching among the W-CDMA (Cell Search inW-CDMA) " IEEE Journal on Selected Areas in Communication Vol 18 No8 August 2000, propose to utilize the method for handling (pipelined process) side by side to reduce in the Wideband-CDMA system mobile unit and base station synchronization time and spreading code synchronous average time, this mode has used three groups of channels of three groups of base station down links to come identification code synchronous, it is respectively main synchronizing channel (P-SCH, the Primary Synchronization Channel), secondary synchronization channel (S-SCH, the Secondary Synchronization Channel) and common pilot channel (CPICH, CommonPilot Channel).Its synchronous method comprises the following step:
Step 1: slot synchronization (Slot synchronization)
In this step, the synchronous code in the main synchronizing channel of mobile unit utilization is to obtain the slot synchronization of base station.Generally speaking, transmitting the sample point of predetermined number after mobile unit utilizes sampling apparatus with signal sampling gives a matched filter (or similar equipment) to detect the peak value (peak) of matched filter output, obtain the position of time slot edge, and then make slot synchronization.
Step 2: frame synchronization and code character authentication (Frame synchronization and code-groupidentification)
In this step, mobile unit utilizes the code detection of secondary synchronization channel to go out frame border, reaches frame synchronization, authenticates the code character of the base station that obtains in first step simultaneously.This step mainly is signal and all possible less important synchronous coding sequence interrelated (correlate) that makes reception, and this maximum related value of authentication.Because the cyclic shift (cyclic shift) of this sequence is unique, so the code character of frame synchronization is also determined in this step.
In step 3, mobile unit will judge that the sign indicating number of being received is consistent errorless with the main identification code of base station.This main identification code utilization code element (Symbol) in common pilot channel and obtains authentication to the correlation of code element and all codings in the code character of step 2 authentication.When this main spreading code was certified, main common control physical channel (Primary Common Control Physical Channel) was also detected, and the specific data in system and base station can be read.
The relativeness of above-mentioned time slot (time slot), frame (Frame) and code element (Symbol), for example, a frame is 10ms (38400 chip), is divided into 15 time slots, each time slot can be divided into 10 code elements again again.
After mobile unit receives the signal of base station down link transmission in its synchronizing process, this signal is sampled.Mobile unit carries out slot synchronization according to this sampled signal execution in step 1 when first period.When second period, mobile unit is according to the resulting result of step 1, and execution in step 2 frame synchronization and code character authenticate, and also the signal that transmit the base station are sampled at this period mobile unit, carry out new step 1 equally.When the 3rd period,, also carry out new step 2 and execution in step 1 again according to the result of new step 1 gained then according to the authentication of 3 identification codes of execution in step as a result of step 2 gained.If the step 3 that the 3rd period carried out, be not judged as and reach synchronously with the base station, mobile unit is just in the 4th period, according to the result of the step of carrying out in the 3rd period 2, execution in step 3, the step of carrying out according to the 3rd period 1 is execution in step 2 as a result, and re-execute step 1, the rest may be inferred, and the result of the step 3 in a period is judged as with the base station and finishes synchronously, just stops to carry out above-mentioned steps.
Fig. 1 explanation utilizes this processing method arranged side by side and base station to reach synchronous example, and mobile unit after receiving the signal that transmits the base station is sampled signal to carry out reaching synchronous step with the base station.At first, as shown in Figure 1, mobile unit is when first period, and execution in step 1 is utilized sampled signal and main synchronous coding thereof, obtains the first slot synchronization result.Then, when second period, mobile unit can be according to the less important synchronous coding of resulting first slot synchronization result of step 1 and sampled signal, and execution in step 2 obtains the authentication of first frame synchronization and first code character.Simultaneously, for avoiding synchronization failure, mobile unit utilizes sampled signal and main synchronous coding thereof when second period, re-execute step 1, obtains the second slot synchronization result.
And when the 3rd period, mobile unit then can obtain the first encoded authentication result according to first frame synchronization of the second period gained and the common pilot channel coding execution in step 3 of sampled signal.Simultaneously, mobile unit can be according to the less important synchronous coding of resulting second slot synchronization of second period and sampled signal, and execution in step 2 obtains the authentication of second frame synchronization and second code character.Similarly, for avoiding synchronization failure, mobile unit also when the 3rd period, utilizes sampled signal and main synchronous coding thereof, re-executes step 1, obtains the 3rd slot synchronization result.
In this embodiment, suppose that the first encoded authentication synchronized result that mobile unit obtained in the 3rd period is not judged as and finish synchronously with the base station, then when the 4th period, mobile unit then can obtain second encoded authentication according to second frame synchronization, the authentication of second code character and the common pilot channel coding execution in step 3 of the 3rd period gained.Simultaneously, mobile unit can be according to the less important synchronous coding of resulting the 3rd slot synchronization result of the 3rd period and signal, and execution in step 2 obtains the 3rd frame synchronization and code character authentication result.Similarly, for avoiding synchronization failure, mobile unit also when the 4th period, utilizes sampled signal and main synchronous coding thereof, re-executes step 1, obtains the 4th slot synchronization result.At this moment, finish synchronously, then stop to carry out synchronous step if mobile unit is judged with the base station according to this second encoded authentication result.
Yet, improve in order to make system's accuracy, need to improve sample point in step 1, it is complicated that therefore the design of matched filter and counting circuit become.Increase system accuracy uses above-mentioned way can waste hardware resource, in addition because initial frequency drift (frequency differences), can cause error with the drift of frequency in the resulting sequential of step 1, the result of execution in step 2 and step 3 also can produce error subsequently, and makes mobile unit and base station reach synchronous time growth.
Summary of the invention
For addressing the above problem, the invention provides a kind of mobile unit and base station of in the Wideband-CDMA system, making and reach synchronous method and device.Further save hardware resource and reduce the degradation in efficiency that is caused because of the frequency drift.
At first, receive the signal that transmit the base station, this signal has main synchronizing channel, secondary synchronization channel and common pilot channel.With this signal sampling, obtain the sample point of sampled signal, segment signal was made up of the odd number sample point in first period in first o'clock, and segment signal was made up of the even number sample point in second period in second o'clock.In like manner, in staggered odd point or even number point the sampled signal of selecting of each adjacent period as this period.Slot synchronization according to this first o'clock segment signal and step 1 can obtain the first time slot sequential.Then, obtain the second time slot sequential according to this second o'clock segment signal and step 1 slot synchronization.Because the adjacent time-slots sequential is the odd even interval, the for example first time slot sequential, the second time slot sequential, so can merge step 2 that and then the adjacent time-slots sequential will carry out or three time slot sequential, can make step 2 or three sequential more accurate like this, improve step 2, three accuracy.
This selection mode and the selection mode of second period in first period can optionally be selected the sampled signal of odd point or the sampled signal of even number point respectively, perhaps for other preset selection mode sampled signal chosen.
In addition, the present invention further provides and a kind ofly in the Wideband-CDMA system, reach synchronous device with the base station.Signal is transmitted to mobile unit in this base station, this signal has main synchronizing channel, secondary synchronization channel and common pilot channel, and this device comprises: receiving element, sampling unit, selected cell, first lock unit, second lock unit and the 3rd lock unit.
After the receiving element received signal, sampling unit obtains sampled signal with the received signal sampling, this moment, selected cell can be selected the sampled signal of part in a predetermined mode at day part, for example the sampled signal of selecting odd point in first period is as first o'clock segment signal, and selects the sampled signal of even number point as second o'clock segment signal in second period.First lock unit then according to the time segment signal and main synchronizing channel, obtain the time slot sequential.Second lock unit is used for the basis sequential and the secondary synchronization channel of the time slot of two period first step gained before, obtains the authentication of frame synchronization and code character.The 3rd lock unit then be used for according to before the sequential of time slot of two period first step gained and frame synchronization and the code character authentication and the common pilot channel coding of the second step gained, obtain the identification code authentication.
The present invention also further provides a kind of and is used for mobile unit and synchronous device is reached in the base station in the Wideband-CDMA system in addition, a signal is transmitted to this mobile unit in this base station, this signal has a main synchronizing channel, a less important synchronizing channel, a common pilot channel, and this device comprises:
One receiving element is used to receive this signal;
One sampling unit is used for this signal sampling is obtained a sampled signal;
One selected cell, this sampled signal is selected this sampled signal of part with first selection mode in first period, as first o'clock segment signal, and use second selection mode this sampled signal to be selected this sampled signal of part in second period, as second o'clock segment signal, with this first selection mode this sampled signal is selected this sampled signal partly in the 3rd period, as the 3rd o'clock segment signal;
One first lock unit is used for reaching this main synchronizing channel according to this first o'clock segment signal, obtains the first slot synchronization signal, and reaches this main synchronizing channel according to this second o'clock segment signal, obtains the second slot synchronization signal;
One second lock unit, be used for according to this first slot synchronization signal and this secondary synchronization channel and the 3rd o'clock segment signal, obtain first frame synchronizing signal, and, obtain second frame synchronizing signal according to this second slot synchronization signal and this secondary synchronization channel and the 4th o'clock segment signal; And
One the 3rd lock unit according to this first frame synchronizing signal and this common pilot channel coding and the 3rd o'clock segment signal, obtains the first encoded authentication signal.
Above-mentioned way can be saved hardware resource, as matched filter etc.Complicated more when the computing that the filtering of matched filter is required, matched filter is power consumption more just, and comparatively difficult in design.And the present invention is because of handling less signal in the same period, and the computing of matched filter is simpler, thus comparatively power saving, and design is simpler, makes the cost reduction.And the present invention utilizes the first time slot sequential and the second time slot sequential, gets its preferred values, can significantly reduce in the prior art because of the resulting sequential of step 1 with the error that the drift of frequency causes, can quicken to finish synchronously with the base station.
Description of drawings
Fig. 1 is for to reach synchronous example with prior art and base station.
Fig. 2 reaches the flow chart of synchronous method for the present invention in the Wideband-CDMA system and base station.
Fig. 3 is at the peak feature of step 1A and 1B gained (peak profiles).
Fig. 4 reaches an embodiment of synchronous method for the present invention in the Wideband-CDMA system and base station.
Fig. 5 reaches an embodiment of synchronous device for the present invention in the Wideband-CDMA system and base station.
The element numbers explanation
The peak feature of 31 step 1A gained
The peak feature of 33 step 1B gained
500 one embodiment of the present of invention
501 receiving elements, 503 sampling units
505 selected cells, 507 first lock units
509 second lock units 511 the 3rd lock unit
Embodiment
After the mobile unit start, mobile unit receives the signal that transmit the base station, and this signal has main synchronizing channel, secondary synchronization channel and common pilot channel.Mobile unit can utilize sampling apparatus, and (Sample-Hold circuit) with this signal sampling, obtains sampled signal as sample-and-hold circuit, as X1, and X2, X3.....X40.The present invention with the process of base station synchronization in, comprise the following step:
Mobile unit is selected sampled signal partly with the signal of sampled signal in a period, as segment signal in a period of time.Segment signal and main synchronizing channel during according to this obtain slot synchronization and time slot sequential.
Mobile unit will be organized the sampled signal that the signal of sampled signal in a period selected part, as segment signal in a period of time.Segment signal and main synchronizing channel during according to this obtain slot synchronization and time slot sequential.
Step 2 ':
Mobile unit obtains the authentication of a frame synchronizing signal and code character according to time slot sequential, slot synchronization signal and the secondary synchronization channel of step 1A and/or 1B gained.
Step 3 ':
Mobile unit is according to time slot sequential, the step 2 of step 1A and 1B gained ' frame synchronizing signal of gained and code character authentication, and common pilot channel coding, obtain an encoded authentication signal.
Fig. 2 has illustrated that the present invention reaches the embodiment of method for synchronous with the base station in the Wideband-CDMA system.For quicken with the base station synchronously, the present invention adopts processing mode arranged side by side to carry out above-mentioned step.At first, when first period, mobile unit execution in step 1A if extract 10 points as sample point in first period, then selects the sampled signal of part with first selection mode, and for example the sampled signal of first o'clock segment signal selection odd point is X1, X3, X5, X7, X9.According to this first o'clock segment signal X1, X3, X5, X7, X9 and main synchronizing channel obtain first slot synchronization and the first time slot sequential.
When second period, mobile unit can be according to execution in step 2 ' such as the first slot synchronization signal of last period gained and the first time slot sequential, according to the first time slot sequential, the first slot synchronization signal, secondary synchronization channel and second o'clock segment signal, obtain the authentication of first frame synchronizing signal and code character.This second o'clock segment signal should the sampled signal in the period take out with second selection mode, as second o'clock segment signal, for example selects the sample point X12 of this period even number point, X14, X16, X18, X20.Simultaneously, mobile unit execution in step 1B, according to this second o'clock segment signal X12, X14, X16, X18, X20 and main synchronizing channel obtain the second time slot sequential and the second slot synchronization signal.
When the 3rd period, mobile unit then can be according to first frame synchronizing signal of the second period gained and the authentication of first code character and the second time slot sequential of the second period gained, the first time slot sequential of the first period gained, the 3rd o'clock segment signal execution in step 3 ', according to this first frame synchronizing signal and common pilot channel coding, obtain the first encoded authentication signal.Segment signal will be again with the first selection mode selective sampling signal in the 3rd o'clock, as the 3rd o'clock segment signal as, X21, X23, X25, X27, X29.Simultaneously, also according to the first time slot sequential of the second time slot sequential of the second period gained, the first period gained and secondary synchronization channel, the 3rd o'clock segment signal, execution in step 2 ' obtains the authentication of second frame synchronizing signal and code character to mobile unit.In the 3rd period, mobile unit execution in step 1A, according to the 3rd o'clock segment signal X21, X23, X25, X27, X29 and main synchronizing channel obtain the 3rd time slot sequential.
Because in this embodiment, the step of carrying out in the 3rd period 3 ' the first encoded authentication signal, be judged as and fail to reach synchronously with the base station, mobile unit just continued in the 4th period, according to second frame synchronizing signal of the 3rd period gained and the 3rd time slot sequential of code character authentication result and the 3rd period gained, the second time slot sequential of the second period gained, the 4th o'clock segment signal execution in step 3 ', according to this second frame synchronizing signal and common pilot channel coding, obtain the second encoded authentication signal.Simultaneously, also according to the second time slot sequential of the 3rd time slot sequential of the 3rd period gained, the second period gained and secondary synchronization channel, the 4th o'clock segment signal, execution in step 2 ' obtains the authentication of the 3rd frame synchronizing signal and the 3rd code character to mobile unit.Segment signal took out the signal of sampled signal in this period with second selection mode in the 4th o'clock, as the 4th o'clock segment signal such as X32, X34, X36, X38, X40.In the 4th period, mobile unit execution in step 1B, according to the 3rd o'clock segment signal X32, X34, X36, X38, X40 and main synchronizing channel obtain the 4th time slot sequential and the 4th slot synchronization signal.When mobile unit according to the step of carrying out in the 4th period 3 ' the second encoded authentication signal time, judge whether to finish synchronously with the base station, then finish synchronously to carry out if finish, then continue to repeat above-mentioned synchronization program synchronously as if finishing.
Mobile unit utilizes matched filter (or similar equipment) to mate main synchronous coding in step 1A and 1B.And, utilize the peak value (peak) that detects matched filter output, obtain the time slot sequential.The present invention is a problem of improving the frequency drift, in step 2 ' time, relatively the first time slot sequential and the second time slot sequential are selected to carry out follow-up processing with preferable time slot sequential.As shown in Figure 3, line segment 31 is the peak feature of step 1A gained, and line segment 33 is the peak feature of step 1B gained, utilizes this peak feature, and mobile unit can obtain the first time slot sequential and the second time slot sequential and compare.In this embodiment, step 1B has preferable peak feature, therefore in step 2 ' in, mobile unit is selected to obtain frame synchronizing signal with the second time slot sequential, slot synchronization signal and secondary synchronization channel.
Above-mentioned way can be saved hardware resource, as matched filter etc.Complicated more when the computing that the filtering of matched filter is required, matched filter is power consumption more just, and comparatively difficult in design.And the present invention is because of handling less signal in the same period, and the computing of matched filter is simpler, thus comparatively power saving, and design is simpler, makes the cost reduction.And the present invention utilizes the first time slot sequential and the second time slot sequential, gets its preferred values, can significantly reduce in the prior art because of the resulting sequential of step 1 with the error that the drift of frequency causes, can quicken to finish synchronously with the base station.
What pay special attention to is, usefulness first selection mode and second selection mode in the present embodiment come the selective sampling signal, carry out step 1A and step 1B and the time slot sequential of utilizing comparison step 1A and 1B only for the purpose of illustration, be not in order to limiting scope of the present invention, any those skilled in the art can carry out suitable modification and expansion.
Fig. 4 has illustrated method flow of the present invention.At first, mobile unit starts the back and receives the synchronizing signal that transmit the base station.Then, carry out above-mentioned step 1A (step 203) at the first period mobile unit.Behind the execution in step 1A, at the second period mobile unit execution in step 1B and according to the execution in step 2 ' as a result (step 205) of the slot synchronization of step 1A.The 3rd period, the slot synchronization result of mobile unit combining step 1A and step 1B is for subsequent step 2 ' and step 3 ' use (step 207).At this moment, mobile unit execution in step 1A or 1B, judgment mode is for when mobile unit during at last period execution in step 1A, mobile unit is execution in step 1B then, and when mobile unit during at last period execution in step 1B, execution in step 1A then, and the execution in step 2 ' as a result and the execution in step 3 ' (step 209) that merge according to the slot synchronization that produces in the step 207.Last mobile unit is with step 3 ' the result judge whether to reach (step 211) synchronously with the base station, then finish (step 213) synchronously if reached, as if not reaching repeated execution of steps 207, step 209 and steps 211 such as then continuing for the 4th period synchronously as yet.
In addition, the present invention also provides a kind of and is used for mobile unit and synchronous device is reached in the base station in the Wideband-CDMA system.Signal is transmitted to mobile unit in the base station, and this signal has the use when synchronous of main synchronizing channel, secondary synchronization channel, common pilot channel coding.As shown in Figure 5, this device 500 comprises receiving element 501, sampling unit 503, selected cell 505, first lock unit 507, second lock unit 509 and the 3rd lock unit 511.
Receiving element 501 is responsible for receiving the signal that transmit the base station.Sampling unit 503 is responsible for this signal is sampled.
Utilize the above detailed description of preferred embodiments, feature of the present invention and spirit can be more clearly described in hope, and above-mentioned disclosed preferred embodiment is not to be restriction to scope of the present invention.On the contrary, the above-mentioned explanation and the arrangement of various change and identity property all are invention which is intended to be protected.Therefore, the scope of the claim that the present invention applied for should be done the broadest explanation according to above-mentioned explanation, and contain the change that might be equal to and the arrangement of tool identity property.
Claims (13)
- One kind in the Wideband-CDMA system mobile unit and base station reach synchronous method, a signal is transmitted to this mobile unit in this base station, this signal has a main synchronizing channel, a less important synchronizing channel, a common pilot channel, and this method comprises the following step:Receive this signal;To this signal sampling, obtain a sampled signal;With first selection mode this sampled signal is selected this sampled signal partly in first period, as first o'clock segment signal;Reach this main synchronizing channel according to this first o'clock segment signal, obtain one first time slot sequential;With second selection mode this sampled signal is selected this sampled signal partly in second period, as second o'clock segment signal;Reach this main synchronizing channel according to this second o'clock segment signal, obtain one second a time slot sequential and a time slot synchronizing signal;With this first selection mode this sampled signal is selected this sampled signal partly in the 3rd period, as the 3rd o'clock segment signal;According to this first time slot sequential, this second time slot sequential, this slot synchronization signal, this secondary synchronization channel and the 3rd o'clock segment signal, obtain a frame synchronizing signal; AndAccording to this first time slot sequential, this second time slot sequential, this frame synchronizing signal, this common pilot channel coding and the 3rd o'clock segment signal, obtain an encoded authentication signal.
- 2. the method for claim 1, wherein this first selection mode is optionally selected this sampled signal of odd number and this sampled signal of even number.
- 3. the method for claim 1, wherein this second selection mode is optionally selected this sampled signal of odd number and this sampled signal of even number.
- 4. one kind is used for mobile unit and synchronous device is reached in the base station in the Wideband-CDMA system, and a signal is transmitted to this mobile unit in this base station, and this signal has a main synchronizing channel, a less important synchronizing channel, a common pilot channel, and this device comprises:One receiving element is used to receive this signal;One sampling unit is used for this signal sampling is obtained a sampled signal;One selected cell, this sampled signal is selected this sampled signal of part with first selection mode in first period, as first o'clock segment signal, and use second selection mode this sampled signal to be selected this sampled signal of part in second period, as second o'clock segment signal, with this first selection mode this sampled signal is selected this sampled signal partly in the 3rd period, as the 3rd o'clock segment signal;One first lock unit is used for reaching this main synchronizing channel according to this first o'clock segment signal, obtains the first slot synchronization signal, and reaches this main synchronizing channel according to this second o'clock segment signal, obtains the second slot synchronization signal;One second lock unit, be used for according to this first slot synchronization signal and this secondary synchronization channel and the 3rd o'clock segment signal, obtain first frame synchronizing signal, and, obtain second frame synchronizing signal according to this second slot synchronization signal and this secondary synchronization channel and the 4th o'clock segment signal; AndOne the 3rd lock unit according to this first frame synchronizing signal and this common pilot channel coding and the 3rd o'clock segment signal, obtains the first encoded authentication signal.
- 5. device as claimed in claim 4, if according to this first encoded authentication signal, do not judge and reach synchronously with this base station, then give up this first encoded authentication signal, this selected cell is selected this sampled signal partly with this second selection mode with this sampled signal in the 4th period, as the 4th o'clock segment signal, the 3rd lock unit was again according to this second frame synchronizing signal, this common pilot channel coding and the 4th o'clock segment signal obtain the second encoded authentication signal.
- 6. device as claimed in claim 4, this first lock unit further reach this main synchronizing channel according to this first o'clock segment signal and obtain one first time slot sequential.
- 7. device as claimed in claim 6, this first lock unit further reach this main synchronizing channel according to this second o'clock segment signal and obtain one second time slot sequential.
- 8. device as claimed in claim 7 is when wherein this second lock unit obtains this second time slot sequential according to this second o'clock segment signal and this main synchronizing channel, further with reference to this first time slot sequential and this second time slot sequential.
- 9. device as claimed in claim 4, wherein this first selection mode is optionally selected this sampled signal of odd point and selection even number point.
- 10. device as claimed in claim 4, wherein this second selection mode is optionally selected this sampled signal of odd point and selection even number point.
- 11. in the Wideband-CDMA system, reach synchronous device for one kind for mobile unit and base station, a signal is transmitted to this mobile unit in this base station, this signal has a main synchronizing channel, a less important synchronizing channel, a common pilot channel coding, and this device comprises:One receiving element is used to receive this signal;One sampling unit is used for this signal sampling is obtained a sampled signal;One selected cell, this sampled signal is selected this sampled signal of part with first selection mode in first period, as first o'clock segment signal, reach this sampled signal of this sampled signal being selected part in second period with second selection mode, as second o'clock segment signal, with this first selection mode this sampled signal is selected this sampled signal partly in the 3rd period, as the 3rd o'clock segment signal;One first lock unit is used for reaching this main synchronizing channel according to this first o'clock segment signal, obtains the first time slot sequential, and reaches this main synchronizing channel according to this second o'clock segment signal, obtains the second time slot sequential and a time slot synchronizing signal;One second lock unit is used for according to this first time slot sequential, this second time slot sequential, this slot synchronization signal, the 3rd o'clock segment signal and this secondary synchronization channel, obtains the authentication of a frame synchronizing signal and a code character; AndOne the 3rd lock unit is used for reaching this common pilot channel coding according to this frame synchronizing signal, this code character authentication, the 3rd o'clock segment signal, obtains an encoded authentication signal.
- 12. device as claimed in claim 11, wherein this first selection mode is optionally selected this sampled signal of odd point and selection even number point.
- 13. device as claimed in claim 11, wherein this second selection mode is optionally selected this sampled signal of odd point and selection even number point.
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