CN101500250B - Fast frequency point conversion method and apparatus - Google Patents

Abstract

The invention provides a fast frequency point conversion method, which comprises the steps: an establishing frequency point of a testing instrument is a cell of a set frequency point, and a terminal carries out conformance testing of radio frequency under the set frequency point; and after the testing under the current set frequency point is finished and when frequency point conversion is determined, a deleting frequency point of the testing instrument is the cell of the current set frequency point, the establishing frequency point is the cell of a next set frequency point, and the terminal carries out the conformance testing of the radio frequency under the next set frequency point. The invention provides a device for realizing the fast frequency point conversion simultaneously, and the device and the method realize fast conversion of the frequency points in the conformance testing process of the radio frequency and reduce the consumed time of the terminal for carrying out the conformance testing of the radio frequency.

Description

A kind of fast frequency point conversion method and device

Technical field

The present invention relates to the terminal radio frequency consistency measuring technology, relate in particular to a kind of fast frequency point conversion method and device.

Background technology

TD SDMA (TD-SCDMA) communication standard is extensive commercial in sight, the quality of end product quality, performance, not only be related to the market segmentation, the distribution of interests of each tame manufacturer terminal, even can influence the prospect of whole TD-SCDMA industry, therefore, each terminal is produced the test that all needs through strict from researching and developing to, and these tests comprise RF consistency test, testing protocol consistency, complete machine stability test, environmental adaptation property testing, emc testing or the like.

Because in the terminal radio frequency consistency measuring technology, test instrumentation need set up the single-frequency point or multi-frequency-point community is tested with the RF consistency that terminal is carried out under the corresponding frequency, and in test process, synchronized relation need be set up in the sub-district that terminal and test instrumentation are set up, therefore, at first introduce below and how to set up synchronized relation between terminal and the network side, and how to become desynchronizing state from synchronous regime, that is: between terminal and network side synchronously or the Technology of Judgment of step-out.

Described synchronously or step-out cooperate by physical layer and Radio Resource control (RRC) layer and finish.For setting up new physical channel, revise the physical channel configuration, revise the transmission channel configuration, revising radio bearer and dispose for these several situations, as long as have dedicated channel between terminal and the network side under the new configuration, terminal just need rebulid synchronized relation with network side when enabling new configuration.Whether this synchronizing process is at first detected synchronous by physical layer, and synchronous or step-out indication are reported rrc layer, judges by rrc layer whether synchronizing process is successful then.

For the synchronizing process that rebulids synchronized relation, the operation of physical layer is divided into two stages:

First stage is to enable first 160ms that new configuration that rrc layer issues picks up counting from the physical layer of terminal, wherein, about the agreement of 160ms referring to 3GPP 25.224 agreements.In this stage, even the quality of data that physical layer receives is abominable, perhaps do not receive the data of any transmission, physical layer can not indicated step-out to high level.Opposite, in this 160ms, if the quality that has continuous 40ms to receive data is better than certain threshold value, perhaps there are the data of a transmission block to pass through cyclic redundancy (CRC) verification of physical layer, perhaps terminal physical layer correctly detects a special burst (Special Burst), and physical layer sends indication synchronously to rrc layer at once so.

Second stage finishes from above-mentioned 160ms, continues always.In this stage, if the burst quality that receives on the dedicated channel in the 160ms is lower than predetermined threshold value continuously, and the quality neither one of detected Special Burst reaches the default thresholding of quality of Special Burst, simultaneously, the CRC check of all transmission blocks all is wrong in this 160ms, like this, physical layer will report a step-out indication to rrc layer.On the contrary, in this stage, if the burst quality that receives on the dedicated channel in the 160ms is higher than predetermined threshold value continuously, perhaps there is the quality of a detected Special Burst to reach the default thresholding of quality of Special Burst, it is correct that the CRC check of a transmission block is perhaps arranged in this 160ms, and physical layer sends indication synchronously to rrc layer at once so.

Synchronous or the step-out indication of physical layer sends to after the rrc layer, judges by rrc layer whether synchronizing process is successful again.After physical layer was brought into use new configuration, rrc layer started timer T312.Before T312 is overtime, if receiving N312 continuously, rrc layer comes from the synchronous indication of physical layer, rrc layer stops the T312 timer so, thinks that terminal and network obtain synchronously new physical channel configuration successful; If before the T312 timer expiry, rrc layer does not receive N312 indication synchronously continuously, and rrc layer judges that then terminal and network do not obtain synchronously new physical channel configuration failure so.

Set up in dedicated channel and to have finished and proper communication, promptly network side and terminal have obtained under the synchronous situation, if as losing situations such as covering, transmission link be unusual, terminal can be from transferring to desynchronizing state with the synchronous regime of network side.In this transfer process, the testing result of step-out reports rrc layer by physical layer, and whether really rrc layer judges terminal and network side step-out according to reported result, whether need carry out abnormality processing according to the step-out flow process.

Obtained under the synchronous situation at network side and terminal, if the quality of the burst that receives on the dedicated channel in the 160ms is lower than predetermined threshold value continuously, and the quality neither one of detected Special Burst reaches the default thresholding of quality of Special Burst, and physical layer will report a step-out indication to rrc layer so.After rrc layer receives the step-out indication that N313 physical layer report continuously, RRC will start the T313 timer.If before the T313 timer expiry, rrc layer is received N315 the synchronous indication from physical layer continuously, and rrc layer stops the T313 timer so, thinks that still terminal and network side keep synchronized relation; If before the T313 timer expiry, rrc layer is not received N315 the synchronous indication from physical layer continuously, and rrc layer is judged terminal and network side step-out so, and rrc layer is taked the step-out flow processing.

The timer T312 that uses in the said process, the time that T313 sets, and constant N312, N313, N315 be the parameter of rrc layer, they send to terminal by the broadcast piece SIB1 in the cell system broadcasting.

More than be terminal and network side synchronously or the Technology of Judgment of step-out, will introduce in the prior art terminal radio frequency consistency measuring technology below in detail.

In the test of terminal radio frequency consistency, because the performance that radio-frequency devices was shown when working under different frequent points can be variant, so, need under different frequent points, distinguish every radio-frequency (RF) index of test terminal, under each frequency, all satisfy the requirement of third generation partner program (3GPP) 34.122 standards with the radio-frequency (RF) index of guaranteeing terminal, simultaneously, need check also whether the radiofrequency characteristics of terminal under different frequent points has consistency.Therefore, test instrumentation for the test of support terminal RF consistency, need support terminal in test, to change frequency at any time, just will be supported in the frequency conversion under the loopback test pattern, make terminal in the test that can get started behind the conversion testing frequency under the new frequency.

At present, the test instrumentation that can carry out the terminal radio frequency consistency test generally has two big class solutions when realization is measured the different frequent points of terminal:

First kind solution is to utilize the test of the thought realization of terminal switching to terminal radio frequency consistency.In this scheme, the tester at first sets up a multi-frequency-point community or sets up a plurality of single-frequency points sub-district simultaneously, then utilizes the method for switching to realize the conversion of terminal between different frequent points again.For this programme,, be a kind of method of testing preferably from reducing angle consuming time.But support is set up a multi-frequency-point community or is supported to set up simultaneously the cost of the test instrumentation of a plurality of single-frequency points sub-district, is higher than the test instrumentation that a single-frequency point sub-district is set up in only support far away.Increasing for for the terminal of production line of testing cost will reduce the product competitiveness of terminal undoubtedly greatly.

The second class scheme is to realize test to terminal radio frequency consistency by setting up single-frequency point sub-district.For example, after terminal is finished test at a certain frequency, when needing to change the test frequency, the test instrumentation that has is being connected of disconnected end and test instrumentation at first, makes terminal enter idle condition, simultaneously, delete old frequency point cell and set up new frequency point cell, then reconnect terminal and test; The test instrumentation that also has is deleted old frequency point cell by force, is set up new frequency point cell under terminal is in connection status, utilizes the cell updating course of terminal to finish the frequency conversion.The method that this programme provided tests terminal radio frequency consistency, all only need set up a single-frequency point sub-district, but whole frequency transfer process will consume considerable time, be approximately 10-15 second, be no more than for this specific requirement in 45 seconds this effective time for a complete set of test under a frequency of a station terminal on the automatic production line, the overlong time that the frequency transfer process is consumed.

Summary of the invention

In view of this, main purpose of the present invention is to provide a kind of fast frequency point conversion method and device, can realize the quick conversion of RF consistency test process intermediate-frequeney point, reduces terminal and carries out the time that the RF consistency test is consumed.

For achieving the above object, technical scheme of the present invention is achieved in that

The invention provides a kind of fast frequency point conversion method, this method comprises:

A, to set up frequency be one to set the sub-district of frequency, and the RF consistency that terminal is carried out this frequency is under tested;

EOT under B, the current setting frequency, when determining to carry out the frequency conversion, the deletion frequency is the sub-district of current setting frequency, sets up frequency and is the next sub-district of setting frequency, terminal is carried out the described next RF consistency test of setting under the frequency.

Wherein, when the frequency of setting described in the steps A was the first setting frequency, the described frequency of setting up was that steps A further comprises: described sub-district sends to terminal with the broadcast piece after setting the sub-district of frequency;

At least comprise in the described broadcast piece: the time that timer T312, T313 set, physical layer receive in the maximum number N313, T312 setting-up time of step-out indication from physical layer and receive the maximum number N315 that receives synchronous indication in the maximum number T312 of synchronous indication and the T313 setting-up time from physical layer; And formula is satisfied in being provided with of N313:

160ms×N313＞T0-T1

Wherein, 160ms is the detection time of physical layer when the radio resource control RRC layer reports synchronous or step-out indication; T0 is the described next setting frequency entry-into-force time and carries out the described next time difference of frequency between setup time of setting; T1 is that terminal is received the physical channel reallocation message time and carried out the described next time difference of frequency between setup time of setting.

When determining to carry out the frequency conversion, step B further comprises: determine the next frequency of setting, afterwards, test instrumentation sends the physical channel reallocation message to terminal;

Accordingly, described physical channel reallocation message comprises at least: described next frequency and the described next activationary time T+T0 that sets frequency of setting, wherein, T is for sending the time of described physical channel reallocation message.

Setting up frequency is that step B further comprised after the described next one was set the sub-district of frequency:

When described activationary time T+T0 arrived, terminal was carried out new physical channel configuration, set on the frequency second and carried out again synchronously with test instrumentation; After the rrc layer of terminal receives N312 the synchronous indication from physical layer continuously, on described next setting frequency, send the physical channel configuration and finish message to test instrumentation, afterwards, terminal is carried out the described next RF consistency test of setting under the frequency.

The present invention provides a kind of fast frequency point conversion equipment simultaneously, and this device comprises: parameter is provided with module, data transmission blocks, data reception module, cell management module and test module, wherein,

Parameter is provided with module, is used to be provided with set up the required relevant parameter in sub-district of setting frequency, and described relevant parameter information is sent to the cell management module; When also being used to determine to carry out the frequency conversion, determine the next frequency of setting, and the described next frequency of setting is sent to message generating module;

Message generating module, be used to receive described next set frequency after, determine the described next activationary time of setting frequency, and generate the physical channel reallocation message and send to data transmission blocks;

Data transmission blocks, be used to receive described physical channel reallocation message after, described message is sent to terminal;

Data reception module is used for the receiving state report for the physical channel reallocation message that receiving terminal is sent, and described report is sent to the cell management module; After also being used to receive the physical channel reprovision and finishing message, described message is sent to test module;

The cell management module is used for setting up corresponding frequency for setting the sub-district of frequency according to described parameter information; After also being used to receive described report, delete current setting frequency point cell, set up the next frequency point cell of setting, and the sub-district set up finish message and send to test module;

Test module, be used to receive described sub-district set up finish message after, the RF consistency that terminal is carried out corresponding frequency is under tested; After also being used to receive described physical channel reprovision and finishing message, terminal is carried out RF consistency test under the corresponding frequency.

Wherein, parameter is provided with module and is further used for: when described setting frequency is the first setting frequency, described relevant parameter information is sent to message generating module;

Accordingly, message generating module is further used for: generate the broadcast piece according to described relevant parameter information and send to data transmission blocks;

Accordingly, data transmission blocks is further used for: the described broadcast piece that will receive sends to terminal.

Described physical channel reallocation message comprises at least: described next frequency and the described next activationary time T+T0 that sets frequency of setting;

Wherein, T is for sending the time of described physical channel reallocation message; T0 is the described next setting frequency entry-into-force time and carries out the next time difference of frequency between setup time of setting.

Fast frequency point conversion method provided by the present invention and device, when terminal is carried out the RF consistency test, each single-frequency point sub-district of only setting up the respective settings frequency, when needs carry out the frequency conversion, the next activationary time of setting frequency and corresponding frequency of indicating terminal afterwards, is guaranteeing under the out-of-step free situation of terminal and test instrumentation again, delete current setting frequency point cell, set up the described next frequency point cell of setting; Terminal switch to from current setting frequency point cell described next when setting frequency point cell, need not to carry out again the sub-district inserts, save frequency and changed the needed time, and then reduced terminal and carried out the time that uniformity test consumed, satisfied the time requirement of terminal radio frequency consistency test on the automatic production line; Simultaneously, in whole terminal radio frequency consistency test, the each single-frequency point sub-district that only need set up a corresponding frequency of test instrumentation is tested, and has saved the testing cost of terminal, has improved the end product competitiveness greatly.

Description of drawings

Fig. 1 is a frequency fast conversion method schematic flow sheet of the present invention;

Fig. 2 realizes the frequency apparatus structure schematic diagram of conversion fast for the present invention.

Embodiment

Basic thought of the present invention is: set up frequency earlier and set the sub-district of frequency for certain, when terminal is finished the RF consistency test under this frequency after, guaranteeing under the out-of-step free situation of terminal and test instrumentation, delete current setting frequency point cell, set up the next frequency point cell of setting, carry out terminal in the described next RF consistency test of setting under the frequency.

Below, be described with reference to the accompanying drawings the realization of frequency fast conversion method of the present invention and device by specific embodiment.

Fig. 1 is a frequency fast conversion method schematic flow sheet of the present invention, and as shown in Figure 1, this method comprises:

Step 101: test instrumentation is set up the sub-district that frequency is Frequency1, sends broadcast piece SIB1; Search described sub-district behind the starting up of terminal, read broadcast piece SIB1, from SIB1, obtain the relevant parameter of rrc layer, and resident, register afterwards.

Wherein, described frequency Frequency1 is also referred to as first and sets frequency, for terminal begins to carry out first setting frequency that RF consistency test back is tested; Frequency Frequency2 described in the subsequent step is also referred to as second and sets frequency, for terminal begins to carry out second setting frequency that RF consistency test back is tested.Described setting frequency carries out the frequency of RF consistency test to terminal for the need of determining.

Here, described relevant parameter comprises: the time that timer T312, T313 set and constant N312, N313, N315.Wherein, being provided with of N313 need be satisfied formula:

160ms×N313＞T0-T1

Wherein, 160ms is the detection time of physical layer when rrc layer reports synchronous or step-out indication; N313 is for receiving the maximum number of step-out indication from physical layer; N312 is the maximum number that receives synchronous indication in the T312 setting-up time from physical layer; N315 is the maximum number that receives synchronous indication in the T313 setting-up time from physical layer; T0 is that second setting frequency entry-into-force time and test instrumentation carry out the time difference of frequency Frequency2 between setup time, and unit is a millisecond; T1 is that terminal receives that the time of physical channel reprovision (Physica1Channel Reconfiguration) message and test instrumentation carry out the time difference of frequency Frequency2 between setup time, and unit is a millisecond.Wherein, test instrumentation is configured the time and is the time that test instrumentation in the step 103 sends described physical channel reallocation message, i.e. time T.

In addition, test instrumentation carries out the foundation of corresponding frequency point cell and terminal and the process of registering between the sub-district of setting up and all belongs to known technology, repeats no more here.

Step 102: control terminal enters test pattern, carries out the RF consistency test under the frequency Frequency1.

Generally speaking, described control is finished by the user who tests.

Wherein, specifically how control terminal enters test pattern and how to carry out terminal belongs to known technology in the RF consistency test of setting under the frequency, repeats no more here.

Step 103: when the test under the frequency Frequency1 is all over, determine new frequency Frequency2, test instrumentation is to send the physical channel reallocation message to terminal in the sub-district of Frequency1 at frequency, described physical channel reallocation message designated terminal is transformed into frequency Frequency2, and specifies the activationary time T+T0 of frequency Frequency2.Wherein, T is for sending the time of this physical channel reallocation message.

Wherein, described definite frequency Frequency2 can provide corresponding configuration interface to the user by test instrumentation in the specific implementation of this method, dispose described frequency Frequency2 by the user.

Wherein, how test instrumentation specifically provides described configuration interface and how to generate the physical channel reallocation message all can be used correlation technique of the prior art to finish, and repeats no more here.

Wherein, described physical channel reallocation message can utilize the Dedicated Control Channel (DCCH) of RLCAM pattern to send to terminal on SRB2.

Step 104: after terminal received described physical channel reallocation message, to the receiving state report of test instrumentation answer for the physical channel reallocation message, the notice test instrumentation successfully received described message.

Step 105: after test instrumentation received the receiving state report that successfully receives described message of terminal feedback, test instrumentation deletion frequency was the former sub-district of Frequency1, and setting up frequency is the new sub-district of Frequency2.

In the implementation of step 104 and step 105, terminal is not also known the variation of network side, still be operated under the frequency Frequency1, but, the residing sub-district of terminal has become the new sub-district that frequency is Frequency2, terminal is under the situation of losing covering, so the physical layer of terminal will not receive data continuously at T～T+T0 in the time.Though in certain duration, the physical layer of terminal is not received data, because in the step 101, the N313 in activationary time point in the physical channel reconfiguration message and the old sub-district among the SIB1 is provided with and satisfies formula:

160ms×N313＞T0-T1

So, before the activationary time point T+T0 of new frequency Frequency2 arrives, the step-out indication number that the physical layer of terminal reports for the rrc layer of terminal is individual less than N313, rrc layer can not adjudicated step-out between terminal and the network side, therefore, terminal still be in the network side synchronous regime under because this network side is the cell side that test instrumentation is set up, therefore, terminal and test instrumentation still are under the synchronous regime.

Step 106: when activationary time point T+T0 arrived, terminal was carried out new physical channel configuration, begins to search for the sub-district that frequency is Frequency2, carries out again synchronously with test instrumentation on frequency Frequency2.

Wherein, how terminal is specifically carried out the configuration of new physical channel and how to be carried out frequency is that the search of the sub-district of Frequency2 belongs to known technology, repeats no more here.

Step 107: when the rrc layer of terminal receive continuously N312 come from the synchronous indication of physical layer after, terminal is thought and is finished synchronously with test instrumentation, then sends the physical channel reprovision on new frequency Frequency2 and finishes (Physical Channel Reconfiguration Complete) message.

Wherein, generation and transmission that described physical channel reprovision is finished message belong to known technology, repeat no more here.

Step 108: test instrumentation receives after described physical channel reprovision finishes message, thinks that the frequency of terminal converts, and carries out the RF consistency test under this frequency on new frequency Frequency2.

Wherein, specifically how to carry out terminal and belong to known technology, repeat no more here in the RF consistency test of setting under the frequency.

Afterwards, need carry out RF consistency when test under other frequencies when terminal, only need repeated execution of steps a 103～step 108 get final product, accordingly, described Frequency1 becomes current setting frequency, that is: presently used setting frequency; And Frequency2 becomes the new frequency that sets, that is: the next one that need test of terminal is set frequency.

Fig. 2 realizes the frequency apparatus structure schematic diagram of conversion fast for the present invention, as shown in Figure 2, this device comprises: parameter is provided with module 210, message generating module 220, data transmission blocks 230, data reception module 240, cell management module 250 and test module 260, wherein

Parameter is provided with module 210, be used to be provided with the required relevant parameter in sub-district of setting up the setting frequency, described relevant parameter information is sent to cell management module 250, when described setting frequency is the first setting frequency, described relevant parameter information is sent to message generating module 220; When also being used to determine to carry out the frequency conversion, determine the next frequency of setting, and the described next frequency of setting is sent to message generating module 220.

Message generating module 220 is used for generating the broadcast piece according to the described relevant parameter information that receives and sends to data transmission blocks 230; After also being used to receive described next setting frequency, determine the described next activationary time of setting frequency, and generation physical channel reallocation message sends to data transmission blocks 230.

Wherein, described definite activationary time is generally finished when generating the physical channel reallocation message, and described activationary time is added in the physical channel reallocation message.

Data transmission blocks 230, be used to receive described physical channel reallocation message or described broadcast piece after, described message is sent to terminal.

Data reception module 240 is used for the receiving state report for the physical channel reallocation message that receiving terminal is sent, and described report is sent to cell management module 250; After also being used to receive the physical channel reprovision and finishing message, described message is sent to test module 260.

Cell management module 250 is used for setting up the corresponding frequency point cell of setting according to described parameter information; After also being used to receive described report, delete current setting frequency point cell, set up the next frequency point cell of setting, and described sub-district set up finish message and send to test module 260.

Test module 260, be used to receive described sub-district set up finish message after, the RF consistency that terminal is carried out corresponding frequency is under tested; After being used to receive described physical channel reprovision and finishing message, terminal is carried out RF consistency test under the corresponding frequency.

Wherein, the realization of test module 260, can use prior art, described to terminal carry out under the corresponding frequency RF consistency test can for: by test module 260 corresponding test event is offered the user in the interface mode, selects and trigger corresponding test event by the user.

The above is preferred embodiment of the present invention only, is not to be used to limit protection scope of the present invention.

Claims (6)

1. a fast frequency point conversion method is characterized in that, this method comprises:

A, to set up frequency be one to set the sub-district of frequency, and the RF consistency that terminal is carried out this frequency is under tested;

EOT under B, the current setting frequency, when determining to carry out the frequency conversion, the deletion frequency is the sub-district of current setting frequency, sets up frequency and is the next sub-district of setting frequency, terminal is carried out the described next RF consistency test of setting under the frequency,

Wherein, when the frequency of setting described in the steps A was the first setting frequency, the described frequency of setting up was that steps A further comprises: described sub-district sends to terminal with the broadcast piece after setting the sub-district of frequency;

At least comprise in the described broadcast piece: the time that timer T312, T313 set, physical layer receive in the maximum number N313, T312 setting-up time of step-out indication from physical layer and receive the maximum number N315 that receives synchronous indication in the maximum number T312 of synchronous indication and the T313 setting-up time from physical layer; And formula is satisfied in being provided with of N313:

160ms×N313＞T0-T1

Wherein, 160ms is the detection time of physical layer when the radio resource control RRC layer reports synchronous or step-out indication; T0 is the described next setting frequency entry-into-force time and carries out the described next time difference of frequency between setup time of setting; T1 is that terminal is received the physical channel reallocation message time and carried out the described next time difference of frequency between setup time of setting.

2. method according to claim 1 is characterized in that, when determining to carry out the frequency conversion, step B further comprises: determine the next frequency of setting, afterwards, test instrumentation sends the physical channel reallocation message to terminal;

Accordingly, described physical channel reallocation message comprises at least: described next frequency and the described next activationary time T+T0 that sets frequency of setting, wherein, T is for sending the time of described physical channel reallocation message.

3. method according to claim 2 is characterized in that, setting up frequency is that step B further comprised after the described next one was set the sub-district of frequency:

When described activationary time T+T0 arrived, terminal was carried out new physical channel configuration, set on the frequency second and carried out again synchronously with test instrumentation; After the rrc layer of terminal receives N312 the synchronous indication from physical layer continuously, on described next setting frequency, send the physical channel configuration and finish message to test instrumentation, afterwards, terminal is carried out the described next RF consistency test of setting under the frequency.

4. a fast frequency point conversion equipment is characterized in that, this device comprises: parameter is provided with module, data transmission blocks, data reception module, cell management module and test module, wherein,

Parameter is provided with module, is used to be provided with set up the required relevant parameter in sub-district of setting frequency, and described relevant parameter information is sent to the cell management module; When also being used to determine to carry out the frequency conversion, determine the next frequency of setting, and the described next frequency of setting is sent to message generating module;

Message generating module, be used to receive described next set frequency after, determine the described next activationary time of setting frequency, and generate the physical channel reallocation message and send to data transmission blocks;

Data transmission blocks, be used to receive described physical channel reallocation message after, described message is sent to terminal;

Data reception module is used for the receiving state report for the physical channel reallocation message that receiving terminal is sent, and described report is sent to the cell management module; After also being used to receive the physical channel reprovision and finishing message, described message is sent to test module;

The cell management module is used for setting up corresponding frequency for setting the sub-district of frequency according to described parameter information; After also being used to receive described report, delete current setting frequency point cell, set up the next frequency point cell of setting, and the sub-district set up finish message and send to test module;

Test module, be used to receive described sub-district set up finish message after, the RF consistency that terminal is carried out corresponding frequency is under tested; After also being used to receive described physical channel reprovision and finishing message, terminal is carried out RF consistency test under the corresponding frequency.

5. device according to claim 4 is characterized in that parameter is provided with module and is further used for: when described setting frequency is the first setting frequency, described relevant parameter information is sent to message generating module;

Accordingly, message generating module is further used for: generate the broadcast piece according to described relevant parameter information and send to data transmission blocks;

Accordingly, data transmission blocks is further used for: the described broadcast piece that will receive sends to terminal.

6. according to claim 4 or 5 described devices, it is characterized in that described physical channel reallocation message comprises at least: described next frequency and the described next activationary time T+T0 that sets frequency of setting;

Wherein, T is for sending the time of described physical channel reallocation message; T0 is the described next setting frequency entry-into-force time and carries out the next time difference of frequency between setup time of setting.

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