CN103259939A - Terminal dormant method and terminal - Google Patents

Abstract

The invention provides a terminal dormant method and a terminal. The problems that a single dormant mode can not satisfy the requirements of LTE terminals of different types and the requirement for low power consumption in different application scenarios are solved. The terminal dormant method comprises the steps: whether the terminal satisfies dormant conditions or not is judged; when the terminal satisfies the dormant conditions, a dormant mode corresponding to the terminal type of the terminal is obtained; the terminal types comprise a single mode terminal, a first type multi-mode terminal and a second type multi-mode terminal, wherein the single mode terminal type corresponds to an electric mode under an advanced reduced instruction set processor, the first type multi-mode terminal corresponds to an advanced reduced instruction set processor frequency reducing mode, and the second type multi-mode terminal corresponds to an advanced reduced instruction set processor normal frequency mode; dormant processing is conducted according to the obtained dormant mode. According to the terminal dormant method and the terminal, the different dormant modes can be selected according to different terminal types, so that the dormant processing is conducted, and therefore the terminal dormant method and the terminal can satisfy the requirement for the low power consumption of the terminals of different types.

Description

A kind of terminal sleeping method and terminal

Technical field

The present invention relates to communication technical field, particularly relate to a kind of terminal sleeping method and terminal.

Background technology

Radio communication develops into now, experienced second generation mobile communication technology (second generation, 2G), (3rd-generation is 3G) to Long Term Evolution (Long TermEvolution for the 3G (Third Generation) Moblie technology, LTE) triple jump, development speed is acceleration tendency.The LTE system compares with the 3G system, terminal supports that more high speed data transfer and visual telephone etc. enrich multimedia application, increased complicated physical layer Digital Signal Processing and higher-layer protocols software handles for this reason, increased the power saving intractability of terminal greatly, also the performance to the electricity-saving mechanism of terminal has proposed requirements at the higher level.LTE technology ripe gradually in recent years particularly, the service rate that the LTE terminal is supported is more and more higher, and key technologies for application becomes increasingly complex, and makes high power problems serious further.Therefore for the LTE system, the stand-by time of portable terminal becomes the focus of user and industry concern, the energy consumption problem of portable terminal is the key factor of energy saving of system, also is to estimate the important indicator that the user experiences, and also directly has influence on the commercial process of LTE simultaneously.

In order to reduce power consumption of mobile terminals, and further support the transmission of multiple business and mass data, in the LTE system, introduced discontinuous reception (Discontinuous Reception, DRX) electricity-saving mechanism.The DRX electricity-saving mechanism is adopted by most of wireless communication system as an important method optimizing energy efficiency from the wireless communication system link layer, its basic thought is to allow terminal to close wireless transmit/receive units in the moment that does not have transfer of data, enter sleep pattern, to reduce the additional energy expense.

Compare with 3G with 2G, the terminal type of LTE is also abundanter, comprise: data card, customer terminal equipment (Customer Premise Equipment, CPE), wireless router/hotspot (MobileWiFidevice, MiFi), panel computer, net book, smart mobile phone etc.Meanwhile, from current China's communications industry, the LTE network also is in and tries commercial stage, with global system for mobile communications (GlobalSystem of Mobile communication, GSM) and code division multiple access (Code Division MultipleAccess, CDMA) be covering and the maximum customer group that main 2G technology is still having wide area, simultaneously based on Wideband Code Division Multiple Access (WCDMA) (Wideband Code Division Multiple Access, WCDMA), TD SDMA (Time Division-Synchronous Code Division MultipleAccess, so the 2G/3G/LTE multimode terminal also is the important component part of LTE terminal TD-SCDMA) and the 3G network of EVDO technology covers and number of users also will continue steady-state growth.

Existing dormancy method has only single park mode, does not namely have moment of transfer of data to close the power supply (namely fully down) of wireless transmit/receive units, enters sleep pattern, and all types of terminal all adopts with a kind of park mode and carries out dormancy.Along with the variation of terminal type, for the low-power consumption park mode different requirements has been proposed also.Dissimilar terminals is not quite similar for the requirement of low-power consumption.For example: for the single mode data card, have only module of LTE, just can be electric to reduce power consumption fully down when the LTE module does not need work; For multimode data card, multi mode terminal etc., LTE may and the 2G/3G module between some couplings are arranged, global Subscriber Identity Module (Universal Subscriber Identity Module for example, USIM) agency, when the LTE module did not need work, other modules may be still in running order, and this moment, the LTE module just can not be descended fully; For CPE and MiFi, the LTE module also needs to communicate with the WIFI module (for example transfer WIFI data), thus the LTE module closable module is still less can not descend electricity and dormancy fully equally the time.

In a word, for dissimilar LTE terminals, single park mode can't satisfy the low-power consumption demand of all terminals, the low-power consumption demand that need have a kind of dormancy method can provide multiple park mode to solve different terminals.

Summary of the invention

The invention provides a kind of terminal sleeping method and terminal, can't satisfy dissimilar LTE terminals, the problem of low-power consumption demand under different application scenarioss to solve single park mode.

In order to address the above problem, the invention discloses a kind of terminal sleeping method, comprising:

Judge whether terminal satisfies the dormancy condition;

When described terminal satisfies the dormancy condition, obtain the park mode corresponding with the terminal type of described terminal; Described terminal type comprises: single-mode terminal, first kind multimode terminal and the second type multimode terminal, wherein, power mode under the corresponding senior compacting instruction set processor of described single-mode terminal type, the corresponding senior compacting instruction set processor frequency reducing pattern of first kind multimode terminal, the corresponding senior compacting instruction set processor normal frequency pattern of the second type multimode terminal;

Carrying out dormancy according to the described park mode that obtains handles.

Alternatively, describedly judge that whether described terminal satisfies the dormancy condition, comprising:

Whether the senior compacting instruction set processor of judging described terminal satisfies the dormancy condition.

Alternatively, describedly judge that whether the senior compacting instruction set processor of described terminal satisfies the dormancy condition, comprising:

Judge whether the Long Term Evolution business of senior compacting instruction set processor in current discontinuous receiving cycle of described terminal is finished;

When the Long Term Evolution business of senior compacting instruction set processor in current discontinuous receiving cycle of described terminal finished, judge that the senior compacting instruction set processor of described terminal satisfies the dormancy condition;

When the Long Term Evolution business of senior compacting instruction set processor in current discontinuous receiving cycle of described terminal imperfect tense, judge that the senior compacting instruction set processor of described terminal does not satisfy the dormancy condition.

Alternatively, the described park mode that described foundation is obtained carries out dormancy to be handled, and comprising:

When described park mode is under the senior compacting instruction set processor during power mode, close the power supply of radio-frequency module, field programmable gate array, digital signal processor and the senior compacting instruction set processor of described terminal, make the Double Data Rate synchronous DRAM of described terminal enter the self-refresh battery saving mode;

When described park mode is senior compacting instruction set processor frequency reducing pattern, close the power supply of radio-frequency module, field programmable gate array and the digital signal processor of described terminal, control the senior compacting instruction set processor frequency reducing operation of described terminal, stop to dispatch the protocol stack relevant with Long Term Evolution in the described senior compacting instruction set processor, the Double Data Rate synchronous DRAM of described terminal is normally moved;

When described park mode is senior compacting instruction set processor normal frequency pattern, close the power supply of radio-frequency module, field programmable gate array and the digital signal processor of described terminal, control the senior compacting instruction set processor normal frequency operation of described terminal, stop to dispatch the protocol stack relevant with Long Term Evolution in the described senior compacting instruction set processor, the Double Data Rate synchronous DRAM of described terminal is normally moved.

Alternatively, the described park mode that described foundation is obtained carries out before the dormancy processing, and described method also comprises:

Calculate the time that current discontinuous receiving cycle begins apart from next discontinuous receiving cycle, and the described time that will calculate is as dormancy time;

Carry out dormancy according to the described park mode that obtains and handle, comprising:

Carrying out dormancy according to the described park mode that obtains in described dormancy time handles.

The invention also discloses a kind of terminal, comprising:

Judge module is used for judging whether to satisfy the dormancy condition;

Acquisition module is used for obtaining the park mode corresponding with the terminal type of described terminal when satisfying the dormancy condition; Described terminal type comprises: single-mode terminal, first kind multimode terminal and the second type multimode terminal, power mode under the corresponding senior compacting instruction set processor of described single-mode terminal type, the corresponding senior compacting instruction set processor frequency reducing pattern of first kind multimode terminal, the corresponding senior compacting instruction set processor normal frequency pattern of the second type multimode terminal;

Processing module is used for carrying out dormancy according to the described park mode that obtains and handles.

Alternatively, described judge module, concrete being used for judges whether the senior compacting instruction set processor of described terminal satisfies the dormancy condition.

Alternatively, described judge module comprises:

Professional judgement submodule is used for judging whether the senior compacting instruction set processor of described terminal is finished in the Long Term Evolution business of current discontinuous receiving cycle;

First decision sub-module is used for senior compacting instruction set processor when described terminal when the Long Term Evolution business of current discontinuous receiving cycle is finished, and judges that the senior compacting instruction set processor of described terminal satisfies the dormancy condition;

Second decision sub-module, be used for when the senior compacting instruction set processor of described terminal in the Long Term Evolution business of current discontinuous receiving cycle imperfect tense, judge that the senior compacting instruction set processor of described terminal does not satisfy the dormancy condition.

Alternatively, described processing module comprises:

Following electric treatment submodule, be used for when described park mode be under the senior compacting instruction set processor during power mode, close the power supply of radio-frequency module, field programmable gate array, digital signal processor and the senior compacting instruction set processor of described terminal, make the Double Data Rate synchronous DRAM of described terminal enter the self-refresh battery saving mode;

The down conversion process submodule, be used for when described park mode is senior compacting instruction set processor frequency reducing pattern, close the power supply of radio-frequency module, field programmable gate array and the digital signal processor of described terminal, control the senior compacting instruction set processor frequency reducing operation of described terminal, stop to dispatch the protocol stack relevant with Long Term Evolution in the described senior compacting instruction set processor, the Double Data Rate synchronous DRAM of described terminal is normally moved;

The normal process submodule, be used for when described park mode is senior compacting instruction set processor normal frequency pattern, close the power supply of radio-frequency module, field programmable gate array and the digital signal processor of described terminal, control the senior compacting instruction set processor normal frequency operation of described terminal, stop to dispatch the protocol stack relevant with Long Term Evolution in the described senior compacting instruction set processor, the Double Data Rate synchronous DRAM of described terminal is normally moved.

Alternatively, described terminal also comprises:

Computing module be used for calculating the time that current discontinuous receiving cycle begins apart from next discontinuous receiving cycle, and the described time that will calculate is as dormancy time;

Described processing module, concrete being used for carried out the dormancy processing according to the described park mode that obtains in described dormancy time.

Compared with prior art, the present invention includes following advantage:

The present invention can select corresponding park mode according to the terminal type of terminal, when terminal type is single-mode terminal, selects power mode under the senior compacting instruction set processor; When terminal type is first kind multimode terminal, select senior compacting instruction set processor frequency reducing pattern; When terminal type is the second type multimode terminal, select senior compacting instruction set processor normal frequency pattern; When terminal satisfied the dormancy condition, control terminal carries out corresponding dormancy according to selected park mode to be handled then.The low-power consumption dormancy demand difference of dissimilar terminals, the present invention can select different park modes to carry out the dormancy processing according to different terminal types, the low-power consumption demand that therefore can adapt to different types of terminals greatly reduces the power consumption of whole terminal, has improved the stand-by time of terminal.

Description of drawings

Fig. 1 is the schematic diagram of terminal architecture in the embodiment of the invention;

Fig. 2 is the flow chart of a kind of terminal sleeping method of the embodiment of the invention;

Fig. 3 is the flow chart of a kind of terminal sleeping method of another embodiment of the present invention;

Fig. 4 is embodiment of the invention low-power consumption DRX scheduling flow figure;

Fig. 5 is the structured flowchart of a kind of terminal of the embodiment of the invention;

Fig. 6 is the structured flowchart of a kind of terminal of another embodiment of the present invention.

Embodiment

For above-mentioned purpose of the present invention, feature and advantage can be become apparent more, the present invention is further detailed explanation below in conjunction with the drawings and specific embodiments.

The disclosed a kind of terminal sleeping method of the embodiment of the invention and terminal, the terminal architecture that relates to as shown in Figure 1.Wherein, the baseband chip of terminal has partly comprised senior compacting instruction set processor (AdvancedReduced Instruction Set Computing Machines, ARM), digital signal processor (DigitalSignal Processor, DSP), field programmable gate array (Field-Programmable Gate Array, FPGA) and power management module (Phasor Measurement Unit, PMU).Wherein ARM realizes man-machine interface (Man Machine Interface, MMI) and function such as LTE protocol stack processing, DSP is responsible for control and radio frequency (the Radio Frequency of physical layer correlated process, RF) control of unit, FPGA is responsible for the encoding and decoding of baseband chip data, and PMU is responsible for the power management of whole baseband chip.And the clock of system has two, and one is high-frequency work clock (TCXO), and another is frequency reference clock (RTC).

Introduce a kind of terminal sleeping method disclosed by the invention and terminal in detail below by enumerating several specific embodiments.

With reference to Fig. 2, show the flow chart of a kind of terminal sleeping method of the present invention, present embodiment specifically can may further comprise the steps:

Step 100 judges whether terminal satisfies the dormancy condition.

Terminal is carried out dormancy under the situation that satisfies the dormancy condition, the dormancy condition can not carried out transfer of data for terminal, and data are managed business and finished etc.

Step 102 when terminal satisfies the dormancy condition, is obtained the park mode corresponding with the terminal type of terminal.

Terminal type comprises: single-mode terminal, first kind multimode terminal and the second type multimode terminal, wherein, power mode under the single-mode terminal type corresponding A RM, first kind multimode terminal corresponding A RM frequency reducing pattern, the second type multimode terminal corresponding A RM normal frequency pattern.Terminal type has single-mode terminal, first kind multimode terminal and the second type multimode terminal in the present embodiment, and wherein, single-mode terminal has only a LTE module, and when the LTE module did not need work, terminal is electricity fully down, for example: the single mode data card; In the LTE baseband chip of first kind multimode terminal a plurality of modules are arranged, and between the 2G/3G module in these modules and on the terminal some couplings are arranged, wait some shirtsleeve operations but only limit to the USIM agency, for example: multimode data card, multi mode terminal etc.

In the LTE baseband chip of the second type multimode terminal a plurality of modules are arranged equally, these modules not only need and the 2G/3G module between coupled relation is arranged, and need carry out communication with the WIFI module, finish the transfer of WIFI data, for example: CPE, MiFi etc.Wherein the CPE customer terminal equipment often is laid on optical fiber and inserts the professional client of the visitor of family, is used for providing the client's of family cable broadband, professional comprehensive access such as IPTV, VOIP.CPE first line of a couplet PON transmission network, the concrete business device of the second line of a couplet is finished being connected of access network and subscriber equipment.MiFi is a portable broadband wireless device, is that the 3G signal is converted into the Wifi signal during its work, and the MiFi sizableness integrates modulator-demodulator, router and access point three function in a credit card.Internal modem can insert a wireless signal, and internal router can be shared this and be connected between a plurality of users and wireless device.MiFi is also sometimes referred to as individual's " focus ", and it can make the setting up procedure of small-sized local area network (LAN) simplify.MiFi can support 5 users simultaneously, comprises that the equipment of digital camera, notebook, recreation and multimedia player support Wi-Fi can be surfed the Net.MiFi equipment can be used to arrange particular network, connects by honeycomb and realizes that shared network connects in any place.

The above-mentioned dissimilar corresponding different park mode of terminal in the present embodiment, particularly, power mode under the single-mode terminal type corresponding A RM, first kind multimode terminal corresponding A RM frequency reducing pattern, the second type multimode terminal corresponding A RM normal frequency pattern.Namely when the terminal type of terminal was single-mode terminal, the park mode corresponding with terminal type that gets access to was power mode under the ARM; When the terminal type of terminal was first multimode terminal, the park mode corresponding with terminal type that gets access to was ARM frequency reducing pattern; When the terminal type of terminal was second multimode terminal, the park mode corresponding with terminal type that gets access to was ARM normal frequency pattern.

Step 104 is carried out dormancy according to the park mode that obtains and is handled.

When terminal satisfies the dormancy condition, show that terminal can carry out dormancy, can carry out dormancy according to the park mode corresponding with terminal type terminal that obtain in the step 102 and handle.For example, the park mode that obtains is power mode under the ARM, then makes the ARM of terminal fully down; The park mode that obtains is then to make the ARM frequency reducing operation of terminal; The park mode that obtains is ARM normal frequency pattern, then makes the ARM normal frequency operation of terminal.

The terminal sleeping method of present embodiment, the low-power consumption dormancy demand difference of dissimilar terminals, when present embodiment satisfies the dormancy condition when terminal, obtain the park mode corresponding with the terminal type of terminal, and carry out dormancy according to the park mode that obtains and handle, the terminal sleeping method that is embodiment can select different park modes to carry out the dormancy processing according to different terminal types, the low-power consumption demand that therefore can adapt to different types of terminals, greatly reduce the power consumption of whole terminal, improved the stand-by time of terminal.

Based on the description of said method embodiment, the present invention proposes a kind of preferred embodiment, specific as follows: with reference to Fig. 3, show the flow chart of a kind of terminal sleeping method of the present invention, present embodiment specifically can may further comprise the steps:

Step 200 judges whether terminal satisfies the dormancy condition.

After the physical layer of terminal satisfied the dormancy condition, DSP can send sleep request to ARM, and ARM is after the sleep request that receives the DSP transmission, and ARM judges whether self satisfies the dormancy condition.Judge in the present embodiment that whether terminal satisfies the dormancy condition, specifically can comprise: whether the ARM that judges terminal satisfies the dormancy condition.Specifically can whether finish by the LTE business of ARM in current DRX cycle of judging terminal, whether the ARM that judges terminal satisfies the dormancy condition, when the Long Term Evolution business of the ARM of terminal in current DRX cycle finished, judge that the ARM of terminal satisfies the dormancy condition; When the LTE business of the ARM of terminal in current DRX cycle imperfect tense, judge that the ARM of terminal does not satisfy the dormancy condition.

Step 202 when terminal satisfies the dormancy condition, is obtained the park mode corresponding with the terminal type of terminal.

Terminal type comprises: single-mode terminal, first kind multimode terminal and the second type multimode terminal, wherein, power mode under the single-mode terminal type corresponding A RM, first kind multimode terminal corresponding A RM frequency reducing pattern, the second type multimode terminal corresponding A RM normal frequency pattern; Since dissimilar terminals is for the demand difference of low-power consumption, and ARM is responsible for the low-power consumption management of whole LTE baseband chip and other modules, therefore the low-power consumption difference of different terminals type is mainly reflected on the sleep mode of ARM, present embodiment is according to the difference of ARM sleep mode, proposed multiple different terminal dormancy mode, having comprised: power mode, ARM frequency reducing pattern and ARM normal frequency pattern under the ARM.The corresponding different park mode of different terminal type in the present embodiment, terminal can be obtained the park mode corresponding with the terminal type of terminal, and different park modes is specific as follows:

Power mode under the ARM is used to indicate when terminal type is single-mode terminal, makes the ARM of terminal fully down.Single-mode terminal has only a LTE module, therefore when the LTE module does not need work, can make LTE module electricity fully down, and therefore for single-mode terminal, selecting corresponding with it park mode is power mode under the ARM.

ARM frequency reducing pattern is used to indicate when terminal type is first kind multimode terminal, makes the ARM frequency reducing operation of terminal.In the LTE baseband chip of first kind multimode terminal a plurality of modules are arranged, and some couplings (for example USIM agency) are arranged between the 2G/3G module in these modules and on the terminal, when the LTE module does not need work, other modules are still in running order, but only limit to the USIM agency and wait some shirtsleeve operations, this moment, the LTE module can not be descended fully; And ARM just can satisfy USIM agency's operation in lower frequency, and therefore for first kind multimode terminal, selecting corresponding with it park mode is ARM frequency reducing pattern.

ARM normal frequency pattern is used to indicate when terminal type is the second type multimode terminal, makes the ARM normal frequency operation of terminal.In the LTE baseband chip of the second type multimode terminal a plurality of modules are arranged equally, these modules not only need and the 2G/3G module between coupled relation is arranged, and need carry out communication with the WIFI module, and finish the transfer of WIFI data, this moment, the LTE module can not be descended equally fully; And the transfer of WIFI data needs ARM to keep normal frequency just can finish, and therefore for the second type multimode terminal, selecting corresponding with it park mode is ARM normal frequency pattern.

Step 204 is calculated the time that current DRX cycle begins apart from next DRX cycle, and with time of calculating as dormancy time.

Terminal is at the LTE of current DRX cycle correlated process (Paging, cell measurement, cell detection, up-downgoing data service etc.) finished after, (be according to configurations such as Paging cycle during RRC_IDLE according to the DRX relevant configuration, be according to DRX Setup relevant parameter configuration during RRC_CONNECT) calculate the time that the current time begins apart from next DRX cycle, and with time of calculating as dormancy time.

Step 206 is carried out dormancy according to the park mode that obtains and is handled in dormancy time.

Can in dormancy time, carry out dormancy according to the park mode that obtains in the present embodiment and handle, wherein carry out dormancy according to the park mode that obtains and handle, specifically can comprise following substep:

Substep 1, when park mode is under the ARM during power mode, the power supply of RF unit, FPGA, DSP and the ARM that closes a terminal, (Double DataRate DDR) enters the self-refresh battery saving mode to make the Double Data Rate synchronous DRAM of terminal; The park mode that obtains is under the ARM during power mode, illustrates that terminal type is single-mode terminal, and when satisfying the dormancy condition, the LTE module is electricity fully down, the power supply of RF unit, FPGA, DSP and ARM on the LTE baseband chip of namely closing a terminal.

Substep 2, when park mode is ARM frequency reducing pattern, the power supply of RF unit, FPGA and the DSP that closes a terminal, the ARM frequency reducing operation of control terminal stops to dispatch protocol stack relevant with LTE among the ARM, and the DDR of terminal is normally moved; When the park mode that obtains is ARM frequency reducing pattern, illustrate that terminal type is first kind multimode terminal, when satisfying the dormancy condition, ARM frequency reducing operation, close the power supply of whole RF unit, FPGA and DSP, stop to dispatch protocol stack relevant with LTE among the ARM, the DDR of terminal is normally moved.

Substep 3, when park mode is ARM normal frequency pattern, the power supply of RF unit, FPGA and the DSP that closes a terminal, the ARM normal frequency operation of control terminal stops to dispatch protocol stack relevant with LTE among the ARM, and the DDR of terminal is normally moved.When the park mode that obtains is ARM normal frequency pattern, illustrate that terminal type is first kind multimode terminal, when satisfying the dormancy condition, the operation of control ARM normal frequency stops to dispatch protocol stack relevant with LTE among the ARM, and the DDR of terminal is normally moved.

Above-mentioned three sub-steps have been described the corresponding dormancy of three kinds of park modes (power mode, ARM frequency reducing pattern and ARM normal frequency pattern under the ARM) and have been handled, and can understand three's difference with reference to following table 1 better.

Three kinds of park mode contrasts of table 1

As can be seen from Table 1, during the dormancy of power mode, ARM frequency reducing pattern and ARM normal frequency pattern is handled under the ARM, all closed the power supply of RF unit, FPGA and DSP, the power supply of RF unit, FPGA and the DSP that closes a terminal in the present embodiment, specifically can realize in the following manner:

At first, the DSP of terminal calculates time that the next discontinuous receiving cycle of current distance begins as dormancy time; Secondly, the DSP of terminal closes the power supply of RF unit, and according to dormancy time configuration PMU, PMU uses RTC to carry out the dormancy counting according to dormancy time; At last, after the DSP of terminal closed the power supply of FPGA, the DSP powered-down entered resting state.

In the present embodiment, though the sleep mode of terminal type and selection is different, for terminal, when dormancy time finishes, all need to be waken up.Wake terminal in the present embodiment up and specifically can comprise following substep:

Substep 1, PMU withdraw from counting and send hardware interrupts message and wake ARM up.

After substep 2, ARM receive hardware interrupts message, withdraw from current park mode, and wake DSP up.

Substep 3, DSP withdraws from park mode, and recovers the power supply of FPGA and RF unit.

Substep 4, DSP send to wake up and indicate message to ARM, and so far terminal is waken up from resting state, begins the LTE process in the next DRX cycle.

In the LTE system, according to whether having the Radio Resource control connection, the residing state of UE can be divided into the off-grid state, idle condition (RRC_IDLE) and connection status (RRC_CONNECT).The DRX technology under idle condition (RRC_IDLE) and the connection status (RRC_CONNECT) there have been clear and definite statement and requirement in the LTE related protocol of 3GPP at present, namely when idle condition, UE is according to the paging cycle that carries among the Sib2, parameters such as nB and UE ID, the PDCCH of the monitoring P-RNTI scrambling of property performance period.When connection status, RRC issues the configuration of the various DRX parameters of signaling UE and timer, and UE comes execution cycle property monitoring PDCCH by the cooperation of various timers.

Need to prove that the terminal in the embodiment of the invention can comprise UE or have other equipment of identical identity function.

Below in conjunction with RRC_IDLE shown in Figure 4 and the low-power consumption DRX scheduling flow figure under the RRC_CONNECT, dormancy method shown in Figure 3 is described, specific as follows:

Step 1, ARM selects park mode according to terminal type.

When terminal type is single-mode terminal, select power mode under the ARM, ARM descends electricity to enter resting state fully; When terminal type is first kind multimode terminal, select ARM frequency reducing pattern, frequency reducing moved after ARM entered resting state; When terminal type is the second type multimode terminal, select ARM normal frequency pattern, normal frequency was moved after ARM entered resting state.

Step 2, LTE PHY finishes LTE correlated process in the current DRX cycle, and calculates time that the current time begins apart from next DRX cycle as dormancy time.

Because DSP is to finish in the relevant work of LTE physical layer with FPGA, therefore both are synthesized LTE PHY.Specifically be at the LTE of current DRX cycle correlated process (Paging by DSP, cell measurement, cell detection, up-downgoing data service etc.) finished after, (be according to configurations such as Paging cycle during RRC_IDLE according to the DRX relevant configuration, be according to DRXSetup relevant parameter configuration during RRC_CONNECT) calculate time that the current time begins apart from next DRX cycle as dormancy time, i.e. T_Sleep, and send sleep request message (SLEEP_REQUEST message) to ARM.

Step 3, ARM receives the sleep request that LTE PHY sends;

Specifically be to send sleep request (Sleep Request) by the DSP among the LTE PHY, ARM receives the sleep request that DSP sends.

Step 4, ARM judges whether this ARM can carry out dormancy.

ARM judges whether this ARM can carry out dormancy, and namely ARM judges whether self satisfies the dormancy condition after receiving the sleep request of LTE PHY transmission, if ARM satisfies the dormancy condition, just dormancy can be carried out, if ARM does not satisfy the dormancy condition, then dormancy can not be carried out.

Step 5, ARM sends the sleep acknowledge message to, LTE PHY.After ARM judges self (this ARM) can carry out dormancy, send sleep acknowledge message (Sleep Confirm) to LTE PHY.

Step 6, LTE PHY closes radio frequency after receiving the sleep acknowledge message of ARM transmission.Specifically be after the sleep acknowledge message by the reception of the DSP among LTE PHY ARM transmission, close the RF unit.

Step 7, LTE PHY disposes PMU according to dormancy time.Specifically be by the configuration of the DSP among LTE PHY PMU.

Step 8, PMU begins the dormancy counting.PMU uses RTC to carry out the dormancy counting in dormancy time according to the dormancy time of DSP configuration.

Step 9, LTE PHY closes FPGA and DSP, and LTE PHY enters resting state.

Step 10, ARM judges whether LTE PHY enters dormancy.

Step 11, ARM carries out dormancy according to the park mode of selecting after LTE PHY enters dormancy.ARM enters corresponding resting state according to the park mode of selecting in the step 1 after LTE PHY enters dormancy, so far, whole system enters the low-power consumption resting state.

Step 12, dormancy time to or rest period between when being waken up in advance, PMU sends hardware interrupts message to ARM.Dormancy time to or rest period between when being waken up in advance by AP or usb data, PMU withdraws from counting, and sends hardware interrupts message and wake ARM up.

Step 13, ARM withdraws from current park mode after receiving the hardware terminal message of PMU transmission.

Step 14, ARM sends and wakes DSP message up to LTE PHY.、

Step 15, LTE PHY wakes FPGA up after receiving and waking DSP message up, opens radio-frequency module.After LTE PHY received and wakes DSP message up, DSP withdrawed from park mode, wakes FPGA up, and recovered the RF unit, namely opened the power supply of FPGA and RF unit.

Step 16, LTE PHY sends PHY and wakes sign message up to ARM.After LTE PHY recovered (DSP and FPGA all are waken up) fully, LTE PHY sent PHY and wakes sign (WAKEUP_INDICATION) message up to ARM, and so far terminal is waken up from resting state, begins the Long Term Evolution process in the next discontinuous receiving cycle.

Based on the description of said method embodiment, the invention allows for corresponding terminal embodiment, specific as follows:

With reference to Fig. 5, show the structured flowchart of a kind of terminal of the present invention, the terminal of present embodiment specifically can comprise: judge module 10, acquisition module 12 and processing module 14.

Introduce the function of each module and the relation between each module below respectively in detail.

Judge module 10 judge modules 10 are used for judging whether terminal satisfies the dormancy condition; Terminal is carried out dormancy under the situation that satisfies the dormancy condition, judge module 10 is used for the dormancy condition judged and can carry out transfer of data or data for terminal and manage business and finish etc. in the present embodiment.Acquisition module 12 links to each other with judge module 10, and acquisition module 12 is used for obtaining the park mode corresponding with the terminal type of terminal when the dormancy condition is satisfied in judge module 10 judgements; Terminal type comprises: single-mode terminal, first kind multimode terminal and the second type multimode terminal, power mode under the single-mode terminal type corresponding A RM, first kind multimode terminal corresponding A RM frequency reducing pattern, the second type multimode terminal corresponding A RM normal frequency pattern.Detailed explanation to single-mode terminal, first kind multimode terminal and the second type multimode terminal can be referring to the associated description among Fig. 2 embodiment, and present embodiment is not given unnecessary details at this.

Processing module 14 links to each other with acquisition module 12, and processing module 14 is used for carrying out dormancy according to the park mode that acquisition module 12 obtains and handles.Judge when satisfying the dormancy condition that when the judge module 10 of terminal show that terminal can carry out dormancy, processing module 14 can be carried out dormancy according to the park mode corresponding with terminal type terminal that obtain in the acquisition module 12 and be handled.For example, the park mode that acquisition module 12 obtains is power mode under the ARM, and it is following fully that then processing module 14 makes the ARM of terminal; The park mode that acquisition module 12 obtains is that then processing module 14 makes the ARM frequency reducing operation of terminal; The park mode that acquisition module 12 obtains is ARM normal frequency pattern, and then processing module 14 makes the ARM normal frequency operation of terminal.

The terminal of present embodiment realizes that by adopting above-mentioned module the dormancy of terminal is identical with the realization mechanism of above-mentioned correlation technique embodiment, can not repeat them here with reference to the record of figure 2 correlation technique embodiment in detail.

The terminal of present embodiment, by adopting above-mentioned module can realize the low-power consumption dormancy demand difference of dissimilar terminals, when present embodiment judges that when judge module 10 terminal satisfies the dormancy condition, acquisition module 12 obtains the park mode corresponding with the terminal type of terminal, the park mode that processing module 14 is obtained according to acquisition module 12 carries out dormancy to be handled, be that terminal in the present embodiment can be selected different park modes carry out dormancy according to different terminal type to handle, the low-power consumption demand that therefore can adapt to different types of terminals, greatly reduce the power consumption of whole terminal, improved the stand-by time of terminal.

With reference to Fig. 6, show the structured flowchart of a kind of terminal of the present invention, the terminal of present embodiment specifically can comprise: judge module 20, acquisition module 22, computing module 24 and processing module 26.

Introduce the function of each module and the relation between each module below respectively in detail.

Judge module 20 links to each other with computing module 24 with acquisition module 22, and judge module 20 is used for judging whether to satisfy the dormancy condition; Judge module 20 specifically can be used for judging whether the senior compacting instruction set processor of terminal satisfies the dormancy condition in the present embodiment.

Judge module 20 specifically can comprise professional judge submodule 201, first decision sub-module 202 and second decision sub-module 203.Business judges that submodule 201 is used for judging whether the senior compacting instruction set processor of terminal is finished in the LTE of current DRX cycle business; First decision sub-module 202 judges that with business submodule 201 is connected, and the ARM that is used for judging submodule 201 judgements and definite terminal when business judges that the ARM of terminal satisfies the dormancy condition when the LTE of current DRX cycle business is finished.Second decision sub-module 203 judges that with professional submodule 201 is connected, be used for when professional judge that submodule 201 is judged and the ARM of definite terminal at the LTE of current DRX cycle imperfect tense, the ARM of judgement terminal does not satisfy the dormancy condition.

Acquisition module 22 links to each other with judge module 20, for example first decision sub-module 202 concrete and in the judge module 20 is connected, acquisition module 22 is used for obtaining the park mode corresponding with the terminal type of terminal when first decision sub-module 202 determines that terminal satisfies the dormancy condition; Terminal type comprises: single-mode terminal, first kind multimode terminal and the second type multimode terminal, power mode under the corresponding senior compacting instruction set processor of single-mode terminal type, the corresponding senior compacting instruction set processor frequency reducing pattern of first kind multimode terminal, the corresponding senior compacting instruction set processor normal frequency pattern of the second type multimode terminal; Computing module 24 links to each other with judge module 20, for example first decision sub-module 202 concrete and in the judge module 20 is connected, computing module 24 is used for when first decision sub-module 202 determines that terminal satisfies the dormancy condition, calculate the time that current DRX cycle begins apart from next DRX cycle, and with time of calculating as dormancy time.Processing module 26 links to each other with computing module 24 with acquisition module 22 respectively, and processing module 26 is used for carrying out dormancy according to the park mode that acquisition module 22 obtains in the dormancy time that computing module 24 calculates and handles.

Processing module 26 specifically can comprise in the present embodiment: following electric treatment submodule 261, down conversion process submodule 262 and normal process submodule 263.Wherein descend electric treatment submodule 261 to link to each other with computing module 24 with acquisition module 22 respectively, following electric treatment submodule 261 be used for when park mode that acquisition module 22 obtains be under the ARM during power mode, in the dormancy time that computing module 24 calculates, the power supply of RF unit, FPGA, DSP and the ARM that closes a terminal makes the DDR of terminal enter the self-refresh battery saving mode; Down conversion process submodule 262 links to each other with computing module 24 with acquisition module 22 respectively, when down conversion process submodule 262 is ARM frequency reducing pattern for the park mode that obtains when acquisition module 22, in the dormancy time that computing module 24 calculates, the power supply of RF unit, FPGA and the DSP that closes a terminal, the ARM frequency reducing operation of control terminal, stop to dispatch protocol stack relevant with LTE among the ARM, the DDR of terminal is normally moved; Normal process submodule 263 links to each other with computing module 24 with acquisition module 22 respectively, when normal process submodule 263 is ARM normal frequency pattern for the park mode that obtains when acquisition module 22, in the dormancy time that computing module 24 calculates, the power supply of RF unit, FPGA and the DSP that closes a terminal, the ARM normal frequency operation of control terminal, stop to dispatch protocol stack relevant with LTE among the ARM, the DDR of terminal is normally moved.

The terminal of present embodiment realizes that by adopting above-mentioned module the dormancy of terminal is identical with the realization mechanism of above-mentioned correlation technique embodiment, can not repeat them here with reference to the record of figure 3 correlation technique embodiment in detail.

The terminal of present embodiment, by adopting above-mentioned module to realize when judge module 20 judges that terminal satisfies the dormancy condition, acquisition module 12 obtains the park mode corresponding with the terminal type of terminal, computing module 24 calculates the time that current DRX cycle begins apart from next DRX cycle, and with time of calculating as dormancy time, the park mode that processing module 26 is obtained according to acquisition module 22 carries out dormancy in the dormancy time that computing module 24 calculates handles.Terminal in the present embodiment can select different park modes to carry out the dormancy processing according to different terminal types, therefore can adapt to the low-power consumption demand of different types of terminals, greatly reduces the power consumption of whole terminal, has improved the stand-by time of terminal.

Each embodiment in this specification all adopts the mode of going forward one by one to describe, and what each embodiment stressed is and the difference of other embodiment that identical similar part is mutually referring to getting final product between each embodiment.

More than to a kind of terminal sleeping method provided by the present invention and terminal, be described in detail, used specific case herein principle of the present invention and execution mode are set forth, the explanation of above embodiment just is used for helping to understand method of the present invention and core concept thereof; Simultaneously, for one of ordinary skill in the art, according to thought of the present invention, the part that all can change in specific embodiments and applications, to sum up, this description should not be construed as limitation of the present invention.

Claims (10)

1. a terminal sleeping method is characterized in that, comprising:

Judge whether terminal satisfies the dormancy condition;

When described terminal satisfies the dormancy condition, obtain the park mode corresponding with the terminal type of described terminal; Described terminal type comprises: single-mode terminal, first kind multimode terminal and the second type multimode terminal, wherein, power mode under the corresponding senior compacting instruction set processor of described single-mode terminal type, the corresponding senior compacting instruction set processor frequency reducing pattern of first kind multimode terminal, the corresponding senior compacting instruction set processor normal frequency pattern of the second type multimode terminal;

Carrying out dormancy according to the described park mode that obtains handles.

2. method according to claim 1 is characterized in that, describedly judges that whether described terminal satisfies the dormancy condition, comprising:

Whether the senior compacting instruction set processor of judging described terminal satisfies the dormancy condition.

3. method according to claim 2 is characterized in that, describedly judges that whether the senior compacting instruction set processor of described terminal satisfies the dormancy condition, comprising:

Judge whether the Long Term Evolution business of senior compacting instruction set processor in current discontinuous receiving cycle of described terminal is finished;

When the Long Term Evolution business of senior compacting instruction set processor in current discontinuous receiving cycle of described terminal finished, judge that the senior compacting instruction set processor of described terminal satisfies the dormancy condition;

When the Long Term Evolution business of senior compacting instruction set processor in current discontinuous receiving cycle of described terminal imperfect tense, judge that the senior compacting instruction set processor of described terminal does not satisfy the dormancy condition.

4. method according to claim 1 is characterized in that, the described park mode that described foundation is obtained carries out dormancy to be handled, and comprising:

When described park mode is under the senior compacting instruction set processor during power mode, close the power supply of radio-frequency module, field programmable gate array, digital signal processor and the senior compacting instruction set processor of described terminal, make the Double Data Rate synchronous DRAM of described terminal enter the self-refresh battery saving mode;

When described park mode is senior compacting instruction set processor frequency reducing pattern, close the power supply of radio-frequency module, field programmable gate array and the digital signal processor of described terminal, control the senior compacting instruction set processor frequency reducing operation of described terminal, stop to dispatch the protocol stack relevant with Long Term Evolution in the described senior compacting instruction set processor, the Double Data Rate synchronous DRAM of described terminal is normally moved;

When described park mode is senior compacting instruction set processor normal frequency pattern, close the power supply of radio-frequency module, field programmable gate array and the digital signal processor of described terminal, control the senior compacting instruction set processor normal frequency operation of described terminal, stop to dispatch the protocol stack relevant with Long Term Evolution in the described senior compacting instruction set processor, the Double Data Rate synchronous DRAM of described terminal is normally moved.

5. according to the arbitrary described method of claim 1-4, it is characterized in that the described park mode that described foundation is obtained carries out before the dormancy processing, described method also comprises:

Calculate the time that current discontinuous receiving cycle begins apart from next discontinuous receiving cycle, and the described time that will calculate is as dormancy time;

Carry out dormancy according to the described park mode that obtains and handle, comprising:

Carrying out dormancy according to the described park mode that obtains in described dormancy time handles.

6. a terminal is characterized in that, comprising:

Judge module is used for judging whether to satisfy the dormancy condition;

Acquisition module is used for obtaining the park mode corresponding with the terminal type of described terminal when satisfying the dormancy condition; Described terminal type comprises: single-mode terminal, first kind multimode terminal and the second type multimode terminal, power mode under the corresponding senior compacting instruction set processor of described single-mode terminal type, the corresponding senior compacting instruction set processor frequency reducing pattern of first kind multimode terminal, the corresponding senior compacting instruction set processor normal frequency pattern of the second type multimode terminal;

Processing module is used for carrying out dormancy according to the described park mode that obtains and handles.

7. terminal according to claim 6 is characterized in that:

Described judge module, concrete being used for judges whether the senior compacting instruction set processor of described terminal satisfies the dormancy condition.

8. terminal according to claim 7 is characterized in that, described judge module comprises:

Professional judgement submodule is used for judging whether the senior compacting instruction set processor of described terminal is finished in the Long Term Evolution business of current discontinuous receiving cycle;

First decision sub-module is used for senior compacting instruction set processor when described terminal when the Long Term Evolution business of current discontinuous receiving cycle is finished, and judges that the senior compacting instruction set processor of described terminal satisfies the dormancy condition;

Second decision sub-module, be used for when the senior compacting instruction set processor of described terminal in the Long Term Evolution business of current discontinuous receiving cycle imperfect tense, judge that the senior compacting instruction set processor of described terminal does not satisfy the dormancy condition.

9. terminal according to claim 6 is characterized in that, described processing module comprises:

Following electric treatment submodule, be used for when described park mode be under the senior compacting instruction set processor during power mode, close the power supply of radio-frequency module, field programmable gate array, digital signal processor and the senior compacting instruction set processor of described terminal, make the Double Data Rate synchronous DRAM of described terminal enter the self-refresh battery saving mode;

The down conversion process submodule, be used for when described park mode is senior compacting instruction set processor frequency reducing pattern, close the power supply of radio-frequency module, field programmable gate array and the digital signal processor of described terminal, control the senior compacting instruction set processor frequency reducing operation of described terminal, stop to dispatch the protocol stack relevant with Long Term Evolution in the described senior compacting instruction set processor, the Double Data Rate synchronous DRAM of described terminal is normally moved;

The normal process submodule, be used for when described park mode is senior compacting instruction set processor normal frequency pattern, close the power supply of radio-frequency module, field programmable gate array and the digital signal processor of described terminal, control the senior compacting instruction set processor normal frequency operation of described terminal, stop to dispatch the protocol stack relevant with Long Term Evolution in the described senior compacting instruction set processor, the Double Data Rate synchronous DRAM of described terminal is normally moved.

10. terminal according to claim 6 is characterized in that, described terminal also comprises:

Computing module be used for calculating the time that current discontinuous receiving cycle begins apart from next discontinuous receiving cycle, and the described time that will calculate is as dormancy time;

Described processing module, concrete being used for carried out the dormancy processing according to the described park mode that obtains in described dormancy time.

Images