FI97597C - A method for reducing the power consumption of a radiotelephone in a mobile communication system - Google Patents

Description

97597

Method for reducing the power consumption of a radiotelephone in a mobile communication system - Förfarande för reducering av strömförbrukningen av en radiotelefon av ett mobililtelefonsystem 5

The present invention relates to a method for reducing the power consumption of a radiotelephone of a mobile communication system, the mobile communication system having a base station transmitting messages to the mobile stations containing synchronization information at the beginning of the message to synchronize the mobile station to the base station clock, and the mobile stations comprising receiving means for receiving and transmitting messages.

Cellular telephone systems such as GSM, AMPS, TACS and NETZ-C usually comprise several base stations, each serving a predetermined geographical area, i.e. a cell. Each base station sends messages to multiple mobile stations in the cell area. Mobile stations comprise a microprocessor and a transceiver and decoder controlled by it. In battery-powered mobile devices, the battery usually lasts about eight hours in standby mode and one to two hours in talk mode, when the phone sends and receives data and / or voice when it needs to be replaced or recharged. The GSM mobile communication system is known as idle mode, in which the telephone waits for an incoming paging message and listens to the parameters of a neighboring cell (system information message) and receives such messages. A paging message is a common concept in cellular mobile communication systems and it is an excitation by the base station to the mobile station that the base station informs the mobile station that a call is coming to the mobile station to connect the base station to establish a communication connection between the mobile station and the base station. Most of the messages sent by the base station to the mobile stations are mobile-specific, so only a small part of the messages sent by the base station are intended for a specific mobile station. In order to prevent the mobile station from continuously receiving and decoding all messages sent by the base station, EP 473 465 proposes to save power by detecting incoming messages to the mobile station in order to detect whether the received message is intended for another mobile station and, if so, reduces battery power. ) until the next message sent by the base station to that mobile station is expected to arrive. The power saving according to EP 473 465 is based on the reception of a two-part message, the first part of which indicates that the message is intended for another mobile station and that this message to another 2 97597 mobile station contains a second part which does not need to be received according to EP 473 465 is assigned to another mobile station. In this way, the mobile station can switch a large part of its receiving circuits to the power saving mode until the next message possibly addressed to the mobile station in question is expected to arrive. This power saving period is controlled by a timing circuit for which the start time of a new reception can be programmed.

In some cellular mobile telephone systems, a mobile station has to receive messages from one or more base stations in its coverage area.

10 In this case, the receiver is constantly on and consumes power continuously.

The Netz-C mobile communication system in use in Germany has a control channel with which messages are sent from the base station BS1-BS5 to the mobile station MS, as shown in Fig. 1a, and with which the base station transmits to the mobile station e.g. paging messages divided into 15 32 time slots 1-32, as shown in Figure Ib, with one control channel frame length of 2.4 s, thus comprising time slots of 75 ms. Some of these 32 time slots may be unused, or some base stations may be assigned multiple time slots (as indicated by the example for base station BS3 in Figure 1a), or each time slot in the frame may be assigned to a different base station. Thus, up to 32 base stations can be connected to one mobile station. The mobile station MS has to listen all the time to all the base stations BS1-BS4 from which it can receive messages, i.e. which are in the coverage area of the mobile station MS. The base station transmits two 37.5 ms messages in each control channel time slot, an access block and a handshake block. Each message is divided into 184 bits, 25 containing 70 data bits, 80 redundancy bits, and 34 synchronization bits. Synchro- I t:. ·; the tuning portion is divided into a 3 * 11 bit Barker code and one actual sync bit and comes at the beginning of the message before the data and redundancy bits, as shown in Figure Ib. Most other mobile communication systems, in addition to the Netz-C system, also have synchronization information at the beginning of the message. There are often situations in which the mobile station does not catch the synchronization information at the beginning of the message and then cannot receive the actual part of the message, i.e. the data and redundancy bits in Netz-C. However, the receiver is also on the message section, • ·: even if it cannot receive the message. In this case, the receiver consumes power unnecessarily, which shortens the battery life.

35

It is an object of the present invention to provide a method for reducing the power consumption of a radiotelephone. According to the invention, the receiver is switched to the power saving mode, i.e. completely switched off or to a low power consumption mode, during the reception of the message part of the message sent to it, if it did not receive the synchronization information at the beginning of the message. The invention is characterized in that when the mobile station fails to obtain the correct synchronization information from the message transmitted by the base station, at least a part of the receiver means 5 of the mobile station is switched to a power-saving state during the transmission of the rest of the message. It is essential, therefore, that at least some of the receiver means of the mobile station be switched to a power saving mode during the transmission of the rest of the message if for some reason the mobile station cannot receive the synchronization information at the beginning of the message transmitted by the base station. This failure can be due to a number of reasons that are not relevant to the invention. It may be that the reception of the synchronization information failed for some reason, or that the received synchronization information was incorrect, e.g., due to a disturbance in the transmission or radio channel. Reception of synchronization information may also fail if the reception level is too low during reception of synchronization information.

15

The method according to the invention does not require changes in the operation of the base station, but each receivable message is received (i.e. when the mobile station catches the synchronization information). Thus, the method according to the invention works fully within the framework of the system specifications.

20

Particularly in a Netz-C system, where control channel signaling is time shared between different base stations, it is quite common that 20-50% of the time slots are such that the mobile station does not receive the received synchronization information. In this case, at least part of the receiver can be switched to power saving mode for the duration of the message, whereby when the share of data and 25 redundancy bits in the Netz-C system is about 82%, a power saving of about 16-40% of the frame transmission time is achieved.

r · • · * ·: *: ‘: Switching the receiver to power save mode can be accomplished by switching to low power mode or completely turning off other reception-related parts of the mobile station except the synthesizer and the time determining the start of the next message, *; ·. counter. The settling time of the synthesizer is typically so long that it may not be possible to turn it off for one message. Alternatively, switching the receiver to the power saving mode can be accomplished by switching the low power mode or completely turning off the other receiving parts 35 of the mobile station except the time counter determining the beginning of the next message. This can be done in a system where the synthesizer start delay is significantly less than the message duration.

4,97597

The invention will now be described in more detail by way of example with reference to the accompanying drawings, in which Fig. 1a shows base station transmissions to a mobile station, Fig. 1b shows control channel frame formation in a NetzC system, Fig. 2 shows a flow chart of a method according to the invention, Fig. 3 shows a pulse diagram in power saving mode, Fig. 4a shows a simplified block diagram of the mobile station, and Fig. 4b shows a more detailed block diagram of the mobile station.

10

Figures 1a and Ib have already been described above, so the invention will be described in the following by way of example with reference mainly to Figures 2 to 4b. Figure 2 shows a flow chart of the operation of a mobile station in a typical cellular mobile communication system. When the mobile station is turned on 100, it performs initialization 101 and 15 sets the receiver on 102, whereby the receiver is in the listening mode 103 indicating whether it is receiving a message from the base station. When the mobile station receives a message from the base station, it is checked whether the message is acceptable 104. If not returned by listening 103, if so, synchronization of the message reception time counter 105 is started and the synchronization pattern 106, usually formed by the synchronization bits 20 at the beginning of the message, is read. if received, synchronizing the mobile station's message reception time counter 108 and reading the message data portion 109. If it is determined in step 107 that an acceptable synchronization pattern could not be received, at least a portion of the receiver is set to power save mode 110 (i.e., either completely off or low power). The time counter is used to check whether the time has elapsed by the remainder of the message 111 and, if so, to set: again the receiver 112.

'• I I * «» r I •

Figure 3 shows the location of the synchronization information S in the message M and the check pulse P given by the synchronization path timer block, as well as a pulse diagram showing whether the receiver is on H or off L. The pulse diagram shows that the reception is * * «*. in addition to pauses, the receiver is switched off according to the invention for the remainder of the message if the synchronization information at the beginning of the message could not be received correctly.

35

Figure 4a shows a simplified block diagram of a mobile station. Simply described, a mobile station comprises a radio frequency block 200 and a modem 201 operating therewith, comprising a synchronization 202 and a timing block 203. Substantially all functions of the communication device are controlled by a microprocessor 204. Power control of the radio frequency amplifier, i.e. control to turn the receiver on or off. may come from the modem's timing block (time counter) 203, which knows where the synchronization information comes in and how long the rest of the message lasts.

Alternatively, this information may be on the microprocessor 204, which then controls the start-up and shut-down of the receiver, or on both the modem timing block (time counter) 203 and the microprocessor 204, whereby the control of the receiver may come from either block.

Figure 4b shows a detailed block diagram of a mobile station, e.g. a mobile station used in a Netz-C system, to illustrate the functions. As shown in Figure 4a, the mobile station is divided into an RF block 200, a modem 201, which shows timing blocks 202 important for the invention that know the location of synchronization information in time and performs distance measurements, and a synchronization check block 15203. In addition, The mobile station shown in Figure 4b is an exemplary implementation of a mobile station, and thus the present invention is not limited to any particular type of mobile station. The Rf block 200 of the figure is an embodiment showing the frequency generators 20 205, 206 required to generate the frequencies required for the various functions and the frequency synthesizer 20 forming the frequency synthesizer 20 of the frequency blocker as a series loop. The Rf block 200 is further subdivided into receiving and transmitting branches, which are not described in more detail here, as their implementation and operation are known to those skilled in the art.

* »»::: The incoming message is passed from the receiving branch demodulator 210 to the modem and au-: 1 · 1: diol block, where the data signal is separated from the incoming signal in the multiplexer 211 to the data processing block 222, which performs e.g. checking the synchronization information, and an audio signal via amplifiers 212, 213 to the speaker 214. Information about receiving the correct or incorrect synchronization information is passed from the data processing block \. based on the reception start time) controls the receiver 35 on and off (to power save mode).

Microprocessor 204 may be a conventional processor comprising a central processing unit 215, ROM 216 and RAM 217, as well as timers 218 and an interface 219 to Rf block size 97597 and modem and audio block 210 via busses 220 to their microprocessor interfaces 221, 222.

The implementation of the method according to the invention thus does not require the addition of additional blocks, but can be implemented by means of already existing blocks 202, 203 by adding / programming additional functions to them. With the method according to the invention, e.g. in the Netz-C system, power savings of as much as 16-40% of the transmission time on the control channel can be achieved, i.e. the operating time of the mobile station with the same batteries in the listening mode is extended by up to 19-67%.

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Claims (8)

97597 A method for reducing the power consumption of a radiotelephone of a mobile communication system, the mobile communication system having a base station transmitting messages to the mobile stations containing synchronization information at the beginning of the message to synchronize the mobile station 5 with the base station clock. in obtaining the synchronization information (S) from the message transmitted by the base station, at least a part of the receiver means of the mobile station is switched to the power saving state during the transmission of the rest of the message 10. A method according to claim 1, characterized in that if the mobile station fails to obtain the correct synchronization information (S) from the message sent by the base station, other parts related to receiving the message are switched to a power saving mode except the mobile station time counter (203) during transmission. 3. A claim according to claim 1, which comprises the use of a mobile synchronization information (S) if the basic information is used to transmit a number of data to the mobile device (207) of the mobile device (207). 25 for the purposes of the rest of the legislation. A method according to claim 1, characterized in that if the mobile station fails to obtain the correct synchronization information (S) from the 20 messages sent by the base station, other parts related to receiving the message are switched to the power saving mode except the synthesizer (207-209) and the mobile station time counter (203). 4. An application is made for the use of patented data, which is based on a combination of synchronization information and the use of synchronization information (S). 30 * · · 5r For a particular embodiment of claims 1 to 3, the translation of the data on the account does not contain any synchronization information and the synchronization information (S) can be used. 1 i < Method according to one of the preceding claims, characterized in that the reason for the failure to obtain the correct synchronization information is that the reception of the synchronization information: .v (S) failed. • · · Method according to one of Claims 1 to 3, characterized in that the reason for the failure to obtain the correct synchronization information is that the synchronization information (S) was incorrect. Method according to one of Claims 1 to 3, characterized in that the reason for the failure to obtain the correct synchronization information is that the reception level during the reception of the synchronization information (S) was so low that the reception of the synchronization information (S) 35 failed. . 6. An embodiment according to claims 1 to 3, which is used to disclose the synchronization information in the form of a synchronization information and the synchronization information (S) may be omitted from the synchronization information (S). 97597 7. A patent according to claim 1, which comprises the use of a commercial base station for a mobile station and a control channel. A method according to claim 1, characterized in that the message arrives at the mobile station from the base station on the control channel. 97597 Method according to Claim 1, characterized in that the mobile communication system is Netz-C. 5 1. For example, the reduction of the structure of the mobile station from the mobile telephone system and the connection between the base station and the mobile station to the mobile station and the exchange synchronization information for the mobile synchronization ring from the mobile station to the base station handling of the base station from the base-10 station, the transmission of the base station to the mobile station is synchronized with the synchronization information (S) 2. A patent according to claim 1, which provides for the use of a mobile synchronization information (S) if the base station is used to transmit a number of data to a mobile device in the form of a mobile connection (20). the message from. 20 8. The first patent claim 1, comprising mobile telephony on Netz-C. 1 '1 • · · • k • ·