JPS5847345A - Intermittent receiving system and intermittent receiving mobile station device - Google Patents

Abstract

PURPOSE:To reduce the power consumption of a circuit and to decrease the consumption of a battery, by making use of the feeding order of the control information and the property of each control information. CONSTITUTION:When the control signal is received, an intermittent gate 11 is turned on to supply a current to a receiving part 8, a synthesizer part 10, a control memory part 12, a CPU13, etc. from a power supply part 17. While the gate 11 is turned off to flow no current in case no control signal is received. A mobile station device receives the whole of a position information frame 1 and a calling information signal frame 2 just once in M times and receives only the frame 1 in the rest M - 1 times. When an incoming signal 3 is received, whether the incoming is addressed to the own station or not is decide. At the same time, the gate 11 is kept on until the next frame 1 is received. A consecutive receiving action is started for the incoming when a channel designation signal 4 is received and equivalent to the number of the own station.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention provides an intermittent reception method and an intermittent reception mobile station device that can reduce the power consumption of a mobile station device in a mobile radio telephone system without having any adverse effect on line connection quality. It is related to.

The mobile radio telephone system has a control channel for control data transmission and a communication channel for communication as a laminated wire channel, and when the mobile radio mobile station device is on standby, it sometimes receives the control channel and receives the 0 mobile unit's arrival signal. A method is known in which when a call signal is received, the user switches to a communication channel and makes a call. In this method, control signals are sent to the control channel in the order illustrated in FIG. In Figure 1, 1 is a location information frame for registering the location of the mobile station on the base station side, and 2 is a call origination frame for notifying the channel number of the oscillation control channel when the mobile station makes a call. The information signal frame is two consecutive frames as shown in FIG. The location information and call information are collectively referred to as broadcast information. Reference numeral 3 indicates an incoming call signal frame, which is a general paging/calling signal for calling the corresponding mobile station when a call is received from the fixed telephone network or another mobile station. 4 and 5 are channel designation signal frames for notifying the mobile station of the channel number to be used after the mobile station is called. Of these, 4 is an information frame in which the mobile station number of the mobile station that received the call is shown, and 5 is a call channel number for informing the mobile station whose mobile station number is shown in 4 of the call channel. This is the specified frame.

These pieces of information sent from the base station via the control channel have the following characteristics. First, since the calling information signal is information that hardly changes, there is no need to receive it every time. The second point is that the two frames after the location information frame are calling information signal frames and cannot be incoming call signal frames. Thirdly, if the mobile station number included in the first frame of two consecutive channel designation signal frames is not the own mobile station number, there is no need to receive the second channel designation signal frame. .

Despite the fact that the information sent on the control channel has the three characteristics described above, conventional mobile station devices do not take these three characteristics into account at all and continuously transmit the information. Signal 0 is being received.

Therefore, operating current is constantly supplied to the radio receiving section, control section, synthesizer section, control memory section, and control CPU peripheral circuit section of the mobile station device, resulting in wasted electrical energy. It has the following drawbacks.

The present invention improves this point by reducing the power consumption of mobile station equipment without having any negative effect on line connection quality.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the drawings, with the aim of proposing an intermittent reception method that can extend battery life.

FIG. 2 shows an embodiment of the present invention, mainly showing the parts of the mobile station device related to the present invention.

In FIG. 2, 6 is an antenna, 7 is a transmitting/receiving duplexer, 8 is a receiving section, 9 is a transmitting section, 10 is a synthesizer section, 11 is an intermittent reception gate, 12 is a control memory section, 13 is a control CPU,
14 is a control CP and LT peripheral circuit, 15 is an intermittent reception timer circuit, 16 is a terminal telephone, and 17 is a power supply unit. When receiving a control channel signal and there is no need to receive the signal, the intermittent reception gate control pulse generated by the control CPU and the intermittent reception timer circuit controls the intermittent reception.
FF, receiving section, synthesizer section, control memory section,
Turn off the power to the control CPU peripheral circuit. The amount of time the power is removed is based on the timing flow described below.
It is integrated by the intermittent reception timer circuit according to a command from the CPU.

In addition, when a control channel signal must be received, when a mobile station calls, when a mobile station receives a call, and when a call is made, the intermittent reception mode is set to YON, and the reception section, synthesizer section, control memory section, and control CPU peripheral Supply current to the detour.

Intermittent reception game) 4ON when receiving control channel.

The timing of turning OFF is as shown in FIG.

In FIG. 3(a), 1 is a location information frame, 2 is a calling information signal frame, 3 is an incoming call signal frame, 4 is a channel designation signal frame that includes a mobile station number, and 5 is a channel This is a frame that includes a communication channel number among designated signal frames. FIG. 3(b) is a diagram showing the ON and OFF states of the intermittent reception gate. When the gate is ON, current is supplied to the reception section, synthesizer section, control memory section, and control CPU peripheral circuit. . Figure 3 (bl), 18 is the first reception of location information frame 1, 19 is the second reception of location information frame, plus is the continuous reception of incoming call signal frame 3 and location information frame l, 21
is the reception of frame 4 that includes the mobile station number among the channel designation signal frames, and n is the reception of the third frame of the location information frame.
The second reception represents the continuous reception of position information frame 1 and call origination information signal frame 2.

The timing at which the intermittent reception gate turns ON and OFF will be explained using FIG. 3. First, the timing is set so that the intermittent reception gate is turned on when receiving the position information frame, and the position information is received at step 18. However, the gate should be turned on early, taking into account the rise time of the synthesizer section and reception section. The two frames after receiving the position information frame are the calling information signal frame 2, and the gate is normally turned off when sending the calling information signal. In the next σ month 9, the gate is turned ON again and reception resumes. Since the information received in step 19 is position information, after receiving this position information frame, the gate OFp is set again for two frames. In the next call, an incoming call signal is first received. When receiving an incoming call signal frame, as in the case without intermittent reception, it is determined whether the incoming call is from the own mobile station, and the gate is set to vON until the next location information frame is received for continuous reception. If the call is to the own mobile station, the mobile station sends an incoming call response signal in parallel with the receiving operation). When a position information frame is received, the game for the next two frames) YOF
F, and then, when the power is turned on again, the first frame of the channel designation signal is received at 21. If the mobile station number received at step 21 is the own mobile station number, the next channel designation signal second frame is also received, and thereafter the continuous reception operation for incoming calls is started, and the intermittent reception is stopped. If the mobile station number received at step 21 is not the own mobile station number, the gate is turned off for the next one frame, and then turned on at the next time ρ. Since the information frame received at ρ is a position information frame, the gate is turned off during the next two frames. As described above, the gate is normally turned off when receiving a call information signal, but the call control channel information required when a mobile station makes a call must also be received M times (M is a positive integer) once Vc. The feather represents reception of the call information signal once every M times. The value of M is, for example, the current direction g
According to K, 30 to 40 is appropriate.

- 3 frames in total are received, and for the remaining (M-1) times, only the location information frame is received out of the total of 3 frames, 1 frame of position information frame and 2 frames of calling information signal frame. Also, when an incoming call signal is received, it is determined whether the incoming call signal is an incoming call to the own mobile station, and the intermittent reception gate is turned on until the next location information frame is received. . When the location information signal frame is received, the operation described above when only the location information frame and the calling information signal frame are received is repeated.

Furthermore, when the first frame of the channel designation signal is received, if the mobile station number included in this first frame is the own mobile station number, the next channel designation signal second frame is also received and starts continuous reception operation. If the first frame information of the channel designation signal is not the own mobile station number, the gate is turned off while the second frame is being sent.
F, and then receive the next frame. From then on,
The above operation is repeated depending on whether the received frame is a location information frame, an incoming call signal frame, or a channel designation signal frame.

As explained above, by paying attention to the transmission order of control information and the nature of each control information and performing intermittent reception, it is possible to reduce the power consumption of the circuit, and as a result, to prevent battery depletion and to lengthen the charging cycle. , or the volume occupied by the battery can be reduced.

[Brief explanation of drawings]

FIG. 1 is a configuration diagram of control channel signals used in a mobile radio telephone system, FIG. 2 is a mobile station device for a mobile radio telephone system showing an embodiment of the present invention, and FIG. 5 is a time chart showing the relationship between a control channel signal, a mobile station radio section, and a control section-only power supply state. 1...Position information frame, 2...Calling information signal frame, 3...
Incoming call signal frame, 4... Frame that includes the mobile station number among the channel designation signal frames, 5... Frame that includes the call channel number among the channel designation signal frames, 6... ...Antenna, 7...Transmitter/receiver duplexer, 8...Receiving section, 9...
Transmission section, 10...Synthesizer section, 11...
... Intermittent reception gate, 12 ... Control memory section, 13 ... Control CPU, 14 ...
Control CPU peripheral circuit, 15... Intermittent reception timer circuit, 16... Terminal telephone, 17...
...Power supply section, 18...Reception of first position information frame, 19...Reception of second position information frame, gloss...Incoming call signal Continuous reception of frames and location information frames, 21...Reception of an information frame that includes a mobile station number among the channel designation signal frames, n...Reception of the third location information frame, %
・・・・・・Continuous reception of location information frame and single call information signal frame once every M times Patent applicant: Nippon Telegraph and Telephone Corporation Patent agent Megumi Yamamoto -

Claims (1)

[Scope of Claims] (A wireless communication path consisting of a control channel and a communication channel is set between an 11 radio base station and a plurality of mobile stations within the radio zone of this base station, and a call is made by a signal using the control channel. In a mobile radio telephone system in which a response is made and a call is made using the above communication channel, the control channel consists of a location information frame (1) and a call information signal frame (1).
2), an incoming call signal frame (3), and a channel designation signal frame consisting of a mobile station number (4) and a call channel number (5), and the mobile station When receiving the i
) Of the broadcast signals consisting of location information for registering the location of the mobile station and call information signals necessary when the mobile station makes a call, only the signal frame necessary to know that it is a broadcast signal is received each time. 11) Receive all frames of the broadcast signal once every M times (M is a positive integer), 111) Receive all incoming signal frames for selectively calling the mobile station, and IV) make a call when the mobile station makes a call. Among the channel designation signals sent from the base station to designate a channel, all information frames to which a mobile station number is assigned are received, and the information frame to which the mobile station number of the above channel designation signal is assigned is received. An intermittent reception method is characterized in that an intermittent reception operation is performed in which a frame for specifying a communication channel that is sent out subsequently is received only when one mobile unit is called. (2) In a mobile station device consisting of a radio reception section, a synthesizer section, a control memory section, a control CPU, a control CPU peripheral circuit section, and a power supply section, the power supply section, the radio reception section, the power supply section, the synthesizer section, and the power supply section. An intermittent reception gater for turning on and off the power supply is provided between the control memory section, the power supply section and the control CPU peripheral circuit section, and these two intermittent reception gates are controlled by control pulses sent from the intermittent reception timer circuit. Controls the power supply to the wireless receiving section, processor, synthesizer section, control memory section, and CPU peripheral circuit section by opening and closing.
An intermittent reception mobile station device characterized by performing an intermittent reception operation on a control channel.