JPS5966231A - Battery saving system - Google Patents

Abstract

PURPOSE:To save the power of a device having a new function, while avoiding the reduction in the power efficiency of existing devices by transmitting an outgoing control signal in the order of a start signal from a base station to a power saving system device, a control signal to other existing devices and a call signal. CONSTITUTION:The outgoing control signal is transmitted from the base station in the order of the start signal 1 to a mobile device adopting newly the power saving system, the control signal 4 to existing devices not adopting the power saving system, and the call signal 2. In the device adopting the power saving system, a receiving section 11 operated at all times receives the start signal and transmits a demodulated output to a start signal receiving section 12. The receiving section 12 outputs a power-on signal to a power supply switching SW14 when the call signal to the own station is detected, and the SW14 supplies power to a main control section 13, which reaches the normal operation after a prescribed time, and after the sequence control, the data transmission and the tone transmission/receiving are performed, a power-off signal is outputted to the SW14 and the power saving state is reached.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a battery saving method (power saving method) for a battery operated wireless communication device.
□ ・ ・ .

The batch, resale, and bi/g methods are those that have been put to practical use in the past.

This method starts from the system design stage.・Because it takes Tsuterisape into consideration, it is forced <1. Moreover, highly efficient variation saving is realized.

On the other hand, if battery saving was not considered at all at the beginning and if a battery saving method was to be introduced with minimal changes to the existing system 1, there would be cases where it was already in operation. It is necessary to satisfy the following two conditions when introducing a battery saving method into an existing system: 75 kings can be considered.

The first is a new function, a device (a device that incorporates a battery saving method into an existing system) (on the other hand, it is a system that sends a start signal from a base station, consisting of a 1. paging signal, and a downlink control signal). Figure 1 shows its control signals and operating resistance.

When starting signal 1 of the mobile side device is sent from time A to 3'l:, the mobile side that receives it starts the entire system power-on operation.

At this time, it takes time E to F until it becomes possible to receive the general lower data signal due to hardware startup time, initialization processing, etc., so if the calling signal 2 is sent immediately after the activation signal 1, the mobile side will receive the calling signal 2. It is difficult to reliably receive data from the beginning.

The second method is to repeatedly send out a start signal and then send out a discharge signal. As shown in Fig. 2, this means that the activation signals 1 and 1' are sent out in succession, and the calling signal 2 is sent out when the mobile side reaches full knowledge, thereby ensuring that the mobile side receives the calling signal 2. is possible. In this method, the starting signal J.

Both signals 1' and 1'C are control signals for the mobile device having a battery saving function, and only the activation signal 1 is actually required for control. Activation signal 1' is merely inserted as dummy No. 43. Therefore, starting signal 1'
If this is an invalid signal for existing mobile devices that do not have a battery-saving feature, the time for G- will be devoted to calling a new device that does not have a battery-saving feature. Radio wave usage efficiency deteriorates.

SUMMARY OF THE INVENTION An object of the present invention is to provide a battery saving method for a battery-operated wireless communication device, which allows new functional devices to be introduced into an existing system without substantially affecting the existing devices.

In order to achieve the above object, a battery saving method according to the present invention is a battery saving method for a battery operated wireless communication device, in which a start signal is sent from a base station,
A control signal to other devices in the same system that does not adopt the battery saving method, a downlink control signal is sent in the order of call No. 43, and the device side performs sequence control and data by receiving an activation signal from the base station. The main control circuit that controls transmission, tone transmission and reception, etc. (all power is turned on for the FL-11 circuit, and while the base station is sending control signals to other devices, the main control circuit that is fully operational) The device is designed to receive a paging signal sent from the base station.

According to the above method, the power efficiency of the existing device can be maintained almost as it is, and the battery saving method can be performed efficiently, so that the object of the present invention can be completely achieved.

Hereinafter, the present invention will be explained in more detail with reference to the drawings.

FIG. 3 is a diagram showing the downlink control signal from the base station side and the operation sequence of the new function device in the system of the present invention. In the figure, numerals 1 and 2 are an activation signal and a calling signal, which are the same as in the conventional case.

The signal 4 between the activation signal 1 and the calling signal 2 is a calling signal for the existing device. In Fig. 2, the start signal to the new function device was repeatedly sent, but the start signal 1 in Fig. 2
', a calling signal F4 for the existing device is inserted. In this way, the HJ period can be effectively used for calling existing equipment, and dead time σ as shown at 1' in FIG. 2 does not occur. l! After ll [1 signal 4
While the new function device is being sent, the new function device powers on and receives the call signal 2 (Iiii).If it recognizes that the call is not for itself as a result of receiving the call signal 2, it immediately powers off and starts the next new function. A start signal for the device is awaited.A code structure is selected for the start signal and the call signal for the new function device so as not to affect the existing device.

In order to realize the present invention and the system, it is necessary that the receiving section of the new function device is always in a receiving state.

In addition, the control section includes a circuit section that constantly receives the activation signal, and other circuit sections, such as sequence control, data transmission,
It is divided into two tone transmitting and receiving circuits, and the latter is divided into two after receiving the activation signal.
Must be configured to receive a ringing signal.

FIG. 4 is a circuit diagram showing an embodiment of a new functional device used in the method of the present invention. The receiving section 11 is always in operation.
When the activation signal is received, the activation signal receiving unit 12, which sends the demodulated output to the activation signal receiving unit 12 which is also constantly operating, decodes this demodulated output and detects the calling signal for the own station. The main control section 13 is a circuit that controls sequence control, data transmission/reception, tone transmission/reception, etc. of the new function device. Detects all ringing signals for own station.

When this happens, the activation signal receiving section 12 activates the power switching 14.
Outputs a power-on signal to the In response to the signal, the power switching 14 supplies power to the main control section 13, and after a certain period of time, the main control section 131-j reaches normal operation. - When the slow operation ends, the main control section 13 outputs a power-off signal to the power switching 14 by itself, and shifts the entire system to the battery save state.

As explained in detail above, according to the method of the present invention, when the battery sapping method is adopted for an existing system, it is possible to efficiently save the battery of a new functional device while avoiding a decrease in the power efficiency of the existing device. effective.

[Brief explanation of the drawing]

Figures 1 and 2 are diagrams showing the downlink control signal from the base station and the operation sequence on the device side, and Figure 3 is the diagram showing the downlink control signal from the base station and the operation sequence on the equipment side when the method of the present invention is applied. The fourth tooth shown in the figure is a circuit diagram showing an embodiment of the new functional device.・ , ・ 1.1':・Start signal 2...Call signal 4...
Control signals to the existing 4 devices 11...Receiving section 12...
Start-up signal receiving section 13... Main control section 14... Power switching patent applicant NEC Co., Ltd. agent Noro Ii, Hisashi

Claims (1)

[Claims] In a battery saving method in a battery-operated wireless communication device, the base station □ sends downlink control signals in the order of an activation signal, a control signal to other devices in the same system that do not employ the battery saving method, and a paging signal. On the side, by receiving the activation signal from the base station, the main control circuit that controls sequence control, data transmission, tone transmission and reception, etc. is turned on, and control signals are sent from the base station to other devices. The battery saving system is characterized in that the above-mentioned control circuit, which becomes fully operational while transmitting the base station, receives a paging signal subsequently transmitted from the base station.・
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