JPH0882642A - Preventing device of consumption of battery of radio equipment in automatic meter-reading system - Google Patents

Abstract

PURPOSE: To obtain a preventing device of consumption of a battery of radio equipment in an automatic meter-reading system which prevents useless consumption of the battery. CONSTITUTION: By connecting a first switch 8a to the contact (a) side and a second switch 8b to the contact (b) side, a radio equipment master unit 6 is set in a standby state and an intermittent carrier sense operation is stopped. In the case when the radio equipment master unit 6 set and left in this state is installed and operated, connection terminals A1 and A2 of an interface connection part of the radio equipment master unit 6 are short-circuited or connected reversely as shown by solid lines and thereby a received input signal is changed to a ground level. It is discriminated on the basis of this change that the unit is installed for a user, and the intermittent carrier sense operation is started.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery consumption preventing device for a wireless device in an automatic meter reading system for preventing battery consumption in the wireless device of an automatic meter reading system using radio.

[0002]

2. Description of the Related Art As shown in FIG. 4, a wireless automatic meter reading system is installed, for example, on the premises of each consumer of electricity, gas, water, etc., and uses these electricity, gas, water, etc. A meter 8 for measuring a quantity is provided, and the meter 8 is connected to a wireless device slave unit 7 via connection terminals A ₁ and A ₂ , and the wireless device slave unit 7 is connected to a wireless device master unit 6 via a wireless line. It is connected to the. In addition, the wireless device base unit 6 has connection terminals A ₁ , A
_The terminal side network control unit (T-NCU) 5 is connected via ₂ and the terminal side network control unit 5 is connected to the telephone exchange 3 via a telephone line. The exchange 3 is connected to the no-ringing trunk 4 across its input and output sides, and is also connected to the center unit 1 via the center side network control unit (C-NCU) 2.

In the automatic meter-reading system configured as described above, the terminal-side network control device 5 and the meter 8 are made wireless by the wireless device master device 6 and the wireless device slave device 7. It should be noted that the configuration other than the above-mentioned wireless communication has the same configuration as that of the normal wired communication system, and in the wired communication system, the terminal side network is used without passing through the wireless device master unit and the wireless device slave unit. The controller 5 and the meter 8 are directly connected.

FIG. 5 shows such a terminal side network control device (T
-NCU) 5 and a diagram showing an interface circuit between the meter 8.

FIG. 5 (a) shows a standby state. In this state, the first switch 8a of the meter 8 is switched to the a contact side and is grounded, and the second switch 8b is b.
It is switched to the contact side and is connected to a DC power source of voltage V _c via a resistor 8d. In addition, b of the first switch 8a
The contacts are connected to the DC power source via the resistor 8c. The received input signal from the connection between the contact b of the second switch 8b and the resistor 8d is at the V _c level of the DC power supply. The first switch 8a and the second switch 8
The switching contact c of b is connected to the connection terminals A ₁ and A ₂ , respectively.

In the interface circuit of the terminal side network controller 5, no current flows through the diode of the first photocoupler 5a which receives data from the telephone line side,
The phototransistor of the first photocoupler 5a is off because it is in a non-conducting state. Further, the diode of the second photocoupler 5b connected to both ends of the connection terminals A ₁ and A ₂ to receive the input signal from the meter 8 is also non-conducting, and therefore the second photocoupler is not conducting. The phototransistor of the coupler 5b is turned off, and the collector of the phototransistor is connected to the voltage V via the resistor 5c.
It is connected to the DC power supply of _d . Therefore, the received input signal from the collector of the phototransistor of the second photocoupler 5b is at _Vd level. In this state, the current I ₀ flowing between the terminal side network control device 5 and the meter 8 via the connection terminals A ₁ and A ₂ is 10 μA or less.

FIG. 5B shows a circuit state when data is transmitted from the terminal side network control device 5 to the meter 8. In this state, the diode of the first photocoupler 5a of the meter 8 is a telephone. When it is turned on / off by the data from the line side, the phototransistor of the first photocoupler 5a is also turned on / off by this, and the received input signal of the meter 8 is set to the ground level and the V _c level according to this on / off. Change. That is, when it is on, it is at the ground level, and when it is off, it is at the V _c level. The current I ₁ flowing in the phototransistor of the first photocoupler 5a in this state is 0.1 to ₁ mA.

FIG. 5 (c) shows the circuit state at the time of data transmission from the meter 8 to the terminal side network control device 5. In this state, the second switch 8b of the meter 8 is placed on the a contact side. It is connected and grounded, and the first switch 8a is turned on / off according to the transmission data. When the first switch 8a is turned on and off, the current I flows through the diode of the second photocoupler 5b of the terminal side network control device 5.
₁ flows, whereby the phototransistor of the second photocoupler 5b is turned on / off. As a result, the meter 8
When the first switch 8a of the second photocoupler 5b is connected to the b contact side to reach the V _c level, the received input signal from the collector of the phototransistor of the second photocoupler 5b becomes the ground level, and When the switch 8a is connected to the a-contact side and becomes the ground level, the received input signal from the collector of the phototransistor of the second photocoupler 5b becomes the _Vd level. In this state, the current I ₁ flowing in the phototransistor of the second photocoupler 5b is 2 to ₁₀ mA.

The interface between the terminal side network control device 5 and the wireless device master device 6 and the interface between the wireless device slave device 7 and the meter 8 in the automatic meter reading system using wireless shown in FIG. It has the same configuration and operation as the interface shown in FIG. 5 described above.

FIG. 6 is a block diagram showing a circuit configuration of a wireless device which constitutes the wireless device master device 6 and the wireless device slave device 7. This wireless device includes an antenna 11, a wireless unit circuit 12, a modulation / demodulation circuit 13, a CPU 14, and a power switch 1.
5, battery 16, clock circuit 17, interface circuit 20
have.

In the wireless device used in the above-described wireless automatic meter reading system, it is difficult to use a commercial power supply of AC100 because of its installation condition, and battery driving is a necessary condition. Therefore, the wireless device shown in FIG. 6 has a battery 16, and in order to reduce the consumption of the battery 16 as much as possible, a power switch 15 is provided, and this power switch 15 is turned on and off intermittently, Whether or not there is a transmission from the wireless device, that is, a carrier sense operation is performed, and when a transmission carrier from the partner wireless device is detected, control is performed so that the wireless communication state is established.

[0012]

The above-described method for reducing battery consumption in a wireless device is effective after the wireless device is installed on the premises of a customer and after the automatic meter reading operation is started. It does not consider reduction of battery consumption during the period before installation on the customer's premises.
That is, it takes a certain number of days from the time when the wireless device is actually assembled into a product to the time when it is installed in the customer. However, if the intermittent carrier sense operation is performed during this period, the battery will be uselessly consumed. Therefore, there is a problem that the life of the product is shortened.

The present invention has been made in view of the above,
An object of the invention is to provide a battery consumption preventing device for a wireless device in an automatic meter reading system, which prevents unnecessary battery consumption of the wireless device during a period from completion of manufacturing of the wireless device to actual installation. Especially.

[0014]

In order to achieve the above object, a battery consumption preventing device for a wireless device in an automatic meter reading system of the present invention connects a wireless device master to a terminal side network control device connected to a telephone line. Then, by connecting a wireless device slave unit to the meter and connecting the wireless device slave unit and the wireless device master unit via a wireless line, information including the meter reading data measured by the meter is transferred to the wireless device. Collects via device slave unit, wireless line, wireless device master unit, terminal side network control device, and telephone line, and intermittently senses the wireless communication between the wireless device master unit and wireless device slave unit. In the automatic meter reading system that saves the consumption of the battery that becomes the operating power source of the wireless device master unit and the wireless device slave unit by performing A device for preventing battery consumption of a wireless device in a needle system, which stops an intermittent carrier sense operation for the wireless communication until a reception signal is input from the terminal side network control device in the wireless device master device. Intermittent carrier sense operation for the wireless communication is started by inputting the first received signal by the carrier sense stopping means and the terminal side network control device side to the connection terminal of the wireless device master unit by reverse connection or short circuit. The gist of the present invention is to have a carrier sense starting means for performing the above.

In the automatic meter reading system according to the present invention, the battery consumption preventing device for the wireless device connects the wireless device master device to the terminal side network control device connected to the telephone line, and connects the wireless device slave device to the meter. By connecting the wireless device slave unit and the wireless device master unit via a wireless line, information including the meter reading data measured by the meter is transferred to the wireless device slave unit, the wireless line, and the wireless device master unit. , A terminal-side network control device, and a wireless device master device and a wireless device by performing wireless communication between the wireless device master device and the wireless device slave device by an intermittent carrier sense operation while collecting via a telephone line. Battery of a wireless device in an automatic meter reading system for preventing battery consumption of the wireless device during installation of the wireless device in an automatic meter reading system that saves consumption of a battery serving as an operating power source of a child device A wear prevention device, short-circuit means for short-circuiting the connection terminal with the terminal side network control device in the wireless device master, short-circuit detection means for detecting that the connection terminal is in a short-circuit state, and the short-circuit detection In the case where the means detects the short-circuit state, the carrier sense stopping means for stopping the intermittent carrier sense operation for the wireless communication, and the short-circuit detecting means cannot detect the short-circuit state. And a carrier sense starting means for starting an intermittent carrier sense operation for the wireless communication.

Further, the battery consumption preventing device for the wireless device in the automatic meter reading system of the present invention connects the wireless device master device to the terminal side network control device connected to the telephone line, and connects the wireless device slave device to the meter. By connecting the wireless device slave unit and the wireless device master unit via a wireless line, information including the meter reading data measured by the meter is transferred to the wireless device slave unit, the wireless line, and the wireless device master unit. , A terminal-side network control device, and a wireless device master device and a wireless device by performing wireless communication between the wireless device master device and the wireless device slave device by an intermittent carrier sense operation while collecting via a telephone line. Battery of a wireless device in an automatic meter reading system for preventing battery consumption of the wireless device during installation of the wireless device in an automatic meter reading system that saves consumption of a battery serving as an operating power source of a child device A wear prevention device, carrier sense stopping means for stopping an intermittent carrier sense operation for the wireless communication until a reception signal is input from the meter in the wireless device slave device, and the carrier from the meter. Carrier sense starting means for starting an intermittent carrier sense operation for the wireless communication by reverse connection to a connection terminal of a wireless device slave unit or input of a first received signal by a test signal from a meter, To do.

[0017]

In the battery consumption prevention device for the wireless device in the automatic meter reading system of the present invention, intermittent carrier sense operation for wireless communication is performed until a reception signal is input from the terminal side network control device in the wireless device master device. Then, the terminal side network control device side starts an intermittent carrier sense operation for wireless communication by inputting the first received signal by reverse connection or short circuit to the connection terminal of the wireless device master unit.

Further, in the battery consumption preventing device of the wireless device in the automatic meter reading system of the present invention, when the connection terminal with the terminal side network control device is short-circuited in the wireless device master unit and the short-circuit state is detected, The intermittent carrier sense operation for wireless communication is stopped, and when the short-circuit state cannot be detected, the intermittent carrier sense operation for wireless communication is started.

Further, in the battery consumption prevention device for the wireless device in the automatic meter reading system of the present invention, the intermittent carrier sensing operation for wireless communication is stopped until the reception signal is input from the meter in the wireless device slave unit. The intermittent carrier sense operation for wireless communication is started by reverse connection from the meter to the connection terminal of the wireless device slave or input of the first reception signal by the test signal from the meter.

[0020]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 shows a terminal-side network control unit (T-NCU) 5 and a radio device master unit 6 for explaining a battery consumption preventing device for a radio device in an automatic meter reading system according to an embodiment of the present invention. It is a circuit diagram which shows the interface connection part between. The interface connection unit of the terminal side network control device 5 shown in the figure has the same circuit configuration as the interface connection unit of the terminal side network control device 5 shown in FIG. 5 described above, and includes the first photo coupler 5a and the second photo coupler 5a. Of the second photocoupler 5b, both ends of the diode of the second photocoupler 5b are connected to the connection terminals A ₁ and A ₂ , and the connection terminals A ₁ and A ₂ are the connection terminals A ₁ of the wireless device master unit 6. It is connected to a _2. Similarly, the interface connection unit of the wireless device base unit 6 has the same circuit configuration as the interface connection unit of the meter 8 shown in FIG. 5 described above, and includes the first switch 8a, the second switch 8b, and the resistors 8c and 8d. And both switching contacts c of the first switch 8a and the second switch 8b are connected to the connection terminals A ₁ and A ₂ .

In the embodiment shown in FIG. 1, the wireless device master device 6 is shown in FIG. 1 as a process after product assembly (power reset operation) until the wireless device master device 6 is installed in the customer. As described above, the switching contact c of the first switch 8a is a
The second switch 8b is connected to the contact side and grounded.
The switching contact c of is connected to the b contact side, whereby it is set to the standby state (reception input state), and the operation is completely stopped. Also, the intermittent carrier sense operation for wireless communication is stopped.

In such a state, the wireless device base unit 6
The connection terminals A ₁ and A ₂ of the interface connection section of are set to the open state, the open current I ₀ between the connection terminals A ₁ and A ₂ in this case is 10 μA or less, and the second switch 8b
The received input signal from the connection point between the b contact of the and the resistor 8d is V
_{It is in the c-} level state and is left as it is until it is installed in the customer.

When installing and operating the wireless device master unit 6 which has been set in such a state and left unattended, first, the connection terminal A ₁ of the interface connecting portion of the wireless device master unit 6 is used.
Short-circuit A ₂ as shown by the alternate long and short dash line in FIG.
Alternatively, reverse the connection as shown by the solid line. By performing such an operation, a current (I ₁ = 0.1 to 0.1) indicated by I ₁ in the figure is supplied to the interface connecting portion of the wireless device master device 6.
1 mA) is the first switch 8a and the second switch 8
Since it flows to b, the received input signal at the connection point between the switching contact c of the second switch 8b and the resistor 8d changes from the _Vc level to the ground level.

Therefore, the radio device master unit 6 detects the change in the received input signal to detect the change in the received input signal.
Is installed in the customer, and thus intermittent carrier sense operation for wireless communication can be started. By doing so, it is possible to prevent wasteful battery consumption during the period from the completion of the wireless device master device 6 as a product to the installation and operation.

FIG. 2A is a circuit diagram of an interface connecting portion of the wireless device master unit 6 for explaining a battery consumption preventing device of the wireless device in the automatic meter reading system according to another embodiment of the present invention. The interface connecting portion of the wireless device master device 6 shown in the figure has a circuit configuration similar to that of FIG. 1, and has a first switch 8a, a second switch 8b, and resistors 8c and 8d. Both switching contacts c of the switch 8a and the second switch 8b are connected to the connection terminals A ₁ and A ₂ .

In the embodiment shown in FIG. 2A, the wireless device base unit 6 is connected between the connection terminals A ₁ and A ₂ as shown in FIG. Is set to a short-circuited state, the switching contact c of the first switch 8a is connected to the a-contact side to be grounded, and the second switch 8a
2b, the switching contact c is connected to the b contact side during the period T _{1 and} the switching contact c is connected to the a contact side during the period T ₂ as shown in (b) of FIG. 2B. 2) so that the received input signal from the connection point between the contact b of the second switch 8b and the resistor 8d is set to the ground level for the period T ₁ as shown in (c) of FIG. V during period T _2
The switching operation is performed so as to set to the _c level, and the intermittent carrier sense operation for wireless communication is stopped, and it is left in this state until it is installed in the customer.

When installing and operating the wireless device master unit 6 which has been set in such a state and left unattended, first, the connection terminal A ₁ of the interface connecting portion of the wireless device master unit 6 is
Break the short circuit between A ₂ . Then, this disconnection
The reception input signal is always at the V _c level as shown in the latter half of (c) of FIG. 2B regardless of the switching operation of the second switch 8b. Therefore, by detecting this V _c level, It is only necessary to identify that the wireless device master device 6 is installed in the customer, and to start the intermittent carrier sense operation for wireless communication. By doing so, it is possible to prevent wasteful battery consumption during the period from the completion of the wireless device master device 6 as a product to the installation and operation.

In the embodiment shown in FIG. 2, the period T during which the switching contact c of the second switch 8b is connected to the b contact side
Compared with the period T _{2 in} which ₁ is connected to the a-contact side, by making it very short (T ₁ << T ₂ ), the second switch 8b
The operation can reduce the battery consumption to a negligible level.

3 (a) and 3 (b) are a wireless device slave unit 7 and a meter 8 for explaining a battery consumption preventing device of a wireless device in an automatic meter reading system according to another embodiment of the present invention.
2 is a circuit diagram of an interface connection unit of FIG. The interface connection unit of the wireless device slave unit 7 shown in FIG.
The circuit configuration is the same as that of the interface connection unit of the terminal side network control device 5 shown in FIG. 3, and has a first photocoupler 5a and a second photocoupler 5b, and both ends of the diode of the second photocoupler 5b are connection terminal is connected to the a _1, a _2, the connecting terminals a _1, a ₂ are connected to the connection terminals a _1, a ₂ of the wireless device the master unit 6. Similarly, the interface connection part of the meter 8 has the same circuit configuration as the interface connection part of the meter 8 shown in FIG. 5 described above, and includes the first switch 8a, the second switch 8b, and the resistors 8c and 8c.
d, the first switch 8a and the second switch 8
Both switching contacts c of b are connected to the connection terminals A ₁ and A ₂ .

In the embodiment shown in FIGS. 3 (a) and 3 (b), the wireless device slave unit 7 is used as a process after product assembly (power reset operation) until it is installed in the customer, as shown in FIG. As shown, the switching contact c of the first switch 8a is connected to the a-contact side and grounded, and the switching contact c of the second switch 8b is connected to the b-contact side, whereby the standby state (reception input state) ), The operation is stopped completely,
In addition, the intermittent carrier sense operation for wireless communication is also stopped. In this state, the interface connection portion of the wireless device slave unit 7 is in an open state, the current I ₀ between the connection terminals A ₁ and A ₂ is 10 μA or less, and the reception input signal remains in the V _d level state. Is.

In such a state, the wireless device master unit 6
Figure 3
(A), the or reverse connecting the connection terminals A _1, A ₂ of the interface connections of wireless Sochiko machine 7 to the connection terminals A _1, A ₂ of the interface connections of the meter 8,
Alternatively, as shown in FIG. 3B, the first switch 8a and the second switch 8b of the interface connection portion are shown by a button operation or the like (not shown) provided in advance on the meter 8 as a test function in a state where both are normally connected. , That is, the switching contact c of the first switch 8a is switched to the b contact side, and the switching contact c of the second switch 8b is switched to a
Switch to the contact side, and the communication state is established.

By carrying out such an operation, a current I ₁ (= 2 to 10 mA) flows through the second photocoupler 5b in the interface connection section of the wireless device slave unit 7, whereby the second photocoupler 5b. The received input signal from the collector of the phototransistor changes to the ground level.
Therefore, by detecting this change, the wireless device slave device 7 can identify that the wireless device slave device 7 has been installed in the consumer, and thereby start intermittent carrier sense operation for wireless communication. By doing so, it is possible to prevent unnecessary battery consumption during the period from the completion of the wireless device slave unit 7 as a product to the installation and operation thereof.

[0034]

As described above, according to the present invention,
Until the reception signal is input from the terminal side network control device in the wireless device master device, the intermittent carrier sense operation for wireless communication is stopped, and the terminal side network control device side connects to the connection terminal of the wireless device master device. By inputting the first received signal by reverse connection or short circuit, intermittent carrier sense operation for wireless communication is started, or the connection terminal with the terminal side network control device in the wireless device master unit is short-circuited If the short-circuit state cannot be detected, the intermittent carrier sense operation for wireless communication is stopped, and the intermittent carrier sense operation for wireless communication is started. , Or until the reception signal is input from the meter in the wireless device slave unit, the intermittent carrier sense operation for wireless communication is stopped, and the wireless device slave unit from the meter is stopped. Intermittent carrier sense operation for wireless communication is started by reverse connection to the connection terminal or input of the first received signal by the test signal from the meter, so the wireless device master unit and wireless device slave unit are completed as products. It is possible to prevent the wasteful consumption of the battery during the period from the installation to the operation of the battery relatively economically and appropriately.

[Brief description of drawings]

FIG. 1 is an interface connection unit between a terminal side network control unit (T-NCU) and a wireless device master unit for explaining a battery consumption prevention device of a wireless device in an automatic meter reading system according to an embodiment of the present invention. It is a circuit diagram showing.

FIG. 2 is a circuit diagram and an operation waveform diagram of an interface connection unit of a wireless device master unit for explaining a battery consumption preventing device of a wireless device in an automatic meter reading system according to another embodiment of the present invention.

FIG. 3 is a circuit diagram of an interface connection unit of a wireless device slave unit and a meter for explaining a battery consumption preventing device of a wireless device in an automatic meter reading system according to another embodiment of the present invention.

FIG. 4 is a block diagram showing an overall configuration of an automatic meter reading system using wireless communication.

FIG. 5 is a diagram showing an interface circuit between a terminal side network control device and a meter.

6 is a block diagram showing a circuit configuration of a wireless device that constitutes a wireless device master unit and a wireless device slave unit used in the automatic meter reading system of FIG. 4;

[Explanation of symbols]

1 center device 3 switch 5 terminal side network control device 5a first photocoupler 5b second photocoupler 6 wireless device master device 7 wireless device slave device 8 meter 8a first switch 8b second switch A ₁ , A ₂ Interface connection terminal

Continuation of front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical indication H04Q 9/00 311 H (72) Inventor Kiyohisa Ishikawa 2-3 Chome Nakase Mihama-ku, Chiba Higashikyo Gas Co., Ltd. Company Information Technology Laboratory (72) Inventor Hajime Furusawa, 2-3 Nakase, Mihama-ku, Chiba City, Chiba Prefecture Tokyo Kei Gas Co., Ltd. Information Technology Laboratory (72) Toshihiko Kawai 70, Yanagi-cho, Saiwai-ku, Kawasaki-shi, Kanagawa (72) Inventor Tetsuya Hara 70 Yanagimachi, Saiwai-ku, Kawasaki-shi, Kanagawa Toshiba Yanagimachi factory

Claims (3)

[Claims] 1. A wireless device master unit is connected to a terminal side network control device connected to a telephone line, a wireless device slave unit is connected to a meter, and the wireless device slave unit and the wireless device master unit are connected to each other. By connecting via a wireless line, the information including the meter reading data measured by the meter, the wireless device slave unit, a wireless line,
The wireless device master device collects data via the wireless device master device, the terminal side network control device, and the telephone line, and performs wireless communication between the wireless device master device and the wireless device slave device by intermittent carrier sense operation. Device and wireless device Battery consumption of the wireless device in the automatic meter reading system that prevents the battery of the wireless device from being consumed in the automatic meter reading system that saves the consumption of the battery that is the operating power source of the wireless device A carrier sense stopping means for stopping an intermittent carrier sense operation for the wireless communication until a reception signal is input from the terminal side network control device in the wireless device master device, and the terminal side Intermittently for the wireless communication by inputting the first reception signal from the network control device side to the connection terminal of the wireless device master device by reverse connection or short circuit And a carrier sense starting means for starting a different carrier sense operation. A battery consumption preventing device for a wireless device in an automatic meter reading system. 2. A wireless device master unit is connected to a terminal side network control device connected to a telephone line, a wireless device slave unit is connected to a meter, and the wireless device slave unit is connected to the wireless device master unit. By connecting via a wireless line, the information including the meter reading data measured by the meter, the wireless device slave unit, a wireless line,
The wireless device master device collects data via the wireless device master device, the terminal side network control device, and the telephone line, and performs wireless communication between the wireless device master device and the wireless device slave device by intermittent carrier sense operation. Device and wireless device Battery consumption of the wireless device in the automatic meter reading system that prevents the battery of the wireless device from being consumed in the automatic meter reading system that saves the consumption of the battery that is the operating power source of the wireless device In the device, short-circuit means for short-circuiting the connection terminal with the terminal side network control device in the wireless device master, short-circuit detection means for detecting that the connection terminal is in a short-circuit state, and the short-circuit detection means When detecting the short-circuit state, the carrier sense stop means for stopping the intermittent carrier sense operation for the wireless communication, and the short-circuit detection means A battery depletion prevention device for a wireless device in an automatic meter reading system, comprising: a carrier sense starting means for starting an intermittent carrier sense operation for the wireless communication when a short-circuit state cannot be detected. 3. A wireless device master unit is connected to a terminal side network control device connected to a telephone line, a wireless device slave unit is connected to a meter, and the wireless device slave unit and the wireless device master unit are connected to each other. By connecting via a wireless line, the information including the meter reading data measured by the meter, the wireless device slave unit, a wireless line,
The wireless device master device collects data via the wireless device master device, the terminal side network control device, and the telephone line, and performs wireless communication between the wireless device master device and the wireless device slave device by intermittent carrier sense operation. Device and wireless device Battery consumption of the wireless device in the automatic meter reading system that prevents the battery of the wireless device from being consumed in the automatic meter reading system that saves the consumption of the battery that is the operating power source of the wireless device An apparatus, wherein the wireless device slave unit stops carrier sense operation for the wireless communication until a reception signal is input from the meter, and the wireless device from the meter. Intermittent keying for the wireless communication is made by reverse connection to the connection terminal of the cordless handset or input of the first received signal by the test signal from the meter. A battery consumption preventing device for a wireless device in an automatic meter reading system, comprising: a carrier sense starting means for starting a carrier sense operation.