JPH0568155U - Cordless telephone device - Google Patents

Abstract

(57) [Abstract] [Purpose] To reduce the adverse effects of interference without shortening the maximum callable distance. [Configuration] The connection device 10 connected to a telephone line 30 can perform wireless communication with a slave station 20. The slave station 20 and the connection device 10 respectively provide the first antennas 16 and 26 having the first gain corresponding to the first callable distance and the second callable distance shorter than the first callable distance. It has second antennas 17 and 27 with a corresponding second gain. Each of the control devices 11 and 21 has a determination circuit 50 that determines the distance between the slave station 20 and the connection device 10. The RF switches 13 and 23 are the determination circuit 5 respectively.
According to the determination result of 0, the first antennas 16 and 26 and 2
One of the antennas 17 and 27 of the transmitter / receiver 1
2 and 22 are switched and connected.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a cordless telephone device having a slave station equipped with a handset and a transceiver, and a connection device connected to a telephone line, capable of wireless communication with the slave station, and equipped with a transceiver. In particular, it relates to a multi-channel access (MCA) type low power cordless telephone device.

[0002]

[Prior Art]

 89 channels are allocated to this type of MCA type low-power cordless telephone device. Of the 89 channels, 87 channels are speech channels and 2 channels are control channels. Adjacent channels are 12.5 kHz apart. The MCA type low power cordless telephone device has a slave station and a connection device. The slave station is equipped with a handset and a transceiver. The connection device is connected to a telephone line, is capable of wireless communication with a slave station, and includes a transmission / reception device.

In a conventional MCA type low power cordless telephone device, each of the slave station and the connection device has an antenna connected to a transmission / reception device. This antenna has a predetermined gain corresponding to a predetermined communication distance. The antenna gain may change slightly due to the influence of the surroundings.

[0004]

[Problems to be solved by the device]

 Let us assume that a plurality of such conventional MCA type low power cordless telephone devices are simultaneously used in a narrow range. In this case, since the antenna gain is almost constant even if the distance between the connection device and the slave station changes, interference interference such as intermodulation is likely to occur. Only 8 channels can be used. That is, only a maximum of eight conventional MCA type low power cordless telephone devices can be used simultaneously in a narrow range. On the other hand, if the antenna gain is set to a small value from the beginning in order to reduce the adverse effects of interference and interference, there is a drawback that the maximum talkable distance becomes shorter.

Therefore, an object of the present invention is to provide a cordless telephone device capable of reducing the adverse effects of interference without shortening the maximum callable distance.

[0006]

[Means for Solving the Problems]

 A cordless telephone device to which the present invention is applied includes a slave station including a handset and a transmitter / receiver, and a connection device connected to a telephone line, capable of wireless communication with the slave station, and including a transmitter / receiver. , With. According to a first aspect of the present invention, each of the slave station and the connection device has a first antenna having a first gain corresponding to a first communication possible distance, and the first communication enabled. A second antenna having a second gain corresponding to a second callable distance shorter than the working distance, a judging means for judging the distance between the slave station and the connection device, and a judgment of the judging means. According to the result, either the first antenna or the second antenna, one of which is switched to the transmitting and receiving device, and switch means is connected. According to a second aspect of the present invention, each of the slave station and the connection device has an antenna having a predetermined profit, and a determination means for determining a distance between the slave station and the connection device. Switch means for turning on / off the connection between the antenna and the transmitting / receiving device according to the determination result of the determining means.

[0007]

[Action]

 When the distance between the slave station and the connecting device is short, the second antenna and the transmitting / receiving device are connected in the cordless telephone device of the first aspect, and the antenna is used in the cordless telephone device of the second aspect. The connection with the transceiver is turned off. Therefore, interference from other cordless telephone devices is less likely to occur, and interference with other cordless telephone devices is also reduced. Therefore, when many cordless telephone devices are installed close to each other, the number of units that can be used simultaneously increases.

[0008]

【Example】

 Next, an embodiment of the present invention will be described with reference to the drawings. Referring to FIG. 1, a cordless telephone device according to a first embodiment of the present invention includes a connection device 10 and a slave station 20. The cordless telephone device of this embodiment is a multi-channel access type low power cordless telephone device.

The connection device 10 is connected to the telephone line 30 and is capable of wireless communication with the slave station 20. The connection device 10 is connected to the control device 11 connected to the telephone line 30, the transmission / reception device 12 connected to the control device 11, the radio frequency (RF) switch 13 connected to the transmission / reception device 12, and the RF switch 13. It has first and second antennas 16 and 17.

The slave station 20 includes a handset 40. The slave station 20 includes a control device 21 connected to the handset 40, a transmission / reception device 22 connected to the control device 21, an RF switch 23 connected to the transmission / reception device 22, and a first and a second connected to the RF switch 23. It has a second antenna 26 and 27.

Each of the first antennas 16 and 26 has a first gain corresponding to a first talkable distance. On the other hand, each of the second antennas 17 and 27 has a second gain corresponding to a second callable distance shorter than the first callable distance. In this embodiment, the first callable distance is 100 m and the second callable distance is 10 m. Therefore, the first antennas 16 and 26 can be used when the distance between the connection device 10 and the slave station 20 is in the range of 10 to 100 m, and the second antennas 17 and 27 can be used with the connection device 10 and the slave device. It can be used within a distance of 0 to 10 m from the station 20.

Each of the control devices 11 and 21 has a determination circuit 50 that determines the distance between the slave station 20 and the connection device 10. In the connection device 10, the RF switch 13 switches and connects one of the first antenna 16 and the second antenna 17 to the transmission / reception device 12 according to the determination result signal indicating the determination result of the determination circuit 50, as described later. .. Similarly, in the slave station 20, the RF switch 23 switches and connects one of the first antenna 26 and the second antenna 27 to the transmitter / receiver 22 according to the determination result of the determination circuit 50, as described later.

Each of the transceivers 12 and 22 has a reception signal level detector 61 and a squelch circuit 62. The reception signal level detector 61 detects the level of the reception signal and outputs a signal meter output signal representing the reception signal level. The squelch circuit 62 monitors the speech quality and outputs a squelch signal indicating whether or not there is a received carrier. In the present embodiment, the squelch circuit 62 outputs a logic "0" level squelch signal when the speech quality is good, that is, when there is a received carrier. When the speech quality deteriorates, that is, when there is no received carrier, the squelch circuit 62 outputs a squelch signal of logic "1" level.

The determination circuit 50 includes a prescribed signal generator 51, a comparator 52, and an RS flip-flop (F / F) 53. The regulation signal generator 51 generates a regulation signal representing a predetermined signal level corresponding to the second callable distance. The specified signal is supplied to the comparator 52. The signal meter output signal is supplied from the received signal level detector 61 to the comparator 52. The comparator 52 compares the received signal level with a predetermined signal level. When the received signal level becomes higher than the predetermined signal level, the comparator 52 outputs a comparison result signal of logic "1" level. The comparison result signal is supplied to the input terminal S of the RS flip-flop 53. When the logic "1" level comparison result signal is supplied to the input terminal S, the RS flip-flop 53 outputs the logic "1" level determination result signal from its output terminal Q. This logic "1" level determination result signal is called a first switching control signal. A squelch signal is supplied from the squelch circuit 62 to the input terminal R of the RS flip-flop 53. When the logic “1” level squelch signal is supplied to the input terminal R, the RS flip-flop 53 outputs the logic “0” level determination result signal from its output terminal Q. This logic "0" level determination result signal is called a second switching control signal.

In the connection device 10, the RF switch 13 switches so as to connect the second antenna 17 and the transmission / reception device 12 in response to the first switching control signal. Similarly, in the slave station 20, the RF switch 23 switches to connect the second antenna 27 and the transmission / reception device 22 in response to the first switching control signal. On the other hand, in the connection device 10, the RF switch 13 switches to connect the first antenna 16 and the transmission / reception device 12 in response to the second switching control signal. Similarly, in the slave station 20, the RF switch 23 switches to connect the first antenna 26 and the transmission / reception device 22 in response to the second switching control signal.

As described above, the cordless telephone device of the above embodiment has two modes as the callable distance. That is, there are two modes: a mode having a relatively long distance corresponding to the first callable distance and a mode having a relatively short distance corresponding to the second callable distance. The former mode is called the normal mode and the latter mode is called the close mode.

Next, the operation of the cordless telephone device of this embodiment will be described. First, as an initial state, it is assumed that the distance between the connection device 10 and the slave station 20 is within the range of the normal mode, that is, within the range of 10 to 100 m. At this time, the RS flip-flop 53 of the judgment circuit 50 outputs the judgment result signal of the logic "0" level, that is, the second switching control signal from the output terminal Q thereof. Therefore, the RF switches 12 and 23 connect the first antennas 16 and 26 and the transceivers 12 and 22 in response to the second switching control signal, respectively, as shown by the solid line in FIG. To switch.

In this state, it is assumed that the distance between the connection device 10 and the slave station 20 is in the proximity mode range, that is, the range of 0 to 10 m. At this time, the reception signal level represented by the signal meter output signal output from the reception signal level detector 61 of the connection device 10 and the slave station 20 is represented by the regulation signal output from the regulation signal generator 51. Is higher than the specified signal level. Therefore, the comparator 52 outputs a comparison result signal of logic "1" level. In response to this logic "1" level comparison result signal, the RS flip-flop 53 enters the set state, and the logical "1" level judgment result signal from its output terminal Q, that is, the first switching. Output a control signal. In response to the first switching control signal, the RF switches 12 and 23 connect the second antennas 17 and 27 and the transceivers 12 and 22 respectively, as shown by the dotted line in FIG. Switch.

Further, in this state, it is assumed that the distance between the connection device 10 and the slave station 20 is within the normal mode range. At this time, the speech quality is deteriorated, so that the squelch circuit 62 of the connection device 10 and the slave station 20 outputs a squelch signal of logic "1" level. In response to this logic "1" level squelch signal, the RS flip-flop 53 is reset, and its output terminal Q outputs a logic "0" level determination result signal, that is, the second switching control. Output a signal. In response to this second switching control signal, the RF switches 12 and 23 are switched to connect the first antennas 16 and 26 and the transceivers 12 and 22, respectively, as shown by the solid line in FIG. It

As described above, when the distance between the slave station 20 and the connection device 10 is relatively short, the gain of the antenna system is set to be low, and thus it is difficult to receive interference and interference from other cordless telephone devices. Interference with other cordless telephone devices is also reduced. Therefore, with a simple configuration, it is possible to effectively reduce the interference and interference when the cordless telephone devices are installed close to each other. As a result, when many cordless telephone devices are installed close to each other, the number of units that can be used simultaneously increases. A large number of cordless cords can be used without changing the characteristics (for example, transmission output, reception sensitivity, intermodulation characteristics) of the transmission / reception devices 12 and 22 themselves of the connection device 10 and the slave station 20, and without sacrificing the maximum communication distance. Only the characteristics when the telephone devices are installed close to each other can be improved.

Referring to FIG. 2, in the cordless telephone device according to the second embodiment of the present invention, the connection device 10 and the slave station 20 do not have the second antennas 17 and 27, respectively, and the RF switch 13 is provided. It has the same configuration as that shown in FIG. 1 except that the switches 23 and 23 are on / off switches. That is, since the gains of the second antennas 17 and 27 are small, in the second embodiment, instead of providing the second antennas 17 and 27, they are deleted.

[0022]

[Effect of the device]

 As described above, in the present invention, when the distance between the slave station and the connection device is short, the gain of the antenna system is set low, so that it is difficult to receive interference and interference from other cordless telephone devices and other cordless telephone devices. Interference and interference to the telephone device are also reduced. Therefore, when many cordless telephone devices are installed close to each other, the number of units that can be used simultaneously increases. It also has the advantage of reducing the possibility of eavesdropping on calls from remote locations.

[Brief description of drawings]

FIG. 1 is a block diagram showing a cordless telephone device according to a first embodiment of the present invention.

FIG. 2 is a block diagram showing a cordless telephone device according to a second embodiment of the present invention.

[Explanation of symbols]

 10 Connection Device 11 Control Device 12 Transceiver Device 13 Radio Frequency (RF) Switch 16 First Antenna 17 Second Antenna 20 Slave Station 21 Control Device 22 Transceiver Device 23 Radio Frequency (RF) Switch 26 First Antenna 27 Second Antenna 30 telephone line 40 handset 50 determination circuit 51 prescribed signal generator 52 comparator 53 RS flip-flop (F / F) 61 received signal level detector 62 squelch circuit

Claims (8)

[Scope of utility model registration request] 1. A cordless telephone device having a slave station equipped with a handset and a transmitter / receiver, and a connection device connected to a telephone line, capable of wireless communication with the slave station, and having a transmitter / receiver. In each of the slave station and the connection device, a first antenna having a first gain corresponding to a first callable distance and a second callable distance shorter than the first callable distance. A second antenna having a second gain corresponding to, a determination unit that determines the distance between the slave station and the connection device, and the first antenna and the second antenna according to the determination result of the determination unit. A cordless telephone device having switch means for switching and connecting one of the antennas to the transmitting / receiving device. 2. The cordless telephone device according to claim 1, wherein the cordless telephone device is a multi-channel access type low power type. 3. The transmission / reception device of each of the slave station and the connection device outputs a signal meter output signal indicating a reception signal level, and the determination means is a predetermined signal corresponding to the second callable distance. A prescribed signal generating means for generating a prescribed signal representing a level, receiving the signal meter output signal and the prescribed signal, comparing the received signal level with the prescribed signal level, and the received signal level is the prescribed signal level. Comparing means for outputting a first switching control signal as the determination result when it becomes larger, the switching means in response to the first switching control signal, the second antenna and the transceiver device. The cordless telephone device according to claim 1, wherein the cordless telephone device is switched so as to be connected. 4. The transmission / reception device of each of the slave station and the connection device outputs a squelch signal indicating whether or not there is a reception carrier, and the determination means determines that the squelch signal does not include the reception carrier. The switch means connects the first antenna and the transmitter / receiver in response to the second switching control signal when outputting the second switching control signal as the determination result. The cordless telephone device according to claim 1, wherein the cordless telephone device is switched so as to switch. 5. A cordless telephone device having a slave station equipped with a handset and a transmitter / receiver, and a connection device connected to a telephone line, capable of wireless communication with the slave station, and having a transmitter / receiver. In each of the slave station and the connection device, an antenna having a predetermined gain, determination means for determining a distance between the slave station and the connection device, and the antenna according to the determination result of the determination means And a switch means for turning on / off the connection with the transmission / reception device. 6. The cordless telephone device according to claim 5, wherein the cordless telephone device is a multi-channel access type low power type. 7. The transmission / reception device of each of the slave station and the connection device outputs a signal meter output signal indicating a reception signal level, and the determination means generates a regulation signal indicating a predetermined signal level. Generating means, receiving the signal meter output signal and the specified signal, comparing the received signal level and the predetermined signal level, when the received signal level is higher than the predetermined signal level, as the determination result, 6. The cordless telephone according to claim 5, further comprising: a comparing unit that outputs a switching control signal of 1, wherein the switching unit turns off the connection between the antenna and the transceiver in response to the first switching control signal. apparatus. 8. The transmission / reception device of each of the slave station and the connection device outputs a squelch signal indicating whether or not there is a reception carrier, and the determining means determines that the squelch signal does not include the reception carrier. When it is shown, it has a means for outputting a second switching control signal as the determination result, and the switch means turns on the connection between the antenna and the transceiver in response to the second switching control signal. The cordless telephone device according to claim 5.