JPH0245390B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a hooking method for a wireless telephone device that accurately transmits hooking information of a telephone to a wired terminal device.

When setting up a wireless line, wireless telephone devices that perform transmission and reception with wired terminal devices perform connection or disconnection control while sending control signals to each other, detecting reception, and confirming mutual operations.

In conventional devices, when the telephone is turned on during a call, the telephone transmits a disconnection signal, and the wired terminal device detects this and transmits a response signal. The telephone detects the response signal and disconnects the disconnection signal. The wired terminal device detects the disconnection of the disconnection signal, disconnects the response signal, turns off the line switch, and disconnects the exchange DC loop.

Next, when the telephone is turned off, the telephone transmits a calling signal, and the wired terminal detects this and transmits a response signal. The telephone detects the response signal and stops the calling signal, and the wired terminal detects the disconnection of the call signal and disconnects the response signal and turns on the line switch to create a DC loop in the exchange. When performing the above-described disconnection and connection operations, the hook switch-on time due to hooking on the telephone and the line switch-off time of the wired terminal device coincide in principle.

However, when tone signals in the voice band are used as the above-mentioned control signals, when a disconnection signal is detected in a wired terminal device, a pseudo disconnection signal such as a call voice signal or a dial tone is mistakenly used as a disconnection control signal due to the control sequence. There is a possibility of detection. The distinction between the pseudo disconnection signal and the regular disconnection signal is made by considering the simplification of the circuit.
This was done by increasing the detection time constant, taking advantage of the fact that the probability of continuous occurrence (200ms) is small. On the other hand, when detecting a call signal, there is no possibility of erroneous detection as described above due to the control sequence, and there is no need to provide a detection time constant. Therefore, the disconnection operation time is longer than the connection operation time, and the phone's hook switch on time and the wired terminal device's line switch on time do not match, resulting in the disadvantage that accurate hooking information is not transmitted to the wired terminal device. had.

This invention was made in consideration of the above points, and the difference between the telephone switch-on time and the line switch-off time of the wired terminal device, which occurs due to the difference between the disconnection operation time and the connection operation time, can be reduced. The present invention provides a hooking method for a radio telephone device that can reduce the disconnection operation time to almost zero by appropriately setting the disconnection operation time, thereby enabling accurate hooking operation.

An embodiment of the present invention will be described below with reference to the drawings. In Fig. 1, 1 is a transmitter, 2 is a receiver,
3 is a transmitting signal amplifier that amplifies the audio signal from the handset 1; 4 is a receiving signal amplifier that amplifies the audio signal to the handset 2; 5 is a dial; 6 controls 7 in accordance with the operation of the dial 5. Control circuit, 7 is frequency
a first control signal oscillator generating a first control signal f ₁ ; 8 a second control signal oscillator with frequency f ₂ from the wired terminal;
a second control signal detector for detecting a control signal of 9;
10 is a receiving switch that selectively passes the output of the transmitting signal amplifier 3 and the first control signal oscillator 7; 10 is a receiving switch that passes only the audio signal from the received signal; 11 is a transmitting signal switch that transmits the output of the sending signal switch 9; a transmitter transmitting via antenna 13;
12 is a receiver switch 10 and a second control signal detector 8 that receives a signal via a receiving antenna 14.
a logic control circuit 15 for controlling (starting, stopping, opening/closing, etc.) the first control signal oscillator 7, sending signal switch 9, receiver switch 10, transmitter 11, receiver 12, etc.; Reference numeral 16 is a switch, and reference numeral 17 is a ringer that operates when a 16 Hz calling signal from the exchange is detected, and these constitute the mobile terminal device. The other parts in FIG. 1 constitute the wired terminal device: 20 is a transmitting antenna, 21 is a receiving antenna, 22 is a transmitter, 23 is a receiver, 24 is a receiving switch, 25 is a transmitting signal amplifier, 26 27 is a receiving signal amplifier, 27 is a transmitting signal switch, 28 is a second control signal oscillator that generates a second control signal having a frequency f ₂ , and 29 is a first control signal detector that detects the first control signal f ₁ , 30 is a logic control circuit that controls the receiving switch 24, the sending signal switch 27, and the line switch 33, and 32 detects a ringing signal (generally 16 Hz) sent from the exchange side through the wired transmission line 31.
16Hz detector; 33 is a line switch that forms a DC loop on the wired transmission line 31; 34 guides the output of the receiving signal amplifier 26 to the wired transmission line 31 and the signal from the wired transmission line 31 to the transmitting signal amplifier 25. It is a hybrid circuit.

The operation of the above configuration will now be described with reference to FIG. 2. First, when the telephone switch 16 is turned on, the transmitter 11 is activated by the logic control circuit 15, and the first control signal oscillator 7 is also activated.
A radio wave modulated by the first control signal f ₁ is transmitted from the antenna 13. On the other hand, on the wired terminal device side, the radio wave modulated by the first control signal _f1 is received, detected by the first control signal detector 29, and the detected signal
f ₁ ' is led to the logic control circuit 30. This signal activates the logic control circuit 30, which activates the transmitter 22, and further activates the second control signal oscillator 28, so that the radio wave modulated by the second control signal _f2 is transmitted to the antenna 20. Sent from The radio waves modulated by this second control signal f ₂ are transmitted to the antenna 1
4 and detected by the second control signal detector 8, and the detection signal f ₂ ' is sent to the logic control circuit 15.
guided by. This causes the logic control circuit 15 to operate and stop the operation of the first control signal oscillator 7.
stops sending the control signal _f1 . At the same time, on the wired terminal device side, the detection signal of the first control signal detector 29
₁ ' disappears, the logic control circuit 30 switches to the second
The operation of the control signal oscillator 28 is stopped, the transmission of the second control signal f ₂ is stopped, the line switch 23 is closed, and the wired transmission line 31 and the wired terminal device are connected.

After this, the control circuit 6 responds to the operation of the dial 5.
The first control signal oscillator 7 operates via the first
Dial information is sent to the wired terminal device by the control signal. This first control signal is detected by the first control signal detector 29, controls the line switch 33 via the logic control circuit 30, and sends dial information to the wired transmission line 30. After an exchange connection based on this dial information and a response from the called party, a call can be made.

Next, the operation when the telephone switch 16 is turned on with the line switch 33 closed will be described. That is, when the hook is turned on in the above state, the logic control circuit 15 operates, the first control signal oscillator 7 is operated, and a radio wave modulated by the first control signal f ₁ is transmitted from the antenna 13. By transmitting this first control signal _f1 , the wired terminal device transmits the first control signal f
f ₁ is detected and its detection signal f ₁ ' is generated. In response to this f ₁ ′, the logic control circuit 30 activates the second control signal oscillator 28 after a certain period of time T from the rise of f ₁ ′, and sends the radio wave modulated by the second control signal f ₂ to the telephone side. Send to. The telephone side detects this second control signal f ₂ and stops transmitting the first control signal f ₁ in response to the detection signal f ₂ '. On the other hand, in the terminal device, the line switch 33 is opened at the same time as the second control signal f ₂ is sent.

In this way, if you turn on the hook during a call, the line switch 33 for the wired line will open and the wireless line will be disconnected.If you then turn the hook off again, the wireless line will be connected in the same way as in the previous case, and the line switch 33 for the wired line will be closed. It will be done.

By the way, the features of the hooking method of this embodiment will be explained in more detail. Conventionally, the same control sequence is used when disconnecting and connecting, but a detection time constant is provided only when detecting the disconnection control signal, so there is a difference between the on-hook time of the telephone and the off time of the line switch in the wired terminal device. A discrepancy was occurring.

Therefore, in this embodiment, first, the control sequence at the time of disconnection is improved and made different from the control sequence at the time of connection. That is, _the control sequence at the time of connection is, as already explained using _FIG . ₂
, and the telephone stops transmitting the connection control signal f ₁ at the time when the return of this response signal f ₂ is detected. Then, the wired terminal device receives the above connection control signal f ₁
In response to the stop of transmission, the return transmission of the response signal _f2 is stopped, and at this point the line switch is turned on. In other words, the line switch turns on at the point when the connection control signal _f1 from the telephone can no longer be detected.

On the other hand, the control sequence at the time of disconnection is that when the telephone transmits a control signal f ₁ in response to an on-hook operation, the wired terminal device determines whether this control signal f ₁ has been continuously received for a certain period of time or more (for example, 100 to 200 msec). If this continues for a certain period of time or more, it is recognized as a disconnection control signal. Then, when a predetermined time T has elapsed from the time when the reception of the control signal f ₁ recognized as the disconnection control signal has elapsed,
It starts sending back the response signal _f2 and turns off the line switch at the same time. That is, in the control sequence at the time of disconnection, unlike the control sequence at the time of connection, the line switch is turned off without waiting for the control signal _f1 from the telephone to be turned off.

Furthermore, in this embodiment, in addition to simply changing the control sequence, the control signal that arrives from the telephone is recognized as a disconnection control signal as described above, and the settings are set in advance from the time when the reception of this disconnection control signal starts. The line switch is turned off when the predetermined time T elapses. Here, the predetermined time T is set in advance so that the control time _T1 for turning off the line switch is approximately equal to the control time _T2 for turning on the line switch, as shown in FIG. .

Therefore, with the hooking method of this embodiment, the on-hook time THS of the telephone and the off time TLS of the line switch in the wired terminal device are always approximately equal. Therefore, the hooking operation performed on the telephone is accurately transmitted to the exchange via the wired terminal device, thereby increasing the reliability of the hooking operation. Figure 3 shows the relationship between the on-hook time THS of the telephone and the off time TLS of the line switch in the wired terminal device.
In the case of this embodiment, the relationship is expressed as _l2 .

By the way, _l1 in Figure 3 shows the relationship between THS and TLS when the control sequence is not changed, that is, in the conventional case where the control sequence at disconnection is set to be the same as the control sequence at connection. .
In this case, even if an appropriate on-hook operation (on-hook time THS') is performed on the telephone, the time during which the line switch is actually disconnected at the wired terminal device will be as short as TLS'. this
TLS′ is the line switch off time range TLS ₁ to TLS ₂ that the exchange can determine as a hooking operation.
Therefore, the switching equipment regards the turning off of the line switch as, for example, noise and does not detect it as a hooking operation. In other words, the telephone hooking operation is not transmitted to the exchange.

On the other hand, _l3 in Fig. 3 is a case where the control sequence is simply changed and the line switch off control time T is not set, that is, the line switch is turned off immediately when the control signal is recognized as a disconnection control signal. This shows the relationship between THS and TLS when In this case, even if an appropriate on-hook operation (on-hook time THS') is performed on the telephone, the actual line switch disconnection time at the wired terminal device will be long as in TLS'.
TLS'' is the range of line switch off times that the exchange can determine as a hooking operation TLS ₁ to TLS ₂
Therefore, the switching equipment recognizes the turning off of the line switch as the end of the call and executes the end of call sequence. In other words, in this case as well, the telephone hooking operation will not be correctly transmitted to the exchange.

Specifically, by setting the time constant of the dial in the logic control circuit 30 and the integration circuit for determining the end of a call, this can be realized without adding any particular circuit.

In this way, the operator of the (wireless) telephone can conveniently perform the hooking operation in the same way as when using a normal telephone. Furthermore, when a call ends, the line switch is released with only a delay of about 300 to 400 ms, which means that this time is shorter than before.

As described above, according to the present invention, it is possible to provide a hooking system for a radio telephone device that performs accurate hooking operations without requiring a special control circuit.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing a hooking method of a radio telephone device according to an embodiment of the present invention, FIG. 2 is a time chart for explaining the operation of the radio telephone device shown in FIG. 1, and FIG. 2
FIG. 3 is a diagram showing the relationship between T _HS and T _LS in the figure. 7...First control signal oscillator, 8...Second control signal detector, 11...Transmitter, 12...Receiver, 13...Transmission antenna, 14...Reception antenna, 15...Logic control Circuit, 16... Hook switch, 20... Transmitting antenna, 21... Receiving antenna, 22... Transmitter, 23... Receiver, 28...
...Second control signal oscillator, 29...First control signal detector, 30...Logic control circuit, 31...Wired transmission line, 33...Loop switch.

Claims (1)

[Scope of Claims] 1. In a wireless telephone device having a wired terminal device connected to a wired transmission path and a telephone device connected to the wired terminal device via a wireless line, When a hooking operation is performed to put the phone in an on-hook state for a predetermined short period of time, the telephone transmits a control signal in response to the on-hook operation of the hooking operation, and a response signal to the control signal is sent to the wired terminal device. When the control signal is continuously received for a certain period of time or more, the wired terminal device stops transmitting the control signal in response to the control signal being sent back from The line switch is turned off when a time period of In response to the control signal being returned from the device, the wired terminal device stops transmitting the control signal, and in response to receiving the control signal, the wired terminal device returns a response signal, and
The line switch is turned on in response to interruption of reception of the control signal, and the predetermined time is the control time required to turn off the line switch during the on-hook operation. A hooking method for a wireless telephone device, characterized in that the control time is set to be equal to the control time required to turn on the line switch during off-hook operation.