KR0184463B1 - Self-restoring apparatus of speech path of telephone terminal unit - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

It is a technology that automatically cuts and restores a call path when a silence state is detected for a set time or a busy tone and howler tone are detected for a predetermined time when the handset is incorrectly placed in a telephone terminal.

2. Technical problem to be solved by the invention

It solves the problem of not making a phone call because the handset is put down wrong by the telephone terminal.

3. Summary of Solution to Invention

After the hook-up is made in the telephone terminal and a call path is formed, when a howler tone, busy tone, or silence is detected, the call path is automatically cut and restored.

4. Important uses of the invention

Applicable in the telephone terminal.

Description

Automatic recovery device by phone call and its method

1 is a block diagram of a telephone terminal according to an embodiment of the present invention.

2 is a control flow diagram for automatically cutting the call path of an embodiment according to the present invention.

3 is a logic waveform diagram for detecting the presence or absence of the howler tone, busy tone, voice signal according to the present invention.

4 is a control flow diagram for automatically cutting the call path of another embodiment according to the present invention.

5 is a control flow diagram for automatically cutting the call path of another embodiment according to the present invention.

6 is a block diagram of a telephone terminal according to an embodiment of the present invention.

7 is a control flow diagram for automatically cutting the call path of another embodiment according to the present invention.

The present invention relates to an automatic recovery apparatus for a call in a telephone terminal and a control method thereof, in particular, when a handset is incorrectly placed in a telephone terminal, a silent state is detected or a busy tone or howler tone is detected. The present invention relates to an apparatus and a method for automatically cutting and recovering a call path when detected for a certain time.

In general, the telephone terminal receives a Howler tone or Busy tone provided from the exchanger and outputs it to the handset when the set time expires when the handset is misplaced. However, if the handset is incorrectly put down after the call is terminated, the hook switch cannot be turned on. Therefore, the mechanical exchange recognizes that the call is in progress and collects an unnecessary fee. In addition, there was an unreasonable problem that if you put the wrong handset, you can not receive the call because the incoming call is impossible.

A technique for solving such a problem is disclosed in the patent application issued to the applicant and disclosed in 1992, 6139, a warning sound for a miss on / hook state and a re-callable circuit and method. In Patent Publication No. 6139, 1992, when a handset is misplaced, a warning sound is generated by detecting the level of various tone signals supplied from the exchanger, and when the handset is not recovered, the call path is automatically cut and restored. .

By the way, such a conventional automatic call recovery method detects that the handset has been incorrectly lowered with various tone signal levels, and thus has a problem of malfunctioning depending on noise or line conditions when the handset is incorrectly placed.

Accordingly, an object of the present invention is to provide an automatic recovery apparatus and a method for automatically recovering a call path by detecting a wrong handset state in a telephone terminal to solve the above problem.

It is still another object of the present invention to provide an automatic recovery apparatus and a method for automatically recovering a call path by automatically cutting a call path when a voice signal is not detected for a predetermined time during a call in a phone terminal.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a telephone terminal according to an embodiment of the present invention, the control unit 10 controls the overall operation of the telephone terminal, after the call path is formed busy (Busy), Howlerton (Howler) ), It controls to cut the line automatically when silence is detected. The ring detector 12 is connected to a telephone line and detects a ring signal received from the telephone line and provides the ring signal to the controller 10. The call control unit 14 connects or cuts the call loop of the telephone line under the control of the control unit 10. The frequency detector 18 is connected to the call controller 14, detects various tone signals received from the telephone line, converts them into digital data, and provides them to the controller 10. The call circuit unit 20 connects the telephone line and the handset 16, and outputs a voice signal received from the telephone line or a voice signal input from the handset 16. The amplifier 22 amplifies and outputs the signal output from the communication circuit unit 20 to a predetermined level. The comparator 24 receives the signal amplified by the amplifier 22 and compares it with a predetermined level signal to provide the signal presence detection signal to the controller 10. The hook-off detection unit 16 detects the hook-off state according to the on / off of the hook switch and provides it to the control unit 10.

The frequency detector 18 of the configuration detects howler tone signals received from the telephone line through the call controller 14 and is provided to the controller 10 when the handset is incorrectly placed. 28) a busy tone detection unit 30 which is supplied from an exchange when dialing ends or dials a counterpart phone number and detects a busy tone signal received from a telephone line through the call control unit 14; Or a CPC detector 32 which detects a Calling Part Control (CPC) signal received from a telephone line through the call controller 14 when the call is made by dialing a counterpart phone number or during a call. consist of.

In addition, although the amplifier 22 is connected to the call circuit 20 in FIG. 1, the present invention can be implemented even when the amplifier 22 is directly connected to the call controller 14 without passing through the call circuit 20.

2 is a control flow diagram for automatically cutting a call path according to an embodiment of the present invention, detecting whether a hook switch is hooked off, forming a call path when the hook switch is hooked off, and And cutting the currency path when the CPC is detected after forming the currency path, and cutting the currency path when the business tone is detected after forming the currency path.

3 is a logic waveform diagram for detecting the presence or absence of the howler tone, busy tone, and voice signal according to the present invention.

The operation of the preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 and 3 described above.

The controller 10 checks whether the hook-off state is detected from the hook-off detection unit 26 in step 101, and proceeds to step 102 if it is detected as the hook-off state. In step 102, the controller 10 controls the call controller 14 to form a call path. Thereafter, in step 103, the controller 10 checks whether a signal is detected through the CPC detector 32 to the port P4. If the signal is not detected, the controller 10 proceeds to step 107. If the signal is detected, the controller 10 proceeds to step 104. In step 104, the controller 10 inputs one cycle on / off signal pulse of the signal detected from the port P4, and in step 105, the controller 10 checks whether one cycle on / off signal of the input detection signal is 30ms-60ms, respectively, and 30ms. If not -60ms, go to step 107 above. However, in step 105, if one cycle on / off signal of the detection signal is 30ms-60ms, the process proceeds to step 106 and recognizes the signal detected through the port P4 as CPC to control the call controller 14 to cut the call path. . In step 107, the control unit 10 checks whether the signal is detected through the busy tone detection unit 30 through the port P3, and returns to step 102 if no signal is detected, and proceeds to step 108 if the signal is detected. In step 108, the controller 10 inputs one cycle on / off signal pulse of the signal detected from the port P3, and checks whether the cycle one on / off signal of the input detection signal is 60ms-1200ms in step 109, and 60ms. If it is not -1200ms, the process returns to step 102 and continues to form a call path. However, if one cycle on / off pulse of the signal detected from port P3 in step 109 is 60ms-1200ms, the process proceeds to step 110 to clear the counter to zero. In step 111, the controller 10 stores one cycle on / off pulse of the detection signal input through the port P3 in the internal memory and sets the reference value. Thereafter, in step 112, the counter value is increased by 1 and the flow proceeds to step 113 to check whether the counter value is a preset value. In this case, if it is not the predetermined value, the process proceeds to step 115 and the busy detection unit 30 inputs one cycle on / off pulse of the next detection signal through the port P3. Then, in step 116, the control unit 10 checks whether one cycle on / off pulse of the inputted next detection signal is on / off pulse within a predetermined error range by comparing with the set reference value and then turns on / off pulse within a certain error. In step 112, the operation described above is repeated until the counter value reaches the set value. The constant error range may be, for example, a reference value ± 20 ms. However, if the one cycle on / off pulse of the input next detection signal in step 116 is not the on / off pulse within a certain error range compared with the set reference value, the process returns to step 109 and repeats the above-described operation. Detect the signal input from the beginning again.

By repeating the above operation, in step 113, when the counter value reaches the set value, the control unit 10 proceeds to step 114 and recognizes the signal detected through the port P3 as busy tone to control the call control unit 14 to make a call. Cut the furnace.

For example, when one cycle on / off pulse of the signal input from the CPC detection unit 32 to the control unit 10 through the port P4 is 30ms-60ms, it is recognized as a CPC signal and blocks the call path. However, if one cycle on / off pulse of the signal detected through the port P4 is not 30ms-60ms, it is determined whether the busy signal is detected by the busy tone detector 30. At this time, if the signal input from the busy detector 30 to the controller 10 through the port P3 is the same as in FIG. 3, the controller 10 checks whether one cycle on / off pulse T1, T2 of the detection signal is 60ms-1200ms. do. When one cycle on / off pulse T1, T2 of the detection signal is 60ms-1200ms, this value is stored in the internal memory, set as a reference value, and the counter value is increased by one. Then, one cycle on / off pulses T3 and T4 of the next detection signal are compared with the reference values set above to check whether the signal is within a certain error range, and if the signal is within a certain error range, the counter value is increased by one again. Then, one cycle on / off pulses T5 and T6 of the next detection signal are compared with the reference values set above to check whether the signal is within a certain error range, and if the signal is within a certain error range, the counter value is increased by one again. By repeating this operation, when the preset counter value, for example, reaches 7, the signal detected through the port P3 is recognized as a busy tone and the call path is cut.

4 is a control flow diagram for automatically cutting a call path according to another embodiment of the present invention, detecting whether a hook switch is hooked off, and forming a call path when the hook switch is hooked off. After the formation of the channel, when the Howlerton is detected, the process of cutting the channel.

The operation of another preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 and 3 and 4 described above.

The control unit 10 now checks whether the hook-off state is detected from the hook-off detection unit 26 in step 201, and proceeds to step 202 if it is detected as the hook-off state. In step 202, the controller 10 controls the call controller 14 to form a call path. Then, in step 203, the controller 10 checks whether a signal is detected through the CPC detector 32 to port P4. If no signal is detected, the controller 10 proceeds to step 207, and if a signal is detected, proceeds to step 204. In step 204, the control unit 10 inputs one cycle on / off signal pulse of the signal detected from the port P4, and checks whether the cycle one on / off signal of the input detection signal is 30ms-60ms, respectively, in step 205. If it is not -60ms, the flow proceeds to step 207. However, if one cycle on / off signal of the detection signal is 30ms-60ms in step 205, the flow proceeds to step 206 to recognize the signal detected through the port P4 as CPC to control the call controller 14 to cut the call path. .

In step 207, the control unit 10 checks whether the signal is detected through the haultone detection unit 28 through the port P2. If no signal is detected, the control unit 10 returns to step 202, and if the signal is detected, proceeds to step 208. In step 208, the controller 10 inputs one cycle on / off signal pulse of the signal detected from the port P2, and checks whether the cycle one on / off signal of the input detection signal is 60ms-300ms in step 209, respectively. If it is not -300ms, the process returns to step 202 and continues to form a call path. However, if one cycle on / off pulse of the signal detected from port P2 in step 209 is 60ms-300ms, the process proceeds to step 211 to clear the counter to zero. In operation 211, the controller 10 stores one cycle on / off pulse of the detection signal input through the port P2 in the internal memory and sets the reference value. Thereafter, in step 212, the counter value is increased by 1 and the flow proceeds to step 213 to check whether the counter value is a preset value. In this case, if it is not the predetermined value, the flow proceeds to step 214 to input one cycle on / off pulse of the next detection signal from the Howler tone detector 28 through the port P2. Then, in step 215, the controller 10 checks whether one cycle on / off pulse of the input detection signal is on / off pulse within a predetermined error range by comparing the set reference value with the on / off pulse within a predetermined error. In step 209, the above operation is repeated until the counter value reaches the set value. In this case, the constant error range may be, for example, a reference value ± 20 ms. However, if one cycle on / off pulse of the input detection signal after input in step 215 is not on / off pulse within a predetermined error range compared with the set reference value, the process returns to step 209 and the port P2 is repeatedly performed. Detect the signal input from the beginning again.

In step 213, if the counter value reaches the set value, the control unit 10 proceeds to step 216 to recognize the signal detected through the port P2 as a haulerton to control the call control unit 14 to call. Cut the furnace. The haulerton is supplied from the exchanger when the handset is put down incorrectly, and the handset is left unattended.

For example, one cycle on / off pulse of the signal input from the CPC detection unit 32 to the control unit 10 through the port P4 is 30ms-60ms and is recognized as a CPC signal to block the call path. However, if one cycle on / off pulse of the signal detected through the port P4 is not 30ms-60ms, it is determined whether the busy signal is detected by the busy tone detector 30. At this time, if the signal input from the busy detector 30 to the controller 10 through the port P2 is the same as in FIG. 3, the controller 10 checks whether one cycle on / off pulse T1, T2 of the detection signal is 60ms-300ms, respectively. do. If one cycle on / off pulse T1, T2 of the detection signal is 60ms-300ms, this value is stored in the internal memory, set as a reference value, and the counter value is increased by one. Then, one cycle on / off pulses T3 and T4 of the next detection signal are compared with the reference values set above to check whether the signal is within a certain error range, and if the signal is within a certain error range, the counter value is increased by one again. Then, one cycle on / off pulses T5 and T6 of the next detection signal are compared with the reference values set above to check whether the signal is within a certain error range, and if the signal is within a certain error range, the counter value is increased by one again. By repeating this operation, when a preset counter value, for example, 3, the signal detected through the port P2 is recognized as a busy tone, the call path is cut.

5 is a control flow diagram for automatically cutting a call path according to another embodiment of the present invention, detecting whether a hook switch is hooked off, and forming a call path when the hook switch is hooked off. And cutting the communication path when silence is detected for a predetermined time or more after the formation of the communication path.

The operation of another preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 and 3 and 5 described above.

The control unit 10 checks in step 301 whether the hook-off state is detected from the hook-off detection unit 26 and proceeds to step 302 if it is detected as the hook-off state. In step 302, the controller 10 controls the call controller 14 to form a call path. Then, in step 303, the controller 10 checks whether the signal is detected through the CPC detector 32 to the port P4. If no signal is detected, the controller 10 proceeds to step 307. If the signal is detected, the controller 10 proceeds to step 304. In step 304, the controller 10 inputs one cycle on / off signal pulse of the signal detected from the port P4, and checks whether the cycle one on / off signal of the input detection signal is 30ms-60ms, respectively, in step 305. If it is not -60ms, the flow proceeds to step 307. Here, the one cycle on / off signal of the CPC may be 60ms-600ms. However, if one cycle on / off signal of the detection signal is 30ms-60ms in step 305, the process proceeds to step 306 to recognize the signal detected through the port P4 as CPC to control the call controller 14 to cut the call path. . However, when the call path is formed in step 302, the call controller 14 and the call circuit unit 20 communicate with the other party using the handset 16. The voice signal talking to the other party is transmitted or received through the call circuit unit 20. At this time, the voice signal output from the communication circuit unit 20 is applied to the comparison unit 24 amplified by the amplifier 22 to a predetermined level. As a result, the comparator 24 inputs the signal amplified from the amplifier 22 and applies a high or low logic signal to the controller 10 in comparison with the set reference level. At this time, the comparator 24 outputs a low signal when there is a voice signal, and outputs a high signal when there is no voice signal. When the detection signal is applied through the port P1 from the comparator 24 in this way, it is checked whether the high signal is continuously applied for the time set to the port P1 in step 307. If the high state signal is not applied continuously for a set time through port P1, for example 10 seconds, the flow returns to step 302. If the high state signal is continuously applied during the set time through port P1, the flow proceeds to step 308. Increase by 1. Thereafter, in step 309, if the counter value is set to, for example, 18, and the set value is not 18, the process returns to step 307 and repeats the above-described operation until the counter value reaches the set value of 18. In step 309, when the counter value is set to 18, the controller 10 proceeds to step 301, and the controller 10 recognizes that there is no voice signal and controls the call controller 14 to cut the call path.

6 is a block diagram of a telephone terminal according to an embodiment of the present invention, the control unit 10 controls the overall operation of the telephone terminal, after the call path is formed busy (Busy), Howlerton (Howler) ), It controls to cut the line automatically when silence is detected. The ring detector 12 is connected to a telephone line and detects a ring signal received from the telephone line and provides the ring signal to the controller 10. The call control unit 14 connects or cuts the call loop of the telephone line under the control of the control unit 10. The frequency detector 18 is connected to the call controller 14, detects a Howler tone signal received from the telephone line, converts the signal into digital data, and provides the same to the controller 10. The call circuit unit 20 connects the telephone line with the handset 16 and outputs a voice signal received from the telephone line or a voice signal input from the handset 16. The amplifier 22 amplifies and outputs a busy tone signal or a received voice signal output from the call controller 14 or a transmission voice signal provided to the call controller 14 to a predetermined level. The comparator 24 receives the signal amplified by the amplifier 22 and compares it with a predetermined level signal and provides the controller 10 with a detection signal for the presence or absence of a busy signal or an audio signal. The hook-off detection unit 16 detects the hook-off state according to the on / off of the hook switch and provides it to the control unit 10.

In FIG. 6, the amplifying unit 22 is directly connected to the call control unit 14 without passing through the call circuit unit 20, but the amplifying unit 22 may be directly connected to the call circuit unit 20. The present invention can be implemented. In addition, the amplifier 22 and the comparison unit 24 is a signal for detecting the presence or absence of a busy tone signal or a received voice signal output from the call control unit 14 or a transmission voice signal provided to the call control unit 14. It is a detector.

7 is a control flow diagram for automatically cutting the call path of another embodiment according to the present invention.

The operation of another preferred embodiment of the present invention will be described in detail with reference to FIGS. 6 and 7 described above.

In step 401, the control unit 10 checks whether the hook-off state is detected from the hook-off detection unit 26, and proceeds to step 402 if it is detected as the hook-off state. In step 402, the controller 10 controls the call controller 14 to form a call path. Then, when the detection signal is applied through the port P1 from the comparator 24, it is checked whether the high signal is continuously applied for the time set to the port P1 in step 403. If the high state signal is not applied continuously for the set time through port P1, for example, 10 seconds, the flow returns to step 403. If the high state signal is continuously applied for the set time through the port P1, the flow proceeds to step 404. Increase by 1. Thereafter, in step 405, if the counter value is set to, for example, 18, and the set value is not 18, the process returns to step 403 and repeats the above operation until the counter value reaches the set value of 18. In step 405, when the counter value is set to 18, the controller 10 proceeds to step 406. The controller 10 recognizes that there is no voice signal and controls the call controller 14 to cut the call path.

However, when the detection signal of the port P1 is not high for a predetermined time, for example, 10 seconds in step 403, the controller 10 determines that one cycle on / off signal pulse of the signal detected from the port P1 is 60ms- in step 407. If it is 1200ms or not, it returns to step 402 if it is not 60ms-1200ms and continues to form a call path. However, if one cycle on / off pulse of the signal detected from port P1 in step 407 is 60ms-1200ms, the process proceeds to step 408 to clear the counter to zero. In step 409, the controller 10 stores one cycle on / off pulse of the detection signal input through the port P1 in the internal memory and sets the reference value. Thereafter, in step 410, the counter value is increased by 1 and the flow proceeds to step 411, and it is checked whether the counter value is a preset value, for example, 7. In this case, if the preset value is not 7, the controller proceeds to step 412 and inputs one cycle on / off pulse of the next detection signal from the comparator 24 through the port P1. Then, in step 413, the control unit 10 checks whether one cycle on / off pulse of the input detection signal is on / off pulse within a predetermined error range by comparing with the set reference value and turns on / off within a certain error range. If it is a pulse, the operation returns to step 407 and the above operation is repeated until the counter value becomes the set value. In this case, the constant error range may be, for example, a reference value ± 20 ms. However, if the one cycle on / off pulse of the input next detection signal in step 413 is not the on / off pulse within a predetermined error range compared to the set reference value, the process returns to step 407 and repeats the above-described operation. Detect the signal input from the beginning again.

By repeating the above operation, in step 411, the controller 10 controls the call controller 14 by recognizing the signal detected through the port P1 as busy tone when the counter value reaches a set value, for example, 7. To cut the currency.

As described above, the present invention cuts the call loop when a silent state is detected for a predetermined time during a call after the call path is formed in the phone terminal, so that the call can be received even when the handset is placed incorrectly.

Claims (9)

A call path automatic recovery device of a telephone terminal, comprising: a control unit for automatically cutting a call path when a silent signal is detected after a call path is formed, and for connecting or cutting a call loop of a telephone line by the control of the control unit; Receives a signal received from the telephone line or a signal transmitted to the telephone line through the telephone line controller in a state where the telephone line controller and the telephone line loop are connected, and compares it with a predetermined reference level signal. The automatic recovery apparatus for a call of a telephone terminal, characterized in that it comprises a silent signal detection unit for detecting a signal provided to the control unit. 2. The automatic recovery of a call of a telephone terminal according to claim 1, further comprising a telephone circuit connecting the telephone line with a handset and outputting a voice signal received from the telephone line or a voice signal input from the handset. Device. The apparatus of claim 2, wherein the silent signal detector comprises: an amplifier for amplifying and outputting a voice signal received from the telephone line through the call path controller or a transmission voice signal output from the call circuit to a predetermined level; And a comparison unit for receiving a sound signal amplified from the unit and comparing the signal with a predetermined reference level signal to provide a silent detection signal to the controller. In the call path automatic recovery device of the telephone terminal, a control unit for automatically cutting the call path when the CPC signal or no signal is detected after the call path is formed, and connects the call loop of the telephone line by the control of the control unit or A CPC detection unit connected to the call path control unit, a CPC detection unit connected to the call path control unit, detecting a CPC signal from the frequency received from the telephone line, converting the CPC signal into digital data, and providing the control unit to the control unit; A signal detecting unit for receiving a signal or a voice signal transmitted to the telephone line through the call path control unit and comparing it with a predetermined level signal to provide a signal presence detection signal to the control unit automatically comprises a call detection unit. Recovery device. A method for automatically recovering a call path of a telephone terminal, the method comprising: forming a call path when a hook switch is hooked off, detecting a silent signal after forming the call path, and a call path when detecting the silent signal Automatic recovery method by the call of the telephone terminal, characterized in that the process of cutting. The method of claim 5, wherein the silent signal detecting process comprises: checking whether there is a signal change for a time set as a signal input port, and increasing a counter one by one when there is no signal change for a time set in the signal change checking process; And increasing the counter to check whether the set number of times is increased, and recognizing when the counter value reaches the set number of times when the counter value reaches the set number. The method of claim 6, wherein the set time is 10 seconds. 8. The method of claim 6 or 7, wherein the set number of times is 18. A method for automatically recovering a call path of a telephone terminal, the method comprising: forming a call path when a hook switch is hooked off, detecting a CPC signal after forming the call path, and a call path when detecting the CPC signal. And a step of detecting a silence when a CPC signal is not detected in the CPC detection process, and a step of cutting a call path when a silence is detected in the silence detection process. How to automatically recover in your currency.