KR910000628B1 - Key phone's loop simulation circuit - Google Patents

Abstract

The circuit for connecting data processor to a key phone for data communication includes a relay (Ry) for selecting voice or data communication between key phone system (10) and a hybrid transmitter (20), a loop simulation circuit (120) for interfacing a loop detection unit (LD) and loop enable terminal (DE) so that data transmission is possible, and a terminal (130) for data communication through a loop constructed by the loop simulation circuit (120).

Description

Loop simulation circuit of key phone

1 is a block diagram of a conventional key phone system.

2 is a block diagram according to the present invention.

3 is a detailed circuit diagram of the loop simulation circuit 200 of FIG. 2 according to the present invention.

* Explanation of symbols for main parts of the drawings

10: key phone system 20: hybrid transformer

30: transceiver amplification unit 40: handset

50: speakerphone circuit 60: audio amplifier circuit

70: data communication circuit 80: power supply circuit

90: key and light emitting diode matrix circuit 100: microcomputer

120: loop simulation circuit 130: data terminal

180: key phone

The present invention relates to a key phone system, a key phone telephone which connects a personal computer equipped with a modem to a special key phone system or a device capable of processing various data to enable various data communication with the counterpart via an extension or trunk line of the key phone telephone. Of the loop simulation circuit.

In the conventional key phone system, only the voice calls with the stations L1 and L2 are performed through the CO line as shown in FIG.

The first diagram is a circuit diagram composed of the key phone system 10 and the key phone telephone 180.

Key phone system 10 and the key phone telephone 180 as a main device is connected to the key phone system 10 and the extensions (L1, L2) and the hybrid transformer 20 to transmit the call signal well, and amplify the transmission and reception call signal Transmitting and receiving amplification unit 30, the handset 40 for receiving a user's call signal, and the handset 40 is left in the hook-on state, the transmission and reception call sound to be able to talk to the speaker through the transmission and reception amplifier 30 A speaker phone circuit 50 for processing a signal, an audio amplifier circuit 60 for amplifying a ring signal input and an output of the speaker phone circuit 50, and data and power supply terminals P1 and P2 of the key phone system 10; Connected to the key phone system (10) to the various functions of the system, such as subscriber registration, group, long-distance call grade, speed dial number trunk line signaling system password, and other data transmission circuit 70 that can transmit various data, power to the system Ball A power supply circuit 80, a key for displaying a dial key of a user, a function corresponding to the system program data input and a mode, and a light emitting diode matrix circuit 90, and a key of the key and light emitting diode matrix circuit 90 The microcomputer 100 performs a program according to an input, generates a control command, controls to display a function, receives and transmits a ring signal from a complex frequency output and a line according to dialing, and receives and processes data through a data communication circuit 70. When the ring signal is input through the key phone system 10, the audio amplifier 60 is controlled by the control circuit of the microcomputer 100 to amplify the ring signal, and the signal is a skipper. If the handset is a handset 40, the call is made through the transmission and reception amplifier 30 and the hybrid circuit 20, the speakerphone function In the on-hook it is able to call to the speaker through the speaker circuit 50 and the audio amplifier circuit 60.

Since the microcomputer 100 can process only digital data, the microcomputer 100 receives and processes data loaded on the data and the power supply terminals P1 and P2 through the data communication circuit 70. Therefore, the prior art mainly relied only on voice calls with the other party, and in the case of data communication by connecting a modem and an information processing terminal in the key phone system 10, it was impossible at all.

This is because, for data communication between predetermined systems, only a complicated configuration and control of the protocol can be performed. As shown in FIG. 1, the microcomputer 100 uses the data communication circuit 70 and the data through the data communication circuit 70. The transfer is not a configuration that is capable of transferring a variety of general data, but as described above, the microcomputer 100 checks the simple program data keyed by the key and the LED matrix circuit 90 to perform a key phone system 10. It is possible to transmit only the data for the program according to the keyphone service by inputting), so that many data transfers processed by general information terminals are impossible at all.

Accordingly, an object of the present invention is to add an interface circuit (loop simulation circuit) that can directly connect a data processing device such as a personal computer or a data terminal to a key phone, so that data communication with the other party is possible through a trunk line passing through the extension of the key phone. It is to provide a circuit.

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

2 is a circuit diagram according to the present invention, which is configured to supply power to a key phone system 10 as a main device from a power supply circuit 80 through lines P1 and P2, and from the key phone system 10 to a line L1. And, the hybrid transformer 20 is connected through the L2, the transmission and reception amplifier 30 from the hybrid transformer 20 is connected, the handset 40 and the speakerphone circuit 50 from the transmission and reception amplifier 30 A voice signal is connected to each other, and an audio amplification circuit 60 is connected to the speakerphone circuit 50 so that an output signal drives a speaker, and a transformer (P1, P2) from the power supply terminals P1 and P2. The data communication circuit 70 is connected through Tr, and the data communication circuit 70 and the key and the light emitting diode matrix circuit 90 are configured to be connected to the microcomputer 100. This part is a known key phone telephone ( 180) and the same reference numeral as in FIG. And a relay switching unit Ry for voice call and data communication switching between the key phone system 10 and the hybrid transformer 20, and a loop detection stage LD and a loop of the micom 100. The loop simulation circuit 120 for data transmission interfacing to the enable end DE is connected, and a data transmission path is formed with the key phone system 10 to transmit data according to the switching of the relay switching Ry. The loop simulation circuit 120 is connected to a data terminal 130 that transmits and receives data by forming a loop.

FIG. 3 is a detailed circuit diagram of the loop simulation circuit 120 and the relay switching unit Ry of FIG. 2 according to the present invention, and shows the gate of the field effect transistor TR1 from the loop enable terminal DE of the microcomputer 100. , A source terminal of the field effect transistor TR1 is grounded, and a drain terminal of the field effect transistor TR1 is connected to a second input / output line L2 'of the first and second input / output lines L1' and L2 'of the data terminal 130. A diode D2 is connected between the first and second input / output lines L1 'and L2', and a photocapillar IC2 is connected to the light emitting diode cathode side from the first input / output line L1 '. The light emitting diode cathode is connected to the output terminal Out of the switching regulator IC1 through a resistor R1 and to the current flow control terminal ADJ, and has a loop detection stage LD of the microcomputer 100. ) Is connected to the collector of the phototransistor of the photocapture (IC2), the switch The relay coil CL1 of the relay switching unit Ry is connected to the input terminal In of the regulating regulator IC1 and configured to receive a predetermined applied power from the power supply terminal Vcc, while the capacitor C1 is received from the input terminal In. ) Is grounded, and the cathode of the diode D1 is connected from the power supply terminal Vcc.

The first and second switches Sw1 and Sw2 switched according to the driving of the relay coil CL1 are connected to the input / output lines L1 and L2 of the key phone system 10, and the first switch Sw1 is connected to the first and second switches Sw1. The contact end 6 is connected to the intermediate node 7 of the primary coils CL2 and CL3 of the hybrid transformer 20, and the second contact 8 of the first switch Sw1 is connected to the coil CL3. The first contact point 9 of the second switch Sw2 is connected to the input terminal, and is connected to the light emitting diode cathode side of the photocoupler IC2 through the capacitor C3, and the second switch Sw2 of the second switch Sw2. The second contact end 11 is configured to be connected to the input of the secondary coil CL5 of the hybrid transformer 20 and to the line L2 through the resistor R3. The power supplied to the photocoupler IC2 is supplied from the data terminal 130 to the transmission power during data transmission from the first input / output line L1 'through the capacitor C3. The field effect transistor TR1 With the source of ground as the ground, the data supplied from the photocoupler IC2 is loaded in series by the voltage applied between the first and second input / output L1 'and L2'.

Therefore, a specific embodiment of the present invention will be described in detail with reference to FIGS. 2 and 3, a personal computer having a modem as a predetermined data terminal 130 in the first and second input / output lines L1 'and L2'. Connect a data device such as a data terminal to call a desired party (extension or trunk line) and press the key and the corresponding key (data key) on the key matrix of the LED matrix circuit 90 to enable the loop enable end of the microcomputer 100. When (DE) becomes "high" and the field effect transistor TR1 is turned on to conduct, the drain of the field effect transistor TR1 becomes "low" so that the current flows out through the terminal 130 and thus the photocoupler (IC2). ) Is turned on.

Since the field effect transistor TR1 is turned on, the coil CL1 of the relay switching unit Ry is excited to form a loop by switching of the first and second switches SW1 and SW2. The relay switching unit Ry Coil CL1 is excited and the first contact points 6 and 11 of the first and second switches SW1 and SW2 are moved to the second contact points 8 and 9 to form a loop. At this time, the switching regulator IC1 supplies a constant current of a suitable current (20-26 mA) through which the modem can flow, and conducts the photocoupler (IC2) (4N26: Opto coupler) while simultaneously detecting the loop of the microcomputer 100. The stage LD is changed from "high" to "low" state (Loop formation detection) and the microcomputer 100 recognizes that a loop is formed.

The microcomputer 100 generates a DTMF signal and transmits a tone to the talker 40 through the transmission / reception amplifier 30 to inform the user that the data terminal 130 has a loop for data transmission. The data terminal 130 is formed by looping the data device of the calling system and the telephone via a data device and a system attached to the called telephone by moving the first and second switches SW1 and SW2 of the relay switching unit Ry. Various data through the first line (L1 ') through the capacitor (C3) through the data from the second switch (9) of the switch SW2 to the L2 of the key phone system 10 can be serially communicated.

It can be seen that the power output from the switching regulator IC1 and supplied through the photo coupler IC2 is supplied as the power of the transmission line. Data input and output from the data terminal 130 is loaded on a predetermined level by the provided power. When the data transmission is completed, the key and the light emitting diode matrix circuit 90 return the pressed data key. The light emitting diode of the corresponding data key is turned off under the control of the microcomputer 100, and the field effect transistor TR1 is turned off. The contact of Ry may be returned to make a voice call through the transmitting and receiving terminals TX and RX through the original voice line.

Upon receiving data from the other party, the subscriber of the key phone telephone 180 first inputs the key and the key for receiving data from the other party in the light emitting diode matrix circuit 90 and the microcomputer 100 performs the loop enable end DE. The field effect transistor TR1 is driven to " high " and the photocoupler IC2 is driven in the same manner as described above, and the power is regulated by the switching regulator IC1 to provide the line voltage of the modem 130. As the voltage of the switching regulator IC1 is applied, the second switch SW2 is moved to the second contact point 9 by excitation of the coil CL1. In this case, the data through the key phone system 10 is input to the terminal 130 through the capacitor C3 through the switch SW2 to receive the data.

이다.In the circuit, diodes D1 and D2 provide discharge paths for relays and modems to protect relay Ry and modem devices, and capacitors C1, C2 and C3 are used for the purpose of removing ripple and noise. Output current to regulator (IC1)

to be.

As described above, users can directly connect a large number of information to the terminal screen by directly connecting various data terminals (Personal computer, Data Terminal, etc.) as well as voice calls to key phone phones already widely used as office communication devices. By enabling transmission and reception, there is an advantage that can contribute a lot as a communication means in the high information age.

Claims (2)

In a key phone telephone having a microcomputer 100, a key phone system 10, a hybrid transformer 20, a key and a light emitting diode matrix circuit 90, a voice is generated between the key phone system 10 and the hybrid transformer 20. Connect the relay switching unit (Ry) for communication and data communication switching, and loop loop simulation circuit 120 for interfacing data transmission to the loop detection stage (LD) and the loop enable terminal (DE) of the microcomputer (100) A data terminal configured to connect with the key phone system 10 and a data transmission path to transmit data according to the switching of the relay switching unit Ry, and to transmit and receive data by forming a loop of the loop simulation circuit 120 ( Loop simulation circuit of the key-phone telephone, characterized in that the connection. The loop simulation circuit 120 connects the gate of the field effect transistor TR1 from the loop enable end DE of the microcomputer 100, and the source terminal of the field effect transistor TR1 is The ground terminal is connected to the second input / output line L2 'of the first and second input / output lines L1' and L2 'of the data terminal 130, and the first and second input / output lines L1' and L2 are respectively connected to the ground terminal. The diode D2 is connected between '), the photo coupler IC2 is connected to the light emitting diode cathode side from the first I / O line L1, and the light emitting diode cathode side is switched through the resistor R1. It is connected to the output terminal (Out) of the regulator (IC1) and at the same time connected to the current flow control terminal (ADJ) stage, the loop detection stage (LD) of the microcomputer 100 and the collector of the phototransistor of the photocoupler (IC2) The input terminal In of the switching regulator IC1 is connected to the relay switching unit Ry. The relay coil CL1 is connected to receive a predetermined applied power from the power supply terminal Vcc, while the capacitor C1 is connected and grounded from the input terminal In, and the diode D1 is connected from the power supply terminal Vcc. Loop simulation circuit of a key-phone, characterized in that the cathode of the connection.

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