KR20080075949A - Transmitting/receiving circuit of videophone using power line - Google Patents

Abstract

Tx and Rx circuits using a power line in a video phone are provided to transmit and receive clear audio/video signals through a 2-wire power line by delivering video signals, photographed by a camera, to the power line through a transmitting module, displaying them on a monitor through a receiving module, and filtering audio signals, inputted through audio transceivers, through noise-cancelling choke coils. A video signal, photographed by the camera(1) of a video phone, is delivered to a power line(4) through a transmitting module(10). In this case, the video signal is transmitted to the power line together with an audio signal which is inputted through the first noise cancelling choke coil(3) from an outdoor audio transceiver(2). As a receiving module receives the video signal through the power line, the video signal is displayed on a monitor(5). An audio signal, inputted through an indoor audio transceiver, is transmitted through the second noise-cancelling choke coil(6).

Description

Transmitting / receiving circuit of videophone using power line

1 is a block diagram schematically showing the overall configuration of the present invention.

2 is a circuit diagram showing a configuration of a transmission circuit of the present invention.

3 is a circuit diagram showing a configuration of a receiving circuit of the present invention.

4 is a waveform diagram of a major portion of the operation of the present invention.

Explanation of symbols on the main parts of the drawings

1: camera of the video phone 2: door audio transceiver

3, 6: Choke coil for noise removal 4: Power line

7: internal voice transceiver 10: transmission module

11: bias part 12: voltage drop part

13: differential amplifier 14: oscillation IC

15, 22: transformer 16, 21: power supply

20: receiving module 23: amplifying unit

24: output amplifier

The present invention relates to a transmission and reception circuit of a video phone using a power line. Specifically, the video signal photographed by the camera of the video phone is transmitted to the power line through a transmission module while the voice signal by the door audio transceiver removes noise. While the video signal is transmitted and received via the choke coil for use, the video signal is displayed on the monitor through the receiving module, while the audio signal by the sound transmitter / receiver is transmitted and received through the choke coil for noise removal, thereby clearing the video signal and the audio signal. The present invention relates to a transmission and reception circuit of a video phone using a power line capable of transmitting and receiving through a power line of a line.

In general, the videophone is to open the door after confirming the visitor through the video signal and the audio signal by the camera when the visitor from the outside presses the call switch of the front door transceiver. Is a well known fact.

The configuration of the conventional video phone,

It consists of a front door camera part located outdoors, a monitor part located indoors, and a signal transmission line connecting the front door camera part and the monitor part.

When the visitor presses the call switch, the call signal generated by the call circuit of the door camera unit, the video signal generated by the camera module circuit and amplified by the video circuit, and the audio signal input from the microphone are transmitted to the monitor unit through the audio circuit.

Then, the monitor unit outputs the received video signal through the video circuit, and the received audio signal is output to the speaker through the audio circuit.

In addition, the door camera unit and the monitor unit are connected by a signal transmission line, thereby transmitting and receiving various data, and the video signal and the audio signal are transmitted to each other through the signal transmission line.

However, the video phone has a problem that the installation is complicated because the signal transmission line for connecting the front camera unit, the monitor unit must have a four-wire type or a separate dedicated line.

Therefore, a two-wire video phone has been proposed to modulate and transmit a signal by FM in order to transmit audio and video signals, and to use a frequency division multiplexing (FDD) method to separate a transmission signal from a reception signal.

That is, the videophone transmits the signal at the frequency of A, the camera receives the signal at the frequency of A, and conversely, the camera transmits the signal at the frequency of B and the videophone receives the signal at the frequency of B. Calls can be made without causing interference.

However, in the two-wire video phone using this method, there is a problem in that the call is not made by transmitting and receiving at the same frequency when the video phones want to make a call.

Therefore, it is necessary to exchange one transmission / reception frequency with each other, and in order to solve such a problem, a plurality of oscillation ICs are conventionally provided (as many as the number of transmission side), and the transmission / reception frequency is manually changed at the signal transmission side. It was used to change the frequency using a relay or relay.

Therefore, Utility Model Registration Application No. 57371 dated December 26, 1996 (frequency conversion circuit of two-wire videophone) was proposed.

This includes a tuning circuit comprising oscillating ICs, IFTs, and capacitances on the transmitting and receiving sides of a plurality of video phones,

A buffer unit for buffering the frequency oscillated in the tuning circuit;

An amplifier for amplifying and outputting the signal passing through the buffer unit;

A frequency conversion circuit comprising a transistor and a capacitance and converting a frequency;

By configuring microprocessors that control the frequency conversion circuit, the transmission and reception circuit maintains the frequency of the transmitter at the first frequency and the frequency of the receiver at the second frequency by a tuning circuit during normal transmission and reception. The frequency conversion circuit is operated by the control signal of the microprocessor to convert the frequency of the transmitter to the second frequency and the parking number of the receiver to the first frequency.

However, in the frequency conversion circuit of the conventional two-wire videophone, there is a hassle to set the frequency according to the time of transmission and the reception, as well as the complexity of the configuration for the delivery of the frequency, which increases the manufacturing cost. There was such a disadvantage.

Accordingly, the present invention has been made to solve the conventional problems as described above, while the video signal photographed by the camera of the video phone is transmitted to the power line through the transmission module while the voice signal by the door voice transceiver for noise removal The video signal is transmitted / received through the choke coil, while the video signal is displayed on the monitor through the receiving module, while the audio signal by the internal audio transceiver is transmitted / received through the choke coil for noise removal to provide clean video and audio signals. It is an object of the present invention to provide a video phone transmission and reception circuit using a power line capable of transmitting and receiving through a power line.

The transmission and reception circuit of the video phone using the power line of the present invention for achieving the above object,

The video signal photographed by the camera of the videophone is transmitted to the power line with the audio signal via the noise canceling choke coil in the door audio transceiver while passing through the transmission module.

While the video signal received through the power line is to be displayed on the monitor through the receiving module while the audio signal is transmitted and received by the soundproof transceiver through the noise canceling choke coil,

The transmission module,

A bias unit for adjusting a bias voltage of an image signal photographed by a video phone camera;

A differential amplifier for wide-band amplifying the video signal via the bias unit while being supplied with driving power;

An oscillation IC for modulating a wideband amplified video signal by the differential amplifier;

A transformer unit for outputting a video signal modulated by the oscillation IC to a DC power line while performing breakdown voltage processing;

While the DC power supplied from the DC power line is configured as a power supply for supplying the DC power required for operation while the voltage drop by the transformer,

The receiving module is,

A power supply unit for supplying DC power through the DC power line to the required operating power;

A transformer unit for inducing a video signal by an LC tuning frequency including a transformer coupled to the DC power line;

An amplifier for amplifying the video signal to correct reception sensitivity;

It is characterized in that the output amplification unit for amplifying the output of the amplified video signal to transmit and receive a clean video signal and audio signal through the power line of two lines.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 illustrates a transmission and reception circuit of a video phone using a power line according to an embodiment of the present invention.

The video signal photographed by the camera phone 1 of the video phone passes through the transmission module 10 and passes through the front line voice transceiver 2 to the power line 4 together with the audio signal via the noise removing choke coil 3. Send and receive,

The video signal received through the power line 4 is displayed on the monitor 5 through the receiving module 20 while the audio signal is transmitted and received by the soundproof voice transceiver 7 through the noise removing choke coil 6. It is configured to be.

2 shows the configuration of a transmission module,

A bias unit 11 of the variable resistor VR1 and the condenser C1 for adjusting the bias voltage of the video signal of the 15.4 kHz to 4 MHz band photographed by the video phone camera 1;

A voltage drop section 12 of a variable resistor VR2 and a resistor R1 for converting a power supply of 12V, which is a supply power source, into a drive power source for signal processing;

A differential amplifier 13 of the NPN transistor TR1 and the PNP transistor TR2 for wideband amplifying the video signal via the bias unit 12;

An oscillation IC 14 which modulates the video signal wideband amplified by the differential amplifier 13 as an input power supply while driving the video signal on a carrier frequency of an oscillation frequency, and modulating it;

In the condenser C2 for the video signal induced on the secondary side while the video signal modulated by the oscillation IC 14 is applied to the primary side of the transformer T1, the video signal is induced on the secondary side. A transformer section 15 which performs a breakdown voltage and outputs it to the DC power line 6;

The DC power supplied from the DC power line is composed of a power supply unit 16 for supplying the DC power required for operation while the voltage drop by the transformer (T2) and the capacitor (C3).

3 shows the configuration of a receiving module,

When the DC power supply through the DC power line 10 is induced on the primary side, the power supply unit 21 for supplying the voltage-dropped DC power induced on the secondary side of the transformer T3 to supply power for operation through the condenser C4. )Wow,

When induced on the primary side of the transformer T4 connected to the DC power line 4 via the capacitor C5, the secondary side is connected to the inductance of the transformer T4 and the LC tuning frequency by the capacitor C6 and the variable capacitor VC. A transformer 22 for causing the video signal to be induced on the secondary side;

An amplifying unit 23 which amplifies for correcting reception sensitivity during two-stage amplification of the video signal by the amplifiers OP1 and OP2,

In order to output the amplified video signal to the monitor through the line is composed of an output amplifier 24 for amplifying through the amplifier (OP3).

The transmission and reception circuit of the video phone using the power line of the present invention configured as described above is a call path when the visitor turns on the call switch (not shown) of the door voice transmitter 2 and keeps the hook-on state in the indoor voice transceiver 7. Is formed so that the video signal by the videophone camera 1 of the door is displayed on the monitor 5 in the room,

The video signal photographed by the camera phone 1 of the video phone passes through the transmission module 10 and passes through the front line voice transceiver 2 to the power line 4 together with the audio signal via the noise removing choke coil 3. Allows sending and receiving

The video signal received through the power line 4 is displayed on the monitor 5 through the receiving module 20 while the audio signal is passed through the noise canceling choke coil 6 by the soundproof voice transceiver 7. Allows sending and receiving

The state in which the video signal is transmitted and received,

The video signal of the 15.4 kHz to 4 MHz band captured by the video phone camera 1 has a waveform as shown in FIG. 4A while the bias voltage is adjusted by the variable resistor VR1 and the condenser C1 of the bias unit 11. To be transmitted as a video signal.

The power supply of 12V, which is the supply power supply, is converted into drive power required for signal processing by the variable resistor VR2 and the resistor R1 of the voltage drop section 12.

The video signal via the bias unit 11 is wideband amplified while passing through the NPN transistor TR1 and the PNP transistor TR2 of the differential amplifier 13.

In the oscillation IC 14 which drives the video signal amplified by the differential amplifier 13 as an input power source, the oscillation IC 14 modulates the video signal on the carrier frequency as shown in Fig. 4B of the oscillation frequency. By doing so, it becomes a video signal of a composite modulated waveform as shown in Fig. 4C.

In the capacitor C2, the withstand voltage is applied to the video signal induced on the secondary side by the image signal applied to the primary side of the transformer T1 of the transformer unit 15 connected to the oscillation IC 14, and then the DC power line 4 To print).

When the DC power supply through the DC power line 4 is induced to the primary side of the transformer T2 of the power supply unit 16, the DC power supply having the voltage drop on the secondary side is induced and used as a power source for operation through the condenser C3. To be supplied.

On the other hand, if the video signal received through the DC power line 4 is induced to the primary side of the transformer T3 of the transformer unit 22 via the capacitor C5, the inductance by the transformer and the capacitor C6 and The video signal is demodulated on the secondary side by the LC tuning frequency by the variable capacitor VC.

The amplification is performed in order to correct reception sensitivity during two-stage amplification of the video signal by the amplifiers OP1 and OP2 of the amplifier 23.

The amplified video signal is amplified by the amplifier OP3 of the output amplifier 24 to output the amplified video signal to the monitor 5 through a line so that the video signal as shown in FIG. 4A can be transmitted to the monitor. To be able.

As described in detail above, the video signal photographed by the camera of the video phone by the transmission and reception circuit of the video phone using the power line according to the present invention passes the transmission module while removing the choke coil for noise removal in the door voice transceiver. It transmits and receives through power line with voice signal passing through,

While the video signal received through the power line is to be displayed on the monitor through the receiving module while the audio signal is transmitted and received by the soundproof transceiver through the noise canceling choke coil,

The video signal captured and amplified by the camera is modulated by the oscillation IC into a video signal of a composite modulated waveform,

The modulated video signal is transmitted through a power transformer through a DC power line,

Demodulate the video signal by the LC tuning frequency of the transformer to the video signal of the synthesized modulated waveform received through the DC power line;

By amplifying the demodulated video signal and delivering it to the monitor, a clean image can be seen by a simple configuration without configuring a dedicated line or a separate modem.

Claims (3)

The video signal photographed by the camera phone 1 of the video phone passes through the transmission module 10 and passes through the front line voice transceiver 2 to the power line 4 together with the audio signal via the noise removing choke coil 3. Send and receive, The video signal received through the power line 4 is displayed on the monitor 5 through the receiving module 20 while the audio signal is transmitted and received by the soundproof voice transceiver 7 through the noise removing choke coil 6. Transmission and reception circuit of a video phone using a power line, characterized in that configured to. The method of claim 1, The transmission module, A bias unit 11 of the variable resistor VR1 and the condenser C1 for adjusting the bias voltage of the video signal of the 15.4 kHz to 4 MHz band photographed by the video phone camera 1; A voltage drop section 12 of a variable resistor VR2 and a resistor R1 for converting a power supply of 12V, which is a supply power source, into a drive power source for signal processing; A differential amplifier 13 of the NPN transistor TR1 and the PNP transistor TR2 for wideband amplifying the video signal via the bias unit 12; An oscillation IC 14 which modulates the video signal amplified by the differential amplifier 13 as an input power supply while driving the video signal on a carrier frequency; In the condenser C2 for the video signal induced on the secondary side while the video signal modulated by the oscillation IC 14 is applied to the primary side of the transformer T1, the video signal is induced on the secondary side. A transformer section 15 which performs a breakdown voltage and outputs it to the DC power line 6; The DC power supply from the DC power line of the video phone using a power line comprising a power supply unit 16 for supplying the DC power required for operation while the voltage drop by the transformer (T2) and the capacitor (C3) Transmit and Receive Circuit. The method of claim 1, The receiving module is, When the DC power supply through the DC power line 4 is induced on the primary side, the power supply unit supplies the DC power supply for operation through the condenser C4 so that the voltage dropped DC power is induced on the secondary side of the transformer T3. With 21, When induced on the primary side of the transformer T4 connected to the DC power line 4 via the capacitor C5, the secondary side is connected to the inductance of the transformer T4 and the LC tuning frequency by the capacitor C6 and the variable capacitor VC. A transformer 22 for causing the video signal to be induced on the secondary side; An amplifying unit 23 which amplifies for correcting reception sensitivity during two-stage amplification of the video signal by the amplifiers OP1 and OP2, Transmitting and receiving circuit of a video phone using a power line, characterized in that composed of output amplifiers for amplifying through the amplifier (OP3) for outputting the amplified video signal to the monitor through the line.

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