KR101045185B1 - Power line communication circuit - Google Patents

Abstract

The present invention is to provide a power line communication circuit that can simplify the configuration of the circuit and reduce the size of the product, according to the present invention; A digital-to-analog converter for converting a digital signal to be transmitted through a power line combiner into an analog signal; An analog-digital converter for converting the received analog signal into a digital signal; An analog front end circuit portion which filters and amplifies an analog signal to be transmitted or a received analog signal, and has a circuit portion commonly configured for transmission and reception; A first switch switched to a closed position by control upon reception and transferring the received analog signal to the analog front end circuit; A second switch switched to a closed position by control during transmission, for transferring an analog signal from the analog front end circuit portion to the power line combiner; And a digital signal, outputting a control signal to switch the first switch to a closed position upon reception, and outputting a control signal to the open position to the second switch, and opening the first switch to the open position. Disclosed is a power line communication circuit including a digital signal processing unit for outputting a control signal to switch to a closed position while simultaneously outputting a control signal to switch to.

Powerline communication, analog shear circuit

Description

Power Line Communication Circuit {POWER LINE COMMUNICATION CIRCUIT}

The present invention relates to a power line communication circuit, and more particularly, to a power line communication circuit that can reduce the size of the power line communication device and reduce the cost of the product by simplifying the circuit configuration.

Power line communication can use existing power line without additional communication line, so investment cost is low and home network can be easily communicated by connecting plug to wall socket. It is attracting attention as a suitable communication medium in home automation, home aotomation, remote meter reading and factory automation.

A power line modem is a terminal (terminal device) for power line communication, and is generally divided into an analog signal processor and a digital signal processor.

The digital signal processing unit includes a power line transceiver, an interface circuit unit for interface with an upper host, and a memory, and recently, implements corresponding functions on a single chip. The analog signal processor includes an amplifier, a filter, an analog-to-digital converter, a digital-to-analog converter, and a power line coupling. The analog signal processing unit is composed of individual elements, not a single chip. The present invention focuses on the improvement of the analog signal processor.

In the power line communication circuit according to the prior art, the analog signal processing unit has a configuration in which the filter unit and the amplification unit are separately provided for transmission and reception, and thus there is a problem in that the circuit configuration is complicated, the size is large, and the manufacturing cost increases.

Accordingly, the present invention is to solve the problems of the prior art, to simplify the configuration of the analog signal processing unit to reduce the size of the power line modem and to provide a power line communication circuit that can reduce the manufacturing cost.

The object of the present invention, in the power line communication circuit,

A power line combiner for processing signal transmission and reception between a power line and the power line communication circuit;

A digital-to-analog converter for converting a digital signal to be transmitted through the power line combiner into an analog signal;

An analog-digital converter for converting an analog signal received through the power line combiner into a digital signal;

Connected between the digital-to-analog converter and the analog-to-digital converter and the power line coupler to filter and amplify an analog signal to be transmitted through the power line coupler or an analog signal received through the power line coupler, and commonly for transmission and reception. An analog front end circuit portion having a circuit portion configured;

A first switch connected between the analog front end circuit part and the power line coupler, switched to a closed position by control upon reception, and transferring an analog signal received from the power line coupler through a power line to the analog front end circuit part;

A second switch connected between the analog front end circuit part and the power line coupler, switched to a closed position by control during transmission, and transferring an analog signal from the analog front end circuit part to the power line coupler; And

A first switch connected between the analog front end circuit part and the power line coupler, switched to a closed position by control upon reception, and transferring an analog signal received from the power line coupler through a power line to the analog front end circuit part;

A second switch connected between the analog front end circuit part and the power line coupler, switched to a closed position by control during transmission, and transferring an analog signal from the analog front end circuit part to the power line coupler; And

Connected to the digital-analog converter, the analog-to-digital converter, the first switch, and the second switch to process a digital signal,

Outputting a control signal to switch the first switch to the closed position upon reception, and outputting the control signal to the open position to the second switch;

Achievement by providing a power line communication circuit according to the present invention comprising a digital signal processing unit for outputting a control signal to switch the first switch to the open position at the time of transmission and at the same time to switch the control switch to the closed position. Can be.

According to the present invention, the configuration of the power line communication circuit is simplified and the size of the power line modem consisting of the power line communication circuit is simplified and the manufacturing cost can be reduced by using the filter circuit unit and the signal amplifier circuit unit for both transmitting and receiving. Can be obtained.

The object of the present invention and the constitution and effects of the present invention to achieve the same will be more clearly understood by the following detailed description of the preferred embodiment of the present invention with reference to the accompanying drawings.

1 is a functional block diagram sealing the configuration of a power line communication circuit according to the present invention. Referring to Figure 1 described the configuration and operation of the power line communication circuit according to the present invention.

The power line communication circuit according to the present invention is a circuit portion constituting a power line modem, a power line coupler (2), a digital-to-analog converter (3), an analog-to-digital converter (6), an analog front end The circuit part 4, the 1st switch 4d, the 2nd switch 4e, and the digital signal processing part 1 are comprised. The power line communication circuit according to the invention may further comprise a secondary receive filter part 5 connected between the analog front end circuit part 4 and the analog-to-digital converter 6.

The power line combiner 2 is a circuit part for processing signal transmission and reception between the power line and the power line communication circuit according to the present invention, and may be configured as a coupling transformer that is responsible for transmission to and reception from the power line.

The digital-to-analog converter 3 consists of a circuit section for converting a digital signal to be transmitted through the power line combiner 2 into an analog signal.

The analog-to-digital converter 6 is a circuit section for converting an analog signal received through the power line combiner 2 into a digital signal. Here, the analog-to-digital converter 6 may be configured as a circuit including a variable gain amplifier circuit having a variable gain.

The analog front end circuit section 4 is connected between the digital-to-analog converter 3 and the analog-to-digital converter 6 and the power line coupler 2 so as to transmit an analog signal or power line coupler 2 to be transmitted through the power line coupler 2. Filter and amplify the received analog signal through the, and has a circuit portion that is commonly configured for transmission and reception. The analog front end circuit section 4 may include a transmission / reception filter section 4a, a transmission / reception signal amplifier 4b and a large current amplifying output stage circuit section 4c.

The transmission / reception filter unit 4a is included in a circuit unit commonly configured for transmission and reception, and is a filter circuit unit for removing noise signals included in analog signals to be transmitted and received. Such a filter circuit may consist of a low pass filter circuit comprising a capacitor connected in parallel with a resistor connected in series on the circuit. In the reception operation, the transmission / reception filter unit 4a operates as a primary reception filter circuit, and the secondary reception filter unit 5 operates as a secondary reception filter which filters again a high frequency signal among the reception signals. The secondary receive filter unit 5 may also be configured as a low pass filter circuit.

The transmit / receive signal amplifier 4b is composed of an amplifying circuit and is included in a circuit unit commonly configured for the transmission and reception. The transmission / reception signal amplifier 4b is an amplification circuit section for amplifying the analog signal to be transmitted and received.

The transmission / reception filter section 4a and the transmission / reception signal amplifier 4b are circuit sections commonly used for transmission and reception according to the present invention.

The high current amplifying output stage circuit section 4c is composed of an amplifying circuit and is connected in accordance with the closed position switching of the second switch 4e only at the time of transmission to finally amplify and output the signal to be transmitted.

The first switch 4d is connected between the analog front end circuit section 4 and the power line coupler 2, is switched to the closed position by control upon reception, and the analog signal received from the power line coupler 2 via the power line is analogized. Transfer to the front end circuit section (4). The first switch 4d may be regarded as a circuit portion included in the analog front end circuit portion 4 as shown by the dashed block in FIG. The first switch 4d may be considered a receive switch as indicated in FIG.

The second switch 4e is connected between the analog front end circuit section 4 and the power line coupler 2 and is switched to the closed position by the control at the time of transmission, so that the analog signal from the analog front end circuit section 4 is transferred to the power line coupler 2. To pass). The second switch 4e may be regarded as a circuit part included in the analog front end circuit part 4, as shown by the dashed block in FIG. The second switch 4e may be regarded as the transmission number position as shown in FIG.

The digital signal processing section 1 is connected to the digital-to-analog converter 3, the analog-to-digital converter 6, the first switch 4d and the second switch 4e, and is an upper host, i.e., an indoor premises. Digital signal received according to a processing program, including an interface circuit section (not shown) for a home network system and an interface thereof, and a memory (not shown) for storing transmission / reception data (information) and a processing program. It can process and output the digital signal to be provided or transmitted to the upper host, and emit the switch control signal when transmitting and receiving. The digital signal processing section 1 outputs the switch control signal to switch the first switch 4d to the closed position upon reception, and outputs the switch control signal to switch to the open position to the second switch 4e. The digital signal processing unit 1 outputs a switch control signal to switch the first switch 4d to the open position during transmission, and outputs a switch control signal to switch to the closed position to the second switch 4e.

The transmission and reception operation of the power line communication circuit according to the present invention configured as described above will be described.

First, in the transmission operation, first, the digital signal processing unit 1 outputs a switch control signal to control the first switch 4d to be switched to the open position and at the same time to the second switch 4e to be switched to the closed position. . Thereafter, the digital transmission data output by the digital signal processing unit 1 is converted into an analog signal by the digital-analog converter 3, and the high frequency signal is removed through the transmission / reception filter 4a, and then the transmission / reception signal amplifier 4b and The signal is amplified through the high current amplifying output stage 4c, and is applied to and transmitted to the power line through the power line combiner 2 via the second switch 4e in the closed position.

Next, in the reception operation, first, the digital signal processing unit 1 outputs a switch control signal to control the first switch 4d to be switched to the closed position and at the same time the second switch 4e to switch to the open position. . Subsequently, the analog received signal received by the power line combiner 2 through the power line is removed by the high frequency signal through the transmit / receive filter 4a, and then amplified by the transmit / receive signal amplifier 4b, and the secondary receive filter 5 is removed. The high frequency signal is removed again, and then converted into a digital signal by the analog-to-digital converter 6 and input to the digital signal processor 1. Thereafter, the digital signal processor 1 may process the received digital signal and provide the received digital signal to an upper host or store it in a memory.

As described above, according to the present invention, the configuration of the power line communication circuit is simplified and the size of the power line modem composed of the power line communication circuit can be reduced and the manufacturing cost can be reduced by using the filter circuit part and the signal amplifier circuit part for both transmission and reception. The effect can be obtained.

1 is a functional block diagram sealing the configuration of a power line communication circuit according to the present invention.

* Explanation of symbols on the main parts of the drawings

1: digital signal processor 2: power line coupler

3: digital-to-analog converter 4: analog front end circuit sector

4a: transmission and reception filter unit 4b: transmission and reception signal amplifier

4c: large current amplifying output stage circuit portion 4d: first switch

4e: second switch 5: secondary receive filter

6: analog to digital converter

Claims (2)

In the power line communication circuit, A power line combiner for processing signal transmission and reception between a power line and the power line communication circuit; A digital-to-analog converter for converting a digital signal to be transmitted through the power line combiner into an analog signal; An analog-digital converter for converting an analog signal received through the power line combiner into a digital signal; Connected between the digital-to-analog converter and the analog-to-digital converter and the power line coupler to filter and amplify an analog signal to be transmitted through the power line coupler or an analog signal received through the power line coupler, and commonly for transmission and reception. A circuit section comprising: an analog front end circuit section having a transmission / reception filter section and a transmission / reception signal amplifier; A first switch connected between the analog front end circuit part and the power line coupler, switched to a closed position by control upon reception, and transferring an analog signal received from the power line coupler through a power line to the analog front end circuit part; A second switch connected between the analog front end circuit part and the power line coupler, switched to a closed position by control during transmission, and transferring an analog signal from the analog front end circuit part to the power line coupler; And Connected to the digital-analog converter, the analog-to-digital converter, the first switch, and the second switch to process a digital signal, Outputting a control signal to switch the first switch to the closed position upon reception, and outputting the control signal to the open position to the second switch; And a digital signal processor for outputting a control signal to switch the first switch to an open position during transmission, and to output the control signal to the second switch to a closed position. The method of claim 1, The analog front end circuit portion, A transmission / reception filter unit included in a circuit unit commonly configured for transmission and reception, for removing a noise signal included in an analog signal to be transmitted and received; A transmission / reception signal amplifier included in a circuit unit commonly configured for transmission and reception, and amplifying an analog signal transmitted and received; And And a large current amplifying output stage circuit portion which is connected in accordance with the closed position switching of the second switch only during transmission and finally amplifies and outputs a signal to be transmitted.

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