JP4341875B2 - Data transmission device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data transmission apparatus in power line communication, and more particularly to a data transmission apparatus with few data errors.
[0002]
[Prior art]
Conventionally, power line communication is a system that uses a commercial frequency 100V power line as an information transmission line, and uses a power line drawn into all ordinary households as a transmission line, so a new information transmission line is installed. It has the advantage that it is not necessary.
FIG. 3A is a schematic configuration diagram illustrating an example of a data transmission apparatus in conventional power line communication. As shown in the figure, the present apparatus includes a transmission device 5 including a modulation unit 51, a D / A converter 12, and an analog front end unit 13, a demodulation unit 61, an A / D converter 22, and an analog front end unit. And the receiving device 6 composed of 23. The analog front end unit 13 couples the output of the D / A converter 12 to a power line, and the analog front end unit 23 takes a transmission signal on the power line into the receiving device 6.
[0003]
In the figure, digital data input to the transmission device 5 is modulated by a modulation unit 51 by a predetermined modulation method and output to the D / A converter 12. The signal input in the D / A converter 12 is converted into an analog signal, and is coupled to the power line and transmitted in the analog front end unit 13.
The transmission data on the power line is received by the analog front end unit 23 of the receiving device 6, an analog data signal is taken out, and output to the A / D converter 22. The analog signal is converted into a digital signal by the A / D converter 22 and demodulated into digital data by a demodulation method corresponding to the modulation method of the modulation unit 51 by the demodulation unit 61 and extracted.
[0004]
[Problems to be solved by the invention]
Normally, in the above data transmission, the modulation scheme in the transmission apparatus is determined to be the optimum modulation scheme by initial training prior to data transmission.
However, the 100V line of the above power line is operated with various electrical devices connected to connectors or outlets laid on the 100V line, and noise generated from these devices is superimposed on the transmission, resulting in poor transmission. Road quality.
FIG. 3B is a diagram illustrating an example of noise in the output of the analog front end unit 23 of the receiving device 6 when the power line power supply frequency is 50 Hz, where the AC 100V voltage waveform crosses the 0V level (zero cross point). ) Shows periodically generated noise.
As shown in the figure, this noise is generated at a cycle of 10 ms because the power supply frequency is 50 Hz.
Therefore, as described above, in the conventional power line communication, the demodulation performance deteriorates due to the noise periodically generated at the output of the analog front end due to the noise on the power line (the period of 10 ms at the power supply frequency of 50 Hz). There was a drawback that an error occurred.
The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a data transmission apparatus that reduces data errors that occur periodically in power line communication.
[0005]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, in the invention of claim 1, a transmission device that modulates transmission data by a modulation means by a predetermined method and transmits the data via a power line, and a data that is received via the power line are demodulated by a demodulation means. in the power line data transmission device consists of a receiving apparatus for and outputting, the transmission device includes a detection means for the voltage level of the power line to supply timing information to the modulating means detects the timing of zero-cross point becomes 0V The modulation means is a modulation scheme having a higher noise resistance than a modulation scheme used at other times at a predetermined time before and after the zero cross point corresponding to noise generated near the zero cross point based on the timing information. a changeable, the receiving apparatus, Thailand said modulating means detects the timing of zero-cross point of the voltage level of the power line becomes 0V Includes a detecting means for supplying the packaging information, the demodulation means, the timing a predetermined time the zero cross point of the front and rear that correspond to the noise generated in the neighborhood of the zero-crossing point based on the information, the demodulation scheme to be used for other times To a demodulation method corresponding to the modulation method having high noise resistance .
[0006]
According to a second aspect of the present invention, there is provided a transmission device that transmits transmission data that has been error correction encoded by the error correction encoding means via a power line, and an error correction decoding means that corrects the data received via the power line. in the data transmission device consists of a receiving apparatus wherein the transmission device comprises a detection means for the voltage level of the power line to supply timing information to the correction code means detects the timing of zero-cross point becomes 0V The error correction code means is more resistant to noise than the error correction coding method used at other times at a predetermined time before and after the zero cross point corresponding to noise generated near the zero cross point based on the timing information . be changeable to a higher error correction coding scheme, the receiving apparatus detects the timing of zero crossing the voltage level of the power line becomes 0V Includes a detecting means for supplying the timing information to the modulating means, the error correction decoding means, the timing a predetermined time the zero cross point of the front and rear that correspond to the noise generated in the neighborhood of the zero-crossing point based on the information, otherwise It is possible to change from the error correction decoding method used at the time of 1 to the error correction decoding method corresponding to the error correction coding method having high noise resistance .
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described based on embodiments shown in the drawings. FIG. 1 is a schematic configuration diagram showing an embodiment of a data transmission apparatus according to the present invention.
As shown in the figure, a data transmission apparatus according to the present invention includes a transmission apparatus comprising a modulation section 11, a D / A converter 12, an analog front end section 13, and a detection circuit 14 for detecting a 0V level of the power line voltage. 1, a reception device 2 including an analog front end unit 21, an A / D converter 22, a demodulation unit 23, and a detection circuit 24 that detects a 0 V level of a power line voltage.
The modulation unit 11 is a modulation unit capable of modulating digital data by changing from a predetermined modulation method to another modulation method for a predetermined time during data transmission.
The demodulator 21 changes the digital data demodulation from a predetermined demodulation method to a demodulation method corresponding to the modulation method changed by the modulation unit 11 for a predetermined time during data transmission. It is a demodulator that can demodulate.
The functions and operations of the D / A converter 12, the analog front end units 13 and 21, and the A / D converter 22 are the same as those shown in FIG.
[0008]
In the figure, digital data input to the transmission apparatus 1 is modulated by a modulation unit 11 by a predetermined method, for example, a 16PSK modulation method with high transmission efficiency, and output to a D / A converter 12. The digital signal input to the D / A converter 12 is converted into an analog signal, and is further coupled to a power line at the analog front end unit 13 and transmitted.
On the other hand, the detection circuit 14 detects the timing at which the voltage level of the power line crosses 0 V, and transmits the detected timing information to the modulation unit 11. The modulation unit 11 having obtained this information changes the modulation method to a highly noise-resistant, for example, BPSK modulation method for a predetermined time before and after the timing detected by the detection circuit 14, and modulates transmission data. Then, the data is output to the D / A converter 12 and transmitted to the receiving side via the analog front end unit 13.
[0009]
The data signal transmitted through the power line is received and extracted by the analog front end unit 23 of the receiving device 2 and is output to the A / D converter 22. The analog signal input to the A / D converter 22 is converted into a digital signal, and further demodulated by the demodulation unit 23 using a demodulation method corresponding to the 16PSK modulation method in the transmission side modulation unit 11 to receive digital received data. Is output as
On the other hand, the detection circuit 24 detects the timing at which the power line voltage level crosses 0 V and transmits the detected timing information to the modulation unit 11. During a predetermined time before and after this timing, a signal modulated by the changed BPSK modulation method is transmitted from the transmission side. During that time, the demodulator 21 changes to a demodulation method corresponding thereto and demodulates. .
Note that the optimum modulation scheme and the modulation scheme to be changed are determined from the relationship between the error rate and the transmission rate by initial training prior to data transmission.
If the modulation method is changed to a method with high noise resistance in the middle of data transmission as described above, it is possible to reduce the periodic data error caused by power line noise and perform high quality data transmission. it can.
[0010]
FIG. 2 is a schematic configuration diagram showing a modified embodiment of the data transmission apparatus according to the present invention.
As shown in the figure, the data transmission apparatus according to the present embodiment includes an error correction code unit 15, a modulation unit 16, a D / A converter 12, an analog front end unit 13, and detection for detecting a 0 V level of the power line voltage. A receiving device comprising a transmitting device 3 comprising a circuit 14, an error correction decoding unit 25, a demodulating unit 26, an A / D converter 22, an analog front end unit 23, and a detection circuit 24 for detecting the 0V level of the power line voltage. 4 and.
The error correction code unit 15 is an error correction code unit capable of encoding by changing the error correction coding method from a predetermined method to another method for a predetermined time during data transmission. Yes, the error correction decoding unit 25 can change a predetermined error correction decoding method to an error correction decoding method corresponding to the error correction coding method changed by the correction coding unit 15 for a predetermined time. This is an error correction decoding unit. The modulating unit 16 and the demodulating unit 26 modulate transmission data by a modulation method determined by the system and demodulate the modulated wave.
The functions and operations of the D / A converter 12, the analog front end units 13 and 23, the detection units 14 and 24, and the A / D converter 22 are the same as the components having the same reference numerals in FIG. Omitted.
[0011]
In the figure, the digital transmission data input to the transmission apparatus 3 is added with a predetermined method defined by the system in the error correction code unit 15, for example, an error correction code using a convolutional code with a coding rate of 3/4. Is output to the modulation unit 16, modulated by the modulation unit 16, and output to the D / A converter 12.
The modulation signal input to the D / A converter 12 is converted into an analog signal, and is transmitted from the analog front end unit 13 by being coupled to a power line.
On the other hand, the detection circuit 14 detects the timing at which the voltage level of the power line crosses 0 V, and transmits this timing information to the error correction coding unit 15.
The error correction coding unit 15 that has obtained this information, for a predetermined time before and after the timing detected by the detection circuit 14, converts the error correction coding method into a highly noise-resistant, eg, coding rate 1/2 convolution. The transmission is changed to the error correction coding method using codes.
[0012]
In the reception device 4, the transmission signal from the transmission device 3 sent via the power line is received and taken out by the analog front end unit 23, converted into a digital signal by the A / D converter 22, and sent to the demodulation unit 26. Output. The demodulator 26 demodulates the signal using a system-determined method and outputs it to the error correction decoder 25.
In the error correction decoding unit 25, for example, error correction is performed by a Viterbi decoding method using a convolutional code with a coding rate of 3/4, and data is output.
On the other hand, the detection circuit 24 detects the timing at which the voltage level of the power line crosses 0 V, and transmits this timing information to the error correction decoding unit 25.
The error correction decoding unit 25 having obtained this information decodes the decoding method corresponding to the error correction coding method changed on the transmission side for a predetermined time before and after the timing detected by the detection circuit 14, that is, encoding. By changing to a Viterbi decoding method using a rate 1/2 convolutional code, error correction of data is performed and output as received data.
Note that the optimum error correction coding method, the error correction coding method to be changed, and the corresponding error correction decoding method are determined based on the relationship between the error rate and the transmission speed by initial training prior to data transmission. Is done.
[0013]
With the above configuration, data errors caused by noise generated periodically near 0 V of the power line voltage level can be extracted by correcting the errors with a high correction capability method, although the data transmission efficiency temporarily decreases. Therefore, high quality data transmission can be performed.
In the above description, as a means of reducing data errors caused by periodically generated noise, a method of changing the modulation method or error correction coding method to a highly noise-resistant method has been described. It goes without saying that even higher quality data transmission can be achieved by combining the two.
[0014]
【The invention's effect】
As described above, according to the present invention, for the data transmission apparatus in the power line communication in which the demodulation performance is periodically deteriorated due to the noise at the voltage 0 level on the power line and the data error occurs, the above periodic transmission is performed. The timing at which a data error occurs is detected, and the modulation scheme or error correction coding scheme can be changed to a scheme that can reduce the occurrence of data errors only for a predetermined time before and after that timing.
As a result, the present invention can greatly contribute to providing a high-quality data transmission apparatus with high noise resistance to a data transmission system using a power line widely spread throughout the country as a transmission path.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram showing an embodiment of a data transmission apparatus in power line communication according to the present invention.
FIG. 2 is a schematic configuration diagram showing a modified embodiment of a data transmission apparatus in power line communication according to the present invention.
FIG. 3A is a schematic configuration diagram showing an example of a data transmission device in conventional power line communication, and FIG. 3B is a noise at the analog front end output of the receiving device when the power frequency of the power line is 50 Hz. It is a figure which shows the example of.
[Explanation of symbols]
1, 3, 5 ... Transmission device, 2, 4, 6 ... Reception device,
11, 16, 51 ··· Modulator, ··· D / A converter,
13, 23 ... Analog front end,
21, 26, 61 .. demodulator, 22.. A / D converter,
14, 24..Detection circuit, 15..Error correction code part,
25 .. Error correction decoder

Claims (2)

A power line data transmission device comprising: a transmission device that modulates transmission data by a modulation means in a predetermined manner and transmits the data via a power line; and a reception device that demodulates and outputs data received via the power line by a demodulation means In
The transmitting apparatus includes a detecting means for the voltage level of the power line to supply timing information on the detected modulation means the timing of the zero cross point as a 0V, the modulating means is in the neighborhood of the zero-crossing point based on the timing information The predetermined time before and after the zero cross point corresponding to the generated noise can be changed to a modulation method having higher noise resistance than the modulation method used for other times ,
Said receiving apparatus comprises a detection means for the voltage level of the power line to supply timing information to the modulating means detects the timing of zero-cross point as a 0V, the demodulation means, in the neighborhood of the zero-crossing point based on the timing information Data transmission characterized in that, at a predetermined time before and after the zero cross point corresponding to the generated noise, the demodulation method used at other times can be changed to a demodulation method corresponding to the modulation method having high noise resistance. apparatus. Data composed of a transmission apparatus that transmits transmission data that has been error correction encoded by the error correction encoding means via a power line, and a reception apparatus that includes error correction decoding means that corrects data received via the power line. In transmission equipment,
The transmitting apparatus includes a detecting means for the voltage level of the power line to supply timing information to the correction code means detects the timing of zero-cross point as a 0V, the error correction code means, zero-crossing based on the timing information In a predetermined time before and after the zero cross point corresponding to noise generated in the vicinity of the point , it can be changed to an error correction coding method having higher noise resistance than an error correction coding method used at other times ,
It said receiving apparatus comprises a detection means for the voltage level of the power line to supply timing information to the modulating means detects the timing of the zero crossing as the 0V, the error correction decoding means, the neighborhood of the zero-crossing point based on the timing information At a predetermined time before and after the zero-cross point corresponding to the noise generated in the error correction method, the error correction decoding method used at other times can be changed to the error correction decoding method corresponding to the highly noise-resistant error correction coding method. A data transmission apparatus comprising:

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