JPH04287524A - Data transmission equipment - Google Patents

Abstract

PURPOSE:To prevent destruction of a data interruption of data transmission when a hit or power failure of a power supply is generated by using a backup power supply formed by a power supply backup means. CONSTITUTION:When a hit or power failure takes place on a power line 30, it is detected by a detection circuit 212 and a switch circuit 213 is switched to the opposite position by the output of the circuit 212 and a non-power failure power supply outputted from a power supply backup circuit 211 is supplied to a power line transmission function circuit 221 of a power line transmission function section 22. When a data to be sent from a terminal equipment 10 via a data transmission line 12 is fed to the circuit 221, the circuit 221 converts the data by the non-power failure power supply from the circuit 211 to a data to be sent to the power line 30 and sends it to the power line 30 via a capacitor 222. Thus, data destruction or data transmission interruption is not caused at the hit or a power failure of a power supply.

Description

[Detailed description of the invention]

0001

[Field of Industrial Application] The present invention relates to a data transmission device, and more particularly, the present invention is equipped with a power line transmission function for transmitting data using a power line, and a power backup function for forming a backup power source when the power to the power line is cut off. The present invention relates to a data transmission device that prevents data from being destroyed or data transmission from being interrupted in the event of a momentary power outage or power outage.

0002

2. Description of the Related Art Conventionally, data transmission devices equipped with so-called uninterruptible power supplies are known. Data transmission equipment equipped with this uninterruptible power supply backs up the power supply even if the power supply is momentarily cut off or power out.
This is to prevent data to be transmitted from being destroyed.

[0003] Furthermore, a data transmission device using a so-called power line transmission device, which transmits data using a power line as a data transmission path, is also known.

0004

[Problems to be Solved by the Invention] However, although a data transmission device equipped with an uninterruptible power supply can prevent the data to be transmitted from being destroyed in the event of a momentary power outage or power outage, there is a limit to the capacity of the backup power supply. Therefore, there is no guarantee that the time-consuming data transmission can be reliably handled in the event of a momentary power outage or power outage.

[0005] Furthermore, in a data transmission device using a power line transmission device, data can basically be transmitted as long as the power line is not disconnected, but if a momentary power outage or power outage occurs, the data to be transmitted will be lost. The data is destroyed, and the destroyed data must be retransmitted. Furthermore, since this device does not have a function to back up the power line transmission device, data transmission will be interrupted if a momentary power outage or power outage occurs. Furthermore, among data transmission devices using power line transmission devices, the so-called SS method performs data transmission in synchronization with the power supply cycle, and therefore cannot cope with instantaneous power interruptions.

[0006] Therefore, the present invention was made by focusing on such conventional problems, and provides a data transmission device that prevents data from being destroyed and data transmission from being interrupted in the event of a momentary power outage or power outage. The purpose is to provide.

[0007]

[Means for Solving the Problems] In order to achieve the above object, the present invention provides a power line transmission means for transmitting data using a power line, and a power backup means for forming a backup power source when the power to the power line is cut off. and a supply means for supplying the power generated by the power backup means to the power line transmission means when the power to the power line is cut off.

[0008]

[Operation] In the event of a momentary power outage or power outage, the backup power generated by the power backup means prevents the data to be transmitted from being destroyed, and the power line transmission means uses the backup power generated by the power backup means. is backed up, so there is no interruption in data transmission.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be explained below based on the drawings.

FIG. 1 shows an embodiment of a data transmission system constructed by applying the data transmission apparatus of the present invention. In this embodiment, a data transmission terminal 10 is connected to a data transmission unit 2 via a power line 11 and a data transmission line 12.
0, the data transmission section 20 is connected to the data reception section 40 via the power line 30, and the data reception section 40 is connected to the data reception terminal 50 via the power line 51 and the data transmission line 52.
connected to.

The data transmitting terminal 10 and the data receiving terminal 50 each include, for example, a personal computer, and the data transmitting terminal 10 generates data to be transmitted to the data terminal 50, and transmits the data to the data transmission line. 12 to the data transmission section 20. Further, the data transmission terminal 10 is supplied with power from the data transmission section 20 via the power line 11. In addition, the data receiving section 5
0 receives received data from the data receiving section 40 via the data transmission line 51, and is supplied with power from the data receiving section 40 via the power line 51.

The data transmission unit 20 is an uninterruptible power supply function unit 21
and a power line transmission function section 22, the uninterruptible power supply function section 21 forms an uninterruptible power source from the power source of the power line 30, supplies this uninterruptible power source to the data transmission terminal 10 via the power line 11, and functions as a power line transmission function. Section 22 is data transmission line 1
The data to be transmitted, which is added from the data transmitting terminal 10, is sent to the power line 30 via the power line 2.

Further, the data receiving section 40 is composed of an uninterruptible power supply function section 41 and a power line transmission function section 42, and the uninterruptible power supply function section 41 forms an uninterruptible power supply from the power supply of the power line 30, The data is supplied to the data receiving terminal 50 via the power line 51, and the power line transmission function unit 42
0 is sent to the data receiving terminal 50 via the data transmission line 52.

FIG. 2 shows the detailed configuration of the data transmission section 20.

Uninterruptible power supply function section 21 of data transmission section 20
, a power backup circuit 211 that receives input from the power line 30 and forms an uninterruptible power supply, a detection circuit 212 that monitors the power line 30 and detects a momentary interruption of the power supply of the power line 30, a power outage, etc., and a detection circuit 212. A switch circuit 213 that switches the output of the power backup circuit 211 or the output of the power line 30 and sends it to the power line 11 based on the detection output of
The power line transmission function section 22 includes a power line transmission function circuit 221 that converts data to be transmitted on the data transmission line 12 into data to be sent to the power line 30, and a capacitor 222 for cutting power. Here, the power backup circuit 211 is composed of, for example, a circuit including a rechargeable battery, this battery is charged by the power source of the power line 30, and generates an uninterruptible power source from this battery when the power line 30 is momentarily interrupted or power outed. .

Now, when the power line 30 is normally supplying power, this is detected by the detection circuit 212, and the switch circuit 213 is switched as shown in the figure by the output of this detection circuit 212, and the power of the power line 30 is switched on. This switch circuit 213 is supplied to the data transmission terminal 10 via the power line 11 and is also supplied to the power line transmission function circuit 221 of the power line transmission function section 22 . In this state, when data to be transmitted from the data transmission terminal via the data transmission line 12 is applied to the power line transmission function circuit 221, the power line transmission function circuit 221 converts this data into data to be sent to the power line 30, It is sent to power line 30 via capacitor 222 .

Further, when a momentary interruption or power outage occurs in the power line 30, this is detected by the detection circuit 212, and this detection circuit 21
2, the switch circuit 213 is switched to the opposite side as shown in the figure, and in this case, the power supply backup circuit 211
The uninterruptible power supply output from the switch circuit 213,
The power line transmission function circuit 2 of the power line transmission function unit 22 is supplied to the data transmission terminal 10 via the power line 11.
21. In this state, when data to be transmitted from the data transmission terminal via the data transmission line 12 is applied to the power line transmission function circuit 221, the power line transmission function circuit 221
21 converts this data into data sent to the power line 30 using the uninterruptible power supply from the power backup circuit 211, and sends it to the power line 30 via the capacitor 222.

Although details of the data receiving section 40 are not shown here, it has the same configuration as the data transmitting section 20 described above.

The operation of this embodiment will be further explained with reference to the waveform diagram shown in FIG.

In FIG. 3, FIGS. 3(a) and 3(b) show transmitted data from the data transmitting terminal 10 and the power line transmission function section 24 of a conventional data transmitting apparatus that transmits data using a power line as a data transmission path. 3(c) shows the power waveform of the commercial power source of the power line 30, and FIGS. 3(d) and (e) show the transmitted data and data from the data transmitting terminal 10 according to this embodiment. Transmission section 20
An example of data sent from is shown. In the conventional data transmission device, power to the data transmission terminal 10 is supplied via the power supply circuit 23, and data to be transmitted from the data transmission terminal 10 is transmitted through a power line configured separately from the power supply circuit 23. It is sent out to the power line via the transmission function section 24.

In the conventional configuration shown in FIGS. 3(a) and 3(b), when the commercial power supply (see FIG. 3(c)) is cut off at time t1, the data transmitted from the data transmission terminal 10 is transferred to a power source (not shown). The data transmission terminal 10 is backed up by a backup power supply inside the circuit 23 or inside the data transmission terminal 10, and the operation of the data transmission terminal 10 ends at time t3, but the power line transmission function section 24 is operated at the time t1 when the commercial power is cut off from the data transmission terminal 10. The power line transmission function unit 24 is disconnected, and data transmission from the power line transmission function unit 24 is interrupted. In this case, the data output from the data transmission terminal 10 from time t1 to time t3 is transmitted from time t5, when data transmission is resumed after the commercial power supply (see FIG. 3(c)) is restored to time t4. I have to resend it.

In contrast, in the configuration of this embodiment shown in FIGS. 3(d) and 3(e), data transmission continues even after the commercial power supply (see FIG. 3(c)) is cut off at time t1. The power line transmission function section 22 of the section 20 includes a power backup circuit 211.
Even after the uninterruptible power supply is supplied from the data transmitting terminal 10 and the operation of the data transmitting terminal 10 ends at time t2, the data transmitting unit 20 continues to transmit data, and ends the data transmission at time t3. With this configuration, even if there is a momentary power outage or power outage, data transmission will not be interrupted.
There is no need to retransmit data at time t5, when commercial power is restored at time t4 and data transmission is resumed.

As described above, in this embodiment, even after the commercial power supply is cut off, the power line transmission function section 22 of the data transmission section 20 operates with the uninterruptible power supply from the power supply backup circuit 211, and the data transmission terminal If 10 pauses,
Only the power required for data transmission is required, and data transmission can be terminated or stopped midway while confirming the safety of transmitted data.

[0024]

[Effects of the Invention] As explained above, according to the present invention,
power line transmission means for transmitting data using a power line; power backup means for forming a backup power source when the power to the power line is cut off; and power supply means for forming a backup power source when the power to the power line is cut off; Since the present invention is configured to include a supply means for supplying to the power line transmission means, it is possible to provide a data transmission device that does not cause data destruction or data transmission interruption in the event of a momentary power outage or power outage.

[Brief explanation of the drawing]

FIG. 1 is a diagram conceptually showing an embodiment of a data transmission system to which a data transmission device of the present invention is applied.

FIG. 2 is a circuit diagram showing a detailed configuration example of the data transmission unit shown in FIG. 1;

FIG. 3 is a waveform diagram illustrating the operation of the embodiment shown in FIG. 1.

[Explanation of symbols]

10 Data transmission terminal 11 Power line 12 Data transmission line 20 Data transmission section 21, 41 Uninterruptible power supply function section 22, 24, 42 Power line transmission function section 23
Power supply circuit 30 Power line 40 Data receiving unit 50 Data receiving terminal 211 Power backup circuit 212 Detection circuit 213 Switch circuit 221 Power line transmission function circuit 222 Capacitor

Claims (1)

[Claims] 1. Power line transmission means for transmitting data using a power line; power backup means for forming a backup power source when the power to the power line is cut off; and power backup means for forming a backup power source when the power to the power line is cut off. supply means for supplying the power generated by the power line transmission means to the power line transmission means;
A data transmission device characterized by comprising: