JPH04207722A - Power line carrier communication system - Google Patents

Abstract

PURPOSE:To improve the visibility by outputting a signal to a display means, in the case monitor information from a terminal equipment is all received. CONSTITUTION:A carrier wave signal of a prescribed frequency, f1 transmits through a branch block filter 3 having low impedance against the prescribed frequency f1 and passes through a trunk line power line 1 and is inputted to a CPU 23 from a transmission controller 13 of a trunk line controller 10, and when monitor information is received from a terminal equipment 9, the CPU 23 decides whether the monitor information is all received from a frame number 103 and a frame total number 104 of the monitor information or not, and in the case it is decided that the monitor information is all received, the CPU 23 executes a display output to an indicator 27.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a power line carrier communication system that performs communication using power lines.

[Prior Art] Conventionally, a power line carrier communication system that performs communication using a power line is known, and this power line carrier communication system is
For example, as described in Japanese Utility Model Application Publication No. 57-201043 (see Figure 12), there are multiple branch power lines (1) divided from the main power line (1) corresponding to each floor of a building.
2) is H, and the branch power line (
A branch block filter (3) having high impedance for a predetermined frequency (f) is arranged on the 2) side.

Each branch power line (2) has a transmitting mc4
) and a terminal consisting of a receiver (5) are connected, and a controller (7) that communicates with the terminal via a signal line (6) is connected.

Next, the operation will be explained.

When controlling a terminal placed on the first floor, a carrier wave signal of a predetermined frequency (f) is output from a controller (7) connected to a branch power line (2) on the first floor to a signal line (6).

Then, this carrier wave signal is inputted from the signal line (6) to the receiver (5) of the terminal device via the branch power line (2) on the first floor, and the terminal device is controlled according to the input signal.

At this time, the carrier wave signal of the predetermined frequency (f) is blocked by the branch block filter (3) and does not leak to the main power line (1).

In addition, when transmitting a terminal signal, the terminal transmits a predetermined frequency (f) from the transmitter (4) to the branch power line (2) on the first floor.
outputs a carrier wave signal.

Then, the second carrier signal is input from the first floor branch power line (2) to the controller (7) via the signal line (6).

At this time, the carrier wave signal of the predetermined frequency (f) is blocked by the branch block filter (3) and does not leak to the main power line (1).

[Problem to be solved by the invention] Since the conventional power line carrier communication system is configured as described above, as the number of floors of a building increases, the number of signal lines (6) increases and the wiring length becomes longer, resulting in lower wiring costs. The problem was that the number of people was increasing.

・Therefore, the applicant proposed a main power line, a branch power line branched from the main power line, a terminal device connected to the branch power line that transmits and receives a communication signal modulated at a predetermined frequency (f0), and a terminal device that transmits and receives communication signals modulated at a predetermined frequency (f0). A trunk controller that transmits and receives a communication signal modulated at a predetermined frequency (f1) via a trunk power line, and a trunk controller that transmits and receives a communication signal modulated at a frequency (f1) via a trunk power line, A branch controller that transmits and receives a communication signal modulated at (f0) to and from a terminal device via a branch power line, and a branch controller that is installed on the opposite side of the branch power line when viewed from the main controller to block the frequency (f1). It has a main block filter provided on the main power line, and a branch block filter provided between the terminal and the branch controller and the main controller so as to block the frequency (f0) and pass the frequency (fl). I devised something.

However, in this power line carrier communication system, when the monitor information from the terminal (see Figure 13) is received by the trunk controller and displayed on the display, there is a considerable time difference (transmission speed) between the beginning and end of the monitor information. is 100-2008
Because the distance is approximately 400m5ec due to PS, there was a problem that the display was lit in a May rain style and visibility was poor.

This invention was made to solve the above-mentioned problems, and provides a power line carrier communication system with improved visibility by receiving all monitor information from a terminal and displaying it on a display unit. With the goal.

[Means for Solving the Problems] A power line carrier communication system according to the present invention includes a main power line, a branch power line branched from the main power line, and a communication signal connected to the branch power line and modulated at a predetermined frequency (fo). A terminal device that transmits and receives, a trunk controller that transmits and receives a communication signal modulated at a predetermined frequency (f1) different from the frequency (f0) via a trunk power line, and a frequency (f1).
A branch controller that transmits and receives a communication signal modulated at the frequency (f0) to and from the main controller via the main power line, and a branch controller that transmits and receives a communication signal modulated at the frequency (f0) to and from the terminal device via the branch power line. A main block filter is provided on the opposite side of the branch power line as viewed from the controller and is provided on the main power line to block frequency (f1), and a main block filter is provided on the main power line to block frequency (f1) and to block frequency (fo) and pass frequency (f1). A branch block filter provided between a terminal, a branch controller, and a trunk controller; means for adding a total frame number and a frame number to information from the terminal; display means; An operation monitor unit consisting of an accumulator that accumulates information, and a CPU that outputs a control signal to a display means in accordance with a control program when all the information necessary for the accumulator is input.
The main controller is provided with the CPU, and the CPU outputs a signal to the display means when all monitor information from the terminal is received.

[Function] In the power line carrier communication system of the present invention, a communication signal of a predetermined frequency (f1) from the trunk controller has a high impedance with respect to the predetermined frequency (f0) and a low impedance with respect to the predetermined frequency (f1). It passes through a branch block filter having an impedance, is modulated to a predetermined frequency (f0) by a branch controller, and is input to a terminal.
A communication signal of a predetermined frequency (f0) from a terminal device is modulated to a predetermined frequency (fl) by a branch controller, and then sent to the trunk controller. When a trunk block filter with impedance prevents communication signals from leaking to the power line, adds a total frame number and a frame number to information from the terminal, and receives all monitor information from the terminal, A signal is output from the CPU to the display means.

[Example] An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a system configuration diagram showing the configuration of a power line carrier communication system according to the present invention, and a case where the power line carrier communication system of the present invention is used in a vending machine will be described below.

A main power line (1) is divided into multiple branch power lines (2) corresponding to vending devices that handle multiple products in a vending machine.
), and branch power lines (2
) side has a high impedance for a predetermined frequency (f0) (for example, 100KHz) and a predetermined frequency (f1
) (for example, 200 KHz), a branch block filter (3) (see FIG. 5) which provides low impedance is arranged.

Furthermore, each branch power line (2) is connected to a branch controller (8) that modulates a communication signal and a vending device (9) that serves as a terminal and sells a predetermined product.

In addition, the main power line (1) has a main power line controller (10
) is connected, and a main line block filter (11) (see FIG. 6) is arranged which has a high impedance for a predetermined frequency (f1) to prevent transmission signals from leaking to the power line.

As shown in FIG. 2, the main line controller (10) has a coupling circuit (12) composed of a variable mutual inductance etc. connected to the main power line (1). A transmission control device (13) and a modulator (14) are connected to.

Furthermore, the transmission control device (13) has strange, J! 13 (14
), the operation monitor unit (15), and a predetermined frequency (oscillation 5C16 that emits at [1)) are connected,
) is also connected to modulation 5 (14).

Further, as shown in FIG. 3, the vending device (9) has a coupling circuit (12) composed of a variable mutual inductance etc. connected to the branch power line (2).
12) is connected to a transmission control device (13) and a modulator (14).

The transmission control device (13) includes a modulator (14),
A control device (17) and an oscillator (18) 4 that emits at a predetermined frequency (f0) are connected, and the oscillator (18) is also connected to a modulator (14).

Furthermore, as shown in FIG. 4, the branch controller (8) has a coupling circuit (12) composed of a variable mutual inductance, etc. connected to the branch power line (2), and the coupling circuit (12) includes a transmission control device (13) and a modulator (
14) is connected.

The transmission control device (13) includes a modulator (14).
, an oscillator (16) that emits at a predetermined frequency (f1), and an oscillator (18) that emits at a predetermined frequency (f0) are connected to the oscillator (16).

(18) is connected to the modulator (14).

In addition, the operation monitor section (15) of the trunk controller (10)
) is Ilo (20
), Teori, Ilo (20) has a vending device (
an accumulator (21) that accumulates monitor information from
) are connected.

Then, in the accumulator (21), ■10 (22)
CPU (23) is connected via
(23) includes an operation key (24), a ROM (25) that stores a control program, and an output port (26).
A display device (27) is connected in parallel via.

Furthermore, FIG. 9 is a diagram showing a frame structure of monitor information, and a frame (100) has a self address (101).
, F-th address (102), frame obituary (103)
), frame-dispersion (IO4), terminal number (105)
, monitor information (106).

The operation of this embodiment will now be explained.

When operating multiple vending devices (9) as a group, the operator operates the transmission control device (13) using the operation key (20) of the tnff monitor section (15) of the trunk controller (10).
(See Fig. 10).

Then, the transmission control device (13) transmits the predetermined frequency (fl
), the modulator (14) is activated.
) outputs a carrier signal of a predetermined frequency (f1) to the main power line (1).

At this time, the carrier wave signal of the predetermined frequency (f1) is blocked by the main line block filter (11) having a high impedance with respect to the predetermined frequency (f1), and does not leak toward the power line.

This carrier wave signal of a predetermined frequency (f1) passes through a main power line (1) and passes through a branch block filter (3) that provides a low impedance for the predetermined frequency (f1).

Then, the carrier wave 1= of the predetermined frequency (f[) is input to the transmission control device (13) of the branch controller (8) through the branch power line (2), and the transmission control device (13) ) at a predetermined frequency (f
0), and the frequency of the carrier signal is modulated by a modulator (14) to a predetermined frequency (f0) and output to the branch power line (2).

At this time, the carrier wave signal of the predetermined frequency (f0) is blocked by the branch block filter (3) having a high impedance with respect to the predetermined frequency (f0), and does not leak to the main power line (1).

Then, each vending device (9) inputs only the control command addressed to itself for the carrier wave signal of the predetermined frequency (f0) to its own transmission control device (13), and the transmission control device (13) Control equipment (17) is controlled based on the signal.

Next, the operation when controlling the display on the trunk controller (10) will be explained along flowchart 1 in FIG. 11.

A transmission control device (17) that receives signals from the control device (17)
13) is an oscillator (1) that emits at a predetermined frequency (f0).
8), the frequency of this signal is modulated into a carrier wave signal of a predetermined frequency (f0) by a modulator (14), and the signal is output to the branch power line (2).

The carrier wave signal of a predetermined frequency (f0) is input to the transmission control device (13) of the branch controller (8) through the branch power line (2), and the transmission control device (13) transmits the carrier wave signal of the predetermined frequency (f0). The signal causes an oscillator (18) to oscillate at a predetermined frequency (f1), and the frequency of the carrier signal is modulated by a modulator (14) to a predetermined frequency (f1) and output to the branch power line (2).

At this time, the carrier wave signal of the predetermined frequency (f1) is blocked by the main line block filter (11) having a high impedance with respect to the predetermined frequency (f1), and will not leak toward the power line.

Then, this carrier wave signal of a predetermined frequency (f1) is passed through a branch block filter (3) that provides low impedance for the predetermined frequency (f1), and then connected to the main power line (1).
The transmission control device (1) of the trunk controller (10) passes through the main line controller (10).
3) to the CPU (23), and the CPU (23)
When receiving the monitor information (see Fig. 9) from the vending machine (9) (step S1), the monitor information (see Fig. 9) is received.
frame number (103) and total number of frames (104)
It is then determined whether all the monitor information has been received (step S2).

Then, if it is determined that all the monitor information has been received, C
The PU (23) performs display output to the display device (27) (
Step S3).

Furthermore, if it is determined that all the monitor information has not been received, the monitor information is subsequently taken into the accumulator (21) and stored.

In the above embodiments, the power line communication system of the present invention is used in a vending machine, but the present invention is not limited to this, and the power line communication system of the present invention may be used in any device.

In addition, the main block filter (11) is connected to a predetermined frequency (
If the impedance is configured to be high not only for a predetermined frequency (fo) but also for a predetermined frequency (fo), communication reliability can be further improved.

[Effects of the Invention] As described above, according to the present invention, there is an accumulator that accumulates information from a terminal, and when all information is input to the accumulator, a control signal is output to the display means according to a control program. The main controller is equipped with an operation monitor section consisting of a CPU, and the CPU is configured to output a signal to the display means when all monitor information from the terminal is received. The display can be turned on all at once to improve visibility.

[Brief explanation of the drawing]

FIG. 1 is a system configuration diagram showing the configuration of a power line carrier communication system according to the present invention, FIG. 2 is a block diagram showing the configuration of a main line controller according to the present invention, and FIG. 3 is a system configuration diagram showing the configuration of a terminal device according to the present invention. 4 is a block diagram showing the configuration of the branch controller according to the present invention, FIG. 5 is a diagram showing the attenuation characteristics of the branch block filter and filter according to the present invention, and FIG. 6 is a block diagram showing the configuration of the branch controller according to the present invention. 7 is a block diagram showing the configuration of the operation monitor section according to the present invention. FIG. 8 is an external view showing the operation monitor section according to the present invention. 10 is a diagram showing a frame structure of monitor information of the present invention, FIG. 10 is a diagram showing a communication sequence of the present invention, FIG. 11 is a flow chart diagram showing the operation of the present invention, and FIG. 12 is a conventional power line carrier communication system. FIG. 13 is a diagram showing the frame structure of conventional monitor information. In the figure, (1) is the main power line, (2) is the branch power line, (3) is the branch block filter, (8) is the branch controller, (9) is the vending device, (10) is the main controller, and (11) is A main block filter, (21) is an accumulator, (23) is a CPU, and (27) is a display device. In addition, in the figures, the same reference numerals indicate the same or corresponding parts. Agent Patent attorney Yoshi 1) Kenji (outside 2 Otsu) Power line carrier communication/stem IEL diagram Trunk line controller terminal equipment Figure 3 Branch controller Figure 4 10/, Frequency branch block filter attenuation characteristics Figure 5 Trunk line pro/block filter attenuation Characteristics Fig. 6 Operation monitor section Fig. 7 Terminal trunk 41j,
2 J 4 B Group Operation Communication Noken Figure 10 Flow chart Figure 11 Conventional power line carrier communication system Figure 12 Conventional frame configuration (monitor information) Figure 13

Claims (1)

[Claims] A main power line, a branch power line branched from the main power line, a terminal device connected to the branch power line that transmits and receives a communication signal modulated at a predetermined frequency (f0), and a terminal device that transmits and receives a communication signal modulated at a predetermined frequency (f1) different from the frequency (f0). A communication signal modulated at frequency (f1) is transmitted and received between the main controller and the main controller, which transmits and receives a communication signal modulated at frequency (f0) via the main power line. A branch controller that transmits and receives communication signals to and from terminals via a branch power line, and a branch controller that is installed on the opposite side of the branch power line when viewed from the main controller, and is installed on the main power line to block frequency (f1). a trunk block filter; a branch block filter provided between the terminal device, the branch controller, and the trunk controller so as to block the frequency (f0) and pass the frequency (f1);
means for adding a total frame number and a frame number to the information from the terminal; a display means; an accumulator for accumulating information from the terminal; An operation monitor section comprising a CPU that outputs a control signal to the display means is provided in the main controller, and the CPU outputs a signal to the display means when all monitor information from the terminal is received. A power line carrier communication system featuring: