CA1332454C - Gateway for use in load control system - Google Patents

Abstract

ABSTRACT
The specification discloses an improved gateway which is provided between a leased- and power-line information transmission systems for exchanging signals to be transmitted between the leased and power lines in a load control system and which includes first control means for controlling communications effected on the leased line, a leased-line transceiver for regulating or converting signals which being to be transmitted between the leased line and the first control means, second control means for controlling the power-line carrier transmission, power line coupling means for regulating signals which being transmitted between the power line and the second control means and general control means for generally controlling the first and second control means.
Thereby, reliability and performance of the gateway can be much improved.

Description

- 1 - 1332~
1 This application is a division of application serial number 532,484 filed ~arch 19, 1987. : ~
The present invention generally relates to :
an information transmission system for use in an automated home information system and more specifically to a gateway being provided in the information transmission system , which uses a leased ~ .
line ~ em~loying, for example, a coaxial cable ) and a power line as information transmission lines and ~ ;
exchanges information therebetween, and being used to exchange a signal between the leased and power lines.

BRIEF DESCRIPTION OF THE DRAWINGS :.

The foregoing objects and advantages and other more specific objects will be apparent to those skilled in the art when proceeding through the following detailed description of illustrated embodiments of the invention, particularly when considered in connection with the accompanying drawings in which~ -:
Fig. 1 is a block diagram showing a load control system which employs a conventional information transmission system;
Fiq. 2 is a wiring diagram showing connections of a prior art gateway to a leased and power lines;

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1 Fig. 3 is a block diagram showing a structure of the prior art gateway;
Fig. 4 is a block diagram showinq a load control system which employs a gateway of the present invention;
Fig. 5 is a block diagram showing a gateway embodying the present invention;
Figs. 6 and 7 are schematic block diagrams for illustrating procedures of communications lo performed in the load control system of Fig. 4;
Fig. 8 is a diagram showing a frame used in communications performed on a coaxial cable;
Fig. 9 is a diagram showing a frame used in communications performed on a power line;
Fig. 10 is a block diagram showing a construction of a gateway of the present invention;
Fig. 11 is a block diagram showing a construction of an illustrated control circuit in the gateway of Fig. 10;
Fig. 12 is a block diagram showing a logical hierarchical structure of a load control system which employs the gateway of Fig. 10;
Fig. 13 is a chart for illustrating a procedure of communication performed by an exchange controlling ~eans provided in the gateway of Fig. 10;

1 3 3 2 ~ J 4 l :
l Fig. 14 is a chart for illustrating a procedure of communication performed by a centralized-control effecting means; ;~
Fig. 15 is a flowchart representing an operation of an exchanging program employed in the gateway of Fig. 10;
Fig. 16 is a flowchart representing an operation of a centralized-control program employed in the gateway of Fig. 10;
Fig. 17 is a block diagram showing another gateway embodying the present invention;
Fig. 18 is a block diagram showing an ;~
example of a control circuit in the gateway of Fig.
1 0 ; . :
Fig. 19 is a flowchart representing an operation of a load monitoring program employed in the ~
gateway of Fig. 10; ~--Fig. 20 is a chart for illustrating a procedure of communication performed by the load monitoring program of Fig. 19;
; Figs. 21A and 21B are flowcharts representing operations of a load control program e~ployed in the gateway of Fig. 10;
Fig. 22 is a chart for illustrating a ,, procedure of communication performed by the load control program; ~`
-,', :,' : :
.". ~"

` - 4 - 1332~4 Fig. 23 is a block diagram showing another gateway employed in the load control system of Fig. 4;
Fig. 24 is a block diagram for illustrating a procedure of communication performed by the system of Fig. 4;
Fig. 25 is a block diagram showing another information transmission system which employes a gateway e~bodying the present invention; ~ -Fig. 26 is a diagram showing a frame used for a trans~ission of a signal from a terminal in the -~
system of Fig. 25;
Fig. 27 is a diagram showing a frame used for a transmission of a signal to a terminal in the system of Fig. 25;
Fig. 28 is a diagram for illustrating a layered structure of a protocol in case of communications without changing a representation of control information; and - Fig. 29 is a diagram for illustrating a layered structure of a protocol in case of communications with changing a representation of a control information.
Incidentally, it is to b0 notod that like reference numerals denote like portions in the above drawings.

~ ' ~

- s - 1 3 3 2 ~ 7 ~
Fig. 1 is a block diagram showing a prior -art load control system for use in a house disclosed in Japanese Patent Public Disclosure No. 149242/85 Official Gazette. As shown in this figure, this load control system is provided with a leased and power lines. Reference numerals 1 indicates a dwelling house which being rebuilt or to which being made an extention. Further, reference numerals 2 and 3 indicate : a coaxial cable used as a leased line ; and a power line, respectively. Furthermore, reference numeral 4 designates an additional room A which is provided with a leased-line transmission system a including : the coaxial cable 2 ; and a controller 5 for controlling other parts of the system ai. This transmission system a controls loads 6 such as a door phone and lighting fixtures. On the other hand, reference numerals 7 and 8 indicate initially-established-rooms B and C in which loads 10 , namely, lighting fixtures and plug sockets and so forth are 20 controlled by a power-line transmission system b using ;;
a power line 3 and being provided with a controller 9 for rontrolling other portions of the transmission ~ ;
system _.
Reference numeral 11 indicates a gateway ' 25 intervening between the coaxial cable 2 and the power ;~

- - 6 - 13324~
l line 3. This gateway 11 receives control signals from one of the two systems a and b and converts the format of the control signals into another format required by the other system and transmits the converted signals to the latter system when these control signals are exchanged by the two systems _ and b. This permits the controller 5 to remotely control the loads 10 such as the lighting fixtures connected to the power line 3. Further, reference numeral 12 indicates a branching portion.
Fig. 2 shows the conventional manner of connecting the gateway 11 to directional couplers 13 and 14 as described in the above cited Japanese Patent Public Disclosure Official Gazette. As shown in this figure, the gateway 11 is connected to both the coaxial cable 2 and the power line 3 by way of the directional couplers 13 and 14. Fig. 3 is a block diagram showing the inner construction of the prior art gateway 11. In this figure, reference numerals 15 and 16 indicate signal detecting and receiving circuits respective which detect and receive signals from the coaxial cable 2 and those from the power line 3. Further, reference nu~erals 17 and 18 indicate data converting circuits which convert the format of the signals received by the circuits 15 and 16 to 133~
, 7 1 another format applicable to the coaxial~.~cable 2 and -~
the power line 3, respectively. Referena~-.~umerals i9 and 20 designate data signal transmittin~-circuits which are used to transmit the converted~.~gnals to the coaxial cable 2 and the power line 3, respectively. That is, this gateway 11~etects only '~ ~' data signals in the signal detecting an~ r.eceiving circuit 15 and then convert, in the data.,signal converting circuit 17, the received d~t~,-s~gnal into ,,~
o another data signal having format appl~cab~e,to the '.
transmission on the power line 3. -Furthermors, the gateway 11 sends out the conv;erted data~signal to the ,'~
power line 3 through the data transmitti~g,~circuit 19. ~"'.; ,.
Similarly, the gate way 11 converts t.he~.-~ata signal '~ ' 15 received from the power line 3 in the ~.gnal ';''', detecting and receiving circuit 16 and~-al~o converts .,',."'; "
the data signal into another data signal~-having format ".:.~ "' applicable to the transmission through the leased line in the data signal converting circuit~l ~.and further .. ''.
issues the converted signal to the leasé',~ line or ,'.,;',~
.coaxial cable 2. ,.
An operation of the above desc~,~bed conventional gateway in case of remotely2cQntrolling loads 10 by the controller 5 of the lease-d.~Line ~:
transmission system will be explained.her`.~inbelow by way of example.

- 8 - 1332~4 First, the controllar 5 issues a "load-on"
control request signal to the coaxial ~able 2. In the gateway 11, the signal detecting and r0ceiving signal 15 receives this signal and the data signal converting s circuit 17 converts this signal into a signal having another format applicable to the power line transmission system b. Further, the data signal transmittlng circuit 19 sends out the converted signal to the power line 3~ Next, a response signal from the load 10 indicating that the load 10 has been into an "on-state" is issued to the power line 3, that is, to the controller. This response signal is received at the signal detecting and receiving circuit 16 of the gateway 11 and is converted in the data signal converting circuit 18 into a signal having another format applicable to the leased-line transmission system a. Further, the data signal transmitting circuit 20 trans~its this converted signal to the coaxial cable 2.
The above-mentioned conventional system for exchanging signals between the coaxial cable 2 and the ¦
power line 3 through the gateway 11 permits any user in each roo~ of the dwelling house 1 to remotely control the loads such as the lighting fixtures.
The prior art gateway is constructed as above stated. Thus, a transmission of a signal from 9 1 3 3 ~
1 the coaxial cable 2 to the power line 3 and another transmission of a signal effected in the opposite direction are independent each other because these transmissions are effected by using two independent circuit systems as above-mentioned. Therefore, when a ,, , communication between the transmission systems a and b - , .
fails, it is impossible to localize a defective portion o~ the prior art gateway. This degrades reliability of the prior art gateway considerably. -~
lo Further, as described above, the prior art gateway provides functions of transmitting and receiving signals and performs only transitions of signals between the leased and power lines but does ;-not control the transmission systems. Therefore, in case of performing a centralized control of the power line transmission system, the load control system needs further providing a controller for controlling the power-line transmission system. This results in that the load control system bacomes much expensive, that much complicated communications are necessary to control the system and that an efficiency in signal processing is considerably reduced.
- Furthermore, the prior art gateway constructed as above described has encountered a serious proble~ that officiency in ~xchanging signals lo- 1332~5~

1 between the leased and power lines is low. This low efficiency is owing to a large difference in transmission rate between the leased and power lines.
The leased line or coaxial cable can transmit signals at a high rate such as 9600 bps, while the power line ought to transmit signals at a low rate such as 100 bps in order to ameliorate its reliability because the power line has a relatively large noise in comparison with the leased line. For instance, the prior art lo gateway converts the control request signal received from the leased line and transmits the converted signal to a load through the power line having such a low transmission rate even when the load is not currently being used and disconnected to the power line. Consequently, there ought to occur many extra retransmissions of signals and very long wait for a response in the prior art system.
Moreover, the conventional information communication system constructed as above described has a defect that when signals received fro~ the coaxial cable are uni.formly converted and then transmitted to the power line, an overload is to be carried through the power line and the response from the load is harmed. This is partly because that as 25 above~mentioned, there is a large differ~nce in ~-~

, ;~ .

3 2 ~

1 transmission rate between the leased and power lines and partly because that the information is not always transmitted in a way reasonable enough for the purpose of increasing the efficiency in the transmission.
Hereinafter, the latter reason will be more detailedly explained. First, the information to be transmitted in the automated home system is roughly classified into the following two kinds of the information:
lo i ) control information to be used to control domestic operations in the automated home system; and ii~ text to be used in, for example, a `
personal computer in the automated home system.
lS As to the control information, it does not matter how to represent or code the information as long as the load, for example, the light can be controlled by a certain control command and turned on.
Contrarily, in case of the transmission of a text, a representation or code used to represent the information or text is very important. This is because all characters of the text are on an equal footing in constituting the information or text to be transmitted.
Therefore, in case of a transmission of data signals fro~ the coaxial cable to the power line by - 12- 1332~
way of the gateway, it is reasonabls and preferable that the gateway can operate as follows:
(1) First, the gateway discriminates the control information from the text.
(2) Subsequently, the gateway compresses the discriminated control information before transmitting it to the power line. In that event, the control information is to be compressed to the extent sufficient to cause the power line transmission system ~ -to operate as it directs. On the other hand, with reference to the data identified as a text, the gateway transmits it to the power line without compres~ing it.
The prese.nt invention is accomplished to 5 solve the above described problems in the prior art.
SUMMARY OF THE INVENTION
Accordingly, it is an object of the present invention to provide an improved gateway which can supervise and control simultaneously both a ~;~
20 transmission of a signal from the leased line to the .
power line and another transmission of a signal in the ;
opposite direction.
Another object of the present inve.ntion is .~:
to pro~ide an improved load control system in which 2s functions of the system can be easily expanded at a low cost.

- 13 ~ ~ 3 3 2 ~

l A furth~r object of the present invention is to provide an improved load control system which has a -simple procedure of communication and a high performance.
A still further object of the present invention is to provide an improved gateway being capable of efficiently performing transmissions of ~-control signals between a leased and power lines in spite of large difference in their transmission rates.
lo Yet another object of the present invention is to provide an improved gateway which can reduce a load on a power line.
To achieve the foregoing objects, an improved gateway embodying the present invention is provided which includes independent first control means for controlling a communication on a leased line, independent second control means for controlling a power-line carrier communication on a power line and general control means for controlling both the first and second control means.

Here, the first and second control means ; perform their functions independently of and in parallel with each other.
Thereby, the reliablity of the gateway can be remarkably increased.

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1 Further, another improved gateway embodying the present invention is provided which includes exchange control means for exchanging control signals between the leased and power lines and centralized S control means for effecting a centralized control of the power-line transmission system.
Thereby, an input of the information, which is necessary for remote control of loads connected to the power line, can be provided by a switch. Further, o an output indicating states of the loads can be displayed.
Moreover, a further improved gateway embodying the present invention is provided which includes a control circuit having load monitoring 15 means for monitoring states of a plurality of loads connected to the power line and for storing the states of the loads into the gateway and load control means for referring to the states stored upon receiving a load control signal and for issuing another control 20 signal to the power line in case that a current state ,~ i of a load is to be changed into another one. l ;~
Thereby, the control signals can be efficiently exchanged between the leased and power ~;
;''' . '' - 15 - 1 3 3 ~
1 lines. Further, a burden which the power line has to perform can be much reduced. :
Furthermore, a still further improved .
gateway embodying the present invention is provided 5 which includes: first exchanging means for transmitting other kinds of information without changing the representation of the information between the leased and power lines; second exchanging means for changing the representaion of the control information in order to compress or expand control information data and for transmitting the compressed or expanded data to the leased or power line ; and swicthing circuit means for discriminating the control information from other kinds of information and for selecting what means being to be connected to a received information signal from the first and second exchanging means.
Namely, the first exchanging means is operative to transfer the text information for use in a personal computer or the like between the leased and power lines without changing the representation of the :
text to prevent an occurence of a transmission error.
Further, the second exchanging means is operative to compress or expand the control information transmitted from the leased line and to issue the compressed information to the power line to reduce a communication load on the power line. Moreover, the :`
- 15a - 1332~

l switching circuit means identifies the kind of the information and select the first or second circuit means in accordance with the identified kind of the information. Thereby, the information can be efficiently transmitted between personal computers.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Fig. 4 shows a load control system or home control system which employs a gateway of the present lO invention. In this figure, reference numerals 2, 3, 11, 21 22, 23, 24 and 25 designate a leased line or ;-coaxial cable, a power line, a gateway, a master monitor controller (MMC), a set of consent adapters `~
for controlling turn-on and turn-off of a load such as `;~
15 a lighting fixture, a room monitor controller (RMC), a ;~

''''"'~ '' ' ` ' ~

, 1 , , ~, :. ,.

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,. -~, -16- 13~2~3~
telephone and a controller for a telephone system, respectively.
Fig. 5 schematically shows a configuration of the gateway 11. In this figure, reference numerals 26, 27, 28, 29, 30, 31 and 32 indicate a transceiver for use in a communication system using coaxial cables 2, leased-line communication control means for controlling a communication system using coaxial cables 2, power-line carrier communication control lO means for controlling a carrier communication using power lines, a general control means for controlling both the control means 27 and 28, a power line carrier -communication connecting circuit, a light emitting diode ( LED ) and a key switch, respectively.
15 Further, reference numerals 87, 88, 89, 90, 91, 92, 93 and 94 denote an address switch, a parallel interface, an address switch, a modem, a detection circuit for detecting a signal carrier, a power synchronyizing circuit and a LED driver, respectively.
To start with, referring now to Figs. 6 and 7, an operation of the load control system of Fig. 4 will be explained hereinbelow. Fig. 6 shows a part 1, .
of the control system associated with a procedure of communication in case of controlling the consent 25 adapters 22 by the MMC 21. Further, Fig. 7 shows the procedure of communication including the following steps or stages (1) to (6).

-17- 1332~
(1) First, when an operating switch of the MMC
. .
21 is pushed, a control signal representing a control -~
command is issued by the MMC 21 to the gateway 11.
This control signal is transmitted through the coaxial 5 cable 2 to the gateway 11.
(2) When the control signal reaches the gateway 11, the transceiver transforms the voltage level of the control signal and sends the converted signal to the leased-line communication control means 27 wherein ~
':; '~ ' " ";
l0 the control data of the command is processed.
Thereafter, the general control means 29 receives the ~ , processed data from the control means 27 and further transmits the data through the parallel interface 89 to the power-line communication control means 28 after 15 converting the data format and buffering the data.
Then, the control means 28 sends out a signal representing the control command to the connecting ;
circuit 30 to the power line 3. Thus, the gateway 11 interprets the control command to identify one of the consent adapters 22 as a destination of the command and determine how the directed adapter is to act.
Thereafter, the gateway transmits to the identified adaptor a signal representing a very brief control data required for causing the identified adapter to operate as desired by the MMC 21.
(3) On receiving the control command, a consent adapter 22 corresponding to the control command .
:
:.

~ 18- - 1332~.~4 returns an ACK signal through the power line 3 to the gateway 11.

(4) In response to the received control command, the adapter sends back a monitor response data signal 5 representing "on-state" and "off-state" of the loads 6 such as a lighting fixture and other electric home appliances to the gateway 11 after controlling the loads 6. Thus, the gateway can acknowledge that the predetermined consent adapter 22 operates in ~
10 accordance with the control command. : : :
(5) When receiving the response data signal, the gateway 11 sends back an ACK signal to the consent adapter 22 which transmitted the response data signal to the gateway 11.

(6) When receiving the response data signal,the general control means 29 accepts the received signal by way of the control means 28 and sends back a control response signal to the MMC 21 through the .
control means 27 and the transceiver 26 upon ~:
20 completion of processings of converting the data format and of buffering the data and so forth.
, Thus, the gateway 11 receives the monitor response data signal and adds to the reciaved data other data ( for example, a code indicating that the 25 received data is a monitor data, another code :
indicating that the received data is sent from one of the consent adapters, the number of the consent 1 3 3 2 ~
- -19- ' adapter sending the monitor data and so forth ) :~
required to change the synthesized data into that having another form which can be decoded by the MMC ~:~
21. The data synthesized by adding such required data s to the monitor data is then transmitted from the ~ ~' gateway 11 to the MMC 21 by way of the coaxial cable :
2. When this data is received by the MMC 21, a display :
of the data is updated therein.
Next, turning back to Fig. 5, operations of the respective portions of the gateway 11 will be described hereinafter.
The transceiver 26 performs transformations of the voltage levels between the signal on the coaxial cable 2 and the leased-line communication 15 control means 27. Further, the power-line carrier ~;~
communication connecting circuit 30 is used to modulate the data transmitted from ths power-line carrier communication control means 28 and then send ~:
out the modulated data to the power line 3, or conversely used to receive data from the control means 28 and modulate the received data. The general control means 29 is positioned between the leased-line . :
communication control ~eans 27 and the power-line ;~ .
carrier communication control means 28 and used to effect conversions of formats and buffering of data exchanged between the control means 27 and 28 . j:
Further, the koy ~witch 32 is used to give the general~, ``` -20- ~33~
control means 29 some control information. On the other hand, the light emitting diode 31 plays a role of a display device for displaying an operating state of the general control means 29 and the state of the consent adaptors 22 connected to the power line 3.
Fig. 8 shows a structure of a frame for use in communication on the coaxial cable 2. In this figure, reference numerals 33, 34, 35, 36, 37 and 38 designate an address of a transmitting station, an l0 address of a receiving station, a control word, a number of data words, data and a frame check sequence, respectively.
On the other hand, Fig. 9 shows a structure of a frame for use in a communication on the leased lS line 3. In this figure, reference numerals 39, 40, 41, 42, 43, 44 and 45 indicate a preamble, an address of a transmitting station, an address of a receiving station, a control word, a number of data words, data and a frame check sequence, respectively.
These frames shown in Figs. 8 and 9 are respectively provided by the communication control means 27 and 28 and are used for control of the communications performed by using the lines 2 and 3.
The general control means 29 changes and modifies the 25 structures of the frames and buffers the frames.
As above described, this gateway embodying the present invention is provided with the leased-line ;~

-21- 1332~34 ~ ::
communication control means for independently controlling communication effected by using the leased line, the power-line carrier communication control means for independently controlling communication ~
5 effected by using the power line and the general `
control means for generally controlling these two control means. Thus, the leased and power line control means control the corresponding communication lines independently with each other. Thereby, the lO gateway according to the present invention can remarkably increase the reliability. Further, the gateway of the present invention is advantageous in that the communication control means of the gateway can be easily developed and modified independently 15 with each other and in that the cost can be reduced by ~ ;~
fabricating each of the communication control means with a single chip microcomputer.
Incidentally, the gateway provided between the co-axial cable and the power line is above 20 described as a preferred embodiment of the present invention. It is, however, to be noted that the ~ ;
, network connections of the above embodiment may be ,;
replaced with any other appropriate network.
Further, in the abovs embodiment, each of 25 the control means is made up of a single chip microcomputer. Here, it is to be noted that one microcomputer or two may be shared with these control :. ' ~ ' ' -..: .: .
:' - -22- ~332~3~ `
means. However, it should be also noted that the configuration of the above embodiment provides the improved gateway which can prevents the occurence of substantially evil effects on the whole system due to 5 malfunction of part of the gateway.
Turning now to Fig. 10, another embodiment of the present invention will be described hereinbelow. Fig. 10 is a block diagram schematically showing internal structure of the gateway according to 10 the present invention provided in the load control system using both the power and leased lines.
Reference numerals 2, 3, 11, 15, 16, 19, 20, 46, 47 and 48 indicate a leased line, a power line, a gateway provided between the leased and power lines, a 15 receving circuit for receiving a si~nal on the leased line 2, a receiving circuit for reciving a signal on the power line 3, a transmitting circuit for transmitting a signal to the power line 3, a transmitting circuit for transmitting a signal to the 20 leased line 2, a control rircuit for controlling the ~ -~
circuits 15, 16, 19 and 20, an exchange control means provided in the control circuit 46 and a centralized control means also provided in the circuit 46.
Fig. 11 is a block diagram showing an example of the above control circuit 46. Reference numerals 49, 50, 51, 52, 53 and 54 designate a memory which stores a program for controlling the -23- 1332~4 transmitting and receiving circuit 15 and 20 for the leased line 2 therein, a memory which stores a program for controlling the transmitting and receiving circuit 16 and 19 for the power line 3 therein, a memory which 5 stores a program for effecting an operation of transit of signals in communications using the leased and power lines therein, a memory which stores a program for an operation of the master monitor controller controlling loads connected to the power line 3, a set 10 of input switches each corresponding to each of the loads and a light emitting diodes each corresponding to each of the loads for displaying states of the loads.
Fig. 12 is a block diagram showing logical 15 hierarchic structure of the load control system having ;
both the leased and power lines. Reference characters ;~
5, 6, 10, 12, (a) and (b) de~ignate a controller for the leased-l m e transmlssion system, a load in the leased- line ;-transmission systen, a load in the pcwer-line transmission system, a branch m g portion, the leased-line transmission system and the power-line transmission ~ystem, respectively. As shown in :~

this figure, a load 6 is positioned at a lower layer ~ ;
branching from the controller 5 for the leased-line transmission system. This means that the load 6 is 25 under centralized control of the controller 5.
Similarly, th~ load 10 is positioned at a lower layer branching from the gateway 11 as viewd in this figura A

-24- 1 3 3 2 ~
and thus is under centralized control of the gateway 11. That is, the gateway 11 serves as a controller for the power-line transmissin system.
Fig. 13 and 14 are charts showing procedures 5 of communications effected by the controllers 47 and 48, respectively. Figs. 15 and 16 are flowcharts of the operations of the programs stored in the memories 51 and 52~ respectively.
Hereinafter, referring first to Fig. 13, an lO operation of the gateway 11 will be described as to a case that the loads connected to the power line 3 are controlled by way of the leased line 2. Further, referring to Fig. 14, an operation of the gateway 11 .
will be described in relation to a case that the loads 15 connected to the power line 3 are controlled by the input means provided in the gateway 11. Load i indicates an arbitrary load connected to the power line 3. In this embodiment, reference character i denotes the number of the loads and may be 1, 2 or 3.
Referring back to Fig. 13, first of all, in stage or step (i) of the procedure shown therein, when the gateway 11 receivas a signal indicating a request for controlling the load i from the controller 5 for the leased line transmission system, the control 25 program stored in the memory 51 outputs the information of the reguest for the control of the load i at step A3 through steps A1 and A2 shown in Fig. 15.

~ -25- 1332~
Then, in st~p (ii), the control program stored in the memory 52 receives the information of the request fo~ -controlling the load i in step B1 in Fig. 16 and further transmits a control request signal in step B2.
In step (iii), after receiving a response from the load i in step B2, the control progra~ stored in ths memory 52 outputs the response information to the LED
for displaying the information in step B5. Further, in step (iv), the control program stored in the memory ; :
lO 51 sends out the response from the load i to the controller 5 in steps A4 and A5 in Fig. 15.
Furthermore, when the information of the request for the control of the load i is input by the input switch 53 provided in the gateway 11 in step -(vi) shown in Fig. 14, that is, in step B1 in Fig. 16, the control program stored in the memory 52 transmits . ~ , the information of the request for the control to the load i in step (ni), that is, in corresponding step B2. Further, in case of receiving the response from 20 the load i at Step B3, the control progra~ 52 outputs the response information to the LED in step B5. In step (ix), the control program stored in the me~ory 51 converts the re~ponse fro~ the lo~d i and transmlt~
the converted information to the controller S in steps A4 and A5.
In Figs. 13 and 14, the parts (v ) and (x ) of the procedure to ~e effected after the information r~
1332~4 of the request for the control to the load i being input by the control programs are ths same with each other. Thereby, the present invention can achieve remarkable simplification of the communication 5 procedure and high perfomance in the communication in the load control system. Thus, the whole system can be economically constructed.
As above described, this gateway of the present invention in the load control system having lO the lea$ed and power lines serves as not only an exchange control means but also a centralsized control means. Thus, the present invention can provide an economical load control system having high efficiency.
Incidentally, the switch provided with the lS gateway as the means for inputting the request for controlling the load in this embodiment may be replaced with an infrared and wireless remote-control device which can obtain the same effacts as the above embodiment does. Fig. 17 is a block diagram showing a 20 construction of the gateway which employs such a infrared wireless remote-control device as means for the request information. In this figure, reference numerals 55, 56, 57 and 58 designate an infrared and wireless remote-controller, a portion for receiving 25 infrared rays, a portion for emitting infrared rays and the input switches corresponding to the respective :

1~32~
loads, respectively.
Next, a third embodiment of the present invention will be described hereinbelow. This embodiment or gateway has the same internal 5 construction as shown in Fig. 10. Therefore, the descriptions of like portions of the gateway will be omitted here.
Fig. 18 is a block diagram showing construction of another example of the control circuit -10 46. Reference numerals 49, 50 and 59 designate a memory used to store a program for controllin~ the transmitting and receiving circuits 15 and 20 for communication effected by using the leased line 2, another memory used to store a program for controlling 15 the control circuits 16 and 19 for communication effected by using the power line 3 and a further different memory used to store a program for ~-exchanging signals between the leased and power transmission systems for control of the loads.
20 Further, reference numerals 60, 61 and 62 indicate a `
memory used to store a load monitoring program for requesting each of the loads at a predetermined interval to transmit a reponse signal representing its current state and for storing the responses sent from 25 the loads, a RAM for storing not only the responses --from tha loads but also flags to be referred by the program for controlling the loads, a timer for -28- 1 3 3 2 ~
outputting a trigger signal to the load moinitoring program.
However, construction of the load control system in which the leased and power lines coexist and 5 to which the gateway according to the present invention is the same with that of the conventional load control system show in Fig. 1 and thus detailed descriptions of parts of the load control system shown in Fig. 18 will be omitted here.
lOFigs. t9, 20, 21 and 22 are a flowchart for illustrating an operation of the load monitoring program, a chart for illustrating a procedure of communication under control of the load control program, a flowchart for illustrating an operation of 15 the load control program and a chart for illustrating a procedure of communication under control of the load control program, respectivrely.
Hereinafter, referring to these Figs. 19 -22, an operaion of the gateway in case of controlling 20 the loads connected to the power line by the controller 5 for the leased-line transmission system ~ ~`
will be described by way of example.
First, an operation of the load monitoring ;
means will be described~ referring to Figs. 19 and 20.
For simplicity of description, as shown in Figs. 20, the total number of the loads shown in Fig. 19 is assumed to be three. When an internal trigger signal ~ 29- 1 3 3 2 '~
is generated from the timer 62 in step C2 in Fig. 19, the gateway 11 issues to the load i a signal -representing a request for transmitting a signal indicating its current state in step C3 and waits for s a response from the load i a predetermined period of time in st~p 4. In Fig. 20, this number "i" of the loads is assumed to be "1". If the gateway 11 receives a response from the load i during this period, a connection flag corresponding to the load i lO is on ,that is, is set to be "1" in step C5.
Further, a status flag is set in accordance with the response signal from the load i in step C6. For instance, if the rssponse signal indicates that the state of the load i is "on-state" as the load 1 shown 15 in step (xi) in Fig. 20, the status flag of the load i is set to be "1" in step C7 in Fig. 19. To the contrary, if the response signal indicates that the state of the load i is "off-state" as the load 2 shown in st~p (~i) in Fig. 20, the status flag of the load i 20 is set to be "0" in step C8.
Further, in case that the the load i does not issue a response signal as the load 3 shown in step (xiii) in Fig. 20 does and thus no response is made within a predetermined time-out period in step 2s C9, the connection flag of the load i is set to be "0"
in step C10. Moreover, in step C11, 1 is added to the number "i" of the load. If the result of the addition --~ ~30- 1332~
is less than the total number of the loads in step C12, the procedure returns to step C2 whereat the gateway waits for a new trigger signal from the timer.
In the similar way, the gateway repeats the above 5 operation with reference to the loads 1-3 in steps C12 and C13. Thus, the gateway can hold the information on the states of the loads by updating the information at predetermined regular interval.
Next, referring to Figs. 21A, 21B and 22, an l0 operation of the load control system will be described hereinbelow. When the gateway 11 receives a signal representing a request for control of turning the load i on from the controller 5 through the leased line at the receiving circuit thereof in step D1, a connection ~-15 flag corresponding to the load i is referred to by the ;
load control program in step D2. If the connection ;
flag corresponding to the load i is "0" as that ;~
corresponding to the load 3 as viewed in Fig. 20 is, `
that is, the load i is not connected to the power 20 line, the transmitting circuit 20 sends out to the leased line a signal representing that the load i is not connected to the power line in step D3. On the other hand, in case that the connection of the flag corresponding to the load i is "1", that is, the load ~
2s i is connected to the power line, the control program ~ ;
then refers to a status flag corresponding to the load ;~
i in step D4. If the status flag corresponding to the .,~,;, :~

`~ -31- 1332~4 load i is "1" as that corresponding to the load 1 as viewed in Fig. 20, that is, the load i is in the "on- :
state", the transmitting circuit 20 transmits to the leased line a response signal indicating that the load 5 i is in the "on-state" in steps D4 and D5. To the -contrary, if the status flag corresponding to the load :~
i is "0" as that corresponding to the load 2, that is, the load i is in the "off-state", the transmitting circuit 19 issues to the power line a signal .
lO representing a request for control of turning the load i off in step D6. Further, when the receiving circuit 16 receives the response signal from the load i in step E1, the control circuit in the gatewa~ converts the received signal and then the transmitting circuit 15 20 transmits the converted signal to the leased line 2 in step E2.
As above stated, the gateway of the present invention converts a signal which being received from ;
the controller through the leased line and transmits 20 to the power line the converted signal representing a request for control of turning a load into a certain state only when the contents o~ the request is to change a currant state of the requested load into the certain state. In the other cases that the certain 25 state requested is the same with the current state of : .
the load and that the load is not connected to the power line, the gateway does not convert the received ~- -32- ~ ~32~54 signal frP~ ~hQ ~Q~trQller ~t t~aP~mat a re~P.~e signal to the leased line.
In this embodiment, at a constant interval of time, the gateway transmits onto the power line 5 signals each representing a request for transmitting a signal indicating the current state of the load. If --the gateway transmits the signal representing such a request when there is a low traffic of signals on the power line, the gateway can provide the similar lO effects as this embodiment does.
Fu~thermore, the foregoing descriptlon has been given only to the control operation in case of -changing the state of the load i from the "off-state"
to the "on-state". It is, however, to be noted that 15 the control operation in case of changing the state of ~;
the load i in the opposite direction is effected in the similar manner.
As above-mentioned, in the load control system having the leased and power lines, the third embodiment or gateway of the present invention is proYided with a control circuit which further ;
includes: load monitoring means for monitoringjthe ~
states of all the loads and for storing the monitored -states of the loads in memory means; and load control 2s means for referring to the state of the load stored in the memory means when receiving the load control signal and for transmitting the control signal to the f~ 1 3 3 ~

power line only when the current state of tho load is to be changed. Thereby, exchange of control signais can be efficiently made between the leased ahd power lines and thus a burden of the leased line of which 5 transmission rate being relatively low can be much reduced.
Moreover, a fourth embodiment of the present invention will be described hereinbelow with referring to the Figs. 23 to 29.
Fig. 23 shows an example of construction of the fourth embodiment or gateway according to the ;
present invention. In this figure, reference numerals 2, 3, 63, and 64 denote a coaxial cable used to be a leased line, a power line, a circuit for transmitting lS data represented by a signal to be exchanged between the leased and power lines without compression and expansion of data in a frame of communication, a circuit for converting the format of the data represented by the signal with compression or expansion of the data in the frame of the communication, respectively. Further, reference numerals 65 and 66 denote switching circuits and !~ ` , .
reference numeral 67 rspresent a switch control circuit. As shown in this figure, these circuits 65, 2s 66 and 67 compose a change-over circuit 68.
Hereinafter, a procedure to be effected in ~-the gateway 11 constructed above on an exchange of a / - ' _34_ 133~
signal between the leased and power lines will be described.
First, the procedure in case that a frame is transmitted from the leased line or coaxial cable 2 5 through the gateway 11 to the power line 3 will be described below. When the frame is recelved at a -switching circuit 65 in the gateway 11, the received frame is then sent to the switch control circuit 67 which selécts one of the circuits 63 and 64 in l0 accordance with a code included in the received frame. ;
For instance, ~he circuit 63 is selected, the received ;;
data is sent to this circuit 63 by way of the circuit 65 wherein the format of the data is converted from that required for transmission on the coaxial cable 2 15 to another format required for transmission on the power line 3.
On the other hand, in case that a frame is transmitted in the opposite direction, the received data is sent to the switch control circuit 67 by way 20 of the circuit 66. Thereafter, one of the circuits 63 ~;
and 64 is selected and further, the data is sent to the circuit 65 through the selected circuit 63lor 64 to the coaxial cable 2.
As above described, the circuit 63 is used 25 to exchange the data in the frame between the leased and power lines, so to speak, "transparently". In contrast wit~ this, the circuit 64 sends the data to _35_ 1 332~ 5~ -the switch circuit after compresses or expands the data included within the frame.
The home control system employing such a gateway 11 of the present invention is constructed in 5 the .same manner as shown in Fig. 4. Therefore, -descriptions of parts of the home control system will be omitted hereon.
Further, in this home control system, procedures of communication in case of controlling the lO consent adaptors 22 by the controller 21 are the same with those shown ln FIg. 7.
Fig. 24 shows a sequence of procedures in case that the gateway 11 directly issues a control command. As shown in this figure, a monitor response 15 is transmitted by the gateway 11 to the MMC. The format of the frame to be transmitted on the coaxial cable 2 of this home control system is the same with that shown in Fig. 8. Further, the format of the frame to be transmitted on the power line 3 is the 20 same with that shown in Fig. 9. Thes~ two formats of the fram~ are substantially the same with each other except that the length of the data included in the frame transmitted on the coaxial cable 2 is 5 bytes or more while that of the data in the frame on the power 25 line 3 is equal to or less than 1 byte. This is because that many and various terminals are connected to the coaxial cable 2 and require many kinds of -36- 1332~
control information. Thus, transmission of data on the coaxial cable necessarily reqires expandable representation of data and, as a consequence, a relatively long length of data is used therein. To 5 the contrary, in case of transmission on the power line, equipments connected to the power line are relatively simple loads each of which needs control information only for turning it on and turning it off.
Moreover, transmission rate is relatively low and data 10 of short length is preferable.
Therefore, the gateway 11 compresses data in case of transmitting the information for home control from the coaxial cable 2 to the power line but contrarily adds additional necessary data to the 15 information in case of transmission of the information in the opposite direction.
Next, a procecdure of communuicating text information among personal computers and so on will be ;~
described hereinbelow.
In Fig. 25, reference numerals 69 and 70 ~
denote a set of terminals such as personal computers ~-connected to the coaxial cable 2 and another set of terminals such as personal computers connected to the power line 3, respectively. ;
Differently from the case of transmission of information in the home control system as above described, in case of transmission of information such , 1 3 3 2 d~ r~ a~

as text among personal computers, data is transmitted and received in the same representaion without compression and expansion thereof among the personal computers. The gateway 11 is not required to 5 interpret and convert detail portions of data but to transmit the data as it is.
Both Figs. 26 and 27 show frames transmitted on the coaxial cable 2. That is, Fig. 26 shows the frame transmitted from the terminal 69 and on the lO other hand Fig. 27 is the frame transmitted to the terminal 69.
In Fig. 26, reference numeral 751 designates a headder portion which indicates that the information is text data and is to be exchanged 15 without compression and expansion. Reference numeral 752 denotes a destination network address indicating that the information is to be transmitted to the power line. Further, reference nunmerals 753 and 754 designate an address of a terminal connected to the 20 power line 3 and data to be transmitted to the terminal, respectively. By usuing the formats shown in Figs. 26 and 27 above, transmission of data is perfomed among the personal computers.
Moreover, the headder portion 751 is used to 25 discriminate whether or not the information is to be compressed or expanded on transmission thereof. Thus, the headder portion 751 is first filled with control ~ - : ~ ~ ~ - .~ .: . .: .......................... - ' ::: i . . ~ . . . ~ . ~ , . . `

~ -38- l 332~
data indicating whether or not the data division of the information is to be compressed or expanded. -Thereafter, the information including the headder portion 751 is transmitted to the gateway 11. On ~;
5 receiving the information, the gaterway 11 effects decides whether or not to perform the compression or expansion of the received data in accordance with the contents of the headder portion and then effects the transmission of the information to the personal l0 computer and so on.
Figs. 28 and 29 show the communications protocol by using hierarchical representation. In these drawings, reference numerals 80, 81, 82, 83, 84, 85 and 86 denote a physical layer, data link layer, lS network layer, transport layer, a session layer, a representation layer and an application layer, respectively.
Fig. 28 shows connections between the layers in which data from equipments connect to each other 20 when the gateway 11 exchanges the information without compression or expansion of the data. As shown in this figurel the data from the terminal equipments 69 connect to each other in the gateway 11 at the network layer 82.
Fig. 29 shows connections between the layers relating to data from equipments when the gateway 11 `
transmits thé information after compression or ',''',''',''','' ,;;

~39- 1332~
expansion of the data division. The data from the controller 21 is once interpreted in the gateway 11 and further converted by the compression or expansion of the data division thereof. The converted data is 5 transmitted to and received by the consent controller 9. . .
As above described, the fourth embodiment or gateway of the present invention is provided with a converting and transmitting circuit for converting lO representation of control information to be exchanged between the leased line capable of transmitting digital signals thereon at a high transmission rate and the power line transmitting digital signals thereon at a relatively low transmission rate and for 15 transmitting the converted control information to the gateway provided between the leased and power lines, a "simple" transmission circuit for transmitting the data such as text information without compression or expansion of the data and a switching circuit for selecting one of the converting and transmitting circuit and the "simple" transmission circuit.
Thereby, communication load on the power line can be reduced to a minimum and transmission of text between the leased and power lines can be realized. ;
The foregoing descriptions of the preferred embodiments are given only to the exchange of the information and data between the leased and power ~ 40_ 1 3 3 2 4 ~ 4 lines. However, it is apparent to those skilled in the art that the present invention can be applied to any networks and that the protocol layer ~t which data from the controller and terminals connected to each 5 other can be arbitrarily selected. :~
It is further to be understood by those :
skilled in the art that the foregoing descriptions rclate only to preferred embodiments of the invention and that various changes and modifications may be made ~
10 in the invention without departing from the sprit and ;~ ~:
scope thereof. -~,-,,'`'.'.''' .".- ..
. ~' ' ~ ' ' .

.. ...

Claims (2)

1. In an electrical load control system, a gateway circuit for controlling signals to be exchanged between a leased-line information transmission system and a power-line carrier information transmission system, said gateway circuit comprising:
first exchanging means connected to said leased-line information transmission system and to said power-line carrier information transmission system for exchanging information between said leased-line information transmission system and said power-line carrier information transmission system without compressing or expanding said information;
second exchanging means connected to said leased-line information transmission system and to said power-line carrier information transmission system for exchanging information between said leased-line information transmission system and said power-line carrier information transmission system, said second exchanging means compressing or expanding said information during an exchange between said leased-line information transmission system and said power-line carrier information transmission system; and Claim 1 continued....

switching means responsive to information exchanged between said leased-line information transmission system and said power-line carrier information transmission system for selecting one of said first and said second exchanging means to exchange said information.

2. In an electrical load control system, a gateway circuit as set forth in claim 1 wherein said switching means comprises detection means responsive to a switching signal included within said information for generating a switch signal and selecting means responsive to said switch signal for enabling one of said first exchanging means and said second exchanging means to operate on said information.