NZ331318A - Series loop structured wiring with interconnection hub - Google Patents

Series loop structured wiring with interconnection hub

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Publication number
NZ331318A
NZ331318A NZ33131898A NZ33131898A NZ331318A NZ 331318 A NZ331318 A NZ 331318A NZ 33131898 A NZ33131898 A NZ 33131898A NZ 33131898 A NZ33131898 A NZ 33131898A NZ 331318 A NZ331318 A NZ 331318A
Authority
NZ
New Zealand
Prior art keywords
interface
signal
input means
communications
communication
Prior art date
Application number
NZ33131898A
Inventor
Brendon Reid
David Smithson
Original Assignee
David Smithson
Brendon Reid
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by David Smithson, Brendon Reid filed Critical David Smithson
Priority to NZ33131898A priority Critical patent/NZ331318A/en
Priority to AU43528/99A priority patent/AU4352899A/en
Publication of NZ331318A publication Critical patent/NZ331318A/en

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Abstract

In a structured wiring arrangement the RF inputs of RJ interface jacks 2, 4 are wired in series, perhaps through a switching hub 60, to receive signal from antenna output 10, and the signal is supplied through the hub at terminal 63 to the distribution amplifier 88 and splitter 8 to each of the TV output terminals of the respective jacks 2, 4, 6.

Description

This invention relates to cabling systems particularly for cables that carry electronic signals to communication apparatus, or electronic signals representative of various information, for example television signals or signals from aerials, telephones and the like. The system of the present invention has particular application to buildings such as 5 domestic dwellings, but is not limited to this application.
It is increasingly common for domestic dwellings to include electronic communications and/or control apparatus Frequently new dwellings and commercial buildings include extensive communication cabling systems to enable the distribution of communication 10 signals throughout the dwelling, so that televisions viewing different channels may be viewed in different rooms of the home, or a compact disc player in one room may be used as a source of the signal for listening to the musical or other content of the compact disc in other rooms throughout the building or dwelling. The distribution of communication signals throughout a dwelling is becoming more important as greater 15 reliance is placed upon the internet for communication and the number of television channels (both cable and non-cable) is increasing.
The significant problem posed with this increased reliance upon the distribution of communication interfaces within a dwelling is that, over time, users often wish to 20 change the use of particular rooms within the dwelling or change their communication requirements as the communication environment externally of the house or building also changes Thus for example, if a room in the dwelling which was formerly being used as a room in which a television was viewed is now to have the television removed and possibly replaced by some other device, a change may be needed to the cabling 25 system of the dwelling. Alternatively, if an additional communication device such as a CD player or video cassette recorder or decoding apparatus for a particular coded television transmission channel needs to be included or provided in the room, extensive cabling changes may be required. Such changes are very inconvenient and therefore expensive. Often, such changes will necessitate removal of portions of the 30 walls of the dwelling in order to facilitate changes to the cabling system. The problem is exacerbated by the fact that communications cabling often needs to be installed by professional technicians to ensure that communications apparatus will function reliably. For example, if communications cabling is located too near cables that supply electrical energy for operating appliances in the building, then interference from the 50 or 60 35 hertz mains frequency may affect the signal being carried by the communications cable 2 331318 which can result in poor performance of the apparatus to which the cable supplies signals It is an object of the present invention to provide a communications cabling system 5 which will at least go some way toward overcoming the foregoing disadvantages, or which will at least provide the public with a useful choice.
In one aspect the invention consists in a building communications cabling system including a first communication connector interface and a second communication connector interface, each interface having an output to allow a communication signal receiving device to be connected thereto, and each interface having an input means for receiving a communications signal, a first cable means for conveying a communications signal from the input 15 means of the first interface to the input means of the second interface, and a signal distribution means for receiving the signal from the input means of the first or second interface and conveying the signal to the outputs of both the first A and second interfaces In a further aspect the invention consists in a method of installing communication cabling in a building, the method including the steps of providing a first communication connector interface and a second communication connector interface, each interface having an output to allow a communication signal receiving device to be connected thereto, and each 25 interface having an input means for receiving a communications signal, providing a first cable means for conveying a communications signal from the input means of the first interface to the input means of the second interface, and connecting the first cable means between the input means of the first interface to the input means of the second interface, providing a signal distribution means for receiving the signal from the input means of the first or second interface and conveying the signal to the outputs of the first and second interfaces, and connecting the signal distribution means between the first or second interfaces and the outputs of both the first and second interfaces 7--. - .'r? c; 3 2zrj .r]~or; v To those skilled in the art to which the invention relates, many changes in construction and widely differing embodiments and applications of the invention will suggest themselves without departing from the scope of the invention as defined in the appended 5 claims The disclosures and the descriptions herein are purely illustrative and are not intended to be in any sense limiting The invention consists of the forgoing and also envisages constructions of which the following gives examples One preferred form of the present invention will now be described with reference to the accompanying drawings in which, Figure 1 is a schematic diagram of a communications cabling installation in accordance 15 with the present invention, Figure 2 is a schematic diagram of the system of figure 1 including a communication processing apparatus, Figure 3 is a schematic diagram of the communications installation as illustrated in figure 2 including an infrared control system, Figure 4 is a more detailed schematic diagram of the communications installation illustrated in figure 1, Figure 5 is a schematic diagram of the system shown in figure 4 including additional communications processing apparatus, Figure 6 a schematic diagram of a telephone communications installation in 30 accordance with the present invention, and Figure 7 is a schematic diagram of the telephone communications system shown in figure 6 including a PABX r*-*- rs- C7" 2'i J L. ^ l U V -l 331318 Referring to figure 1, a schematic of a communications cabling system isihown generally referenced 1 comprising three communication interfaces (being, for example, RJ45 Outlet Connectors) referenced 2, 4 and 6, a three way splitter 8 and an antenna 10 In-wall cabling 12 is provided between the antenna 10 and the first outlet 2 and in-5 wall cabling 14, 16 and 18 is provided between the interfaces and the three way splitter The transmission path between the antenna 10 and the three way splitter 8 is patched within the RF sockets of each connector using links 20 to 24 The antenna 10 may receive any form of communications signal Therefore, signals that are received by the antenna 10, for example television transmission signals, are provided to interface 2 then on to interface 4 and interface 6 before being provided to the three way splitter 8 at which point the signal is split into three parts 26 to 30 for provision to a television outlet at each of the interfaces 2, 4 and 6 This arrangement has the advantages that various communications apparatus can 15 be provided at each interface 2, 4 or 6 so that the communications signal that the new apparatus provides can be transmitted to each interface in the dwelling Usually, interfaces 2, 4 and 6 will be provided in different rooms of the house or dwelling.
Inclusion of further communications apparatus is illustrated in figure 2. Turning to that 20 figure, the same reference numerals are used as in figure 1 to describe the fundamental system. The primary difference in figure 2 is that the link 20 in figure 1 has been removed and instead a video cassette recorder (VCR) 40 and base band decoder connected to the VCR by a SCART lead 44 is included in the system Therefore, if an encoded signal is received by antenna 10, the encoded signal is 25 transmitted to the VCR 40 for processing and then onto the decoder 42 to be decoded into a form of signal which is appropriate for provision to a television or similar apparatus to provide a viewable picture The decoded signal is fed back to the VCR and then to a first interface 2 and from there on to interfaces 4 and 6 before being provided to the three way splitter for distribution to the television outlet points Thus, it 30 can be seen that the simple removal of a link within the interface 2 allows communication apparatus to be added in a selected room within the house or building for distribution to all outlets in the house. Therefore, the VCR 40 and decoder 42 may be provided in one room, but the television on which the signal is viewed may be provided in another This allows a high degree of flexibility in the setup of 35 communications apparatus within the building. , G 1.^3 cr A ,"Z 2'i it, 1 "/ ^ r, ^ ~ u \x \ O ' ' 31318 Turning to figure 3, a means for controlling the VCR 40 from another room is shown As seen in figure 3, an infrared room sensor 50 is provided in the room in which interface 6 is installed and the sensor is patched in a hub to a connector block 52 which 5 provided the signal to an infrared emitter 54 in interface 2 The emitter 54 provides an infrared signal to the infrared receiver of VCR 40 so as to control the channel selected for viewing Turning to figure 4, a more detailed schematic of the apparatus shown in figure 1 is 10 illustrated, and provision of a satellite feed is also shown. The reference numerals that are the same as those in figure 1 indicate common features. The further features of the apparatus for figure 4 include a hub 60 having a number of terminations 61 to 65. The interfaces 2, 4 and 6 are also shown in more detail. Interfaces 2 and 4 are shown illustrating their data outlets 81 and 82, television outlet 84, radio frequency (RF) 15 outlets 85 and 86 and satellite outlet 87. Interface 6 in this example has only data outlets 81 and 82 and television outlet 84. As can be seen in figure 4, a distribution amplifier 88 is also provided to ensure that an adequate signal is provided to the splitter for distribution The satellite signal feed to outlets 87 and 88 is provided by a satellite splitter 89 which receives the signal from a satellite dish 91.
In figure 4, the antenna signal is provided to hub termination 61 from which it is supplied to the first interface 2, linked through the RF sockets 85 and 86 of interface 2 before being provided back to termination 64 of the hub from which an internal hub interconnection connects the signal through to terminal 62 for provision to the 25 distribution amplifier 88 The three way splitter 8 provides the signals to each of the TV outlets 84 on the interfaces. It will be seen that the use of the hub 60 provides a large number of combinations and permutations of interconnection for distribution of the signals using the series loop arrangement described in the preceding figures It will also be seen that a large number of communications interfaces may be used i.e. a 30 large number of rooms or offices in a building may be accommodated.
Thus turning to figure 5, the apparatus for figure 4 is shown without the satellite feed, but including further communication apparatus connected to interface 6 In this figure, interface 6 includes television and data outlets The additional apparatus includes 35 video camera 90 which feeds composite video signals to a modulator 92 for provision 21 A 1 n * ' } iL . U r"^ ™ /T^ ^ ^ \ 7 1 ^ 1 8 into the RF socket 86 of interface 6 The other apparatus connected into the loop is laser disc player 94 and the accompanying modulator 96 the output signal for which is fed into RF socket 85 of interface 6 Therefore, the signal which is being provided from antenna 10 is provided to the input of a three way combiner 98 via hub terminations 66 and 64 and the signals derived from video camera 90 and laser disc player 94 are provided to the three way combiner via hub terminations 63 and 65. The three way combiner 98 combines the signals to form a combined signal which is amplified and then distributed through the splitter to each of the TV outlets 84. Therefore, all of the signals from the antenna 10, video camera 90 and laser disc player 94 are available on all of the three TV outlets 84 on each of the interfaces i e all of the signals are available in any room of the dwelling and the system has been rearranged to include the video camera and laser disc player without need of any rewiring. All that needed to be changed were the connections between hub terminations at the central hub 60 and the addition of a three-way combiner 98 The combiner 98 in use can be provided within or adjacent to the hub at a central location within the dwelling so that no changes to the internal wall wiring within the dwelling need to be made.
Turning to figure 6, another application of the invention is illustrated in which the data outlets 81 and 82 of each interface are linked together and feed telephones 102 to 106 The data outlets are linked to corresponding data interfaces 112, 114 and 116 comprising RJ45 outlets The outlet 120 of each of the outlets 112 to 116 is connected in common to the Telecom demarcation point 122 and is linked to the first data outlet 81 Turning to figure 7, the same arrangement as illustrated in figure 6 is shown but with a PABX unit which distributes individual calls to each of the outlets 120 of interfaces 112 to 116 At each wall outlet the telephones are plugged into a single outlet, such as outlet 81 (usually the white outlet) via an RJ45-BT adaptor Where possible telephones with internal ringing capacitors are utilised and connected directly to the RJ45 socket via their own RJ45 plug.
It will be seen that the arrangement described above may also be used for telephones within the dwelling or with the distribution of other communication signals and therefore provides maximum flexibility so that dwellings are effectively "future proofed" for future developments in electronic technology The installation of the present invention allows 7 G:;:.; 331318 the user to connect telephones, modems, PABXs, computers, TVs, VCRs, pay transmission broadcast decoders, satellite decoders, video cameras etc into their domestic communication system Furthermore, decoded pictures can be distributed to every television in a household and channels may be changed remotely. Similarly, a 5 video cassette may be played in one room while viewed and controlled from another room Also, a PABX phone system may be connected at a later date, by simply adding the PABX to the hub and patching it in.
The hub cabling system is preferably a Star topology cabling system employing specific 10 combinations of Category 5 and Coax Cables. Of course, it will be seen that various other outlets apart from those described above may be used in various configurations to suit the requirement of each individual household and user.
The preferable hardware for use in the invention as described is listed below by way of 15 example only It is preferred that the placement of the hub is in the vicinity of access to the ceiling cavity of the dwelling and underside of the house i.e in a floor to ceiling cupboard. It is also preferred that the hub is placed in the vicinity of electronic sub-systems (for 20 example alarm panel, sprinkler control) and that the hub is placed away from electronically noisy devices, for example contactors, transformers etc.
It will be seen that the present invention provides considerable advantages over the prior art -• - 23 c?: 3 > ' , !p*> -> • L ^ - a J " u ^ CLAIMS 1 2 3 4 6 A building communications cabling system including a first communication connector interface and a second communication connector interface, each interface having an output to allow a communication signal receiving device to be connected thereto, and each interface having an input means for receiving a communications signal, a first cable means for conveying a communications signal from the input means of the first interface to the input means of the second interface, and a signal distribution means for receiving the signal from the input means of the first or second interface and conveying the signal to the outputs of both the first and second interfaces A system as claimed in claim 1 wherein the signal distribution means includes a signal splitter and one or more distribution cables from the splitter to each output A system as claimed in claim 1 or claim 2 including a third communication connector interface having an output and the signal distribution means also conveys the signal to the output of the third interface.
A system as claimed in claim 3 wherein the third interface also includes an input means and a second cable means is provided between the input means of the second interface and the input means of the third interface to provide the signal to the input means of the third interface A system as claimed in claim 4 wherein the first and second cable means include a connector hub whereby communications signals on the first and second cable means pass through the hub to reach the interfaces.
A system as claimed in claim 5 wherein the hub includes switch means to selectively alter the communication paths provided between the interfaces by the first and second cable means.
G 9 2

Claims (1)

  1. 33131 m A system as claimed in any one of the preceding claims wherein the input means includes two connection points connected by a link, the link being removable to allow a signal providing device to be connected to the input means to provide a signal thereto A system as claimed in any one of the preceding claims wherein the distribution means includes amplification means to amplify the signals to be distributed A system as claimed in claim 5 or claim 6 wherein the hub is provided in a central location within the building A building communications cabling system substantially as herein described with reference to the accompanying drawings A method of installing communication cabling in a building, the method including the steps of providing a first communication connector interface and a second communication connector interface, each interface having an output to allow a communication signal receiving device to be connected thereto, and each interface having an input means for receiving a communications signal, providing a first cable means for conveying a communications signal from the input means of the first interface to the input means of the second interface, and connecting the first cable means between the input means of the first interface to the input means of the second interface, providing a signal distribution means for receiving the signal from the input means of the first or second interface and conveying the signal to the outputs of the first and second interfaces, and connecting the signal distribution means between the first or second interfaces and the outputs of both the first and second interfaces. Intr1' G.;i: 1 c? ,\2 a ^ 10 12 A method of installing communication cabling in a building substantially as herein described. PIPERS Attorneys for BRENDON REID and DAVID SMITHSON )wr C. r: Li W [. : P 7' -- h 11 1° 3 Way Splitter ■li r. l-io r 3° t Zo B 22. c / + L lb 4- /6 f/6 I *
NZ33131898A 1998-08-11 1998-08-11 Series loop structured wiring with interconnection hub NZ331318A (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
NZ33131898A NZ331318A (en) 1998-08-11 1998-08-11 Series loop structured wiring with interconnection hub
AU43528/99A AU4352899A (en) 1998-08-11 1999-08-11 Communications cabling system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
NZ33131898A NZ331318A (en) 1998-08-11 1998-08-11 Series loop structured wiring with interconnection hub

Publications (1)

Publication Number Publication Date
NZ331318A true NZ331318A (en) 2001-10-26

Family

ID=19926874

Family Applications (1)

Application Number Title Priority Date Filing Date
NZ33131898A NZ331318A (en) 1998-08-11 1998-08-11 Series loop structured wiring with interconnection hub

Country Status (2)

Country Link
AU (1) AU4352899A (en)
NZ (1) NZ331318A (en)

Also Published As

Publication number Publication date
AU4352899A (en) 2000-03-02

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