British telephone socket

- 10.43

photo src: caravanchronicles.com

British telephone sockets were introduced in their current plug and socket form on 19 November 1981 by British Telecom to allow subscribers to connect their own telephones. The connectors are specified in British Standard BS 6312. Electrical characteristics of the telephone interface are specified by individual network operators, e.g. in British Telecom's SIN 351. Electrical characteristics required of British telephones used to be specified in BS 6305.

They are similar to modular connectors (as used in RJ11), but feature a side-mounted hook, rather than a bottom-mounted one, and are physically incompatible.


TestHelper Silicone Test Leads With Banana Socket Connection Wire ...
photo src: www.ebay.com


Maps, Directions, and Place Reviews



History

Standard sockets were introduced, as part of the 'New Plan' wiring policy, to allow customers to easily purchase their own telephones, as required by Oftel, the phone regulator. Thus any phone whose plug conformed to BS 6312 and met certain other regulatory standards, such as BABT, could be connected to the network, rather than British Telecom controlling the market. The 'New Plan' was only new to the UK and was based extensively on systems which had been available elsewhere for many years, especially in the US.

The new system replaced the older hard-wired system, which came in many 'flavours' (e.g., Plans 1, 1A, 1B, 1C, 2, 2A, 105, 107 etc.), which could be very complicated and required the attendance at the premises of a GPO telephone-engineer, who needed a complete set of 'N' (wiring) Diagrams, which was very extensive and ran to over 15 volumes of little black ring binders. N diagrams also had their own numbering system (e.g., a Plan 1A had an N diagram of N4502), and were frequently updated.

From the early years of the 1900s, the GPO (subsequently British Telecom) did have a plug and socket system available for rent (see Plate 3 in the 1909 edition of the Post Office Telegraphs "Connections of Telephonic Apparatus and Circuits" 1909 edition). It was later called a "Plan 4" (N762--first edition), and employed a heavy-duty, four-way jack plug 404 (circular in cross-section), on the end of the standard, plaited, cotton-covered instrument cord. It also had to have a separate bell-set, which was permanently in-circuit to provide ringing if there were no telephones plugged in. This system survived through various models of telephones from the "candlestick" 200 and 300 type bakelite phones until the introduction of the 700 series in 1959, when a smaller "Plug 420" was introduced. The separate bell-set, with its on-board capacitor and coils, also provided a testing circuit for remote engineers, by providing the mandatory 1000 ohm capacitive loop-back. Rental had to be paid on each telephone and on all the sockets, and hence the system was not that common.


Test Socket Connection Video



Sockets

A domestic single British telephone line installation will have a single master socket or line box in the premises, which is provided by BT or another service provider: this socket is the demarcation point between the customer-owned and maintained on-premises wiring, and the telephone network. For installations using the NTE5 line box (NTE for network termination equipment), the demarcation point is actually within the socket: the lower half of the front plate and associated wiring is the customer's, while the permanent wiring on the non-removable section behind this, remains the responsibility of the service provider. Customers are not permitted to access the wiring in a master socket without a removable lower section. Plug-in extension kits are available for customers with this type of installation. The two wires from the exchange are denoted the B leg at -48 V relative to ground when the line is not in use and the A leg which is near ground potential when the line is not in use. The A leg goes to pin 5 and the B leg to pin 2 in the master socket. (Although all equipment will work with a reversed line, so a reverse wired socket is not strictly a fault.) When current is flowing on the line, the B leg voltage collapses to nearer ground and the A leg voltage moves nearer to the B leg voltage. The exact voltage drop is a function of the distance to the exchange, and the network wiring type.

Until recently, this socket contained an enclosed spark gap, SP1, that could safely flash over internally to provide high voltage surge protection. This component is no longer used due to negative effects on VDSL speeds. The socket includes a 1.8 µF capacitor (bell circuit) to feed the AC ringing and a 470 k? resistor (R1, out-of-service resistor) to permit remote testing when no telephones are plugged into any sockets. Additional internal extension (secondary) sockets are wired off the master socket (connected in parallel using the IDC system) but not containing the surge protector, bell circuit capacitor, and the out-of-service resistor.

The 'old style' fixed master socket had only one set of terminals on the back and customers were supposed to use extension kits plugged into the front socket; however, many customers hard-wired their own extensions anyway for neatness and robustness reasons, which was a poor arrangement since it provided no way to isolate the customer's internal extension wiring from BT's wiring.

The BT NTE 5 Linebox Socket allows easy disconnection of the internal wiring by removing the two screws and sliding out the bottom half of the socket.

In recent years NTE5 sockets have been fitted in place of master sockets. These have a front plate where the lower half is removable so allowing customer's access to the terminals required for connecting internal extension sockets; it also provides access to a test jack, to determine if line faults are due to the customer's wiring or BT's. The removable panel also allows the external telephone line to be easily disconnected from the internal wiring, provided the wiring of the premises has been correctly carried out. The terminals on the back part used to be large screw terminals; however, all BT NTE5 sockets now use insulation-displacement connectors (IDCs).

Now that BT does not have a monopoly of internal wiring, they make a substantial charge if a fault reported to them turns out to be in the customer's internal/domestic wiring. It is therefore important for the customer to have the facility to check whether any problem or fault is in their internal wiring/equipment or externally in BT's cabling or systems. Since the NTE5 socket represents the official demarcation point between the internal/domestic wiring (at the removable front of the socket which is the customer's responsibility) and the external telephone line/cabling fixed at the rear (which is BT's responsibility) the physical disconnection of the two sets of wires (made possible by the NTE5's removable front plate) is crucial in identifying faults and allocating responsibility for their rectification.

In 2009, BT Introduced a vDSL service to the UK known as BT Infinity and at the same time introduced the BT vDSL Interstitial Faceplate, which performs two functions: DSL filter and Bell Wire noise suppression. The vDSL modem now plugs directly into the RJ11 socket on the faceplate. The faceplate can be easily fitted by removing the two bottom screws on a NTE5, sliding the bottom section out and fitting this in between. The result is that the entire extension circuit is filtered by the vDSL plate meaning that there is now no need for DSL filters on every Telephone Socket in the house. This product can also be fitted to ADSL lines and has been shown to improve connection speeds for vDSL and aDSL customers alike.


Latest News | Product Design, Development and Updates | E-Z-Hook
photo src: www.e-z-hook.com


Plugs

There are two types of modern British Telecom plugs in common use for connecting telephones, the 431A and 631A.

431A is 4-way and 631A 6-way. There are also plugs with only two contacts commonly seen on modem leads. These are a recent introduction and do not seem to be easily available as separate parts. All fit any right-handed "Type 600" telephone socket.

The Sinclair QL and 128k ZX Spectrum home computers used type 631W connectors for their serial ports (on the Spectrum 128 and +2, MIDI signals could also be sent from the port). These closely resemble standard 631A connectors but the keying slots on the back of the plug have a different size and position. The Sinclair QL also used the left handed variant of this connector (the 630W) for its joystick ports.

Type 430A and 630A plugs have the latch on the opposite (left hand) side of the plug, and were used as headset plugs on some switchboards and as handset connectors on some telephones, e.g. Ambassador.

The 631A and 630A plugs are also used for connecting sensors to interfaces for computer based measurements in educational environments, the former for connecting analogue sensors and the latter for digital sensors. Companies using these plugs include Vernier, TI and Casio, for interfaces connecting to their graphical calculators, and in the Netherlands CMA.

The BS 6312 specification defines the terminal numbering of a socket-outlet in the opposite direction to the pin numbers of the socket. Thus terminal 1 is connected to pin 6, terminal 2 to pin 5 and so on. The pins of the 631A plug are numbered in ascending order from left to right with the contacts facing upwards and the latch on the right hand side.


how to connection switch box use 5 pin socket.switch box ...
photo src: www.youtube.com


Connector on phone

The connector on the phone is not standardized: the connector at the wall is standardized by regulation, to allow individuals to use their own phones (interconnection), but the wire from the phone to the wall may be hard-wired to the phone, or use various connectors.

Typically it will have a 6P4C or 6P2C modular connector at the telephone end: this latter may be wired as per the RJ11 standard (with pins 3 and 4), or it may be wired with pins 2 and 5, as a straight through cable from the BT plug (which uses pins 2 and 5 for the line, unlike RJ11, which uses pins 3 and 4). Thus cables are not in general compatible between different phones, as the phone base may have a socket with pins 2 and 5 (requiring a straight through cable), or have an RJ11 socket (requiring a crossover cable).


photo src: caravanchronicles.com


Use in other countries

The BS 6312 jack has been used in New Zealand since the 1980s, replacing a number of other connectors and hard-wired connections, and was subsequently replaced by a "2-wire" version suited to daisy chain wiring that eliminated the 3rd ringing voltage wire. The "BT Jack" is still the most common phone jack in use, although many installations in business use structured cabling with "RJ45" 8p8c modular connectors for telephone as well as data services. Since 2010 the Telecommunications Carriers Forum Premises Wiring Code of Practice has deprecated BT jacks in favour of "RJ45" modular jacks for all new residential and SOHO phone/data networks, although not yet a mandatory standard in 2016.

It is also used in Bahrain, Bangladesh, Belize, Botswana, Brunei, Cyprus, Eritrea, the Falkland Islands, Ghana, Gibraltar, Israel, Jordan, Kenya, Kuwait, Lesotho, Malawi, Malta, Myanmar (Burma), Nigeria, Oman, Qatar, Saudi Arabia, Swaziland, Tanzania, the United Arab Emirates, Zambia, and Zimbabwe. The jack is still found in Hong Kong, where new installations ceased in 1998, while in Saint Vincent and the Grenadines, new installations ceased in 2001, with RJ11 now used instead.


How to wire up a NTE5 TELEPHONE MASTER SOCKET (quick version ...
photo src: www.youtube.com


Making the connections

As previously mentioned the actual connections are made using Insulation-displacement connectors (IDC). A punch down tool is required to do this and two sorts are available. One is of plastic construction and only intended for occasional use. The other is a professional tool used by installers, which is a spring loaded push down tool that both inserts the wire and trims it in one action : an example is shown in the photograph. It also comes with a tool for removing wires from sockets. From Q3 2016, Openreach started using a new, "toolless" version of the demarcation socket--the NTE5C--which does not require an IDC tool to make the connections.


Ordering and Installation of Broadband | thinkbroadband
photo src: www.thinkbroadband.com


Cabling arrangements

Shown below are the cabling arrangements for both 4-wire and 6-wire cable. Initially 4-wire was used and many older installations still use it, then the 6-wire became the new standard, but the 4-wire has latterly been reissued to all Openreach engineers as part of cost savings. Modern 4-wire however is the same diameter as 6-wire to allow engineers to retain existing tacking guns and cable clips. Note that the wires in the 6-wire cable are coloured with two colours in a ratio of four to one in length, with the first colour mentioned being the predominant one, e.g. if the indicated colour of the wire is W-B then the wire will be coloured white for 12 mm, then blue for 3 mm and so on. (In other words, it looks like a white wire with blue patches on it.)

Strictly speaking, a textbook installation will only actually use pins 2, 5 (for the voice) and 3 (for the ringer). Having said this, most modern telephones contain their own ringing capacitor, to cater for the Irish telephone system which does not have a capacitor built into the socket, and 2-wire extensions, which means that extension wiring can usually be run with only pins 2 and 5. Often where multi-core cable is used, the remaining cables are used for wiring extensions on additional incoming telephone lines.


photo src: caravanchronicles.com


Broadband

In order to use Broadband Internet services simultaneously with voice telephony, it is necessary to use a DSL filter. This is a low pass filter in line with the phone outlet. This prevents high frequency data noise from affecting the lower frequency voice bandwidth and it also prevents the low impedance of the connected phone from attenuating or modulating the high speed DSL data Path. Enough bandwidth is retained for voice telephony and the majority is used for high speed data.

All phones (or other voice band devices) must be connected via a filter (either a separate filter for each phone or one filter covering multiple phones) to avoid interference between the phones and the DSL signal. If the data transmission is still audible, using two DSL filters, daisychained in series, should eliminate the problem. The RJ11 female port provided on the filter case simply connects the DSL router directly to the phone line (most DSL filters have a socket marked DSL or ADSL that just connects the DSL line pair directly through to the incoming phone line pair via the BT plug, without any filtering or processing of any kind). The ringer wire is unnecessary in unfiltered parts of the wiring and its removal can often improve performance and reliability of the broadband service. This is due to the unbalancing effect that the ringer wire (on long extensions) can have on the matched twisted pair. Thus reducing the signal to noise ratio and also the high frequency response of the subscriber line.

When ADSL was first introduced in the UK it was installed by an engineer who replaced the front part of the NTE5 (if the property still had an old style master socket it would be replaced with an NTE5) with one containing a filter. Any hardwired phone extensions were disconnected from the original front part and connected to filtered terminals on the back of the filter. The DSL modem (which at the time was also BT supplied) and, if present, a phone or plug-in extension, could then be plugged into the front. If it was desired to locate the DSL modem away from the master socket a plug-in ADSL extension kit could be purchased.

BT also offered "wires only" ADSL service and promoted the technique of using a separate plug-in filter on every socket. While both technically inferior and far less tidy than the solution BT engineers had used, it was usually adequate and was simple enough for a non technical householder to understand. The more discerning customer can purchase a variety of hardwired filtering products, including replacement front plates for the NTE5, some of which have unfiltered as well as filtered terminals on the back to avoid the need to plug in the extension wiring that leads to the DSL modem.

In 2008 BT trialled and launched their 'IPlate'; the "I" is for interstitial, as it is fitted between the socket and the front panel. This plate is fitted by the consumer inside the NTE 5 and reduces interference carried by the 3rd (bell) wire. The reduced interference allows faster broadband speeds - BT claim a speed improvement of up to 1.5 Mbit/s with a theoretical 4 Mbit/s. By November 2009 BT were calling the I-plate a "BT Broadband Accelerator".


How to wire up a NTE5 TELEPHONE MASTER SOCKET (quick version ...
photo src: www.youtube.com


Structured cabling

Structured cabling systems are general-purpose communications wires installed in offices and increasingly also homes, which can be used for several different communication technologies (analog phone, ADSL, ISDN, Ethernet, video, etc.). The most common type uses Category 5 cables (four twisted pairs with 100 ohm impedance) between 8P8C (colloquially and incorrectly called RJ45) room sockets and a central patch panel.

The A and B wires of an analogue phone line appear in a structured cabling system usually on the centre pins of the 8P8C connector (pins 4 and 5; the blue/white TIA/EIA-568 pair 1 in Cat5 cables). In most other countries, those two wires are all that is needed to connect an analogue telephone. In the UK, however, many telephones expect the 25 Hz ring signal on a third wire. But such a 3-wire interface is not the symmetric interface needed for balanced twisted-pair transmission lines, and therefore prone to electromagnetic interference and crosstalk with nearby other wiring. Therefore, the capacitor that separates the bell signal from the A/B wires should be located close to the telephone. Any bell wire provided by the master socket is therefore not connected to the structured cabling, and the telephone is plugged at the other end into the structured cabling via a line adapter unit (LAU) / Mod-Tap / Molex that contains the capacitor needed to create the separate bell signal. Different types of LAUs are on the market:

  • PSTN secondary/slave: for phones that need no bell wire
  • PABX master: contains ring capacitor, to provide from the 8P8C 2-wire interface the 3rd "bell wire" required by UK phones
  • PSTN master: implements all the circuitry found in a BT master socket, including surge protection, ring capacitor, test resistor

There exists no well established standard in which polarity pins 2 and 5 of the phone socket are connected to pins 4 and 5 of the 8P8C connector; both alternatives are common. This polarity is not important; e.g. BT also no longer specifies in which polarity the A and B wires are connected to pins 2 and 5 of their master telephone socket, although earlier standards specified that the A wire be connected to 5 and the B wire to 2.

Source of the article : Wikipedia



EmoticonEmoticon

 

Start typing and press Enter to search