Standard Telephones and Cables Ltd (later STC plc) was a British manufacturer of telephone, telegraph, radio, telecommunications, cables and related equipment.
1883 The company began life as an agent for the US Western Electric company that also had a factory in Antwerp, Belgium. The London operation sold US-designed telephones and exchanges to fledgling British telephone companies.
1898 A failing cable factory at North Woolwich in London’s East End was acquired. Despite setbacks, this factory made lead-sheathed cables and also assembled equipment from components imported from Belgium and the United States. It then moved into complete manufacture as well.
1910 Private company formed: Western-Electric Co Ltd.
1910 Using advanced American thinking and designs and after incorporation as a British legal entity, Western Electric’s future looked bright.
WWI The company contributed to the war effort in military communications and the, then primitive, cable and wireless technologies they used. Radio technology was being initiated in the neutral USA. This gave Western Electric a post-war advantage as wireless broadcasting was introduced in Britain.
1920s The company was closely involved in wireless broadcasting (radio).
1922 With its competitors, the company set up the British Broadcasting Company (later Corporation) as well as producing wireless receivers. Valve technology was developed and commercially exploited.
1922 May. The John Tylor site was acquired.
1925 Name of Western-Electric Co Ltd was changed to Standard Telephones and Cables. Western Electric’s international operations were purchased by a surprise buyer, the infant ITT Corporation (representative of International Standard Electric Corporation) which had been founded by Sosthenes Behn less than 10 years previously, with an aggressive and thrusting reputation. To fit with its other worldwide operations, ITT renamed its new UK operation Standard Telephones and Cables. The new organisation was based on entrepreneurial risk-taking, based on solid research and brave innovation; Alec Reeves and Alan Blumlein could both be seen as ideal employees.
Within a few years, multi-channel transmission (1932), microwave transmission (1934), coaxial cabling (1936), the entire radio systems for the liners Queen Mary and Queen Elizabeth (1936-39), the patenting of pulse code modulation (1938) all contributed to the hey-day of telephony’s development.
1937 Advert in British Industries Fair Catalogue as Maker of C. M. A. (Cable Makers Association) Cables. Manufacturers of Electric wires and Cables for all purposes. (Electricity: Industrial and Domestic Section - Stand Nos. Cb.501 and Cb.400)
1937 Manufacturers of radio and direction finding apparatus
1939 See Aircraft Industry Suppliers
WWII: significant military work was undertaken with many developments particularly with regard to aerial warfare: communications, radar, navigational aids, and especially OBOE. Site suffered some bomb damage. Camouflage painted on buildings. Tunnels under the North Field used as shelters.
1947 British industries Fair Advert for the Co-ordinated Systems Planning of all forms of Electrical Communication. Systems and Equipment for Telephone, Telegraph, Teleprinter and Radio Communication. Systems and Equipment for Power and Industrial Applications. (Office Machinery and Equipment Section - Olympia, Ground Floor, Stand No. B.1439)
The 1950s were characterised by the establishment of television broadcasting. Technical milestones were numerous and were crowned by the coverage of Queen Elizabeth II's Coronation in 1953. The steady spread of TV transmission and availability over Britain very often used STC technology and equipment.
1954 AA image on this page.
1956 STC became a major player in submarine cable with its production unit in Southampton opened in 1956.
1959 joint owner with Enfield Cables Ltd of Enfield-Standard Power Cables Ltd.
1960 A consortium of AEI, Automatic Telephone and Electric Co, Ericsson TelephonesLtd, GEC, Marconi's Wireless Telegraph Co, Plessey Co and STC formed a holding company Combined Telephone Holdings only days after its members had failed in their bid to acquire Telephone Manufacturing Co. Combined Telephone Holdings purchased for cash more than half of the shares in Phoenix Telephone and Electric Works and offered to purchase the rest.
1961 Listed as a subsidiary of International Standard Electric Corporation of New York. Works at New Southgate, North Woolwich, Footscray, Newport (Monmouthshire), Harlow, Southampton, Paignton and Enfield
1961 Telegraph, telephone and radio engineers, including transmission systems, electronic computers, remote control systems, components, communication cable installations and production of rubber and plastic cables. 25,000 employees.
1964 U.K. cable activities restricted to the manufacture of land and submarine telecommunication cables; ended Enfield-Standard Power Cables Ltd venture.
In other areas, ship to ship, ship to shore and civil aviation communications took on modern characteristics with STC's products. In time, international and intercontinental submarine telephone contact became possible, feasible and then everyday. Questions of product and installation quality and absolute reliability were overcome and STC became a major player. Coverage graduated from rivers, estuaries, the English Channel, the North Sea, the Atlantic to the Pacific Ocean.
In 1966, Charles Kao of STC's Standard Telecommunications Laboratories in Harlow demonstrated that light rather than electricity could be used to transmit speech and (even more importantly) data accurately at very high speeds.
1968 STC Footscray announced new semiconductor devices
1968 Queen's Award to Industry for Export Achievement
1970 acquired Submarine Cables Ltd from AEI making STC the world leader in the field of submarine cables, and the sole United Kingdom manufacturer.
1977 Production of cables at Woolwich and Greenwich ceased as part of a rationalisation programme; work transferred to Newport (Gwent) and Southampton.
Material technology took time to catch up with fibre-optic technical developments but by 1977 a commercial fibre optic link had been installed in England. Within the next ten years BT abandoned metal cables for longer distances. The Newport plant dominated the re-cabling of the UK public telephone system.
1979 One of only a small number of manufacturers world-wide with the capability of supplying a complete submarine cable system, including the necessary supporting electronic equipment. Most of STC's production of submarine cable was exported. Including sales of submarine cable, STC was the largest UK manufacturer of telecommunication cable.
1979 ITT sold 15% of its shares in STC.
1982 STC and its partners Plessey Co and GEC had developed the fully digital System X switch (still in service in many UK facilities in 2005) but British Telecom decided that STC should no longer be part of the consortium constructing System X.
1982 With developments in computer technology influencing and stimulating telecoms, the buzzword of the late 1980s became “convergence”. This meant that specialised suppliers, adapted to the specific needs of the local market would dominate. ITT needed to raise cash to fund continued development of its telephone switching system (System 12) and sold off most of the rest of its shareholding in STC.
The remainder of the 1980s saw STC lose its way. An attempt to enter the mainframe computer market with a failing player, ICL, led to financial strains.
By 1991, with an aging workforce, production spread over too many expensive sites and no clear leadership-succession to its chairman, Sir Kenneth Corfield, STC was bought by Northern Telecom (Nortel). STC had lasted 109 years.
We have on offer today, one of these sonically lush high performance triodes. The device carries markings in silver ink on the fat black micanol base, the envelope is carbonised black glass 2 inch high. This device was produced at the Brimar - STC Footscray works. This device shows good emission and close matching for each triode section within each envelope - a hallmark of a good valve.
We have on offer today, a beautiful matched pair one of these sonically lush high performance triodes. These devices carry markings in silver ink on the fat black micanol base, the envelope is carbonised black glass 2 inch high. Both were produced at the Brimar - STC Footscray works. Both devices show good emission and close matching not only for each triode section within each envelope but inter valve too.
On offer we have a beautiful matched pair of 18mm, 'long plate' white print STC Brimar 12AU7/ ECC82 carrying identical factory codes of 1413. These devices present with superb matching both within the envelope and inter device.
These devices have tested on our AVO VCM163 valve tester as having nominal emission with very close matching for each triode section within the envelope.
A21: Section 1: Ia = 10.5 mA; gm = 1.9 mA/V
A21: Section 2: Ia = 10.5 mA; gm = 1.9 mA/V
A22: Section 1: Ia =10.0 mA; gm = 1.9 mA/V
A22: Section 2: Ia = 10.0 mA; gm = 2.0 mA/V
The specification for a new/100% emission valve is:
Ia = 10 mA; gm = 2.2 mA/V
As you can see, this result show a really strong matched pair of valves with good matching of each triode section within each envelope.