British Telecom microwave network


The British Telecom microwave network was a network of point-to-point microwave radio links in the United Kingdom, operated at first by the General Post Office, and subsequently by its successor BT plc. From the late 1950s to the 1980s it provided a large part of BT's trunk communications capacity, and carried telephone, television and radar signals and digital data, both civil and military. Its use of line-of-sight microwave transmission was particularly important during the Cold War for its resilience against nuclear attack. It was rendered obsolete, at least for normal civilian purposes, by the installation of a national optical fibre communication network with considerably higher reliability and vastly greater capacity.
BT remains one of the largest owners of transmission and microwave towers in the UK. The most famous of these is the BT Tower in London, which was the tallest building in the UK from its construction in the 1960s until the early 1980s, and a major node in the BT microwave network.

Television links

The earliest operational GPO microwave links were provided for 405-line BBC television.

Experimental systems

London to Birmingham pre-war

In 1939 the Post Office placed a contract with EMI for an experiment in the relaying of television signals to Birmingham. In this case, the signals from Alexandra Palace were to be received at Dunstable and transmitted over a radio link to Sharmans Hill, Charwelton, some 40 miles distant towards Birmingham; thus carrying the signal two-thirds of the way from London to Birmingham. World War II intervened and this early experiment had to be abandoned.

London to Castleton 195 MHz

The GPO built in an experimental chain of radio relay stations for television, which used the relatively low VHF frequency of 195 MHz and frequency modulation with a deviation of 6 MHz per volt. Each relay station consisted essentially of back-to-back rhombic antennas on opposite sides of a hilltop, connected via an amplifier. The frequency was not changed. The system was first tested on 24 March 1949. The stations were located at:
The GPO built an experimental 4 GHz system. This was used operationally to feed TV pictures to the Wenvoe transmitter during the latter's first four months on air in late 1952, until a coaxial feed became available. Some of this equipment from this link was recovered, refurbished, modified and used to provide a permanent link from London to Rowridge in 1954.

London to Birmingham 900 MHz

A chain of stations was built between telephone exchanges in London and Birmingham to connect the Sutton Coldfield transmitting station to Alexandra Palace. The contract for this was placed with GEC in mid-1947. The stations were located at:
The GPO placed a contract in July 1950 for a chain of microwave links to feed BBC television from Manchester to the Kirk o'Shotts transmitting station. This was the first permanent GPO system to use the 4 GHz band. The chain was routed near the east coast in order to be close to Leeds, Newcastle and Edinburgh. The stations were located at:
The term 'backbone' is often applied to the core of a communications network, i.e. the part that provides high-capacity links over long distances between major nodes. In the early 1950s, the term was used by the General Post Office to describe a chain of microwave links designed to provide resilient communications in the event of nuclear war. It was originally designed as a chain of stations between south-east England and Scotland.
The exact location of the Backbone sites changed as the project was developed, but in July 1956 there were 14 planned sites at :
Two additional 'Backbone spur' sites were planned for Shrewsbury and Grantham, which connected to the main Backbone spine at Pye Green and Coalville respectively.

Radio standby to line

The 1956 GPO paper referred to under 'Backbone' above also described a series of links called 'radio standby to line'. These were spur links between the GPO Backbone sites and defence 'customer' sites. They were designed to carry between 25 and 150 'private wire' circuits each, by radio. The paper contains a list of sites and a network map, showing the following radio standby to line links:
Various types of aerial have been used in the network's history. At first, prime-focus parabolic reflectors were used. In about 1960, dual-band horn aerials started to be used widely, and a few of these survive to the present day. They began to go out of fashion at the end of the 1960s, when types of parabolic antenna with an improved performance became available.
Many of the towers were designed with particular types of aerial in mind. Many towers were designed to carry horn aerials but no longer do so, and look rather odd as a result.