BMEWS radar buildings: 3 of the 4 former AN/FPS-50 buildings, 1 AN/FPS-49A building
Support structures: e.g., buildings with telecommunication equipment at the station's "support site" —15 major structures were complete in 1961
History
BMEWS General Operational Requirement 156 was issued on November 7, 1957 and on February 4, 1958; the USAF informed Air Defense Command that BMEWS was an "all-out program" and was "...being placed on the Department of Defense master urgency list." On January 14, 1958, the US announced its "decision to establish a Ballistic Missile Early Warning System" with Thule to be operational in 1959—total Thule and Clear Air Force Station costs in a May 1958 estimate were ~$800 million A World War II ship operated by the Burns & Roe company originally provided the Site J electrical and heating supplies until a powerplant was constructed years later, and water was from Thule AB via a branch to the site.
Construction
was contracted for heavy construction, and construction began in May 1958 The maintenance building with electric heat was the first building complete; and the four AN/FPS-50 reflectors with 25-ton foundations were complete by August 8, 1959 After the July 13, 1959, treaty No. 5045 with Canada regarding intermediate sites, the Western Electric BMEWS Rearward Communications System was established between the "switchboard at Thule and the BMEWS Project Office in New York City"—a similar line between Thule and Massachusetts used a summer 1959 "submarine cable... between Thule and Cape Dyer" President Dwight D. Eisenhower was notified on April 23, 1960 of "construction work at Thule on schedule all technical buildings have been accepted and emplacement of the electronic components is underway erection of the four radar antennas was completed", and radar testing began on May 16, 1960—a simplex vacuum tube IBM 709 used as the prototype Missile Impact Predictor occupied 2 floors To predict when parts "might break down", the contractor also installed a "Checkout Data Processor"--RCA 501 computers with 32k "high speed memory", 5-76KC 556 bpi 3/4" tape drives, & 200 track random access LFE drums. The initial radar transmission from one of the scanner buildings was in August 1960.
RCA operations
On the same date as the BMEWS Central Computer and Display Facility in the continental United States, "at midnight on 30 September 1960 achieved initial operational capability", and a "shakedown" period followed which used the simplex MIP and voice transmission of data to the Colorado Springs' CC&DF. ;False alarms:On October 5, 1960, when Nikita Khrushchev, the Soviet Premier, was in New York, radar returns during Thule moonrise produced a false alarm On November 24, 1961, an AT&T operator error at their Black Forest Microwave Station northeast of Colorado Springs caused a BMEWS communications outage to the Ent AFB CC&DF and its output to Strategic Air Command The BRCS undersea cable from Greenland had been cut "presumably by fishing trawlers" in September, October, and November 1961 --Hard Head missions for continual monitoring commenced in 1961 and equipment problems were mitigated and a 72-hour test verified "the automatic rearward data transmission", the 1961 "authorization to begin fully automatic operation; effective 2400 hours GMT 31 January, was issued" "Lt. Col. Harry J. Wills senior air force officer on the project at Thule" on January 3, 1961
Thule operations transferred from civilian contractors to Air Defense Command on January 5, 1962; and 1962 sinkholes formed in the drainage ditch at "Scanner 6". By mid-1962, BMEWS "quick fixes" for ECCM had been installed for Thule "to recognize when it was being jammed." An RCA AN/FPS-49A Radar Set with specialized radome for Thule weather was installed by , and Thule multipath testing was completed by May 1964. In 1967 when the system cost totalled $1.259 billion, BMEWS modification testing ended on May 15 ; and the Bomb Alarm System caused a false alarm during the 1968 Thule Air Base B-52 crash In June 1980, Thule's FPS-49A radome by Goodyear "burnt to the ground" and was rebuilt, and a late 1960s satellite communications terminal was moved from the Thule P-Mountain site to Site J in 1983. To replace AN/FSQ-28 predictors, a late 1970s plan for processing returns from MIRVs installed new Missile Impact Predictor computers and was complete by September 1984. After being contracted for Thule on July 29, 1983; construction of an AN/FPS-120Early Warning Radar was started on November 7, 1984, the "array plate" was complete on June 26, 1985, and the 1st satellite track was on June 8, 1986.
Solid State Phased Array Radar
Thule's BMEWS radars were deactivated in June 1987. The BMEWS system at Thule had been "replaced" by the SSPARS AN/FPS-120 with "two-faced…phased array radar in 2QFY87". with 240 degree detection arc The AN/FPS-49A was intact and in disrepair in 1996, and the antenna and radome were removed by 2014. After the Danish parliament approved, Raytheon was contracted in 2005 to upgrade Thule's "Early Warning Radar" as part of the larger Ground-Based Midcourse Defense program. Intended to be ready in 2008, the installation was actually completed on June 24, 2009. Thule's AN/FPS-132 Upgraded Early Warning Radar completes about 10% of the United States' observations of Earth orbiting satellites.
