VERLORT Radar

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{{SideMenuVerlort}} {{SideMenuVerlort}}
-<BR><BR><BR><BR><BR><BR>+[[Image:muc-verlort.jpg|right|thumbnail|190px|The VERLORT radar at Muchea:<BR>''Photo - ???'']]
-<BR> [[Image:muc-verlort.jpg|right|thumbnail|150px|Verlort radar at Muchea: ''Photo - ???'']]+<BR>
-<BR> [[Image:cro-verlort.jpg|right|thumbnail|200px|Verlort radar reinstalled at Carnarvon just below an AcqAid antenna:<BR> ''Photo - Alan Gilham'']]+The '''VER'''y '''LO'''ng '''R'''ange '''T'''racking (VERLORT) S-band radar (2700 t0 2900 MHz) was an extended-range version of the '''SCR-584''' - often credited as ''"'''the radar that won WW II'''"''.
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 +For space missions, its range was increased from 650 Km to 4000 Km and the dish diameter from 1.8 m to 3 m; it was given a long name befitting its new space-tracking capabilities. The Red Lake (Woomera) Mercury tracking station used the more accurate AN/FPS-16 radar installed at Woomera for previous space activities.
 + 
 +[[Image:cro-verlort.jpg|left|thumbnail|180px|The VERLORT radar reinstalled at Carnarvon nearby the AcqAid antennas:<BR>''Photo - Alan Gilham'']]
 + 
 +The Verlort performed reliably for the six Mercury orbital missions at Muchea. It was then relocated to the new Gemini tracking station at Carnarvon as an acquisition aid and back-up for the even more accurate FPQ-6 radar to be installed there.
 + 
 +Although the Verlort was kept operational at Carnarvon for the first few missions it was soon taken off the operational list once the FPQ-6 proved its reliability and other acquisition methods also proved sufficient.
 + 
 +The SCR radars, developed at the MIT laboratories, were remarkable for MIT’s innovative mechanical solutions to radar operations that are now met by electronic methods in modern radars: see [[SCR-584 Technical Description|Technical Details]]
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 +The '''SCR-584''' pedestals and angle-control mechanisms were widely used by NASA as the basis of other antenna systems; for example, the VHF Acquisition Aid and Telemetry Antennas for the Mercury, Gemini and Apollo projects.
-<BR> [[Image:Conical beam.jpg|right|thumbnail|250px|A conical scan beam: ''Image – ‘Electonics’; Fig 1, Nov ’45, p.104'']] 
-<BR> [[Image:Helical scan.jpg|left|thumbnail|150px|Helical scan mechanism: ''Image – ‘Electonics’; Fig 2, Dec ’45, p.104'']] 
-[[Image:offset dipole.jpg|right|thumbnail|250px|Moblas 5 site: ''Image – ‘Electonics’; Fig 5, Dec ’45, p.107'']] 
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-For a detailed technical description of the SCR-584 radar from ‘Electronics’ magazine, November & December 1945 refer to http://www.hamhud.net/darts/scr584.html.+See http://www.hamhud.net/darts/scr584.html for a 'memorial' to the '''SCR-584''' radar. Note the overall technical description contained in the '''November & December 1945''' issues of '''‘Electronics’''' magazine at that site.

Current revision


SCR-584 Technical Details
SCR-584 Operator Instructions

Back to Muchea
Back to Carnarvon

The VERLORT radar at Muchea:Photo - ???
Enlarge
The VERLORT radar at Muchea:
Photo - ???


The VERy LOng Range Tracking (VERLORT) S-band radar (2700 t0 2900 MHz) was an extended-range version of the SCR-584 - often credited as "the radar that won WW II".

For space missions, its range was increased from 650 Km to 4000 Km and the dish diameter from 1.8 m to 3 m; it was given a long name befitting its new space-tracking capabilities. The Red Lake (Woomera) Mercury tracking station used the more accurate AN/FPS-16 radar installed at Woomera for previous space activities.

The VERLORT radar reinstalled at Carnarvon nearby the AcqAid antennas:Photo - Alan Gilham
Enlarge
The VERLORT radar reinstalled at Carnarvon nearby the AcqAid antennas:
Photo - Alan Gilham

The Verlort performed reliably for the six Mercury orbital missions at Muchea. It was then relocated to the new Gemini tracking station at Carnarvon as an acquisition aid and back-up for the even more accurate FPQ-6 radar to be installed there.

Although the Verlort was kept operational at Carnarvon for the first few missions it was soon taken off the operational list once the FPQ-6 proved its reliability and other acquisition methods also proved sufficient.

The SCR radars, developed at the MIT laboratories, were remarkable for MIT’s innovative mechanical solutions to radar operations that are now met by electronic methods in modern radars: see Technical Details


The SCR-584 pedestals and angle-control mechanisms were widely used by NASA as the basis of other antenna systems; for example, the VHF Acquisition Aid and Telemetry Antennas for the Mercury, Gemini and Apollo projects.


See http://www.hamhud.net/darts/scr584.html for a 'memorial' to the SCR-584 radar. Note the overall technical description contained in the November & December 1945 issues of ‘Electronics’ magazine at that site.

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