"matt weber" wrote in message
...
On Sun, 31 Aug 2003 11:11:10 +0100, "Keith Willshaw"
wrote:
"matt weber" wrote in message
.. .
On Sat, 30 Aug 2003 12:18:13 +0100, "Keith Willshaw"
wrote:
They show up on most ATC radars only because they have a transponder.
Nonsense they show up on primary radar very well
Note the difficulties US ATC had in locating 757's and 767's on 9/11
after the transponders were turned off, and 757 or 767 has a far far
larger radar cross section than a single engine cessna.
Again this is nonsense, the radar tracks of those aircraft have been
produced in evidence primary radar is more than adequate
It is more then adequate, as long as they never get more than about 35
miles away from the RADAR.
Actual range depends on height, RCS , transmitted power and
the sensitivity of the radar, However its a matter of historical
fact that during WW2 the primitive Chain Home system could
detect aircraft out to 200 miles
http://www.radarpages.co.uk/mob/chl/chl.htm
However your original claim was that they couldnt be seen
at all unless they had a transponder !
After that, the combination of the inverse square law, and the very
limited RCS of many light aircraft makes them just about impossible to
see. that is one of the reasons that ATC in the USA also receives data
from far more capable military RADAR systems that are not limited by
Civilian energy exposure limits.
Come now make up your mind , are they impossible to see
or is it just that the range is limited ?
Most of the track data for both JFK Jr's crash, and the EgyptAir crash
came not from civilian ATC radars, but Military Radars which share
data with ATC.
I suggest you do the arithmetic sometime on what sort of power you
need to radiate to be able to get a reliably detectable return on a 1
m^2 RCS at 50km. 1m^2 is fairly typical of Cessa single. Some of the
older aircraft with fabric instead of metal are considerably smaller
RCS.
A Cessna in the head on aspect may indeed have an RCS as small
as 1 m2 , this is around the same as an F-16 !
After you have done that calculation, decide how near you would like
to live to that particular radar.
ATC radars generally only see either very large targets, or very
cooperative targets (transponders).
Wrong, ATC radars track light aircraft every day.
Only at short range.
Take a look at the free space coverage diagram for the
Raytheon ASR-23SS surveilance radar at
http://www.raytheon.com/products/asr...docs/asr23.pdf
You'll find that this civil aradt ssytem is quite capable of detecting
a 2 sq m target at 10,000 ft at 40 nautical miles
Range isnt the problem, height is, if the aircraft is down in the
weeds you will indeed be limited to 20 miles or less
Thats why we have AWACS
Keith
Keith
Hell the radars of WW2 had no problem tracking aircraft of the
same size, its for damm sure that modern radars are better
My father assures me that was not the case, and he WAS the Radar
officer on a US Carrier in WW II. I'll take his word on that subject
over yours anytime
Yet 1930's era radar could detect an Me-109 over France from
the UK, the Me-109 has a wingspan roughly the same as a Cessna
at 32 ft
The US Army SCR-270 could detect aircraft at around 120 miles
out. One such set detected the Pearl Harbor raid 30 minutes before the
attack.
A TBD or a Betty could be seen at about 100 miles, but they are a
whole lot bigger than a Cessna 172
A Cessna Skylane has a wingspan of 35 ft, a TBD had a wingspan of
50ft and an Aichi Val a wingspan of 47.1 ft
The Radar in an F16 in Air to Air mode has a 50% probability of
detecting a 1 m^2 RCS at 40km..
We arent talking about an F-16 radar, we are talking about the
more capable search radars at ground stations.
Keith