I think you're splitting hairs. My exact words that you quoted were: "A 2.4m offset should have a similar gain to a 2.4m prime focus."
Question was about
ANTENNA GAIN and even more explicit:
1:1 scale is identical match.
similar by definition is alike; having the same or similar characteristics.
I gave you a link of a well know Telecom person Mark Long, who is a recognized expert on global satellite communications technologies.
Mark Long bio
This was to give you and other readers deep explanation on the design of different antennas....
Regarding antenna gain, I advice to look into:
Definition: antenna gain
But let's take a look at feed blockage, since that's an exaggerated myth that will never die. First, we're talking about Ku. So let's consider a feed that's 7 cm in diameter. I think I'm being generous. The dish area that will be shadowed by the feed is about 0.004 m^2. A 2.4 m dish has an area of about 4.5 m^2. We're blocking less than 0.1% of the dish. This is a loss of 0.004 dB, which is entirely negligible. Of course the support arms also cause blockage, but I think you get the idea. Dish dimensions are not even specified to this tolerance.
One simple question:
If what you say is correct, then why Does DTH operators (DISHnetwork and DirecTV) advice to use off set fed antennas whith it's variations ovals, round, etc. The answer is size, what you claim (blockage) does affect when implementing small antennas (18"; 24", etc.) of course when you use 3.1 m antenna 7 cm will be a very small to nothing blockage......but one important question:
How does this feed supports it self in the antenna? the feed support also has blockage....small but it blocks.
In off set fed antennas the feed support is out of the reception area, this is why you aim 22 to 23 degrees lower than the exact satellites angle.
This is why Mark Long explains the design and use....straight and simple.
They don't advice to use Prime Focus and I quote once again from the Mark Long web page:
Welcome to MLESAT's New Look, Mission
The dish design of choice for most digital DTH systems is called an offset-fed antenna.
There must be an answer for this? if not manufacturers simply wouldn't manufacture different shapes.....they perform different!!!!
What about noise rejection? This has more validity, but if you reread my analysis, you will notice that an offset dish on a polar axis loses this advantage as it scans toward the horizon. A prime-focus dish gains noise rejection as it scans to the horizon. You have to compare apples to apples. Actually, most Ku offset feeds cannot be adjusted for the proper gain taper. This tends to cause them to significantly under-illuminate the dish, throwing away a significant amount of gain. Prime-focus Ku feeds are often adjustable and are far easier to get the maximum CNR.
I don't understand well the use you give to
noise rejection.
Noise is as I understand and I quote:
An undesired disturbance within the
frequency band of interest; the summation of unwanted or disturbing energy introduced into a
communications system from man-made and natural sources. (
188)
2. A disturbance that affects a
signal and that may distort the
information carried by the signal
From:
http://www.its.bldrdoc.gov/fs-1037/
I don't understand well your point here, but of what I can see. f/d of off set fed antennas are 0.7;
LNBF's designed for off set fed antennas are designed to match this aperture of 0.7
scalar adjustments for prime focus antennas must match the antennas f/d....
What about specs? Quoting antenna gains and efficiency is always playing with fire. To measure this one generally needs a feed of some sort. The only way you can do this accurately is to match a feed design to a given dish. Do dish manufacturers do this? Of course not. Designing a feed is a combination of science, art and magic, and a properly matched feed generally requires a lot of trade-offs, compromises, simulations and cut-and-try. So the efficiency measurements are normally done with any old feed the manufacturer wants to use or has standardized on. That may or may not be a good match to the dish. There is another myth that deep dishes have lower gain. They certainly do when one uses a feed designed for a shallow dish, even if one attempts to compensate for the f/D using a scalar. But design a feed explicitly for a deep dish, and the gains can be pretty much the same as for a shallow dish. The same applies to offsets and prime-focus designs.
Mayor manufacturers who I have used their products like: General Dynamics, Andrew (Commscope), Patriot Antenna Systems.
Prodelin:
General Dynamics SATCOM Technologies - Prodelin
Long Time ago known as Channel Master latter as Andrew (Commscope) and now ASC Signal:
ASC Signal Earth Station Antennas
Cobham plc some time ago know as Patriot Antenna Systems:
Cobham plc :: Avionics and Surveillance, SATCOM, Albion, Products
They as manufacturers
MUST certify their operativity in the range of frequency the user will implement their product. I have been invited to one of their facilities and have seen in their lab how they actually run the antenna gain test. Plain and simple, they have a microwave transmitter that emulates the conditions they want to test on and design based upon resonse, of course this is done under ideal conditions (in the lab) other enviromental factors can't be 100% matched; but at least they have methods to messure in dB to certify their product, of course the products are expensive, therefore they must be certified.
In the end, if I set up a 2.4m offset and 2.4m prime-focus of comparable quality with matched feeds and tweaked them for the best performance, I doubt you could measure the difference with the finest spectrum analyzer or receiver money can buy. But the cost difference could be readily grasped.
Have you actually done this? I have messured db levels on a 3.8 m. prime focus compared with a 3.8 m off set fed antena and it actually gives more gain on my spectrum analyzer.
I have installed in the caribbean area:
Only Professional grade (solid)
Off set fed:
4 ft.; 6 ft.; 8 ft.; 12 ft.
Prime Focus:
2.4 m; 3.1 m; 3.8 m; 4.0 m; 4.2 m; 5.0 m; 6.1 m; 6.3 m; 7.5 m; 9.0 m.
In all my installations I must use spectrum analyzer....
I was a regular member of DBSForums, my speciality is signals in Fringe areas since 1988.
Bottom line:
off set fed antennas do outperform prime focus antennas at smaller wavelength frequencies, but after a certain size prime focus technology is cheapper therefore I have implemented it and have had to design my own feed. Manufacturers sell large off set antennas much more expensive than it's counter part prime focus antenna...what they claim is the funds spent in the developement of this 3.8 m off set fed antenna was so that we have to sell it at this price......
For example a Prodelin 3.8 m off set fed could be sold over $11,000 and even up to $17,000 depending on your requirements.
a 3.8 m prime focus could be sold arround $3,500 to $6,500 depending also on your requirements......
If we go to the size in question:
2.4 m off set fed antenna depending on manufacturer could be found arround $1,500 and $2,500 depending on configuration and manufacturer.
2.4 m prime focus antenna could be found arround $400 and $1,500......
Best Regards.
