Look at the nose cone length of F-22 and F-18E/F, F-18E has longer nose cone than F-22 that means it can have larger number of T/R modules but in reality APG-79 has around ~1100 while APG-77 has nearly ~2000 T/R modules, still F-22 can accommodate APG-77.
No its not , length is not factor .
How much size you antennae is depends on height that is Circular space in case of circular or oval radar / in case of rectangular its height (antennae are not flat they stand vertical).
Secondly if you notice Radar antennae is kept in inclined position to allow minimal return and LPI mode
somewhat like this -
Means you need better space than length.
Same reason why NIIR-Phaztron officials moved Radar back in nose Mig35 to get more space to fit bigger antennae and more module .
Gents,
The way it works is this...
The aerodynamicists shape the aircraft. Now...If the company is a well functioning one, the aero-boys would keep the radar engineering boys in the loop.
Aerospaceweb.org | Ask Us - Rocket Nose Cones and Altitude
...the ideal nose for a model rocket is not the pointed cone or ogive shape you might expect, but the more rounded parabola.
Now...Just in case anyone wonder if any aircraft have a rounded, or parabolic shaped nose, I say take a look at the transports, like the C-130. Granted, transports are not supersonic...Yet...But the point here is that for any supersonic vehicle, it turns out that the pointed nose, like that on the MIG-21, is not as aerodynamic as the rounded parabola or the ogive. The reason why the MIG-21's nose look that way is because it must perform double duties:
1- House the radome.
2- Control engine airflow.
For item two, look at the twin 'spikes' on the SR-71's engines.
Complex ray analysis of beam transmission through two-dimensional radomes
Wedge-tapered radomes are then considered, and the complementary roles of direct and collective treatment of internal reflections are made evident as the taper angle increases.
Radome shaping does have an effect on the EM signal itself but that is for another discussion. For radar antenna dimension, or aperture, it is the radome's
TAPER ANGLE, that determine the antenna's final dimension. The MIG-21's sharp taper angle, due to its double duties, limit its own radar dimension, so we ended up with the MIG-21 a formidable dogfighter but with terrible radar seeking performance. This is why radar engineering should
NOT be excluded from aerodynamicists' meetings on how the aircraft is shaped. This is also why we believe the Soviets, based on our examinations of their aircrafts, do not have a consistent record of collaboration in their engineering depts.
Do not associate internal volume and shaping. A drinking straw can have the same volume space as a dice. You can have two radomes with identical internal volume space but if one is very long and sharply angled you will have a very small radar. So it is not radome length but radome taper angle, be it wedge or ogive or parabola, in other words, it is radome shaping, that will determine final antenna dimension. Very few radomes, like the MIG-21's, strictly adhered to absolute shapes. Most are usually a blend, like the F-111's or the F-22's, of two or more shapes.
