Yeah, CMO's modelling of the HQ-9B is slightly problematic here and we dont know how much of it is reality, but if the HQ-9B doesnt have CEC despite having an Active Radar Seeker, it will have severe problems engaging the LRASM even when entering radar horizon. Semi-active SAM like the HQ-16 etc are a lost cause entirely, because no FCR could actually paint the LRASM at any safe engagement ranges.
What China really needs is long range dual mode seeker SAM, equipped with active radar and ImIR, as well as onboard AI combined with CEC. Yes, that sounds super expensive, but that's likely the only way to shoot down swarms of LRASM before they sink you. Because of these complications, I have long thought about why the PLAN isnt just using a fricking Dongfeng equipped with an EMP warhead to basically nuke an entire strike package out of the skies after they have taken off. As we always know from games, AOE weapons are usually super effective against swarms lmao.
Of course in the future when railguns and lasers are deployed on PLAN ships, any subsonic missile threat becomes obsolete.
If you have active seeker, you can engage the target from above while the target is beyond the radar horizon. The lowest RCS is only at the frontal aspect, but not if the target is being attacked from the top or the side in an interception route.
The missile will have to be continuously updated from the surface source, but because the target has low RCS, the missile has to be guided from the surface until it is much closer to the target than the usual. For this you will need a powerful surface radar strong enough to track the low RCS target and guide the missile until it is much closer to the target before the seeker is released. Just so happens this should be how the HHQ-9 works with the Type 346x radars.
Having a bigger missile seeker with more powerful batteries and emitters, use of AESA and Gallium Nitride would also help.
In terms of CEC, it would have to be done from a ship with a much higher vantage point than a 052D or 055. Guess what, the mast of an aircraft carrier. I have mentioned time again and again, the Shandong is fitted with CEC, the panels of these is right underneath the Type 382 radar. For the Liaoning, it was retrofitted back in 2019. 003 will also have it outright.
With semi-active, its even better. Stealth works against a monostatic radar application. Monostatic means the transmitter and the receiver is at the same location. Stealth works by denying the reflection towards the same direction as the transmission. That's what all those angles are for.
But SARH happens to be a bistatic application. Bistatic or multistatic means that the transmitter and the receiver are in different locations. Stealth shaping will deny the echo being returned to the transmitter, but it deflects the echo elsewhere. This means that if the receiver is at a different location, it will receive it. So yes, a SARH missile flying higher or at the sides on an interception course will pick it up. The main problem is to make sure the transmitter is aimed at the target, and you need a bigger and more powerful radar that will keep the target illuminator in sight. It so happens this is how SPY-1 with SPG-62 works.
If the transmitter requires the target echoes to be able to track the target and keep the antenna focused on it, then you might have a problem. This is a more common SAM fire control radar arrangement. Do note that for some missile systems they accompany the guidance radar with some EO; Croatale and by extension, HQ-7, are examples. They can spot and track the target on EO and guide the missile, either by command guidance or SARH illumination.
