Relax wrote:Apollo is by directional FTL. It is a C&C loop. So, a quick glance would equate the FTL transceivers on a Keyhole to those on the Apollo missile itself.
Now it is possible, that the engineers(Uh engineer
) made the Keyhole FTL ability much more powerful so they could send uni-directional signals much further than the Apollo missile resulting in a decrease in terminal attack profile. So, far we have not seen this. Though maybe one could argue for BOMA ending.
Actually, we may have some evidence of the Keyhole II FTL transceivers being larger than the ones on the Apollo Control Missiles, in an inverse way (transceivers on the Apollo Control Missile, rather than the ones on Keyhole II). Consider the briefing Michelle Henke received in:
Storm From the Shadows, Chapter 12 wrote:Michelle nodded, her eyes intent, and Halstead touched a button on his command chair's arm. A side-by-side schematic of two large—and one very large—missiles appeared above the conference table, between Michelle and the simulator command deck, and he indicated one of them with a flashing cursor.
"The Apollo itself is an almost entirely new design, but, as you can see, the only modifications the Mark 23 required were relatively minor and could be easily incorporated without any break in production schedules."
The cursor moved to the very largest missile.
"This is the system-defense variant, the Mark 23-D, for the moment, although it's probably going to end up redesignated the Mark 25. It's basically an elongated Mark 23 to accommodate both a fourth impeller drive and longer lasing rods with more powerful grav focusing to push the directed yield still higher. Aside from the grav units and laser rods, this is all off-the-shelf hardware, so production shouldn't be a problem, although at the moment the ship-launched system has priority.
"With the Apollo missile itself—we've officially designated the ship-launched version the Mark 23-E, partly in an attempt to convince anyone who hears about it that it's only an attack bird upgrade—" the cursor moved to the third missile "—the situation's a bit more complicated. As I say, it's an entirely new design, and we're looking at some bottlenecks in getting it into volume production. The system-defense variant—the Mark 23-F—is another all-new design. Aside from the drives and the fusion bottle, we had to start with a blank piece of paper in each case, and we hit some snags getting the new transceiver squared away. We're on top of those, now, but we're still only beginning to ramp up production. The 23-F is lagging behind the 23-E, mostly because we've tweaked the transceiver's sensitivity even higher in light of the longer anticipated engagement ranges, which increased volume requirements more dramatically than we'd expected, but even the Echo model is coming off the lines more slowly than we'd like. When you factor in the need for the original Keyhole control platforms to be refitted to the Keyhole-Two standard, this isn't something we're going to be able to put into fleet-wide deployment overnight. On the other hand—"
Italics are the author's, boldface and underlined text is my emphasis.
Now we know that the current version of Keyhole I weighs in around 65,000 tons, while Keyhole II weighs in at ~120,000 tons. Assuming 400 tons (SWAG) for the Mark 23-F missile, and assuming the Mark 23-F transceiver is 10% of that at 40 tons (SWAG), and assuming that each Keyhole II has 800 of these transceivers (double what I think it actually has), the total tonnage for FTL transceivers for Keyhole II would be only 32,000 tons. But ~120,000 tons for Keyhole II minus 65,000 tons for Keyhole I leaves ~55,000 tons for FTL transceivers, and we have (working from what I think are either reasonable or very generous assumptions) only 32,000 tons for FTL transceivers in Keyhole II (using the same ones the Mark 23-F system defense Apollo Control Missile), which leaves ~23,000 tons unaccounted for.
If we assume each Keyhole II has only 400 FTL transceivers, and uses the smaller Mark 23-E FTL transceivers at 5 tons (SWAG) then the unaccounted for tonnage increases to ~53,000 tons.
Now some of that unaccounted for tonnage probably is going towards additional power generation, plus additional light-speed fire control links and computing support aboard the Keyhole II. But I don't think all of it is, and I suspect that at least some of the difference in tonnage is devoted to much larger, higher power, and more sensitive FTL transceivers with much larger antennas than can be carried aboard even the largest missile aboard the Keyholes.
For evidence of antenna size, look at the entry on the
Invictus in House of Steel, and compare the size of the gravitic sensors on both the ship and the Keyhole II in the picture. From the broadside view, the ship's gravitic sensors appear to be only slightly larger than the ones on the Keyhole II. Somehow I don't think that any missile, no matter how large, can come even close to matching the size of the ones on the Keyhole II.
, its gotta be more than KH1. 
