Thanks for this - but I am still a bit confused. I understand that VDSL frequencies make interference with ADSL a real issue - but surely there are VDSL and ADSL pairs in the same cables that run along the street, and with only a single trench across the main road from exchange to FTTC cabinet, every ADSL pair on the cabinet is running parallel to every VDSL pair.
The crosstalk problems arise when frequencies overlap *and* the signal level (aka power) differs *and* the pairs lie in close proximity. If one line runs at a higher power level, crosstalk can swamp the signal on a nearby line with lower power. Difference in power is key.
In proper wiring, the power level transmitted by the cabinet is carefully adjusted (for all overlapping frequencies) such that it matches the power level of the ADSL signals as they pass the cabinets. Because both signals run in the same direction (away from the exchange, towards the home) the signal levels continue to match in the parallel pairs. Both attenuate at the same rate, and crosstalk is managed.
If we assume that the FTTC cabinet is correctly configured for area D, then the VDSL2 power levels will be reduced slightly (in the ADSL spectrum) so that they don't accidentally swamp the signals of exchange-based ADSL subscribers in area D.
What about area A?
If area A has their wiring entirely rerouted via the same cabinet, with new cables across the road, then back again, this remains true, because both the cabinet-based VDSL2 signals and the exchange-based ADSL signals follow the new route. However, it requires that all signals within one cable bundle go in just one direction. The trench across the road could have separate cables for each direction , as the pairs in each cable would have reasonable separation - separate ducting would help.
If, however, you send those VDSL2 signals (which are already reduced to match power with area D) back to the exchange frame, you cause a problem. The VDSL2 signals will have attenuated on their way back again, so will now be reduced in power even more. They will then share the frame with ADSL signals that have higher power (still at full, exchange-based, power). Because it is the ADSL signals that are higher power, they could swamp any reduced-power VDSL2 signals they run alongside.
If the crosstalk issues are manageable in such a topography, why is it unthinkable that VDSL should should be run via the MDF for those on non-FTTC cabinets?
Crossing the road, with careful cabling design, is one thing. Bringing different power signals to the MDF is a recipe for disaster. There is much less scope for careful design there, and much more risk of running pairs in a way that causes problems.
Plus the fact that signals above 2.2MHz aren't allowed there.