Just to redress the balance here slightly... (or provoke further stern comments? - the latter I shall ignore)
The filaments in a halogen bulb are quite small, and wound into a compact cylindrical shape. The 'baffle' inside the bulb carefully controls light from the dipped filament so it illuminates about 195 degrees (angle) of the top part of the mirrored reflector (the 15 degrees beyond horizontal gives the upwards 'flick' to the left seen when the beam is shone on a wall. Because the point is slightly forward of perfect focus and only filling the top part of the reflector, it shines downwards at an angle. The physics of a parabola dictate this.
(see this page, half way down:
http://uc.fmf.uni-lj.si/com/Parabola/parabola.html )
Aftemarket HID bulbs have a much larger 'blob' of glass, where the light shines from, and generally less of a baffle too. The light source is more diffuse too. This is why they don't work well when used with lights designed for halogen - because the size of the source is too big and fuzzy and so spills over into the 'wrong parts' of the reflector, causing poor beam shape, or dazzle.
For main beam, the halogen filament is right at the optical centre of the parabolic reflector and so sends a straight parallel beam forwards.
Aftermarket HIDs 'cheat' for dip and main by using a solenoid to physically push or pull the glass tube of the 'bulb' in and out - so more or less giving dip or main from just one source.
But, the LED lamps the OP refers to have two small, pinpoint light sources - about the same size as the halogen filaments. And these are precisely mounted with a baffle that controls where that light goes from the front-most LED, just like the halogen bulb. So, in principle at least, they can deliver the same, controlled dip beam pattern as the original bulb because they will only illuminate the 'right parts' of the reflector - but the beams will be brighter. So long as the lamp unit is aligned correctly, there should be no more dazzle (oncoming cars seeing part of the beam shining directly at them) than with the original bulbs.
Most of the buses in my area have been converted from halogen to LED headlights - and they are fine. Brighter, but well controlled light output.
The legality of these bulbs may still be in question, but the rules of physics (that parabolic reflector and a correctly placed point source of light) mean they should be able to give a well controlled but brighter beam - just like the original-fit LED headlights used by Mercedes, Audi and others...
Me? I use 130% brighter halogens (e-marked), and they are OK on the dark winding lanes around here
But, every bulb in my house is an LED, and in time, all cars lights will be too. The filament bulb is pretty similar in concept to that designed by Joseph Swan in Darlington in the 1880s. Maybe now is the time to move forwards from that...?
