I recently found this interesting combination. It's a triple star system. A red dwarf and orange dwarf pair with a brown dwarf orbiting the red dwarf. Circling the brown dwarf is two life bearing terran worlds.
Place "Two Lifes around a brown dwarf" { Body "RS 8403-196-9-67319126-88 BB2" Parent "" Pos (1.272283511183359e-010, 5.450605537662273e-011, -5.573859008351466e-010) Rot (-0.1146427497816226, 0.06896673604442564, -0.990204827392822, -0.03993781478547089) Date "1972.12.07 11:34:51.20" Vel 5.7431438e-011 Mode 1 }
Normally planets around a brown dwarf are fairly dark but the red dwarf illuminated them fairly well. Both the terran worlds are frozen on the sides opposite the brown dwarf. The brown dwarf is only .5 AU away from the red dwarf. Would the combined heat from the red and brown dwarfs melt the frozen backsides?
Place "Brown dwarf terra with life" { Body "RS 8403-173-9-57578753-455 B1" Parent "" Pos (1.802757346614642e-010, 2.988057901153265e-010, -3.057754219097653e-010) Rot (-0.2999411770629427, 0.3837098306778858, -0.8444500311331703, -0.2229488754455441) Date "2010.03.31 13:44:27.80" Vel 4.9864274e-010 Mode 1 }
I also found one and while I don't know where to get the data that you guys posted, I do have a screenshot. Its parent brown dwarf has a 7046.9 year orbit with a K9 V star which itself has two planets with life on them.
I found this one tidally locked to its brown dwarf primary, but the frozen night side is still bright with blue skies from its orange dwarf secondary.
Edit: I forgot to mention. The system has another temperate terra with life around the same dwarf. It wasn't as photogenic from orbit, but it's got some gorgeous mountain ranges.