It's not a pattern of ratio or composition, it's a pattern of the quantity of each individual component. The individual quantities then constitute the composition.
For CO2, the pattern is temperature. Titan, Triton, Pluto are well below CO2's freezing point so it stays on the surface as ice instead of atmosphere. At these temperatures, nitrogen is the heaviest abundant molecule that remains gaseous, followed by methane. If you're warm enough for gaseous CO2, you have it. The only exception is Earth and that's because plant life absorbed it and emitted O2 instead.
For nitrogen, methane, argon, the pattern is mass. Only Venus and Earth have enough mass to hold on to those, compared to heavier CO2. Venus and Earth have similar quantities of those. Venus's excess of CO2 comes from temperature high enough to evaporate carbon and oxygen from rock compounds.
Titan has enough mass to keep a decent nitrogen based atmosphere as well. It is probably closest to Earth with the exception that methane is a water analogue on Titan.
For CO2, the pattern is temperature. Titan, Triton, Pluto are well below CO2's freezing point so it stays on the surface as ice instead of atmosphere. At these temperatures, nitrogen is the heaviest abundant molecule that remains gaseous, followed by methane. If you're warm enough for gaseous CO2, you have it. The only exception is Earth and that's because plant life absorbed it and emitted O2 instead.
For nitrogen, methane, argon, the pattern is mass. Only Venus and Earth have enough mass to hold on to those, compared to heavier CO2. Venus and Earth have similar quantities of those. Venus's excess of CO2 comes from temperature high enough to evaporate carbon and oxygen from rock compounds.