Maybe I should be more precise; balance current should be no more than C/100, so the above figure are suitable for 8-10Ah cells.
Balancing happens usually after the Constant Voltage (CV) stage; during 'the topping up the last bit' stage.
Wether the balancing happens during the last charging stage or after the charge; the important point is
that it happens. The only real difference between the two mentioned methods are that those
BMS that balance after the charge tends to leave the battery 98% charged (atleast not 100%), which really doesn't matter...
I had an outburst here over a year ago concerning the naming of '
BMS'...
Listen guys and girls...
I think it's time for a cleanup of acronyms and expressions here... 
First, you all use 'BMS' for electronics that manages the battery in any way... There are at least 3 different battery management systems:
PCB/PCM - Protection Circuit Board/Module
These are the basic boards, preventing overcharge and overdischarge; some also have balancing function and max.discharge current protection. Price from $10 and up...
This is what GM batteries use!!!
CMB - Charge Management Board
These are a bit more advanced than a PCB/PCM, often with balancing function, fuel gauge and charge-while-discharge capabilities in addition to basic PCB/PCM functions. Price range from $40 and up.
BMS - Battery Management System
This is the most advanced system which monitors and controls everything, and then some; also the most expensive - usually $400-$500 and up...
And second...
You say LiPo... What chemistry?!?!
Are we talking about LiCoO2 specific, or any Li-Ion cells with Polymer casing?
There's a jungle of different chemistrys out there; all with advantages and disadvantages, so it's important to be precise when discussing and recommending cells...
Later, I have also learned that CMB sometimes just manages the charging in a larger
BMS system...
