The Wikipedia article on the method of complements can probably give a much better explanation than I can, but I will try nonetheless.
The number of digits does not necessarily depend on the radix, rather the context in which it is used. In other words, 5 does not have a complement in base-2 (i.e. binary), but it does have a complement in an eight-digit base-2 number -- 251. This means that in two's complement,
-5 can be represented as
Likewise, 97 does not have a complement in base-100. It does have a complement in a one-digit integer, a two-digit integer or an n-digit integer base-100 number.
You may choose to develop an arithmetic machine that works with 100's complement numbers. If you use one-digit integers, you could represent
-3 by your 97th numeral. If you preferred two-digit integers,
-3 would be represented by your 99th numeral followed by your 97th numeral.
This is a difficult concept at first, doubly so in a numeral system that hasn't been developed -- I've yet to see base-100. :-) Try flexing your method of complements muscle in smaller bases first, hexadecimal is a good start.
16's complement of 7 in a single-digit hexadecimal number is 9. In a two-digit number, it is F9. In a three-digit number, it is FF9. Hence