Quick answer: Yes.
Typical limit? If you want to reach occupancy around 0.5, that will be around 32-64 registers per thread, depending on the architecture.
A bit longer answer:
Keep in mind that the number of registers is not exactly the same as "number of local variables". This is because, at a given time, you usually do not need all the local variables and the compiler will try to reuse the registers. You may end up having multiple variables mapped to the same register.
Secondly, even if you run out of register space, the compiler will try to spill those values to global memory which are seldom used. Usually having few register spills in your code is not that time consuming. Moreover those register spills lead to perfectly aligned global memory access pattern.
If you want to know how much registers and (spilled) local memory each of your kernel is using, add
--ptxas-options=-v to your compilation parameters.