```
>>> from itertools import product
>>> a = 200
>>> b = 100
>>> [x for i in range(1, limit/min((a,b))+1) # Py 2 use xrange for more efficiency
for x in product((a,b), repeat=i)
if sum(x) <= limit]
[(200,), (100,), (200, 200), (200, 100), (100, 200), (100, 100), (200, 200, 100),
(200, 100, 200), (200, 100, 100), (100, 200, 200), (100, 200, 100),
(100, 100, 200), (100, 100, 100), (200, 100, 100, 100), (100, 200, 100, 100),
(100, 100, 200, 100), (100, 100, 100, 200), (100, 100, 100, 100),
(100, 100, 100, 100, 100)]
```

Here is the function form:

```
>>> def combos(nums,limit):
return [x for i in range(1, limit/min(nums)+1)
for x in product(nums,repeat=i)
if sum(x) <= limit]
>>> combos(nums=(200,300,400),limit=700)
[(200,), (300,), (400,), (200, 200), (200, 300), (200, 400), (300, 200),
(300, 300), (300, 400), (400, 200), (400, 300), (200, 200, 200),
(200, 200, 300), (200, 300, 200), (300, 200, 200)]
```

Note: This solution is not fully optimized, since it generates every possible combination, continuing to generate longer combinations even when the shorter ones exceed the limit.