One of the main concepts of pervious concrete is to allow the rainwater(& sometimes sprinkler water) to infiltrate into the soil below it. In so doing, pollutants that otherwise would have been washed off of the pavement and into the storm drain system are eliminated and the underground aquifers are recharged. The question then becomes how much of the rainwater can be reasonably expected to be captured and percolated into the soil?
The answer to this question varies depending upon the composition of the soil, the slope and the design of the pavement, including its base. The soil composition in most of the Bay Area is clay, some of it very dense, heavy clay. The first consideration is that the structure of the underlying soil is not seriously compromised during the construction of the pervious pavement. Assuming this is the case, then even the heaviest of clay soils around here, they might absorb 1" of water over a 24 hour period. Now we typically design our pavements for driveways to be about 5" of pervious concrete over 5" of crushed drain rock. Considering that the drain rock consists of at least 40% void space, then that means 2" of water can be stored in it while it is being absorbed into the soil below. With these parameters then in a perfectly level driveway, 3" of rain over a 24 hour period could all be maintained onsite by the pervious concrete pavement.
What to do on sites that slope though? Because in heavier rain events and clay soils, all the water can't be absorbed by the soil right away, the excess water will simply settle in the lowest areas. If the drain rock under the pervious concrete is only a consistent 5" thick throughout, then the water will fill the low areas then overflow the system. There are several strategies that can be employed to minimize this situation from occurring on sloped sites, from creating terraced shelfs, to creating berms to providing extra drainage, and even to directing that drainage to another area of the yard. However the degree to which one wants to implement these measures needs to be balanced with a practical consideration of just how much of a % of rainwater you want to capture and maintain on your property in the first place. According to the latest US EPA laws, they require capturing the 'first f'lush' of rain, which is typically the first 1/2".
Another point to keep in mind is that pervious concrete with a properly designed base is almost always more pervious, it will capture & retain more rainwater, than the surrounding softscape, the planting areas.