Satellites are small, and spread out over the whole world, and separated into many different altitudes. The only thing that makes them at all likely to collide, is the fact they move at thousands of mph / kph.

Long answer: Size, altitude, planning, and finally avoidance.

Size: Satellites are typically no larger than a bus, and usually much smaller. The smallest satellites are no larger than a shoebox. The odds of two relatively small objects in vast space colliding is low, but still worrying if you have 1000s of them. Except…

Altitude: The ISS orbits at ~400 km. This is a compromise between being easy to reach, and avoiding drag from the Earth’s upper atmosphere. Satellites operate at different altitudes relating to their mission. For Earth observation satellites this may be low (500-1500 km); for geostationary comms satellites it is much higher (35,786 km); for SpaceX’s planned 10,000-satellite Starlink constellation it will be low (550 km); and some specialist missions go lower, e.g. JAXA’s Tsubame at 167 km. Note that these are all 10s to 1000s of km from the station height. So the vast majority of satellites will *never* operate anywhere near the ISS.

Planning: As one of very few manned stations in space, you are **not** allowed to go anywhere near the ISS as a satellite operator. I can’t say for sure but I highly doubt you can even operate a satellite at the same height as the ISS (excluding cubesats that are sometimes launched from the ISS). Rocket launches to higher altitudes need to be planned so that they do not come close to the ISS, satellites deorbiting need to avoid the ISS, etc.

Avoidance: Finally, the ISS is able to (very slowly) maneuver in order to avoid objects. However, this has only ever been to avoid space junk AFAIK, i.e. scraps of material cast off by other spacecraft. Generally what it does is raise its orbit slightly to go over the hazard. Since the ISS must already frequently re-raise its orbit to account for upper-atmospheric drag, this doesn’t really add cost in the long run.