![]() Drill #3 (600 RPM) looks pretty attractive, but it’s going to struggle more with bits that #2 is still steadily plugging away with. Even though Drill #2 (450 RPM) is the slowest, it’s likely going to give you more sustained torque and drive larger bits more effectively. Drill #1 (2000 RPM) finds a balance between the two. But Drill #3 (1900 RPM) is going to let you use larger bits without dropping into low speed. When you look at the high-speed ratings, Drill #2 (2100 RPM) is going to drill the fastest, right? Let’s say you’re considering three drills with the following specs: Drill #1Īll three drills are in the same ballpark for torque-we’re not considering a compact drill vs a heavy-duty one. While that might seem to complicate things, it’s still a good place to start. However, our top recommendations don’t always mimic the listed torque values. We take these into account in our best cordless drill article. The torque rating is a standardized test that measures how much torque the drill produces in a very brief moment while it’s locked down. There’s no magic formula to choose between cordless drill torque and speed, but there are some general conclusions we can make. You might not care if you’re framing, but a plumber working on rough-ins doesn’t have to drop into low speed or grab a Cordless Super Hawg to get those holes drilled. In fact, you can drive a 2-9/16″ self-feed bit through untreated 2x in high speed with the Milwaukee. That ultimately lets you do more jobs at high speed. By doing that, you can drive larger bits at high speed. They channel the extra energy into additional torque at high speed.
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