Lock the bit into the chuck to prevent accidental disengagement.

Bits are held in place with a retaining ring or set screw rather than a magnet, so the tool won't attract loose metal parts and shavings.

A ratchet mechanism allows you to drive fasteners when there's little space to move the handle.

A ratchet mechanism turns fasteners more quickly than a standard bit driver. Insert a bit into the shaft and a magnet holds it in place.

An insulated handle and shaft protect against shock from accidental contact with live electrical circuits. These tools are tested to 1,000 volts to meet EN 60900 and IEC 60900.

Bend the shaft around obstructions to reach fasteners that standard and offset screwdrivers can’t.

Bits have a different tip at each end and snap into the shaft, which is also a nutdriver.

These screwdrivers have a soft, contoured handle that provides comfort and the best possible grip for achieving maximum torque.

Adjust the nosepiece to set the depth and prevent fasteners from being driven too deep. These drivers are good for use with soft materials such as wood, fiberboard, drywall, and insulation board. They are powered by rechargeable batteries.

Use hex-shank bits (also known as insert bits) in powered tools.

A magnetic ring at the end of the adapter holds flat-head screws in place to ensure good contact between the bit and screw. Use these adapters to hold hex-shank bits (also known as insert bits) in powered tools.

Keep bits from slipping. Insert a bit into the adapter, place a screw on the end of the bit, and slide the adapter sleeve over the screw. The sleeve retracts as the screw is driven. These adapters hold hex-shank bits (also known as insert bits) in powered tools.

Attach these adapters to square-drive tools.

These adapters are designed to withstand the high torque of impact drivers. They hold hex-shank bits (also known as insert bits).

Eliminate the need for multiple bulky tools with these bit adapters. At less than 3 inches long, these compact adapters convert ¼” bit screwdriver handles and ¼” bits into torque screwdrivers so you can fasten to a specific torque.

These sets include an adjustable torque driver, bits for different drive styles, and a socket adapter.

Also known as ESD-safe screwdrivers, the handle drains static away from your application, preventing buildup from electrostatic discharge (ESD) that can damage sensitive equipment. When set torque is reached, these drivers slip to disengage and prevent overtightening.

Choose a handle based on torque, and a shaft with the size you need.

Turn the handle like a standard torque driver and the 90° offset head reaches fasteners in tight spots. Factory-set screwdrivers ensure you reach the same torque every time.

Also known as impact-free torque screwdrivers, these tools minimize reaction force when the set torque is reached. They reduce user fatigue when installing many fasteners in a short period of time.

A dial shows how torque measurements change as you turn the driver. Use these tools to fasten to a specific torque, determine fastener torque specifications, and identify the torque required to loosen tightened fasteners.

A green light and a beep alert you when you've reached 90% of your set torque, and a steady tone sounds once you've hit your target. Set your torque in cNm, cm-Kg, or in.-lbs. and quickly check the LCD for real-time measurements along the way. A red light warns if you begin to overtighten.

Set torque and the clutch slips to prevent you from exceeding it.

Use these tools with 1/4" hex shank screwdriver bits. The rotating end cap on the handle allows you to apply constant pressure with your palm while turning the body of the driver with your fingertips.

Break stuck screws free using screwdriver bits. Strike the end of the handle with a hammer to turn the bit and tighten or loosen fasteners.

Keep a convenient variety of drive styles and sizes of bit sockets on hand.

A spring-loaded ball on the bit holds fasteners in place as you drive them, including nonmagnetic fasteners like stainless steel screws.

Extra-long bits allow access to hard-to-reach fasteners.

In addition to a standard square drive, the sockets in these sets have a hex-shaped base so you can use a ratchet wrench along with an open-end or box wrench for additional leverage.

The ball end allows angled entry when you don't have exact alignment between the socket bit and fastener.

Extra-long bits allow access to hard-to-reach fasteners.

These sockets are also known as pin-in-Torx bits.

Extra-long bits help you access hard-to-reach fasteners.

Pivot the head to access fasteners from an angle.

The Torx bit sockets in these sets fasten Torx screws often used in vehicles, bicycles, and electronics.

Extra-long bits allow access to hard-to-reach fasteners.

The short bit on these sockets fits in spaces where height clearance is limited.

The ball end allows angled entry when you don't have exact alignment between the socket bit and fastener.

These sockets are also known as Robertson bits.

An extra-long Phillips bit allows these sockets to reach far-away fasteners. Use them where standard or stubby sockets can’t reach.

These sockets are also known as pin-in-Torx bits.

These sockets are also known as pin-in-hex or pin-in-socket bits.

An opening at the tip of these sockets fits around the security pin, allowing you to drive tamper-resistant Torx Plus screws.

These sockets are made to withstand the high torque and force of impact tools.

The short bit on these sockets fits in spaces where height clearance is limited.

Extra-long bits help you access hard-to-reach fasteners.

Turn sockets from above when there's not room to swing a standard wrench handle.