Strengthen your cell phone’s data and voice connection with weBoost’s latest cradle booster – the Drive Sleek, our most powerful and versatile 4G cradle cellular signal booster for vehicles. Use the Drive Sleek in your car, truck or any other vehicle to keep you connected. Place your phone in the cradle and get up to 32 times better cell coverage! Stronger signal means faster data speeds, clearer calls and even better battery life in weak-signal areas.
Setup is easy! Our newly designed outside antenna sticks to the roof with a super strong rare earth magnet. For non-magnetic roofs, an adhesive disk to secure the antenna is included in the Drive Sleek kit.
Included in the kit is a 5V / 2.1 Amp charging port. This port charges the device much faster than a standard 5V / 1 Amp output port.
The innovative cradle design can hold phones up to 7.5 inches long and as small as 5.1 inches. For context, Apple’s popular iPhone 7 Plus (6.23 in.), and new iPhone 8 Plus (6.24 in.), as well as the Samsung Galaxy Note 8 (6.4 in.) would fit perfectly.
The Drive Sleek is compatible with all US cellular networks including Verizon, AT&T, Sprint, T-Mobile, US Cellular, Straight Talk and more. This FCC certified booster comes with all components needed for installation in one simple package, making installation a breeze.
Like all weBoost products, the Drive Sleek comes with a 2-year warranty and 30-day money back guarantee.
How It Works
Signal boosters increase cell signal by collecting signals with a powerful antenna, delivering those signals to the booster, amplifying the cell signals so your devices receive them, and delivering your device’s boosted signals back to the cell tower.
The booster reaches out to the cell tower to access voice, text and data signals while parked or in-motion.
The booster receives the outside signal, amplifies it up to 32x and sends it to the Drive Sleek Cradle.
The phone in the cradle receives the amplified signal. This cradle also sends outgoing signals from the phone back to the booster, which will be amplified and sent back to the cell tower.