
The Garrett PowerMax™ Stage 1 Turbocharger is a direct drop-in performance upgrade designed for the 2.0L Ford EcoBoost engine platform (2013–2018). This high-performance turbocharger delivers up to 16% more flow than the OEM unit and supports up to 350 BHP (260 kW)* while maintaining OEM fit and installation specifications.
Featuring a 52mm fully-machined compressor wheel with advanced aero design, this unit offers improved compressor efficiency and higher flow. The turbine wheel is constructed from Inconel alloy, with stainless steel housings rated for temperatures up to 950°C. The turbocharger comes fully assembled and calibrated for a seamless replacement using OE hardware.
A machined port on the compressor housing allows optional fitment of a turbo speed sensor (sold separately) to monitor turbo speed and avoid overspeed conditions.
Note: This product is intended for racing use only and is not legal for use on public roads.
Key Features:
Direct OEM replacement with no modifications required
Supports up to 350 BHP* (260 kW)
52mm fully-machined compressor wheel with advanced aero design
Up to 16% more compressor flow than stock
Inconel turbine wheel and stainless steel housing rated to 950°C
Speed sensor port included (sensor sold separately)
Fully assembled and calibrated for drop-in installation
Vehicle Fitment:
Compatible with the following 2.0L EcoBoost models:
Ford Escape/Kuga (2014–2016): SE, Titanium
Ford Focus (2013–2018): ST
Ford Fusion (2013–2016): SE, Titanium
Ford Police Sedan (2014–2018): Base
Ford Taurus (2013–2017): Limited, SE, SEL
Lincoln MKC (2015–2017): Base, Black Label, Premiere, Reserve, Select
Lincoln MKZ (2013–2016): Base, Black Label
Engine Compatibility:
Engine: 2.0L EcoBoost
Fuel Type: Gasoline
Cylinders: 4
Includes:
1 × Garrett PowerMax Stage 1 Turbocharger (SKU: 886195-5001S) – Fully assembled and calibrated
Installation-ready with OE-compatible outline and mounting points
*Performance results depend on vehicle setup and tuning. Power rating is based on compressor map choke flow capability.