Superchips Ltd is delighted to announce a high performance ECU remap that offers a more exciting, efficient driving experience for a clutch of best selling Ford cars using the latest version of the 163 PS 2.0 TDCi turbo diesel engine. This covers top selling popular models including the Galaxy, Kuga, Mondeo and the Focus S-Max.
The latest version of the Ford 1995cc, 16-valve TDCi engine was intensively analysed by Superchips technicians who identified significant performance enhancement possibilities within the models’ Delphi DCM3.5 ECU, which is easily accessed to allow a swift and painless installation.
Post upgrade, the Superchips ECU remap for the Ford 2.0 TDCi engined models increases power by up to 22 bhp at 3301 rpm, endowing the Galaxy, Kuga, Mondeo and Focus S-Max with a sharper, more stimulating drive. The ECU remap also transforms the 2.0 TDCi engine’s torque output, increasing the figure by an impressive 89 Nm (65 lb.ft,) with gains throughout the rev range, highlighting the emphasis Superchips places on everyday driveability.
Given the recent hikes in fuel prices, drivers can be assured that due to Superchips optimisation of the Ford 2.0 TDCi’s ECU settings, extra efficiencies are realised and in most instances fuel consumption improves due to the extra low rev torque available to the driver.
Installation of the Superchips ECU remap for the 2.0 TDCi versions of the Galaxy, Kuga, Mondeo and Focus S-Max models entails customers visiting one of approximately 80 Superchips performance centres, where trained technicians can undertake the remapping procedure.
Customers can be assured the Superchips conversion is covered by a full Customer Service Guarantee and an industry-leading 12 month / 30,000 supplementary full vehicle warranty.*
Suitable for 2.0 TDCi models of the Galaxy, Kuga, Mondeo and Focus S-Max produced from March 2010 onwards, the Superchips ECU remap is available now directly from Superchips and its UK dealer network, priced at £399.00, including VAT @ 20%.
Superchips – don’t compromise, optimise.