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Fiat Global Small Engine
Fiat Global Small Engine
Fiat Global Small Engine
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Fiat Global Small Engine
Overview
ManufacturerStellantis
Also calledGSE
FireFly
Production2016–present
Layout
ConfigurationInline-3 and Inline-4
Displacement
  • 1.0 L; 61.0 cu in (999 cc)
  • 1.3 L; 81.3 cu in (1,332 cc)
  • 1.5 L; 89.6 cu in (1,469 cc)
[1] (Miller cycle)
Cylinder bore
  • 70 mm (2.76 in)
  • 71.2 mm (2.80 in)
Piston stroke
  • 86.5 mm (3.41 in)
  • 92.2 mm (3.63 in)
Valvetrain2 for SOHC or 4 valves x cyl. for DOHC with VVT MultiAir III
Combustion
TurbochargerSome versions[specify]
Fuel system
Fuel typeGasoline, flex-fuel, ethanol
Cooling systemWater-cooled
Output
Power output72–180 PS (53–132 kW; 71–178 hp)
Torque output102–285 N⋅m (75–210 lb⋅ft)
Emissions
Emissions target standardMHEV / PHEV (Some versions)[specify]
Chronology
PredecessorFIRE, SGE (TwinAir)

The FCA Global Small Engine (or GSE, marketed as FireFly) is a family of engines produced by Fiat Chrysler Automobiles (FCA) starting in 2016, and subsequently produced by Stellantis, gradually replacing the FIRE (including MultiAir versions) and SGE (TwinAir) units.[2]

It is a modular design (thus inline-3 and inline-4 guises share the same unitary displacement and components such as pistons and connecting rods, so are able to be produced on the same production line), with aluminum cylinder heads and blocks and 77.0 mm cylinder bore spacing for all types.

It was introduced in 2016 in simple naturally aspirated, 2-valve per cylinder with VVT, indirect injected, flex-fuel 1.0 inline-3 and 1.3 inline-4 versions for the South American market under the hood of the 2017 Brazilian Fiat Uno.[3]

Next, it was introduced in 2018 to European and North American markets, in turbocharged, 4-valve per cylinder, direct-injected and MultiAir III versions, under the hood of the 2019 Jeep Renegade and Fiat 500X facelifts.

In 2020, it was introduced to European and North American markets, in MHEV, 4-valve per cylinder and direct-injected versions, under the hood of the 2020 Fiat 500, Fiat Panda (319) and Lancia Ypsilon (846).

FireFly T4 engine in an Alfa Romeo Tonale Plug-in Hybrid

Applications

[edit]

South America

[edit]
Engine code Number of cylinders, valves Displacement
Bore x stroke		 Years Usage Peak power (ethanol) Peak torque (ethanol)
N3 Inline-3, 6 valves 1.0 L; 61.0 cu in (999 cc)
70 mm × 86.5 mm (2.76 in × 3.41 in) 		2016–present Fiat Mobi, Fiat Uno, Fiat Argo, Peugeot 208, Citroën C3, Citroën Basalt 72 PS (53 kW; 71 hp) at 6000 rpm 77 PS (57 kW; 76 hp) at 6250 rpm 102 N⋅m (75 lb⋅ft) at 3250 rpm
107 N⋅m (79 lb⋅ft) at 3250 rpm
T200 Inline-3, 12 valves

Turbo, Multiair III

1.0 L; 61.0 cu in (999 cc)
70 mm × 86.5 mm (2.76 in × 3.41 in) 		2021–present Fiat Pulse, Fiat Fastback, Fiat Strada, Peugeot 208, Peugeot 2008, Citroën C3 Aircross, Citroën C3 YOU!, Citroën Basalt 130 PS (96 kW; 128 hp) at 5750 rpm (E100)

125 PS (92 kW; 123 hp) at 5750 rpm (gasoline)

200 N⋅m (148 lb⋅ft) at 1750 rpm
(E100 or gasoline)
N4 Inline-4, 8 valves 1.3 L; 81.3 cu in (1,332 cc)
70 mm × 86.5 mm (2.76 in × 3.41 in) 		2016–present Fiat Uno, Fiat Argo, Fiat Cronos, Fiat Pulse, Fiat Strada, Fiat Fiorino, Peugeot Partner Rapid 101 PS (74 kW; 100 hp) at 6000 rpm 109 PS (80 kW; 108 hp) at 6250 rpm 134 N⋅m (99 lb⋅ft) at 3500 rpm
139 N⋅m (103 lb⋅ft) at 3500 rpm
T270 Inline-4, 16 valves

Turbo, Multiair III

1.3 L; 81.3 cu in (1,332 cc)
70 mm × 86.5 mm (2.76 in × 3.41 in) 		2021–present Jeep Renegade, Jeep Compass, Jeep Commander, Fiat Toro, Abarth Pulse, Fiat Fastback 185 PS (136 kW; 182 hp) at 5750 rpm (E100)

182 PS (134 kW; 180 hp) at 5750 rpm (gasoline)

270 N⋅m (199 lb⋅ft) at 1750 rpm
(E100 or gasoline)

Europe/North America

[edit]
Engine code Number of cylinders, valves Displacement
Bore x stroke		 Years Usage Peak power Peak torque
N3 BSG Inline-3, 6 valves, 12V-MHEV, FireFly 1.0 L; 61.0 cu in (999 cc)
70 mm × 86.5 mm (2.76 in × 3.41 in) 		2020–present Fiat 500 (312), Fiat Panda (319), Lancia Ypsilon (846), Fiat 500 Hybrid (332) 70 PS (51 kW; 69 hp) at 6000 rpm 92 N⋅m (68 lb⋅ft) at 3500 rpm
T3 Inline-3, 12 valves
Turbo, Multiair III 		1.0 L; 61.0 cu in (999 cc)
70 mm × 86.5 mm (2.76 in × 3.41 in) 		2018–present Jeep Renegade FL, Fiat 500X FL, Fiat Tipo 100–120 PS (74–88 kW; 99–118 hp) at 5750 rpm 190 N⋅m (140 lb⋅ft) at 1750 rpm
T4 Inline-4, 16 valves
Turbo, Multiair III 		1.3 L; 81.3 cu in (1,332 cc)
70 mm × 86.5 mm (2.76 in × 3.41 in) 		2018–present Jeep Renegade FL, Fiat 500X FL, Jeep Compass 150 PS (110 kW; 148 hp) at 5500 rpm
180 PS (132 kW; 178 hp) at 5750 rpm 		270 N⋅m (199 lb⋅ft) at 1850 rpm
285 N⋅m (210 lb⋅ft) at 1850 rpm
T4 4xe PHEV Inline-4, 16 valves
Turbo, Multiair III + FCA eMotor 		1.3 L; 81.3 cu in (1,332 cc)
70 mm × 86.5 mm (2.76 in × 3.41 in) 		2021–present Jeep Renegade 4xe, Jeep Compass 4xe, Alfa Romeo Tonale 130–180 PS (96–132 kW; 128–178 hp) at 5500 rpm (engine)

60 PS (44 kW; 59 hp) (motor)

190–240 PS (140–177 kW; 187–237 hp) at 5750 rpm (combined)

270 N⋅m (199 lb⋅ft) at 1850 rpm (engine)

250 N⋅m (184 lb⋅ft) (motor)

470 N⋅m (347 lb⋅ft) (combined)

T4 4xe PHEV Inline-4, 16 valves
Turbo, Multiair III + FCA eMotor 		1.3 L; 81.3 cu in (1,332 cc)
70 mm × 86.5 mm (2.76 in × 3.41 in) 		2022–2026 Alfa Romeo Tonale Plug-in Hybrid, Dodge Hornet 180 PS (132 kW; 178 hp) at 5500 rpm (engine)

123 PS (90 kW; 121 hp) (motor)

279 PS (205 kW; 275 hp) at 5750 rpm (combined)

270 N⋅m (199 lb⋅ft) at 1850 rpm (engine)

250 N⋅m (184 lb⋅ft) (motor)

521 N⋅m (384 lb⋅ft) (combined)

FireFly T4 Inline-4, 16 valves
Turbo, Multiair III 		1.5 L; 89.6 cu in (1,469 cc)
71.2 mm × 92.2 mm (2.80 in × 3.63 in) 		2022–present Alfa Romeo Tonale Hybrid, Fiat Tipo Hybrid (2022), Fiat 500X Hybrid (2022) 130 PS (96 kW; 128 hp) at 5500 rpm

20 PS (15 kW; 20 hp) (motor)

240 N⋅m (177 lb⋅ft) at 1850 rpm (engine)

55 N⋅m (41 lb⋅ft) (motor)

FireFly T4 VGT Inline-4, 16 valves
VG Turbo, Multiair III 		1.5 L; 89.6 cu in (1,469 cc)
71.2 mm × 92.2 mm (2.80 in × 3.63 in) 		2022–present Alfa Romeo Tonale Hybrid VGT 160 PS (118 kW; 158 hp) at 5500 rpm

20 PS (15 kW; 20 hp) (motor)

240 N⋅m (177 lb⋅ft) at 1850 rpm (engine)

55 N⋅m (41 lb⋅ft) (motor)

See also

[edit]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Fiat Global Small Engine

View on Grokipedia
from Grokipedia
The Fiat Global Small Engine (GSE), marketed under the FireFly name, is a family of compact, turbocharged inline-four and inline-three petrol engines developed by (FCA)—now part of —for use in small and mid-size passenger vehicles. Introduced to production vehicles starting with the refreshed in 2018, the GSE lineup emphasizes modularity, lightweight aluminum construction, and advanced technology to deliver improved performance and emissions compliance. Key variants include the 1.0-liter three-cylinder T3 , producing 120 horsepower and 190 Nm of , paired typically with a six-speed , and the 1.3- and 1.5-liter four-cylinder T4 engines, with the 1.3-liter offering 150 horsepower and 270 Nm in European specifications or 177 horsepower and 210 lb-ft in North American tuning, often mated to a six-speed dual-clutch or nine-speed automatic gearbox. Both incorporate third-generation electro-hydraulic valve control, direct , an integrated , and a twin-scroll with electronic , enabling up to 20% greater and reduced noise compared to prior FCA petrol units while meeting Euro 6d-TEMP standards via a gasoline particulate filter. Production of the GSE family began at dedicated powertrain facilities worldwide, including the Bielsko-Biała plant in Poland (where the 100,000th unit was assembled in June 2019) and the Betim complex in Brazil (which began output in March 2021 with flex-fuel adaptations for local markets), with production continuing as of 2025 in select locations despite phase-out at some European sites. These engines power a range of Stellantis models, such as the Fiat 500X, Jeep Renegade, Fiat Panda, and Fiat Tipo, with hybrid mild-hybrid integrations (like the 1.0-liter N3 version) expanding their application to support electrification goals and CO2 reduction targets.

History and development

Origins and design goals

The development of the Fiat Global Small Engine (GSE) family was initiated by (FCA) in the early 2010s, driven by the need to address increasingly stringent global emissions regulations, such as Euro 6 standards, and to provide more fuel-efficient small-displacement powertrains for a wide range of vehicles. This effort responded to regulatory pressures worldwide, including those in and emerging markets, while aiming to maintain performance levels amid rising demands for sustainability and reduced CO₂ output. The primary design goals centered on creating a modular that allowed for shared components across different displacements, enabling flexibility in production and application from city cars to compact SUVs. Key objectives included the use of lightweight aluminum construction for the and head to minimize overall mass and improve efficiency, alongside compatibility with future technologies such as mild-hybrid (MHEV) and (PHEV) systems. These features were intended to achieve up to 20% better compared to predecessors without sacrificing power, while supporting lower emissions through advanced combustion strategies. The GSE project involved collaboration among FCA's powertrain engineering teams in (Turin), (Bielsko-Biała), and (Betim), focusing on cost reduction via high of components and processes, including a common 77.0 mm bore spacing across variants to facilitate scalability and manufacturing economies. This approach positioned the GSE as a direct replacement for the aging () family and the smaller Small Gasoline Engine (SGE, including TwinAir) units, offering enhanced efficiency and adaptability for global markets.

Introduction timeline

The Fiat Global Small Engine (GSE) family, also known as FireFly, was first introduced in in , debuting with the naturally aspirated 1.0 L three-cylinder N3 variant designed for entry-level vehicles such as the , Mobi, and models produced at the Betim plant in . This initial rollout focused on flex-fuel capabilities to suit regional market demands, marking the beginning of a modular engine platform aimed at global efficiency and emissions compliance. The engine's European debut occurred in 2018, featuring turbocharged versions integrated into models like the and to enhance performance while maintaining compact dimensions. This expansion introduced direct injection and III technology, aligning with stricter European emissions requirements and broadening the GSE's application beyond naturally aspirated setups. Concurrently, North American markets saw initial adoption in late 2018 for the 2019 , where the 1.3 L turbo variant replaced older engines in vehicles such as the , providing improved torque and fuel economy for crossover applications. In , the GSE lineup expanded with mild-hybrid (MHEV) configurations, including a 1.0 L variant for the and Panda, incorporating a 48-volt system to support and reduce urban fuel consumption; these updates ensured compliance with Euro 6d standards in and equivalent U.S. emissions regulations through enhanced efficiency. Plug-in hybrid (PHEV) options followed shortly, further diversifying the family for broader electrification goals. By 2021, following the formation of from the FCA-PSA merger, production of 1.5 L hybrid variants commenced, featuring MHEV integration for improved low-end response. Post-merger developments through 2025 have seen deeper integration of GSE engines into and lineups, particularly in South American and European markets, with the 1.3 L turbo and 1.5 L MHEV variants powering models like the and to leverage shared platforms and cost efficiencies across the portfolio. In November 2025, series production of the Hybrid commenced at the Mirafiori plant in , utilizing the 1.0L GSE mild-hybrid engine. This cross-brand adoption has accelerated the engine family's role in meeting global sustainability targets, including WLTP cycle optimizations.

Design and architecture

Modular platform

The Fiat Global Small Engine (GSE) family is built on a modular platform that enables across inline-3 and inline-4 configurations, supporting displacements from 1.0 L to 1.5 L while maintaining shared architecture for cost efficiency and manufacturing flexibility. This design features 77.0 mm bore centers, allowing the use of identical pistons, connecting rods, and other core components across variants, which simplifies production and enhances parts interchangeability. The platform employs an aluminum block and construction, developed in collaboration with Teksid, to achieve a total of approximately 93 kg for the 1.0 L inline-3 variant and 100 kg for the 1.3 L inline-4, significantly reducing vehicle mass compared to traditional iron-block designs. Common cylinder spacing and standardized mounting points further support integration across diverse vehicle platforms, from cars to subcompact SUVs. Fuel system compatibility is a key aspect of the , accommodating , flex-fuel configurations capable of running on up to E100 (particularly for South American markets), and provisions for multi-point or direct injection systems to meet varying regional emissions and performance requirements. The cooling system is water-based, featuring an integrated in the to improve thermal management and efficiency by reducing heat loss and enabling faster engine warm-up.

Technical features

The Fiat Global Small Engine (GSE) family incorporates advanced valvetrain technologies to optimize performance and efficiency across its variants. Base naturally aspirated models feature a single overhead camshaft (SOHC) configuration with two valves per cylinder, enabling compact design and reliable operation for entry-level applications. Higher-output versions employ a dual overhead camshaft (DOHC) setup with four valves per cylinder, integrated with the MultiAir III system—an electro-hydraulic mechanism that provides variable intake valve lift and timing for precise control over airflow and combustion. This allows for internal exhaust gas recirculation (EGR), reducing NOx emissions while enhancing fuel economy and throttle response. Turbocharging in the GSE lineup enhances power delivery without compromising drivability, particularly in higher-output configurations. These engines utilize a single low-inertia with an integrated to minimize lag and accelerate boost buildup, complemented by an electronic for dynamic pressure management. While variable geometry turbos are not standard across the family, the system's architecture supports improved in demanding conditions. Fuel injection systems in the GSE engines are tailored to engine type for balanced performance and emissions control. Naturally aspirated units rely on multi-point to ensure even distribution and cost-effective operation. Turbocharged models adopt direct injection, with injectors positioned at a 23-degree angle to promote stratified charge , which contributes to up to 20% savings compared to prior generations through better atomization and reduced wall wetting. This setup also supports higher compression ratios, such as 10.5:1, for enhanced . Hybrid integration expands the GSE family's versatility, enabling mild and plug-in configurations to meet goals. The 48V belt-driven starter-generator (BSG) in mild-hybrid electric vehicle (MHEV) setups recovers braking energy to assist the engine, providing seamless stop-start functionality and torque fill for smoother acceleration. For plug-in hybrid electric vehicle (PHEV) applications, the 1.3 L turbo variant pairs with an 11.4 kWh battery and , delivering up to 50 km of under WLTP testing while maintaining compatibility with the engine's core architecture. These systems prioritize and electric-only driving to lower overall CO2 output. Emissions technologies in the GSE engines emphasize compliance with stringent global standards through material and design innovations. Coated cylinder liners reduce and losses, accelerating warm-up times to minimize cold-start emissions. Low-friction pistons further enhance efficiency by cutting mechanical losses, while direct-injection versions include a gasoline particulate filter (GPF) to capture fine particles. These features enable adherence to Euro 6d standards in , with adaptations for Tier 3 in North American markets, achieving significant reductions in , CO2, and particulates without sacrificing durability.

Engine variants

1.0 L variants

The 1.0 L variants of the Fiat Global Small Engine (GSE) family, marketed as FireFly, are configured as inline-three-cylinder units with a displacement of 999 cc, a bore of 70 mm, and a of 86.5 mm. These dimensions contribute to a compact design optimized for efficiency and packaging in small vehicles. Key variants include the naturally aspirated N3 code, which delivers 72 PS on and up to 77 PS on flex-fuel (), with corresponding outputs of 102 N⋅m and 107 N⋅m. The turbocharged T200 variant produces 120 PS and 190 N⋅m of , incorporating III valve actuation for improved responsiveness. Additionally, the N3 BSG mild-hybrid (MHEV) version pairs a 70 PS with a belt-integrated starter generator, achieving a combined output of 100 PS and 190 N⋅m, enhancing low-speed and fuel economy. The N3 employs a single overhead (SOHC) with two valves per , while the T200 uses a dual overhead (DOHC) with four valves per ; both support or flex-fuel operation, with direct injection on turbo models. These engines are designed primarily for entry-level urban vehicles, where low noise, vibration, and harshness (NVH) levels are prioritized through features like balance shafts and a lightweight aluminum block. Efficiency reaches up to 25 km/L on highways under optimal conditions, supported by advanced thermal management and reduced internal friction. Compared to predecessors like the series, the GSE 1.0 L achieves approximately a 20% weight reduction, with the turbo variant weighing around 93 kg, aiding overall vehicle agility and economy. The modular platform's consistent bore spacing across the GSE family enables shared components and scalability.

1.3 L and 1.5 L variants

The 1.3 L variant of the Fiat Global Small Engine (GSE) family is an inline-4 configuration with a displacement of 1,332 cc, achieved through a bore of 70 mm and a stroke of 86.5 mm. It employs gasoline direct injection and a DOHC 4-valve valvetrain with MultiAir III electro-hydraulic valve actuation for optimized airflow and efficiency. A compression ratio of 10.5:1 supports its turbocharged setup, featuring a low-inertia turbocharger with an electronic wastegate and integrated exhaust manifold for responsive boost delivery. Maximum engine speed reaches 5,500 rpm, with peak torque available from 1,500 rpm to enhance low-end drivability. Several tuned versions of the 1.3 L engine exist under codes such as T3 and T4. The T4 turbo variant delivers 150 PS (110 kW) and 270 of , prioritizing balanced for compact crossovers. The higher-output T270 configuration increases power to 180-185 PS while maintaining 270 , with the upper end tailored for flex-fuel compatibility in select markets; early T270 units have faced for excessive oil consumption, addressed in subsequent updates as of 2023. The T4 mild-hybrid (MHEV) integrates a 48 V belt-starter generator, yielding a combined 180 PS and 285 for improved without sacrificing . In plug-in hybrid (PHEV) applications like the T4 4xe, the 1.3 L engine pairs with a 60 PS electric , producing 240 PS combined and up to 520 of total through additive delivery from the 270 internal combustion unit and 250 electric component. The GME-T4 iteration, deployed in U.S. models, is optimized for regular 87-octane fuel while benefiting from premium compatibility for enhanced output. The 1.5 L GSE variant, also an inline-4 with 1,469 cc displacement, uses a bore of 71.2 mm and stroke of 92.2 mm, emphasizing hybrid integration for premium applications. It features , a DOHC 16-valve head, and variable geometry turbocharging on select units, with a higher of 12.5:1 to support Miller-cycle efficiency in hybrid modes. Known as the FireFly T4 in MHEV form, it produces 130-160 PS and 240 N⋅m of , augmented by a 48 V system with a 15 kW for seamless torque fill and up to 11% lower CO2 emissions under WLTP testing. This variant focuses on refined hybrid performance, enabling electric-only operation for short durations and prioritizing smoothness in mid-size vehicles.

Applications

South American models

In South America, particularly in , the Fiat Global Small Engine (GSE) family powers a range of entry-level and compact vehicles tailored for the region's demanding market conditions, including high biofuel usage and stringent local emissions requirements. Fiat's lineup prominently features the GSE in models like the Mobi, which uses the 1.0 L N3 variant delivering 77 PS for efficient urban commuting. The Uno incorporates the 1.0 L N3 variant, providing versatile performance in a subcompact designed for affordability and reliability. Similarly, the sedan and options utilize both 1.0 L and 1.3 L T270 turbo configurations, balancing power and economy for family-oriented buyers. The Cronos sedan relies on the 1.3 L T270 GSE for its base and mid-trim levels, offering smooth acceleration suited to and driving in emerging markets. Fiat's pickup offerings, such as the Toro midsize with its 1.3 L T270 producing 185 PS on , and the Strada compact pickup with the 1.0 L N3, emphasize durability and payload capacity for commercial use. Jeep models in the region also adopt the GSE for enhanced efficiency without compromising off-road capability. The Renegade SUV employs the 1.3 L T270 turbo, outputting 182 PS, to deliver responsive handling in varied terrains. The midsize SUV similarly uses the 1.3 L T270, integrating it with all-wheel-drive systems for premium yet accessible adventure vehicles. Beyond and , the GSE extends to other brands through shared platforms. The hatchback features the 1.0 L N3 as a flex-fuel option compatible with E100 , optimizing it for Brazil's infrastructure. The subcompact also incorporates the 1.0 L N3, providing economical propulsion for urban consumers. Regional adaptations of the GSE emphasize flex-fuel technology to comply with 's biofuel mandates, allowing seamless operation on gasoline-ethanol blends or pure , which supports the country's policies. The majority of GSE production in Brazil is configured for flex-fuel to meet these requirements and the Proconve L7 emissions standards, which limit non-methane organic gases and introduce refueling emission controls. This focus on local compliance enhances environmental performance while maintaining cost-effectiveness. The GSE's modular design has enabled sub-$10,000 pricing for entry-level models like the Mobi, making modern, efficient vehicles accessible to a broad demographic and contributing to Fiat's leadership in with over 20% by the late .

European and North American models

In European markets, the Fiat Global Small Engine (GSE) family powers various Fiat models with turbocharged and mild-hybrid configurations optimized for efficiency and emissions compliance. The incorporates the 1.0 L GSE N3 mild-hybrid variant, producing 70 PS, which supports the vehicle's compact urban driving profile while integrating a 48-volt mild-hybrid system for improved fuel economy. Similarly, the employs the 1.0 L GSE N3 with Belt-integrated Starter Generator (BSG) mild-hybrid technology, enabling seamless electric assistance during acceleration and reducing CO2 emissions to meet Euro 6d standards. The utilizes the 1.3 L GSE T4 turbocharged engine, delivering 180 PS, as part of its 2019 refresh to replace older powertrains with more efficient units. Jeep models in and leverage GSE variants for both mild-hybrid and electric vehicle (PHEV) applications, emphasizing all-wheel-drive capability and regulatory adherence. The features the 1.3 L GSE T4 in a mild-hybrid setup, providing balanced performance for compact duties. In the , the 1.3 L GSE T4 powers the 4xe PHEV version, combining with an for 240 PS total output and up to 50 km of electric-only range to comply with Euro 6d and (CAFE) requirements. Across other Stellantis brands, GSE engines enable advanced hybrid integrations in premium vehicles. The employs the 1.3 L GSE T4 in its 4xe PHEV configuration, achieving 240-280 PS combined power depending on trim, with the higher output in Veloce models enhancing sporty dynamics while targeting low emissions. The integrates a 1.2 L mild-hybrid variant for its 2024 update, focusing on urban efficiency. Peugeot models like the 208 incorporate 1.0 L GSE mild-hybrid engines in 2025 hybrid configurations, sharing modular architecture for MHEV systems that support Euro 6d compliance and contribute to fleet-wide electrification. The 3008 uses a separate 1.2 L PureTech mild-hybrid. In , the GSE family adapts to local fuel standards and regulations. The and its Dodge-badged counterpart use the 1.3 L GSE T4 tuned for 87-octane gasoline, maintaining 177 hp output suitable for U.S. market demands. These hybridized GSE applications generally achieve combined of 4-5 L/100 km in European testing cycles, aiding ' Dare Forward 2030 strategy to reach carbon neutrality and full in by that year. As of 2025, updates include the GT Hybrid using a 1.0 L turbo GSE with hybrid assistance for 130 PS combined.

Production

Manufacturing facilities

The primary facilities for the Fiat Global Small Engine (GSE), also known as the FireFly engine family, are located in , , and , supporting global production of its 1.0 L, 1.3 L, and 1.5 L variants. The Betim plant in , , serves as a key hub following the 2021 merger forming , with new GSE production lines inaugurated on September 14, 2016, for 1.0 L and 1.3 L three- and four-cylinder engines, including flex-fuel configurations. This facility features highly automated assembly processes, including 186 high-performance s for machining and assembly, in-house production capabilities, and advanced systems such as the "paparazzo" for inspections and "data bolt" for . Initial capacity for these lines was ,000 units per year, with turbocharged GSE production starting in March 2021 at an initial rate of 100,000 units annually, expandable as needed. By 2024, the broader Betim powertrain complex had been upgraded to a total capacity of 1.1 million engines per year. In , the FCA Powertrain plant in received in 2016 and began producing turbocharged GSE variants, including 1.0 L three-cylinder and 1.3 L four-cylinder engines, starting in 2018 as part of a strategic to expand the site's gasoline engine portfolio. The facility, recognized with World Class Manufacturing Gold Medal status since 2012, incorporated modular and efficient production techniques, achieving 100,000 FireFly Turbo engines by June 2019. Production at concluded by the end of 2024, marking the closure of the historic site after 75 years of operations. The plant in handles GSE production, particularly hybrid-compatible versions of the 1.0 L, 1.3 L, and 1.5 L engines integrated with the existing lines, supporting models like the and Panda hybrids. As of late , GSE production at the site is running below capacity amid the industry's transition to . This site emphasizes adaptability for mild-hybrid applications amid the transition to electrified powertrains, with ongoing operations in despite periodic furloughs due to market demand fluctuations. Components for GSE engines, such as turbochargers, are sourced from European suppliers to ensure performance standards, while Brazilian facilities leverage local sourcing for cost efficiency in flex-fuel adaptations.

Milestones and challenges

The production of the Fiat Global Small Engine (GSE) family reached a significant milestone in June 2019 when the 100,000th FireFly Turbo engine—a 1.0-liter variant—was manufactured at the FCA plant in , . This achievement highlighted the engine's rapid adoption, with the initial batch saving approximately 1.5 tonnes of CO2 emissions through improved of up to 20% compared to previous generations, enabled by technologies like MultiAir III and a gasoline particulate filter. In March 2021, Stellantis launched GSE Turbo production at its Betim Automotive Complex in , marking a key expansion in Latin American manufacturing capabilities. The facility's first phase, supported by an investment of R$400 million (approximately $71 million USD), achieved an annual capacity of 100,000 units for 1.0-liter and 1.3-liter turbo variants, positioning Betim as the largest hub in the region with overall output potential exceeding 700,000 engines yearly. By 2023, the GSE family had been integrated into numerous models across brands, supporting diverse applications in , , and while leveraging modular design for shared components and production standardization. The GSE program faced notable challenges, including supply chain disruptions from the global semiconductor shortage between 2020 and 2022, which constrained vehicle production and led to temporary plant closures in and . These issues delayed broader rollout of hybrid variants, as component availability hampered assembly lines for electrified powertrains. In 2025, operations at the plant in — a key site for GSE petrol engines—encountered further hurdles with a 12-month scheme affecting over 1,800 workers starting September, driven by weakening European demand and U.S. tariffs on exports like those for the . Plans for hybrid dual-clutch transmissions at the site were postponed to 2026, underscoring the pressures from the automotive shift toward . Looking ahead, the GSE family is positioned as a transitional , with hybrid configurations serving as a bridge to full electrification amid ' revised strategy, which has moved away from a strict 100% battery-electric target by 2030 in favor of expanded hybrid offerings. The modular of the GSE supports this evolution by accommodating mild-hybrid and integrations, enhancing efficiency during the industry's pivot to lower-emission powertrains.

References

  1. https://www.media.stellantis.com/em-en/fca-archive/press/one-hundred-thousand-firefly-turbo-engines-made
  2. https://www.media.stellantis.com/em-en/fiat/press/new-fiat-500x-back-to-the-future-with-new-engines-and-new-technologies
  3. https://www.motortrend.com/news/fiats-new-turbo-engine-pull-lot-weight-u-s
  4. https://www.just-auto.com/features/firefly-engine-sparkles-in-freshened-fiat-500x/
  5. https://www.media.stellantis.com/br-en/corporate-communications/press/the-stellantis-plant-in-betim-is-on-the-launch-pad-to-produce-global-family-of-turbo-engines
  6. https://www.italpassion.fr/en/stellantis/stellantis-to-halt-production-of-an-italian-fiat-firefly-engine-within-a-few-weeks/
  7. https://www.media.stellantis.com/em-en/fca-archive/press/fca-what-s-behind-season-2-episode-1-the-engine-revolution
  8. https://www.sec.gov/Archives/edgar/data/1605484/000160548417000019/fcaannualreport20161231.htm
  9. https://www.media.stellantis.com/br-en/corporate-communications/press/technical-notes-about-gse-turbo-family-engines
  10. https://www.media.stellantis.com/em-en/fiat/press/a-new-chapter-begins-at-mirafiori-with-the-fiat-500-hybrid-5-000-units-planned-by-2025
  11. https://moparinsiders.com/is-a-1-5-liter-firefly-engine-gse-in-the-works/
  12. https://www.media.stellantis.com/br-en/corporate-communications/press/fca-inaugurates-new-facilities-in-betim-to-produce-global-family-of-engines
  13. http://www.italiaspeed.com/2018/cars/other/jeep/06/jeep_renegade_my2019/new_t3_t4_engine/fca_new_turbo_engines_t3_t4.html
  14. https://moparinsiders.com/the-jeep-renegades-new-1-3-liter-turbo-for-2019/
  15. https://moparinsiders.com/fiat-introduces-the-new-2019-fiat-500x-for-north-america/
  16. https://www.autoevolution.com/news/2020-fiat-500-hybrid-panda-hybrid-pricing-announced-140554.html
  17. https://www.automobile-catalog.com/car/2020/2971370/fiat_500_hybrid.html
  18. https://moparinsiders.com/community/threads/stellantis-firefly-turbo-also-goes-to-peugeot-and-citro%25C3%25ABn.3632/
  19. https://www.media.stellantis.com/em-en/fiat/press/new-500x-hybrid-and-tipo-hybrid-the-fiat-line-up-is-now-100-electrified
  20. https://moparinsiders.com/teksid-expands-production-of-gse-firefly-engine-components/
  21. https://www.automobile-catalog.com/car/2023/2971370/fiat_500_hybrid.html
  22. https://www.media.stellantis.com/em-en/jeep/press/jeep-media-drive-features-the-new-jeep-renegade-and-compass-e-hybrid
  23. https://moparinsiders.com/jeep-officially-unveils-its-renegade-compass-4xe-lineup/
  24. https://www.media.stellantis.com/uploads/em/2018/FIAT/Schede-Tecniche/180903_Fiat_New_500X_Technical-Sheet.pdf
  25. https://www.media.stellantis.com/br-en/fiat/press/fiat-uno-2017-debuts-new-global-engines-family-and-gets-sophisticated-technology-package
  26. https://www.media.stellantis.com/uk-en/fiat/press/fiat-panda-easy-mild-hybrid-now-available-to-order
  27. https://www.media.stellantis.com/uk-en/fiat/press/uk-pricing-and-specification-announced-for-fiat-city-car-hybrid-line-up
  28. https://www.media.stellantis.com/em-en/download-model-document/176
  29. https://www.italpassion.fr/en/guides/les-moteurs-stellantis/
  30. https://en.clickpetroleoegas.com.br/motor-t270-1-3-turbo-da-fiat-jeep-da-pra-confiar-em-2025-entenda-a-polemica-do-consumo-excessivo-de-oleo-rss94/
  31. https://www.media.stellantis.com/em-en/jeep/press/renegade-4xe-and-compass-4xe-the-jeep-brand-s-take-on-the-plug-in-hybrid
  32. https://www.auto-data.net/en/fiat-tipo-cross-1.5-t4-gse-130hp-mild-hybrid-edct-47026
  33. https://moparinsiders.com/peugeots-208-gets-an-fca-engine-for-brazilian-marketplace/
  34. https://en.clickpetroleoegas.com.br/modelo-fiat-tem-motor-que-aguenta-mais-de-300-mil-km-faz-ate-151-km-l-e-entrega-77-cv-a-partir-de-r-349-mil-conheca-opcoes-de-fiat-uno-firefly-usado-afch-2/
  35. https://moparinsiders.com/fiats-cronos-gets-an-update-going-into-the-2023-model-year/
  36. https://en.clickpetroleoegas.com.br/motores-turbo-flex-da-fiat-potencia-economia-e-robustez-em-um-dos-propulsores-mais-modernos-do-brasil-nmb91/
  37. https://www.team-bhp.com/forum/international-automotive-scene/212125-fiat-suv-based-argo-platform-brazil-2021-a.html
  38. https://www.carscoops.com/2021/12/jeep-renegade-is-receiving-another-facelift-in-brazil-will-get-180-hp-1-3-liter-turbocharged-engine/
  39. https://moparinsiders.com/jeep-brazil-prepares-for-2025-compass-powertrain-overhaul/
  40. https://www.italpassion.fr/en/fiat/which-fiat-models-will-get-the-puretech-engine-or-the-firefly/
  41. https://theicct.org/publication/brazil-proconve-l-7-and-l-8-emission-standards-for-light-duty-vehicles/
  42. https://www.motor1.com/news/743185/fiat-panda-mobi-cheap-10k-euros/
  43. https://www.media.stellantis.com/br-en/fiat/press/fiat-ten-years-of-market-leadership-in-brazil
  44. https://www.autoevolution.com/news/2020-fiat-500-hybrid-panda-hybrid-revealed-with-mild-hybrid-engine-140207.html
  45. https://www.media.stellantis.com/uk-en/jeep/press/renegade-4xe-the-jeep-take-on-the-plug-in-hybrid-press-kit
  46. https://www.jeep.co.uk/jeep-compass-2023/plug-in/performance
  47. https://cars.usnews.com/cars-trucks/features/alfa-introduces-tonale-suv
  48. https://www.media.stellantis.com/em-en/lancia/press/new-lancia-ypsilon-one-car-four-statements
  49. https://www.fiatusa.com/fiat-world/discontinued-car/500x
  50. https://www.greenncap.com/wp-content/uploads/datasheets/2022/fiat-500-2022-0102.pdf
  51. https://futurride.com/2021/07/09/stellantis-joins-electrification-race/
  52. https://en.clickpetroleoegas.com.br/peugeot-208-gt-hybrid-2026-estreia-eletrificacao-no-brasil-com-motor-1-0-turbo-e-preco-de-r-134-mil-ctl01/
  53. https://moparinsiders.com/stellantis-announces-r-14-billion-investment-in-brazil/
  54. https://notesfrompoland.com/2024/01/05/historic-fiat-engine-plant-in-poland-to-close-after-75-years/
  55. https://www.reuters.com/business/stellantis-backed-acc-scrap-plans-termoli-gigafactory-newspaper-reports-2025-11-14/
  56. https://www.reuters.com/business/autos-transportation/global-chip-shortage-will-easily-drag-into-2022-stellantis-ceo-2021-07-21/
  57. https://www.cnbc.com/2021/03/26/stellantis-closing-five-north-american-plants-due-to-chip-shortage.html
  58. https://www.reuters.com/business/world-at-work/stellantis-extends-furlough-scheme-italian-plant-weak-demand-tariffs-2025-08-25/
  59. https://moparinsiders.com/stellantis-pulls-back-on-its-2030-all-electric-goal-in-europe/
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