Skip to main content

Power Unit

The 2026 power unit regulations represent the most significant change in Formula 1’s hybrid era, introducing a 50/50 power split between internal combustion engine (ICE) and electrical systems, mandatory 100% sustainable fuels, and the removal of the MGU-H.

Revolutionary 2026 Power Unit

50/50 Power Split

350kW ICE + 350kW Electrical = Equal contribution from combustion and hybrid systems

No MGU-H

MGU-H removed for cost reduction and simplified architecture

Tripled E-Power

MGU-K output increased from 120kW to 350kW

Sustainable Fuel

100% sustainable fuel mandatory - zero net carbon footprint
Total Power Output: Approximately 700kW (950 horsepower) combined from ICE and electrical systems

Power Unit Architecture

Component Overview

The 2026 power unit consists of:
1

ICE - Internal Combustion Engine

1.6L V6 turbocharged engine with advanced combustion efficiency
2

TC - Turbocharger

Single turbocharger with enhanced efficiency and no energy recovery
3

MGU-K - Motor Generator Unit (Kinetic)

350kW electrical motor on crankshaft for energy recovery and deployment
4

ES - Energy Store (Battery)

Increased capacity battery system for electrical energy storage
5

CE - Control Electronics

FIA-standardized control unit managing power unit systems

Internal Combustion Engine (ICE)

Engine Specifications

ParameterSpecification
Configuration90° V6
Capacity1,600cc (±0.1cc tolerance)
Cylinders6 (2 banks of 3)
Bank angle90°
Bore80mm (±0.1mm tolerance)
Stroke53mm
Maximum RPM10,500 rpm
Fuel flow limit100 kg/hour
Oil flow limitMaximum controlled by FIA sensor
Critical Change: Rev limit reduced from 15,000 rpm to 10,500 rpm for durability and cost control

Combustion System

Fuel Injection

Direct Injection Requirements:
  • Single fuel injector per cylinder
  • Maximum injection pressure: 500 bar
  • Injector location: Within defined volume in combustion chamber
  • Port fuel injection: Prohibited
  • Fuel rail pressure: Monitored by FIA sensor
Injection Strategy:
  • Multiple injections per cycle permitted
  • Pre-chamber ignition: Prohibited
  • Maximum 1 spark plug per cylinder

Ignition System

  • Spark plugs: 1 per cylinder
  • Ignition timing: Controlled by CE (Control Electronics)
  • Coil-on-plug: Mandatory configuration
  • Multiple spark: Prohibited during combustion phase

Engine Block and Internals

Crankshaft

Single-plane crankshaft, maximum 1 per engine allocation

Valvetrain

4 valves per cylinder, pneumatic or mechanical valve springs

Pistons

Aluminum alloy, no exotic coatings, maximum 2 sets per engine

Connecting Rods

Steel or titanium, maximum 2 sets per engine allocation

Materials

Permitted Materials:
  • Engine block: Aluminum alloy or cast iron
  • Crankshaft: Steel alloy
  • Camshafts: Steel or cast iron
  • Valves: Titanium, steel, or nickel alloys
  • Cylinder head: Aluminum alloy
Prohibited Materials:
  • Beryllium and beryllium alloys
  • Metal matrix composites (MMC) in specific components
  • Ceramic components (except coatings)

Turbocharger

Turbocharger Specifications

Major Change: No MGU-H means turbocharger operates conventionally without energy recovery
ComponentSpecification
QuantitySingle turbocharger
Maximum shaft speed125,000 rpm
CompressorRadial compressor, max diameter 95mm
TurbineRadial turbine, max diameter 90mm
WastegateMandatory for boost control
IntercoolerAir-to-air or air-to-water permitted

Boost Control

1

Wastegate

Single wastegate valve controlling exhaust bypass
2

Maximum Pressure

Absolute intake pressure limited (monitored by FIA sensor)
3

Anti-Lag Prohibited

No ignition retardation or fuel-based anti-lag systems
Without MGU-H, teams must manage turbo lag through aerodynamic drag reduction and MGU-K deployment strategies.

MGU-K (Motor Generator Unit - Kinetic)

MGU-K Specifications (2026)

Maximum Power

350kW (up from 120kW in 2025)

Unlimited Deployment

No lap energy deployment limit

Speed Range

Operational from low RPM to maximum engine speed

Torque Delivery

Seamless torque fill for turbo lag mitigation

Energy Recovery

Brake Energy Recovery:
  • Maximum recovery: 8.5 MJ per lap (increased from 4 MJ)
  • Recovery during braking and coasting
  • Rear axle only (no front axle recovery)

MGU-K Integration

  • Mounting: Directly on crankshaft between ICE and gearbox
  • Cooling: Liquid cooling integrated with power unit system
  • Weight: Minimum weight component (contributes to PU minimum)
  • Reliability: Must last multiple events (allocation limits)

Energy Store (Battery)

Battery Specifications

ParameterSpecification
TypeLithium-ion cells
Maximum capacity8.5 MJ (increased from 4 MJ)
Maximum voltage1,000V DC
Maximum currentMonitored by FIA sensor
WeightMinimum 35kg
CoolingLiquid cooling mandatory
Battery Chemistry: Standardized cell specifications for cost control and safety:
  • Cell type: High energy density lithium-ion
  • Cell format: Cylindrical or pouch cells
  • Battery Management System (BMS): Integrated with CE

Battery Management

The Battery Management System controls:
  • Cell voltage balancing
  • Temperature monitoring and thermal management
  • State of charge (SOC) calculation
  • Power limits to prevent cell damage
  • Safety disconnect in case of fault
  • Communication with Control Electronics (CE)
Safety Critical: Battery must automatically disconnect in case of:
  • Crash impact detection
  • Over-temperature condition (>60°C cell temp)
  • Over-voltage or under-voltage condition
  • Loss of communication with CE

Control Electronics (CE)

Standardized Components

ECU

FIA-standard Electronic Control Unit (McLaren Electronic Systems)

Software

Standardized base software with limited team calibration

Sensors

FIA-mandated sensors for monitoring and compliance

Data Logging

All power unit data logged to FIA-accessible system

Control Functions

1

ICE Control

Fuel injection timing and duration, ignition timing, throttle control
2

MGU-K Control

Torque request, regeneration control, power deployment strategy
3

Monitoring

Real-time monitoring of fuel flow, power output, temperatures, pressures
4

Compliance

Enforces regulatory limits (fuel flow, power limits, energy deployment)

Fuel Specifications

100% Sustainable Fuel (2026)

Revolutionary Change: All fuel must be 100% sustainable with zero net carbon footprint
  • Advanced biofuels from biomass
  • Synthetic e-fuels from captured CO₂ and renewable energy
  • Drop-in compatibility with ICE (no engine modifications required)

Fuel Properties

PropertySpecification
RON (Research Octane Number)Minimum 95
Density (15°C)720-785 kg/m³
Bio-content100%
AromaticsMaximum 35% by volume
Oxygen contentMaximum 5% by mass
SulfurMaximum 10 mg/kg
FIA Testing:
  • All fuels must be submitted for FIA approval
  • Chemical composition analysis conducted
  • Reference fuel sample retained by FIA
  • Random testing during events to ensure compliance
  • Infrared spectroscopy used for rapid checks
  • Non-compliant fuel results in disqualification

Fuel Flow Limits

Maximum fuel flow: 100 kg/hour
  • Monitored by FIA fuel flow sensor
  • Measured at a rate of 2,000 times per second
  • Instantaneous flow must not exceed limit
  • Violations result in penalties or disqualification

Exhaust System

Exhaust Specifications

  • Configuration: 6 individual runners merging to single tailpipe
  • Diameter: Maximum tailpipe diameter 120mm
  • Length: Minimum length from turbine outlet
  • Material: Typically Inconel for heat resistance
  • Exits: Single exit, centered in rear crash structure

Exhaust Regulations

Prohibited:
  • Exhaust-blown aerodynamics
  • Variable geometry exhaust
  • Ignition retardation for exhaust energy
  • Secondary air injection
  • Exhausts directed at aerodynamic surfaces

Lubrication System

Oil Specifications

Engine Oil:
  • Viscosity grade: Typically 0W-30 or 0W-40
  • Base oil: Synthetic
  • Oil consumption: Monitored by FIA sensor
  • Maximum oil tank capacity: 8 liters
Prohibited:
  • Exotic additives that enhance combustion
  • Nanoparticle additives
  • Oil as fuel (strict consumption limits)

Oil Flow Monitoring

Oil consumption is strictly monitored:
  • Maximum consumption rate enforced
  • Violations indicate illegal combustion enhancement
  • Random oil samples taken for analysis

Cooling Systems

Power Unit Cooling

Water Cooling

ICE cylinder heads, block, and MGU-K

Oil Cooling

Separate oil coolers for engine and gearbox

Battery Cooling

Liquid cooling system for energy store

Intercooler

Charge air cooling after turbocharger

Radiators

Located in sidepods with optimized airflow

Temperature Control

Electronic thermostats for optimal temps

Power Unit Allocation

Component Limits per Season

2026 Allocation: Each driver is limited to the following power unit components per season:
ComponentAllocationPenalty for Exceeding
ICE (Internal Combustion Engine)3Grid penalty (10/5 places)
TC (Turbocharger)3Grid penalty (10/5 places)
MGU-K3Grid penalty (10/5 places)
ES (Energy Store)2Grid penalty (10/5 places)
CE (Control Electronics)2Grid penalty (10/5 places)
Gearbox4Grid penalty (5 places)
Grid Penalties:
  • First additional element of each type: 10-place grid penalty
  • Subsequent additional elements: 5-place grid penalty
  • Multiple penalties may result in back-of-grid start

Power Unit Installation

Mounting Requirements

1

Stressed Member

Power unit must be stressed member - load-bearing structure of chassis
2

Mounting Points

Minimum 4 mounting points to chassis (front) and gearbox (rear)
3

FIA Sealing

All critical components sealed by FIA to prevent modifications
4

Accessibility

Must allow FIA technical delegate access for inspection

Weight Distribution

Power Unit Minimum Weight: Complete power unit (ICE + TC + MGU-K + ES + CE + exhaust + cooling + auxiliaries) has a minimum weight target of approximately 150kg to prevent excessive lightweighting.

Dyno Testing and Homologation

Homologation Process

1

Design Submission

Complete CAD data and specifications submitted 12 months before first event
2

FIA Review

Technical review of all components for compliance
3

Dyno Testing

Power unit tested on FIA dyno facility:
  • Power output verification
  • Fuel flow compliance
  • Energy recovery testing
  • Durability testing
4

Homologation Certificate

Upon passing all tests, power unit receives homologation certificate
Once homologated, power unit designs are largely frozen. Only specific reliability or cost-saving modifications permitted.

Power Unit Development

Development Restrictions

Design Freeze:
  • Major power unit components frozen at homologation
  • Limited development tokens for changes
  • Reliability improvements permitted with FIA approval
  • Performance upgrades heavily restricted

Allowed Modifications

Reliability Modifications:
  • Changes to address component failures
  • Material upgrades for durability (no performance gain)
  • Geometry changes to prevent failures
Cost-Saving Changes:
  • Manufacturing process improvements
  • Material substitutions (equal or lower cost)
Prohibited:
  • Performance-driven changes
  • Combustion system modifications
  • Changes solely for power increase

Power Unit Manufacturers (2026)

The following manufacturers supply power units in 2026:

Ferrari

Ferrari + Haas customer team

Mercedes

Mercedes (works team)

Honda

Aston Martin (works partnership)

Red Bull Powertrains

Red Bull Racing + VCARB teams

Alpine/Renault

Alpine (works team)

Audi

Sauber (works team - joining 2026)

Performance Monitoring

FIA Sensors

Mandatory sensors monitor power unit performance:
SensorLocationPurpose
Fuel flow meterFuel supply lineEnforce fuel flow limit
Fuel pressureFuel railMonitor injection system
MGU-K torqueMGU-K shaftMonitor electrical power
Battery current/voltageES terminalsMonitor energy deployment
Turbo speedTC shaftMonitor turbocharger RPM
Oil consumptionOil tankMonitor oil usage
All sensor data transmitted to FIA in real-time. Any anomalies trigger immediate investigation.

Driver Controls

Permitted Driver Adjustments

Energy Deployment

Drivers can adjust MGU-K deployment modes

Engine Mapping

Selection between predetermined engine maps

Brake Balance

Adjust front/rear brake balance and MGU-K regen

Fuel Mix

Lean/rich mixture modes for fuel saving
All driver adjustments must be made via controls on steering wheel. No automatic systems permitted.

Sustainability Impact

Carbon Footprint

2026 Goals:
  • 100% sustainable fuel: Zero net carbon from fuel combustion
  • Reduced fuel consumption: Higher electrical power contribution
  • Recyclable battery materials: Lithium and cobalt recovery programs
  • Simplified architecture: Fewer exotic materials, easier recycling

Road Relevance

Automotive Industry Applications:
  • Sustainable fuel development accelerates commercial adoption
  • High-efficiency combustion technology applicable to road cars
  • Battery technology and energy management strategies
  • Turbocharger efficiency improvements for production engines
Formula 1’s technology roadmap aligns with global automotive electrification and decarbonization goals.

Fuel Systems

Detailed fuel system specifications and sustainable fuel requirements

Electronics

Control electronics, sensors, and power unit integration

Chassis & Bodywork

Power unit installation and integration with chassis

Build docs developers (and LLMs) love

Get started for freeTalk to us