When a Formula 1 equipe tells its piloto to "switch to strat two" or "deploy more on the Reta," they are adjusting the Unidade de potência mode — a set of parameters that controls how the engine, Turbocompressor, MGU-K, and MGU-H work together. These modes are not simple on-off switches; they are sophisticated calibrations that balance power output, fuel consumption, energy harvesting, and component life across different phases of a corrida weekend. entender Unidade de potência modes is essential to entender why a car is fast in qualifying but struggles in the corrida, or why a piloto suddenly gains three tenths on a Reta.
What power unit modes actually control
A Unidade de potência mode is a software-defined configuration that adjusts multiple parameters simultaneously. When a equipe selects a mode, it changes the fuel injection timing, the Turbocompressor boost pressure, the MGU-K deployment strategy, the MGU-H harvesting behavior, and the ignition timing. These parameters are interconnected — changing one affects all the others — so teams develop pre-calibrated modes for specific situations.
The most common modes include:
Qualifying mode: Maximum power output, maximum deployment, minimum harvesting. The engine runs at its highest combustion efficiency, the Turbocompressor delivers maximum boost, and the MGU-K deploys all available energy. This mode is designed for a single lap where component life and fuel consumption are irrelevant.
corrida mode: Balanced power and efficiency. The engine runs at a lower combustion pressure to preserve fuel, the MGU-K deploys energy strategically across the lap, and the MGU-H harvests aggressively to replenish the battery. This mode is designed for corrida distance, where consistency matters more than peak desempenho.
Overtake mode: Temporary maximum deployment. When a piloto needs to attack or defend, the equipe can request additional energy deployment from the battery, sacrificing later-lap desempenho for immediate power. This mode is time-limited — the battery can only sustain high deployment for a few seconds before it must be replenished.
Harvest mode: Maximum energy recovery. The MGU-K and MGU-H prioritize harvesting over deployment, replenishing the battery as quickly as possible. This mode is used when the piloto is in clean air with no immediate threat, or when the battery is depleted after a long battle.
The numbers that define them
The regulations do not explicitly define Unidade de potência modes — they define the hardware limits, and teams develop software to operate within those limits. The MGU-K can deploy up to 120 kilowatts, the MGU-H can transfer unlimited energy, and the battery can hold up to 4 megajoules. How a equipe uses these limits across a lap is the essence of Unidade de potência mode strategy.
The fuel flow rate is limited to 100 kilograms per hour above 10,500 RPM, and the total fuel load is limited to 110 kilograms. These limits constrain how much power the internal combustion engine can produce, and teams must balance combustion power against electrical deployment to maximize total desempenho.
The difference between qualifying and corrida modes can be significativo. In qualifying, a car might deploy 160 horsepower of electrical energy on every Reta, using the full battery capacity. In the corrida, the same car might deploy only 100 horsepower on the main Reta, saving energy for defensive maneuvers or late-corrida pushes.
How it changes the race
Unidade de potência modes are a strategic weapon that teams use throughout the corrida. The most visible example is the overtake button — a physical button on the steering wheel that temporarily increases deployment. When a piloto presses this button, the battery releases additional energy, the MGU-K delivers more power, and the car accelerates faster than it would in normal corrida mode.
But the strategic depth goes beyond the overtake button. Teams constantly adjust modes based on the corrida situation. If a piloto is in a DRS train — a line of cars within one second of each other — the equipe might run a higher deployment mode to maintain position, knowing that the energy cost will need to be repaid later. If a piloto has a comfortable gap to the car behind, the equipe might switch to harvest mode, building energy reserves for a later push.
The mode strategy also affects tire management. A high-deployment mode puts more energy through the rear tires, increasing thermal degradation. A conservative mode preserves tires but sacrifices lap time. Teams must balance these trade-offs across the corrida distance, and the best teams adjust modes multiple times per stint.
Where fans get confused
The first confusion is thinking Unidade de potência modes are unlimited. The regulations have progressively restricted the number of modes teams can use. Since 2020, teams must use the same engine mode in qualifying and the corrida, which means they cannot run a special qualifying mode that would give them an advantage over a single lap. This rule was introduced to prevent teams from hiding their true desempenho in practice sessions.
The second confusion is equating modes with horsepower. A higher mode does not always mean more horsepower — it might mean more electrical deployment, which is different from combustion power. A car in harvest mode might still produce significativo horsepower from the internal combustion engine, but it is not deploying electrical energy, so it feels slower on corner exit.
The third confusion is not entender why teams do not always run maximum deployment. The battery has limited capacity, and the MGU-K has limited harvesting capability per lap. If a equipe deploys all available energy early in the lap, they will have nothing left for the final corner and subsequent Reta. Energy management is a chess game that plays out over an entire stint, and the best strategies involve saving energy for the moments that matter most.
What to watch next
The 2026 regulations will change Unidade de potência modes significantly. The MGU-H is removed, which means the Turbocompressor's boost pressure cannot be controlled electrically. The MGU-K's power output increases to 350 kilowatts, and the battery's role becomes even more crítico. Teams will need to develop new mode strategies that account for turbo lag, higher electrical power, and the absence of the MGU-H's energy transfer capability.
The overtake button will also change in 2026. The new regulations introduce Active Aero — adjustable front and rear wings — that work in conjunction with the MGU-K's deployment. When a piloto presses the overtake button, the wings adjust to reduce Arrasto while the MGU-K delivers maximum power, creating a combined attack system that is more powerful than either component alone.
Related reading
- F1 Turbocharger Explainer — How boost pressure is controlled
- F1 MGU-K Explainer — How deployment adds horsepower
- F1 Battery System Explainer — Where the deployed energy comes from