The Toyota 1MHV system (One Motor Hybrid Vehicle) system is a significant departure from Toyota’s traditional hybrid technology. It debuted in the 2022 Toyota Tundra i-Force MAX and is now found in the 2023 Sequoia.

Overall

  • This is a mild hybrid system, designed to assist the engine for better performance and efficiency, rather than offering extensive electric-only driving like a full hybrid.
  • The focus is on maintaining power for towing and hauling capabilities.
  • The trade-off is higher cost and less improvement in fuel economy compared to a non-hybrid Tundra.
Toyota 1MHV system
2022 Toyota Tundra i-Force MAX

Toyota 1MHV System

The Toyota Tundra hybrid system works differently from other Toyota hybrids. Here’s a breakdown of its operation

Starting and Initial Driving

  1. Similar to other hybrids, the main relays and battery energize first.
  2. The system checks the high voltage cables and turns on the inverter.
  3. Unlike other hybrids, the Tundra hybrid primarily uses the engine during regular driving. The electric motor assists only during initial takeoff and high-load situations.

Electric Motor Engagement

The electric motor engages in two situations:

  • Initial takeoff: Assists for better acceleration.
  • High-load conditions: Provides additional power when needed, such as when towing.

Regenerative Braking

  • During deceleration, the system uses the electric motor to charge the battery.
  • Limited regenerative braking: Compared to other hybrids with two motors, the Tundra’s single motor offers less regenerative braking capability.

Start-Stop Technology

  • The system can shut off the engine at traffic lights to save fuel.
  • Unique feature: The Tundra uses a regular starter motor (unlike other hybrids) due to the limitations of the electric motor for starting the engine in certain situations.

Starter Motor’s Additional Functions

  • Cold weather starts: Below 5°F, the starter motor is used to crank the engine for a smoother start, protecting the engine oil.
  • Vapor lock prevention: When the engine is hot and the fuel door is opened and closed, the starter motor cranks the engine to potentially prevent vapor lock in the fuel system.

1MHV vs. 2MHV vs. PHEV

Here’s a comparison of 1MHV with other hybrid and electric vehicle technologies:

  • 1MHV: This system prioritizes power and performance with a single electric motor for a more direct connection to the wheels. It offers limited pure electric driving capability.
  • 2MHV (Two Motor Hybrid Vehicle): This setup uses two electric motors, one for propulsion and one for generating electricity. It allows for more electric-only driving at lower speeds and potentially greater fuel efficiency in some situations. However, it might be more complex than 1MHV.
  • PHEV (Plug-in Hybrid Electric Vehicle): A PHEV has a larger battery pack that can be charged externally, allowing for extended electric-only range. It offers the best fuel economy of these three options when driven frequently in electric mode, but it requires access to charging infrastructure.

Choosing the Right System

The ideal choice depends on your driving needs and priorities:

  • For power, towing capability, and a simpler design, 1MHV might be a good fit.
  • If fuel efficiency is a top concern and you have access to charging, a 2MHV or PHEV could be better options.
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