188,2 |
22,3 |
4 |
0,34 |
5,2 - 5,3 |
118 - 119 |
4 CYLINDER, IN LINE |
DOHC 16-valve with VVT-i |
Fuel injection |
1987 |
80,5 x 97,62 |
14.0:1 |
180 |
190/4400-5200 |
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Novo Motor 2.0: M20A-FXS 4 cil, 16 V
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Novo Motor 2.0: M20A-FXS 4 cil, 16 V
Toyota City, Japan, February 26, 2018¯Toyota Motor Corporation (Toyota) announces that it has developed a new continuously variable transmission (CVT), 6-spe...Tags: Nenhuma
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Toyota's new Dynamic Force Engine adopts high-speed combustion technologies and a variable control system. It also achieves greater thermal efficiency, resulting in high output, due to a reduction in energy loss associated with exhaust and cooling systems, the movement of mechanical parts, and other aspects. As a result, the newly developed 2.0-liter gasoline vehicle and hybrid vehicle engines achieve world-leading thermal efficiencies of 40 percent and 41 percent respectively*. In addition, compared to existing engines, the new engines achieve increased torque at all engine speeds\from low to high rotations\and will comply with expected future exhaust regulations in each country in advance.
*As of February 2018 (Toyota Motor Corporation)
Feb. 26, 2018
2.0-liter Dynamic Force Engine, a New 2.0-liter Direct-injection, Inline 4-cylinder Gasoline Engine
Feature Innovation Developing Ever Better Cars Personal Development TNGA
Toyota's new Dynamic Force Engine adopts high-speed combustion technologies and a variable control system. It also achieves greater thermal efficiency, resulting in high output, due to a reduction in energy loss associated with exhaust and cooling systems, the movement of mechanical parts, and other aspects. As a result, the newly developed 2.0-liter gasoline vehicle and hybrid vehicle engines achieve world-leading thermal efficiencies of 40 percent and 41 percent respectively*. In addition, compared to existing engines, the new engines achieve increased torque at all engine speeds\from low to high rotations\and will comply with expected future exhaust regulations in each country in advance.
*As of February 2018 (Toyota Motor Corporation)
Maximum thermal efficiency
40% (Conventional Engine)
41% (HV Engine)
Key technologies / performance
- High speed combustion technology
- Long stroke (Stroke/Boreà1.2)
- Widen the angle between the intake and exhaust valve
- High efficiency intake port (Laser cladded valve seat)
- High Compression Ratio (Conv. 13, HV 14)
- High energy ignition coil
- New D-4S
- Multi-hole direct injector
- Variable cooling system
- Motor driven water pump
- Heated Thermostat
- Continuous variable-capacity oil pump
- Low viscosity engine oil
- Water jacket spacer
- Piston with Laser Pit Skirt
- Drilled passage between cylinder bores
- VVT-iE
- Small-concave-profile camshaft
- Compact HLA
- High strength connecting rod
- High response intake air control
- Fuel injection control (Multi-injection)
- Cylinder heads with built-in EGR cooler function
- New catalyst
- Exhaust manifold layout change
- Piston oil jet control
Engine specifications
1,986 1,986 ƒ³80.5 x 97.6 ƒ³80.5 x 97.6 13 14 D-4S D-4S 126/6,600 107/6,000 205/4,800 180/4,400 ULEV50 ULEV50
Details of new technologies
Piston with Laser Pit SkirtWorld's first
By subjecting the skirt sliding surface to mirror finishing, reduced friction is realized. On the skirt surface, narrow crosshatch grooves created by lasers improve scuff resistance.
Performance
Cylinder head (for conventional engine vehicles and HVs)
Adopting a laser clad valve seat for the intake valve seat to make the intake port compatible with strong tumble flow (fuel consumption performance) and intake flow rate (output performance).
Low fuel consumption
Common architecture of combustion
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Grande sitescom carradas de informação sobre este e outros motores https://toyota-club.net/files/faq/18...g.htm#M20A-FKS
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