Technical Specifications
| Brand | Toyota |
| Model | Crown |
| Generation | Crown XIII (S200) |
| Type (Engine) | 3.5 V6 24V (296+200 Hp) Hybrid e-CVT |
| Start of production | 2008 |
| End of production | 2010 |
| Powertrain Architecture | FHEV (Full Hybrid Electric Vehicle) |
| Body type | Sedan |
| Seats | 5 |
| Doors | 4 |
| Fuel Type | Petrol (Gasoline) |
| Weight-to-power ratio | 6.2 kg/Hp, 160.9 Hp/tonne |
| Weight-to-torque ratio | 5 kg/Nm, 200 Nm/tonne |
| Battery technology | Nickel-metal hydride (NiMH) |
| Electric motor power | 200 Hp |
| Electric motor Torque | 275 Nm (202.83 lb.-ft.) |
| Electric motor model/code | 1KM |
| Electric motor location | Integrated into the transmission |
| Electric motor type | Synchronous |
| Power | 296 Hp @ 6400 rpm |
| Power per litre | 85.6 Hp/l |
| Torque | 368 Nm @ 4800 rpm (271.42 lb.-ft. @ 4800 rpm) |
| Engine layout | Front, Longitudinal |
| Engine Model/Code | 2GR-FSE |
| Engine displacement | 3456 cm3 (210.9 cu. in.) |
| Number of cylinders | 6 |
| Engine configuration | V-engine |
| Cylinder Bore | 94 mm (3.7 in.) |
| Piston Stroke | 83 mm (3.27 in.) |
| Compression ratio | 11.8:1 |
| Number of valves per cylinder | 4 |
| Fuel injection system | Direct injection and Multi-port manifold injection |
| Engine aspiration | Naturally aspirated engine |
| Valvetrain | DOHC |
| Engine oil capacity | 6.3 l (6.66 US qt | 5.54 UK qt) |
| Coolant | 9.2 l (9.72 US qt | 8.09 UK qt) |
| Kerb Weight | 1840 kg (4056.51 lbs.) |
| Max. weight | 2115 kg (4662.78 lbs.) |
| Max load | 275 kg (606.27 lbs.) |
| Fuel tank capacity | 65 l (17.17 US gal | 14.3 UK gal) |
| Length | 4870 mm (191.73 in.) |
| Width | 1795 mm (70.67 in.) |
| Height | 1470 mm (57.87 in.) |
| Wheelbase | 2850 mm (112.2 in.) |
| Front track | 1535 mm (60.43 in.) |
| Rear (Back) track | 1535 mm (60.43 in.) |
| Ride height (ground clearance) | 155 mm (6.1 in.) |
| Minimum turning circle (turning diameter) | 10.4 m (34.12 ft.) |
| Drivetrain Architecture | Rear wheel drive. FHEV (Full Hybrid Electric Vehicle). The Internal combustion engine (ICE) and electric motor drive the rear wheels of the car with the ability to work in full electric or mixed mode. |
| Number of gears and type of gearbox | automatic transmission e-CVT |
| Front suspension | Double wishbone |
| Rear suspension | Independent multi-link suspension |
| Front brakes | Ventilated discs |
| Rear brakes | Ventilated discs |
| Assisting systems | ABS (Anti-lock braking system) |
| Steering type | Steering rack and pinion |
| Power steering | Electric Steering |
| Tires size | 225/45 R18 |
| Wheel rims size | 18 |
The Toyota Crown XIII (S200) 3.5 V6 Hybrid, launched in 2008, was a significant model in Toyota’s continued development of hybrid technology. Building upon the long-established Crown tradition of luxury and refinement, the S200 series incorporated Toyota’s Hybrid Synergy Drive, offering a compelling blend of performance and fuel economy. This generation of the Crown was built on the 1HX0 platform, and the 3.5 V6 Hybrid variant represented a top-tier offering, positioned above the more conventional gasoline-powered models. It was primarily aimed at the Japanese domestic market, with limited exports to select regions where luxury sedans with advanced technology were in demand.
Powertrain & Engine Architecture
At the heart of the S200 3.5 V6 Hybrid is the 2GR-FSE engine, a 3.5-liter naturally aspirated V6. This engine utilizes Toyota’s D-4S direct-injection system, combined with multi-port fuel injection, to optimize combustion efficiency and power output. The engine produces 296 horsepower at 6400 rpm and 368 Nm (271.42 lb-ft) of torque at 4800 rpm. The engine is paired with a 650-volt nickel-metal hydride (NiMH) battery pack and a powerful electric motor (1KM model) generating 200 horsepower and 275 Nm (202.83 lb-ft) of torque. The electric motor is integrated directly into the e-CVT (electronically controlled continuously variable transmission). This configuration allows for seamless transitions between gasoline engine power, electric motor power, or a combination of both. The e-CVT, unlike traditional CVTs, doesn’t rely on a belt or chain; instead, it uses a planetary gearset to continuously vary the gear ratio, resulting in smooth and efficient power delivery. The engine features a double overhead camshaft (DOHC) valvetrain and a compression ratio of 11.8:1.
Driving Characteristics
The driving experience in the Crown XIII 3.5 V6 Hybrid is characterized by its smoothness and quietness. The e-CVT contributes to a seamless acceleration feel, with no discernible gear changes. The combined output of the V6 engine and electric motor provides ample power for both city driving and highway cruising. While not overtly sporty, the hybrid system delivers responsive acceleration, particularly when utilizing the combined power of both the engine and motor. Compared to the standard gasoline-powered Crown models, the hybrid variant offers a more refined and relaxed driving experience. The e-CVT prioritizes efficiency over outright performance, meaning that while acceleration is brisk, it doesn’t have the same immediate punch as a traditional automatic transmission. The rear-wheel-drive configuration provides a balanced feel, although it doesn’t offer the dynamic handling characteristics of some European luxury sedans.
Equipment & Trim Levels
The Crown XIII 3.5 V6 Hybrid was typically equipped with a high level of standard features. Interior appointments included leather upholstery, woodgrain trim, and a premium audio system. Standard equipment often included automatic climate control, power-adjustable seats, a navigation system, and a suite of safety features such as ABS, traction control, and multiple airbags. Optional extras could include features like a rear-seat entertainment system, advanced parking assist, and upgraded audio options. The interior design emphasized comfort and luxury, with a focus on creating a refined and spacious cabin environment. Trim levels varied depending on the market, but generally, the hybrid variant was positioned as a top-of-the-line offering.
Chassis & Braking
The Crown XIII utilized a double wishbone suspension setup at the front and an independent multi-link suspension at the rear, providing a comfortable and controlled ride. Ventilated disc brakes were used on all four wheels, providing ample stopping power. The steering system employed an electric power steering rack and pinion, offering precise and responsive steering feel. The vehicle rode on 18-inch alloy wheels with 225/45 R18 tires. The suspension was tuned to prioritize ride comfort over sporty handling, resulting in a smooth and composed ride quality even on uneven road surfaces.
Market Reception & Comparison
The Toyota Crown XIII 3.5 V6 Hybrid was generally well-received by critics for its smooth ride, quiet operation, and impressive fuel economy. Compared to other luxury sedans in its class, the Crown Hybrid offered a unique combination of features and benefits. While its styling might not have been as overtly aggressive as some European competitors, its understated elegance appealed to a more conservative clientele. The hybrid powertrain provided a significant advantage in terms of fuel efficiency, particularly in city driving. Compared to the non-hybrid Crown models, the 3.5 V6 Hybrid commanded a premium price, but the added technology and fuel savings were seen as justifying the cost for many buyers.
Legacy
The Toyota Crown XIII 3.5 V6 Hybrid represents an important step in Toyota’s development of hybrid technology. The 2GR-FSE engine and Hybrid Synergy Drive system proved to be reliable and durable, and many examples remain on the road today. While the Crown model has undergone several iterations since the S200 series, the hybrid technology pioneered in this generation continues to be refined and improved in subsequent Toyota vehicles. In the used car market, the S200 3.5 V6 Hybrid is often sought after by buyers looking for a comfortable, reliable, and fuel-efficient luxury sedan with a unique technological pedigree. Maintenance costs are generally reasonable, and the availability of parts remains good, making it a viable option for those seeking a well-engineered and sophisticated vehicle.
