What is the function of a car steering system?

The urban fuel consumption of the Lexus NX200 is 5.8-8.4L/100km. Below is relevant information about fuel consumption: 1. Vehicle fuel consumption is calculated based on the fuel consumed per 100 kilometers (commonly referred to as 100 km). The method to calculate actual fuel consumption is: Average fuel consumption = (Total fuel refilled - Last refill amount) / Distance traveled. Simply put, fill up the fuel tank, note the mileage (the vehicle can also record it automatically), drive until half the fuel is consumed, then refill the tank. Before refueling, check the mileage to see how many kilometers were driven, then divide the distance traveled by the amount of fuel refilled. 2. There is also a more intelligent method: Press the corresponding button on the dashboard or steering wheel to freely switch and display the desired data. For example, AVG shows average fuel consumption (displaying the vehicle's fuel consumption information over a certain period); A is the total mileage; B is the single-trip mileage.

Excessive noise. Below are specific details about the Haval H6: 1. Exterior: As an urban SUV, the Haval H6 breaks away from the rugged off-road style of its predecessors with a new design that appeals more to mainstream consumers. The overall design is bold and stable, yet incorporates fashionable elements. The straight roofline ensures ample headroom inside the vehicle. 2. Dimensions: The Haval H6 measures 4640/1825/1690 (mm) in length, width, and height, with a wheelbase of 2680mm. Compared to the 2700mm wheelbase of the Haval H3 and H5, it is 20mm shorter, making it more compact. However, its dimensions are slightly larger than those of other compact SUVs on the market. 3. Interior: The Haval H6 features a conventional design with a two-tone color scheme—dark upper and light lower sections—accented by silver trim that enhances the sense of quality. The overall visual effect aligns with most people's aesthetic preferences.

The battery of a Volkswagen Jetta should be replaced every four years. Replacement is necessary when the battery's internal resistance and voltage fail to meet the specified values. When the engine is not running, the battery supplies power to all electrical devices in the car and is responsible for starting the engine. After the engine starts, it powers all electrical devices in the car and also charges the battery. As the number of charge and discharge cycles increases, the battery's storage capacity decreases, hence the need for regular replacement. The Volkswagen Jetta is an automobile brand under FAW-Volkswagen Automotive Co., Ltd., equipped with two engines: a 1.4-liter naturally aspirated engine and a 1.5-liter naturally aspirated engine. The 1.4-liter naturally aspirated engine has a maximum power of 90 horsepower and a maximum torque of 132 Nm, with the maximum power achieved at 5,500 rpm and the maximum torque at 3,800 rpm. The 1.5-liter naturally aspirated engine has a maximum power of 110 horsepower and a maximum torque of 150 Nm, with the maximum power achieved at 6,000 rpm and the maximum torque at 3,800 rpm.

Autonomous driving itself is a technology, which is divided into several levels, each with different principles and technologies employed. Autonomous driving requires four steps to complete: information collection, analysis and recognition, action decision-making, and device control. Below is a detailed description: 1. Autonomous Driving System: The system utilizes advanced communication, computer, network, and control technologies to achieve real-time and continuous control of trains. Using modern communication methods, it directly interfaces with the train, enabling bidirectional data communication between the train and the ground. This ensures fast transmission rates and large data volumes, allowing subsequent tracking trains and control centers to promptly obtain the exact position of the leading train. This makes operation management more flexible, control more effective, and better suited to the needs of train autonomous driving. 2. Main Functions of the Autonomous Driving System: The primary functions include bidirectional information transmission between the ground and the train, as well as comprehensive operation organization and emergency handling. The ground-train information transmission channel is a crucial component of the automatic train operation control system. The onboard equipment of the automatic control system relies entirely on operational control commands received from the ground control center. It continuously monitors the train's actual speed and the ground's permitted speed instructions. If the train speed exceeds the ground speed limit, the onboard equipment will implement braking to ensure the train's operational safety.

The safety features of the Volkswagen Lavida include: driver and front passenger airbags, front side airbags, front and rear head airbags, tire pressure monitoring, seat belt reminder, ABS anti-lock braking system, brake force distribution, brake assist, traction control, electronic stability program, and autonomous emergency braking. The dimensions of the Lavida are 4670mm in length, 1806mm in width, and 1474mm in height, with a wheelbase of 2688mm. The Volkswagen Lavida is equipped with three engine options: a 1.2T, a 1.4T, and a 1.5L. The 1.2T engine delivers a maximum power output of 85 kW and a maximum torque of 200 Nm; the 1.4T engine delivers a maximum power output of 110 kW and a maximum torque of 250 Nm; the 1.5L engine delivers a maximum power output of 83 kW and a maximum torque of 145 Nm. It is paired with a 5-speed manual transmission, a 6-speed automatic transmission, or a 7-speed dual-clutch transmission. The front suspension of the Lavida uses a MacPherson strut setup, while the rear suspension uses a torsion beam non-independent suspension, and it features a front-engine, front-wheel-drive layout.

Cadillac's comprehensive fuel consumption (L/100km) is 7.8-8.2L/100km. Below are some common fuel-saving techniques: 1. Control RPM: Engine RPM affects the car's fuel consumption. Generally, the optimal RPM range for most cars is around 2200-2500. Maintaining a stable RPM helps avoid unnecessary fuel consumption. 2. Control Speed: Every vehicle has an economical speed range. Typically, small-displacement cars achieve lower fuel consumption at speeds between 60-80 km/h, while medium-displacement cars are more fuel-efficient at 80-100 km/h. 3. Gentle Acceleration: Vehicle acceleration is a high fuel-consumption phase. When starting, gently press the accelerator to achieve smooth acceleration. Once the car reaches a certain speed, resume normal driving. This reduces engine warm-up time and improves fuel efficiency. Aggressive acceleration not only damages the engine but also increases fuel consumption. 4. Reduce Braking: Frequent emergency braking during driving increases fuel consumption. When approaching intersections or going downhill, lift the throttle in advance to avoid unnecessary braking and subsequent fuel consumption spikes.