How to Use the Type-C Port in a Car?

For free highway ETC users: Enter via ETC lane and exit via ETC lane - no charge; Enter via manual lane and exit via manual lane - no charge; Enter via manual lane and exit via ETC lane - no entry information, barrier won't lift at exit; Enter via ETC lane and exit via manual lane - passable without charge. ETC usage precautions: The ETC transaction sensing range is 8 meters. When following another vehicle, maintain at least 10 meters distance to prevent accidental payment for the vehicle ahead in case its ETC device malfunctions or is absent. The ETC lane recognition speed limit is 20km/h. Excessive speed will prevent vehicle device information from being read, resulting in failed payment. Unauthorized OBU device movement, detached or loose ETC electronic tags will cause deactivation. These can be inspected at the bank where the ETC card was issued or at highway service centers. Non-deliberate detachment only requires reactivation.

Here are the methods to determine if a car has cylinder scoring: 1. When cylinder scoring occurs, the car will experience jerking and the engine will produce significant abnormal noises, with reduced RPM and noticeably decreased power. 2. Cylinder scoring is caused by severe surface damage due to the mutual movement of the piston and cylinder, mostly resulting from localized destruction of the lubricating oil film on the moving parts. Here are some relevant details: 1. The cooling efficiency of the engine's cooling system, the quantity and quality of engine oil, and the working performance of the supply system are all critical factors that can cause fatal damage to the engine. 2. The causes of cylinder scoring include: (1) The clearance between the piston and cylinder is too small; (2) Insufficient lubrication between the piston and cylinder or incorrect oil selection; (3) Failure of the engine cooling system; (4) Low hardness or poor quality of the cylinder itself.

Dashboard not displaying fuel level is caused by a malfunctioning fuel level sensor. Below are specific details about the car fuel tank: Marked capacity is the safe volume: Most fuel tanks are marked with a safe capacity, which is generally about 10% less than the actual capacity. During design, considering the thermal expansion and contraction characteristics of fuel, to ensure driving safety, a certain space must be left in the tank after filling to the rated volume to prevent excessive internal pressure. Overfilling can damage the carbon canister, while underfilling leaves too much empty space, causing fuel to evaporate and be lost as vapor. Fuel gauge cannot accurately reflect remaining fuel: It is not possible to accurately determine the remaining fuel solely based on the dashboard fuel gauge, as it provides only a qualitative indication rather than a quantitative measurement. The relationship between fuel refill amount and mileage cannot be used to judge either, because road conditions, speed, traffic congestion, air conditioning usage, vehicle load, fuel leakage, and fuel quality all directly affect fuel consumption.

Mercedes GLK is a four-wheel drive vehicle. Four-wheel drive refers to a vehicle that maintains four-wheel drive throughout the entire driving process, with the engine's output torque distributed to the front and rear wheels in a fixed ratio. This driving mode ensures excellent off-road and handling performance at all times. Below is relevant information about the Mercedes GLK: 1. The Mercedes GLK is a mid-size SUV under the Mercedes brand, with dimensions of 4556mm in length, 1840mm in width, and 1689mm in height, and a wheelbase of 2755mm. 2. The Mercedes GLK is equipped with two types of engines: a 2.0-liter turbocharged engine and a 3.0-liter naturally aspirated engine. 3. The 2.0-liter turbocharged engine has a maximum power output of 155kW and a maximum torque of 350Nm, paired with a 7-speed automatic transmission. 4. The 3.0-liter naturally aspirated engine has a maximum power output of 180kW and a maximum torque of 300Nm, also paired with a 7-speed automatic transmission.

Cars are classified into A00 (mini cars), A0 (subcompact cars), A (compact cars), B (mid-size cars), C (full-size cars), and D (luxury cars). Below are specific methods to distinguish car categories: 1. Wheelbase: Below 2350mm is a mini car; 2350mm-2500mm is a subcompact car; 2500mm-2700mm is a compact car; 2700mm-2800mm is a mid-size car; 2800mm-2900mm is a full-size car; above 2900mm is a large luxury car. 2. Length: Below 3.7M is a mini car; 3.7-4.3M is a subcompact car; 4.3-4.6M is a compact car; 4.6-4.9M is a mid-size car; 4.9-5.1M is a full-size car; above 5.1M is a luxury car.

Vehicle emission inspection standards: Carbon monoxide: A (700mg/km); B (500mg/km); Non-methane hydrocarbons: A (68mg/km); B (35mg/km); Nitrogen oxides: A (60mg/km); B (35mg/km); PM particulate matter: A (4.5mg/km); B (3mg/km). General process for vehicle emission inspection: 1. Information entry: The computer inputs information, registers vehicle details, and automatically assigns an inspection line based on vehicle characteristics. 2. Designated inspection line: Dispatchers direct staff to drive the vehicle to the assigned inspection line; supervisors cannot alter the inspection route. 3. Inspection line confirmation: The control room verifies if the vehicle has entered the correct inspection line; without confirmation, the next step cannot proceed. 4. Emission testing: Inspectors follow on-screen prompts to conduct the test correctly. Results are matched against standard values and uploaded to the server. 5. Payment: Finally, pay fees at the environmental inspection office. Non-compliant vehicles require rectification before retesting. Qualified vehicles receive an environmental certification mark.