How to Choose Between the Third-Generation H6 and the 2021 F7?

Instructions for using a car charger: Prepare the car charger, with the bottom of the car charger being the positive pole and the contacts on both sides being the negative poles. Insert the bottom of the car charger directly into the cigarette lighter and secure it. When inserted correctly, the LED indicator on the cigarette lighter will light up, and you can then connect a USB charging cable to charge your phone as usual. Note: For safety, remove the car charger promptly after charging. Principle of the car charger: It converts the 12-volt voltage from the car's cigarette lighter socket into a 5-volt USB voltage and charges electronic devices via the charging cable. Precautions for using a car charger: 1. Avoid throwing, dropping, hitting, or vibrating the charger during use. Especially in summer when the car is exposed to the sun and the interior temperature exceeds 45 degrees Celsius, temporarily stop using the charger, as this can severely damage the internal circuit board of the car charger. 2. A car charger is an electronic device. Owners should avoid leaving it in a humid environment for extended periods to prevent corrosion or oxidation of its internal electronic components. When charging an electric vehicle, try to do so outdoors with good ventilation and heat dissipation conditions to avoid overheating the charger. If water is accidentally spilled on the charger while driving, remove and dry it immediately. 3. After turning off the vehicle, remove the car charger and store it. If left plugged into the power interface for a long time, the contact parts may corrode and become difficult to clean. Also, continuing to use the cigarette lighter for charging after the car is turned off may drain the battery. Although 80% of cars cut off power to the cigarette lighter after removing the key, the cigarette lighter will draw power directly from the battery after the engine stops supplying power. If the car charger's power consumption exceeds the battery's capacity, the battery can easily be depleted.

BMW's maintenance interval is 5,000KM for the first service, followed by a service every 10,000KM. Details of the mileage that can still be driven after the maintenance period are as follows: 1. Primary maintenance: Approximately 5,000 kilometers, focusing on tightening and lubricating components for vehicles that have traveled a certain distance. Includes inspecting and tightening bolts and nuts on the exterior of the vehicle; lubricating specified parts; checking and topping up oil levels in various assemblies; cleaning air filters, etc. The goal is to maintain the vehicle's optimal technical condition and ensure smooth operation. 2. Secondary maintenance: Approximately 10,000 kilometers, focusing on inspection and adjustment for vehicles that have traveled a certain distance. In addition to primary maintenance tasks, it involves checking and adjusting the engine and electrical equipment, dismantling and cleaning the oil pan and oil filter, inspecting and adjusting steering and braking mechanisms, and dismantling and cleaning front and rear wheel hub bearings. Lubricant is added, tires are dismantled and inspected, and rotation is performed. The aim is to ensure all components, mechanisms, and assemblies maintain good working performance and operate normally between two secondary maintenance periods. 3. Tertiary maintenance: Approximately 20,000 kilometers, focusing on disassembly, cleaning, inspection, adjustment, and hazard elimination for vehicle assemblies. In addition to primary and secondary maintenance tasks, it involves dismantling and inspecting the engine to remove carbon deposits, gum, and cooling system contaminants; dismantling, cleaning, inspecting, and adjusting the chassis assembly to eliminate hazards; inspecting the frame and body for rust removal and touch-up painting. The goal is to consolidate the normal performance of all assemblies and components and ensure smooth operation.

ETC vehicles can use manual lanes when exiting the highway. When entering the highway, the ETC system records the vehicle's information. Upon exiting, the system deducts the fee based on the recorded data. If the vehicle enters a manual lane, the driver can remove the ETC card and hand it to the staff for manual scanning, which still allows the information to be read and the fee deducted, after which the barrier will lift for normal passage. ETC (Electronic Toll Collection) is a non-stop electronic toll collection system, also known as an automatic road tolling system. It is specifically designed for toll roads, commonly found on highways, toll bridges or tunnels, and certain urban sections to alleviate traffic congestion. ETC Deduction Principle: Highways have one or more ETC lanes. Communication between the onboard electronic tag installed on the vehicle's windshield and the microwave antenna in the ETC lane enables backend settlement with banks via computer networking technology. This allows vehicles to pay tolls without stopping at toll booths, operating on a "pass first, deduct later" principle. Benefits of Installing ETC: Time-saving: Eliminates the hassle of waiting in queues. Green and eco-friendly: Reduces noise and exhaust emissions by enabling non-stop passage through toll booths. Cost and wear reduction: Lowers fuel consumption and wear by reducing frequent starts and stops. Improved efficiency: ETC lanes theoretically increase vehicle throughput by 2-3 times, making traditional ETC faster and more advanced. Compared to license plate payment, ETC technology is more mature and advantageous. More policy support: The State Council's "13th Five-Year Plan for the Development of a Modern Integrated Transportation System" explicitly states goals such as achieving interoperability of transportation cards in key city clusters by 2020 and significantly increasing ETC adoption rates, targeting 50% ETC usage for road passenger vehicles by 2020. Future possibilities: Beyond improving ETC installation convenience and passenger vehicle usage, future efforts will promote ETC adoption for trucks and explore deeper integration with smart transportation initiatives like vehicle-to-vehicle communication and vehicle-infrastructure coordination, offering comprehensive travel services and expanding ETC application scenarios. ETC Usage Notes: The ETC transaction sensing range is 8 meters. To avoid mistakenly paying for the vehicle ahead (due to ETC device failure or absence), maintain a distance of over 10 meters. The ETC lane recognition speed limit is 20 km/h. Exceeding this speed may result in failed fee deductions. Unauthorized removal or movement of the OBU device, or loosening/detachment of the ETC tag, will deactivate the tag. Non-deliberate cases can be reactivated after inspection at the issuing bank or highway service center. Insufficient balance on debit cards linked to ETC may cause deduction failures. Follow staff guidance to use manual MTC lanes with cash or card payments. Thick or replaced windshields (e.g., after accidents or modifications) may impair ETC signal reception. ETC Working Principle: Via short-range communication between the vehicle's windshield-mounted electronic tag and the toll station's microwave antenna, backend banking settlement is processed through computer networking, enabling toll payment without stopping at highway or bridge toll booths. Benefits of Installing ETC: Saves time by eliminating queues. Reduces pollution via non-stop passage, lowering noise and emissions. Cuts costs by minimizing frequent starts/stops, reducing wear and fuel consumption. Boosts efficiency with 2-3 times higher lane throughput, offering more advanced technology than license plate payment.

Enter the main driver's cabin of the car, and you will see a button in front of the gear shift. There are two different buttons for the Hill Descent Assist system on the car. Press it once when going downhill, and it will light up. Press it again to turn it off.

Align the clip with the installation hole and insert it. State after the clip is fully inserted. Gently press down with your thumb until a 'click' sound is heard, indicating the clip has securely fastened the protective panel.

Generally, this happens when refueling too quickly while the fuel tank temperature is high, causing gasoline vapor to rush out suddenly and trigger the fuel gun to stop. If the fuel gauge needle never reaches full after every refueling, it might be necessary to check the fuel tank float and consider replacing the fuel pump.