VDC Shock Absorber

Auto Parts Manufacturer Front Shock Absorber OEM 289729 for Ferrari 458 Speciale Function The inductive shock absorber is equipped with an adaptive adjustment function. It can automatically adjust the damping in accordance with the frequency and amplitude of vibration. For instance, during high-frequency and small-amplitude vibrations, a relatively small damping force is supplied to guarantee the vehicle's sensitivity. In contrast, when encountering low-frequency and large

Vehicle Front Electromagnetic Shock Absorber Supplier OEM Part 317750 for Ferrari 488 Function The inductive shock absorber is equipped with an adaptive adjustment function. It can automatically adjust the damping in accordance with the frequency and amplitude of vibration. For instance, during high-frequency and small-amplitude vibrations, a relatively small damping force is supplied to guarantee the vehicle's sensitivity. In contrast, when encountering low-frequency and

Rear Electromagnetic Damper Shock Absorber 247210 for Ferrari California Function The inductive shock absorber is equipped with an adaptive adjustment function. It can automatically adjust the damping in accordance with the frequency and amplitude of vibration. For instance, during high-frequency and small-amplitude vibrations, a relatively small damping force is supplied to guarantee the vehicle's sensitivity. In contrast, when encountering low-frequency and large-amplitude

Front Electric Shock Absorber LR090615 for Land Rover Range Rover Velar Function The inductive shock absorber is equipped with an adaptive adjustment function. It can automatically adjust the damping in accordance with the frequency and amplitude of vibration. For instance, during high-frequency and small-amplitude vibrations, a relatively small damping force is supplied to guarantee the vehicle's sensitivity. In contrast, when encountering low-frequency and large-amplitude

Rear VDC Shock Absorber LR063741 LR079420 for Land Rover Range Rover Evoque Function The inductive shock absorber is equipped with an adaptive adjustment function. It can automatically adjust the damping in accordance with the frequency and amplitude of vibration. For instance, during high-frequency and small-amplitude vibrations, a relatively small damping force is supplied to guarantee the vehicle's sensitivity. In contrast, when encountering low-frequency and large

Front Electric Sensor Shock Absorbers EJ7Z18124A EJ7Z18124B for Lincoln MKC Function Absorbing vibration energy: Similar to traditional shock absorbers, the inductive shock absorber can effectively absorb and dissipate the vibration energy generated from uneven road surfaces, mechanical operation, etc. For example, during vehicle driving, it can reduce the up-and-down jolts and shakes of the vehicle caused by road bumps, enhancing the driving comfort. Adjusting damping force:

Rear Inductive Sensor Shock Absorber DE9Z18125B DE9Z18125A for Lincoln MKT MKS Function Absorbing vibration energy: Similar to traditional shock absorbers, the inductive shock absorber can effectively absorb and dissipate the vibration energy generated from uneven road surfaces, mechanical operation, etc. For example, during vehicle driving, it can reduce the up-and-down jolts and shakes of the vehicle caused by road bumps, enhancing the driving comfort. Adjusting damping

Front Inductive Sensor Shock Absorbers for Volkswagen Passat Variant 3C0413031M Part Function Inductive shock absorbers offer several key advantages: they can intelligently adjust damping force to adapt to various road or load conditions, ensuring optimal performance across different scenarios. Additionally, some models are capable of recovering induced current and converting it into electrical energy, thereby enhancing energy efficiency. Compared to traditional hydraulic

Inductvie Shocks LR023580 LR023573 Dampers for Land Rover Range Rover L322 Function Inductive shock absorbers offer several key advantages: they can intelligently adjust damping force to adapt to various road or load conditions, ensuring optimal performance across different scenarios. Additionally, some models are capable of recovering induced current and converting it into electrical energy, thereby enhancing energy efficiency. Compared to traditional hydraulic systems,

Rear Left Right Electromagnetic Induction Shocks for 48530-0N001 Toyota Mark X Crown Function Inductive shock absorbers offer several key advantages: they can intelligently adjust damping force to adapt to various road or load conditions, ensuring optimal performance across different scenarios. Additionally, some models are capable of recovering induced current and converting it into electrical energy, thereby enhancing energy efficiency. Compared to traditional hydraulic

Jaguar XJ Front Magnetic Induction Shock Absorber C2D18593 Dampers Function Inductive shock absorbers offer several key advantages: they can intelligently adjust damping force to adapt to various road or load conditions, ensuring optimal performance across different scenarios. Additionally, some models are capable of recovering induced current and converting it into electrical energy, thereby enhancing energy efficiency. Compared to traditional hydraulic systems, inductive

Rear Shock Absorber for Jaguar XF250 C2Z11486 Car Electromagnetic Suspension Damper Function Inductive shock absorbers offer several key advantages: they can intelligently adjust damping force to adapt to various road or load conditions, ensuring optimal performance across different scenarios. Additionally, some models are capable of recovering induced current and converting it into electrical energy, thereby enhancing energy efficiency. Compared to traditional hydraulic

Front Inductor Shock Absorber C2D19108 C2D19642 for Jaguar XJ Magnetic Damper Function Inductive shock absorbers offer several key advantages: they can intelligently adjust damping force to adapt to various road or load conditions, ensuring optimal performance across different scenarios. Additionally, some models are capable of recovering induced current and converting it into electrical energy, thereby enhancing energy efficiency. Compared to traditional hydraulic systems,

Front Electric Sensor Shock Absorber 97034304510 for Porsche Panamera 970 Features The intelligent damping system significantly improves ride comfort and safety performance by optimizing vehicle dynamic performance in multiple dimensions. Its millisecond dynamic response mechanism based on spring motion characteristics and road feedback can accurately offset the road impact energy while suppressing the aftershock after the spring absorbs the shock, accelerate the linear

BMW Part Rear Inductive Damper 33508091379 33508091380 for BMW G80 Feature for Inductive Suspension Damper This intelligent damping system enhances ride comfort and safety by dynamically optimizing vehicle performance. Using spring motion sensors and road feedback, its millisecond-level response mechanism suppresses rebound oscillations and road impacts, stabilizing the vehicle while accelerating vibration dissipation. During maneuvers like cornering or braking, electromagnet

Rear Electric Shock Absorber 37126788765 37126788766 for BMW X5 E70 X6 E71 Description of Inductive Shock Absorber The intelligent damping system realizes real-time damping adjustment function through electromagnetic induction principle, accurately perceiving vehicle driving state and road condition changes, dynamically adjusting damping characteristics in turning, braking, acceleration and other scenarios, significantly improving control stability and ride comfort. The

Vehicle Inductive Damping Shock Absorber LR066970 LR066969 for Land Rover Discovery Sport Basic Structure Inductive shock absorber is mainly composed of electromagnetic coil, magnetic core, piston, damping medium and other parts. The piston is usually connected to the vehicle's suspension system and can be moved up and down in the shock absorber cylinder. The electromagnetic coil is surrounded by the magnetic core, and when a current passes through the electromagnetic coil, a

Inductance Shock Absorber LR174014 LR174013 LR153063 LR153057 for New Land Rover Range Rover L460 Electromagnetic Induction Process When the vehicle is driving on an uneven road surface, the suspension system will generate vibration, causing the piston to reciprocate in the shock absorber cylinder. The movement of the piston causes the relative position between the magnetic core and the electromagnetic coil to change, and according to the law of electromagnetic induction, the

Front Inductive Suspension Damper LR024437 LR051481 LR056266 LR057930 LR070932 LR051483 LR057931 LR024444 LR079422 LR056268 for Range Rover Evoque Damping Force Generation The induced current will generate a magnetic field in the electromagnetic coil that interacts with the original magnetic field, and this magnetic field interacts with the magnetic field of the magnetic core, which will produce a force that impedes the movement of the piston, that is, the damping force. The

Car Front Inductive Suspension Shock Absorber 971413031E 971413031D for Porsche Panamera 971 Adaptive Adjustment By controlling the size of the current in the electromagnetic coil, the magnetic field strength can be precisely adjusted, and then the viscosity of the magnetorheological fluid and the damping force of the shock absorber can be adjusted in real time. For example, when the vehicle is running at high speed or encountering large bumps, the control system will