Innovation et gestion de programmes synchronisée et collaborative pour les nouveaux programmes
Whether you’re driving an electric-powered, hybrid-powered, or diesel-powered vehicle, they all have a powertrain. The engineering landscape for powertrain NVH engineers has changed significantly. Fuel efficiency measures to reduce emissions inevitably impact the vehicle’s NVH and acoustic behavior. Weight reduction and downsized turbocharged engines might cause low-frequency driveline NVH issues when integrating the driveline into the vehicle, while novel energy management systems can cause transient NVH phenomena. These new complex NVH issues need to be addressed on top of the typical engine-related NVH topics, such as; engine radiation, gearbox rattle, whine, judder, clunk, fuel slosh, intake and exhaust noise, and auxiliary noises.
Built on decades of experience and NVH expertise, our integrated simulation, and test solutions help manufacturers save time and cost to diagnose, analyze and resolve driveline NVH and drivability issues while balancing fuel efficiency, drivability, NVH, and ride comfort.
Explore this on-demand webinar series and discover how Simcenter solutions help you to design and optimize the NVH and acoustics of powertrains, drivetrains, and transmissions correctly from the start and prevent costly redesign later in the vehicle development cycle.
Accelerate the development of green drivelines through advanced powertrain testing.
Predict and reduce gear whine noise 5 times faster and boost vibro-acoustic performance
Assess NVH performance at the concept stage and close the gap between electric currents and noise radiation.
Go beyond traditional TPA applications using time-domain, strain-based, component-based, blocked forces, and model-based TPA.
Acquire more data in less time and be confident in the quality.
Avoid late-stage NVH issues by frontloading the integration using a model-based development (MBD) approach.
Whether you’re driving an electric-powered, hybrid-powered, or diesel-powered vehicle, they all have a powertrain. The engineering landscape for powertrain NVH engineers has changed significantly. Fuel efficiency measures to reduce emissions inevitably impact the vehicle’s NVH and acoustic behavior. Weight reduction and downsized turbocharged engines might cause low-frequency driveline NVH issues when integrating the driveline into the vehicle, while novel energy management systems can cause transient NVH phenomena. These new complex NVH issues need to be addressed on top of the typical engine-related NVH topics, such as; engine radiation, gearbox rattle, whine, judder, clunk, fuel slosh, intake and exhaust noise, and auxiliary noises.
Built on decades of experience and NVH expertise, our integrated simulation, and test solutions help manufacturers save time and cost to diagnose, analyze and resolve driveline NVH and drivability issues while balancing fuel efficiency, drivability, NVH, and ride comfort.
Explore this on-demand webinar series and discover how Simcenter solutions help you to design and optimize the NVH and acoustics of powertrains, drivetrains, and transmissions correctly from the start and prevent costly redesign later in the vehicle development cycle.
Accelerate the development of green drivelines through advanced powertrain testing.
Predict and reduce gear whine noise 5 times faster and boost vibro-acoustic performance
Assess NVH performance at the concept stage and close the gap between electric currents and noise radiation.
Go beyond traditional TPA applications using time-domain, strain-based, component-based, blocked forces, and model-based TPA.
Acquire more data in less time and be confident in the quality.
Avoid late-stage NVH issues by frontloading the integration using a model-based development (MBD) approach.