Add to ORKGGiven the electromechanical parameters of a loudspeaker, this virtual lab plots peak displacement, velocity and acceleration curves of the cone. In this virtual lab the cone is assumed to move as a rigid body.http://laboratoriosvirtuales.upv.es/eslabon/LV_speaker_mechanical_responseCastells Ramón, FS. (2020). Mechanical response of dynamic loudspeakers. http://hdl.handle.net/10251/13400
This virtual lab represents the curve of a closed-box design from the electromechanical parameters o...
The sound pressure level (SPL) of the moving-coil loudspeaker (MCL) is often simulated and analyzed ...
At low frequencles, the electrodynamic loudspeaker is usually described using an equivalent electric...
Given the electromechanical parameters of a speaker, this virtual lab represents the sound pressure ...
Given the electromechanical parameters of a speaker, this virtual lab plots the electrical impedance...
The nonlinear stiffness K(x) of suspension parts (spider, surrounds, cones) and passive radiators (...
To focus on the vibration mode of a cone loudspeaker, which acts as an electroacoustic transducer, e...
In the diploma thesis I describe the loudspeaker cone as a dumped forced oscilator and present an ex...
Program year: 1977/1978Digitized from print original stored in HDRThis paper compares two methods of...
The mechanical vibration of loudspeaker drive units is described by a set of linear transfer functio...
This paper presents an experimental and numerical study of vibrations of loudspeakers. The experimen...
Loudspeaker cone resonance (“cone break-up”) is a fundamental cause of ripple in the electrical impe...
The compliance of the loudspeaker suspension is known to depend on the recent excitation level histo...
Before the 20th century, there were no loudspeakers to produce sound, only pick-ups, needles and fla...
This virtual lab represents the curves of a Bass-Reflex design from the electromechanical parameters...
This virtual lab represents the curve of a closed-box design from the electromechanical parameters o...
The sound pressure level (SPL) of the moving-coil loudspeaker (MCL) is often simulated and analyzed ...
At low frequencles, the electrodynamic loudspeaker is usually described using an equivalent electric...
Given the electromechanical parameters of a speaker, this virtual lab represents the sound pressure ...
Given the electromechanical parameters of a speaker, this virtual lab plots the electrical impedance...
The nonlinear stiffness K(x) of suspension parts (spider, surrounds, cones) and passive radiators (...
To focus on the vibration mode of a cone loudspeaker, which acts as an electroacoustic transducer, e...
In the diploma thesis I describe the loudspeaker cone as a dumped forced oscilator and present an ex...
Program year: 1977/1978Digitized from print original stored in HDRThis paper compares two methods of...
The mechanical vibration of loudspeaker drive units is described by a set of linear transfer functio...
This paper presents an experimental and numerical study of vibrations of loudspeakers. The experimen...
Loudspeaker cone resonance (“cone break-up”) is a fundamental cause of ripple in the electrical impe...
The compliance of the loudspeaker suspension is known to depend on the recent excitation level histo...
Before the 20th century, there were no loudspeakers to produce sound, only pick-ups, needles and fla...
This virtual lab represents the curves of a Bass-Reflex design from the electromechanical parameters...
This virtual lab represents the curve of a closed-box design from the electromechanical parameters o...
The sound pressure level (SPL) of the moving-coil loudspeaker (MCL) is often simulated and analyzed ...
At low frequencles, the electrodynamic loudspeaker is usually described using an equivalent electric...