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ML 280.3 LEGEND 35 (1.38) mm (in.) | Tweeter | 180 W | 4 Ohm

To improve the car audio tweeters which was considered a reference since its first introduction into the market is a quite challenging task which could only be performed by a continued evolution in time and maximum care for each detail that might affect sound.
From these presuppositions the Hertz ML 280.3 Legend car audio speakers has been born. Through the FEA simulations, the electro-acoustic designers carried out an extensive research which led to the optimization of the Tetolon dome geometry, to minimize distortion.
This optimization method led to a reviewed face plate geometry for improved frequency response and lower distortion.
Another element of the tweeter especially important for sound is the rear acoustic chamber: the designers performed an exhaustive research on the geometry as well as on the employed damping material, achieving 50% increase in overall volume, to extend response to lower frequencies with 900Hz resonance frequency.
Component Tweeter
Size mm (in.) 35 (1.38)
Power Handling - Peak W 180
Power Handling - Peak Note (Hi-Pass filtered @ 1,8kHz - 12dB Oct.)
Impedance Ohm 4
Voice Coil Ø 28 (1.1)
Frequency Response Hz 1k - 28k
Magnet size D x d x h mm (in.) 27,8 x 3,5 x 3 (1.1 x 0.14 x 0.12)
Weight of one speaker kg (lb.) 0,10 (0.22)
Magnet Neodymium
Dome Tetolon
Technical Specs
D mm 28
Re Ohm 3,3
Fs Hz 900
Le mH 0,013
Mms g 0,4
Cms mm/N 0,09
BL T*m 1,9
Qts 1,3
Qes 1,9
Qms 4
Spl dB 92
Electro-acoustic Specs
Physical Specs
A 53,4 mm 2.1 in.
B 48 mm 1.89 in.
C 29 mm 1.14 in
D 13,5 mm 0.53 in.
Frequency response

1. Neodymium magnet optimized with FEA simulations of the magnetic flux for utmost control and fast response to the transients.
2. Extremely pure copper short circuit ring, for excellent very high frequency extension.
3. Die-cast aluminium face plate with profile optimized with FEA simulations to improve frequency response and dispersion.
4. Tetolon Fiber dome optimized with FEA simulations for lower distortion and improved dispersion in high frequency range.
5. Frame structure and rear load chamber both derived from a CNC machined solid aluminium block, to ensure mechanically inert response to resonances.
6. Rear chamber sized for only 900 Hz Fs: low Fs ensures wide extension in low frequency range and low distortion also in the crossing section, allowing a decreased cut-off frequency.
7. High-density damping material underneath the dome, low-density absorbing material in the rear chamber, providing fluid acoustic emission and high damping in the low frequency response.