Hertz Dieci DCX 130.3 5.25" 13cm 2-Way 80W Car Door Shelf Coaxial Speaker
To meet all installation needs, without giving up on Hertz quality and performance, the Hertz Dieci DCX 130.3 coaxes were designed with maniacal care to provide a linear frequency response and ensure high reliability.
A Neodymium magnet, PEI dome tweeter, built-in crossover, TPU (Thermoplastic polyurethane) surround and a pressed-paper cone provide the optimum ratio between installation friendliness and sound with dynamic and emotional impact.
Features
- Large motor assembly for mobile voice coil control.
- Pure copper voice coil, wound on conex former, for maximum lightness.
- Water-repellent treated paper cone.
- TPU surround, for wide excursion and resonance damping.
- Neodymium tweeter with PEI dome, for compactness and energy at high frequencies.
- DIN size basket protected by abrasion-proof dust paint.
- Tin-plated, high current terminals.
- Silver-plated lead wires for maximum reliability and conductivity.
- Butyl rubber protective cover, against crashes and abrasions.
- Epoxy glue for basket and motor system provides perfect coupling.
- Low carbon content plates for maximum magnetic permeability and high heat dissipation
Specification
- Two way coaxial
- Woofer size mm (in.): 130 (5.0)
- Tweeter size mm (in.): 15 (0.6)
- Power handling W peak: 80 / W continuous: 40
- Impedance: 4ohms
- Frequency response Hz: 65 ÷ 21k
- Sensitivity dB SPL: 93
- Magnet size D·d·h mm (in.): 70 x 32 x 15 (2.7 x 1.3 x 0.6)
- Voice coil Ø mm (in.): 25 (1.0)
- Woofer magnet: High density flux ferrite
- Tweeter magnet: Neodymium
- Woofer cone: Water-repellent pressed paper
- Tweeter dome: PEI
- Weight kg (lb.): 0,56 (1.23)
FREE DELIVERY ON THIS ITEM TO ALL UK MAINLAND ADDRESSES.
Please note: Unless otherwise indicated, delivery to the Non-UK mainland postcodes will incur an additional surcharge of +£10. This includes the following areas: Jersey, Guernsey, Isle of Man, Isle of Wight, N. Ireland, Shetlands. Please add £10 to your PayPal payment to avoid shipping delays.