De nieuwe Phoenix Gold GX-serie versterkers bieden zuivere wattages in een fraai vormgegeven body waarbij hoogwaardige materialen zijn gebruikt en dat hoor je in de audiophile klank terug van deze klasse D machines.
Breed bereik, uitgebreide filtrs en handige power terminal blokken voor snelle montage van de kabels en ook monteren en aankoppelen van de versterker.
Phoenix Gold GX1200.1
Klasse D monoblock versterker
500 watts RMS 4 ohms
800 watts RMS 2 ohms
1200 watts RMS 1 ohms
Frequentie bereik: 15 - 250 Hz
Lowpass filter: 50 - 250 Hz / 24 dB
Afm: 294 x 52 x 165 mm
Extra informatie:
Audiophile Grade Full Range Class D -
Precision Components and Op Amps used to increase sound quality and lower distortion
High-Level Input Capable - for Easy OEM Integration - Can accept input sources from most OEM radios(requires Stinger Xi2LINE)
Selectable Balanced / Unbalanced Inputs - Matching input typesallow for the best possible signal transfer and the lowest noise
Surface-Mount Component Technology - Precision manufacturing process provides reliability and strict quality control
Low Pass and Subsonic Crossovers - Reduces the need for external processing, optimizes system tuning while maximizing subwoofer output
Proprietary PG Quick Connects - Enables high current transfer while increasing installation ease and serviceability
Flush Mountable Bass Knob - Remote bass control for easy level adjustment paired with custom installation options for ergonomic placement
Full Radiation Heat Sink - Computer aided design heat sink was created to utilize entire chassis for head dissipation while reducing amplifier size and lowering operating temperatures
Rotatable Badge - Badge can be rotated to allow for increased custom installation mounting optionswhile retaining proper aesthetics
Single Sided Control Panel - Increased installation speed, system adjustments, and mounting options with the use of single side amplifier controls and connections
Onboard Short/Therm/Impedance Protection - Designed for system reliability and fault protection from thermal overload, short circuits, and low impedance situations
