JBL Professional
AC2215/95 is a compact 2-way fullrange loudspeaker system comprised of one 380 mm (15 in) low frequency driver and one 38 mm (1.5 in) exit/ 25 mm (1 in) voice-coil compression driver. The PT Progressive Transition waveguide provides 90° by 50° coverage. High-slope passive crossovers minimize band overlap and well-controlled off-axis response enhances arrayability. The cabinet is fitted with M10 threaded suspension points. Optional U-bracket is available for easy installation. AC2215/95 is part of JBL's AE Application Engineered Series, a versatile family of loudspeakers for a wide variety of fixed installation applications.
90° x 50° Coverage
PT Progressive Transition Waveguide for excellent pattern control with low distortion
Bi-Amp/Passive Switchable
Optional U-Bracket Model MTU-2
For fixed installation applications requiring a compact cabinet, such as small performing arts facilities, theatrical sound design, auditoriums, sports facilities, themed entertainment venues and in delay/fill locations of larger systems
JBL Professional
AC2215/95 is a compact 2-way fullrange loudspeaker system comprised of one 380 mm (15 in) low frequency driver and one 38 mm (1.5 in) exit/ 25 mm (1 in) voice-coil compression driver. The PT Progressive Transition waveguide provides 90° by 50° coverage. High-slope passive crossovers minimize band overlap and well-controlled off-axis response enhances arrayability. The cabinet is fitted with M10 threaded suspension points. Optional U-bracket is available for easy installation. AC2215/95 is part of JBL's AE Application Engineered Series, a versatile family of loudspeakers for a wide variety of fixed installation applications.
- 90° x 50° Coverage
- PT Progressive Transition Waveguide for excellent pattern control with low distortion
- Bi-Amp/Passive Switchable
- Optional U-Bracket Model MTU-2
- For fixed installation applications requiring a compact cabinet, such as small performing arts facilities, theatrical sound design, auditoriums, sports facilities, themed entertainment venues and in delay/fill locations of larger systems