* 3" Voice Coil
* 1600 Watts Peak Power Handling
* Active Balanced Cooling
* Ferrite Magnetics
* Precision Inside/Outside Coil Geometry
* Die Cast Aluminum Chassis
The P Audio C15-1600CA is a high performance wide bandwidth transducer.
The C15-1600CA is an upgraded design that features many of P Audio’s new technologies & performance upgrades.
The 15 inch (381mm) diameter piston will produce extremely high sound pressure levels at both low & mid band frequencies & is ideal for high level response in both live sound & recorded music venues.
The transducer uses high energy ferrite magnetics to achieve a very high acoustic output to weight ratio.
The C15-1600CA has been optimized for use in two way or three way sound reinforcement systems & has an operating range of 55Hz to 2000Hz.
The C15-1600CA features a large 3 inch (75.7mm) diameter voice coil that provides an AES rated 400 watts of continuous power handling & a full 1600 watts of peak rated power handling when sufficient amplifier headroom is available.
The C15-1600CA utilizes P Audio’s Auto Balanced Cooling (ABC) technology to not only improve transducer power handling & reliability but to also increase power compression performance by carefully balancing & directing airflow to critical areas.
The voice coil design is a bobbin wound geometry w/P Audio’s inside/ outside wire technology to improve conversion efficiency & provide a large cross-sectional area for superior cooling.
The transducer chassis is a die cast aluminum design that insures a very high degree of structural integrity.
Nominal diameter...381 mm/15 in
Nominal impedance....8 ohms
Frequency range...55-2000 Hz
Chassis type...Cast aluminum
Magnet weight...2.74 kg/96.6 oz
Voice coil diameter..75.7 mm/3.0 in
Former material...Glass fiber
X-max...3.25 mm/0.13 in
Gap depth...12.0 mm/0.47 in
Voice coil winding width..18.5 mm/0.73 in
Net Weight....10.1 kg/22.3 lb
Packing Dimension WxDxH.430 x 430 x 230 mm
Shipping Weight..11.3 kg/24.9 lb
Small Signal Parameters
Mms...102.98 g/3.63 oz
Mmd....88.60 g/3.13 oz
Le (at 1kHz)....0.35 mH