Lavardin AP 150
DESCRIPTION
The Model AP150 is the direct no preamplifier version of the Model IT integrated.
It is a full width design with unrivalled Lavardin Technologies build quality and design philosophy, with its low memory distortion components.
The Model AP150 delivers 50 Watts per channel at 8 Ohms and a total of more than 150 Watts at 2 Ohms. The full benefit of low memory distortion technology can only be appreciated when a low memory preamp such as the Model C62 is used to partner the Model AP150
DESCRIPTION
The Model AP150 is the direct no preamplifier version of the Model IT integrated.
It is a full width design with unrivalled Lavardin Technologies build quality and design philosophy, with its low memory distortion components.
The Model AP150 delivers 50 Watts per channel at 8 Ohms and a total of more than 150 Watts at 2 Ohms. The full benefit of low memory distortion technology can only be appreciated when a low memory preamp such as the Model C62 is used to partner the Model AP150
DESCRIPTION
The Model AP150 is the direct no preamplifier version of the Model IT integrated.
It is a full width design with unrivalled Lavardin Technologies build quality and design philosophy, with its low memory distortion components.
The Model AP150 delivers 50 Watts per channel at 8 Ohms and a total of more than 150 Watts at 2 Ohms. The full benefit of low memory distortion technology can only be appreciated when a low memory preamp such as the Model C62 is used to partner the Model AP150
PRODUCT DETAILS
Technical Specifications
Input impedance- 10Kohms
Input Sensitivity- 780 millivolts
Output power- 2x55 W RMS on 8 Ohms / maximum 2x110 W on 2 Ohms
Load Impendance- Nominal 8 Ohms
Harmonic distortion- 0,001% @ max output power
Technology- High Speed and low Memory Distortion Solid State Circuits
Lavardin Technologies Design
Physical Specifications
Size (mm)- H 135 W 430 D 340
Finish- Black anodised and painted non-magnetic high-grade aluminium
Weight- 12 Kg net (25 lbs)
Power consumption- 35 watts idle; 400 watts maximum