Model

13.5V DC
(1 Hour)

 Full Power
Bandwidth		 Frequency
Response		 30% Duty
Cycle		 Continuous Minimum
Load
  Amps DC kHz kHz Vp Ap Watts RMS Ohms
DV1.0 N/A DC - 18kHz DC - 19kHz 143 8.9 1200 2.0
2016 LVC623   DC - 40kHz DC - 100kHz 32 32 430 1.0
LVC623HF   DC - 60kHz DC - 250kHz 32 32 430 1.0
LVC2016 N/A DC - 20kHz DC - 100kHz 80 39 995 2.0
5050 LVC5050 N/A DC - 20kHz DC - 100kHz 125 63 3000 2.0
LVC5050HC 30 DC - 20kHz DC - 100kHz 85 70 500 0.5

           
7224 7224 10 DC - 180kHz DC - 300kHz 108 25 1700 0.25
             
7548 7548   DC - 80kHz DC - 180kHz 165 41 3400 0.5
7548RLY  N/A
             
7782 7782 20 DC - 30kHz DC - 100kHz 113 55 3200 0.5
7782HF 20 DC - 80kHz DC - 180kHz 113 55 3200 0.5
7782HC/HF 54 DC - 80kHz DC - 180kHz       0.25
7780RLY N/A            
7796 7796   DC - 80kHz DC - 180kHz 140 75 5000 0.5
7796RLY N/A
 
 

Full Power Bandwidth - The bandwidth over which the amplifier is voltage limited by power supply potential. Upper limit is defined as -3dB from this potential.

Frequency Response - When driving the amplifier into an 8-Ohm load, at 1 watt, frequency the amplifier output is -3dB. This upper frequency limit is a function of amplifier accuracy when operated within bounds dictated by amplifier slew rate.

30% Duty Cycle - Power capability of the amplifier when reproducing a 1kHz sine wave for 40mSec on duration and 80mSec off duration. This test serves as a guide to performance in applications that are less than continuous.

Continuous - Power capability of the amplifier when reproducing a 1kHz sine wave continuously for 1 hour. This test serves as a guide for performance in applications that are very high duty cycle or continuous.

Minimum Load - Minimum recommended effective load impedance for continuous or high duty-cycle maximum power operation. Assumes two channel amplifiers are run in parallel mono mode.