| McIntosh MCC602TM (2 channel 600W) |
| MSRP: $3,500.00 |
| Output power @1% THD 1kHz 14.4 volts |
| Stereo @ 8 ohms | 2 x 392 watts |
| Stereo @ 4 ohms | 2 x 418 watts |
| Stereo @ 2 ohms | 2 x 350 watts |
| Parallel Mono @ 4 ohms | 1 x 790 watts |
| Parallel Mono @ 2 ohms | 1 x 840 watts |
| Parallel Mono @ 1 ohms | 1 x 700 watts |
| Output power @1% THD 1kHz 12.5 volts |
| Stereo @ 8 ohms | 2 x 392 watts |
| Stereo @ 4 ohms | 2 x 418 watts |
| Stereo @ 2 ohms | 2 x 350 watts |
| Parallel Mono @ 4 ohms | 1 x 790 watts |
| Parallel Mono @ 2 ohms | 1 x 840 watts |
| Parallel Mono @ 2 ohms | 1 x 700 watts |
| Distortion at rated power |
| 300 Watts x 2, 1kHz 14.4 volts | = 0.0045% @ 2 ohms |
| Input sensitivity | 1 to 8 volts |
| Frequency response (+- 1dB) | 20 Hz- 50 kHz |
| S/N (A weighted,below clipping,2 v in) | >116 dB |
| SEP (A weighted) | >102 dB |
| Damping Factor @ 100Hz,4 ohms | >56 |
| Idle current | 4 amps |
| Maximum current consumption, unclipped RMS | 92 amps @ 610 watts |
| Efficiency at 1/3 power, 2 ohm per CH. | 27 % |
| Efficiency at full power, 2 ohm per CH. | 53 % |
| Power supply (regulated) | Regulated to 10.2 V |
| Dimensions | 27" x12.5"x 2.9375" |
Additional Measurements | | Out of Regulation: | 1 kHz 10.1 volts, 20 Hz 10.7 volts |
| Idle current at 20 Hz with no load | 5 amps |
| Slew rate (RCA input) |
| 8 ohm | 31 V/usec. |
| 4 ohm | 23 V/usec. |
| 2 ohm | 15 V/usec |
Note: The autotransformers also allow the 2-channel amplifier to work as a multichannel design. The output connections are noted as 2, 4, and 8 ohms. This allows for the primary speaker(s) to be connected to the correct impedance terminal(s) as another speaker or a set of speakers can be connected to one of the other impedance terminals. This only works as long as the impedance terminals used are the same or higher than the secondary set of speakers. A good example of this is where both the front and rear speakers (4 ohm) are the same, but the rear speakers are required to be attenuated. The front speakers can be connected to the 4-ohm terminals and the rear speakers to the 8-ohm terminals. This will effectively reduce the output of the rear speakers by 3 dB, but not reduce the power going to the front speakers.