McIntosh MC7108 - 8 Channel Amplifier - Configurable!

General:Super flexible multi-channel amplifier from renowned US maker McIntosh.Configurable to 8, 7, 6, 5, or 4 channels, with varying degrees of power delivery to fit just about any home theater system. Bridged channels can deliver 100W. MC7108 OUTPUT OPERATING CONFIGURATIONS:8 x 40 watt channels6 x 40 watt channels and 1 x 100 watt bridged pair channel4 x 40 watt channels and 2 x 100 watt bridged pair channels2 x 40 watt channels and 3 x 100 watt bridged pair channels4 x 100 watt bridged pair channels(4 ohm loudspeaker loads)In excellent cosmetic condition, and fully tested in our lab were it performed as it should.Service Notes:- Volume trimmer for channel 1 replaced.- All lamps replaced.Cosmetic Notes:- Light marks on end caps and metal trim around glass.Brand Background:McIntosh Laboratory is an American manufacturer of handcrafted high-end audio equipment based in Binghamton, New York. The company was founded in 1949 by Frank McIntosh. The company designs and produces audio amplifiers, stereo tuners and other consumer electronics products.Ownership:Single OwnerConnections:RCA input and output jacks, screw terminals for speakers, captive power cord. 12V triggers.General Sound:Accurate to the recordingCosmetic Condition:7/10 = Good. One or two minor scratches. Well Maintained.. See our detailed rating description here.Working Condition:Working perfectly and tested in our lab and listening room.Included:Just the unit and power cord.Packing:Original Manufacturers PackingSpecs:POWER OUTPUT, EIGHT CHANNELS40 watts per channel, minimum sine wave continuous average power output per channel, all channels operating into 4 ohm loads.The output RMS voltage is:12.6V across 4 ohmsPOWER OUTPUT, TWO CHANNELS BRIDGED100 watts into a 4 ohm load, minimum sine wave continuous average power output.The output RMS voltage is:20V across 4 ohmsOUTPUT LOAD IMPEDANCE8 or 4 ohms, for all eight separate channels8 or 4 ohms, for all Bridged PairsRATED POWER BAND20H2 to 20,000HzTOTAL HARMONIC DISTORTION0.005% maximum harmonic distortion at any power level from 250mW to rated power per channel from 20Hz to 20,000Hz, all channels operating.IHF DYNAMIC HEADROOM1.8dBFREQUENCY RESPONSE+ 0, -0.25dB from 20Hz to 20,000Hz+ 0, -3.0dB from 10Hz to 100,000HzINPUT SENSITIVITY1V, (2.5V with Level control at center detent)A WEIGHTED SIGNAL TO NOISE RATIO92dB (112dB below rated output)INTERMODULATION DISTORTION,SMPTE0.005% maximum if instantaneous peak power does not exceed twice the output power rating per channel, with all channels operating, for any combination of frequencies from 20Hz to 20,000Hz.WIDE BAND DAMPING FACTOR200 at 8 ohms100 at 4 ohmsINPUT IMPEDANCE20,000 ohmsPOWER GUARDClipping is prevented and THD does not exceed 2% with up to 14dB overdrive at 1000Hz.POWER REQUIREMENTS120V, 50/60Hz, 8A UL/CSADimensions:Front panel: 17-1/2 inches (44.5cm) W, 7-1/16 inches (17.9cm) H, 20 inches (50.8cm) D behind mounting panel, including clearance for connectors. Panel clearance required in front of mounting panel is 3/4 inch (1.9cm).Weight:40 lbs.Approximate Age:1998Link to Manual:Click HereRecommended Cables: Kimber Kable - RCA Interconnects - Better Kimber Kable - Speaker Cables - Better Kimber Summit Series Monocle XL Speaker Cables (PAIR) - Best Kimber Summit Series BiFocal XL Bi-Wire Speaker Cables (PAIR) - Best If Applicable  Kimber Kable - Power Cords - Better Kimber Kable - Power Cords - Best The SkyFi Testing Process for Solid State Amplifiers: We start with a visual inspection of all internal components to make sure that there are no signs of heat stress or damage. Capacitors are checked for telltale signs of predictive failure including bulging, shrunken wrappers, or physical leakage. We also inspect the PCBs for discoloration from resistors or transistors that may have been running hot. On vintage units we often spot check select capacitors for value and ESR. If the amplifier passes visual inspection, we move on to a controlled power on sequence using a Sencore safety analyzer to monitor current draw in real time. Once the amplifier is determined to be safe to operate, we connect it to full AC mains for function and power testing. We connect the speaker outputs of the amplifier to a Sencore PA81 Power Analyzer which acts as a dummy load, DC offset monitor, and oscilloscope interface. We start with a low level 1KHz test signal at the amplifier’s input and slowly increase its amplitude while monitoring the output on an oscilloscope for signs of noise, clipping, distortion, or improper channel balance. We continue increasing the signal level until the amplifier reaches clipping. At this point we take an output power measurement and compare it to the spec sheet of the amplifier to verify proper performance. If the device under test has both balanced and single ended inputs they are both tested at this time. We finish off the bench evaluation with a 1KHz square wave check and a 20Hz to 20KHz sine sweep to assess the amplifier’s frequency response characteristics. This battery of tests will usually reveal if the amplifier has any issues that need further attention. Before the device leaves the bench, we perform a listening test with actual music using a variety of preferred test tracks. Our benches are outfitted with familiar monitor speakers which help us identify inconsistencies that will not always show up on our test gear. The main things that we are listening for are hum or noise with no signal present, proper center image, clicks, pops, or any other obvious undesirable audio characteristics. If the unit passes all of these tests it is moved to our long term testing rig where we simulate real word operating conditions for 6-8 hours. This allows us to monitor the unit for signs of thermal runaway or intermittent issues that only crop up when the unit has fully come up to temperature.