 Site Links
Recent Additions
Budget Components Audacious Audio
Loudspeakers
Amplification
Digital Sources
Analog Sources
Accessories Listening / Art Dudley The Fifth Element / John Marks Music in the Round / Kal Rubinson Fine Tunes / Jonathan Scull Special Features Reference Interviews Think Pieces Historical Recording of the Month Records 2 Die 4 Music/Recordings Stephen Mejias Robert Baird Fred Kaplan Wes Phillips Audio News Past eNewsletters RMAF 2008 FSI 2008 CES 2008 RMAF 2007 CEDIA 2007 HE 2007 FSI 2007 CES 2007 China 2006 RMAF 2006 HFN 2006 CEDIA 2006 HE 2006 FSI 2006 CES 2006 Forums Galleries Vote Previous Votes Dealer Locator AV Links Audiophile Societies Contact Us Customer Service New Subscription Digital Subscription Renew Give a Gift Sub Services Recordings Backissues More . . . Phono Preamp Hi-Fi Phono Cartridge Amplifiers Stereo Speakers |
 |
|
|
VTL IT-85 integrated amplifier:
Fig.4 plots the VTL's small-signal THD+noise percentage against frequency; the level of distortion rises both at the frequency extremes and into loads below 4 ohms. The content of that distortion is mainly low-order harmonics (fig.5), but with low frequencies reproduced at high levels (fig.6), the third and fifth harmonics are the highest in level, which might make the amplifier sound a little forward-balanced. Even just below clipping, the level of intermodulation distortion (fig.7) was acceptably low, the difference product just reaching the -60dB line (0.1%). Fig.4 VTL IT-85, THD+noise (%) vs frequency at (from top to bottom at 4kHz): 4W into 2 ohms, 2.83V into simulated loudspeaker load, 2W into 4 ohms, and 1W into 8 ohms. Fig.5 VTL IT-85, 1kHz waveform at 10W into 8 ohms (top), distortion and noise waveform with fundamental notched out (bottom, not to scale). Fig.6 VTL IT-85, spectrum of 50Hz sinewave, DC-1kHz, at 50W into 8 ohms (linear frequency scale). Fig.7 VTL IT-85, HF intermodulation spectrum, DC-24kHz, 19+20kHz at 30W into 8 ohms (linear frequency scale). When it came to continuous power output (fig.8), the VTL, as expected, was happier into higher impedances, reaching the 1% THD+N clipping point into 8 ohms at 60W, as specified (17.8dBW), with less power available into 4 or 2 ohms unless the defined clipping point was relaxed to 3% THD. I used the Miller Audio Research Amplifier Profiler to test the IT-85's output power with a low-duty-cycle 1kHz toneburst, which more closely approximates a typical musical signal. With just one channel driven (fig.9), considerably more power was available at the 1% THD point (magenta line): 78.3W into 8 ohms (18.9dBW, black trace) and 123W into 4 ohms (17.9dBW, red). But the distortion rose quickly enough to limit the 2 ohm power to 15W (blue) and the 1 ohm power to just 3.5W (green). Fig.8 VTL IT-85, distortion (%) vs continuous output power into (from bottom to top at 10W): 8 ohms, 4 ohms, and 2 ohms. Fig.9 VTL IT-85, distortion (%) vs 1kHz burst output power into 8 ohms (black trace), 4 ohms (red), 2 ohms (blue), and 1 ohm (green). This is a good set of measurements for a conventional push-pull tube design. As long as the matching loudspeakers don't drop below 4 ohms in frequency regions where the music has much power, the VTL IT-85 should deliver good, low-distortion performance.—John Atkinson
|
|
|
|
 Sponsored Technology Center
|
||||||||||||||||||||||||||||||||||||||||||||||
