High Current Amplification Achieves Low Impedance/ High Current Power from Input to Output.
Although power rating is often the first thing customers look at in a amplifier, high power output does not necessarily mean good sound. High current level is a much more important factor. Yamaha amplifiers has always had fairly high current levels, but with the
In brief, Yamaha High Current Amplification achieves low impedance, high current power from input (power supply circuit) to output (speaker terminals). This drives the speakers much more smoothly and dynamically, for better sound from all sources, including 2- channel audio.
Specific ImprovementsThe first problem to be overcome was the difference in voltage that ordinary amplifiers suffer between the power supply and amplifier circuits, caused by
current fluctuations. This was solved by using
The
The
Level variations due to high amp impedance tend to reduce an amplifier’s damping factor, and frequency variations cause it to fluctuate. This circuit cancels the effect of these variations, maintaining a high, stable damping factor, for superior articulation of all sounds and better frequency response.
Supporting the heavy heat sinks and circuit board is Yamaha’s
High Current Amplification Principle
The voltage (A) of Block Electrolytic Capacitors and voltage (B) of Power Transistor Collector should be ideally at the same level. However, when the current become large, there will be a big difference in the level of each voltages.
There is also a level difference between Output of the Power Amplifier
(C)and Speaker Terminals (D), which is caused by the copper of the PCB, Speaker output relays, cables and so on, resulting in reduced sound quality.
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Voltage level difference between A (power supply circuit) and B (amplifier circuit).
Voltage level difference between C (amplifier circuit output) and D (speaker terminals).
Conventional Amplifier | High Current Amplification | Conventional Amplifier | High Current Amplification |
4/10 (G/B)