High Quality Audio Design VSX1016 TXV Direct Energy

High Quality Audio Design VSX-1016 TXV - Direct Energy Power Engine - High Quality D/A Converter - Direct Construction

Power Output Design Comparison 　 Pioneer 　　　 Denon 　 Yamaha Design Concept 　　　　Direct energy* 　Common circuit 　 High current amp* Low Impedance 　　 Yes No 　　　　 　 No Yes No 　　　　 　 No Compact design (Power train) Linear temperature Compensation　　　　　　　 Yes** No(Yes) No Design *High Current Amp: Yamaha claims its their advantage but this method is quite common and most of all Hi. Fi Receiver does this! Actually they are following our “Direct Energy Concept” which we have been using for nearly 10 years! **Pioneer’s Linear temperature Compensation Design is the most advanced version for discrete power amplifier design for minimized the variation of idle current which causes deterioration of the sound. (Denon uses same power device as Pioneer , but Denon doesn’t take care temperature compensation of whole power amplifier desigen)

Linear temperature Compensation Competitor model(YAMAHA RX-V 2500) Design スピーカ駆動電流により出力素子 のチップ温度が変動、その補償 の無い回路では、バイアス回路の 動作点がずれてしまう。 Speaker drive current cause temperature rise of output element, and drift of the bias circuit’s operation point. ’ 05 NEW MODEL(Pioneer VSX-AX 4 AVi, AX 2 AV) ADE-MOSFETと同様にバイアス 回路の温度補償を出力素子と同 一チップ化し、チップの温度変化 によるバイアス点変動を極小化　 している。 The temperature compensating block of the bias circuit is made on output element chip same as ADE-MOSFET, that’s why it can minimized the operation point drift of the bias circuit by the chip temperature variation.