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20 W Stereo Integrated Audio Amplifier
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Connect 10 W (or greater) non-inductive loads to both channels of the amplifier. Connect
appropriate test equipment to the right channel speaker output (at minimum, a distortion
analyzer and oscilloscope).
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Apply power to the amplifier.
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With no audio input applied, adjust the Bias supply for approximately –30V.
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Connect an audio signal generator to the right channel Line input. Set the Input switch to
Line Input and adjust the Volume control fully clockwise. Set the signal generator to 1
kHz and adjust the input signal to provide peak output from the amplifier (just below
observable clipping); this is approximately 1.2 V rms.
•
With an input signal of 20 kHz, measure THD and adjust the bias control for minimum
distortion reading. Power output should not change significantly within the bias range of –
25 V to –35 V dc.
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Change the input signal to 30 Hz and measure THD. Adjust the bias control again for
minimum distortion. The optimal setting should roughly coincide for each frequency
extreme. In the event that the optimal settings for 30 Hz and 20 kHz do not coincide, split
the difference between the two settings.
•
Repeat the process for the left channel. The optimal points between channels should
roughly coincide. Note that some compromises may be necessary to provide for the best
relative performance from the right and left channels of the amplifier.
For a typical implementation, the lowest distortion point is usually found to be at a bias of
about –25 V dc. While varying the bias, it may be observed that distortion on either side of this
point increases, albeit only slightly. Be careful when adjusting bias since lower settings (less
negative) will increase the idling current. For test purposes, setting the bias for best performance
is reasonable. For long-term operation, however, it is advisable to find the ideal operating point
and then back off somewhat; e.g., if –25 V is found to be the optimal setting, increase bias to –30
V for long-term operation. Experience and performance should be the guide here. Keep in mind
that the bias may need to be adjusted over time as the tubes age. When replacing tubes, it may be
worthwhile to repeat the bias setting adjustment.
Note that the output transformer used in this circuit (Hammond 1620) is rated for operation
down to 30 Hz. The characteristics at 20 Hz are not documented and as such it is not advisable to
force the amplifier (through low bias) to make the target distortion numbers at 20 Hz. For this
Summary of Contents for JC Whitaker 20 W Stereo Integrated Audio Amplifier
Page 1: ...20 W Stereo Integrated Amplifier WhitakerAudio 20 W Stereo Integrated Audio Amplifier ...
Page 11: ...11 20 W Stereo Integrated Audio Amplifier Figure 1 1 b ...
Page 16: ...16 WhitakerAudio Figure 1 2 b ...
Page 20: ...20 WhitakerAudio Figure 1 3 Power management circuit for the 20 W integrated stereo amplifier ...
Page 38: ...38 WhitakerAudio Figure 3 1 Component layout for the Amplifier PWB 1 right board ...
Page 40: ...40 WhitakerAudio Figure 3 2 Rectifier PWB component layout ...
Page 45: ...45 20 W Stereo Integrated Audio Amplifier Figure 3 4 Layout of the speaker terminal PWB ...
Page 84: ...84 WhitakerAudio Figure 5 6 Power management PWB a component side b foil side a b ...
Page 188: ...20 W Stereo Integrated Amplifier WhitakerAudio 20 W Stereo Integrated Audio Amplifier ...
Page 196: ...196 WhitakerAudio ...