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20 W Stereo Integrated Audio Amplifier
prevent over-loading the transformer secondary winding if this happens. The performance of the
affected channel, however, will be compromised if a mono headphone phone plug is used.
Extended operation with one headphone channel shorted can result in component damage.
1.1.2
Power Supply
The transformer-coupled ac input power is converted to dc operating power for the amplifier
stages by the 6CA4 (V51) full-wave rectifier tube, the output of which is delivered to choke L51
and then to the filter bank. Filter capacitors for the B+ line are provided on both the right and left
channel amplifier boards.
The rated output voltage of the B+ power supply is 345 V dc. With the recommended bias
voltage on the grids of the push-pull output tubes (–30 V), the steady-state no-signal current draw
is 130 mA. When producing 10 W per channel (the rated output), peak current draw is 210 mA.
The maximum output of the power supply is 300 mA. The power transformer (T51) and choke
(L51) are conservatively rated for this application. The 6CA4 rectifier tube is rated for an average
output current of 180 mA; the rated peak current per plate is 500 mA.
Bias voltage has a significant impact on the steady-state current requirements of the amplifier
stages. An operating value of –30 V is strongly recommended. Lower (less negative) bias will
result in shorter tube life from the output devices and rectifier.
Fixed bias operation of the output stage requires that the power supply provide good voltage
regulation as the plate current of the 6973 tubes vary considerably with signal level. The
conventional choke-input type of power supply used provides the required stability. The fixed
bias for the output stage is obtained from a 50 V ac tap on the high voltage secondary winding of
power transformer T51. This voltage source is rectified by a silicon diode and filtered. A chassis-
mounted potentiometer (R57) is provided for adjustment of bias within a range of approximately
–20 V to – 50 V. Never set the operating bias on the output tubes for less than (more positive
than) –20 V dc. Component damage may result.
Potentiometer R55, connected across the 6.3 V secondary winding of transformer T51,
provides a hum balance adjustment for the amplifier. The wiper arm of the potentiometer is
connected to the junction of a resistive voltage divider across the output of the power supply. The
resulting positive voltage applied to the tube heaters minimizes heater-to-cathode leakage and
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 ...