149
20 W Stereo Audio Amplifier
seconds longer than the B+ voltage buildup time (as sensed by the RLY205 circuit
3
). With the
component values specified, the RYL203 time delay is about 30–60 seconds.
For any SCR, typical gate trigger current/voltage parameters are specified by the
manufacturer. Within a given production run, some variations about the typical values may be
observed. If Q206 fails to close after 60 seconds, consider the following troubleshooting steps.
•
With power removed, connect a high-impedance voltmeter (1 m
Ω
or greater) between
ground and the junction of R211/C207/D208. Switch the power on. The voltage will ramp
up from zero to +22 V within about 30 seconds. It should stay at +22 V.
•
If the previous test is successfully passed, switch the power off and move the voltmeter
probe to the gate terminal of Q206. Switch the amplifier on and monitor the voltage,
which should rapidly climb to about +0.7 V, and about 30–60 seconds later (when the
junction of R211/C207/D208 has r22 V) the voltage should slowly increase to
+1.5 V, at which point the SCR will fire.
It is possible that, depending on the gate trigger current tolerance, the SCR will not fire after
the voltage at the junction of R211/C207/D208 has r 22 V. In this condition, the voltage
at the gate of Q206 may not increase to much more than +1 V. The simplest solution to this
problem is to add a high value resistor in parallel to R217. This can be done from the foil side of
the board without removing the PWB. A range of resistor values (1 m
Ω
to 200 k
Ω
, 0.5 W) may be
tried. Use the highest value device that will result in proper operation of the circuit. A decade
resistance substitution box is useful for this test, if available. Do not apply a value of less than 200
k
Ω
.
Note that the triggering circuit is somewhat temperature-dependent. The SCR will tend to take
more time to fire when cold than when warm. Since the exact time delay is not critical, this is not
an operational issue.
Because of the interaction of the power management expansion board with the power
management board, it may be useful to eliminate the expansion board from the system for test
purposes. General guidelines are given below:
•
If the auto-off circuit will not shut the amplifier down after an hour of no-signal
conditions, try removing the connector from CONN402 on the power management
3. Typically 20 seconds from a cold start.
Summary of Contents for J C Whitaker 20 W Stereo Audio Amplifier
Page 1: ...20 W Stereo Amplifier WhitakerAudio 20 W Stereo Audio Amplifier...
Page 10: ...10 WhitakerAudio Figure 1 1 b...
Page 14: ...14 WhitakerAudio Figure 1 2 The preamplifier power supply PWB...
Page 20: ...20 WhitakerAudio Figure 1 4 Power management expansion circuit for the 40 W Stereo Amplifier...
Page 37: ...37 20 W Stereo Audio Amplifier Figure 3 1 Component layout for the Amplifier PWB 1 right board...
Page 39: ...39 20 W Stereo Audio Amplifier Figure 3 2 Rectifier PWB component layout...
Page 42: ...42 WhitakerAudio Figure 3 3 Component layout for the Amplifier PWB 2 left board...
Page 46: ...46 WhitakerAudio Figure 3 5 Layout of the preamplifier power supply PWB...
Page 86: ...86 WhitakerAudio Figure 5 7 Power management expansion PWB a component side b foil side a b...
Page 135: ...135 20 W Stereo Audio Amplifier Figure 5 15 Chassis view of the 20 W Stereo amplifier...
Page 179: ......
Page 180: ...20 W Stereo Amplifier WhitakerAudio 20 W Stereo Audio Amplifier...
Page 184: ...184 WhitakerAudio Figure 1 1 Completed cable assembly...