[Citation 12 MOSFET Power Amplifier ]
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4
PROCEDURES
Assembly all the components according to the schematic and part list. Notice the
polarity of the electrolytic capacitors. There are no polarity of the thin film capacitors.
Open the bypass jumper J3, J4, J12 and J13 before switching on the power.
Apply two 27-33V AC to J1 and J2. ~33V DC is obtained for the filtering capacitor
C1, C3, C5, C7, C9 and C11 and ~-33V DC is obtained fo the capacitors C2, C4, C6,
C8, C10 and C12. This step is to ensure the power supply unit work properly.
Remove the power supply and discharge the capacitors (short by a 10ohm/2W
resistor to ground). Open the bypass jumper J3 and J4 and short the J12 and J13 by
wires, power supply is now in series with the 10ohm/2W resistor to limit its
maximum current supply to the circuit in case of any components burnt out (This
step is very important!). Also, a large heat sink is required to drain out the heat
generated by two power MOSFET. In this case, the MOSFET is very hot, do not use
finger to touch it!
The R16 and R21 are used to measure the biasing current of the output stage (high
biasing current means high output driving current and hence higher the output
power). At the beginning, the resistor trimmer RV1 is set so that the biasing current
is as small as possible to prevent burnt out of the MOSFETs due to high current (turn
it until it reach the most anti-clockwise position)
Turn on the power supply. Disconnect the power supply when you see any smokes,
lighting or smell any burnt. Ensure the resistor trimmer is set in the correct position.
Measure the voltage across the 10/2W resistors (J3 and J4), the biasing current can
be calculated by the following equation:
I = V/ R = V/10
Gradually turning the resistor trimmer VR1 until the biasing current I reach to 75mA
- 100mA (V=1V). Again, higher biasing current, higher output power, but I=75mA
is suggested. (Disconnect the power supply if see there is any smokes)
Short J3, J4, J12 and J13 by wires
Enjoy it.
