Buck Regulator Control

See function block H of A6 Power Supply Schematic Diagram in the Component-Level Information binder.

The Buck Regulator Control pulse-width modulates the Buck Regulator and provides a synchronized signal to the DC-DC Converter Control circuitry. The Buck Regulator Control has two feedback paths. The first is the output of the Buck Regulator, which provides coarse regulation. The second is the Feedback Circuit which samples and compares the +5 Vdc output of the Output Rectifier.

U202B and associated circuitry sense the output of the Input Rectifier and will turn off U203 if the voltage at TP108 goes below approximately i-170 Vdc. Also, it will not allow U203 to start up until this voltage exceeds +215 Vdc. A low on the output of U202B will also clear the overcurrent latch in the DC-DC Converter Control circuitry.

Thermal shutdown occurs when RT201, mounted on the main heatsink, reaches a temperature of 100 C. When this occurs, the voltage at U203 pin 13 exceeds 0.6 V and inhibits pulses to the Buck Regulator.

R203, R204, U211, and associated circuitry provide feedforward for U203. This makes the loop gain independent of input line voltage and cancels 120 Hz ripple by more than 10 dB.

U202C and its associated circuitry permit the power supply to start up at low line voltages at low temperatures. At low line voltages U202C will draw charge away from C206 through R205. This allows the Buck Regulator to turn on and draw current through the thermistors in the Input Rectifier. This warms up the thermistors, thereby decreasing their resistance and increasing the voltage at TP108. When the voltage is sufficiently high at TP108, the output of U202C will open and C206 will be allowed to charge normally.

U202A converts the sawtooth at TP204 to a squarewave to drive the DC-DC Converter Control circuitry. The frequency of the sawtooth is determined by the resistance at pin 7 of U203 and the capacitance at pin 8 of U203.

DC-DC Converter Control

See function block I of A6 Power Supply Schematic Diagram in the Component-Level Information binder.

The DC-DC Converter Control circuitry divides the 80 kHz squarewave from U202A and generates two complementary 40 kHz squarewaves to drive the FETs in the DC-DC Converter. Also, U202D and its associated circuitry monitor the voltage across sense resistor R116 in the DC-DC Converter. When the current through the FETs in the DC-DC Converter exceeds 1.8 A, the voltage across R116 will cause the output of U202D to go high. This sets a latch in U204 which turns off U203.

12-16 Display/Power Supply Section