FAN7930C Fairchild Semiconductor, FAN7930C Datasheet - Page 14

FAN7930C

Manufacturer Part Number

FAN7930C

Description

The FAN7930C is an active power factor correction (PFC) controller for boost PFC applications that operate in critical conduction mode (CRM)

Manufacturer

Fairchild Semiconductor

Datasheet

1.FAN7930C.pdf (22 pages)

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FAN7930C • Rev. 1.0.1

The roles of PFC controller are regulating output voltage

and input current shaping to increase power factor. Duty

control based on the output voltage should be fast

enough to compensate output voltage dip or overshoot.

For the power factor, however, the control loop must not

react to the fluctuating AC input voltage. These two

requirements conflict; therefore, when designing a

feedback loop, the feedback loop should be least 10

times slower than AC line frequency. That slow

response is made by C1 at compensator. R1 makes

gain boost around operation region and C2 attenuates

gain at higher frequency. Boost gain by R1 helps raise

the response time and improves phase margin.

For the transconductance error amplifier side, gain

changes based on differential input. When the error is

large, gain is large to make the output dip or peak to

suppress quickly. When the error is small, low gain is

used to improve power factor performance.

Figure 33.

Figure 34.

250

Figure 35.



mho

115



mho

Turn-On Time Determination

. 0

Compensators Gain Curve

155

Gain Characteristic



6. Soft-Start: When V

reference voltage is increased like a stair step for 5ms.

As a result, V

turn-on time increases smoothly. This reduces voltage

and current stress on the power switch during startup.

7. Startup without Overshoot: Feedback control speed

of PFC is quite slow. Due to the slow response, there is

a gap between output voltage and feedback control.

That is why over-voltage protection (OVP) is critical at

the PFC controller and voltage dip caused by fast load

changes from light to heavy is diminished by a bulk

capacitor. OVP is easily triggered at startup phase.

Operation on and off by OVP at startup may cause

audible noise and can increase voltage stress at startup,

which is normally higher than in normal operation. This

operation is better when soft-start time is very long.

However, too much startup time enlarges the output

voltage building time at light load. FAN7930C has

overshoot avoidance at startup. During startup, the

feedback loop is controlled by an internal proportional

gain controller and, when the output voltage reaches the

rated value, it switches to an external compensator after

a transition time of 30ms. This internal proportional gain

controller eliminates overshoot at startup and an

external

successfully afterward.

Figure 36.

conventional

COMP

is also raised gradually and MOSFET

Soft-Start Sequence

compensator

reaches V

START

, the internal

takes

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FAN7930C Fairchild Semiconductor, FAN7930C Datasheet - Page 14

FAN7930C

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