FAN6921MLMY Fairchild Semiconductor, FAN6921MLMY Datasheet - Page 16

FAN6921MLMY

Manufacturer Part Number

FAN6921MLMY

Description

TAPE REEL \ Integrated PFC And Flyback Controller

Manufacturer

Fairchild Semiconductor

Datasheet

1.FAN6921MLMY.pdf (23 pages)

Specifications of FAN6921MLMY

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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FAN6921ML • Rev. 1.0.1

RANGE Pin

A built-in low voltage MOSFET can be turned on or off

according to V

internal MOSFET is connected to the RANGE pin.

Figure 29 shows the status curve of V

and RANGE impedance (open or ground).

Zero Current Detection (ZCD Pin)

Figure 30 shows the internal block of zero-current

detection. The detection function is performed by

sensing the information on an auxiliary winding of the

PFC inductor. Referring to Figure 31, when PFC MOS is

off, the stored energy of the PFC inductor starts to

release to the output load. Then the drain voltage of

PFC MOS starts to decrease since the PFC inductor

resonates with parasitic capacitance. Once the ZCD pin

voltage is lower than the triggering voltage (1.75V

typical), the PFC gate signal is sent again to start a new

switching cycle.

If PFC operation needs to be shut down due to

abnormal conditions, pull the ZCD pin LOW, with

voltage under 0.2V (typical), to activate the PFC disable

function to stop PFC switching operation.

For preventing excessive high switching frequency at

light load, a built-in inhibit timer is used to limit the

minimum t

detected, the PFC gate signal is not sent during the

inhibit time (2.5µs typical).

Figure 29. Hysteresis Behavior between RANGE Pin

Figure 30. Internal Block of the Zero-Current

OFF

time. Even if the ZCD signal has been

VIN

voltage level. The drain pin of this

and VIN Pin Voltage

Detection

VIN

voltage level

Protection for PFC Stage

PFC Output Voltage UVP and OVP (INV Pin)

FAN6921ML provides several kinds of protection for the

PFC stage. PFC output over- and under-voltage are

essential for PFC stage. Both are detected and

determined by INV pin voltage, as shown in Figure 32.

When INV pin voltage is over 2.75V or under 0.45V, due

to overshoot or abnormal conditions, and lasts for a de-

bounce time around 70µs; the OVP or UVP circuit is

activated to stop PFC switching operation immediately.

The INV pin is not only used to receive and regulate

PFC output voltage, but can also perform PFC output

OVP/ UVP protection. For failure-mode test, this pin can

shut down PFC switching if pin floating occurs.

COMP

Figure 32. Internal Block of PFC Over- and Under-

PFCVO

COMP

Gate

PFC

IN,MAX

1.75V

Figure 31. Operation Waveforms of PFC

2.1V

10V

ZCD

FAN6921

Amplifier

COMP

Driver

Error

Zero-Current Detection

OVP = (V

UVP = (V

REF

Inhibit

Time

(2.5V)

Voltage Protection

D eboun ce

D etector

V oltage

INV

Time

≥ 2.75V)

≤ 0.45V)

INV

www.fairchildsemi.com

PFC V

FAN6921MLMY Fairchild Semiconductor, FAN6921MLMY Datasheet - Page 16

FAN6921MLMY

Specifications of FAN6921MLMY

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