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FAN4803CP-1 Datasheet(数据表) 8 Page - Fairchild Semiconductor

部件型号  FAN4803CP-1
说明  8-Pin PFC and PWM Controller Combo
下载  12 Pages
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制造商  FAIRCHILD [Fairchild Semiconductor]
网页  http://www.fairchildsemi.com
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FAN4803CP-1 Datasheet(HTML) 8 Page - Fairchild Semiconductor

 
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FAN4803
PRODUCT SPECIFICATION
8
REV. 1.2.3 11/2/04
Subsequently the PFC gate drive is initiated, eliminating the
necessary dead time needed for the DCM mode. This forces
the output to run away until the VCC OVP shuts down the
PFC. This situation is corrected by adding an offset voltage
to the current sense signal, which forces the duty cycle to
zero at light loads. This offset prevents the PFC from operat-
ing in the DCM and forces pulse-skipping from CCM to no-
duty, avoiding DMC operation. External filtering to the cur-
rent sense signal helps to smooth out the sense signal,
expanding the operating range slightly into the DCM range,
but this should be done carefully, as this filtering also
reduces the bandwidth of the signal feeding the pulse-by-
pulse current limit signal. Figure 9 displays a typical circuit
for adding offset to ISENSE at light loads.
PFC Start-Up and Soft Start
During steady state operation VEAO draws 35µA. At start-up
the internal current mirror which sinks this current is defeated
until VCC reaches 12V. This forces the PFC error voltage to
VCC at the time that the IC is enabled. With leading edge
modulation VCC on the VEAO pin forces zero duty on the
PFC output. When selecting external compensation compo-
nents and VCC supply circuits VEAO must not be prevented
from reaching 6V prior to VCC reaching 12V in the turn-on
sequence. This will guarantee that the PFC stage will enter
soft-start. Once VCC reaches 12V the 35µA VEAO current
sink is enabled. VEAO compensation components are then
discharged by way of the 35µA current sink until the steady
state operating point is reached. See Figure 8.
PFC Soft Recovery Following VCC OVP
The FAN4803 assumes that VCC is generated from a source
that is proportional to the PFC output voltage. Once that
source reaches 16.2V the internal current sink tied to the
VEAO pin is disabled just as in the soft start turn-on
sequence. Once disabled, the VEAO pin charges HIGH by
way of the external components until the PFC duty cycle
goes to zero, disabling the PFC. The VCC OVP resets once
the VCC discharges below 16.2V, enabling the VEAO current
sink and discharging the VEAO compensation components
until the steady state operating point is reached. It should be
noted that, as shown in Figure 8, once the VEAO pin exceeds
6.5V, the internal ramp is defeated. Because of this, an exter-
nal Zener can be installed to reduce the maximum voltage to
which the VEAO pin may rise in a shutdown condition.
Clamping the VEAO pin externally to 7.4V will reduce the
time required for the VEAO pin to recover to its steady state
value.
UVLO
Once VCC reaches 12V both the PFC and PWM are enabled.
The UVLO threshold is 9.1V providing 2.9V of hysteresis.
Generating VCC
An internal clamp limits overvoltage to VCC. This clamp
circuit ensures that the VCC OVP circuitry of the FAN4803
will function properly over tolerance and temperature while
protecting the part from voltage transients. This circuit
allows the FAN4803 to deliver 15V nominal gate drive at
PWM OUT and PFC OUT, sufficient to drive low-cost
IGBTs.
It is important to limit the current through the Zener to avoid
overheating or destroying it. This can be done with a single
resistor in series with the VCC pin, returned to a bias supply
of typically 14V to 18V. The resistor value must be chosen
to meet the operating current requirement of the FAN4803
itself (4.0mA max) plus the current required by the two gate
driver outputs.
Figure 8. PFC Soft Start
Figure 9. ISENSE Offset for Light Load Conditions
0
0
200ms/Div.
VBOOST
0
VOUT
VEAO
VCC
10V/div.
10V/div.
10V/div.
200V/div.
0
PFC
GATE
C23
0.01
µF
CR16
1N4148
R29
20k
VCC
RTN
(see Figure 12)
R28
20k
R4
1k
to BR1 -Ve
C16
1
µF
C5
0.0082
µF
R19
10k
ISENSE
R3
0.15
3W




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