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FQA16N50 数据表(PDF) 1 Page - Fairchild Semiconductor

部件名 FQA16N50
功能描述  Optimized Switch for Discontinuous Current Mode Power Factor Correction
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制造商  FAIRCHILD [Fairchild Semiconductor]
网页  http://www.fairchildsemi.com
标志 FAIRCHILD - Fairchild Semiconductor

FQA16N50 数据表(HTML) 1 Page - Fairchild Semiconductor

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www.fairchildsemi.com
© 2009 Fairchild Semiconductor Corporation
www.fairchildsemi.com
Rev. 1.0.1 • 4/3/09
AN-9066
UniFET
— Optimized Switch for Discontinuous Current
Mode Power Factor Correction
Abstract
This application note discusses merits of planar technology
power MOSFET in discontinuous current mode power
factor correction application. In most test conditions it is
cost competitive and gives performance benefits compared
to a super-junction technology device. The benefits are
verified through the mathematical simulation and system-
level experiments. A new planar technology power
MOSFET
from
Fairchild
shows
faster
switching
characteristics that contribute to higher efficiency and lower
device temperature.
Introduction
Switch-mode
power
supplies
are
increasingly
being
designed with an active power factor correction at the input
stage to meet international regulations for harmonics. The
boost topology in discontinuous current mode (DCM) is
most suitable power factor correction (PFC) method for
converters with less than 300W power rating[1]. In this
topology, the switching-on power loss of boost switch is
negligible, and the major power losses are the switching-off
losses and conduction losses. After the super-junction
devices have been introduced, they are often considered as
optimized switches for active power factor correction
because of extremely low on-resistance and highly non-
linear capacitance curves. In the discontinuous current mode
power factor correction, however, the conventional planar
devices can compete against the powerful super-junction
family. This article shows that Fairchild’s UniFET™ power
MOSFET can provide performance superior to the super-
junction devices in the discontinuous current mode power
factor correction applications.
Power MOSFET Technologies
The super-junction technology utilizes deep P-type pillar
structure in the body of the power MOSFET. The effect of
the pillars is to confine the electric field in the lightly doped
epitaxial region of the power MOSFET. Thanks to this P-
pillar, the resistivity of N-epi can be reduced compared to
the conventional planar technology, while maintaining the
same breakdown voltage. Therefore, typical on-resistance of
the super-junction MOSFETs is only one third of the
conventional planar power MOSFETs at the same chip size.
Most commercially available super-junction devices adopt
multiple epi-layers to build the deep P-pillar structure. The
multi-epi process, however, has some disadvantages, such
as increased process steps and higher manufacturing cost. In
contrast, the UniFET™ power MOSFET utilizes a planar
double-diffused
metal-oxide
semiconductor
(DMOS)
process that is very mature and highly cost competitive.
Moreover, it has improved ring terminations and optimized
active cell structures compared to the conventional planar
power MOSFETs. The resulting specific on-resistance of
the UniFET is even close to some super-junction devices at
500V of breakdown voltage range.
The planar power MOSFETs also have higher reliability
than
the
super-junction MOSFETs under unclamped
inductive switching (UIS) condition, which can occur
during power supply power-up or AC line transient. The
devices can enter breakdown, and even be destroyed, in the
worst situations. Typically, the planar MOSFETs are much
better than the super-junction devices in UIS mode. The
newest super-junction technology enabled equivalent UIS
rating to the planar MOSFETs at unit area; however, its
practical rating as a single device is still inferior to planar
MOSFETs because of smaller die size. The UIS ruggedness
of UniFET is also far better than previous generations of
planar technology. For an example, a 265m
Ω, 500V
UniFET shows more than 80A of avalanche current under
low coil UIS test. Moreover, it does not fail at all in the test.
On the contrary, a conventional planar MOSFET with same
on-resistance
failed
at
around
40A.
The
improved
ruggedness ensures enhanced reliability. In terms of
switching performance, a gate charge is one of the
benchmarks to compare different devices. The UniFET has
a smaller gate charge, faster switching characteristics, and
reduced switching power losses than the conventional
planar MOSFETs. Some typical electric characteristics
benchmarks are shown in Table 1.
Table 1.
Gate Charge and Parasitic Capacitance
Benchmark Data
QG
COSS
CISS
CRSS
FDB12N50
22nC
140pF
985Pf
12pF
FQB12N50
39nC
220pF
1550pF
25pF
FDA16N50
32nC
235pF
1495pF
20pF
FQA16N50
60nC
325pF
2300pF
35pF
Note:
1.
FDB12N50 and FDA16N50 are UniFET
. FQB12N50
and FQA16N50 are QFET
®, is a previous generation of
planar power MOSFET.


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