FAIRCHILD FOD8320

BENCHMarks
™
New Products, Tips and Tools for Power and Mobile Applications
VOL. 3, 2012
Advantages
• Greater noise immunity:
negative voltage swing (VS) down to –9.8V at 15VBS
• Current driving capability
of 4.5A/4.5A sourcing/sinking • Qualified to AEC-Q100 Automotive Class 1
Applications
Greater Noise Immunity, Less Power
Dissipation for Automotive Applications
The FAN7171 (high-current, high-side gate driver IC) and FAN7190 (high-current,
high- and low-side gate driver IC) deliver increased efficiency, higher drive current
and greater noise immunity. These devices are optimized for electric and hybrid
electric DC-DC power conversion, high-voltage auxiliaries, diesel and gasoline
fuel injection, and other high-power MOSFET and IGBT driver applications. The
FAN7171 can drive high-speed, high-side MOSFETs and IGBTs that operate
up to +600V, while the FAN7190 can independently drive high- and low-side
MOSFETs and IGBTs that also operate up to +600V. Both devices are highly
integrated and provide increased functionality, resulting in reduced component
count, bill of material costs and board space.
• Body electronics
• Powertrain
For more information, please visit:
fairchildsemi.com/pf/FA/FAN7171_F085.html
fairchildsemi.com/pf/FA/FAN7190_F085.html
High-Current, High-Voltage Gate Drivers:
FAN7171, High-Side and FAN7190 High- & Low-Side
Floating
Offset
Voltage
(Max) (V)
Recharge
Supply
Voltage
(Min)
(V)
Supply
Voltage
(Max)
(V)
tON/
tOFF
Typ
(nS)
tr/tf
Typ
(nS)
Pulsed
Output
Current
(mA)
Package
FAN7171_F085
600
Bootstrap
10
20
150/
150
25/
15
4000/
4000
SO-8
FAN7190_F085
600
Bootstrap
10
22
140/
140
25/
20
4500/
4500
SO-8
Product
Number
Automotive Solutions
Advantages
• Short circuit protection
• Current limitation
• Thermal shutdown with restart
• Overvoltage protection
(including load dump)
• Very low standby current
• Fast demagnetization of inductive loads
• Open load detection in ON-state
• CMOS compatible input
Reliable, Integrated Smart High-Side Switches
Offer Space-Savings
Reliably and safely switching high currents into grounded resistive or inductive
loads is a necessity for designers of automotive applications. Fairchild has
developed a smart high-side switch family that specifically addresses advanced
electrical load—without relying on discrete MOSFET solutions. By integrating
protection and diagnostic features, you benefit from reduced component count
and PCB complexity, as well as better system reliability.
The family includes the FDDS100H06_F085 smart high-side switch, an
N-channel power MOSFET with charge pump, ground-referenced CMOScompatible input and diagnostic output with integrated protection functions.
The family also offers the FDBS09H04A_F085A and FDDS10H04A_F085A
smart high-side switches, incorporating an N-channel power MOSFET device
featuring a charge pump, current controlled input and diagnostic feedback with
load current sense and integrated Smart Trench chip-on-chip technology.
• ESD protection
• Optimized static electromagnetic compatibility
• Open drain fault output
• Qualified to AEC-Q100
Applications
• Body electronics
• Infotainment
• Portable navigation
• Powertrain
• Safety and control
Automotive Body, Lighting and Powertrain Applications
• Vehicle security systems
Product Number
RDS(ON) mΩ
ILOAD (A)
Supply Voltage (V)
Package
FDBS09H04A_F085A
9
48
5.5 to 38
TO263_7L
For more information, please visit:
FDDS10H04A_F085A
10
41
5.5 to 38
TO252_5L
fairchildsemi.com/pf/FD/FDBS09H04A_F085.html
fairchildsemi.com/pf/FD/FDDS10H04A.html
fairchildsemi.com/pf/FD/FDDS100H06_F085.html
FDDS100H06_F085
100
3
5.5 to 37
TO252_5L
30V Power33 MOSFETs
Advantages
• High performance technology for best-in-class RDS(ON) of 1.3mΩ max
• 3.3mm x 3.3mm industry-
standard form factor, PQFN – saves board space
• Lower power conduction loss
• Higher power density
• Higher efficiency
Reduce Board Space with
Best-in-Class Power Density
Power efficiency standards and end-system requirements are forcing designers to seek energy-efficient solutions that help shrink their applications’ power
supply form factor. Fairchild’s FDMC8010 30V Power33 MOSFET meets these
needs while improving power density—in a 3.3mm x 3.3mm PQFN form factor
that has a 66% footprint area savings.
Using Fairchild’s PowerTrench® technology, the FDMC8010 is well-suited for
applications where the lowest RDS(ON) is required in small spaces. In isolated
1/16th brick DC-DC converter applications, the Power33 MOSFET’s RDS(ON) of
only 1.3mΩ max, is 25% smaller than the competitive solution in this footprint.
Additionally, the device reduces conduction losses, thereby improving thermal
efficiency by up to 25%.
Applications
• Isolated DC-DC
synchronous rectification
• Point-of-load
synchronous buck conversion
• High efficiency load switch and low-side switching
• O-ring FET
For more information, please visit:
Shrink Your Design While Delivering Best-in-Class Power Density
fairchildsemi.com/pf/FD/FDMC8010.html
Product
Number
FDMC8010
BVDSS
(V)
ID (A)
TA = 25°C
25
30
RDS(ON) Max
10V
4.5V
1.3mΩ
1.8mΩ
Qg (nC)
0V to
4.5V
Qgd
(nC)
pF
CISS
Package
45
9.5
4405
PQFN
3.3mm x 3.3mm
(Power33)
Dual N-Channel PowerTrench® MOSFET
Advantages
• Control N-channel MOSFET with RDS(ON) = 5.4mΩ typical, (7.3mΩ max) at VGS = 4.5V
• Synchronous N-channel
MOSFET with RDS(ON) = 1.4mΩ typical, (2.1mΩ max) at VGS = 4.5V
• Low inductance packaging shortens rise/fall times, resulting in lower switching losses
• MOSFET integration enables optimum layout for lower circuit inductance and reduced switch node ringing
Achieve Highest Power Density, Efficiency in
Power Supply Designs
The challenge of providing higher power density and efficiency in less board
space goes hand-in-hand with the increasing requirements to provide added
functionality in high-density embedded DC-DC power supplies. A solution to
this dilemma, Fairchild’s FDPC8011S, has been developed to operate at higher
switching frequencies, and includes two specialized N-channel MOSFETs in a
dual package. The switch node has been internally connected to enable easy
placement and routing of synchronous buck converters. The control MOSFET
(Q1) and synchronous SyncFET™ (Q2) have been designed to provide optimal
power efficiency.
The FDPC8011S consists of a 1.4mΩ SyncFET technology and a 5.4mΩ control,
low figure of merit N-channel MOSFET integrated in an all-clip package, which
helps reduce the capacitor count and inductor size. The device’s source down,
low-side allows for simple placement and routing, enabling a more compact
board layout and achieving optimal thermal performance.
Applications
• Computing
• Communications
• General purpose point-of-load
For more information, please visit:
fairchildsemi.com/pf/FD/FDPC8011S.html
Power Clip Dual N-Channel PowerTrench® MOSFET
Product
Number
FDPC8011S
Schottky
Body
Diode
BVDSS
(V)
Yes
25
RDS(ON) Max
(mΩ)
@ 4.5V VGS
Qg Typ (nC) @
VGS = 4.5V
COSS Typ
(pF) High-Side
Dimension
(mm)
3.3 x 3.3
HighSide
LowSide
HighSide
LowSide
LowSide
HighSide
7.3
1.4
9
30
332
1126
Generation III XS™ DrMOS Family
Advantages
• 93% at peak and 91% at 30A, 500KHz frequency; 12VIN, 1VOUT
• 90% at peak and 88% at 30A, 1MHz frequency; 12VIN, 1VOUT
• High current handling: 60A @ 100°C TJ
• Capable of operating up to 1.5MHz switching frequency
• Eliminates need for a heat sink in typical designs
Highest Power Efficiency with the DrMOS Family
Achieve improved efficiency with >1MHz switching frequencies, increased maximum load current and greater power density with Fairchild’s Generation III XS™
DrMOS multi-chip mode module family. The FDMF68xx family achieves efficiency standards targets, while providing up to 60A per phase in a 6mm x 6mm
PQFN package. Both 3.3V and 5V Tri-State PWM input voltages for digital and
analog PWM controllers, and a 30V device option make the DrMOS family a
good choice for use in UltraBook™ systems.
Designed to enable a reduced inductor and output capacitor count, the
FDMF68xx series saves up to 50% of board space as compared to conventional
discrete solutions. The FDMF68xx series dramatically reduces switch ringing,
using Fairchild’s high-performance PowerTrench® MOSFET technology, eliminating the need for using a snubber circuit in most buck converter applications.
Applications
• Notebook or UltraBook™
power systems
For more information, please visit:
fairchildsemi.com/pf/FD/FDMF6820A.html
fairchildsemi.com/pf/FD/FDMF6820B.html
fairchildsemi.com/pf/FD/FDMF6820C.html
fairchildsemi.com/pf/FD/FDMF6823A.html
fairchildsemi.com/pf/FD/FDMF6823B.html
FDMS68xx Generation III XS™ Multi-chip Mode Module Family
fairchildsemi.com/pf/FD/FDMF6823C.html
fairchildsemi.com/pf/FD/FDMF6833C.html
fairchildsemi.com/pf/FD/FDMF6708N.html
PWM Input
Thermal
Protection
SMOD
or ZCD
MOSFET
BVDSS
Eff. @ 30A,
12VIN,
1VOUT,
500KHz
Eff. @ 40A,
12VIN,
1VOUT,
500KHz
60
3.3V Tri-State
Warning
SMOD
25
91.1%
89.2%
55
3.3V Tri-State
Warning
SMOD
25
90.8%
88.6%
50
3.3V Tri-State
Warning
SMOD
25
90%
87.4%
FMDF6823A
60
5V Tri-State
Warning
SMOD
25
91.1%
89.2%
FMDF6823B
55
5V Tri-State
Warning
SMOD
25
90.8%
88.6%
FMDF6823C
50
5V Tri-State
Warning
SMOD
25
90%
87.4%
50
5V Tri-State
Warning
SMOD
30
89.3%
86.1%
45
5V Tri-State
Warning
ZCD
30
87.6%
84.4%
Product
Number
IOUT
(A)
FDMF6820A
FDMF6820B
FDMF6820C
3.3V Tri-State
5V Tri-State
30 BVDSS
FDMF6833C
Notebook
FDMF6708N
P-Channel PowerTrench® MOSFETs
Advantages
• Occupies only 0.64mm2 of PCB area
• Ultra-thin package: less than 0.4mm height when mounted to PCB
• Excellent thermal characteristics
Save Space and Manage Thermal Issues
in Mobile Designs
Designers of mobile devices are challenged to save space, increase efficiency
and manage thermal issues in their end applications. Now minimizing both board
space and RDS(ON) in a miniature form factor is possible with the FDZ661PZ
and FDZ663P P-channel, 1.5V specified PowerTrench® thin WLCSP MOSFETs. These advanced WLCSP MOSFETs use a state-of-the-art “fine pitch,”
thin WLCSP packaging process which enables the devices to combine excellent thermal transfer characteristics, ultra-low profile (<0.4mm) and small
(0.8mm x 0.8mm) packaging, low gate charge, and low RDS(ON).
• HBM ESD protection level 2kV (FDZ661PZ)
Applications
• Battery management
• Load switch
• Battery protection
For more information, please visit:
fairchildsemi.com/pf/FD/FDZ661PZ.html
fairchildsemi.com/pf/FD/FDZ663P.html
State-of-the-Art Fine Pitch,Thin WLCSP for Mobile Devices
Product
Number
BVDSS
(V)
VGS
(V)
FDZ661PZ
-20
±8
FDZ663P
-20
±8
VGS(th) (V) Typ
-1.5VGS
- 4.5VGS
315mΩ
140mΩ
-1.5VGS
- 4.5VGS
288mΩ
134mΩ
RDS(ON)
(mΩ)
Max
Qg Typ
(nC) @
VGS =
4.5V
ID
(A)
PD
(W)
Package
6.3
8.8
-2.6
0.4
WLCSP
(0.8mm x 0.8mm)
5.9
8.2
-2.7
0.4
WLCSP
(0.8mm x 0.8mm)
Solutions for High-Voltage Applications
Advantages
• 10mm minimum creepage and clearance distance (FOD8320)
• 8mm minimum creepage and clearance distance (FOD8321)
• Use of P-channel MOSFETs at output stage enables output voltage swing close to the supply rail
• Fast switching speed over full operating temperature range
•400ns max. propagation delay (FOD8320)
•100ns max. pulse wide distortion (FOD8320)
• Under Voltage Lockout
(UVLO) with hysteresis
• Extended industrial temperate range: –40°C to 100°C
High-Voltage Insulation Reliability
in Small Form Factor
Achieve reliable and high-insulation voltage as well as high-noise immunity in
high-power industrial applications with Fairchild’s FOD8320 and FOD8321,
advanced 2.5A current output gate driver optocouplers. Utilizing Fairchild’s
Optoplanar® packaging technology and optimized IC design, both devices
are housed in a wide body 5-pin small outline package. The FOD8320
offers a compact footprint while allowing for a creepage and clearance
distance of greater than 10mm and an internal insulation distance of
0.5mm. The FOD8321 is an alternative for customers who do not require
the 10mm creepage and clearance distance but need the small form factor.
Both devices provide an extended industrial temperature range
(-40°C to 100°C) and are well suited for fast switching of power IGBTs and
MOSFETs used in industrial inverter applications.
6 VDD
ANODE 1
5 VO
CATHODE 3
Applications
4 VSS
Reliable High-Voltage Insulation
in Wide Body, SO5 Package
• AC and brushless DC motor drives
• Industrial inverters
• Uninterruptible power
supplies (UPSs)
Min Peak
Load
Current
(A)
Working
Voltage
(V)
CMH
CML
(V/µs)
TPLH / TPHL
(ns)
PWD
(ns)
VISO
(V)
Max
Min
Max
Max
Min
FOD8320
2.5
1,414
35,000
400
100
FOD8321
2.5
1,414
20,000
500
300
Product
Number
• Induction heating
• Isolated IGBT/Power MOSFET gate drivers
For more information, please visit:
fairchildsemi.com/pf/FO/FOD8320.html
fairchildsemi.com/pf/FO/FOD8321.html
Operating
Temp (°C)
Package
Type
5000
-40°C to
100°C
Wide Body
SO5
5000
-40°C to
100°C
Wide Body
SO5
650V IGBTs
Advantages
High-Voltage Blocking Capability
Without Sacrificing Performance
• Positive temperature co-efficient for easy parallel operation
The challenge of improving energy efficiency with heat and thermal regulation, while
keeping component count low, just became easier. Fairchild’s FGAxxN65SMD series
of 650V IGBTs for photovoltaic inverter applications addresses this need—
without sacrificing performance.
• Maximum junction temperature: TJ = 175ºC
• Low saturation voltage: VCE (sat) = 1.9V (typical) @ IC = 40A/60A rated current
• Fast switching speed
allows the system to
maintain high efficiency
• Low conduction and
switching loss
• Wide SOA (Safe Operating Area)—allows for higher
power dissipation • Tight parameter distribution
Fairchild’s Field Stop IGBT technology enables designers to develop a highly
reliable system design with higher input voltage while offering optimum
performance where low conduction and switching losses are essential.
This functionality means designs benefit from high current handling capability,
positive temperature coefficient, tight parameter distribution and a wide safe
operating area.
98.00
97.00
System Efficiency (%)
• High-current capability
enables high power
DC-AC conversion
96.00
40N65SMD
40N60SMD
95.00
Competitor A
Competitor B
94.00
93.00
92.00
91.00
300
600
900
1500
2250
Applications
CEC (California Energy Commission) Weighted
Efficiency–Tested in PV Inverter System
• Solar PV inverter • Micro converter systems
• Central inverter systems
• Micro inverter systems
Q1
Q3
Grid
• UPS, SMPS, welder and
PFC applications
Q2
Q4
Application Diagram of Central MPPT System
(Full-bridge Inverter)
For more information, please visit:
fairchildsemi.com/pf/FG/FGA40N65SMD.html
fairchildsemi.com/pf/FG/FGA60N65SMD.html
fairchildsemi.com/applications/
solar-inverter/index.html
fairchildsemi.com/onlineseminars/
3000
POUT (Output Power) (W)
Product
Number
BVCES
(V)
IC @
100°C
(A)
Vce(sat)
Typ
@ 25°C,
15V (V)
EOFF
Typ
@
25°C
(mJ)
PD @
25°C
(W)
VF Typ
@
25°C
(V)
trr Typ
@
25°C
(ns)
TJ
(max)
(°C)
Package
FGA40N65SMD
650
40
1.9
0.26
349
2.1@
20A
42 @
20A
175
TO-3PN
FGA60N65SMD
650
60
1.9
0.45
600
2.1@
30A
47 @
30A
175
TO-3PN
40/60/80V PowerTrench® MOSFETs
Advantages
• Smaller package size
(Power56 and TO-220 3-lead) with maximum thermal
performance to system size
• Lower Qg to reduce gate
driving loss
• Low Qgd/Qgs ratio to
prevent undesirable turn-on, improving system reliability
• Low dynamic parasitic
capacitances to reduce gate driving loss for high-
frequency applications
Mid-Voltage MOSFETs Enhance Synchronous
Rectification in SMPS Designs
Designers of AC-DC power systems need cost-effective power supply solutions
that minimize board space while increasing efficiency and reducing power dissipation. Power density and light-load efficiency improvement are also key issues.
Part of the expanded PowerTrench ® MOSFET family, Fairchild’s newest
mid-voltage power MOSFET portfolio of optimized power switches meets these
needs. The family combines a small gate charge (Qg), a small reverse recovery
charge (Qrr) and a soft-reverse recovery body diode, allowing for fast switching speeds. Available in a 40V, 60V and 80V rating, these devices require less
snubber circuitry due to an optimized soft-body diode that reduces voltage spikes
by up to 15% over the competitor’s solution.
The first devices available include the 40V FDMS015N04B and 80V
FDMS039N08B available in a Power56 package, and the 60V FDP020N06B
and 80V FDP027N08B available in a TO-220 3-lead package.
Test condition: VDD = 40V, Id = 50A, Vgs = 0V-10V
180
Applications
169.2
160
134.1
140
Qg (nC)
• Synchronous rectification
for server/telecom PSU
120
100
80
60
• Battery charger and
battery protection circuit
40
20
0
• DC motor drives and
uninterruptible power
supplies
FDP027N08B
Competitor A
Test condition: VDD = 40V, Id = 50A, di/dt = 500A/μs, TJ = 25°C
350
• Micro solar inverter
323.5
300
269.7
Qg (nC)
250
For more information, please visit:
fairchildsemi.com/products/mosfets/powertrench.html
fairchildsemi.com/pf/FD/FDMS015N04B.html
fairchildsemi.com/pf/FD/FDMS039N08B.html
fairchildsemi.com/pf/FD/FDP020N06B.html
fairchildsemi.com/pf/FD/FDP027N08B.html
200
150
100
50
0
FDP027N08B
Competitor B
Benchmarking of Reduced Reverse Recovery
Charge (Qrr) and Reduced Gate Charge (QG)
Product Number
BV (V)
RDS(ON) (mΩ)
Qg (nC)
Package
FDP020N06B
60
2
204
TO220
FDP027N08B
80
2.7
137
TO220
FDMS039N08B
80
3.9
77
PQFN56
FDMS015N04B
40
1.5
87
PQFN56
Integrated PWM Controller
Advantages
• Low power consumption
of 25mW with no-load
• No auxiliary bias winding
• Saves 50% board space, reduces BOM
Applications
• Motion control—home
appliance and industrial motors
• Smart grid
Minimize Components, Achieve Higher Power
Conversion Efficiency
SMPS designers face several design complexities: space constraints, along with
the need for cost-effective power supply solutions with high energy efficiency,
optimized system performance and improved reliability. Fairchild now offers a
solution: the FSL206MR integrated pulse width modulator (PWM) controller.
With integrated protection circuitry, the controller improves SMPS reliability and
saves board space.
Part of the Green Mode Fairchild Power Switch (FPS™) device family, the
integrated PWM controller with avalanche-rugged SenseFET includes an internal
regulator, eliminating the need for an auxiliary bias winding. This highly integrated
PWM controller includes a built-in, high-voltage startup and full-protection
circuitry that saves board space and total bill of material (BOM) costs. Optimized
for efficiency and power dissipation with burst-mode operation, when the input
voltage is 265VAC , the devices can reach power loss of 150mW with no-bias
winding and 30mW with bias winding at no-load condition.
• Smart meter
For more information, please visit:
fairchildsemi.com/pf/FS/FSL206MR.html
AC
IN
DC
OUT
Design Support:
Vstr
The FSL206MRx family is supported by
Fairchild’s Power Supply WebDesigner (PSW),
an easy-to-use, powerful online design tool
that allows designers to further customize and
fine tune their designs without having to build a
bench prototype.
Ipk
Drain
PWM
Vfb
Vcc
Source
Typical Application Diagram
Evaluation Board
Integrated PWM Controller Evaluation Board
is now available featuring the FSL206MRN,
a PWM controller with integrated MOSFET.
This board targets 5W auxiliary power
supply applications.
The Power Supply WebDesigner and evaluation
board are both available at:
www.fairchildsemi.com/pf/FS/FSL206MR.html.
Product
Number
BVBURH
(V)
BVBURH
(V)
BVDSS
(V)
Switching
Frequency
(kHz)
Max Pout
Open Frame
(85-265VAC)
(W)
RDS(ON)
Max
(W)
Current
Limit
(A)
Package
Option
FSL206MRN
0.83
0.74
650
67
7
19
0.6
DIP-8
FSL206MRL
0.83
0.74
650
67
7
19
0.6
LSOP-8
0.5
0.35
650
67
7
19
0.6
DIP-8
FSL206MRBN
Various Protections: Overload Protection (OLP), Over-Voltage Protection (OVP), Low Under-Voltage Lockout
(UVLO), Line Under-Voltage Protection (LUVP), Abnormal Over-Current Protection (AOCP),
Output-Short Protection (OSP), Thermal Shutdown (TSD), Auto-Restart Mode for All Protections
ENGINEERING CONNECTIONS
Advances in LED and LED Driver Technology Pave the Way for Significant
Reductions in Global Power Usage and Cleaner Environment
The following article is a condensed version of Fairchild’s backgrounder on solutions to LED driver challenges.
Low Power Designs (<20W), include applications such as
light strips (1.5-5.0W), R-Lamps (5-10W), bulbs (3-20W)
and down lights (10-20W). The specific implementation
challenges with these applications include: (1) small lamp
size which limits component selection to the smallest
available packages, (2) small design volume, which requires
the use of low profile components and (3) cost.
The global demand for highly efficient LED products has
grown dramatically over the past 10 years, to the extent
that today’s products are rapidly encroaching on the $100
billion fluorescent light market which has flourished over
the past 130 years(1). Recent improvements in this 40-year
technology have resulted in “clean,” reliable and highly
efficient products which are already dominating in many
rapidly growing applications. LEDs are now the preferred
lighting source for mobile phones, full-motion signs,
traffic signals, automotive dashboards, digital
cameras, backlighting units for displays in notebook
computers, desktop monitors, flat-panel televisions, and
stadium signage.
Mid-Power Designs (20-50W), include applications in
the range of 20-50W, such as down lights, and L-lights.
The designer’s challenges with these applications include:
(1) limited board space, (2) available topologies that are
inherently low-efficiency, (3) need for high reliability
components and (4) power factor correction (PFC)
is required, which then increases component count.
Fairchild’s solutions for mid-power designs address these
challenges by utilizing a single-stage PFC flyback topology.
100
Flux/package (Im)
10
High-Power Designs (50-400W), include applications in
the range of 50-400W such as flat lights, street, stadium,
stage lighting, wall washing and signage. The designer’s
challenges with these applications include: (1) high
component count, (2) cost, (3) low overall system efficiency
and (4) increased complexity. Fairchild offers two highly
integrated high-power solutions: two-stage PFC flyback
and Quasi-Resonant (QR) flyback topology and the twostage PFC flyback and LLC half-bridge topology.
1
0.1
0.01
0.001
0.0001
1970
1975
1980
1985
1990
1995
2000
Year
The light output of LEDs has essentially doubled every 36 months since 1960.
Design Challenges for LEDs and LED Drivers
As LED capabilities improved, so too did the importance
of driver technology. Performance criteria such as LED
color temperature and shifting, efficacy and flickering,
and overall operating efficiency all became associated with
the LED driver. Legacy LED driver topologies that had
used older solid state designs and voltage regulators cannot
support new LED design performance targets. Continuous
advancements in LED performance have the effect of
requiring new topologies and more LED driver choices for
specific output power ranges and applications.
Applications and Design Support
Fairchild’s constantly expanding product portfolio,
combined with manufacturing process enhancements,
innovative topologies and our deep systems expertise
allow circuit designers to develop the most advanced
solution to their present and future needs.
Learn more about Fairchild’s total LED solutions.
(1) CFL Market Profile, March 2009, U.S. Department of Energy
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PRODUCTS
Power Management
Power Factor Correction
• Continuous Conduction
Mode (CCM) PFC Controllers
• Critical/Boundary Conduction
Mode (CrCM/BCM)
PFC Controllers
• Interleaved PFC Controllers
• PFC + PWM Combination (Combo)
Controllers
Off-Line and Isolated DC-DC
• AC-DC Linear Regulators
• Flyback & Forward
PWM Controllers
• Flyback & Forward
PWM Controllers with
Integrated MOSFET
• LLC Resonant & Asymmetric Half
Bridge PWM Controllers
• LLC Resonant & Asymmetric
Half Bridge PWM Controllers
with Integrated MOSFETs
• Primary-Side Regulation
CV/CC Controllers
• Primary-Side Regulation CV/CC
Controllers with Integrated MOSFET
• Standard PWM Controllers
• Supervisory/Monitor ICs
Non-Isolated DC-DC
• Charge-pump Converters
• DrMOS FET plus Driver
Multi-Chip Modules
• Step-down Controllers
(External Switch)
• Step-down Regulators,
Non-Synchronous
(Integrated Switch)
• Step-down Regulators, Synchronous
(Integrated Switch)
• Step-up Regulators
(Integrated Switch)
MOSFET and IGBT Gate Drivers
• 3-Phase Drivers
• Half-Bridge Drivers
• High-Side Drivers
•Low-Side Drivers
• Synchronous Rectifier Drivers
Voltage Regulators
•LDOs
• Positive Voltage Linear Regulators
• Negative Voltage Linear Regulators
• Shunt Regulators
• Voltage Detector
• Voltage Stabilizer
• Voltage to Frequency Converter
APPLICATIONS
DESIGN SUPPORT
ABOUT FAIRCHILD
Motion Control
• BLDC/PMSM Controller
•SPM®
(Smart Power Modules)
• PFC SPM® (Smart Power Modules)
Interface
• LVDS
• Serializers/Deserializers
(µSerDes™)
• USB Transceivers
Diodes & Rectifiers
• Bridge Rectifiers
•Transient
Voltage Suppressors (TVS)
•Diacs
•Rectifiers
• Schottky Diodes & Rectifiers
• Small Signal Diodes
• Zener Diodes
Signal Conditioning
• Video Filter Drivers
• Video Switch Matrix/Multiplexers
IGBTs
• Discrete IGBTs
MOSFETs
• Discrete MOSFETs
•Integrated Load Switches
• MOSFET/Schottky Combos
Transistors
•BJTs
•Darlingtons
• Digital/Bias-Resistor Transistors
•JFETs
• RF Transistors
• Small Signal Transistors
Advanced Load Switches
• Advanced Current Limited
Load Switches
• Slew Rate Controlled Load Switches
Battery Management
• Battery Charger ICs
• Current Sensing
Ground Fault Interupt Controllers
• Ground Fault Interrupt
(GFI) Controllers
Backlight Unit (BLU)
• CCFL Inverter ICs
ANALOG & MIXED SIGNAL
Amplifiers & Comparators
• Comparators
• Operational Amplifiers
Audio Amplifiers
• Audio Subsystems
• Audio Headphone Amplifiers
• Digital Microphone Amplifiers
• Audio Speaker Amplifiers
Battery Protection ICs
• Battery Protection ICs
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Fairchild Semiconductor or their respective owners. For a listing of Fairchild Semiconductor
trademarks and related information, please see: www.fairchildsemi.com/legal
Lit code: 977044-001 © 2012 Fairchild Semiconductor. All Rights Reserved.
LIGHTING ICs
• Fluorescent Lamp ICs
• HID ICs
• LED Lighting ICs
• Portable LED Drivers
Signaling, Sensing & Timing
• Signaling, Sensing & Timing
• Timing
Switches
• Accessory Switches
• Analog Switches
• Audio Jack Detection Switches
• Audio Switches
• Bus Switches
• MIPI Switches
• Multi-media Switches
• USB Switches
• Video Switches
Logic
Buffers, Drivers, Transceivers
• Buffers
• Line Drivers
• Transceivers
Flip Flops, Latches, Registers
• Counters
• Flip Flops
• Inverters
• Latches
• Registers
Gates
• AND Gates
• NAND Gates
• OR Gates
• NOR Gates
• Schmitt Triggers
• Configurable Gates
Multiplexer/Demultiplexer/
Decoders
• Decoders
• Demultiplexers
• Multiplexers
• Multivibrators
Voltage Level Translators
• Voltage Level Translators
Optoelectronics
High Performance Optocouplers
• Low Voltage, High Performance
• High Speed Logic Gate
• High Performance Transistor
• Specific Function
Infrared
• Emitting Diodes
• Photo Sensors
• Photo Sensor – Transistors
• Ambient Light Sensors
• Reflective Sensors
• Optical Interrupt Switches
Phototransistor Optocouplers
• Isolated Error Amplifier
• Phototransistor Output DC Sensing Input
• Phototransistor Output AC Sensing Input
• Photo Darlington Output
TRIAC Driver Optocouplers
• Random Phase TRIAC Driver
• Zero Crossing TRIAC Driver
IGBT/MOSFET Gate Drivers
• IGBT/MOSFET Gate Drivers
AUTOMOTIVE PRODUCTS
Automotive Discrete Power
• Automotive Ignition IGBTs
• Automotive IGBTs
• Automotive N-Channel MOSFETs
• Automotive P-Channel MOSFETs
• Automotive Rectifiers
Automotive Gate Drivers (HVICs)
• High Voltage
Gate Drivers (HVICs)
Automotive Smart Power Switches
• Automotive Smart Power Switches
CIRCUIT PROTECTION
Reverse Polarity Protection
• Reverse Bias Protection Switches
• Schottky diodes
• Blocking Diodes
Transient Voltage Suppressors (TVS)
• Power TVS (> 400W)
• Mid Power TVS
Solutions for Your Success™