BDTICPower Factor Correction (PFC) Parts Selection GuideInfineon Controllers, CoolMOS™ & SiC thinQ!™ Diodes
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BDTIC
Power Factor Correction (PFC) Parts Selection GuideInfineon Controllers, CoolMOS™ & SiC thinQ!™ Diodes
Power factor correction BASICS
PFC Simulation*
DCM1) Highest efficiency (not ON through full cycle limits conduction losses)
2) Triangular waveform causes EMI due to di/dt changes. (also high ripple)
3) Normally below 300W. (EMI is costly to get rid of above 300W topologies).Passive and active PFC explained
Passive PFC Active PFC
Power Factor Correction is a technique of shaping the input current so that it will in-phase with the input
voltage in an AC circuit. The purpose of it is to minimize the unwanted effects (harmonic distortion)
introduced by electronic equipments in the power system and utilizing the usable power in the mains.
AC input current is lagging with respect to AC input voltage hence both current and voltage are not purely in-phase.
AC input current is almost perfectly in-phase with AC input voltage.
CCM1) Fast turn on needed, requires fast PFC diode. Good fit for SiC Diode.
2) Trapezoidal current waveform with low ripple (lower di/dt so EMI easier to get rid of)
3) Normally 300W and above
Difference between DCM and CCM mode PFCWhat is PFC?
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No PFC
Typical input current without harmonic line current reduction
Passive PFC Typical input current with
passive Harmonic line current reduction Pros:
– Simple and rugged circuitry – Cheaper than active PFC
Cons: – Not able to effectively
eliminate line current harmonics
– Bulky and heavy magnetics required
– Not possible for universal input range
Active PFC Typical input current with
active harmonic line current reduction Pros:
– Extensive suppression of line current harmonics
– Can comply with regulatory requirements such as IEC 61000-3-2 (Limits for harmonic current emissions)
– Able to operate in universal
input range Cons:
– Complex and costly circuitry
Vin
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Iin
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* Source: EPSMA, Harmonic Current Emissions. Guideluines to the standard EN 61000-3-2, Nov. 2010 www.BDTIC.com/infineon
BDTICAll rights reserved. © 2013 Infineon Technologies AGOrder Number: B152-H9804-X-X-7600-DB2012-0013
Date: 04/2013
Active Power Factor Correction
Discontinous Conduction Mode (DCM) or Continous Conduction Mode (CCM)
PFC Topologies
CoolMOS™, SiC thinQ!™ Diodes & Controllers
Applications
CoolMOS™ P6 series
SiC thinQ!™ Generation 5 Diodes
CCM PFC ControllerICExPCxx
Standard Interleaved
PC Silverbox/AIO
Server
C5 C8 Compact LampHID Lighting HID
DCM CCM
Standard Interleaved Dual Boost (bridgeless)
CoolMOS™ C7 or P6 series
Telecom
LCD TV/Adapter
All in One PC (AIO)
Notebook/Adapter
DCM PFC ControllerTDA48xx
Power Factor Correction (PFC) Selection Guide
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BDTICTopologies
ICE3PCSxx
Cool
MO
S™
TDA486xx
AC
Cool
MO
S™
Cool
MO
S™SiC Diode
L1
L2 SiC Diode
400V
AC
Cool
MO
S™
Cool
MO
S™Si
C D
iode
SiC
Dio
de
L1
L2
400V
Cool
MO
S™
SiC Diode
AC
AC
ICE3PCSxx
Cool
MO
S™
TDA486xx
AC
Cool
MO
S™
Cool
MO
S™SiC Diode
L1
L2 SiC Diode
400V
AC
Cool
MO
S™
Cool
MO
S™Si
C D
iode
SiC
Dio
de
L1
L2
400V
Cool
MO
S™
SiC Diode
AC
AC
ICE3PCSxx
Cool
MO
S™
TDA486xx
AC
Cool
MO
S™
Cool
MO
S™
SiC Diode
L1
L2 SiC Diode
400V
AC
Cool
MO
S™
Cool
MO
S™Si
C D
iode
SiC
Dio
de
L1
L2
400V
Cool
MO
S™
SiC Diode
AC
AC
ICE3PCSxx
Cool
MO
S™
TDA486xx
AC
Cool
MO
S™
Cool
MO
S™
SiC Diode
L1
L2 SiC Diode
400V
AC
Cool
MO
S™
Cool
MO
S™Si
C D
iode
SiC
Dio
de
L1
L2
400V
Cool
MO
S™
SiC Diode
AC
AC
Standard DCM PFC
Used in cost performance applications up to 300W,Controller, CoolMOS™ but no SiC thinQ!™ Diode
Interleaved CCM PFC
Higher power applications 2 CoolMOS™ and 2 SiC thinQ!™ Diode used
Standard CCM PFC
Used in applications above 300W Controller, CoolMOS™ & SiC thinQ!™ Diode used
Dual boost (Bridgeless)
Used in critical efficiency applications. Removes losses from input bridge rectifier diodes
Can save around 1.5% efficiency
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BDTICInfineon Parts (CoolMOS™ & thinQ!™)
Silicon Carbide Diode (SiC) thinQ!™ Gen 5
650VTO-220 R2L TO-247 New! D2PAK R2L New! ThinPAK 8x8 New!
2A IDH02G65C5 IDK02G65C5 IDL02G65C53A IDH03G65C5 IDK03G65C54A IDH04G65C5 IDK04G65C5 IDL04G65C55A IDH05G65C5 IDK05G65C56A IDH06G65C5 IDK06G65C5 IDL06G65C58A IDH08G65C5 IDK08G65C5 IDL08G65C59A IDH09G65C5 IDK09G65C5
10A IDH10G65C5 IDW10G65C5 IDK10G65C5 IDL10G65C512A IDH12G65C5 IDW12G65C5 IDK12G65C5 IDL12G65C516A IDH16G65C5 IDW16G65C520A IDH20G65C5 IDW20G65C530A IDW30G65C540A IDW40G65C5
1.31.21.11.00.90.80.70.60.50.40.30.20.10.0
1.61.51.41.31.21.11.00.90.80.70.60.50.40.30.20.10.0
0 100 200 300 400 500 600 700 800 900 1000
0 100 200 300 400 500 600 700 800 900 1000
Efficiency Difference High Line
Efficiency Difference Low Line
Pout [W]
Pout [W]
Diff
eren
ce [%
]D
iffer
ence
[%]
CP/Gen2C7/Gen5CP/Gen2C7/Gen5
CP/Gen2C7/Gen5
1.31.21.11.00.90.80.70.60.50.40.30.20.10.0
1.61.51.41.31.21.11.00.90.80.70.60.50.40.30.20.10.0
0 100 200 300 400 500 600 700 800 900 1000
0 100 200 300 400 500 600 700 800 900 1000
Efficiency Difference High Line
Efficiency Difference Low Line
Pout [W]
Pout [W]
Diff
eren
ce [%
]D
iffer
ence
[%]
CP/Gen2C7/Gen5CP/Gen2C7/Gen5
CP/Gen2C7/Gen5
900W CCM PFC PSUEfficiency difference shown between CP/G2 SiC Diode & C7/G5 SiC Diode
CoolMOS™ P6 600V
RDS(on)
[mΩ]
ThinPAK8 x 8
TO-252DPAK
TO-220 TO-220 FullPAK
TO-247
600 IPD60R600P61) IPP60R600P61) IPA60R600P61)
380 IPD60R380P62) IPP60R380P62) IPA60R380P62)
280 IPP60R280P62) IPA60R280P62) IPW60R280P62)
230/255 IPL60R255P62) IPP60R230P62) IPA60R230P62) IPW60R230P62)
190/210 IPL60R210P62) IPP60R190P61) IPA60R190P61) IPW60R190P61)
160/180 IPL60R180P62) IPP60R160P62) IPA60R160P62) IPW60R160P62)
125 IPP60R125P62) IPA60R125P62) IPW60R125P62)
99 IPP60R099P62) IPA60R099P62) IPW60R099P62)
70 IPW60R070P62)
41 IPW60R041P62)
New!
CoolMOS™ C7 650V
RDS(on)
[mΩ]
ThinPAK8 x 8
TO-252DPAK
TO-263D2PAK
TO-220 TO-220 FullPAK
TO-247 TO-247-4
225/230 IPL65R230C7 IPD65R225C7 IPB65R225C7 IPP65R225C7190/195 IPL65R195C72) IPD65R190C72) IPB65R190C72) IPP65R190C72) IPW65R190C72)
125/130 IPL65R130C7 IPB65R125C72) IPP65R125C72) IPA65R125C7 3) IPW65R125C72)
95/99 IPL65R099C72) IPB65R095C72) IPP65R095C72) IPA65R095C7 3) IPW65R095C72) IPZ65R095C72)
65/70 IPL65R070C72) IPB65R065C72) IPP65R065C72) IPA65R065C7 3) IPW65R065C72) IPZ65R065C72)
45 IPB65R045C7 IPP65R045C7 IPA65R045C7 3) IPW65R045C7 IPZ65R045C719 IPW65R019C7 IPZ65R019C7
New!
1) Samples available by Q2/20132) Samples available by Q3/20133) Samples available by Q4/2013
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BDTICInfineon Parts (Controllers)
Product PackageTDA4862 DIP-8 and SO-8TDA4863 / TDA4863-2 DIP-8 and SO-8
Discontinuous Continuous Conduction Mode (DCM) Power Factor Correction IC Portfolio
TDA4862Power Factor Controller (PFC) IC for high-power factor and active harmonic filter
IC for sinusoidal line-current consumption Power factor approaching 1 Controls boost converter as an active harmonics filter Internal start-up with low current consumption Zero current detector for discontinuous operation mode High current totem pole gate driver Trimmed ±1.4% internal reference Undervoltage lock out with hysteresis Very low start-up current consumption Pin compatible with world standard Output overvoltage protection Current sense input with internal low pass filter Totem pole output with active shutdown during UVLO Junction temperature range -40 to +150°C
Available in DIP-8 and SO-8 packages
TDA4863 / TDA4863-2Power Factor Controller IC for high-power factor and low THD additional features to TDA4862
Reduced tolerance of signal levels Improved light load behavior Open loop protection Current sense input with leading edge blanking LEB Undervoltage protection
2nd Generation Continuous Conduction Mode (CCM) Power Factor Correction IC Features
Fulfills Class D Requirements of IEC 61000-3-2
Lowest count of external components Adjustable and fixed sw frequencies Frequency range from 20kHz to 285kHZ Versions with brown-out protection
available Wide input range supported
Enanched Dynamic Response during load jump
Cycle by Cycle Peak Current Limiting Integrated protections OVP, OCP DIP8 and DSO8 Leadfree, RoHS compliant
3rd Generation Continuous Conduction Mode (CCM) Power Factor Correction IC Features
Fulfills Class D Requirements of IEC 61000-3-2
Integrated digital voltage loop compensation Boost follower function Bulk voltage monitoring signals, brown-out Multi protections such as Double OVP
Fast output dynamic response during load jump
External synchronization Extra low peak current limitation threshold SO8 and SO14 Leadfree, RoHS compliant
Product Frequency (SW) Current Drives PackageICE2PCS01 50kHZ - 285kHZ 2.0 A
DIP-8ICE2PCS02 65 kHZ 2.0 AICE2PCS03 100 kHz 2.0 AICE2PCS04 133 kHz 2.0 AICE2PCS05 20 kHz - 250 kHz 2.0 AICE2PCS01G 50kHZ - 285kHZ 2.0 A
DS0-8ICE2PCS02G 65 kHZ 2.0 AICE2PCS03G 100 kHz 2.0 AICE2PCS04G 133 kHz 2.0 AICE2PCS05G 20 kHz - 250 kHz 2.0 A
2nd Generation Continous Conduction Mode (CCM) Power Factor Correction IC Portfolio
Product Frequency Current Drives Features PackageICE3PCS01G
Adjustable0.75A OVP+Brown-out DSO-14
ICE3PCS02G 0.75A OVP DSO-8ICE3PCS03G 0.75A Brown-out DSO-8
3rd Generation Continuous Conduction Mode (CCM) Power Factor Correction IC Portfolio
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