power management & supply ac/dc selection guide · power management & supply ac/dc...
TRANSCRIPT
ICs: SMPS, CoolSET TM – Discretes: CoolMOSTM, thinQ!TM May 2006
w w w . i n f i n e o n . c o m / p o w e r
Power Management & Supply
AC/DC Selection Guide
T O D A Y ’ S M O D E R N L I F E S T Y L E leads to a fast-growing energy
requirement as more and more people are able to afford electronic equipment.
Consumers can select from an ever-growing range of cellular phones, PDAs,
digital cameras, cordless phones, DVD players, VCRs, TV sets, LCD monitors,
notebook and desktop computers, and home appliances, to mention only a few.
The power consumption of these electronic devices continues to rise as a result
of ever-increasing functions.
E N E R G Y G E N E R A T I O N F R E Q U E N T L Y pollutes the environment
through radioactive waste and CO2. In order to compensate and reduce the pace
of these overly proportional growing energy requirements, we must use energy
more efficiently.
S W I T C H M O D E P O W E R S U P P L I E S (SMPS) represent today’s
most efficient energy conversion approach for electronic equipment.
Increasing the SMPS efficiency directly leads to energy savings during
the equipment’s operational time.
S O M E E L E C T R O N I C D E V I C E S operate only for a few hours during
the day, and are consequently in standby mode during the rest of the day.
Lowering the standby power consumption will save a considerable amount of energy.
A C O N T I N U O U S T R E N D towards system miniaturization has
accompanied the development of electronic equipment from the very beginning.
Simultaneously, the power rating of the devices increases. This means more
power in a smaller space – high-power density is the operative word.
T H E “ P O W E R & S U P P L Y ” group of Infineon Technologies focuses
its R&D activities on cost effectiveness, low standby power consumption,
high efficiency and power density. Today we are proud to serve our customers
with technologically leading products in many areas of an off-line SMPS,
power MOSFETs (CoolMOSTM, OptiMOS®2), Silicon Carbide Schottky diodes
(thinQ!TM), IGBTs, intelligent SMPS and PFC control ICs, and CoolSET TM
(SMPS control IC and CoolMOSTM in one package).
Introduction
2
Personal computer
C High-power density
CoolMOS
thinQ!TM Schottky diodes
OptiMOS®2
TDA16888
ICE1PC series PFC controller
C Low standby
Active burst mode of CoolSET
and ICE3 series controller
Server
C Ultra-high-power density
CoolMOS
thinQ! Schottky diodes
OptiMOS®2
TDA16888
ICE1PC series PFC controller
TV, DVD, VCR, Set-top Box
C Cost-effectiveness
Integrated solution CoolSET
Charge pump PFC
Peak load function of ICE3 series
C Low standby
Active burst mode of ICE3 series
Frequency reduction of ICE1QS01
C Low EMI
Quasi-resonant switching
Adapter
C High-power density
CoolMOS and CoolSET
C Low standby
Active burst mode of CoolSET
and ICE3 series controller
Lamp Ballast
C Cost-effectiveness
TDA486x series
PFC controller
Integrated solution PFC CoolSET
Charger
C Cost effectiveness
Integrated solution CoolSET TM
C Low standby
Active burst mode of CoolSET
LCD Monitor
C High-power density
CoolMOSTM and CoolSET
C Low standby
Active burst mode of CoolSET
and ICE3 series controller
OptiMOS®
2CoolMOSTM
thinQ!TM
CoolSET TM
PFC
Controller
AC
85 ... 265 V
PWM
Controller
DC
CoolMOSTM
/
IGBT
CoolSET TM
PFC
Applications, Requirements and Solutions
3
Contents
SMPS ICs
Fan Speed Controller
SMPS IC Overview
PWM Controller
Smart Ballast Controller
PFC and Combo Controller
CoolSET TM
SMPS Topologies
Discretes
N-Channel MOSFETs, 500 to 800 V (CoolMOSTM, Standard MOS)
Silicon Carbide Schottky Diodes (thinQ!TM Family)
Alphanumeric Listing
Packages
6
8
10
14
16
18
20
22
30
31
32
5
TDA21801 – Fan Speed Controller
W I T H T H E N E W fans peed controller TDA21801,
essential system monitoring features of switched mode
power supplies (SMPS) such as adjustable minimum fan
speed, fan ON/OFF and over-temperature protection (OTP)
can be easily implemented. Only few external compo-
nents added to the IC are necessary for it.
T H E T D A 2 1 8 0 1 is designed for applications
using 3- or 4-wire fan solutions like PC silver boxes,
Server silver box AC/DC converter and industrial/medical
power supplies.
BenefitsC Full control over fan speed due to precision reference
C Low system cost when replacing 4-wire fans
C Reduced noise level
C Increased safety of power supplies
FeaturesC In combination with 2-wire fans same functionality as
4-wire fan solution
C Overtemperature protection feature to protect system
and power supply
C Adjustable minimum fan speed (750 rpm to 4000 rpm)
C Fan speed can be increased by external PWM or
analogue signal
C DSO-8 Package/ROHS compliant
6
Digital
Integrator
Speed Value
Generator
+ OTP
Pulse
Detection
Logic Unit
VCO
Filter
Amplifier
Fan MBIAS
D
A
VDD
VDD
8
FanM
RC-VCO
CVCO
RVCO
GND
6
5
4
RSin
NTC
FCin
In Case of OTP 1 mA
TRSOUT
2
7
1
3
RRSin
RNTC
RBIAS
12 V
Block Diagram
Typical Application Circuit
Fa
n S
pe
ed
Co
ntr
oll
er
7
FAN+
FAN-
CON1
CFC
100 nF
CFAN
100 nF
RRSin
0.5 Ω
3
2
RFC
10 kΩ
1
4
8
7
6
5
FCin
RSin
TRSOUT
GND
VDD
NTC
FanM
RC-VCO
TDA21801
FCin VDD
CVDD
100 nF
CVCO
3.3 nF
RVCO
220 kΩRBIAS
3.6 kΩ
CNTC
100 nF
FanM
RNTC
22 kΩ
To OVP
DOVPFan Speed Controller
Q1
* Depending on topology and switching transistor
** Only available in ISODRAIN package
PWM Controller
Quasiresonant Fixed Frequency
TDA4605-2
TDA4605-3
General
purpose
control IC
CVT, VCR,
adapter
Quasiresonant
< 200 kHz
approx. 20 kHz
unlimited
✓
5 W/400 mW
–
–
*
*
–
–
–
–
✓
✓
✓
✓
✓
✓
–
✓
–
✓
–
✓
–
–
11 mA
7.5 ... 15.5 V
DIP-8
–
–
TDA16846
TDA16847
Universal,
high
performance
control IC
including
low-power
standby and
power factor
correction
CTV, VCR,
set-top-box,
adapter
Quasiresonant
Fixed Frequency
Synchronized
< 250 kHz
adjustable in fixed
frequency mode
adjustable
unlimited
✓
< 1 W/400 mW
–
–
*
*
–
–
–
Charge Pump
✓
✓
✓
✓
✓
✓
TDA16847
✓
–
✓
–
✓
–
–
5 mA
8 ... 16 V
DIP-14
DSO-14
–
ICE1QS01
ICE1QS02
PWM Control IC
including
advanced burst
mode, PFC and
frequency
reduction for
best-in-class
efficiency
ratings + active
burst mode +
start up cell
CTV, VCR,
adapter
Quasiresonant
< 250 kHz
20 kHz
unlimited
✓
< 1 W/400 mW
–
–
*
*
–
–
–
Charge Pump
✓
✓
✓
✓
✓
✓
–
✓
–
✓
–
✓
–
–
10 mA
9 ... 20 V
DIP-8
DSO-8
–
ICE2A(B)S01
ICE3A(B)S02
ICE3BS02L
General purpose
Control IC
Applications
exceeding
the max. power
range of CoolSET:
charger, adapter,
auxiliary power
supplies,
low end CTV,
set-top-box, DVD
Fixed Frequency
100 kHz (67kHz)
21 kHz
72%
–
< 1 W/no load
–
✓
*
*
–
–
–
–
✓
✓
✓
–
✓
✓
–
✓
–
–
✓
–
–
–
6.5 mA
8.5 ... 21 V
DIP-8
DSO-8
–
ICE3DS01
General purpose
Control IC with
enhanced
ICE2A(B)S01
features
Applications
exceeding
the max. power
range of CoolSET:
charger, adapter,
auxiliary power
supplies,
low end CTV,
set-top-box,
DVD, LCD
Fixed Frequency
110 kHz
–
72%
–
100 mW/no load
480 mW/300 mW
✓
*
*
–
–
✓
–
✓
✓
✓
–
✓
✓
✓
✓
–
–
✓
✓
✓
–
7.2 mA
8.5 ... 21 V
DIP-8
DSO-8
–
TDA16850-2
Control with
special features
for CRT monitor
applications
Monitors,
CTVs,
adapters,
chargers
Fixed Frequency
synchronized
60 kHz fixed
< 130 kHz synchr.
20 kHz
60%
–
< 1 W/no load
–
✓
–
–
–
✓
–
–
✓
✓
–
–
✓
✓
–
✓
–
–
✓
–
–
–
3 … 10 mA
8.5 ... 22 V
DIP-8
–
–
Typical Application
General Features
Operating mode
Switching frequency
Standby frequency
Maximum duty cycle
Primary regulation without additional components
Standby power
Low standby power mode active burst mode
Soft switching for low EMI
Maximum drain-source voltage @ 125˚C Tj
Power range (85 ... 270 V) without heat sink
Power range (190 ... 270 V) without heat sink
Integrated auxiliary power supply
Integrated 500V start-up cell
PFC functionality
Protection Features
Undervoltage lock-out
Overload and open loop correction
Overload protection
Secondary undervoltage
Cycle by cycle current limitation
Sophisticated power limitation management
Temporary high-power circuit
Adjustable peak current limitation via external resistor
Current limitation via internal sense field
Demagnetization protection
Thermal shut-down (with auto-restart)
Auto restart mode for all protection features
Latch-off mode
Brown out protection
Supply current with active gate (typ.)
VCC operating range
DIP-package
SMD-package
ISODRAIN-package
SMPS IC
Overview
8
Combo
Fixed FrequencyPWM+CCM PFC
PFC Controller CoolSET TM : Controller with CoolMOS TM in one Package
CCM DCM
TDA16888
High performance
power combi
controller
including PFC and
PWM stage
Industrial aircon,
motor drive,
PC, server,
adapter
Fixed Frequency
Continuous
Conduction Mode
up to 200 kHz
PWM 0 kHz/PFC 50%
PWM 50%/PFC 94%
–
< 1 W/no load
–
✓
✓
–
–
✓
–
✓
✓
✓
✓
output undervoltage protection
PWM ✓ PFC ✓
–
–
✓
–
–
–
–
–
–
15 ... 40 mA
14 ... 19 V
DIP-20
DSO-20
–
ICE1PCS01
ICE1PCS02
Standalone
PFC controller for
boost topology
with advanced
diode protection
Industrial, PC,
motor drive,
white goods
Fixed Frequency
up to 250 kHz
67 kHz
–
95% @ 125 kHz
–
–
–
–
–
–
–
–
–
✓
✓
✓
✓
✓
✓
–
✓
–
–
–
–
–
✓
18 @ 125 kHz
10 ... 22 V
DIP-8
DSO-8
–
TDA4862
TDA4863
TDA4863-2
PFC Controller for
high-power factor
and active
harmonic filter
Ballast, CTV,
PC monitor,
adapter
Discontinuous
Conduction Mode
Free-running
30 ... 300 kHz
–
98%
–
n/a
✓
–
–
–
–
–
–
✓
✓
✓ **
✓
✓
–
–
✓
–
✓
–
–
–
–
4 mA
12.5 ... 20 V
DIP-8
DSO-8
–
F3 Series ICE3A(B)0365
ICE3A(B)0565
ICE3A(B)1065
ICE3A(B)1565
ICE3A(B)2065
ICE3A(B)2565
ICE3A0365L
ICE3A1065L
ICE3A1565L
Full protection
features + low
power standby
mode and internal
leading edge
blanking +
softstart + active
burst mode +
startup cell + built-in
blanking window +
latch-off mode
Charger,
auxiliary supplies,
PC & Display
standby supply,
adapter,STB,
DVD,VCR
Fixed Frequency
100 kHz
(67)
–
50%
–
✓
✓
✓
650 V
–
–
650 V startup cell
–
–
✓
✓
✓
✓
✓
✓
–
✓
✓
–
✓
✓
✓
–
5.5 ... 8.1 mA
8.5 ... 21 V
DIP-8/DIP-7
DSO-16-12
–
F3 Jitter Series ICE3B0365(J)
ICE3B0565(J)
ICE3B1065(J)
ICE3B1565(J)
Full protection
features + low
power standby
mode and internal
leading edge
blanking +
softstart + active
burst mode +
startup cell +
built-in blanking
window + jittering
Charger,
auxiliary supplies,
PC & Display
standby supply,
adapter,STB,
DVD,VCR
Fixed Frequency
67 kHz
–
50%
–
✓
✓
✓
650 V
–
–
650 V startup cell
–
–
✓
✓
✓
✓
✓
✓
–
✓
✓
–
✓
✓
–
–
2.5 mA
10.3 ... 261 V
DIP-8/DIP-7
DSO-16-12
–
F3 IsodrainICE3A(B)2065P
ICE3A(B)3065P
ICE3A(B)3565P
ICE3A(B)5065P
ICE3A(B)5565P
Full protection
features + low
power standby
mode and internal
leading edge
blanking + softstart +
active burst mode +
startup cell +
built-in blanking
window
Charger,
auxiliary supplies,
PC & Display
standby supply,
adapter,STB,
DVD,VCR
Fixed Frequency
100 kHz
(67)
–
72%
–
–
–
✓
650 V
–
–
650 V startup cell
–
–
✓
✓
✓
✓
✓
✓
–
✓
✓
–
✓
✓
–
–
5.7 ...7.6 mA
8.5 ... 21 V
–
–
TO220-6
F2 650V SeriesICE2A(B)0565
ICE2A0565
ICE2A0565
ICE2A(B)165
ICE2A(B)265
ICE2A(B)365
ICE2A(B)765**
Full protection
features + low
power standby
mode and
internal
leading edge
blanking +
softstart
Charger,
auxiliary supplies,
PC & Display
standby supply,
adapter,STB,
DVD,VCR
Fixed Frequency
100 kHz
(67)
down to 21 kHz
72%
–
–
–
✓
650 V
–
–
–
–
–
✓
✓
✓
✓
✓
✓
–
✓
–
–
✓
✓
–
–
5.3 ... 8.5 mA
8.5 ... 21 V
DIP-8/DIP-7
DSO-16/12
–
F2 800V SeriesICE2A180
ICE2A280
ICE2A380**
Full protection
features + low
power standby
mode and
internal
leading edge
blanking +
softstart
Charger,
auxiliary supplies
PC & Display
standby supply,
adapter,STB,
DVD,VCR
Fixed Frequency
100 kHz
down to 21 kHz
72%
–
–
–
✓
800 V
–
–
–
–
–
✓
✓
✓
✓
✓
✓
–
✓
–
–
✓
✓
–
–
6.5 ... 8.5 mA
8.5 ... 21 V
DIP-7
–
TO220-6
SM
PS
ICO
ve
rvie
w
9
ICE1QS01
90-270 V
RFI Filterand
Rectifier
PWM Controller
Application Example: 80 W Demoboard with ICE1QS01 and Primary Regulation
10
TDA4605-2 / TDA4605-3
Control IC for Switched-Mode Power Supplies
using MOS Transistor
C Fold-back characteristic protects external components
C Burst mode at secondary short-circuit
C Protection against open or a short of the control loop
C Mains undervoltage lock-out
C Soft-start for quiet start-up without noise
C Chip-over temperature protection
C Not for new designs, replaced by TDA16846
TDA16846 / TDA16847
SMPS Controller Supporting Low-power Standby and
Power Factor Correction
C Line current consumption with PFC
C Stable and adjustable standby frequency
C Very low start-up current
C Soft-start for quiet start-up
C Freely usable fault comparators
C Synchronization and fixed frequency facility
C Over and undervoltage lock-out
C Switch off at mains undervoltage
C Temporary high-power circuit (only TDA16847)
C Mains voltage dependent fold-back point correction
C Continuous frequency reduction with decreasing load
C Adjustable ringing suppression time
ICE1QS01
SMPS Controller with very few peripheral components,
featuring Advanced Burst Mode, Frequency Reduction
and Power Factor Correction
C Line current consumption with PFC
C Stable standby frequency of 20 kHz
C Advanced burst mode < 1 W @ 350 mW sec. power
C Soft-start for noiseless start-up
C Digital frequency reduction for higher efficiency
and no-jitter designs
C Over and undervoltage protection
C Fold-back point correction for stable output power
independent of line voltage variations
C Ringing suppression time controlled by output power
C Additional fault comparator optionally useable
TDA16850-2
SMPS Controller for CRT Monitors
C Controller for fly-back topology
C Current mode PWM with spike blanking
C Leading edge triggered pulse with modulation
C Fast, soft switching totem pole gate drive (1 A)
C Soft-start management for safe start-up
C Off mode with power consumption less than 1 W
C Fast and slow peak current limitation
C All protection features available
PW
M C
on
tro
lle
r
11
PWM Controller
ICE2XS01
Off-line SMPS Current Mode Controller
C PWM – Current Mode Controller
C 67 kHz and 100 kHz fixed frequency operation
C Max duty cycle up to 72%
C Frequency reduction for low standby
C Adjustable soft-start
C Propagation delay compensation
C Internal leading edge blanking
C Fully protected
C DIP-8 / DSO-8
ICE3DS01
Off-line SMPS Current Mode Controller
C PWM and 500 V start-up cell in one package
C Active burst mode for ultra-low standby power
(PIN < 100 mW)
C Short-term overload function
C New protection: latched OFF or auto restart
C 100 kHz fixed frequency operation
C May duty cycle up to 72%
C Adjustable soft-start
C Propagation delay compensation
C Internal leading edge blanking
C Fully protected
C DIP-8 / DSO-8
ICE3AS02
Additional features to ICE3DS01
C 100 kHz
ICE3BS02
Additional features to ICE3DS01
C 67 kHz
12
ACIN
VOUTSnubber
CoolMOSTM
VCC
FB
SoftS GND
CS
G
ICE3DS01
PW
M C
on
tro
lle
r
Application Example: Circuit Diagram for PWM Fly-back Converter
13
14
Smart Ballast Controller
ICB1FL02G
Smart Ballast Controller ICB1FL02G is designed to control
a Fluorescent Lamp Ballast including
C Discontinuous Conduction Mode
Power Factor Correction (PFC)
C Lamp Inverter Control and
C High Voltage Level-Shift Half Bridge Driver with
Coreless Transformer Technology in one package.
Product Highlights
C Critical conduction mode PFC with overcurrent and
overvoltage protection and internal loop compensation
C End-of-life detection in multilamp topologies and
detection of capacitive mode operation in T5 designs
C Improved reliability and minimized spread due to
digital and optimized analog control functions
Due to a minimum number of external components necessary, system costs can be brought down significantly.
ICB1FL02G can be used and designed easily and is therefore a basis for cost effective ballast solutions of the future.
Short Form Data
Operating Voltage Range
Turn-on Threshold
Supply Current during UVLO and Fault Mode
Operating Frequency of Inverter during Run Mode
Operating Frequency of Inverter during Preheating Mode
Preheating Time
Dead Time between LS and HS Gate drive
Operating Voltage Range of floating HS Gate Drive
LS Current Limitation Threshold during Ignition
LS Current Protection Threshold
End-of-Life Detection Threshold
Amplitude Ratio for Detection of Rectifier Effect
Detection of non-ZVS Operation CapMode 1 & 2
PFC Preconverter control with critical and discontinuous CM
Maximum controlled on-time
Hysteresis of Zero Current Detector
PFC current Limitation Threshold
Reference voltage for control of Bus Voltage
Overvoltage Detection Threshold
Undervoltage Detection Threshold
Open Loop Detection
Junction Operating Temperature Range
Pb-free Lead Plating; ROHS compliant
min.
10.5 V
–
–
20 kHz
Run Frequency
0
–
-900 V
–
–
-230 µA
0.85
–
–
–
–
–
2.47 V
–
–
–
-25˚C
–
typ.
–
14 V
–
–
–
–
1750 ns
–
0.8 V
1.6 V
–
–
–
–
23.5 µs
1 V
1 V
2.50 V
2.75 V
1.83 V
0.375 V
–
–
max.
17 V
–
150 µA
100 kHz
150 kHz
2000 ms
–
+900 V
–
–
+230 µA
1.15
–
–
–
–
–
2.53 V
–
–
+125˚C
–
Sm
art
Ba
lla
st
Co
ntr
oll
er
15
PFCZCD
PFCGD
PFCVS
PFCCS
LV
S2
LV
S1
HSGD
HSVCC
HSGND
LSGD
LSCS
ICB
1FL
02
G
GN
D
VC
C
RFR
UN
RFP
H
RT
PH
RE
S
AC
90 ... 270 V
Smart Ballast Controller – ICB1FL02G – Block Biagram
Application Example: Circuit Diagram for PFC Boost Converter
PFC and Combo Controller
16
EMI Filter
Rectifier
VIN =
85 ... 265 V ACC1
C3
C4 C5
C2
R2
R5
R4
R3
R6
R1
L1
T1
ISENSE
ICOMP
VSENSEGATE GND
ICE1PCS01Auxiliary Suply VCC
VCOMPFREQ
VOUT =
400 V DC
D1
R7
ICE1PCS01Stand-alone Power Factor Correction (PFC) Controller in
Continuous Conduction Mode
C Easy to use with very few external components
C Average current control
C Programmable operating frequency (50 to 250 kHz)
C Unique set of protection features including brown-out
protection and boost diode protection
C Precise internal reference voltage
C Unique soft-start
C Enhanced dynamic response
C Leading edge modulation
ICE1PCS02
Additional features to ICE1PCS01
C Brown out protection
C Fixed Frequency 67 kHz
TDA4862Power Factor Controller (PFC) IC for High-power Factor and
Active Harmonic Filter
C IC for sinusoidal line-current consumption
C Power factor approaching 1
C Controls boost converter as an active harmonics filter
C Internal start-up with low current consumption
C Zero current detector for discontinuous operation mode
C High current totem pole gate driver
C Trimmed ±1.4% internal reference
C Undervoltage lock out with hysteresis
C Very low start-up current consumption
C Pin compatible with world standard
C Output overvoltage protection
C Current sense input with internal low pass filter
C Totem pole output with active shutdown during UVLO
C Junction temperature range -40°C to +150°C
C Available in DIP-8 and DSO-8 packages
TDA4863 / TDA4863-2Power Factor Controller IC for High-power Factor
and Low THD
Additional Features to TDA4862
C Reduced tolerance of signal levels
C Improved light load behavior
C Open loop protection
C Current sense input with leading edge blanking LEB
C Undervoltage protection
ICE1PD265PFC CoolSET TM version of TDA4863
C 650 V avalanche rugged CoolMOS TM
C RDS(on) = 1.1 ΩC DSO-16 package
C PFC output power
55 W @ VIN = 90 V (TA = 70°C)
140 W @ VIN = 180 V (TA = 70°C)
C Reduced size and assembling costs
C Highest efficiency due to lower power dissipation
TDA16888High-performance Power Combi Controller
PFC Section
C IEC 1000-3 compliant
C Additional operation mode as auxiliary power supply
C Fast, soft switching totem pole gate drive (1 A)
C Leading edge triggered pulse width modulation
C Peak current limitation
C Continuous/discontinuous mode possible
C 94% maximum duty cycle
PWM SectionC Improved current mode control
C Fast, soft switching totem pole gate drive (1 A)
C Soft-start management
C Topologies are forward or fly back
C 50% maximum duty cycle
PF
Ca
nd
Co
mb
o C
on
tro
lle
r
17
PWM-
Control
CoolSETTM
Input
Filter
VIN
85 – 270 V AC
VOUT
CoolSET TM
Application Example: CoolSET TM for Off-l ine Switch Mode Power Supplies
18
Co
olS
ET
TM
19
ICE2Axxx / ICE2Bxxx
Off-line SMPS Controller with 650 V / 800 V CoolMOSTM
on Board (High Protection & Energy Saving Solution)
C 650 V or 800 V avalanche rugged CoolMOS
C Typical RDS(on) = 0.45 Ω ... 4.7 Ω at Tj = 25°C
General Features
C Frequency reduction for lowest standby power
(below 1 W) to meet European requirements
100 kHz / 67 kHz switching frequency
C Internal leading edge blanking
C Modulated gate drive for soft switching
C High peak power accuracy
C DIP-7, DIP-8 or P-TO220-6, I2-PAK package
ICE3Axxxx / ICE3Bxxxx
Off-line SMPS Controller with 650 V CoolMOS on Board
(High Protection & Energy Saving Solution)
Additional Features to ICE2Axxx / ICE2Bxxx
C Startup cell
C Active burst mode
C Adjustable blanking window for load jump
SMPS Topologies
Advantages
C MOSFET drain-source voltage VDS = VI
C Core demagnetization is no problem
C The transformer may have a high level of stray inductance
Disadvantages
C Galvanic-isolated driving is necessary
Infineon Parts
TDA16888, TDA4916GG
Forward Converter
Single Transistor Forward Converter
Single-ended Forward ConverterBoost Converter
Advantages
C Simple, low part count
C Several output voltages can be regulated simultaneously
C Wide control range for operating voltage changes
Disadvantages
C Power transistor drain-source voltage
VDS = VIN + nx(VOUT + VD1S)
C Heavy loading to output capacitor and diode
Infineon Parts
TDA16888, TDA16846, TDA16850, CoolSET TM,
ICE2xS01, ICE3OS01, ICE1QS01
Advantages
C Simple choke
C No problems with magnetic coupling
C Cheap solution
Disadvantages
C Power transistor drain-source voltage VDS = VO > VI
C No galvanic isolation between input and output voltage
C Medium loading of the output capacitor
Infineon Parts
TDA16888, TDA4862, TDA4863, TDA4863-2, CoolSET TM,
ICE1PD265, ICE1PCSO1, ICE2xSO1, ICE3DS01
Advantages
C Demagnetizing the core is no problem
C Simple circuitry
Disadvantages
C Power transistor drain-source voltage VDS > 2VI
C Demagnetizing winding is necessary
C Good magnetic coupling is necessary between primary
and demagnetizing windings
Infineon Parts
TDA16888, TDA4916GG
Fly-back Converter
Two-Transistor Forward Converter
Diagonal Half-bridge Converter
Dual-ended Forward Converter
20
Advantages
C High efficiency
C Input / output current continuous
C Output voltage is inverse to input voltage
Disadvantages
C High peak currents in power components
C High ripple current in capacitor
Infineon Parts
TDA16888, CoolSET TM, ICE2xSO1, ICE3DSo1
Buck-boost Converter
Single Transistor
Buck-boost Converter
Advantages
C Simple choke
C No problems with magnetic coupling
Disadvantages
C Power transistor drain-source voltage VDS = VI + VO
C No galvanic isolation between input and output voltage
C Heavy loading of output capacitor
C Input must “float”
C Output voltage negative in relation to input voltage
Infineon Parts
CoolSET TM, ICE2xSo1, ICE3DSo1
Advantages
C Transformer is replaced by two chokes
C Common ground connection
C No polarity inversion low voltage stress for the MOSFET
C Output voltage is above or below the input voltage
Disadvantages
C Voltage at the diode is VIN + VOUT + VD1
Infineon Parts
TDA16888, CoolSET TM, ICE2xS01, ICE3DS01
Basic Non-isolated Cuk Converter
Basic Non-isolated Sepic Converter
SM
PS
To
po
log
ies
21
N-Channel MOSFETs
RDS(on) max. [Ω]
@ VGS = 10 V
0.19
0.28
0.38
0.6
0.07
0.11
0.19
0.28
0.38
0.6
0.95
1.4
3
0.19
0.28
0.38
0.6
0.95
0.19
0.28
0.38
0.6
0.95
0.19
0.28
0.38
0.95
0.95
1.4
3
VGS(th) [V]
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
Package
I2-PAK
TO247
D-PAK
TO220 FullPAK
TO220 (3-leg)
D2-PAK
I-PAK Short Leads
ID [A]
21
16
11.6
7.6
52
32
21
16
11.6
7.6
4.5
3.2
1.8
21
16
11.6
7.6
4.5
21
16
11.6
7.6
4.5
21
16
11.6
4.5
4.5
3.2
1.8
typ. Qg [nC]
95
66
49
32
290
170
95
66
49
32
22
15
9
95
66
49
32
22
95
66
49
32
22
95
66
49
22
22
15
9
Type
SPI21N50C3
SPI16N50C3
SPI12N50C3
SPI08N50C3
SPW52N50C3
SPW32N50C3
SPW21N50C3
SPW16N50C3
SPW12N50C3
SPD08N50C3
SPD04N50C3
SPD03N50C3
SPD02N50C3
SPA21N50C3
SPA16N50C3
SPA12N50C3
SPA08N50C3
SPA04N50C3
SPP21N50C3
SPP16N50C3
SPP12N50C3
SPP08N50C3
SPP04N50C3
SPB21N50C3
SPB16N50C3
SPB12N50C3
SPB04N50C3
SPS04N50C3
SPS03N50C3
SPS02N50C3
22
For an overview about ROHS-compliant products please go to www.infineon.com/greenproducts
N-Channel 500 V CoolMOSTM
N-C
ha
nn
el
MO
SF
ET
s
23
For an overview about ROHS-compliant products please go to www.infineon.com/greenproducts
RDS(on) max. [Ω]
@ VGS = 10 V
0.520
0.399
0.350
0.299
0.250
0.199
0.140
0.520
0.399
0.350
0.299
0.250
0.199
0.140
0.199
0.140
0.450
0.520
0.399
0.299
0.250
0.199
0.140
0.399
0.350
0.520
VGS(th) [V]
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
Package
TO220 (3-leg)
TO220-FullPAK
TO247
D-PAK
D2-PAK
I2-PAK
I-PAK Short Lead
ID [A]
7
9
10
12
13
17
23
7
9
10
12
13
17
23
17
23
62
7
9
12
13
17
23
9
10
7
typ. Qg [nC]
13
17
19
23
27
34
48
13
17
19
23
27
34
48
34
48
150
13
17
23
27
34
48
17
19
13
Type
IPP50R520CP
IPP50R399CP
IPP50R350CP
IPP50R299CP
IPP50R250CP
IPP50R199CP
IPP50R140CP
IPA50R520CP
IPA50R399CP
IPA50R350CP
IPA50R299CP
IPA50R250CP
IPA50R199CP
IPA50R140CP
IPW50R199CP
IPW50R140CP
IPW50R045CP
IPD50R520CP
IPD50R399CP
IPB50R299CP
IPB50R250CP
IPB50R199CP
IPB50R140CP
IPI50R399CP
IPI50R350CP
IPS50R520CP
N-Channel 500 V CoolMOSTM CP Series
24
RDS(on) max. [Ω]
@ VGS = 10 V
0.19
0.28
0.38
0.38
0.6
0.6
0.07
0.10
0.16
0.19
0.19
0.28
0.38
0.38
0.60
0.60
0.75
0.95
0.95
1.40
1.40
3
3
6
0.60
0.95
1.40
3
3
6
0.95
1.40
1.40
3
2.5
6
0.95
1.40
3
6
VGS(th) [V]
2.1 … 3.9
2.1 … 3.9
3.5 … 5.5
2.1 … 3.9
3.5 … 5.5
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
3.5 … 5.5
2.1 … 3.9
2.1 … 3.9
3.5 … 5.5
2.1 … 3.9
2.1 … 3.9
3.5 … 5.5
2.1 … 3.9
3.5 … 5.5
2.1 … 3.9
3.5 … 5.5
2.1 … 3.9
3.5 … 5.5
2.1 … 3.9
2.1 … 3.9
3.5 … 5.5
3.5 … 5.5
3.5 … 5.5
3.5 … 5.5
2.1 … 3.9
2.1 … 3.9
3.5 … 5.5
3.5 … 5.5
2.1 … 3.9
3.5 … 5.5
2.1 … 3.9
2.1 … 3.9
2.1…3.9
2.1…3.9
2.1…3.9
2.1…3.9
Package
I2-PAK
TO247
D-PAK
I-PAK
SOT223
I-PAK Short Leads
ID [A]
20.7
15
11
11
7.3
7.3
47
34.6
24.3
20
20.7
15
11
11
7.3
7.3
6.2
4.5
4.5
3.2
3.2
1.8
1.8
0.8
7.3
4.5
3.2
1.8
1.8
0.8
0.8
0.7
0.7
0.4
0.4
0.3
4.5
3.2
1.8
0.8
typ. Qg [nC]
87
63
41.5
45
27
21
252
150
104.9
79
87
63
41.5
45
21
27
24
17.6
19
12.4
13
7.3
9.5
3.9
27
17.6
12.4
7.3
9.5
3.9
17
12.8
13
7.4
10
3.9
19
13
9.5
3.9
Type
SPI20N60C3
SPI15N60C3
SPI11N60S5
SPI11N60C3
SPI07N60S5
SPI07N60C3
SPW47N60C3
SPW35N60C3
SPW24N60C3
SPW20N60S5
SPW20N60C3
SPW15N60C3
SPW11N60S5
SPW11N60C3
SPD07N60C3
SPD07N60S5
SPD06N60C3
SPD04N60S5
SPD4N60C3
SPD03N60S5
SPD03N60C3
SPD02N60S5
SPD02N60C3
SPD01N60C3
SPU07N60S5
SPU04N60S5
SPU03N60S5
SPU02N60S5
SPU02N60C3
SPU01N60C3
SPN04N60S5
SPN03N60S5
SPN03N60C3
SPN02N60S5
SPN02N60C3
SPN01N60C3
SPS04N60C3
SPS03N60C3
SPS02N60C3
SPS01N60C3
For an overview about ROHS-compliant products please go to www.infineon.com/greenproducts
N-Channel 600 V CoolMOSTM
25
N-C
ha
nn
el
MO
SF
ET
s
For an overview about ROHS-compliant products please go to www.infineon.com/greenproducts
N-Channel 600 V CoolMOSTM
RDS(on) max. [Ω]
@ VGS = 10 V
0.19
0.28
0.38
0.60
0.75
0.95
1.40
0.16
0.19
0.19
0.28
0.38
0.38
0.6
0.60
0.75
0.95
0.95
1.4
1.40
3
3
0.19
0.19
0.38
0.38
0.60
0.60
0.95
0.95
1.40
1.40
3
3
VGS(th) [V]
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1…3.9
2.1…3.9
3.5 … 5.5
2.1…3.9
2.1…3.9
3.5 … 5.5
2.1…3.9
3.5 … 5.5
2.1…3.9
2.1…3.9
3.5 … 5.5
2.1…3.9
3.5 … 5.5
2.1…3.9
3.5 … 5.5
3.5 … 5.5
2.1…3.9
3.5 … 5.5
2.1…3.9
3.5 … 5.5
2.1…3.9
3.5 … 5.5
2.1…3.9
3.5 … 5.5
2.1…3.9
3.5 … 5.5
2.1…3.9
Package
TO220 FullPAK
TO220 (3-leg)
D2-PAK
ID [A]
20.7
15
11
7.3
6.2
4.5
3.2
24.3
20.7
20.7
15
11
11
7.3
7.3
6.2
4.5
4.5
3.2
3.2
1.8
1.8
20.7
20.7
11
11
7.3
7.3
4.5
4.5
3.2
3.2
1.8
1.8
typ. Qg [nC]
87
63
45
21
24
19
13
104.9
87
79
63
45
41.5
21
27
24
19
17.6
13
12.4
9.5
7.3
79
87
41.5
45
27
21
17.6
19
12.4
13
7.3
9.5
Type
SPA20N60C3
SPA15N60C3
SPA11N60C3
SPA07N60C3
SPA06N60C3
SPA04N60C3
SPA03N60C3
SPP24N60C3
SPP20N60C3
SPP20N60S5
SPP15N60C3
SPP11N60C3
SPP11N60S5
SPP07N60C3
SPP07N60S5
SPP06N60C3
SPP04N60C3
SPP04N60S5
SPP03N60C3
SPP03N60S5
SPP02N60C3
SPP02N60S5
SPB20N60S5
SPB20N60C3
SPB11N60S5
SPP11N60C3
SPB07N60S5
SPB07N60C3
SPB04N60S5
SPB04N60C3
SPB03N60S5
SPB03N60C3
SPB02N60S5
SPB02N60C3
26
RDS(on) max. [Ω]
@ VGS = 10 V
0.385
0.299
0.199
0.165
0.125
0.099
0.299
0.199
0.165
0.125
0.099
0.045
0.385
0.299
0.199
0.165
0.125
0.385
0.299
0.199
0.385
0.165
0.099
VGS(th) [V]
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
2.5 … 3.5
Package
TO220 (3-leg)
TO247
TO220 FullPAK
I2-PAK
D-PAK
D2-PAK
ID [A]
9
11
16
21
25
31
11
16
21
25
31
60
9
11
16
21
25
9
11
16
9
21
31
typ. Qg [nC]
17
22
33
39
53
60
22
33
39
53
60
150
17
22
33
39
53
17
22
33
17
39
60
Type
IPP60R385CP
IPP60R299CP
IPP60R199CP
IPP60R165CP
IPP60R125CP
IPP60R099CP
IPW60R299CP
IPW60R199CP
IPW60R165CP
IPW60R125CP
IPW60R099CP
IPW60R045CP
IPA60R385CP
IPA60R299CP
IPA60R199CP
IPA60R165CP
IPA60R125CP
IPI60R385CP
IPI60R299CP
IPI60R199CP
IPD60R385CP
IPB60R165CP
IPB60R099CP
N-Channel 600 V CoolMOSTM CP Series 600 V
For an overview about ROHS-compliant products please go to www.infineon.com/greenproducts
N-C
ha
nn
el
MO
SF
ET
s
27
RDS(on) max. [Ω]
@ VGS = 10 V
0.22
0.44
0.08
0.118
0.22
0.44
VGS(th) [V]
3.0 … 5.0
3.0 … 5.0
3.0 … 5.0
3.0 … 5.0
3.0 … 5.0
3.0 … 5.0
Package
TO220 (3-leg)
TO247
ID [A]
20
11
46
34
20
11
typ. Qg [nC]
95
48
248
163
95
48
Type
SPP20N60CFD
SPP11N60CFD
SPW47N60CFD
SPW35N60CFD
SPW20N60CFD
SPW11N60CFD
N-Channel 600 V CFD CoolMOSTM with Fast Body Diode
For an overview about ROHS-compliant products please go to www.infineon.com/greenproducts
28
RDS(on) max. [Ω]
@ VGS = 10 V
0.19
0.38
0.6
0.19
0.38
0.6
0.19
0.38
0.6
VGS(th) [V]
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
Package
TO220 FullPAK
I2-PAK
TO220 (3-leg)
ID [A]
20.7
11
7.3
20.7
11
7.3
20.7
11
7.3
typ. Qg [nC]
87
45
21
87
45
21
87
45
21
Type
SPA20N65C3
SPA11N65C3
SPA07N65C3
SPI20N65C3
SPI11N65C3
SPI07N65C3
SPP20N65C3
SPP11N65C3
SPP07N65C3
N-Channel 650 V CoolMOSTM
RDS(on) max. [Ω]
@ VGS = 10 V
0.29
0.45
0.65
0.9
1.3
2.7
0.29
0.45
0.65
0.9
1.3
2.7
0.29
0.29
0.45
0.9
1.3
2.7
0.65
VGS(th) [V]
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
2.1 … 3.9
Package
TO220 (3-leg)
TO220 FullPAK
D2-PAK
TO247
D-PAK
I2-PAK
ID [A]
17
11
8
6
4
2
17
11
8
6
4
2
17
17
11
6
4
2
8
typ. Qg [nC]
91
50
40
27
20
9
91
50
40
27
20
9
91
91
58
27
20
9
40
Type
SPP17N80C3
SPP11N80C3
SPP08N80C3
SPP06N80C3
SPP04N80C3
SPP02N80C3
SPA17N80C3
SPA11N80C3
SPA08N80C3
SPA06N80C3
SPA04N80C3
SPA02N80C3
SPB17N80C3
SPW17N80C3
SPW11N80C3
SPD06N80C3
SPD04N80C3
SPD02N80C3
SPI08N80C3
N-Channel 800 V CoolMOSTM
For an overview about ROHS-compliant products please go to www.infineon.com/greenproducts
29
RDS(on) max. [Ω]
@ VGS = 10 V
3
25
4
45
500
45
20
VGS(th) [V]
2.1 … 4.0
1.5 … 2.5
2.1 … 4.0
1.5 … 2.5
1.4 … 2.6
1.3 … 2.3
2.1 … 4.0
VBRDSS [V]
400
400
500
600
600
600
800
Package
SOT223
SOT23
SOT89
SOT223
ID [A]
0.36
0.32
0.4
0.12
0.023
0.09
0.19
typ. Qg [nC]
–
–
–
3.9
1.4
3.9
–
Type
BSP298
BSP324
BSP299
BSP125
BSS127
BSS225
BSP300
N-Channel Enhancement
VGS(th) [V]
-3.5 ... -2.4
-2.9 ... -1.8
-2.1 ... -1.0
-2.7 ... -1.6
-2.1 ... -1.0
-2.1 ... -1.0
-2.1 ... -1.0
Package
SOT23
SOT223
ID [A]
0.230
0.170
0.100
0.016
0.660
0.350
0.120
VDS [V]
60
100
250
600
200
240
600
RDS(on) [Ω]
8
12
30
700
3.5
6
60
Type
BSS159N
BSS169
BSS139
BSS126
BSP149
BSP129
BSP135
Standard N-Channel Depletion
For an overview about ROHS-compliant products please go to www.infineon.com/greenproductsN
-Ch
an
ne
lM
OS
FE
Ts
30
Silicon Carbide Schottky Diodes
(thinQ!TM Family)
For an overview about ROHS-compliant products please go to www.infineon.com/greenproducts
Package
D2-PAK
TO220 (2-leg)
TO220 (3-leg)
VDC [V]
300
300
300
300
IF [A]
2 x 10
10
10
2 x 10
IF SM [A]
36
36
36
36
QC [nC]
23
23
23
23
Type
SDB20S30
SDT10S30
SDP10S30
SDP20S30
thinQ!TM 300 V
Package
D2-PAK
TO220 (2-leg)
D-PAK
VDC [V]
600
600
600
600
600
600
600
600
IF [A]
6
4
5
6
2 x 6
8
2 x 5
4
IF SM [A]
21.5
12.5
18.5
21.5
36.0
26.0
31.0
12.5
QC [nC]
21
13
14
21
30
24
29
13
Type
SDB06S60
SDT04S60
SDT05S60
SDT06S60
SDT12S60
SDT08S60
SDT10S60
SDD04S60
thinQ!TM 600 V
VDC [V]
600
600
600
600
600
600
600
600
IF [A]
4
5
2 x 5
6
2 x 6
8
2 x 8
4
IF SM [A]
32
42
84
49
98
59
118
32
typ. QC [nC]
8
12
24
15
30
19
38
8
Type
IDT04S60C
IDT05S60C
IDT10S60C
IDT06S60C
IDT12S60C
IDT08S60C
IDT16S60C
IDD04S60C
Package
TO220 (2-leg)
D-PAK
thinQ!TM 2G 600 V
Alphanumeric Listing
31
BSP125 N-Channel Enhancement MOSFET 600 V 29
BSP129 N-Channel Depletion MOSFET 240 V 29
BSP135 N-Channel Depletion MOSFET 600 V 29
BSP149 N-Channel Depletion MOSFET 200 V 29
BSP298 N-Channel Enhancement MOSFET 400 V 29
BSP299 N-Channel Enhancement MOSFET 500 V 29
BSP300 N-Channel Enhancement MOSFET 800 V 29
BSP324 N-Channel Enhancement MOSFET 400 V 29
BSS126 N-Channel Depletion MOSFET 600 V 29
BSS127 N-Channel Enhancement MOSFET 600 V 29
BSS139 N-Channel Depletion MOSFET 250 V 29
BSS159N N-Channel Depletion MOSFET 60 V 29
BSS169 N-Channel Depletion MOSFET 100 V 29
BSS225 N-Channel Enhancement MOSFET 600 V 29
IDD04S60C thinQ! 2G 600 V 30
IDT04S60C thinQ! 2G 600 V 30
IDT05S60C thinQ! 2G 600 V 30
IDT06S60C thinQ! 2G 600 V 30
IDT08S60C thinQ! 2G 600 V 30
IDT10S60C thinQ! 2G 600 V 30
IDT12S60C thinQ! 2G 600 V 30
IDT16S60C thinQ! 2G 600 V 30
IPA50R140CP CoolMOS Transistor 500 V 23
IPA50R199CP CoolMOS Transistor 500 V 23
IPA50R250CP CoolMOS Transistor 500 V 23
IPA50R299CP CoolMOS Transistor 500 V 23
IPA50R350CP CoolMOS Transistor 500 V 23
IPA50R399CP CoolMOS Transistor 500 V 23
IPA50R520CP CoolMOS Transistor 500 V 23
IPA60R125CP CoolMOS Transistor 600 V 26
IPA60R165CP CoolMOS Transistor 600 V 26
IPA60R199CP CoolMOS Transistor 600 V 26
IPA60R299CP CoolMOS Transistor 600 V 26
IPA60R385CP CoolMOS Transistor 600 V 26
IPB50R140CP CoolMOS Transistor 500 V 23
IPB50R199CP CoolMOS Transistor 500 V 23
IPB50R250CP CoolMOS Transistor 500 V 23
IPB50R299CP CoolMOS Transistor 500 V 23
IPB60R099CP CoolMOS Transistor 600 V 26
IPB60R165CP CoolMOS Transistor 600 V 26
IPD50R399CP CoolMOS Transistor 500 V 23
IPD50R520CP CoolMOS Transistor 500 V 23
IPD60R385CP CoolMOS Transistor 600 V 26
IPI50R350CP CoolMOS Transistor 500 V 23
IPI50R399CP CoolMOS Transistor 500 V 23
IPI60R199CP CoolMOS Transistor 600 V 26
IPI60R299CP CoolMOS Transistor 600 V 26
IPI60R385CP CoolMOS Transistor 600 V 26
IPP50R140CP CoolMOS Transistor 500 V 23
IPP50R199CP CoolMOS Transistor 500 V 23
IPP50R250CP CoolMOS Transistor 500 V 23
IPP50R299CP CoolMOS Transistor 500 V 23
IPP50R350CP CoolMOS Transistor 500 V 23
IPP50R399CP CoolMOS Transistor 500 V 23
IPP50R520CP CoolMOS Transistor 500 V 23
IPP60R099CP CoolMOS Transistor 600 V 26
IPP60R125CP CoolMOS Transistor 600 V 26
IPP60R165CP CoolMOS Transistor 600 V 26
IPP60R199CP CoolMOS Transistor 600 V 26
IPP60R299CP CoolMOS Transistor 600 V 26
IPP60R385CP CoolMOS Transistor 600 V 26
IPS50R520CP CoolMOS Transistor 500 V 23
IPW50R045CP CoolMOS Transistor 500 V 23
IPW50R140CP CoolMOS Transistor 500 V 23
IPW50R199CP CoolMOS Transistor 500 V 23
IPW60R045CP CoolMOS Transistor 600 V 26
IPW60R099CP CoolMOS Transistor 600 V 26
IPW60R125CP CoolMOS Transistor 600 V 26
IPW60R165CP CoolMOS Transistor 600 V 26
IPW60R199CP CoolMOS Transistor 600 V 26
IPW60R299CP CoolMOS Transistor 600 V 26
SDB06S30 thinQ! 600 V 30
SDB20S30 thinQ! 300 V 30
SDD04S60 thinQ! 600 V 30
SDP10S30 thinQ! 300 V 30
SDP20S30 thinQ! 300 V 30
SDT04S60 thinQ! 600 V 30
SDT05S60 thinQ! 600 V 30
SDT06S60 thinQ! 600 V 30
SDT08S60 thinQ! 600 V 30
SDT10S30 thinQ! 300 V 30
SDT10S60 thinQ! 600 V 30
SDT12S60 thinQ! 600 V 30
SPA02N80C3 CoolMOS Transistor 800 V 28
SPA03N60C3 CoolMOS Transistor 600 V 25
SPA04N50C3 CoolMOS Transistor 500 V 22
SPA04N60C3 CoolMOS Transistor 600 V 25
SPA04N80C3 CoolMOS Transistor 800 V 28
SPA06N60C3 CoolMOS Transistor 600 V 25
SPA06N80C3 CoolMOS Transistor 800 V 28
SPA07N60C3 CoolMOS Transistor 600 V 25
SPA07N65C3 CoolMOS Transistor 650 V 28
SPA08N50C3 CoolMOS Transistor 500 V 22
SPA08N80C3 CoolMOS Transistor 800 V 28
SPA11N60C3 CoolMOS Transistor 600 V 25
SPA11N65C3 CoolMOS Transistor 650 V 28
SPA11N80C3 CoolMOS Transistor 800 V 28
SPA12N50C3 CoolMOS Transistor 500 V 22
SPA15N60C3 CoolMOS Transistor 600 V 25
SPA16N50C3 CoolMOS Transistor 500 V 22
SPA17N80C3 CoolMOS Transistor 800 V 28
SPA20N60C3 CoolMOS Transistor 600 V 25
SPA20N65C3 CoolMOS Transistor 650 V 28
SPA21N50C3 CoolMOS Transistor 500 V 22
SPB02N60C3 CoolMOS Transistor 600 V 25
SPB02N60S5 CoolMOS Transistor 600 V 25
SPB03N60C3 CoolMOS Transistor 600 V 25
SPB03N60S5 CoolMOS Transistor 600 V 25
SPB04N50C3 CoolMOS Transistor 500 V 22
SPB04N60C3 CoolMOS Transistor 600 V 25
SPB04N60S5 CoolMOS Transistor 600 V 25
SPB07N60C3 CoolMOS Transistor 600 V 25
SPB07N60S5 CoolMOS Transistor 600 V 25
SPB11N60C3 CoolMOS Transistor 600 V 25
SPB12N50C3 CoolMOS Transistor 500 V 22
SPB16N50C3 CoolMOS Transistor 500 V 22
SPB17N80C3 CoolMOS Transistor 800 V 28
SPB11N60S5 CoolMOS Transistor 600 V 25
SPB20N60C3 CoolMOS Transistor 600 V 25
SPB20N60S5 CoolMOS Transistor 600 V 25
SPB21N50C3 CoolMOS Transistor 500 V 22
SPD01N60C3 CoolMOS Transistor 600 V 24
SPD02N50C3 CoolMOS Transistor 500 V 22
SPD02N60C3 CoolMOS Transistor 600 V 24
SPD02N60S5 CoolMOS Transistor 600 V 24
SPD02N80C3 CoolMOS Transistor 800 V 28
SPD03N50C3 CoolMOS Transistor 500 V 22
SPD03N60C3 CoolMOS Transistor 600 V 24
SPD03N60S5 CoolMOS Transistor 600 V 24
SPD04N50C3 CoolMOS Transistor 500 V 22
SPD04N60S5 CoolMOS Transistor 600 V 24
SPD04N80C3 CoolMOS Transistor 800 V 28
SPD06N60C3 CoolMOS Transistor 600 V 24
SPD06N80C3 CoolMOS Transistor 800 V 28
SPD07N60C3 CoolMOS Transistor 600 V 24
SPD07N60S5 CoolMOS Transistor 600 V 24
SPD08N50C3 CoolMOS Transistor 500 V 22
SPD4N60C3 CoolMOS Transistor 600 V 24
SPI07N60C3 CoolMOS Transistor 600 V 24
SPI07N60S5 CoolMOS Transistor 600 V 24
SPI07N65C3 CoolMOS Transistor 650 V 28
SPI08N50C3 CoolMOS Transistor 500 V 22
SPI08N80C3 CoolMOS Transistor 800 V 28
SPI11N60C3 CoolMOS Transistor 600 V 24
SPI11N60S5 CoolMOS Transistor 600 V 24
SPI11N65C3 CoolMOS Transistor 650 V 28
SPI12N50C3 CoolMOS Transistor 500 V 22
SPI15N60C3 CoolMOS Transistor 600 V 24
SPI16N50C3 CoolMOS Transistor 500 V 22
SPI20N60C3 CoolMOS Transistor 600 V 24
SPI20N65C3 CoolMOS Transistor 650 V 28
SPI21N50C3 CoolMOS Transistor 500 V 22
SPN01N60C3 CoolMOS Transistor 600 V 24
SPN02N60C3 CoolMOS Transistor 600 V 24
SPN02N60S5 CoolMOS Transistor 600 V 24
SPN03N60C3 CoolMOS Transistor 600 V 24
SPN03N60S5 CoolMOS Transistor 600 V 24
SPN04N60S5 CoolMOS Transistor 600 V 24
SPP02N60C3 CoolMOS Transistor 600 V 25
SPP02N60S5 CoolMOS Transistor 600 V 25
SPP02N80C3 CoolMOS Transistor 800 V 28
SPP03N60C3 CoolMOS Transistor 600 V 25
SPP03N60S5 CoolMOS Transistor 600 V 25
SPP04N50C3 CoolMOS Transistor 500 V 22
SPP04N60C3 CoolMOS Transistor 600 V 25
SPP04N60S5 CoolMOS Transistor 600 V 25
SPP04N80C3 CoolMOS Transistor 800 V 28
SPP06N60C3 CoolMOS Transistor 600 V 25
SPP06N80C3 CoolMOS Transistor 800 V 28
SPP07N65C3 CoolMOS Transistor 650 V 28
SPP07N60C3 CoolMOS Transistor 600 V 25
SPP07N60S5 CoolMOS Transistor 600 V 25
SPP08N50C3 CoolMOS Transistor 500 V 22
SPP08N80C3 CoolMOS Transistor 800 V 28
SPP11N60C3 CoolMOS Transistor 600 V 25
SPP11N60S5 CoolMOS Transistor 600 V 25
SPP11N60CFD CoolMOS Transistor 600 V 27
SPP11N65C3 CoolMOS Transistor 650 V 28
SPP11N80C3 CoolMOS Transistor 800 V 28
SPP12N50C3 CoolMOS Transistor 500 V 22
SPP15N60C3 CoolMOS Transistor 600 V 25
SPP16N50C3 CoolMOS Transistor 500 V 22
SPP17N80C3 CoolMOS Transistor 800 V 28
SPP20N60CFD CoolMOS Transistor 600 V 27
SPP20N60C3 CoolMOS Transistor 600 V 25
SPP20N60S5 CoolMOS Transistor 600 V 25
SPP20N65C3 CoolMOS Transistor 650 V 28
SPP21N50C3 CoolMOS Transistor 500 V 22
SPP24N60C3 CoolMOS Transistor 600 V 25
SPS01N60C3 CoolMOS Transistor 600 V 24
SPS02N50C3 CoolMOS Transistor 500 V 22
SPS02N60C3 CoolMOS Transistor 600 V 24
SPS03N50C3 CoolMOS Transistor 500 V 22
SPS03N60C3 CoolMOS Transistor 600 V 24
SPS04N50C3 CoolMOS Transistor 500 V 22
SPS04N60C3 CoolMOS Transistor 600 V 24
SPU01N60C3 CoolMOS Transistor 600 V 24
SPU02N60C3 CoolMOS Transistor 600 V 24
SPU02N60S5 CoolMOS Transistor 600 V 24
SPU03N60S5 CoolMOS Transistor 600 V 24
SPU04N60S5 CoolMOS Transistor 600 V 24
SPU07N60S5 CoolMOS Transistor 600 V 24
SPW11N60C3 CoolMOS Transistor 600 V 24
SPW11N60CFD CoolMOS Transistor 600 V 27
SPW11N60S5 CoolMOS Transistor 600 V 24
SPW11N80C3 CoolMOS Transistor 800 V 28
SPW12N50C3 CoolMOS Transistor 500 V 22
SPW15N60C3 CoolMOS Transistor 600 V 24
SPW16N50C3 CoolMOS Transistor 500 V 22
SPW17N80C3 CoolMOS Transistor 800 V 28
SPW20N60C3 CoolMOS Transistor 600 V 24
SPW20N60CFD CoolMOS Transistor 600 V 27
SPW20N60S5 CoolMOS Transistor 600 V 24
SPW21N50C3 CoolMOS Transistor 500 V 22
SPW24N60C3 CoolMOS Transistor 600 V 24
SPW32N50C3 CoolMOS Transistor 500 V 22
SPW35N60C3 CoolMOS Transistor 600 V 24
SPW35N60CFD CoolMOS Transistor 600 V 27
SPW47N60C3 CoolMOS Transistor 600 V 24
SPW47N60CFD CoolMOS Transistor 600 V 27
SPW52N50C3 CoolMOS Transistor 500 V 22
Product Name Product Description Voltage Class Page Product Name Product Description Voltage Class Page
D-PAK D2-PAK
I-PAK I-PAK Short Leads
DIP-8
DIP-14 DIP-20 DSO-14
DSO-16DSO-16/12 DSO-20DSO-18
DSO-8
TO220-6-46 TO220-6-47
SOT23
SOT223 TO220 (2-leg) TO220 (3-leg) TO220 FullPAK
TO247
I2-PAK (TO262)
DIP-7
32
Packages
On our website:
www.infineon.com/power
C Data sheets
C Application notes
C Technical articles
C Simulation models
C Literature order codes
More Detailed Information
on Power Management
and Supply is Available
Edition May 2006
Published by
Infineon Technologies AG
81726 München, Germany
© Infineon Technologies AG 2006.
All Rights Reserved.
Legal Disclaimer
The information given in this document shall in no event be regarded
as a guarantee of conditions or characteristics
(“Beschaffenheitsgarantie”). With respect to any examples or hints
given herein, any typical values stated herein and/or any information
regarding the application of the device, Infineon Technologies hereby
disclaims any and all warranties and liabilities of any kind, including
without limitation warranties of non-infringement of intellectual
property rights of any third party.
Information
For further information on technology, delivery terms and conditions
and prices please contact your nearest
Infineon Technologies Office (www.infineon.com).
Warnings
Due to technical requirements components may contain dangerous
substances. For information on the types in question please contact
your nearest Infineon Technologies Office.
Infineon Technologies Components may only be used in life-support
devices or systems with the express written approval of Infineon
Technologies, if a failure of such components can reasonably be
expected to cause the failure of that life-support device or system,
or to affect the safety or effectiveness of that device or system.
Life support devices or systems are intended to be implanted in
the human body, or to support and/or maintain and sustain and/or
protect human life. If they fail, it is reasonable to assume that
the health of the user or other persons may be endangered.
Published by Infineon Technologies AG
Ordering No. B152-H8202-G4-X-7600
Printed in Germany
WS 06061. nb
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