IXYS POWER
Efficiency through T e chnology
600V GenX3™ IGBTs
NEXT GENERATION 600V IGBTS FOR POWER CONVERSION APPLICATIONS
IXYS extends its GenX3TM insulated gate bipolar transistor (IGBT) product line to
600 volts. These new IGBTs are manufactured using IXYS’ state-of-the-art GenX3TM
IGBT process and ulize IXYS’ advanced Punch-Though (PT) technology, tailored
to provide higher surge current capabilies, lower saturaon voltages, and lower
switching losses.
To accommodate opmum part selecon, designers have a choice in selecng
between three sub-classes denoted A3, B3, and C3. These classicaons allow
designers to dial in” the best compromise between stac (conducon) and
dynamic (switching) losses, improving over-all system eciency in a variety of
power conversion applicaons by balancing crical requirements such as switching
frequency, eciency, and cost structure. The A3-Class are opmized for low
saturaon voltage V(sat) and are well suited for applicaons requiring switching
frequencies up to 5kHz. Similarly, the B3-Class oers low saturaon voltages, but
is opmized to accommodate applicaons that require “medium speed” switching
operaon from 5kHz to 40kHz. The C3-Class is opmized for “high speed” switching
operaon from 40kHz to 100kHz and resonant switching operaon of up to
400kHz.
IXYS 600V GenX3TM IGBTs are oered in various standard packages, including the
full gamut of surface mount and discrete packages with current rangs from 36
amperes to 210 amperes. Furthermore, some devices will be oered in PLUS and
ISOPLUS isolated packages, featuring UL recognized 2500V isolaon and superior
thermal performance. Co-Packed variants of these new devices are available with
IXYS’ HiPerFREDTM ultra-fast recovery diodes providing exceponal fast recovery
and so switching characteriscs.
These IGBTs are designed to achieve the opmal soluon in applicaons such as
power inverters, UPS, motor drives, SMPS, PFC, baery chargers, welding machines,
lamp ballasts, inrush current protecon circuits and DC choppers.
JANUARY 2009
NEW PRODUCT BRIEF
www.ixys.com
OVERVIEW
Bond wires
Leads
Copper Copper Solder
Ceramic
DCB
Chip
Mould
Part Number
Vces
(V)
Ic @ Tc = 110oC
(A)
Vce (sat) TJ = 25oC
(V)
i typ
(ns)
Eo typ
(mJ)
RthJC
(oC/W) Package
IXGP36N60A3 600 36 1.4 325 3 0.56 TO-220
IXGH36N60A3 600 36 1.4 325 3 0.56 TO-247
IXGH36N60A3D4 600 36 1.4 325 3 0.56 TO-247
IXGA36N60A3 600 36 1.4 325 3 0.56 TO-263
IXGR64N60A3 600 47 1.35 222 3.28 0.62 ISOPLUS247
IXGP48N60A3 600 48 1.35 224 2.9 0.42 TO-220
IXGH48N60A3 600 48 1.35 224 2.9 0.42 TO-247
IXGH48N60A3D1 600 48 1.35 224 2.9 0.42 TO-247
IXGA48N60A3 600 48 1.35 224 2.9 0.42 TO-263
IXGR72N60A3 600 52 1.35 250 3.5 0.62 ISOPLUS247
IXGR72N60A3U1 600 52 1.35 250 3.5 0.62 ISOPLUS247
IXGH64N60A3 600 64 1.35 222 3.28 0.27 TO-247
IXGT64N60A3 600 64 1.35 222 3.28 0.27 TO-268
IXGH72N60A3 600 72 1.35 250 3.5 0.23 TO-247
IXGH72N60A3 600 72 1.35 250 3.5 0.23 TO-247
IXGT72N60A3 600 72 1.35 250 3.5 0.23 TO-268
IXGX120N60A3 600 120 1.35 260 6.6 0.16 PLUS247
IXGN120N60A3 600 120 1.35 260 6.6 0.21 SOT-227B
IXGN120N60A3D1 600 120 1.35 260 6.6 0.21 SOT-227B
IXGK120N60A3 600 120 1.35 260 6.6 0.16 TO-264
IXGN320N60A3 600 170 1.25 740 na 0.17 SOT-227B
IXGN400N60A3 600 190 1.25 270 na 0.15 SOT-227
IXGX320N60A3 600 210 1.25 740 na 0.125 PLUS247
IXGK320N60A3 600 210 1.25 740 na 0.125 TO-264
600V GenX3TM (A3) IGBTs Summary Table
ISOPLUSTM Packages with Internal Alumina DCB Isolaon*
A3-Class n Ultra low V(sat) IGBTs n Up to 5khz
The switching and conducon losses for the A3-Class are opmized for sub-5kHz switching frequency applicaons.
Performance improvements for this classicaon include up to a 16% reducon in saturaon voltage Vce(sat) compared to
prior generaon product.
Provides 2500V, UL recognized isolaon with superior thermal performance (E153432).
Improves termperature and power cycling capability.
Cost eecve clip mounng.
* IXYS Patented Packages, Patent No. 6,404,065
* For informaon regarding IXYS ISoPLUS packages, visit hp://www.ixys.com/IXAN0022.pdf
Part Number
Vces
(V)
Ic @ Tc = 110oC
(A)
Vce (sat) TJ = 25oC
(V)
i typ
(ns)
Eo typ
(mJ)
RthJC
(oC/W) Package
IXGR48N60B3 600 27 2.1 116 0.66 0.83 ISOPLUS247
IXGR48N60B3D1 600 27 2.1 116 0.66 0.83 ISOPLUS247
IXGH36N60B3D1 600 36 1.8 100 0.8 0.5 TO-247
IXGH36N60B3D4 600 36 1.8 100 0.8 0.5 TO-247
IXGP48N60B3 600 48 1.8 116 0.66 0.42 TO-220
IXGH48N60B3D1 600 48 1.8 116 0.66 0.42 TO-247
IXGH48N60B3 600 48 1.8 116 0.66 0.42 TO-247
IXGA48N60B3 600 48 1.8 116 0.66 0.42 TO-263
IXGH56N60B3D1 600 56 1.8 95 1.05 0.375 TO-247
IXGX64N60B3D1 600 64 1.8 88 1 0.27 PLUS247
IXGH64N60B3 600 64 1.8 88 1 0.27 TO-247
IXGK64N60B3D1 600 64 1.8 88 1 0.27 TO-264
IXGT64N60B3 600 64 1.8 88 1 0.27 TO-268
IXGX72N60B3H1 600 72 1.8 92 1 0.23 PLUS247
IXGH72N60B3 600 72 1.8 92 1 0.23 TO-247
IXGK72N60B3H1 600 72 1.8 92 1 0.23 TO-264
IXGT72N60B3 600 72 1.8 92 1 0.23 TO-268
IXGL200N60B3 600 90 1.5 183 2.9 0.31 ISOPLUS264
IXGH90N60B3 600 90 1.8 148 1.37 0.19 TO-247
IXGX120N60B3 600 120 1.8 145 3.5 0.16 PLUS247
IXGK120N60B3 600 120 1.8 145 3.5 0.16 TO-264 AA
IXGB200N60B3 600 200 1.5 183 2.9 0.1 PLUS264
IXGN200N60B3 600 200 1.5 183 2.9 0.15 SOT-227B
Part Number
Vces
(V)
Ic @ Tc = 110oC
(A)
Vce (sat) TJ = 25oC
(V)
i typ
(ns)
Eo typ
(mJ)
RthJC
(oC/W) Package
IXGR48N60C3D1 600 26 2.7 38 0.23 1 ISOPLUS 247
IXGP30N60C3 600 30 3 47 0.09 0.56 TO-220
IXGH30N60C3D1 600 30 3 47 0.09 0.56 TO-247
IXGA30N60C3 600 30 3 47 0.09 0.56 TO-263
IXGR72N60C3D1 600 35 2.7 55 0.48 0.62 ISOPLUS 247
IXGP48N60C3 600 48 2.5 38 0.23 0.42 TO-220
IXGH48N60C3 600 48 2.5 38 0.23 0.42 TO-247
IXGH48N60C3D1 600 48 2.5 38 0.23 0.42 TO-247
IXGA48N60C3 600 48 2.5 38 0.23 0.42 TO-263
IXGH60N60C3 600 60 2.5 55 0.42 0.33 TO-247
IXGH60N60C3D1 600 60 2.5 55 0.42 0.33 TO-247
IXGX72N60C3H1 600 72 2.5 55 0.48 0.23 PLUS247
IXGH72N60C3 600 72 2.5 55 0.48 0.23 TO-247
600V GenX3TM (C3) IGBTs Summary Table
600V GenX3TM (B3) IGBTs Summary Table
C3-Class n High Speed IGBTs n Up to 100kHz
The switching and conducon losses for the C3-Class are opmized for switching frequencies up to 100khz. The C3-Class performance
improvements include up to a 12% decrease in thermal resistance for improved power handling and also include up to 22% lower turn-o
energy per pulse (Eo) for signicantly lower switching losses versus prior generaon of high speed IGBTs.
B3-Class n Medium Speed IGBTs n Up to 40kHz
The switching and conducon losses for the B3-Class are opmized for up to 40kHz. Performance improvements were incorporated to
yield up to 22% lower turn-o energy per pulse (Eo) and 10% lower thermal resistance to improve power handling.
The gure on the le illustrates a general circuit
topology of an inverter welding power source. This
circuit topology is composed of four stages: A) Recer
stage, B) PFC & Boost stage, C) Power stage, and D)
Output stage. Input power from a power grid enters
the reccaon stage to be reced to a DC value
and is processed via a power factor correcon boost
converter. From there it enters the power stage which
employs a full bridge inverter to convert the voltage
back to AC at high frequencies typically from 50Khz
to 100Khz. The AC signal is then stepped down via T1
transformer which then gets reced and smoothed
out at the output stage.
The gure on the right illustrates an AC motor
drive that ulizes a resonant DC link inverter. A
resonant link (L1, C2) is axed to the DC bus line
of a pulse width modulaon inverter. The resonant
link is then ‘excited’ and maintains resonance
through the control of the IGBTs in a way that
the resonang dc voltage bus frequently reaches
zero volts. The IGBTs are turned on and o at
zero voltage and are synchronized to match the
zero voltage crossings to achieve the desired low
switching loss. An acve clamp circuit (Q7, C1) is
added to clamp down unwanted overshoot when
the DC inverter current decreases abruptly caused
by the switching behavior of the IGBTs.
C2
Motor
Q1
Q2
Q3
Q4
Q5
Q6
Q7
C1
3-Phase AC
Gate Drive Controller
Vs
L1
C1
Q2
Q3
Q4
Q5
D1
D3
D2
D4
Q1
D5
D6
D7
R1
C2
C3
R2
C4
C5
230VAC
Rectifier Power
Factor
Correction
Boost
Converter
Power Stage
Full Bridge Inverter
Step Down
Transformer
Output Stage
Vout+
Work Clamp
PFC
Controller
Gate Drive
Controller
L1
L2
www.ixys.com PB60IGBTA3B3C3 1.4January 2009
Mul-Process High Frequency Inverter Welder
AC Motor Drive (Resonant DC Link Inverter)
APPLICATIONS
Power inverters
Uninterrupble power supplies
Motor drives
Switch mode power supplies
Power factor correcon circuits
Welding machines
Lamp ballasts
FEATURES
Opmized for low switching &
conducon losses
Square RBSOA
High current handling capability
Internaonal standard packages
BENEFITS
High power density
Low gate drive requirement