- Elektronik Service

Vincotech
Power Modules Catalog
2011/12
2
Content
Introduction
Applications
Overview Topology/Housing
Overview Topology/Application
4
5
6-7
8-9
PIM
PIM with PFC
IPM
Sixpack
Half-Bridge
H-Bridge
Rectifier
PFC
Solar Topologies
Booster
NPC
MNPC
10 - 16
17
18
18 - 22
23 - 24
25 - 26
26 - 27
27 - 28
28 - 29
29 - 31
31 - 32
33 - 34
Housing Dimensions
MiniSKiiP® Options
Phase Change Material
Press-fit Technology
Description – Naming System
Simulation Software (ISE)
35 - 42
43
44
45
46
47
3
Introduction
Vincotech develops and manufactures power modules and
offers manufacturing services geared to help customers to master
complex challenges in power electronics integration.
Vincotech is one of the market leaders in power modules.
Target applications include motor drives, solar inverters, welding
equipment, and power supplies.
With 16 different standard housings and more than 40 standard
product families, Vincotech offers a wide power range using
different topologies.
Products include Power Integrated Modules (PIM – a combination
of input rectifier, inverter, and brake chopper) as well as sixpack
inverters, rectifier, boosters, NPC converters, and PFC-, H- and
half-bridge modules. Vincotech covers a broad power spectrum
ranging from 5A to 450A at 600V and 1200V.
4
Applications
Vincotech power modules serve a wide and diverse range
of applications, the most common of which are described below.
The icons shown alongside each description indicate the
applications for which the module is suited.
Industrial Drives
Standard drive applications for industrial use with power ranges
from 1kW to 60kW. Topologies are Power Integrated Modules
(PIM – rectifier, inverter, and brake), sixpacks (three-phase
inverters), half-bridge and rectifier modules.
Embedded Drives
Integrated drive applications for industrial and home appliances.
Typically used in fans, air conditioning, pumps, power tools,
washing machines, and refrigerators. Solutions are Intelligent Power
Modules (IPM), Power Integrated Modules with embedded Power
Factor Correction (PFC) circuit, and rectifier modules with PFC.
Solar Inverters
Inverter applications for solar power systems. Transformerless and
transformer-based inverters with single- and three-phase outputs.
Special topologies such as asymmetric H-bridge, Neutral Point
Clamped (NPC) inverters, and parallel and symmetric boosts for
high efficiency. For systems with overall power up to 200kW.
Uninterruptable Power Supplies (UPS)
Power components for UPS applications. Modules for AC/DC
and DC/AC power conversion. Topologies such as single- and
three-phase rectifiers, half- and H-bridges, boosters, and NPCs.
Power ranges up to 200kW.
Welding
Solutions for industrial welding applications, fast-switching half- and
H-bridges, PFC and rectifier topologies. Special modules for zeroswitching (ZVS) applications, with improved thermal resistance
(Rth), or internal DC link capacitors for lower turn-off losses.
Power Supplies
Power components typically used in power supply applications.
Modules with topologies such as rectifiers, PFC switches (single,
dual, and interleaved), boost circuits (step-up and step-down),
half-bridges, and H-bridges.
5
Overview
Topology/Housing
flow 0
flow 1
flow 1B
flow 2
flow90 1
PIM
flowPIM® 0
(Page 10)
flowPIM® 0 + PFC
(Page 17)
flowPIM® 1 (Page 11)
flowPIM® 1 + PFC
(Page 17)
fastPIM 1 H
(Page 26)
flowIPM 1B
(Page 18)
flowPIM® 2
(Page 12)
flow90PIM 1
(Page 13)
flowPACK 0
(Page 18)
flowPACK 1
(Page 19)
flowPACK 2
(Page 19)
flow90PACK 1
(Page 20)
*
Sixpack
*
flowPHASE 0
(Page 23)
Half-Bridge
*
fastPACK 0 H
(Page 25)
H-Bridge
*
flowCON 0
(Page 26)
Rectifier
flow90CON 1
(Page 27)
*
flowPFC 0
(Page 27-28)
PFC
*
flowSOL 0
(Page 28-29)
Solar
Topologies
*
flowBOOST 0
(Page 29-31)
Booster
flowBOOST 2
(Page 30)
*
NPC
flowNPC 0
(Page 31)
flowNPC 1
(Page 32)
flowMNPC 0
(Page 33)
flowMNPC 1
(Page 33)
*
MNPC
* = Example
6
*
flowNPC 2
(Page 32)
flowSCREW 2
flowPHASE 2
(Page 23-24)
flowSCREW 3
flowSCREW
4W
MiniSKiiP® 0
MiniSKiiP® 1
MiniSKiiP® 2
MiniSKiiP® 3
MiniSKiiP® 0 PIM
(Page 13)
MiniSKiiP® 1 PIM
(Page 14)
MiniSKiiP® 2 PIM
(Page 15)
MiniSKiiP® 3 PIM
(Page 16)
MiniSKiiP® 1 PACK
(Page 20-21)
MiniSKiiP® 2 PACK
(Page 21-22)
MiniSKiiP® 3 PACK
(Page 22)
flowPHASE 3
(Page 24)
flowMNPC 4W
(Page 34)
7
Overview
Topology/Application
Industrial
Drives
Embedded
Drives
PIM
flowPIM® (Page 10-13)
MiniSKiiP® PIM (Page 13-16)
flowPIM® (Page 10-13)
*
flowPIM® + PFC (Page 17)
flowIPM® 1B (Page 18)
PIM + PFC
*
Sixpack
flowPACK (Page 18-20)
MiniSKiiP® PACK (Page 20-22)
*
flowPHASE (Page 23-24)
Half-Bridge
*
H-Bridge
*
flowCON (Page 26-27)
Rectifier
*
flowPFC (Page 27-28)
PFC
*
Solar
Topologies
*
Booster
*
flowNPC (Page 31-32)
NPC
*
flowMNPC (Page 33-34)
MNPC
* = Example
8
*
Solar
Inverter
UPS
Welding
Power
Supplies
fastPIM 1 (Page 26)
fastPIM 1 H (Page 26)
flowPHASE (Page 23-24)
flowPHASE (Page 23-24)
flowPHASE (Page 23-24)
flowPHASE (Page 23-24)
fastPACK H (Page 25)
fastPACK H (Page 25)
fastPACK H (Page 25)
fastPACK H (Page 25)
flowCON (Page 26-27)
flowCON (Page 26-27)
flowCON (Page 26-27)
flowPFC (Page 27-28)
flowPFC (Page 27-28)
flowSOL (Page 28-29)
flowBOOST (Page 29-31)
flowBOOST (Page 29-31)
flowNPC (Page 31-32)
flowNPC (Page 31-32)
flowMNPC (Page 33-34)
flowMNPC (Page 33-34)
flowBOOST (Page 29-31)
9
PIM
flowPIM® 0 3rd gen
W
W
W
W
Trench Fieldstop
Technology IGBT4
Low saturation losses
Improved EMC behavior
Optionally with
enhanced rectifier
and w/o brake
Housing
W flow 0 17mm 2-clip
W flow 0 12mm 2-clip
Part-No
Voltage
Current1)
Options*
V23990-P848-*-PM
V23990-P849-*-PM
V23990-P840-*-PM
1200V
1200V
1200V
4A
8A
15A
A48:
C48:
A49:
C49:
A58:
C58:
A59:
C59:
Part-No
Voltage
Current1)
Options*
V23990-P541-*-PM
V23990-P543-*-PM
V23990-P544-*-PM
V23990-P545-*-PM
V23990-P546-*-PM
V23990-P549-*-PM
V23990-P540-*-PM
600V
600V
600V
600V
600V
1200V
1200V
6A
10A
15A
20A
30A
8A
15A
Std. rect., 12mm
Std. rect., 12mm, w/o brake
Std. rect., 17mm
Std. rect., 17mm, w/o brake
Enh. rect., 12mm
Enh. rect., 12mm, w/o brake
Enh. rect., 17mm
Enh. rect., 17mm, w/o brake
flowPIM® 0 2nd gen
W
W
IGBT3 technology
for low saturation losses
Optionally with
enhanced rectifier and
w/o brake
Housing
W flow 0 17mm 4-clip
W flow 0 17mm 2-clip
W flow 0 12mm 2-clip
1) Rated current of components
10
A20:
A21:
A28:
A38:
A39:
Std. rect.,
Enh. rect.,
Std. rect.,
Enh. rect.,
Enh. rect.,
17mm
17mm
12mm
12mm
17mm
4-clip
4-clip C21: enh. rect., 17mm 4-clip, w/o brake
2-clip
2-clip C38: enh. rect., 12mm 2-clip, w/o brake
2-clip C39: enh. rect., 17mm 2-clip, w/o brake
A:
Std. rect., 17mm 4-clip
A01: Enh. rect., 17mm 4-clip
C01: Enh. rect., 17mm 4clip, w/o brake
flowPIM® 1 3rd gen
W
W
W
Trench Fieldstop
Technology IGBT4
Low saturation losses
Optionally with
enhanced rectifier
and w/o brake
Housing
W flow 1 17mm
W flow 1 12mm
Part-No
Voltage
Current1)
Options*
V23990-P588-*41-PM
V23990-P589-*41-PM
V23990-P580-*41-PM
V23990-P580-A46-PM
V23990-P589-A31-PM
1200V
1200V
1200V
1200V
1200V
15A
25A
35A
35A
25A
A41:
A418:
C41:
C418:
With IGBT Phantom Speed (fsw > 8kHz)
Part-No
Voltage
Current1)
Options*
V23990-P585-*-PM
V23990-P586-*-PM
V23990-P587-*-PM
V23990-P588-*-PM
V23990-P589-*-PM
V23990-P580-*-PM
600V
600V
600V
1200V
1200V
1200V
30A
50A
75A
15A
25A
35A
A20: 17mm, with brake
A208: 12mm, with brake
C20: 17mm, w/o brake
C208: 12mm, w/o brake
17mm,
12mm,
17mm,
12mm,
with brake
with brake
w/o brake
w/o brake
With brake, improved Rth (AlN)
flowPIM® 1 2nd gen
W
W
W
IGBT3 technology
for low saturation losses
Compact design with
enhanced recitifier
Optionally with or
w/o brake
Housing
W flow 1 17mm
W flow 1 12mm
A: With brake
C: W/o brake
11
PIM
flowPIM® 2 3rd gen
W
W
W
IGBT4 (1200V)
technology for low
saturation losses and
improved EMC behavior
IGBT3 (600V) technology
for low saturation losses
Compact and low
inductive design
Housing
W flow 2
Part-No
Voltage
Current1)
V23990-P763-A-PM
V23990-P764-A-PM
V23990-P765-A-PM
V23990-P767-A-PM
V23990-P768-A-PM
V23990-P769-A-PM
V23990-P760-A-PM
600V
600V
600V
1200V
1200V
1200V
1200V
50A
75A
100A
35A
50A
75A
100A
Part-No
Voltage
Current1)
Comments
IGBT3
IGBT4
flowPIM® 1 Enhanced
W
W
Ultra fast IGBTs for
reduced switching
losses dedicated for
fsw > 8kHz
Typical applications:
fans and pumps
Housing
W flow 1 17mm
1) Rated current of components
12
V23990-P516-C-PM
V23990-P517-C-PM
V23990-P518-C44-PM
1200V
1200V
1200V
8A
15A
25A
Comments
IGBT phantom speed
flow90PIM 1
W
W
W
W
IGBT3 technology for
low saturation losses
Supports designs with
90° mounting angle
between heatsink and
PCB
Clip-in PCB mounting
Clip or screw-on
heatsink mounting
Housing
W flow90 1
Part-No
Voltage
Current1)
Comments
V23990-P631-A-PM
V23990-P632-A-PM
V23990-P633-A-PM
V23990-P634-A-PM
V23990-P635-A-PM
V23990-P639-A-PM
V23990-P630-A-PM
600V
600V
600V
600V
600V
1200V
1200V
8A
10A
15A
20A
30A
8A
15A
IGBT3
Part-No
Voltage
Current1)
Comments
6A
6A
10A
10A
8A
3-leg
2-leg
3-leg
2-leg
3-leg
MiniSKiiP® 0 PIM
W
W
W
W
Solderless spring contact
mounting system
IGBT4 (1200V)
technology for low
saturation losses and
improved EMC behavior
IGBT3 (600V)
technology for low
saturation losses
Optional with 2-leg
rectifier (600V)
80-M006PNB006SA-K614C
600V
80-M006PNB006SA01-K614D 600V
80-M006PNB010SA-K615C
600V
80-M006PNB010SA01-K615D 600V
80-M012PNB008SC-K619C41 1200V
rectifier,
rectifier,
rectifier,
rectifier,
rectifier,
equivalent
equivalent
equivalent
equivalent
equivalent
SKiiP
SKiiP
SKiiP
SKiiP
SKiiP
01NAC066V3
01NEC066V3
02NAC066V3
02NEC066V3
03NAC12T4V1
Housing
W MiniSKiiP® 0
13
PIM
MiniSKiiP® 1 PIM
IGBT4
W
W
Trench Fieldstop IGBT4
technology
Solderless spring contact
mounting system
Housing
W MiniSKiiP® 1
Part-No
Voltage
Current1)
Comments
V23990-K209-A40-PM
V23990-K200-A40-PM
1200V
1200V
8A
15A
Equivalent: SKiiP 11NAB12T4V1
Equivalent: SKiiP 12NAB12T4V1
Part-No
Voltage
Current1)
Comments
V23990-K201-A-PM
V23990-K202-A-PM
V23990-K203-A-PM
V23990-K204-A10-PM
V23990-K209-A-PM
V23990-K200-A-PM
V23990-K200-A10-PM
600V
600V
600V
600V
1200V
1200V
1200V
6A
10A
15A
20A
8A
15A
15A
Equivalent: SKiiP 11 NAB
Equivalent: SKiiP 12 NAB
Equivalent: SKiiP 13 NAB
Equivalent: SKiiP 14 NAB
Equivalent: SKiiP 11 NAB
Equivalent: SKiiP 12 NAB
With high speed FRED
MiniSKiiP® 1 PIM
W
W
Trench Fieldstop IGBT3
for low saturation losses
Solderless spring contact
mounting system
Housing
W MiniSKiiP® 1
1) Rated current of components
14
066
066
066
066
126
126
V1
V1
V1
V1
V1
V1
MiniSKiiP® 2 PIM
IGBT4
W
W
Trench Fieldstop IGBT4
technology
Solderless spring contact
mounting system
Housing
W MiniSKiiP® 2
Part-No
Voltage
Current1)
Comments
V23990-K229-A40-PM
V23990-K220-A40-PM
1200V
1200V
25A
35A
Equivalent: SKiiP 23NAB12T4V1
Equivalent: SKiiP 24NAB12T4V1
Part-No
Voltage
Current1)
Comments
V23990-K222-A-PM
V23990-K223-A-PM
V23990-K229-A-PM
V23990-K229-A10-PM
V23990-K220-A-PM
600V
600V
1200V
1200V
1200V
30A
50A
25 A
25A
35A
Equivalent: SKiiP 25 NAB
Equivalent: SKiiP 26 NAB
Equivalent: SKiiP 23 NAB
With high speed FRED
Equivalent: SKiiP 24 NAB
MiniSKiiP® 2 PIM
W
W
Trench Fieldstop IGBT3
for low saturation losses
Solderless spring contact
mounting system
Housing
W MiniSKiiP® 2
066 V1
066 V1
126 V1
126 V1
15
PIM
MiniSKiiP® 3 PIM
IGBT4
W
W
Trench Fieldstop IGBT4
technology
Solderless spring contact
mounting system
Housing
W MiniSKiiP® 3
Part-No
Voltage
Current1)
Comments
V23990-K428-A40-PM
V23990-K429-A40-PM
V23990-K420-A40-PM
1200V
1200V
1200V
50A
75A
100A
Equivalent: SKiiP 35NAB12T4V1
Equivalent: SKiiP 37NAB12T4V1
Equivalent: SKiiP 38NAB12T4V1
Part-No
Voltage
Current1)
Comments
V23990-K242-A-PM
V23990-K243-A-PM
V23990-K249-A-PM
V23990-K240-A-PM
600V
600V
1200V
1200V
75A
100A
50A
70A
Equivalent:
Equivalent:
Equivalent:
Equivalent:
MiniSKiiP® 3 PIM
W
W
Trench Fieldstop IGBT3
for low saturation losses
Solderless spring contact
mounting system
Housing
W MiniSKiiP® 3
1) Rated current of components
16
SKiiP
SKiiP
SKiiP
SKiiP
37
38
35
38
NAB
NAB
NAB
NAB
066
066
126
126
V1
V1
V1
V1
PIM with PFC
flowPIM® 0 + PFC
W
W
W
W
PIM module with
CoolMOS PFC inverter
PFC switching frequency
up to 200kHz
Inverter part with IGBT3
technology
Clip-in PCB mounting
Housing
W flow 0 17mm 4-clip
W flow 0 17mm 2-clip
Part-No
Voltage
Current1)
V23990-P371-B10-PM
V23990-P372-B10-PM
V23990-P373-*-PM
600V
600V
600V
4A
6A
10A
Part-No
Voltage
Current1)
V23990-P303-B-PM
V23990-P304-B-PM
V23990-P305-B-PM
600V
600V
600V
10A
15A
20A
Options*
B10: 4-clip housing
B17: 4-clip housing, w/o PFC shunt
B19: 2-clip housing
flowPIM® 1 + PFC
W
W
W
PFC switching frequency
up to 200kHz
Inverter part with IGBT2
technology
With inverter high side
shunt for short circuit
detection
Housing
W flow 1 17mm
Options
17
IPM
flowIPM 1B
W
W
W
W
W
Rectifier, PFC,
three-phase inverter
Integrated DC capacitor
Current sensing with
laser trimmed shunts
Complete gate drive
circuit (incl. bootstrap)
Temperature sensor
Part-No
20-1B06IPA004MF-P953A
20-1B06IPA004MC-P953A10
20-1B06IPA010MF-P955A
20-1B06IPA010Mx-P955A10
Housing
W flow 1B
Voltage
600V
600V
600V
600V
Current1)
Options
4A
4A
10A
10A
SiC PFC diode
SiC PFC diode
SIXPACK
flowPACK 0 3rd gen
W
W
W
Trench Fieldstop
Technology IGBT3
(600V)
Trench Fieldstop
Technology IGBT4
(1200V)
Low saturation losses
and improved EMC
behavior
Housing
W flow 0 17mm 2-clip
W flow 0 12mm 2-clip
1) Rated current of components
18
Part-No
Voltage
Current1)
Options*
V23990-P861-*-PM
V23990-P862-*-PM
V23990-P863-*-PM
V23990-P864-*-PM
V23990-P865-*-PM
V23990-P866-*-PM
V23990-P867-*-PM
V23990-P868-*-PM
V23990-P869-*-PM
V23990-P860-*-PM
600V
600V
600V
600V
600V
600V
1200V
1200V
1200V
1200V
10A
15A
20A
30A
50A
75A
8A
15A
25A
35A
F48 = 12mm flow0 2-clip housing
F49 = 17mm flow0 2-clip housing
flowPACK 1
W
W
W
W
Trench Fieldstop
Technology IGBT3
(600V)
Trench Fieldstop
Technology IGBT4
(1200V)
Low saturation losses
and improved EMC
behavior
Compact design
Housing
W flow 1 17mm
Part-No
Voltage
Current1)
Options*
V23990-P823-*-PM
V23990-P824-*-PM
V23990-P825-*-PM
V23990-P828-*-PM
V23990-P829-*-PM
600V
600V
600V
1200V
1200V
50A
75A
100A
35A
50A
F:
Improved Rth (AlN DCB)
F10: Std. version
Part-No
Voltage
Current1)
Options
V23990-P688-F-PM
V23990-P689-F-PM
V23990-P680-F-PM
1200V
1200V
1200V
75A
100A
150A
flowPACK 2
W
W
W
W
Trench Fieldstop
Technology IGBT4
Low saturation losses
Improved EMC behavior
Compact and low
inductive design
Housing
W flow 2
19
SIXPACK
flow90PACK 1
W
W
W
Trench Fieldstop
Technology IGBT3 for
low saturation losses
Supports designs with 90°
mounting angle between
heatsink and PCB
Clip-in PCB mounting
Housing
W flow90 1
Part-No
Voltage
Current1)
Options
V23990-P704-F-PM
V23990-P705-F-PM
V23990-P706-F-PM
V23990-P708-F-PM
V23990-P709-F-PM
V23990-P700-F-PM
600V
600V
600V
1200V
1200V
1200V
30A
50A
75A
15A
25A
35A
Part-No
Voltage
Current1)
Comments
V23990-K218-F40-PM
V23990-K219-F40-PM
V23990-K210-F40-PM
1200V
1200V
1200V
8A
15A
25A
Equivalent: SKiiP 11 AC 12T4 V1
Equivalent: SKiiP 12 AC 12T4 V1
Equivalent: SKiiP 13 AC 12T4 V1
MiniSKiiP® 1 PACK
IGBT4
W
W
Trench Fieldstop IGBT4
Technology
Solderless spring contact
mounting system
Housing
W MiniSKiiP® 1
1) Rated current of components
20
MiniSKiiP® 1 PACK
W
W
Trench Fieldstop IGBTs
for low saturation voltage
Solderless spring contact
mounting system
Housing
W MiniSKiiP® 1
Part-No
Voltage
Current1)
Comments
V23990-K218-F-PM
V23990-K219-F-PM
V23990-K210-F-PM
1200V
1200V
1200V
8A
15A
25A
Equivalent: SKiiP 11 AC 126 V1
Equivalent: SKiiP 12 AC 126 V1
Equivalent: SKiiP 13 AC 126 V1
Part-No
Voltage
Current1)
Comments
V23990-K238-F40-PM
V23990-K239-F40-PM
V23990-K230-F40-PM
1200V
1200V
1200V
35A
50A
70A
Equivalent: SKiiP 24 AC 12T4 V1
Equivalent: SKiiP 25 AC 12T4 V1
Equivalent: SKiiP 26 AC 12T4 V1
MiniSKiiP® 2 PACK
IGBT4
W
W
Trench Fieldstop IGBT4
Technology
Solderless spring contact
mounting system
Housing
W MiniSKiiP® 2
21
SIXPACK
MiniSKiiP® 2 PACK
W
W
Trench Fieldstop IGBTs
for low saturation losses
Solderless spring contact
mounting system
Housing
W MiniSKiiP® 2
Part-No
Voltage
Current1)
Comments
V23990-K232-F-PM
V23990-K233-F-PM
V23990-K305-F-PM
V23990-K238-F-PM
V23990-K239-F-PM
V23990-K230-F-PM
600V
600V
600V
1200V
1200V
1200V
50A
75A
100A
35A
50A
70A
Equivalent:
Equivalent:
Equivalent:
Equivalent:
Equivalent:
Equivalent:
Part-No
Voltage
Current1)
Comments
V23990-K438-F40-PM
V23990-K439-F40-PM
V23990-K430-F40-PM
1200V
1200V
1200V
70A
100A
150A
Equivalent: SKIIP 37 AC 12 T4V1
Equivalent: SKIIP 38 AC 12 T4V1
Equivalent: SKIIP 39 AC 12 T4V1
SKiiP
SKiiP
SKiiP
SKiiP
SKiiP
SKiiP
26
27
28
24
25
26
AC
AC
AC
AC
AC
AC
066V1
066V1
066V1
126V1
126V1
126V1
MiniSKiiP® 3 PACK
IGBT4
W
W
Trench Fieldstop IGBT4
Technology
Solderless spring contact
mounting system
Housing
MiniSKiiP® 3
W
1) Rated current of components
22
HALF-BRIDGE
flowPHASE 0 2nd gen
W
W
W
W
W
Trench Fieldstop
Technology IGBT3
(600V)
Trench Fieldstop
Technology IGBT4
(1200V)
Low saturation losses
and improved EMC
behavior
Clip-in PCB mounting
Available with
Press-fit pins
Part-No
Voltage
Current1)
10-Fx 062PA075SAx²-P993Fx³
10-Fx1062PA100SAx²-P994Fx³
10-Fx1062PA150SAx²-P995Fx³
10-Fx1062PA200SAx²-P996Fx³
10-Fx1122PA050SCx²-P997Fx³
10-Fx1122PA075SCx²-P998Fx³
10-Fx1122PA100SCx²-P999Fx³
10-Fx1122PA150SCx²-P990Fx³
10-Fx1122PA100FEx²-P999Fx³
10-Fx1122PA100FCx²-P999Fx³
600V
600V
600V
600V
1200V
1200V
1200V
1200V
1200V
1200V
75A
100A
150A
200A
50A
75A
100A
150A
100A
100A
Part-No
Voltage
Current1)
V23990-P610-F02-PM
1200V
300A
1
Housing
W flow 0 17mm 2-clip
W flow 0 12mm 2-clip
Comments
Options
IGBT3
1Z:
10:
201:
3:
12mm 2-clip housing
17mm 2-clip housing
Improved Rth (AlN)
Different options
IGBT4, fsw < 8kHz
IGBT2 phantom, fsw < 25kHz
IGBT2 fast, fsw < 50kHz
flowPHASE 2 1st gen
W
W
W
Trench Fieldstop
Technology IGBT3
Low saturation losses
and improved EMC
behavior
Reliable solder and
screw contacts
Housing
W flowSCREW 2
Options
23
HALF-BRIDGE
flowPHASE 2 Low Ind
W
W
W
W
W
W
Trench Fieldstop
Technology IGBT3
(600V)
Trench Fieldstop
Technology IGBT4
(1200V)
Low saturation losses
and improved EMC
behavior
Low resistive high
current path
Low inductive transient
current path
Reliable solder and
screw contacts
Part-No
Voltage
Current1)
Comments
70-S2062PA300SA-P815F
70-S2062PA400SA-P816F
70-S2122PA200FE-P818F20
70-S2122PA200SC-P818F
70-S2122PA300SC-P819F
600V
600V
1200V
1200V
1200V
300A
400A
200A
200A
300A
30kW
40kW
40kW
40kW
60kW
Part-No
Voltage
Current1)
Options
V23990-P669-F02-PM
V23990-P660-F02-PM
1200V
1200V
300A
450A
/
/
/
/
/
20kHz, IGBT3
20kHz, IGBT3
20kHz, IGBT2 phantom
8kHz, IGBT4
8kHz, IGBT4
Housing
W flowSCREW 2
flowPHASE 3
W
W
W
Trench Fieldstop
Technology IGBT3
Low saturation losses
and improved EMC
behavior
Reliable solder and screw
contacts
Housing
W flowSCREW 3
1) Rated current of components
24
H-BRIDGE
fastPACK 0 H
W
W
W
W
Ultra low inductive
design
Ultra high switching
frequency
Clip-in PCB mounting
Available with
Press-fit pins
Housing
W flow 0 17mm 4-clip
W flow 0 12mm 2-clip
P622 + P628
P623 + P629
Part-No
Voltage
Current1)
Comments
V23990-P622-F64-PM
V23990-P622-F74-PM
V23990-P623-F04-PM
V23990-P623-F14-PM
V23990-P623-F24-PM
V23990-P624-F24-PM
V23990-P625-F24-PM
V23990-P628-F64-PM
V23990-P629-F44-PM
V23990-P629-F46-PM
V23990-P629-F54-PM
600V
600V
600V
600V
600V
600V
600V
900V
1200V
1200V
1200V
30A
30A
60A
60A
50A
75A
100A
26A
25A
25A
25A
CoolMOS, fsw < 400kHz
V23990-P629-F56-PM
1200V
25A
CoolMOS, fsw < 400kHz, improved Rth (AlN)
IGBT2 fast, fsw < 100kHz
IGBT2 fast, fsw < 100kHz, improved Rth (AlN)
IGBT3, fsw < 30kHz
CoolMos C3 120 mOhm, fsw < 250 kHz, H-bridge
IGBT2 phantom, fsw < 50kHz
IGBT2 phantom, fsw < 50kHz, hyper fast diodes
IGBT2 phantom, fsw < 50kHz, improved Rth (AlN)
IGBT2 phantom, fsw < 50kHz, improved Rth (AlN), hyper fast diodes
fastPACK 0 H
with capacitors
W
W
W
W
W
Ultra low inductive
design
Integrated capacitor
Ultra high switching
frequency
Clip-in PCB mounting
Available with
Press-fit pins
Housing
W flow 0 17mm 4-clip
W flow 0 12mm 2-clip
P722
Part-No
Voltage
Current1)
V23990-P722-F64-PM
V23990-P722-F74-PM
600V
600V
30A
30A
V23990-P723-F04-PM
V23990-P723-F14-PM
V23990-P729-F44-PM
V23990-P729-F46-PM
V23990-P729-F54-PM
V23990-P729-F56-PM
600V
600V
1200V
1200V
1200V
1200V
60A
60A
25A
25A
25A
25A
P723 + P729
Comments
CoolMOS CFD 83mOhm with fast body diode, fsw < 400kHz
CoolMOS CFD 83mOhm with fast body diode, fsw < 400kHz,
improved Rth (AlN)
IGBT2 fast, fsw < 100kHz
IGBT2 fast, fsw < 100kHz, improved Rth (AlN)
IGBT2 phantom, fsw < 50kHz
IGBT2 phantom, fsw < 50kHz, hyper fast diodes
IGBT2 phantom, fsw < 50kHz, improved Rth (AlN)
IGBT2 phantom, fsw < 50kHz, improved Rth (AlN), hyper fast diodes
25
H-BRIDGE
fastPIM 1 H
W
W
Ultra high switching
frequency
Ultra low inductive design
Housing
W flow 1 17mm
Part-No
V23990-P381-A-PM
V23990-P382-A-PM
V23990-P385-A11-PM
V23990-P380-A-PM
V23990-P386-A11-PM
V23990-P387-A11-PM
Voltage
600V
600V
600V
600V
600V
600V
Current1)
12A
20A
20A
30A
30A
40A
Comments
Improved Rth (AlN)
Improved Rth (AlN)
Improved Rth (AlN)
RECTIFIER
flowCON 0
W
W
W
W
Modular input rectifier
Optionally half controlled
Compatible
with flowPHASE and
flowPACK
Combines P590 and
P600 to a three-phase
rectifier
Housing
W flow 0 17mm 4-clip
1) Rated current of components
26
P64x
Part-No
Voltage
Current1)
V23990-P649-*-PM
1600V
50A
V23990-P640-*-PM
1600V
75A
V23990-P590-J09-PM
1600V
105A
V23990-P590-J19-PM
1600V
78A
V23990-P600-I09-PM
1600V
105A
V23990-P600-I19-PM
1600V
78A
P590
Options*
G:
G10:
H:
H10:
Standard rectifier, with brake
Half controlled rectifier, with brake
Standard rectifier, w/o brake
Half controlled rectifier, w/o brake
Standard rectifier
Half controlled rectifier
Standard rectifier
Half controlled rectifier
P600
flow90CON 1
W
W
W
W
Input rectifier optionally
half controlled
Compatible with
flow90PACK 1
Clip-in PCB mounting
Clip or screw-on
heatsink mounting
Housing
W flow90 1
Part-No
Voltage
Current1)
Options*
V23990-P717-G*-PM
V23990-P718-G*-PM
V23990-P719-G*-PM
1600V
1600V
1600V
35A
50A
75A
G:
G10:
H:
H10:
Voltage
Current1)
Comments
15A
28A
30A
34A
36A
CooIMOS™ + tandem diode
CooIMOS™ + tandem diode
High speed IGBT + tandem diode
CooIMOS™ + SiC diode
High speed IGBT + tandem diode,
enhanced rectifier
Standard rectifier, with brake
Enhanced rectifier, with brake
Standard rectifier, w/o brake
Enhanced rectifier, w/o brake
PFC
flowPFC 0 1st gen
W
W
W
W
High power, high
efficiency PFC circuit
Optionally half controlled
Up to 400kHz switching
frequency
Integrated high frequency
capacitors
Part-No
Housing
W flow 0 17mm 4-clip
V23990-P802-D*0-PM
V23990-P803-D*0-PM
V23990-P804-D*1-PM
V23990-P800-D*0-PM
V23990-P804-D30-PM
500V
500V
600V
600V
600V
Options*
3: Standard rectifier
4: Half controlled
rectifier
27
PFC
flowPFC 0 2nd gen
W
W
W
W
W
Compact and low
inductance design
Suitable for interleaved
topology
Suitable for current
sensing in collector
or in emitter
PFC for welding,
SMPS, motor drives,
UPS, chargers
Available with
Press-fit pins
Housing
W flow 0 17mm 2-clip
W flow 0 12mm 2-clip
Part-No
Voltage Current1) Comments
Options
10-F0062TA099FH02-P980D49 600V
10-FZ062TA099FH1-P980D18 600V
20A
25A
CooIMOS™ + SIC
With SCR, current sense in emitter
CooIMOS™ + SIC
1
10-FZ062UA032FP1-P98x
600V
30A
Parallel switch:
CooIMOS™ // PT IGBT
+ STEALTH™ II
1
10-FZ062TA030FB1-P98x
600V
30A
High speed IGBT2
+ STEALTH™ II
10-FZ062UA040FP1-P98x
600V
40A
10-FZ062TA040FB1-P98x
600V
50A
Default: W/o SCR, current sense in collector
01: With SCR, current sense in collector
10: W/o SCR, current sense in collector
11: With SCR, current sense in collector
12: W/o SCR, current sense in emitter
13: With SCR, current sense in emitter
1
Default: W/o SCR, current sense in collector
Parallel switch: CooIMOS™ // 01: With SCR, current sense in collector
PT IGBT + STEALTH™ II
02: W/o SCR, current sense in emitter
03: With SCR, current sense in emitter
High speed IGBT2
+ STEALTH™ II
SOLAR TOPOLOGIES
FZ06BIA045FH01
flowSOL 0
Transformerless,
Single Phase
W
W
W
High efficiency
Dedicated designs for
transformer-based and
transformerless
topologies
Ultra high switching
frequency
FZ06BIA045FH02
Housing
W flow 0 12mm 2-clip
1) Rated current of components
28
Part-No
Voltage
Current1)
Comments
10-FZ06BIA045FH-P897E
600V
20A
10-FZ06BIA045FH01-P897E10 600V
20A
10-FZ06BIA045FH02-P897D
600V
20A
10-FZ06BIA070FS-P894E
600V
12A
10-FZ06BIA099FS-P893E
600V
10A
45 mOhm (boost + H-bridge)
+ SiC in boost and H-bridge
45 mOhm (boost + H-bridge)
+ SiC in boost
45 mOhm (boost + H-bridge)
+ SiC in boost and H-bridge,
open emitter
70 mOhm (boost + H-bridge)
+ SiC in boost and H-bridge
99 mOhm (boost + H-bridge)
+ SiC in boost and H-bridge
FZ06BIA083FI
V23990-P628-F64-PM*
flowSOL 0
Transformerbased,
Single Phase
W
W
W
High efficiency,
CoolMOS™ + SiC
diode
Ultra high switching
frequency
Use FZ06RIA045FH
with FZ06BIA083FI or
V23990-P628-F64-PM
Housing
W flow 0 12mm 2-clip
FZ06RIA045FH
Part-No
Voltage
Current1)
Comments
10-FZ06BIA083FI-P896E
600V
12A
10-FZ06RIA045FH-P906D
600V
20A
10-FZ06RIA045FH01-P906D10 600V
20A
V23990-P628-F64-PM
900V
26A
Primary, 45mOhm + SiC diode (boost)
+ H-bridge with 83mOhm CFD
Secondary, ultra fast rectifier + 45mOhm,
SiC highside rectifier
Secondary, ultra fast rectifier + 45mOhm,
STEALTH™ II highside rectifier
Primary, CoolMOS™ C3 120mOhm,
fsw < 250kHz, parallel boost
Part–No
Voltage
Current1)
Comments
10-FZ06NBA045FH-P915L
600V
35A
Dual boost + 45mOhm, SiC diodes
BOOSTER
flowBOOST 0
Symmetric
with bypass diodes
W
W
W
W
High efficiency
symmetric boost
Dedicated designs for
solar and UPS
applications
Ultra high switching
frequency
Use together with
flowNPC 0
Housing
W flow 0 12mm 2-clip
* Without booster
29
BOOSTER
flowBOOST 0
Symmetric
W
W
W
W
High efficiency
symmetric boost
Dedicated designs for
solar and UPS
applications
Ultra high switching
frequency
Use together with
flowNPC 0
Housing
W flow 0 12mm 2-clip
10-FZ06NBA*FP*-M306
10-FZ06NBA0*SA-P916
Part –No
Voltage
Current1)
Comments
10-FZ06NBA075SA-P916L33
10-FZ06NBA050SA-P915L33
10-FZ06NBA030SA-P914L33
10-FZ06NBA110FP10-M306L18
10-FZ06NBA110FP-M306L28
10-FZ06NBA084FP10-M306L38
10-FZ06NBA084FP-M306L48
600V
600V
600V
600V
600V
600V
600V
75A
50A
30A
110A
110A
84A
84A
Part –No
Voltage
Current1)
Comments
30-F206NBA200SA-M235L33
30-F206NBA200SG-M235L25
30-F206NBA200FP-M235L
600V
600V
600V
200A
200A
200A
Dual boost, 200A, IGBT3
Dual boost, 200A, IGBT3 high speed
Dual boost, 200A, parallel switch
IGBT3
Dual
Dual
Dual
Dual
boost,
boost,
boost,
boost,
110A, parallel switch, ultra fast diode
110A, parallel switch, SiC diode
84A, parallel switch, ultra fast diode
84A, parallel switch, SiC diode
flowBOOST 2
Symmetric
W
W
W
W
High efficiency
symmetric boost
Dedicated designs
for solar and UPS
applications
Ultra high switching
frequency
Use together with
flowNPC 2
Housing
W flow 2
1) Rated current of components
30
V23990-P621-F68-PM
flowBOOST 0
Dual
W
W
W
W
2x900V/120mOhm
CoolMOS-C3 or
2x1200V/64A highspeed
IGBT or
4X100mOhm SiC JFET
1200V SiC diodes
Bypass rectifier
10-PZ12B2A025FN-M330L08Y
V23990-P629-F62-PM
Housing
W flow 0 12mm 2-clip
Part –No
Voltage
Current1)
Comments
V23990-P621-F68-PM
V23990-P629-F62-PM
V23990-P629-F72-PM
900V
1200V
1200V
10-PZ12B2A025FN-M330L08Y
1200V
2x120mOhm CoolMOS-C3 + SiC; bypass diode
2x64A
Ultra fast IGBT + SiC diodes, bypass diode
2x64A
Ultra fast IGBT + STEALTH™ II diodes,
bypass diode
2 X 80A
4x100mOhm SiC JFET + SiC diode
NPC
flowNPC 0
W
W
W
W
High efficiency threelevel half-bridge
(2 x 600V = 1200V)
Dedicated designs for
solar and UPS
applications
Ultra high switching
frequency
Compatible with
flowBOOST 0 Symmetric
Housing
W flow 0 12mm 2-clip
NI
Part –No
Voltage
NR
NP
Current1)
Comments
CoolMOS CP + IGBT3,
SiC diodes + reactive power
CoolMOS CP + IGBT3,
STEALTH™ II diodes, reactive power
Parallel switch (CoolMOS + IGBT PT)
SiC diodes, reactive power
Parallel switch (CoolMOS + IGBT PT)
STEALTH™ II diodes, reactive power
Parallel switch (CoolMOS + IGBT PT)
SiC diodes, reactive power
Parallel switch (CoolMOS + IGBT PT)
STEALTH™ II diodes, reactive power
CoolMOS CP + IGBT3 + SiC diodes
CoolMOS CP + IGBT3 + STEALTH™ diodes
IGBT3
IGBT3
IGBT3
10-FZ06NRA045FH-P965F
600V
30A
10-FZ06NRA045FH01-P965F10
600V
30A
10-FZ06NPA045FP-P967F
600V
50A
10-FZ06NPA045FP01-P967F10
600V
50A
10-FZ06NPA070FP-P969F
600V
70A
10-FZ06NPA070FP01-P969F10
600V
70A
10-FZ06NIA045FH-P925F
10-FZ06NIA045FH01-P925F10
10-FZ06NIA030SA-P924F33
10-FZ06NIA050SA-P925F33
10-FZ06NIA075SA-P926F33
600V
600V
600V
600V
600V
75A
75A
30A
50A
75A
31
NPC
flowNPC 1
W
W
W
W
High efficiency
three-level half-bridge
(2 x 600V = 1200V)
Trench Fieldstop
Technology IGBT3
Low inductance layout
For solar, UPS and
motor drives
Housing
W flow 1 17mm
Part –No
Voltage
Current1)
Comments
10-F106NIA100SA-M135F
10-F106NIA150SA-M136F
600V
600V
100A
150A
IGBT3
IGBT3
Part –No
Voltage
Current1)
Comments
30-F206NIA075SA05-M245F31
30-F206NIA150FP-M104F20
30-F206NIA200SA-M105F
30-F206NIA200SG-M105F25
30-F206NIA300SA-M106F
600V
600V
600V
600V
600V
75A
150A
200A
200A
300A
IGBT3
Parallel switch
IGBT3
IGBT3 high speed 3
IGBT3
flowNPC 2
W
W
W
W
W
High efficiency
three-level half-bridge
(2 x 600V = 1200V)
Trench Fieldstop
Technology IGBT3
Low inductance layout
For solar, UPS and
motor drives
Compatible with
flowBOOST 2
Symmetric
Housing
W flow 2
1) Rated current of components
32
MNPC
10-PZ12NMA025FN-m340F08Y
flowMNPC 0
W
W
W
W
High efficiency threelevel half-bridge
Dedicated designs
for solar and UPS
applications
Ultra high switching
frequency
Compatible with
flowBOOST 0
Symmetric
10-FZ12NMA080SH-M269
Housing
W flow 0 12mm 2-clip
Part –No
Voltage
Current1)
Comments
10-FZ12NMA080SH-M269
10-PZ12NMA025FN-M340F08Y
1200V
1200V
80A
80A
IGBT4 high speed 3
4x100mOhm SiC JFET
Part –No
Voltage
Current1)
Comments
10-F112NMA160SH-M420
1200V
160A
IGBT4 high speed 3
flowMNPC 1
W
W
W
High efficiency threelevel half-bridge
Dedicated designs for
solar and UPS
applications
Ultra high switching
frequency
Housing
W flow 1 12mm
33
MNPC
3xflowMNPC 4W
1200V
W
W
W
W
High efficient three-phase
mixed voltage NPC
Low stray inductance
with integrated DC
snubber capacitors
Screw terminals
Dedicated for high
efficient solar and UPS
applications
Housing
W flowSCREW 4W
Part –No
Voltage
Current1)
Comments
70-W612M3A600SC-M200E
70-W612M3A400SC-M209E
70-W612M3A300SC-M208E
1200V
1200V
1200V
600A
400A
300V
IGBT4
IGBT4
IGBT4
Part –No
Voltage
Current1)
Comments
70-W624N3A320SH-M400E
2400V
400A
IGBT4-HS3
3xflowMNPC 4W
2400V
W
W
W
W
High efficient
three-phase NPC
Low stray inductance
with integrated DC
snubber capacitors
Screw terminals
Dedicated for
high efficient solar
applications
Housing
W flowSCREW 4W
1) Rated current of components
34
Housing Dimensions
flow 0 17mm 2-clip
Housing Dimensions:
Height: 17mm
Length: 66mm
Width: 33mm
long direction convexity
max. 0,2 mm
flow 0 12mm 2-clip
Housing Dimensions:
Height: 12mm
Length: 66mm
Width: 33mm
long direction convexity
max. 0,2 mm
35
flow 0 17mm 4-clip
Housing Dimensions:
Height: 17mm
Length: 66mm
Width: 33mm
long direction convexity
max. 0,2 mm
flow 1 12mm
Pinout area
16,2 –0,5
0,15 – 0,1 Convexity
12,04 –0,3
0,14 –0,1
Height: 12mm
Length: 82mm
Width: 38mm
1,7 –0,3
3,4
Housing Dimensions:
82 –0,5
71 –0,2
5,5 +0,2
20
37,4
30,8 –0,2
4,3 +0,2
2 –0,1
Pinout area
36
flow 1 17mm
Housing Dimensions:
Height: 17mm
Length: 82mm
Width: 38mm
flow 1B
Housing Dimensions:
Height: 16mm
Length: 72mm
Width: 36mm
37
flow 2
Housing Dimensions:
Height: 17mm
Length: 108mm
Width: 47mm
flow90 1
Housing Dimensions:
Height: 28mm
Length: 84mm
Width: 21mm
38
flowSCREW 2
Housing Dimensions:
Height: 17mm
Length: 117mm
Width: 64mm
flowSCREW 3
Housing Dimensions:
Height: 17mm
Length: 150mm
Width: 64mm
39
flowSCREW 4W
Housing Dimensions:
Height: 40mm
Length: 317mm
Width: 130mm
flat 1
Housing Dimensions:
Height: 13mm
Length: 108mm
Width: 47mm
40
MiniSKiiP® 0
30,5
ø 6,6
3,2
1,5 (1-2,5)
2,8
33,5
15,8
Height: 16mm
Length: 34mm
Width: 31mm
3,2
Housing Dimensions:
6,5
30,5
15,8
1,5 (1-2,5)
3,2
MiniSKiiP® 1
Housing Dimensions:
Height: 16mm
Length: 42mm
Width: 40mm
41
MiniSKiiP® 2
Housing Dimensions:
Height: 16mm
Length: 59mm
Width: 52mm
MiniSKiiP® 3
Housing Dimensions:
Height: 16mm
Length: 82mm
Width: 59mm
42
MiniSKiiP Options
®
MiniSKiiP® modules
with pre-applied thermal paste
Lids
Two lids are available for all
MiniSKiiP® modules:
W
W
Standard 6.5mm-high version allowing SMD parts to be mounted
below the lid
Ultra thin 2.8mm-high version sized for highly compact mechanical designs
Standard Lid
Thin Lid
Thermal Paste
Vincotech offers MiniSKiiP® modules with pre-applied thermal paste.
Features:
W
W
W
W
W
W
Faster and easier assembly of the module
Thermal conducting material with optimized thickness
Lower thermal resistance and reduced risk of DCB cracking
Easier production process; no need for screen printing facilities
Automated screen printing for utmost precision and reliability
Standard solder profile applicable (e.g. J-STD-001, J-STD-003)
Properties
Material
Thermal conductivity
Wacker® Paste 12
0.81W/m*k
Order Codes
Option codes for MiniSKiiP® options are:
Example order code V1:
V23990-K220-A40-/1A/-PM
Option Code
Lid
Thermal Paste P12
/0A/
/1A/
/0B/
/1B/
Standard (6.5mm)
Standard (6.5mm)
Thin (2.8mm)
Thin (2.8mm)
–
Applied
–
Applied
Example order code V2:
80-M206BIA045FH-K999E10-/1A/
Please ask your sales rep
about the availability of
MiniSKiiP® options.
43
Phase Change Material
Pre-applied thermal conducting
material
The benefits of using phase change
material for thermal conducting between
the module and heat sink are considerable. This material is solid at
room temperature. This makes it smear-resistant during transportation
and when assembling the module. The screen-printing process is very
accurate, so the material’s thickness is well defined and can be
optimized for maximum heat transfer capability.
Features:
W
W
W
W
W
W
W
Faster and easier assembly of the module
Thermal conducting material with optimized thickness
Better Rth and reduced risk of DCB cracking
Easier production process; no need for screen printing facilities
Automated screen printing for utmost precision and reliability
No risk of smearing the thermal paste; material is solid a room
temperature
Standard solder profile applicable (e.g. J-STD-001, J-STD-003)
Properties
Order Codes
Option code for the phase
change material for flow 0 and
flow 1 modules is /3/ (see also
page 42).
Example order code V1:
V23990-P840-A48-/3/-PM
Example order code V2:
10-FZ06BIA045FH01-P897E10-/3/
Please ask your sales rep
about the availability of phase
change material.
44
Parameter
Value
Unit
Thermal conductivity
Phase change temperature
3.4
+45
W/m*K
°C
Save Time – Press in!
Press-fit Technology
Vincotech‘s new Press-fit technology reduces PCB assembly time
and effort considerably. Well established in the automotive industry,
the Press-fit pin eliminates the need for soldering. This cuts process
time and costs, and boosts production output capacity. With no need
to solder modules, engineers enjoy far great flexibility in design.
The module can easily be mounted on the other side of the PCB at
no extra cost and effort.
Features:
W
W
W
W
W
Benefits:
W
W
W
W
W
W
Order Codes
Order code V1:
Press-fit option is shown as
an additional letter Y at the end
of option code (see also page 42).
W
W
Approved rounded Press-fit area
Complies with DIN and IEC standards
Tapered pin head
Same Press-fit area for all power ranges
Available in three versions, covering all
Vincotech power module families:
– For 12mm base plate-less housings
– For 17mm base plate-less housings
– For 17mm housings with base plate
Example of Press-In Equipment
Block
to apply Force
Module
PCB
Press-In Tool
Eliminates costly additional soldering process
Pins are compatible with legacy solder pin modules
Very high current capability (30A @ 80°C)
Reliable cold welding connection to PCB
No PCB hole damage, allowing for reuse
Thermo-mechanical push and
pull-force relief
Flexible mounting onto the power
module DCB
Cuts production costs
Example order code V1:
V23990-P840-F49Y-PM
Order code V2:
Press-fit option is shown as
alternative housing
(see also page 42).
Example order code V2:
10-PZ06BIA045FH01-P897E10
Please ask your sales rep
about the availability of
Press-fit options.
45
Description – Naming System
Vincotech is transitioning to a new, more consistent naming system
for power modules.
VERSION 1
This ordering code is
identical with the product
name shown here. It remains
valid for all products released
before mid-2009 and
subsequent releases within
product families established
before 2009.
Leading Number:
V23990: Power modules
V23109: Relays
S30814: Hybrids
Technology Group
for UL notification
Voltage
06: 600V
09: 900V
07: 650V
12: 1200V
Option Code 2 (optional)
Phase change material
(see also page 40)
Option Code
Different housings
Optional DCB material
Optional parts (e.g. brake)
Y as last letter:
Press-fit option (see also page 41)
Pinout
Modules with same topology,
same housing, and same pinout
have same character
MiniSKiiP® options
(see also page 39)
Current/RDS(on)
045 (IGBT): 45A
045 (MOS): 45mOhm
Internal Identifier
10 - FZ 06 BI A 045 FH 01 - P623F10 - /1/
Version 2 introduces a new
name and ordering code for
products released after
mid-2009.
- The new product name
describes the module’s
characteristics.
- The new ordering code
extends the product’s name.
It is listed in the product
data sheet.
46
Part Number
Ending
V23990 - P 5 69 - F31 Y - /1/ - PM
Product Classification:
P: flow power modules
K: MiniSKiiP® power modules
S: Relays
Q: Hybrids
VERSION 2
Product Identification
First two digits: Product family identifier
Last digit: Module identifier
Modules are listed from lowest to highest power
(e.g. 600V/5A – 1200V/15A)
Housing
Solder Pins
FZ: flow 0 12mm
F0: flow 0 17mm
F1: flow 1
FB: flow 1B
FY: flow 1 12mm
F2: flow 2
R1: flow90 1
S2: flowSCREW 2
S3: flowSCREW 3
Press-Fit Pins
PZ: flow 0 12mm
P0: flow 0 17mm
P1: flow 1
PB: flow 1B
PB: flow 1 12mm
P2: flow 2
T2: flowSCREW 2
T3: flowSCREW 3
W6: flowSCREW 4W
MiniSKiiP®
M0: MiniSKiiP® 0
M1: MiniSKiiP® 1
M2: MiniSKiiP® 2
M3: MiniSKiiP® 3
Options
E.g. alternative parts
Topology
2P: Half-Bridge
2T: Rectifier + PFC
2U: Rectifier + P-Switch PFC
BI: Boost + inverter
IP: IPM w/o brake, with PFC
NB: Symmetric boost
NI: NPC
NP: NPC parallel switch
NR: NPC reactive power
NM: MNPC
RI: Rectifier + inverter
Order Code
(find in product data sheet)
Option Code (optional)
Phase change material
(see also page 40)
MiniSKiiP® options
(see also page 39)
Chip Technology
SA: IGBT3 Standard
SB: IGBT3 Low Loss
SG: IGBT3 High Speed
SC: IGBT4 Low Power
SH: IGBT4 High Speed
FB: IGBT2 High Speed
FE: IGBT2 Phantom Speed
FH: CoolMOS CP
FS: CoolMOS C6
FI: CoolMOS CFD
FP: Parallel Switch
MC: MOSFET + SiC
MF: MOSFET + Fast Diode
Product Name
Simulation Software
Vincotech ISE
The Integrated Simulation Environment
The Vincotech ISE is an integrated simulation and selection environment
for power and solar modules. The program contains updated versions
of the previously introduced applications flowSIM and flowSEL and new
applications such as flowSOL and flowMIS.
1
2
Software Download:
Step 01:
Download and install LabVIEW
Runtime Engine once (if not
already installed).
Direct link:
www.vincotech.com/simulation_software.html
Step 02:
Download Vincotech ISE.exe
into your simulation directory.
Step 03:
Start Vincotech ISE.exe
3
4
flowSIM is a tool that interactively calculates power dissipations and
temperatures using Vincotech power modules. It helps you select the
right devices for your application. Its power loss and device temperature
calculations are based on fully measured parameters.
1
flowSEL is a tool that helps you choose the right driver stage for
your application. Using the generated curves as sources, you can obtain
information about current, power and temperature conditions for your
application.
2
flowSOL is a simulation tool for solar modules. The program is based
on and behaves much like flowSIM.
3
flowMIS is a tool that simulates the power and temperature
characteristics of modules excited with a given mission profile.
4
47
Vincotech Locations
Chicago
Copenhagen
Berlin
Unterhaching
Bicske
Lyon
Bologna
Seoul
Shanghai
Shenzhen
Taipeh
Headquarters
Design Center
Sales Offices
Manufacturing
Vincotech, an independent company within the Mitsubishi Electric Corporation is a market leader in power
modules. The enterprise develops and manufactures high-quality electronic power components for Motion
Control, and Renewable Energy applications. With some 500 employees worldwide, backed by vast
experience and a long history in electronics integration, Vincotech leverages these assets to help customers
attain maximum market success.
Headquartered in Unterhaching near Munich, Germany, Vincotech also owns and operates a site in Bicske,
Hungary. The ISO9001- and TS16949-certified factory in Hungary develops and manufactures all power
modules. Engineered to comply with the RoHS standard, these modules are subjected to a battery of
electrical and functional tests prior to packaging to ensure they fully satisfy Vincotech’s rigorous standards
for quality.
The name Vincotech stands for highest product reliability, excellent customer service, and flexible,
competitive solutions, all of which culminate in outstanding customer satisfaction.
Vincotech, your reliable partner!
The information provided herein is believed to be reliable at press time. Vincotech
assumes no responsibility for inaccuracies or omissions. Vincotech assumes no
responsibility for the use of this information, and all such information shall
be entirely at the users own risk. Prices and specifications are subject to change
without notice. Vincotech does not authorize or warrant any of its products for
use in life-support devices and / or systems.
Your local contact:
COOLMOS is a trademark of Infineon Technologies AG.
Fairchild is a trademark. STEALTH is a trademark of Fairchild Semiconductors.
SEMIKRON is a trademark. MiniSKiiP is a trademark of SEMIKRON
Elektronik GmbH & Co. KG.
Vincotech is a trademark. flowPIM is a trademark of Vincotech Holdings S.à.r.l.
Wacker is a trademark of Wacker Chemie AG.
Ready
Vincotech GmbH
Biberger Straße 93
82008 Unterhaching/Munich
Germany
Tel.: +49 (0)89 8780 67-0
Fax: +49 (0)89 8780 67-300
www.vincotech.com
Copyright © 2011 · Vincotech GmbH · Printed in Germany · Vincotec-005-0511.3-E
RoHS