6MS30017E43W40372 Data Sheet (1.2 MB, EN)

TechnicalInformation
ModSTACK™HD
6MS30017E43W40372
Preliminarydata
Generalinformation
IGBTStackfortypicalvoltagesofupto690VRMS
Ratedoutputcurrent1800ARMS
· High power converter
· Wind power
· Motor drives
· PrimePACKTM3 module with integrated NTC
· Extended operational temperature
· Low Vcesat
Topology
B6I
Application
Inverter
Load type
Resistive, inductive
Semiconductor (Inverter
Section)
9x FF1000R17IE4
DC Link
10.8 mF
Heatsink
Water cooled
Implemented sensors
Current, voltage, temperature
Driver signals IGBT
Electrical
Sales - name
6MS30017E43W40372
SP - No.
SP001200194
DC Link
Inverter Section
~
~
~
Signal
conditioning
& monitor
Driver
3 phases
Electrical interface
preparedby:OW
dateofpublication:2014-02-13
approvedby:KV
revision:2.0
1
TechnicalInformation
ModSTACK™HD
6MS30017E43W40372
Preliminarydata
Absolutemaximumratedvalues
Collector-emitter voltage
IGBT; Tvj = 25°C
Repetitive peak reverse voltage Diode; Tvj = 25°C
DC link voltage
VCES
1700
V
VRRM
1700
V
VDC
1250
V
Insulation management
according to installation height of 2000 m
Vline
690
VRMS
Insulation test voltage
according to EN 50178, f = 50 Hz, t = 1 s
VISOL
2.5
kVRMS
Repetitive peak collector
current inverter section (IGBT)
tp = 1 ms
ICRM2
4280
A
Repetitive peak forward current
tp = 1 ms
inverter section (Diode)
IFRM2
4280
A
Continuous current inverter
section
IAC2
1800
ARMS
Tvjop
150
°C
fsw2
3
kHz
Junction temperature
under switching conditions
Switching frequency inverter
section
Notes
Further maximum ratings are specified in the following dedicated sections
Characteristicvalues
DCLink
min.
Rated voltage
VDC
Over voltage shutdown
within 150 µs
Capacitor
1 s, 27 p, rated tol. ±10 %
Maximum ripple current
per device, Tamb = 55 °C
Balance or discharge resistor
per DC link unit
typ.
max.
1100
1216
V
1250
V
CDC
10.8
mF
type
Foil
Iripple
49
Rb
15.7
ARMS
kΩ
Notes
Operation above 1100 V subject to reduced operating time according to EN 61071
InverterSection
min.
Rated continuous current
VDC = 1100 V, VAC = 690 VRMS, cos(ϕ) = 0.85,
fAC sine = 50 Hz, fsw = 3000 Hz, Tinlet = 40°C, Tj ≤ 150 °C
Continuous current at low
frequency
VDC = 1100 V, fAC sine = 0 Hz, fsw = 3000 Hz, Tinlet = 40 °C,
Tj ≤ 150 °C
Rated continuous current for
150% overload capability
typ.
max.
IAC
1800
ARMS
IAC low
880
ARMS
IAC 150% = 2047 ARMS, ton over = 60 s, Tj ≤ 150 °C
IAC over1
1365
ARMS
Rated continuous current for
150% overload capability
IAC 150% = 2203 ARMS, ton over = 3 s, Tj ≤ 150 °C
IAC over2
1468
ARMS
Over current shutdown
within 15 µs
IAC OC
4280
Apeak
Power losses
IAC = 1800 A, VDC = 1100 V, VAC = 690 VRMS,
cos(ϕ) = 0.85, fAC sine = 50 Hz, fsw = 3000 Hz,
Tinlet = 40 °C, Tj ≤ 150 °C
Ploss
29140
W
preparedby:OW
dateofpublication:2014-02-13
approvedby:KV
revision:2.0
2
TechnicalInformation
ModSTACK™HD
6MS30017E43W40372
Preliminarydata
Controllerinterface
Driver and interface board
ref. to separate Application Note
DR110
Auxiliary voltage
Vaux
min.
typ.
max.
18
24
30
Auxiliary power requirement
Vaux = 24 V
Paux
Digital input level
resistor to GND 1.8 kΩ, capacitor to GND 4 nF,
logic high = on, min. 15 mA
Vin low
0
40
Vin high
Digital output level
open collector, logic low = no fault, max. 15 mA
Vout low
V
W
4
V
11
15
V
0
1.5
V
Vout high
15
V
Analog current sensor output
inverter section
load max 1 mA, @ 1800 ARMS
VIU ana2
VIV ana2
VIW ana2
Analog DC link voltage sensor
output
load max 1 mA, @ 1100 V
VDC ana
Analog temperature sensor
output inverter section (NTC)
load max 1 mA, @TNTC = 62 °C,
corresponds to Tj = 135 °C at rated conditions
VTheta NTC2
7.2
V
Analog temperature sensor
output inverter section
(Simulated)
load max 1 mA, @TNTC = 62 °C,
corresponds to Tj = 135 °C at rated conditions
VTheta sim2
8.9
V
VError OT2
9.2
V
Over temperature shutdown
inverter section
Systemdata
EMC robustness
4.1
4.2
4.3
V
7.7
7.9
8.1
V
min.
according to IEC 61800-3 at named
interfaces
2
kV
control
VBurst
1
kV
aux (24V)
Vsurge
Operational ambient
temperature
PCB, DC link capacitor, bus bar, excluding cooling
medium
Cooling air velocity
PCB, DC link capacitor, bus bar, standard atmosphere
Humidity
no condensation
Vibration
according to IEC 60721
Shock
according to IEC 60721
1
-40
80
°C
Top amb
-25
55
°C
Vair
2
Rel. F
0
m/s
95
%
5
m/s²
40
m/s²
339
mm
IP00
Pollution degree
2
width x depth x height
1090
Weight
596
137
Heatsinkwatercooled
min.
according to coolant specification from Infineon
∆V/∆t
typ.
kg
max.
45
dm³/min
Water pressure
Water pressure drop
kV
Tstor
Protection degree
Water flow
max.
VBurst
Storage temperature
Dimensions
typ.
power
8
∆p
at 45 dm³/min water flow
Coolant inlet temperature
Tinlet
Thermal resistance heatsink to
per switch
ambient
Rth,ha
Cooling channel material
200
-40
55
0.03
Aluminum
Notes
Composition of coolant: Water and 52 vol. % Antifrogen N
preparedby:OW
dateofpublication:2014-02-13
approvedby:KV
revision:2.0
3
bar
mbar
°C
K/W
TechnicalInformation
ModSTACK™HD
6MS30017E43W40372
Preliminarydata
Unit 1
(not
installed
Overviewofoptionalcomponents
Inverter
Section
Parallel interface board
Optical interface board
Voltage sensor
×
Current sensor
×
Temperature sensor
×
Temperature simulation
×
DC link capacitors
×
Collector-emitter Active Clamping
×
Notes
Setting of Active Clamping TVS-Diodes: VZ = 1280 V
preparedby:OW
dateofpublication:2014-02-13
approvedby:KV
revision:2.0
4
Unit 3
(not
installed)
TechnicalInformation
6MS30017E43W40372
ModSTACK™HD
Preliminarydata
fsw - derating curve IGBT (motor), Diode (generator)
VDC = 1100 V, VAC = 690 VRMS, fAC sine = 50 Hz, cosϕ = ±0.85,
Tinlet = 40 °C and nom. cooling conditions
120
120
110
110
100
100
90
90
80
80
70
70
IAC/Inom [%]
IAC/Inom [%]
fAC sine - derating curve IGBT (motor), Diode (generator)
VDC = 1100 V, VAC = 690 VRMS, fsw = 3 kHz, cosϕ = ±0.85,
Tinlet = 40 °C and nom. cooling conditions
60
50
60
50
40
40
30
30
20
20
IGBT, cosϕ = 0.85
Diode, cosϕ = -0.85
10
0
0
5
10
15
20
25
IGBT, cosϕ = 0.85
Diode, cosϕ = -0.85
10
30
35
40
45
0
1000
50
1500
fAC sine [Hz]
2000
2500
3000
fsw [Hz]
Tinlet - derating curve IGBT (motor), Diode (generator)
VDC = 1100 V, VAC = 690 VRMS, fsw = 3 kHz, fAC sine = 50 Hz,
cosϕ = ±0.85 and nom. cooling conditions
Analog temperature sensor output VTheta NTC
Sensing NTC of IGBT module
120
10
110
9
100
8
90
7
6
70
VTheta NTC [V]
IAC/Inom [%]
80
60
50
40
5
4
3
30
2
20
10
0
-25
1
IGBT, cosϕ = 0.85
Diode, cosϕ = -0.85
-15
-5
5
15
25
35
45
0
55
Tinlet [°C]
preparedby:OW
dateofpublication:2014-02-13
approvedby:KV
revision:2.0
0
20
40
TNTC [°C]
5
60
80
100
TechnicalInformation
6MS30017E43W40372
ModSTACK™HD
Preliminarydata
Tvj,sim vs. IAC - Simulated junction temperatur
VDC = 1100 V, VAC = 690 VRMS, fsw = 3 kHz,
Tinlet = 40 °C and nom. cooling conditions
Analog temperature sensor output VTheta sim
VDC = 1100 V, VAC = 690 VRMS, fsw = 3 kHz,
nom. cooling conditions
150
10
fAC sine = 50 Hz
fAC sine = 12 Hz
fAC sine = 5 Hz
140
fAC sine = 50 Hz
fAC sine = 12 Hz
fAC sine = 5 Hz
9
8
7
6
120
VTheta sim [V]
Tvj,sim [°C]
130
110
5
4
3
100
2
90
1
80
800
1000
1200
1400
1600
0
1800
IAC [A]
0.036
0.032
0.028
Zth,ha [K/W]
0.024
0.020
0.016
0.012
0.008
0.000
i:
1
2
3
4
ri[K/W]: 0.0002 0.00462 0.00354 0.02184
τi[s]:
0.004 0.6954 1.0457 6.1065
0.1
1
10
90
100
110
120
Tvj,sim [°C]
Zth,ha - thermal impedance heatsink to ambient per switch
nom. cooling conditions
0.004
80
100
1000
t [s]
preparedby:OW
dateofpublication:2014-02-13
approvedby:KV
revision:2.0
6
130
140
150
TechnicalInformation
ModSTACK™HD
6MS30017E43W40372
Preliminarydata
Mechanicaldrawing
preparedby:OW
dateofpublication:2014-02-13
approvedby:KV
revision:2.0
7
TechnicalInformation
ModSTACK™HD
6MS30017E43W40372
Preliminarydata
Circuitdiagram
PWM U BOT
X2:15
PWM U TOP
X2:3
PWM V BOT
TNTC
Signal
conditioning
&
Gate signals
X2:4
PWM V TOP
X2:17
PWM W BOT
X2:18
PWM W TOP
X2:2, X3:5
Phase U Error
EiceDRIVERTM
X2:14
Top
U
Bottom
X2:16, X3:18 Phase V Error
X2:5, X3:6
Phase W Error
X3:19
OT Error
X3:7
OV Error
X3:17
OC Error
X3:4
Sum Error
Sensor
signals
EiceDRIVERTM
TNTC
Failure
management
X2:10, X2:22 GNDdigital
X3:2, X3:14
GNDdigital
X4:9, X4:14
GNDdigital
X2:8, X2:20
P24
X3:3, X3:15
15V
X4:15
15V
X4:13
-15V
X3:11
VIU ana
X3:12
VIV ana
X3:13
VIW ana
X3:10
VTheta NTC, VTheta sim
X3:23
VDC ana
Top
V
Bottom
EiceDRIVERTM
TNTC
Power
supply
Top
W
Bottom
X3:24, X3:25 GNDanalog
X5:1
Vaux
X5:2
GND
X5:3
TE, Shield
DC+
DR110
DC-
V-Option
Voltage measurement
High voltage domain
13
1
Low voltage domain
X2 (male connector)
14
25
13
1
X3 (male connector)
25
8
1
X4 (male connector)
9
1
15
SV1 (jumper)
Th
Tj
Setting X3:10 = VTheta NTC
3
(Sensing NTC of IGBT module)
X5 (male connector)
Setting X3:10 = VTheta sim (default setting)
(Simulated junction temperature)
preparedby:OW
dateofpublication:2014-02-13
approvedby:KV
revision:2.0
8
ModSTACKTM HD
14
TechnicalInformation
ModSTACK™HD
6MS30017E43W40372
Preliminarydata
Terms&Conditionsofusage
Thedatacontainedinthisproductdatasheetisexclusivelyintendedfortechnicallytrainedstaff.Youandyourtechnical
departmentswillhavetoevaluatethesuitabilityoftheproductfortheintendedapplicationandthecompletenessoftheproduct
datawithrespecttosuchapplication.
Thisproductdatasheetisdescribingthecharacteristicsofthisproductforwhichawarrantyisgranted.Anysuchwarrantyis
grantedexclusivelypursuantthetermsandconditionsofthesupplyagreement.Therewillbenoguaranteeofanykindforthe
productanditscharacteristics.
Shouldyourequireproductinformationinexcessofthedatagiveninthisproductdatasheetorwhichconcernsthespecific
applicationofourproduct,pleasecontactthesalesoffice,whichisresponsibleforyou(seewww.infineon.com,sales&contact).
Forthosethatarespecificallyinterestedwemayprovideapplicationnotes.
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contactthesalesoffice,whichisresponsibleforyou.
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notify.Pleasenote,thatforanysuchapplicationsweurgentlyrecommend
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-theconclusionofQualityAgreements;
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SafetyInstructions
Priortoinstallationandoperation,allsafetynoticesandwarningsandallwarningsignsattachedtotheequipmenthavetobe
carefullyread.Makesurethatallwarningsignsremaininalegibleconditionandthatmissingordamagedsignsarereplaced.To
installationandoperation,allsafetynoticesandwarningsandallwarningsignsattachedtotheequipmenthavetobecarefully
read.Makesurethatallwarningsignsremaininalegibleconditionandthatmissingordamagedsignsarereplaced.
preparedby:OW
dateofpublication:2014-02-13
approvedby:KV
revision:2.0
9