ModSTACKTM
Datasheet: B6I 690/1100-250G M, S Preliminary Data
B6I690-1100-250G.doc 1 of 9 2005-03-18
Key Data
3 x 250A AC at 690V AC, aircooled, switching frequency max 2250Hz
General Information
Stack with IGBT, heatsinks, capacitors, drivers and sensors for several inverter applications.
These are only technical data! Please read heedful the complete documentation and attend the
adopted design environment! Especially the EMC environment and the controller
functionality.
Topology DC Link + B6I
Load Type Resistive, inductive load
Cooling Forced air
Targed Application Industrial Drive
Extra Available in Master [M]
and Slave [S]
configuration
Drivercore Scale Driver
Monitors Current-, Voltage-,
Temperature-Monitoring
Module (Unit1) n.a.
Module (Unit2) IGBT 3x FF600R17KF6C B2
Interface Electrical, opt. Optical
Standards EN50178, UL94,
prepared for UL508C
Product ID (eupec)
Drawing No. 38000017_MB
Circuit Diagram No. 57000004
Unit1 Unit2
Electrical Data
Parameter Min Typ Max
Assumed Linevoltage For Isolation-
Management
Vline 690 VRMS
DC Link Voltage VDC 975 1219 Vav
DC Link Overvoltage
Shutdown
Within 100µs VDCmax V
DC Link Current IDCLink 306 Aav
Voltage Unit1 Vunit1 - V
Continious Current
Unit1
ϑ=ϑair_inlet
IUnit1 - A
Shorttime Current
Unit1
10s, every 180s, initial
load = IUnit1
IUnit1_10 - A
Pulse Current Unit1 Sinehalfwave 20ms - Apeak
DC Current at Unit1 No rotating field,
ϑ=ϑair_inlet,
IUnit1_DC - Aav
ModSTACKTM
Datasheet: B6I 690/1100-250G M, S Preliminary Data
B6I690-1100-250G.doc 2 of 9 2005-03-18
Overcurrent Shutdown
Unit1
Percentage of IUnit1.
Within 15µs
- %
Switching Freq. Unit1 fsw1 - Hz
Power Losses Unit1 V=Vunit1_min,
I=IUnit1, fsw=fsw1
Ploss1 - W
Voltage Unit2 Depending on
Controller
Vunit2 690 VRMS
Displacement factor cos_ϕUnit2 -1 +1
Continious Current
Unit2
ϑ=ϑair_inlet,
ϑchip <= 125°C
fUnit2>5Hz
IUnit2 250 ARMS
Shorttime Current
Unit2
ϑair_inlet<=40°C,
10s, every 180s,
initial load = IUnit2
IUnit2_60 300 ARMS
Pulse Current Unit2 Sinehalfwave 20ms - Apeak
DC Current at Unit2 No rotating field,
ϑ=ϑair_inlet,
IUnit2_DC 0,4*
IUnit2
ADC
Overcurrent Shutdown
Unit2
Percentage of IUnit2.
Within 15µs
125 %
Switching Freq. Unit2 fsw2 2250 Hz
Power Losses Unit2 I=IUnit2, fsw=fsw2 Ploss2 3300 W
Power Losses (PCB
and Capacitor)
Ploss_aux 300 W
Auxiliary Voltage Vaux 18 24 30 Vav
Auxiliary Power
Demand
Vaux=24 Vav, to feed
with B6U
Paux 40 W
Power VBurst 2 kV
Control VBurst 1
EMC Test According
EN61800-3
at named
interfaces Aux
(24V)
VSurge 1 kV
Insulation Test Voltage According EN50178
f=50Hz, t=1min
Visol 1,8 kVRMS
Important Component Data
DC Link Capacitor CDC 6,26 mF
DC Link Capacitor Type Electrolyt
Loadcycle: Wind LTD - Year
Loadcycle: Solar LTD - Year
Capacitor Design
Lifetime
(eupec approximation) Loadcycle for:
Industrial Drive
(ϑair=35°C, I=0,8,
Duration=24h/Day)
LTD t.b.d. Year
ModSTACKTM
Datasheet: B6I 690/1100-250G M, S Preliminary Data
B6I690-1100-250G.doc 3 of 9 2005-03-18
Requirements to the Powersource
Assumed Inductance
Of Feeding
Powersource
(Necessary inductance
not included, feeded
by B6U)
LFeed 383 µH
Fan Data (assumed when excluded)
Fan Type Assumed EBM, D2E 146-AP47
Fan Voltage VFan 230 VRMS
Fan Frequency fFan 50 Hz
Fan Current IFan t.b.d. ARMS
Fan Air Pressure Assumed pAirFan t.b.d. Pa
Controller Interface Data
Driver See Datasheet PCB TR101
Paralleling Interface See Datasheet PCB -
Optical Interface See Datasheet PCB optionally OEA101
Digital Input Level Resistor to Gnd (1,8k)
High = on
min 15mA
Vin 0 15 V
Digital Output Level Open collector
Low = ok
max 15mA
Vout 0 15 V
Analog Current
Outputs Unit1
Load max 1mA
At IUnit1
- V
Analog Current
Outputs Unit2
Load max 1mA
At IUnit2
4 V
Analog DC Link
Voltage Output
Load max 1 mA
At VDCmax
VDCout 9 V
Analog Temperature
Out
Load max 1mA
At ϑj=125°C Vϑout 9 V
Optical Input Level optionally 12 µW
Optical Output Level optionally 60 µW
Requirements to the Controller
EMC Protection According EN61800-3
at auxiliary power and
controlinterface
1 kV
EMC Enviroment Shieldconcept with TE
(True Earth) separated
from PE,
HF conform installation
Drive Pulse Time ton_min 10 µs
Blockout Time tpause 10 µs
Overvoltage Shut
Down Reaction Time
After overvoltage
message by
PowerSTACK
Interface
50 µs
ModSTACKTM
Datasheet: B6I 690/1100-250G M, S Preliminary Data
B6I690-1100-250G.doc 4 of 9 2005-03-18
Overcurrent Shut
Down Reaction Time
After overcurrent
message by
PowerSTACK
Interface
10 µs
Mechanical Data
Airvelocity vAir t.b.d m/s
Airflow heatsink dV/dtAir 800 m³/h
Air Pressure Drop
heatsink
ϑAir=20°C
Pair=1013 hPa
Dry- and dustfree,
measured outside of
heatsink.
According DIN 41882
pAir 130 Pa
Watervelocity vWater m/s
Waterflow heatsink dV/dt
Water
- m³/h
Water Pressure Drop
heatsink
According
Coolingwater
Specification from
eupec pWater - Pa
Dimensions Width x Depth x Hight 702 540 304 mm
Mass Approximation 45 kg
Storage Temperature
Range
ϑstor -40 +65 °C
Operating
Temperature range
(PCB and Capacitor)
Minimal 0 °C for
optional optical
interface
ϑop -25 (0) +55 °C
Cooling Air Inlet
Temperature
(Heatsink)
ϑair_inlet -25 +40 °C
Cooling Airvelocity
(PCB and Capacitor)
vAir_PCB 2 m/s
Air Pressure Standard atmosphere pAir 900 1100 hPa
Humidity No Condensation Rel. F 0 95 %
Installation Height 0 1000 m
Vibration EN60068-2-6, Fc
10..59Hz 0,075mm
10 m/s²
Permanence Vibration EN60068-2-6, Fc
10-150Hz, 20 Cycles
20 m/s²
Shock EN60068-2-27, Ea
Halfsine 11ms, 3 pulses
100 m/s²
Protection Degree IP00
Pollution Degree 2
Overvoltage Category III
ModSTACKTM
Datasheet: B6I 690/1100-250G M, S Preliminary Data
B6I690-1100-250G.doc 5 of 9 2005-03-18
Derating Curves (IGBT Part)
Current derating at low rotating field frequency (f0). Maximal 100% current is allowed.
cos(phi) = -0.64, (generator)
Theta_air = 40°C
0
20
40
60
80
100
120
-5 0 5 10 15 20 25 30 35 40 45 50 55
f0 [Hz]
I/I_nom [%]
cos(phi) = 0.64, (motor)
Theta_air = 40°C
0
20
40
60
80
100
120
-5 0 5 10 15 20 25 30 35 40 45 50 55
f0 [Hz]
I/I_nom [%]
ModSTACKTM
Datasheet: B6I 690/1100-250G M, S Preliminary Data
B6I690-1100-250G.doc 6 of 9 2005-03-18
Current derating at different switching frequencies. See datatable for nominal switching
frequency. In this general drawing 2500Hz ist assumed. Maximal 100% current is allowed.
IGBT, cos(phi) = 0.64
Theta_air = 40°C
0
20
40
60
80
100
120
140
160
180
0 1000 2000 3000 4000 5000 6000 7000
fsw [Hz]
I/I_nom [%]
FF 400 R12 KL4C
FF 800 R17 KF6CB2
FF 1200 R17 KE3
Diode, cos(phi) = 0.64
Theta_air = 40°C
0
20
40
60
80
100
120
140
160
180
200
0 1000 2000 3000 4000 5000 6000 7000
fsw [Hz]
I/I_nom [%]
FF 400 R12 KL4C
FF 800 R17 KF6CB2
FF 1200 R17 KE3
ModSTACKTM
Datasheet: B6I 690/1100-250G M, S Preliminary Data
B6I690-1100-250G.doc 7 of 9 2005-03-18
IGBT, cos(phi) = - 0.64
Theta_air = 40°C
0
20
40
60
80
100
120
140
160
180
0 1000 2000 3000 4000 5000 6000 7000
fsw [Hz]
I/I_nom [%]
FF 400 R12 KL4C
FF 800 R17 KF6CB2
FF 1200 R17 KE3
Diode, cos(phi) = -0.64
Theta_air = 40°C
0
20
40
60
80
100
120
140
160
180
0 1000 2000 3000 4000 5000 6000 7000
fsw [Hz]
I/I_nom [%]
FF 400 R12 KL4C
FF 800 R17 KF6CB2
FF 1200 R17 KE3
ModSTACKTM
Datasheet: B6I 690/1100-250G M, S Preliminary Data
B6I690-1100-250G.doc 8 of 9 2005-03-18
Miscellaneous
This technical information specifies semiconductor stacks but promises no characteristics. It
is valid in combination with the belonging technical notes.
This document may be changed without prior notice.
Warning!
Prior to installation and commissioning all safety notices and warnings and all warning signs
attached to the equipment have to be carefully read. Make sure that all warning signs remain
in a legible condition and missing or damaged signs are replaced.
The safety instructions have to be strictly adhered to.
The manual contains detailed information on all technical topics with regard to the eupec
ModSTACK. For further details regarding publications of the eupec ModSTACK and
information on other publications in the area of ModSTACKs please contact your nearest
eupec branch or visit our website: http://www.eupec.com.
eupec GmbH 2005. All rights reserved
Prepared by Jürgen Schiele 2005-03-18 Date of publication
Approved by Revision
ModSTACK B6I 690/1100-250G M, S, Drawing, Preliminary Data
B6I690-1100-250G.doc 9 of 9 2005-03-17