1SP0635x2xx-1MBI1500UE-330
IGBT-Driver.com Page 1
1SP0635x2xx-1MBI1500UE-330
Preliminary Data Sheet
Compact, high-performance, plug-and-play single-channel IGBT driver based
on SCALE-2 technology for individual and parallel-connected modules in
2-level, 3-level and multilevel converter topologies
Abstract
The SCALE-2 plug-and-play driver 1SP0635x2xx-1MBI1500UE-330 is a compact single-channel intelligent gate
driver designed for Fuji’s IGBTs 1MBI1500UE-330. The master driver 1SP0635x2Mx-1MBI1500UE-330 features
a fiber-optic interface with a built-in isolated DC/DC power supply. It can be used as stand-alone driver or in
conjunction with up to three 1SP0635D2Sx-1MBI1500UE-330 slaves to drive up to four parallel-connected
IGBT modules of type 1MBI1500UE-330.
For drivers adapted to other types of high-power and high-voltage IGBT modules, refer to:
www.IGBT-Driver.com/go/plug-and-play
Features Applications
[ Plug-and-play solution
[ Allows parallel connection of IGBT modules
[ For 2-level, 3-level and multilevel topologies
[ Built-in isolated DC/DC power supply (master)
[ Fiber-optic links (master)
[ Built-in interface to 1SP0635D2Sx (slave)
[ Duty cycle 0...100%
[ Dynamic Advanced Active Clamping DA2C
[ Dynamic IGBT short-circuit protection
[ Monitoring of supply voltage
[ Monitoring of gate voltage
[ Extremely reliable; long service life
[ Shortens application development time
[ Suitable for 1MBI1500UE-330
[ Traction
[ Railroad power supplies
[ Light rail vehicles
[ HVDC
[ Flexible AC transmission systems (FACTS)
[ Medium-voltage converters
[ Industrial drives
[ Wind-power converters
[ Medical applications
[ Research
[ And many others
1SP0635x2xx-1MBI1500UE-330
Preliminary Data Sheet
Page 2 INTELLIGENT POWER ELECTRONICS
Safety Notice!
The data contained in this data sheet is intended exclusively for technically trained staff. Handling all high-
voltage equipment involves risk to life. Strict compliance with the respective safety regulations is mandatory!
Any handling of electronic devices is subject to the general specifications for protecting electrostatic-sensitive
devices according to international standard IEC 60747-1, Chapter IX or European standard EN 100015 (i.e. the
workplace, tools, etc. must comply with these standards). Otherwise, this product may be damaged.
Important Product Documentation
This data sheet contains only product-specific data. For a detailed description, must-read application notes and
common data that apply to the whole series, please refer to the “Description & Application Manual for
1SP0635 SCALE-2 IGBT Drivers” on www.IGBT-Driver.com/go/1SP0635.
When applying SCALE-2 plug-and-play drivers, please note that these drivers are specifically adapted to a
particular type of IGBT module. Therefore, the type designation of SCALE-2 plug-and-play drivers also includes
the type designation of the corresponding IGBT module. These drivers are not valid for IGBT modules other
than those specified. Incorrect use may result in failure.
Mechanical Dimensions
Dimensions: See the relevant “Description and Application Manual”
Mounting principle: Connected to IGBT module with screws
Fiber-Optic Interfaces (1SP0635x2Mx)
Interface Remarks Part type #
Drive signal input 1SP0635V, fiber-optic receiver (Notes 1, 2) HFBR-2522Z
Drive signal input 1SP0635S, fiber-optic receiver (Notes 1, 2) HFBR-2412Z
Status output 1SP0635V, fiber-optic transmitter (Notes 1, 3) HFBR-1522Z
Status output 1SP0635S, fiber-optic transmitter (Notes 1, 3) HFBR-1412Z
Electrical Connectors
Interface Remarks Part type #
Power supply connector X1 1SP0635x2Mx, on-board connector (Note 4) 214012
Bus connectors X2 and X3 On-board connectors (Note 5) 214013
1SP0635x2xx-1MBI1500UE-330
Preliminary Data Sheet
IGBT-Driver.com Page 3
Absolute Maximum Ratings
Parameter Remarks Min Max Unit
Supply voltage VDC VDC to GND (1SP0635x2Mx) 0 16 V
Average supply current IDC 1SP0635x2Mx only (Note 6) 400 mA
Average supply current IDC 1SP0635x2Mx with three 1SP0635D2Sx (Note 6) 1130 mA
Gate output power 1SP0635x2Mx, Ta < 70°C (Note 7) 3 W
1SP0635x2Mx, Ta = 85°C (Note 7) 2.2 W
Gate output power 1SP0635D2Sx, Ta < 70°C (Note 8) 2.6 W
1SP0635D2Sx, Ta = 85°C (Note 8) 2 W
Switching frequency F 1SP0635x2Mx, Ta < 70°C 7.0 kHz
1SP0635x2Mx, Ta = 85°C 5.1 kHz
Switching frequency F 1SP0635D2Sx, Ta < 70°C 6.1 kHz
1SP0635D2Sx, Ta = 85°C 4.7 kHz
Gate peak current Iout Note 9 -35 +35 A
Test voltage (50Hz/1min.) 1SP0635x2Mx, primary to secondary (Note 10) 6000 VAC(eff)
DC-link voltage Switching operation (Note 11) 2200 V
Off state (Note 12) 2700 V
Operating voltage Primary to secondary side 3300 Vpeak
Max. emitter-emitter voltage Between parallel connected drivers (Note 13) 200 Vpeak
|dV/dt| Between parallel connected drivers (Note 14) 50 kV/s
Max. interface current X2 and X3, total RMS value (Note 15) 4 Arms
X2 and X3, total peak value (Note 15) 20 Apeak
Operating temperature -40 +85 °C
Storage temperature -40 +90 °C
Recommended Operating Conditions
Power Supply Remarks Min Typ Max Unit
Supply voltage VDC To GND 14.5 15 15.5 V
1SP0635x2xx-1MBI1500UE-330
Preliminary Data Sheet
Page 4 INTELLIGENT POWER ELECTRONICS
Electrical Characteristics
All data refer to +25°C and VDC = 15V
unless otherwise specified
Power Supply Remarks Min Typ Max Unit
Supply current IDC Without load, only 1SP0635x2Mx 120 mA
Without load, per additional 1SP0635D2Sx 35 mA
Coupling capacitance Cio 1SP0635x2Mx, DC/DC converter 15 pF
Power Supply Monitoring Remarks Min Typ Max Unit
Supply threshold Viso-Vee Secondary side, clear fault 12.1 12.6 13.1 V
Secondary side, set fault (Note 16) 11.5 12.0 12.5 V
Monitoring hysteresis Secondary side, set/clear fault 0.35 V
Supply threshold Vee-VCOM Secondary side, clear fault 5 5.15 5.3 V
Secondary side, set fault (Note 16) 4.7 4.85 5 V
Monitoring hysteresis Secondary side, set/clear fault 0.15 V
Bus to 1SP0635D2Sx Remarks Min Typ Max Unit
Supply voltage Without load 25 V
With three slaves, full load 24 V
Turn-off command To COM 0 V
Turn-on command To COM 15 V
Gate Monitoring Remarks Min Typ Max Unit
Turn-on threshold VGE,on,min G
mean to E, set fault (Note 17) 12.9 V
Turn-off threshold VGE,off,max G
mean to E, set fault (Note 17) -7.6 V
Filter delay Note 17 28 s
Short-circuit Protection Remarks Min Typ Max Unit
Static Vce-monitoring threshold Between auxiliary terminals (Note 18) 143 V
Response time DC-link voltage = 2200V (Note 19) 5.9 s
DC-link voltage = 1500V (Note 19) 6.0 s
DC-link voltage = 1100V (Note 19) 6.2 s
DC-link voltage = 800V (Note 19) 8.3 s
Delay to IGBT turn-off After the response time (Note 20) 0.3 s
Timing Characteristics Remarks Min Typ Max Unit
Turn-on delay td(on)
Note 21 190 ns
Turn-off delay td(off) Note 21 185 ns
1SP0635x2xx-1MBI1500UE-330
Preliminary Data Sheet
IGBT-Driver.com Page 5
Timing Characteristics Remarks Min Typ Max Unit
Output rise time tr(out) G to E (Note 22) 9 ns
Output fall time tf(out) G to E (Note 22) 30 ns
Timing Characteristics Remarks Min Typ Max Unit
Transmission delay of fault state Note 23 90 ns
Delay to clear fault state After IGBT short circuit (Note 24) 9 s
After gate-monitoring fault (Notes 24, 30) 1 s
Acknowledge delay time Note 25 250 ns
Acknowledge pulse width On host side 400 700 1050 ns
Gate Output Remarks Min Typ Max Unit
Turn-on gate resistor Rg(on) Note 26 1.6
Turn-off gate resistor Rg(off) Note 26 2.2
Auxiliary gate capacitor Cge not assembled nF
Gate voltage at turn-on Note 27 15 V
Gate-voltage at turn-off Without load (Note 27) -10.1 V
P
DC/DC = 3W (Note 27) -9.8 V
P
DC/DC = 6W (Note 27) -9.5 V
P
DC/DC = 12W (Note 27) -9 V
Electrical Isolation Remarks Min Typ Max Unit
Test voltage (50Hz/1s) Primary to secondary side (Note 10) 6000 6050 6100 VAC(eff)
Partial discharge extinction volt. Primary to secondary side (Note 28) 3630 Vpeak
Creepage distance Primary to secondary side (Note 29) 21 mm
Primary to IGBT main emitter terminal 20 mm
Clearance distance Primary to secondary side (Note 29) 21 mm
Primary to IGBT main emitter terminal 13 mm
Footnotes to the Key Data
1) The transceivers required on the host controller side are not supplied with the gate driver. It is
recommended to use the same types as used in the gate driver. For product information refer to
www.IGBT-Driver.com/go/fiberoptics
2) The recommended transmitter current at the host controller is 20mA. A higher current may increase
jitter or delay at turn-off.
3) The typical transmitter current at the gate driver is 18mA. In case of supply undervoltage, the
minimum transmitter current at the gate driver is 12mA: this is suitable for adequate plastic optical
fibers with a length of more than 10 meters.
4) This refers to the manufacturer ordering number, see www.igbt-driver.com/go/ext_erni. The
customer-side connector as well as cables with different lengths can be supplied by CONCEPT. Refer
to the “Description & Application Manual for 1SP0635 SCALE-2 IGBT Drivers” for more information.
5) This refers to the manufacturer ordering number, see www.igbt-driver.com/go/ext_erni. These
connectors are to be used to connect 1SP0635x2Mx (master) or 1SP0635D2Sx (slave) to
1SP0635D2Sx (slave) if parallel connection of IGBT modules is required. Cables with different lengths
1SP0635x2xx-1MBI1500UE-330
Preliminary Data Sheet
Page 6 INTELLIGENT POWER ELECTRONICS
can be supplied by CONCEPT. Refer to the “Description & Application Manual for 1SP0635 SCALE-2
IGBT Drivers” for more information.
6) If the specified value is exceeded, this indicates a driver overload. It should be noted that the driver is
not protected against overload.
7) The given power can only be fully exploited without slaves 1SP0635D2Sx (no parallel connection of
IGBT modules). If the specified value is exceeded, this indicates a driver overload. It should be noted
that the driver is not protected against overload. From 70°C to 85°C, the maximum permissible output
power can be linearly interpolated from the given data.
8) The given power can be fully exploited with slaves 1SP0635D2Sx (parallel connection of IGBT
modules). If the specified value is exceeded, this indicates a driver overload. It should be noted that
the driver is not protected against overload. From 70°C to 85°C, the maximum permissible output
power can be linearly interpolated from the given data. Note that the DC/DC converter on the master
1SP0635x2Mx is dimensioned to supply the master as well as three connected slaves 1SP0635D2Sx at
full load.
9) The gate current is limited by the gate resistors located on the driver.
10) HiPot testing (= dielectric testing) must generally be restricted to suitable components. This gate
driver is suited for HiPot testing. Nevertheless, it is strongly recommended to limit the testing time to
1s slots. Excessive HiPot testing may lead to insulation degradation.
11) This limit is due to active clamping under switching conditions. Refer to the “Description & Application
Manual for 1SP0635 SCALE-2 IGBT Drivers”.
12) Due to the Dynamic Active Advanced Clamping Function (DA2C) implemented on the driver, the DC-
link voltage can be increased in the off-state condition (e.g. after emergency shut-down). This value is
only valid when the IGBTs are in the off state (not switching). The time during which the voltage can
be applied should be limited to short periods (< 60 seconds). Refer to the “Description & Application
Manual for 1SP0635 SCALE-2 IGBT Drivers”.
13) The maximum dynamic voltage between auxiliary emitters of parallel-connected drivers due to
asymmetrical operation at turn-on and turn-off must be limited to the given value.
14) Maximum allowed rate of change of auxiliary emitter voltage of parallel connected drivers. This
specification guarantees that the drive information will be transferred reliably even with high rate of
change of auxiliary emitter voltages (asymmetrical operation).
15) Dynamic voltages between auxiliary emitters of parallel connected drivers at turn-on and turn-off lead
to equalizing currents over the X2 or X3 bus. The peak and RMS values of the resulting current must
be limited to the given value.
16) Undervoltage monitoring of the secondary-side supply voltage (Viso to Vee and Vee to COM which
correspond with the approximate turn-on and turn-off gate-emitter voltages). If the corresponding
voltage drops below this limit on 1SP0635x2Mx (masters), all paralleled IGBTs (master and slaves) are
switched off and a fault is transmitted to the status output. If the corresponding voltage drops below
this limit on 1SP0635D2Sx (slaves), the corresponding IGBT is switched off. A fault will be generated
by the gate-monitoring function on the master which will turn off all paralleled IGBTs after the
corresponding delay.
17) The mean value VGE,mean of all gate voltages (master and all slaves) is filtered and compared to the
given values at turn-on and turn-off. If the specified values are exceeded (VGE,mean<VGE,on,min at turn-on
resp. VGE,mean>VGE,off,max at turn-off) after the given filter delay, the driver turns off all parallel-
connected IGBTs and a fault is transmitted to the status output.
18) A dynamic Vce protection is implemented on the driver. The maximum allowed Vce voltage at turn-on
is dynamically adjusted in order to better fit the IGBT characteristics at turn-on. At the end of the
turn-on process, the given static value applies.
19) The resulting pulse width of the direct output of the gate drive unit for short-circuit type I (excluding
the delay of the gate resistors) is the sum of the response time plus the delay to IGBT turn-off.
20) The turn-off event of the IGBT is delayed by the specified time after the response time.
21) Including the delay of the external fiber-optic links (cable length: 1m). Measured from the transition
of the turn-on or turn-off command at the optical transmitter on the host controller side to the direct
output of the gate drive unit (excluding the delay of the gate resistors).
22) Output rise and fall times are measured between 10% and 90% of the nominal output swing. The
values are given for the driver side of the gate resistors with 2/1uF load. The time constant of the
1SP0635x2xx-1MBI1500UE-330
Preliminary Data Sheet
IGBT-Driver.com Page 7
output load in conjunction with the present gate resistors leads to an additional delay at their load
side.
23) Delay of external fiber-optic links. Measured from the driver secondary side (ASIC output) to the
optical receiver on the host controller.
24) Measured on the host side. The fault status on the secondary side is automatically reset after the
specified time.
25) Including the delay of the external fiber-optic links. Measured from the transition of the turn-on or
turn-off command at the optical transmitter on the host controller side to the transition of the
acknowledge signal at the optical receiver on the host controller side.
26) The gate resistors can be leaded or surface mounted. CONCEPT reserves the right to determine which
type will be used. Typically, higher quantities will be produced with SMD resistors and small quantities
with leaded resistors.
27) The driver secondary side voltage is split into two distinct voltages on the driver. The first one is the
turn-on voltage which is regulated at about 15V. The difference between the total secondary side
voltage and the turn-on voltage is the turn-off voltage which is not regulated and mainly dependent
on the driver input voltage VDC and the DC/DC converter power.
28) Partial discharge measurement is performed in accordance with IEC 60270.
29) Clearance and creepage distances are designed according to IEC 60077-1. Refer to the “Description &
Application Manual for 1SP0635 SCALE-2 IGBT Drivers” for more information.
30) The fault status is set as long as the gate monitoring fault is present. The given value applies if the
driver goes from the “off state” to the “on state” and the gate-emitter voltage of one or more parallel
connected drivers does not turn on. If the driver goes from the “on state” to the “off state” and the
gate-emitter voltage of one or more parallel connected drivers does not turn off, the fault status is
applied as long as the gate monitoring fault is present.
Legal Disclaimer
This data sheet specifies devices but cannot promise to deliver any specific characteristics. No warranty or
guarantee is given – either expressly or implicitly – regarding delivery, performance or suitability.
CT-Concept Technologie AG reserves the right to make modifications to its technical data and product
specifications at any time without prior notice. The general terms and conditions of delivery of CT-Concept
Technologie AG apply.
1SP0635x2xx-1MBI1500UE-330
Preliminary Data Sheet
Page 8 INTELLIGENT POWER ELECTRONICS
Ordering Information
The general terms and conditions of delivery of CT-Concept Technologie AG apply.
Interface CONCEPT Driver Type # Related IGBT
Master, Fiber-Optic Interface 1) 1SP0635V2M1-1MBI1500UE-330 1MBI1500UE-330
Master, Fiber-Optic Interface 2) 1SP0635S2M1-1MBI1500UE-330 1MBI1500UE-330
Slave, Electrical Interface 1SP0635D2S1-1MBI1500UE-330 1MBI1500UE-330
1) Fiber-optic interface with versatile link (HFBR-2522Z and HFBR-1522Z)
2) Fiber-optic interface with ST (HFBR-2412Z and HFBR-1412Z)
See “Description & Application Manual for 1SP0635 SCALE-2 IGBT Drivers”
Product home page: www.IGBT-Driver.com/go/1SP0635
Refer to www.IGBT-Driver.com/go/nomenclature for information on driver nomenclature
Information about Other Products
For other drivers, evaluation systems, product documentation and application support
Please click onto: www.IGBT-Driver.com
Manufacturer
CT-Concept Technologie AG
Intelligent Power Electronics
Renferstrasse 15
CH-2504 Biel-Bienne
Switzerland
Tel. +41 - 32 - 344 47 47
Fax +41 - 32 - 344 47 40
E-mail Info@IGBT-Driver.com
Internet www.IGBT-Driver.com
© 2010…2012 CT-Concept Technologie AG - Switzerland. All rights reserved.
We reserve the right to make any technical modifications without prior notice. Version from 2012-02-28
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