Power Management & Drives
EiceDRIVERTM
2ED300C17-S 2ED300C17-ST
Dual IGBT Driver Board for Infineon Medium
and High Power IGBT Modules
Preliminary Datasheet, V4.03, August 2013
EiceDRIVERTM
2ED300C17-S/-ST
Edition 2013-08-13
Published by
Infineon Technologies AG
59568 Warstein, Germany
© Infineon Technologies AG 2013.
All Rights Reserved.
ATTENTION PLEASE!
THE INFORMATION HEREIN IS GIVEN TO DESCRIBE CERTAIN COMPONENTS AND SHALL NOT BE
CONSIDERED AS A GUARANTEE OF CHARACTERISTICS.
TERMS OF DELIVERY AND RIGHTS TO TECHNICAL CHANGE RESERVED.
WE HEREBY DISCLAIM ANY AND ALL WARRANTIES, INCLUDING BUT NOT LIMITED TO
WARRANTIES OF NON-INFRINGEMENT, REGARDING CIRCUITS, DESCRIPTIONS AND CHARTS
STATED HEREIN.
Information
For further information on technology, delivery terms and conditions and prices please contact your nearest
Infineon Technologies Office (www.infineon.com).
Warnings
Due to technical requirements components may contain dangerous substances. For information on the types
in question please contact your nearest Infineon Technologies Office.
Infineon Technologies Components may only be used in life-support devices or systems with the express
written approval of Infineon Technologies, if a failure of such components can reasonably be expected to
cause the failure of that life-support device or system, or to affect the safety or effectiveness of that device or
system. Life support devices or systems are intended to be implanted in the human body, or to support
and/or maintain and sustain and/or protect human life. If they fail, it is reasonable to assume that the health
of the user or other persons may be endangered.
2ED300C17-S 2ED300C17-ST
Revision History: 2013-08 V4.03
Previous Version: V4.02
Version
Page
Subjects (major changes since last revision)
4.03
2
Revision history modified. All changes included.
4.03
8; 18
Figure 4 and figure7 size changed.
4.02
19
Partial discharge test voltage added
4.02
Chapter 4.5 and 4.6 added
4.01
Update figure 2 and figure 6
4.00
all
General review, new hardware version V6
EiceDRIVERTM
2ED300C17-S/-ST
Preliminary data sheet
3
V4.03, 2013-08-13
Safety notice
The driver may only be used for the purposes described by the manufacturer.
Inadmissible alterations and use of spare parts or accessories not recommend by Infineon
may cause fire, electric shock and injuries.
This document has to be available to all users, developers and qualified personnel working
with the driver.
If measurements and tests on the device have to be carried out during operation,
the regulations of the work on live parts are to be observed and suitable test equipment
is to be used.
Prior to installation and commissioning please read this document thoroughly.
Commissioning is prohibited if there is visible damage by inappropriate handling
or transportation.
Ensure ESD protection during handling.
Connect or disconnect only when power is turned off.
Always keep sufficient safety distance during commissioning without closed
protective housing.
Contact under live condition is strictly prohibited.
Work after turn-off is impermissible until the absence of supply voltage has been
verified.
During work after turn-off it has to be observed that components heat up during
operation. Contact can cause injuries.
Electrically and mechanically, the driver is mounted onto customer’s PCB by
soldering. The mechanical strength has to be verified by the user and, if necessary,
assured with appropriate tests.
The driver is designed to be used in combination with Infineon IGBT modules,
especially IHM, EconoPACK+, PrimePACKTM and 62mm. In case of ulterior use,
safe operation cannot be ensured.
Exclusion clause:
The datasheet is part of the Infineon IGBT driver 2ED300C17-S/-ST. To ensure safe and reliable operation
it is necessary to read and understand this datasheet.
The Infineon IGBT driver 2ED300C17-S/-ST is only intended for control of Infineon IGBT modules.
Infineon cannot warrant against damage and/or malfunction if IGBT modules used not produced by Infineon.
In this context, Infineon retains the right to change technical data and product specifications without prior
notice to the course of improvement.
EiceDRIVERTM
2ED300C17-S/-ST
Preliminary data sheet
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This side is intentionally left blank.
EiceDRIVERTM
2ED300C17-S/-ST
Preliminary data sheet
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V4.03, 2013-08-13
Dual channel high voltage IGBT driver board
Product Highlights
Galvanically isolated dual channel IGBT driver
Reinforced isolation according to EN 50178
Integrated protection features
5kV isolation test performed as 100% test
High Electromagnetic Compatibility
Features
Designed for Infineon IGBT modules up to 1700V
High peak output current of 30A
Integrated DC-DC SMPS
Soft Shut Down in fault conditions
Dynamic Over Current Detection
IGBT desaturation monitoring
Interlocking in half-bridge mode
Open drain fault output
Low impedance 15V inputs for high noise immunity
±15 V secondary drive voltage
Short propagation delay time
Optional sense function
RoHS compliant
UL94V-2 compliant materials
Typical Applications
Renewable energies
Drives and automation
Transportation
Power supplies
Medical
UPS systems
Figure 1: Basic schematic for driver setup
EiceDRIVERTM
2ED300C17-S/-ST
Table of Contents Page
Preliminary data sheet
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1 Block Diagram and Schematic..................................................................................................... 7
2 Functional Description ................................................................................................................. 8
2.1 Reinforced Isolation ........................................................................................................................ 8
2.2 Integrated SMPS ............................................................................................................................. 9
2.3 Undervoltage Lockout (UVLO) ........................................................................................................ 9
2.4 Dynamic Overcurrent Detection (DOCD) ........................................................................................ 9
2.5 Soft Shut Down (SSD) .................................................................................................................... 9
2.6 External Detected Failure Analysis (EDFA) .................................................................................... 9
2.7 Reset ............................................................................................................................................... 9
2.8 Control Inputs and Outputs 2ED300C17-S /-ST ............................................................................. 9
3 Pin Configuration and Functionality ......................................................................................... 10
3.1 Pin functionalities, Primary side .................................................................................................... 11
3.2 Pin functionalities, Secondary side ............................................................................................... 12
4 Electrical Parameters .................................................................................................................. 14
4.1 Absolute Maximum Ratings .......................................................................................................... 14
4.2 Operating Parameters ................................................................................................................... 15
4.3 Recommended Operating Parameters ......................................................................................... 15
4.4 Electrical Characteristics ............................................................................................................... 16
4.5 Driver performance ....................................................................................................................... 17
4.6 VCESAT reference ........................................................................................................................ 18
5 Isolation characteristics ............................................................................................................. 19
6 Timing diagrams ......................................................................................................................... 20
7 Mechanical dimensions .............................................................................................................. 21
8 Handling and mounting .............................................................................................................. 23
EiceDRIVERTM
2ED300C17-S/-ST
Block Diagram and Schematic
Preliminary data sheet
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V4.03, 2013-08-13
1 Block Diagram and Schematic
Figure 2: Block Diagram 2ED300C17-S/-ST
Figure 3: Peripheric components for half-bridge mode
EiceDRIVERTM
2ED300C17-S/-ST
Functional Description
Preliminary data sheet
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V4.03, 2013-08-13
2 Functional Description
EiceDRIVER™ (eupec IGBT controlled efficiency DRIVER) is the name of a family of IGBT-Drivers
consisting of IGBT driver boards and IGBT driver ICs.
The 2ED300C17-S/-ST is a dual channel high voltage gate driver board featuring reinforced isolation
between logic side and high voltage output.
Control and protection functions are included to ease the design of highly reliable systems.
The 2ED300C17-S is designed for use in industrial applications and the 2ED300C17-ST, with special
coating, for the use in more demanding applications like railway traction or windmills.
The device consists of two galvanically separated driver channels and features two operating functions, the
direct mode and the half-bridge mode, to drive IGBT modules.
The 2ED300C17-S/-ST is designed for use with Infineon IGBT modules up to 1700V in applications with high
safety and reliability requirements and aims for power ratings of 75kW to 1MW.
The driver also includes IGBT desaturation protection, external failure input and Undervoltage Lockout
(UVLO) detection. All fault states set the fault memory and activate the open drain fault output.
2.1 Reinforced Isolation
The most important safety feature of the 2ED300C17-S/-ST high voltage driver board is the reinforced
isolation between primary and secondary side. This is achieved by using a specially designed transformer
characterized by lowest coupling capacitances, , high isolation stability and by appropriate creepage and
clearance distances on the printed circuit board. Figure 4 shows the specially transformer design for high
isolation solution.
The clearance and creepage distances comply with VDE0110 and VDE0160 / EN50178 and are designed
for pollution degree 3, over voltage class III. All materials used within the transformer at least meet the
requirements of UL94V-2.
Figure 4: Additionally mechanical barriers for high isolation solution
EiceDRIVERTM
2ED300C17-S/-ST
Functional Description
Preliminary data sheet
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V4.03, 2013-08-13
2.2 Integrated SMPS
A switch mode power supply with galvanically separated outputs is integrated on the 2ED300C17-S/-ST.
It generates the required voltages for both driver channels. The secondary supplies are not protected against
external short circuit.
2.3 Undervoltage Lockout (UVLO)
Undervoltage monitoring is implemented for both secondary sides, positive and negative driver supply
voltages are monitored. The Signal and Logic side is not monitored. Undervoltage lockout functionality in
both driver channels ensures correct IGBT switching operation.
If the absolute value of one of the driver channel’s power supplies drops below the UVLO detection level, the
IGBT is shut down using the soft shut down functionality; gate-signals are ignored and the fault output is
activated.
2.4 Dynamic Overcurrent Detection (DOCD)
The dynamic over current detection protects the IGBT in case of a short circuit. The saturation voltage during
IGBT on-state is measured and continuously compared with a defined reference signal.
The shut down reference curve has to be adapted to each individual IGBT connecting an external RC
network. If no measures are taken, the reference level for desaturation detection is approx. at 10 V. Adding
an RC network allows to tune the characteristics of the detection circuit.
2.5 Soft Shut Down (SSD)
Soft shut down is a technique to limit the current slope di/dt during turn-off. It is activated if the fault memory
is set as a consequence of a detected fault condition. A sense terminal can optionally be used to connect an
additional external resistor. This is done to adjusting the IGBT turn-off characteristics. This terminal can
optionally be used as an input for the active clamping or di/dt and dv/dt control.
2.6 External Detected Failure Analysis (EDFA)
Additional function, customizable according to individual applications such as thermo switches on heat sinks.
Digital high level on these terminals set the fault memory. Soft shut down is initiated and further operation
inhibited.
2.7 Reset
Resetting the driver can be done by applying a digital high level to the Reset-pin or by applying a digital low
level to both gate-signal inputs for at least 60ms.On Reset, the fault memory is deleted and restarting driver
operation is possible.
2.8 Control Inputs and Outputs 2ED300C17-S /-ST
Inputs of the Signal and Logic side require 15V CMOS levels according to 40xx CMOS technology. This
offers a high signal to noise ratio. In very harsh environments, negative low level input signals can be used
with the limits given for the maximum ratings.
The open drain fault output is a very low impedance output. Voltage levels similar to Signal and Logic ground
are achieved.
EiceDRIVERTM
2ED300C17-S/-ST
Pin Configuration and Functionality
Preliminary data sheet
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V4.03, 2013-08-13
3 Pin Configuration and Functionality
Pin
Label
Function
1
VDDS
Signal and logic supply voltage primary side
2
3
4
/Fault
Open drain fault output
5
Reset
Active high signal and logic reset input
6
CA
External capacitor terminal for half-bridge mode dead time adjustment channel A
7
INB
Active high PWM input channel B
8
CB
External capacitor terminal for half-bridge mode dead time adjustment channel B
9
Mode
Operating mode selection input
10
/Fault
Open drain fault output
11
INA
Active high PWM input channel A
12
GNDS
Signal and logic common ground primary side
13
14
VDDP
DC/DC-SMPS supply voltage primary side
15
16
17
18
19
GNDP
DC/DC-SMPS ground primary side
20
21
22
23
24
E.B
Active high external digital fault input driver channel B
25
VCEsatB
IGBT desaturation sensing input driver channel B
26
RCB
Desaturation reference curve RC network terminal driver channel B
27
SenseB
Active clamping input or soft shut down resistor terminal driver channel B
28
VB-
External capacitor terminal for negative power supply driver channel B
29
VB+
External capacitor terminal for positive power supply driver channel B
30
COMB
Common ground terminal driver channel B
31
32
GateB
IGBT gate output driver channel B
33
34
Pin not existing; cut out
35
Pin not existing; cut out
36
E.A
Active high external digital fault input driver channel A
37
VCEsatA
IGBT desaturation sensing input driver channel A
38
RCA
Desaturation reference curve RC network terminal driver channel A
39
SenseA
Active clamping input or soft shut down resistor terminal driver channel A
40
VA-
External capacitor terminal for negative power supply driver channel A
41
VA+
External capacitor terminal for positive power supply driver channel A
42
COMA
Common ground terminal driver channel A
43
44
GateA
IGBT gate output driver channel A
45
Table 1 : Pin Configuration of 2ED300C17-S/-ST
EiceDRIVERTM
2ED300C17-S/-ST
Pin Configuration and Functionality
Preliminary data sheet
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V4.03, 2013-08-13
In addition to Table 1, Figure 5 gives an overview on the pin positions.
Figure 5 : EiceDRIVER™ pinning top view
3.1 Pin functionalities, Primary side
All input pins are compatible to 15V CMOS logic according to 40xx technology.
VDDS
15V supply voltage for signal and logic part on the primary side. All pins have to be connected.
/Fault
Open drain fault output for signalization of internal and external faults. Reset signal required to delete the
fault memory and for restarting operation after fault state.
External pull-up resistor needed.
Reset
Active high signal to delete the fault memory.
INA
Active high signal for PWM, channel A. Negative input voltage for low level is allowed within the limits given
for maximum values.
INB
Active high signal for PWM, channel B. Negative input voltage for low level is allowed within the limits given
for maximum values.
EiceDRIVERTM
2ED300C17-S/-ST
Pin Configuration and Functionality
Preliminary data sheet
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V4.03, 2013-08-13
CA
Terminal to connect external capacitor for dead time adjustment of channel A in half-bridge mode.
CB
Terminal to connect external capacitor for dead time adjustment of channel B in half-bridge mode.
Mode
Terminal for mode selection, choosing direct mode or half-bridge mode. High level or connection to VDDS
activates half-bridge mode. Low level or connection to ground GNDS activates direct mode.
GNDS
Common ground connection for signals and supply voltage of Signal and Logic part.
All pins have to be connected.
Connection between GNDS and GNDP is permissible.
VDDP
15V supply voltage for DC/DC switch mode power supply. An external capacitor to GNDP is mandatory at
this terminal.
All pins have to be connected.
GNDP
Ground connection for DC/DC switch mode power supply.
All pins have to be connected.
Connection between GNDS and GNDP is permissible.
3.2 Pin functionalities, Secondary side
GateA
Output to IGBT gate, driver channel A. Both pins have to be connected.
COMA
Common ground connection for IGBT auxiliary emitter and all signals of driver channel A. Both pins have to
be connected.
VA+
Positive power supply, driver channel A. An external capacitor to ground COMA is mandatory at this
terminal.
VA-
Negative power supply driver channel A. An external capacitor to ground COMA is mandatory at this
terminal.
EiceDRIVERTM
2ED300C17-S/-ST
Pin Configuration and Functionality
Preliminary data sheet
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V4.03, 2013-08-13
SenseA
Terminal for additional external soft shut down resistor or input for active clamping, di/dt or dv/dt control,
driver channel A
RCA
Desaturation reference curve RC network terminal, driver channel A
VCEsatA
IGBT desaturation sensing input, driver channel A.
E.A
Active high external digital fault input driver channel A for set fault memory.
GateB
Output to IGBT gate, driver channel B. Both pins have to be connected.
COMB
Common ground connection for IGBT auxiliary emitter and all signals of driver channel B. Both pins have to
be connected.
VB+
Positive power supply, driver channel B. An external capacitor to ground COMB is mandatory at this
terminal.
VB-
Negative power supply, driver channel B. An external capacitor to ground COMB is mandatory at this
terminal.
SenseB
Terminal for additional external soft shut down resistor or input for active clamping, di/dt or dv/dt control,
driver channel B
RCB
Desaturation reference curve RC network terminal, driver channel B.
VCEsatB
IGBT desaturation sensing input, driver channel B.
E.B
Active high external digital fault input driver channel B for set fault memory.
EiceDRIVERTM
2ED300C17-S/-ST
Electrical Parameters
Preliminary data sheet
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V4.03, 2013-08-13
4 Electrical Parameters
Electrical parameters are differentiated into maximum values that in no case are to be exceeded and
operational conditions typical to the application. All parameters are listed in the following sections.
4.1 Absolute Maximum Ratings
Absolute maximum ratings are defined as ratings, which when being exceeded may lead
to destruction of the driver board. Unless otherwise noted all primary side parameters
refer to GNDS. The secondary side signals from driver channel A and driver channel B are measured with
respect to their individual COMA or COMB.
Parameter
Symbol
Limit Values
Unit
Remarks
min
max
Positive power supply voltage Logic and Signal
VVDDS
16,5
V
1
Positive power supply voltage DC/DC SMPS
VVDDP
16,5
V
2
Total input current VVDDS and VVDDP
IVDD,sum
670
mA
3
PWM signal input voltage INA, INB
VINA, VINB
-20
20
V
Logic signal input voltage Mode, Reset
VMode, VReset
-20
20
V
Voltage on open drain fault output
VFault
20
V
Total fault output current on one or both terminals
IFault
40
mA
Peak turn on output current
IGateA, IGateB
30
A
4
Peak turn off output current
IGateA, IGateB
-30
A
4
DC/DC SMPS average current per output
IVX
133
mA
5
Total DC/DC SMPS output power
PSMPS
8
W
Collector emitter voltage of IGBT
VCES
1700
V
Minimum total gate resistor
RGmin
1
Maximum IGBT gate charge
QGmax
52
µC
Maximum slew rate
dvce/dt
50
kV/µs
6
Maximum switching frequency
fsmax
60
kHz
7
Maximum duty cycle
dmax
100
%
Operating temperature 2ED300C17-S
Top
-25
85
°C
7
Operating temperature 2ED300C17-ST
Top
-40
85
°C
7
Storage temperature
Tsto
-40
85
°C
Table 2: Absolute maximum ratings
1
With respect to GNDS
2
With respect to GNDP
3
Calculated value for equivalent average DC input current @ maximum SMPS output power of 8W
4
Maximum output current of the transistor power stage
5
Maximum DC output current per DC/DC output voltage calculated for total SMPS power of 8W
6
The parameter is not subject to production test verified by design/characterization
7
Operating temperature depends on load and environmental conditions.
EiceDRIVERTM
2ED300C17-S/-ST
Electrical Parameters
Preliminary data sheet
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V4.03, 2013-08-13
4.2 Operating Parameters
Within the operating range the driver board operates as described in the functional description. Unless noted
otherwise, all primary side parameters refer to GNDS. The secondary side signals from driver channel A and
driver channel B are measured with respect to their individual COMA or COMB.
Parameter
Symbol
Limit Values
Unit
Remarks
min
max
Positive power supply voltage Logic and Signal
VVDDS
14
16
V
Positive power supply voltage DC/DC SMPS
VVDDP
14
16
V
8
PWM signal input voltage INA, INB
VINA, VINB
-15
15
V
Logic signal input voltage Mode, Reset
VMode, VReset
-15
15
V
Voltage on open drain fault output in non-fault
condition
VFault
16
V
Switching frequency
fsmax
0
60
kHz
9
Duty cycle
dmax
0
100
%
Table 3: Operating parameters
4.3 Recommended Operating Parameters
Unless noted otherwise, all primary side signals refer to GNDS. The secondary side signals from driver
channel A and driver channel B are measured with respect to their individual COMA or COMB.
Parameter
Symbol
Value
Unit
Remarks
Positive power supply voltage logic and signal
VVDDS
15
V
Positive power supply voltage DC/DC SMPS
VVDDP
15
V
10
PWM signal input voltage INA, INB
VINA, VINB
15
V
Logic signal input voltage Mode, Reset
VMode, VReset
15
V
Voltage on open drain fault output in non-fault
condition
VFault
15
V
Switching frequency @ 65°C operating temperature
fsmax
60
kHz
11
Table 4: Recommended operating parameters
8
With respect to GNDP
9
Operating temperature depends on load and environmental conditions.
10
With respect to GNDP
11
Operating temperature depends on load and environmental conditions.
EiceDRIVERTM
2ED300C17-S/-ST
Electrical Parameters
Preliminary data sheet
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V4.03, 2013-08-13
4.4 Electrical Characteristics
The electrical characteristics involve the spread of values for the supply voltages, load and junction
temperatures given below. Typical values represent the median values, which are related to production
processes at T = 25°C. VVDDS and VVDDP are 15V. Unless otherwise noted all voltages are given with respect
to GNDS. The specification for all output driver signals is valid for driver channel A and driver channel B
without special notice. The secondary signals are measured with respect to their individual COMA or COMB.
Parameter
Symbol
Limit Values
Unit
Remarks
min
typ
max
No load SMPS average DC input current
IVDDS
80
mA
Signal and Logic DC input current
IVDDP
10
mA
Turn on propagation delay time
tpd,on
670
ns
Turn off propagation delay time
tpd,off
580
ns
Transition time differences
tdif
50
ns
Minimal pulse suppression
tmd
400
ns
DC input impedance of INA, INB, Mode, Reset
3300
Input threshold level
VINA, VINB
8
V
Input threshold for external failure input E.A or
E.B
VE.A, VE.B
5
V
12
Interlock delay time half-bridge mode
tTD
1,6
µs
Reactivation after fault condition @ INA and INB
with low input signal
treact
50
60
ms
Reference voltage for IGBT desaturation sensing
10
V
Coupling capacitance primary/secondary
Ccps
18
pF
Coupling capacitance between secondary sides
Ccss
15
pF
External capacitor for Logic and Signal power
supply. Connected between VDDS and GNDS.
CVDDP
10
µF
External capacitor for SMPS power supply.
Connected between VDDP and GNDP.
CVDDS
470
µF
Positive supply voltage driver channel A and B
@ no switching operation
VVA+, VVB+
16
V
Negative supply voltage driver channel A and B
@ no switching operation
VVA-, VVB-
-16
V
Internal capacitor on positive supply voltage
driver channel VA+ and VB+
CVA+,int,
CVB+,int
28
µF
Internal capacitor on negative supply voltage
driver channel VA- and VB-
CVA-,int,
CVB-,int
23
µF
Internal UVLO level for positive supply voltage
driver channel
VUVLO,pos
10,9
V
Internal UVLO level for negative supply voltage
driver channel
VUVLO,neg
-9,3
V
External capacitor for interlocking generation
CCA, CCB
0
1
nF
13
Table 5: Electrical characteristics
12
If not use E.A and E.B should be connected to COMA or COMB
13
Capacitor terminal only. Connection to another terminals or voltages not allowed.
EiceDRIVERTM
2ED300C17-S/-ST
Electrical Parameters
Preliminary data sheet
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4.5 Driver performance
The 2ED300C17-S can transmit a maximum power of 4 W per channel from primary to secondary side.
The power required to drive an IGBT is dependent of gate charge of the IGBT (datasheet value QG),
switching frequency fs and gate voltage difference ΔV. The safety factor 1.2 included 20% over all
tolerances. The power for IGBT drive may be calculated by the following equation:
VfQP sGdriver ***2.1
This power is dissipated in the driver itself, in the external gate resistor and in the internal IGBT gate resistor.
The share of the total power each part has to dissipate varies with load conditions. There is a limit for the
power dissipation of each channel of the driver which significantly varies with temperature inside the cabinet
and with airflow conditions. Figure 6 shows the usable driver output power for a typical mounting condition
with natural connection and several load conditions. Required gate power is considered to be constant.
The highest share of power dissipation inside the driver is to be expected when operating a small IGBT with
low total RG at high switching frequency. Whereas driving a larger IGBT with higher RG at low switching
frequency is less demanding regarding thermal considerations.
Figure 6: Power dissipation of the driver for different load conditions
Load 1 > load 2 > load 3 > load 4
Load 1 small RG and small CG
Load 2 small RG and high CG
Load 3 high RG and small CG
Load 4 high RG and high CG
The load is a combination of the gate resistors and the gate capacitance.
EiceDRIVERTM
2ED300C17-S/-ST
Electrical Parameters
Preliminary data sheet
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V4.03, 2013-08-13
4.6 VCESAT reference
The short circuit detection measurement is integrated in the 2ED300C17-S. The 2ED300C17-S measures
the VCE voltage while the IGBT is turned on. If the VCE voltage rises above the preset reference voltage
during this period, a fault is triggered and the IGBT is turned off via the internal soft shut-down.
The reference curve is only adjustable via an external RSX and CSX. RSX sets the reference voltage and CSX
sets the time constant for the decay to the stationary reference value.
The resistor and the capacitor are connected parallel between RC A and COM A or RC B and COM B.
Figure 7: Vce,sat reference curve
EiceDRIVERTM
2ED300C17-S/-ST
Isolation characteristics
Preliminary data sheet
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5 Isolation characteristics
Electrical characteristics, at Ta = 25 °C, unless otherwise specified.
Parameter
Value
Unit
Remarks
Isolation test voltage
5000
V
Signal and Logic Side - Driver Channel A
and Driver Channel B (RMS, 50Hz, 1s)
Isolation test voltage
2250
V
Driver Channel A - Driver Channel B (RMS,
50Hz, 1s)
Surge voltage test
9600
V
Surge test according to EN50178 Signal
and Logic Side to Driver Channels A and B
Partial discharge test voltage
>1920
V
RMS; transformer series test
According to EN 61800-5-1
Clearance and creepage distance
primary to secondary
>15
mm
Distance Signal and Logic Side to Driver
Channels A and B
Clearance distance secondary to
secondary
>4,59
mm
Distance Driver Channel A to Driver
Channel B. 4mm air gap included.
Creepage distance secondary to
secondary
>14
mm
Distance Driver Channel A to Driver
Channel B
Table 6: Isolation characteristics
EiceDRIVERTM
2ED300C17-S/-ST
Timing diagrams
Preliminary data sheet
20
V4.03, 2013-08-13
6 Timing diagrams
Diagram in Figure 8 shows typical input and output signals. Figure 9 shows propagation delay times.
Figure 8: PWM timing diagram with interlocking time functionality
Figure 9: Propagation delay times
EiceDRIVERTM
2ED300C17-S/-ST
Mechanical dimensions
Preliminary data sheet
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V4.03, 2013-08-13
7 Mechanical dimensions
Figure 10: Package outlines top view
Figure 11: Package outlines side view
EiceDRIVERTM
2ED300C17-S/-ST
Mechanical dimensions
Preliminary data sheet
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V4.03, 2013-08-13
Figure 12: Label
Intent of DMX Code
DMX Code
DMX Code
digit
digit quantity
Serial Number
1-5
5
SAP Material Number
6-11
6
Internal Production Order Number
12-19
8
Datecode (Production Year)
20-21
2
Datecode (Production Week)
22-23
2
Table 7: Intent of DMX code
EiceDRIVERTM
2ED300C17-S/-ST
Handling and mounting
Preliminary data sheet
23
V4.03, 2013-08-13
8 Handling and mounting
The device has been designed to be soldered onto a carrier board as a through-hole
component. Dual wave soldering process or selective soldering can be done. For more
information see IFX Additional Information, DS1, March 2008
The -ST version differentiates from the -S as it features an additional coating. The coating
used is type 1306N made by the company Peters. The soldering pins are not coated.
When further coating processes are done on the customer assembly, the compatibility of
the coated type has to be established first.
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