Evaluation Board for 2ED300C17 -S/ -ST (AN2007-05)

Application Note, V1.1, February 2008
AN2007-05
2 E D 3 0 0 E 1 7 - SFO
Evaluation Board for 2ED300C17-S/-ST
IGBT driver
IFAG AIM PMD ID AE
Edition 2008-02-05
Published by
Infineon Technologies AG
59568 Warstein, Germany
© Infineon Technologies AG 2008.
All Rights Reserved.
LEGAL DISCLAIMER
THE INFORMATION GIVEN IN THIS APPLICATION NOTE IS GIVEN AS A HINT FOR THE
IMPLEMENTATION OF THE INFINEON TECHNOLOGIES COMPONENT ONLY AND SHALL NOT BE
REGARDED AS ANY DESCRIPTION OR WARRANTY OF A CERTAIN FUNCTIONALITY, CONDITION OR
QUALITY OF THE INFINEON TECHNOLOGIES COMPONENT. THE RECIPIENT OF THIS APPLICATION
NOTE MUST VERIFY ANY FUNCTION DESCRIBED HEREIN IN THE REAL APPLICATION. INFINEON
TECHNOLOGIES HEREBY DISCLAIMS ANY AND ALL WARRANTIES AND LIABILITIES OF ANY KIND
(INCLUDING WITHOUT LIMITATION WARRANTIES OF NON-INFRINGEMENT OF INTELLECTUAL
PROPERTY RIGHTS OF ANY THIRD PARTY) WITH RESPECT TO ANY AND ALL INFORMATION GIVEN
IN THIS APPLICATION NOTE.
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.
AN2007-05
Evaluation board for 2ED300C17-S /-ST IGBT driver
AN2007-01
Revision History:
2008-02
Previous Version:
1.0
V1.1
Page
Subjects (major changes since last revision)
11
Update Table 9
17
Update IFX order numbers
Author: Piotr Luniewski IFAG AIM PMD ID AE
We Listen to Your Comments
Any information within this document that you feel is wrong, unclear or missing at all?
Your feedback will help us to continuously improve the quality of this document.
Please send your proposal (including a reference to this document) to:
[email protected]
Application Note
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V1.11, 2008-02
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Evaluation board for 2ED300C17-S /-ST IGBT driver
Table of Contents
Page
1
INTRODUCTION...................................................................................................................................... 5
2
DESIGN FEATURES ............................................................................................................................... 6
2.1
2.2
2.3
2.4
3
MAIN FEATURES ..................................................................................................................................... 6
KEY DATA .............................................................................................................................................. 6
PIN ASSIGNMENT.................................................................................................................................... 7
MECHANICAL DIMENSIONS OF THE 2ED300E17-SFO EVALUATION BOARD .............................................. 9
APPLICATION NOTE ............................................................................................................................ 10
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
4
POWER SUPPLY ................................................................................................................................... 10
INPUT LOGIC – PWM SIGNALS .............................................................................................................. 10
FAULT OUTPUT AND RESET................................................................................................................... 10
DIRECT OR HALF-BRIDGE MODE SELECTION........................................................................................... 11
SSD – ‘SOFT SHUT DOWN’ .................................................................................................................. 11
REFERENCE CURVE AND AND TRIGGER SUPPRESSION ............................................................................ 12
THE MINIMUM CIRCUIT FOR PROPER X2 UTILISATION .............................................................................. 12
OPERATION WITH MA300E12 OR MA300E17 ...................................................................................... 13
SCHEMATIC, LAYOUT AND BILL OF MATERIAL ............................................................................. 14
4.1
4.2
4.3
4.4
5
SCHEMATIC ......................................................................................................................................... 14
ASSEMBLY DRAWING ............................................................................................................................ 15
LAYOUT ............................................................................................................................................... 15
BILL OF MATERIAL ................................................................................................................................ 16
HOW TO ORDER EVALUATION DRIVER BOARDS........................................................................... 17
Part number explanation:
2ED
300
E17
-
SFO
SFO – Reinforced isolation and Fiber Optic interface
E17 – Suitable up to 1700 V IGBTs
300 – 30 A output driver
2ED – 2 channel driver
Application Note
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Evaluation board for 2ED300C17-S /-ST IGBT driver
Table of Contents
1
Page Introduction
Introduction
The 2ED300E17-SFO evaluation board shown in Figure 1 offers basic support for the EiceDRIVER™
2ED300C17-S and 2ED300C17-ST IGBT drivers. Enabling embedded driver’s functions the evaluation board
can be used as platform when power electronic system employing Infineon IGBT modules in 600V, 1200V
and 1700V class is being designed. This evaluation board is especially useful together with MA300E12 or
MA300E17 as another evaluation boards dedicated to PrimePACK™ modules in 1200 V and 1700 V voltage
class. Exhaustive information about the universal driver set dedicated for PrimePACK™ modules is available
in AN2007-06.
The 2ED300E17-SFO evaluation board is available from Infineon in small quantities. Functions and
properties of these parts are described in the datasheet chapter of this document whereas the remaining
paragraphs provide information intended to enable the customer to copy, modify and qualify the design for
production according to his specific requirements.
The design of the 2ED300E17-SFO was performed with respect to the environmental conditions described in
2ED300C17-S /-ST EiceDRIVER™ datasheet. The requirements for leadfree reflow soldering have been
considered when components were selected. The design was tested as described in this documentation but
not qualified regarding manufacturing and operation in the whole operating ambient temperature range or
lifetime.
The boards provided by Infineon are subjected to functional testing only.
Due to their purpose evaluation boards are not subjected to the same procedures regarding Returned
Material Analysis (RMA), Process Change Notification (PCN) and Product Withdraw (PWD) as regular
products.
See Legal Disclaimer and Warnings for further restrictions on Infineon warranty and liability.
IFX order number for the 2ED300E12-SFO: 30272
1a
Figure 1
1b
The 2D300E17-SFO Evaluation Board - 1a, assembled with 2ED300C17-S EiceDRIVER
and Fiber Optic devices – 1b
Application Note
5
TM
V1.11, 2008-02
AN2007-05
Evaluation board for 2ED300C17-S /-ST IGBT driver
Table of Contents
2
Page Design features
Design features
Electric features of the evaluation board and mechanic dimensions including necessary interface
connections are presented in following sections.
2.1
Main features
The 2ED300E17-SFO evaluation board offers the following features:
•
•
•
•
•
•
•
Dual channel IGBT driver together with 2ED300C17-S /-ST EiceDRIVER™
Electrically suitable for 600 V, 1200 V and 1700 V IGBT modules like: IHM, 62mm, EconoDUAL™,
EconoPACK+™
Electrically and mechanically suitable for PrimePACK™ modules family when used with MA300E12 or
MA300E17
Electrical and optical interface
Under Voltage Lockout
Short circuit protection
PCB is designed to fulfil the requirements of IEC61800-5-1, pollution degree 2, overvoltage category III
2.2
Key data
All values given in the table bellow are typical values, measured at TA = 25 °C
Table 1
General key data and characteristic values
Parameter
VDC – primary DC voltage supply
IDC – primary DC current drawn (idle mode)
Value
Unit
+15 (±1)
V
100
mA
60
kHz
Top – operating temperature (design target)
-40…+85
°C
Tsto – storage temperature (design target)
-40…+85
°C
Value
Unit
VIN A / VIN B – PWM signals for A and B driver channel (active high)
0 / +VDC
V
VFAULT – FAULT detection output (active high)
IFAULT – max. FAULT detection output load current (open collector output)
0 / + VDC
20
V
mA
VRST – reset input (active high)
0 / + VDC
V
Value
Unit
fS – max. PWM signal frequency for A and B channel
Table 2
1
Key data and characteristic values for electrical interface
Parameter
Table 3
Key data and characteristic values for optical interface
Parameter
PWM signals for A and B driver channel (IGBT ON command)
Light ON
--
FAULT detection output (fault report)
Light ON
--
1
Given switching frequency is limited by driver capabilities. The maximum switching frequency for every IGBT module type should be
calculated separately. Limitation factors are: max. DC/DC output power of 4 W per channel and max. PCB board temperature
measured around gate resistors placed on separated board close to IGBT module.
Application Note
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Table of Contents
2.3
Page Design features
Pin assignment
All external driver electrical control signals should be applied to connector X1 as shown on Fig. 2 and listed
in Table 4. Needed voltage power supply for a driver can be connected to X1 but also to X6 or X5 when
convenient (Table 5).
Connector X2 offers 2ED300C17-S /-ST EiceDRIVER™ necessary signals to drive an IGBT module with
minimum number of required external components. The necessary circuit and functionality describes chapter
3.5 and control signals are listed in Table 6. This basic circuit is universal and together with 2ED300C17-S
EiceDRIVER™ can be used for medium and high power modules when VCES module voltage is lower than
1700V.
Connectors: X3, X7, X9 and respectively X4, X8, X10 are in parallel. In practice an additional circuit
containing at least amplifier for an IGBT gate signal must be used. This function and additional like: Active
Clamping which keeps temporary VCE overvoltages bellow VCES, VCE desaturation diodes as part of short
circuit protection schema, gate resistors and others are successfully implemented into MA300E12 and
MA300E17 evaluation boards. As can be simply concluded the MA300EXX boards are electrically fitting to
signals described in Table 7 and give working platform when PrimePACK™ modules are driven. Chapter 3.8
presents more general information how system consisting of 2ED300E17-SFO adapter board together with
2ED300C17-S EideDRIVER™ and MA300EXX can be practically utilized. Separated AN2007-06 describes
MA300XX in details and gives practical hints on the topic.
Table 4
2ED300E17-SFO and the control signals for connector X1
Pin
Label
Function
X1.1, X1.6,
X1.7, X1.13
X1.14
n.c.
Not Connected
X1.2
IN B
PWM signal for channel B
X1.3
/FAULT
Fault detection output for combined for channel A and B
X1.4
IN A
PWM signal for channel A
X1.5
RESET
Reset signal for channel A and B
X1.8, X1.9
VDC
Primary voltage supply for DC/DC converter
X1.10, X1.11
GND
Primary ground for DC/DC converter and control singals
X1.12
Modus
Half-bridge or direct mode selection
Figure 2
The 2ED300E17-SFO Evaluation Driver Board pin assignment for the driver control
signals and DC/DC voltage power supply
Application Note
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Evaluation board for 2ED300C17-S /-ST IGBT driver
Table of Contents
Table 5
Page Design features
Additional power supply of 2ED300E17-SFO (connector X5 and X6)
Pin
Label
Function
X5.1, X6.1,
X6.2
GND
Primary ground for DC/DC converter
X5.2, X6.3,
X6.4
VDC
Primary voltage supply for DC/DC converter
Table 6
2ED300E17-SFO and connection to IGBT (connector X2)
Pin
Label
Function
X2.1
VCE sat A
Desaturation voltage monitoring input – channel A
X2.2
Gate A
Driver output to IGBT gate via an external gate resistor – channel A
X2.3
COM A
Auxiliary emitter – channel A
X2.4
Sense A
Control input for ‘Shoft Shut Down’ or ‘Active Clamping’ – channel A
n.c.
Not Connected
VCE sat B
Desaturation voltage monitoring input – channel B
X2.11
Gate B
Driver output to IGBT gate via an external gate resistor – channel B
X2.12
COM B
Auxiliary emitter – channel B
X2.13
Sense B
Control input for ‘Shoft Shut Down’ or ‘Active Clamping’ – channel B
X2.5, X2.6,
X2.7, X2.8,
X2.9,
X2.10
Table 7
2ED300E17-SFO and connection to MA300Exx
Pin
Label
Function
X3.1, X7.1,
X9.1
VA+
Isolated power supply, positive voltage – channel A (+15V)
X3.2, X7.2,
X9.2
COMA
Auxiliary emitter – channel A
VA-
Isolated power supply, negative voltage – channel A (-15V)
Sense A
Gate - emitter signal source – channel A
VCE sat A
Desaturation voltage monitoring input – channel A
VB+
Isolated power supply, positive voltage – channel B (+15V)
COMB
Auxiliary emitter – channel B
VB-
Isolated power supply, negative voltage – channel B (-15V)
Sense B
Gate – emitter signal source – channel B
VCE sat B
Desaturation voltage monitoring input – channel B
X3.3, X7.3,
X9.3
X3.4, X7.4,
X9.4
X3.5, X7.5,
X9.5
X4.1, X8.1,
X10.1
X4.2, X8.2,
X10.2
X4.3, X8.3,
X10.3
X4.4, X8.4,
X10.4
X4.5, X8.5,
X10.5
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Table of Contents
2.4
Page Application Note
Mechanical dimensions of the 2ED300E17-SFO Evaluation Board
The 2ED300E17-SFO outline assembled with driver is shown in Figure 3.
SAP number for the 2ED300E12-SFO: 30272
Figure 3
Dimensions of the 2ED300E17-SFO
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Table of Contents
3
Page Application Note
Application Note
The following chapter describes functionality of the 2ED300E17-SFO in combination with 2ED300C17-S /-ST
EiceDRIVER™ in details.
3.1
Power Supply
The 2ED300E17-SFO provides +5V DC regulated voltage needed for fiber optic devices but also supplies
the 2ED300C17-S /-ST EiceDRIVER™. In order to get the EiceDRIVER™ properly working the external DC
voltage source must fulfill requirements mentioned in chapter 2.3 and Table 1.
3.2
Input logic – PWM signals
The evaluation board offers two independend control interfaces: electrical and optical. The way of
communication with the EiceDRIVER™ can be selected by customer accordingly to the individual needs.
1
Electrical interface is simply activated by applying suitable signals to appropriate pins in connector X1 as
described in chapter 2.4, Table 4 and Table 5. Jumpers JPA and JPB visible on Figure 3 in that mode must
be open.
When IGBT is driven using optical interface the fiber optic cables should be connected to receiver XRA in
order to drive channel A and respectively XRB to drive channel B. Jumpers JPA and JPB in that case must
be closed (Figure 3). No electrical signals except power supply connected to X1 are needed. Other
connections should be removed. Keeping power supply connected to X5 or X6 and leaving X1 completelly
unconnected seems to be the easiest solution.
3.3
Fault output and Reset
When the driver detects IGBT short circuit or VGE drops bellow acceptable value the controlled IGBT will be
switched off safetly and a fault will be reported. The event is additionally indicated by lighting diode D1.
Voltage on X1.3 changes from VDC level to around 1V and diode in transmitter XT1 is switched on.
Regardless PWM signals the IGBT stays off and fault is indicated. In order to get driver operating again the
driver must be reseted in one of three possible ways:
• Pressing switch S1
• Apply voltage with a positive edge greater than 10V (max. VDC) to X1.5
• Keeping PWM signals on “low” level for more than 60ms
Keeping the switch S1 pressed long time may lead to permanent IGBT destruction when the reason for short
circuit or low VGE remains.
Reseting procedure is needed always after fault indication.
1
Detailed requirements for the electrical input interface are described in 2ED300C17-S /-ST datasheet available on www.infineon.com
website.
Application Note
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Table of Contents
3.4
Page Application Note
Direct or Half-bridge mode selection
Two operation modes for the 2ED300C17-S EiceDRIVER™ are possible:
•
•
Direct mode – means that both channels A and B are working accordingly to PWM signals. It is possibile
to switch on both channels A and B at the same time. This operation mode can be activated by setting
the JP1 jumper on position marked as D-M (shorting pins 1 and 2 on Figure 3). When jumper JP1 is used
there is no need to short X1.12 to GND of power supply
Half-bridge mode is especially usefull when IGBTs are driven in half bridge configuration. By proper
selection of capacitor values C4 and C5 the required dead time between channels A and B can be
provided. This operation mode can be activated by setting the JP1 jumper on position marked as H-M
(shorting pins 2 and 3 on Figure 3). When jumper JP1 is used there is no need to short X1.12 to VDC.
Table 8 shows how dead time depends on these capacitors value. The dead time with not connected
capacitors is 1,6µs.
Table 8
Dead time settings
C4 and C5
n.c.
47pF
100pF
220pF
330pF
470pF
1nF
Dead time
1.6µs
2µs
2,4µs
3,4µs
4,3µs
5,4µs
9,6µs
The 2ED300E17-SFO is already equipped with C4=C5=470pF meaning that when JP1 is on position H-M
than interlocking time between channel A and B will reach 5,4µs.
3.5
SSD – ‘Soft Shut Down’
The ‘Soft Shut Down’ function secures an IGBT module when short circuit current is being switched off. This
function is widely described in 2ED300C17-S EiceDRIVER™ application note (chapter 3.8). Resistor called
RSSD in the 2ED300E17-SFO is called R3, R31 (are in parallel) for channel A and R4, R41 (are in parallel) for
channel B and should be selected accordingly to module type.
These resistors originally are not soldered. In order to provide the correct SSD function resistors R3, R31, R4
and R41 must be properly calculated. The calculation example is shown bellow:
RSSD
346,8
=
Q
⋅
kΩ
q 16,8
− 51
µC
(1)
where:
Qg – gate charge of selected IGBT module type
Due to resistors parallel connection the final value gives formula 3.
R3 = R31 = R 4 = R 41 = 2 ⋅ RSSD
(2)
When PrimePACK™ modules are used than Table 9 shows already calculated RSSD resistors values.
Table 9
RSSD settings
Module type
R3, R31, R4, R41 (1206 package) proposed values
FF650R17IE4
10 kΩ
FF1000R17IE4
5,6 kΩ
FF600R12IP4 / FF600R12IE4
22 kΩ
FF900R12IP4 / FF900R12IP4D
8k2 kΩ
FF1400R12IP4
4k7 kΩ
Application Note
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Table of Contents
3.6
Page Application Note
Reference curve and and trigger suppression
Correct short circuit operation requires also proper short circuit detection. The issue has been described in
2ED300C17-S EiceDRIVER™ in chapter 3.7.
Passive components like CSA, RSA, CSB, RSB are responsible for suitable ‘blanking time’ and set up the VCE
desaturation threshold voltage. In 2ED300E17-SFO adapter board these passive components are
respectively named as C12, R7 - channel A and C13, R8 – channel B.
Additional ones responsible for trigger suppression are CVCE and RVCE and their equivalents in 2ED300E17SFO are C10, R5 – channel A and C11, R6 – channel B.
All components mentioned in this chapter are soldered into 2ED300E17-SFO and their values as default are
listed bellow:
C12=C13= 560pF
R7=R8= 22kΩ
C10=C11=1nF
R5=R6=470Ω
It has to be noticed that those values may not be proper for all IGBT modules driven by this adapter board.
3.7
The minimum circuit for proper X2 utilisation
The 2ED300E17-SFO evaluation board together with 2ED300C17-S EiceDRIVER™ makes system able to
drive various Infineon IGBT modules. Connector X2 provides needed functions nevertheless basic circuit
shown on Figure 4 is required.
Figure 4
Additional components needed for driving IGBT module
Practical selection for parts visible on Figure 4 is described in 2ED300C17-S EiceDRIVER™ application note
chapter 3.6.
Application Note
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Table of Contents
3.8
Page Schematic, Layout and Bill of Material
Operation with MA300E12 or MA300E17
As mentioned in introduction of this application note the 2ED300E17-S evaluation board is prepared for easy
usage together with MA300Exx. To operate the MA300Exx it should be screwed to the PrimePACK™
module and connected by simple cable to one pair of 2ED300E17-SFO connectors e.g. X9 and X11. Parallel
IGBT module operation is also possible and maximum number of them in configuration presented on Figure
5 is three. Additional aluminium capacitors with minimum value of 100µF/35V connected in parallel across
C30, C35 and C40, C45 for module proper operation is required.
Table 9 presents resistors value needed for correct short circuit protection. When parallel module operation
is intended those resistors values must be recalculated accordingly to exaplme given in chapter 3.5.
Figure 5
Driver set for parallel PrimePACK™ IGBT module operation
Application Note
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Table of Contents
4
Page Schematic, Layout and Bill of Material
Schematic, Layout and Bill of Material
To meet the individual customer requirement and make the evaluation board useful for development or
modification, all necessary technical data like schematic, layout and components are included in this chapter.
4.1
Schematic
Figure 6
The 2ED300E17-SFO schematic
Application Note
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Table of Contents
Page Schematic, Layout and Bill of Material
4.2
Assembly drawing
Figure 7
Assembly drawing of the 2ED300E17-SFO adapter board
4.3
Layout
a)
Figure 8
b)
2ED300E17-SFO adapter board – a) Top layer and b) Layer 2
Application Note
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Table of Contents
4.4
Page Schematic, Layout and Bill of Material
Bill of Material
The bill of material not only includes a part list, but also assembly notes.
The tolerances for resistors should be less or equal ±1 %, for capacitors of the type C0G less or equal ±5 %
and for capacitors of the type X7R less or equal ±10 %.
Table 10
Type
Bill of Material for 2ED300E17-SFO adapter board
Value / Type
Package
EIA
Resistor
variable
1206
4
R3, R4, R31, R41
no special
Resistor
10k
0805
1
R1
no special
yes
R2
no special
yes
no special
yes
no special
yes
no special
yes
no special
yes
no special
yes
no special
yes
Resistor
Resistor
10R
2512
QTY
1
Name Part
Recommended
Manufacturer
Assembly
no
470
0805
2
R5, R6
22k
0805
2
R7, R8
2k2
0805
1
R9
1k5
1206
1
R20
0605
0805
2
2
R21, R22
C4, C5
0805
2
C12, C13
no special
yes
Capacitor
1k8
470p/50V/CO
G
560p/50V/CO
G
1n/50V/COG
0805
2
C10, C11
no special
yes
Capacitor
10n/50V/X7R
0805
2
C14, C15
no special
yes
Capacitor
0805
4
C2, C23, C24, C25
no special
yes
Capacitor
100n/50V7R
X
4µ7/25V/X7R
1206
23
C20, C21, C22, C30, C31, C32, C33, C34,
C35, C36, C37, C38, C39, C40, C41, C42,
C43, C44, C45, C46, C47, C48, C49
Murata
yes
Capacitor
470µ/35V
CPOL4
EUE-10.5
C1
no special
yes
Inductor
10µH
Semiconductor
TC4426EOA
Semiconductor
Semiconductor
UA78M05CD
CYG3
HFBR-2522Z
Semiconductor
HFBR-1521Z
Semiconductor
LED
Resistor
Resistor
Resistor
Resistor
Capacitor
Capacitor
1210
SO8
2
1
L1, L2
Murata
yes
IC2
Microchip
yes
SOT223
1
IC1
no special
yes
2
XRA, XRB
AVAGO
no
1
XT1
AVAGO
1
D1
0805
no
yes
Jumper
3-pol
JP2
2
JPA, JPB
yes
Jumper
2-pol
JP1
1
JP1
yes
Connector
6-64 /14 pole
1
X1
Harting
Connector
13-pol
1
X2
Moelex
no
Connector
6410-5A
2
X3, X4
Moelex
yes
Connector
6410-5A
4
X7, X8, X9, X10
Moelex
yes
Connector
MPT 05/2
2,54mm
MSTBA
2.5/4-G-5.08
B3W-1000
1
X5
Phoenix
yes
1
X6
Phoenix
no
1
S1
Omron
yes
1
DR1
Infineon
no
Connector
Switch
Driver
2ED300C17S
Application Note
2POL2.5
4
B3W1000
16
yes
V1.11, 2008-02
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Evaluation board for 2ED300C17-S /-ST IGBT driver
Table of Contents
5
Page How to order Evaluation Driver Boards
How to order Evaluation Driver Boards
Every Evaluation Driver Board has its own number and can be ordered via your Infineon Sales Partner.
Information can also be found at the Infineons Web Page: www.infineon.com
CAD-data for the board decribed here are available on request. The use of this data is subjected to the
disclaimer given in this AN. Please contact: [email protected]
IFX order number for 2ED300E17-SFO: 30272
Please remember to order driver separately:
IFX order number for 2ED300C17-S: 29831
IFX order number for 2ED300C17-ST: 29832
Application Note
17
V1.11, 2008-02
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Published by Infineon Technologies AG