Semikron L6100131 Board 1 skyper 32 r Datasheet

Board 1 SKYPER 32 R
Absolute Maximum Ratings
Symbol
SKYPER®
Values
Unit
Vs
Supply voltage primary
16
V
IoutPEAK
Output peak current
15
A
IoutAVmax
Output average current
50
mA
fmax
max. switching frequency
50
kHz
VCE
Collector emitter voltage sense across
the IGBT
1700
V
4000
V
1500
V
1500
V
Visol IO
VisolPD
Adaptor board
Visol12
Board 1 SKYPER 32 R
Conditions
Isolation test voltage input - output
(AC, rms, 2s)
Partial discharge extinction voltage,
rms, QPD ! 10pC
Isolation test voltage output 1 - output
2 (AC, rms, 2s)
RGon min
RGoff min
Minimum rating for external RGoff
1.5
"
1.5
"
Preliminary Data
Top
Operating temperature
-25 ... 85
°C
Features
Tstg
Storage temperature
-25 ... 85
°C
• Two output channels
• Failure management
Characteristics
Symbol
Conditions
min.
typ.
max.
Unit
Vs
Supply voltage primary side
14.4
15
15.6
V
Typical Applications*
• Adaptor board for SKYPER 32 IGBT
drivers in bridge circuits for industrial
applications
• DC bus up to 1200V
Footnotes
All characteristics listed in the data sheet
are guilty for the use with SKYPER 32
Please consider the derating of the ambient
temperature
Please refer to the datasheet of SKYPER
32 for further information
Vj
input signal voltage on / off
VIT+
Input treshold voltage HIGH
VIT-
Input threshold voltage (LOW)
VG(on)
Turn on gate voltage output
15 / 0
V
12.3
4.6
V
V
15
V
VG(off)
Turn off gate voltage output
-7
V
td(on)IO
Input-output turn-on propagation time
1.1
µs
td(off)IO
Input-output turn-off propagation time
1.1
µs
Derating
This is an electrostatic discharge sensitive device (ESDS), international standard IEC
60747-1, Chapter IX
* The specifications of our components may not be considered as an assurance of component
characteristics. Components have to be tested for the respective application. Adjustments
may be necessary. The use of SEMIKRON products in life support appliances and systems is
subject to prior specification and written approval by SEMIKRON. We therefore strongly
recommend prior consultation of our personal.
Adaptor board
© by SEMIKRON
Rev. 0 – 21.04.2010
1
Board 1 SKYPER® 32 R - Technical Explanations
Adaptor Board 1 SKYPER® 32 R
Technical Explanations
Revision 01
-----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------This Technical Explanation is valid for the following parts:
part number
L6100131
type
Board 1 SKYPER® 32 R
date code (YYWW)
≥ 1004
Related documents:
title
Technical Explanations SKYPER® 32 R
Prepared by: Johannes Krapp
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
Content
Application and Handling Instructions .................................................................................................................... 2
Further application support ..................................................................................................................................... 3
General Description ................................................................................................................................................ 3
Component Placement Layout ............................................................................................................................... 4
®
PIN Array (not SKiiP compatible).......................................................................................................................... 4
PIN Array – Secondary Side................................................................................................................................... 5
Setting Dynamic Short Circuit Protection ............................................................................................................... 5
Collector Series Resistance.................................................................................................................................... 6
Adaptation Gate Resistors...................................................................................................................................... 6
Boost Capacitors .................................................................................................................................................... 6
Mounting Notes....................................................................................................................................................... 7
Please note:
All values in this technical explanation are typical values. Typical values are the average values expected in large quantities and are
provided for information purposes only. These values can and do vary in different applications. All operating parameters should be
validated by user’s technical experts for each application.
Application and Handling Instructions
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2010-04-21 – Rev01
© by SEMIKRON
Board 1 SKYPER® 32 R - Technical Explanations
Please provide for static discharge protection during handling. As long as the hybrid driver is not completely assembled,
the input terminals have to be short-circuited. Persons working with devices have to wear a grounded bracelet. Any
synthetic floor coverings must not be statically chargeable. Even during transportation the input terminals have to be
short-circuited using, for example, conductive rubber. Worktables have to be grounded. The same safety requirements
apply to MOSFET- and IGBT-modules.
Any parasitic inductances within the DC-link have to be minimised. Over-voltages may be absorbed by C- or RCDsnubber networks between main terminals for PLUS and MINUS of the power module.
When first operating a newly developed circuit, SEMIKRON recommends to apply low collector voltage and load current
in the beginning and to increase these values gradually, observing the turn-off behaviour of the free-wheeling diode and
the turn-off voltage spikes generated across the IGBT. An oscillographic control will be necessary. Additionally, the case
temperature of the module has to be monitored. When the circuit works correctly under rated operation conditions,
short-circuit testing may be done, starting again with low collector voltage.
It is important to feed any errors back to the control circuit and to switch off the device immediately in failure events.
Repeated turn-on of the IGBT into a short circuit with a high frequency may destroy the device.
The inputs of the hybrid driver are sensitive to over-voltage. Voltages higher than VS +0,3V or below -0,3V may destroy
these inputs. Therefore, control signal over-voltages exceeding the above values have to be avoided.
The connecting leads between hybrid driver and the power module should be as short as possible (max. 20cm), the
driver leads should be twisted.
Further application support
Latest information is available at http://www.semikron.com. For design support please read the SEMIKRON Application
Manual Power Modules available at http://www.semikron.com.
General Description
®
®
The Board 1 SKYPER 32 is an adaptor board for the IGBT module e.g. SEMITRANS™, SEMiX (solder pin version). The
board can be customized allowing adaptation and optimization to the used IGBT module.
The switching characteristic of the IGBT can be influenced through user settings, e.g. changing turn-on and turn-off speed
by variation of RGon and RGoff. Furthermore, it is possible to adjust the monitoring level and blanking time for the DSCP (see
®
Technical Explanations SKYPER 32).
Please note:
This technical explanation is based on the Technical Explanations for SKYPER® 32PRO. Please read the Technical Explanations
SKYPER® 32PRO before using the Adaptor Board.
Board 1 SKYPER® 32 R
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2010-04-21 – Rev01
© by SEMIKRON
Board 1 SKYPER® 32 R - Technical Explanations
Component Placement Layout
Adaptor Board
PIN Array (not SKiiP® compatible)
Connector X20 (ODU FLAKAFIX 511.068.803.020)
Product information of suitable female connectors and
distributor contact information is available at e.g.
http://www.harting.com (part number 09 18 520 6 813).
PIN
Signal
Function
Specification
X20:01
reserved
X20:02
IF_HB_BOT
Switching signal input (BOTTOM switch)
Digital 15 V; 10 kOhm impedance;
LOW = BOT switch off; HIGH = BOT
switch on
X20:03
IF_nERROR_OUT
ERROR output
LOW = NO ERROR; open collector
output; max. 30V / 15mA (external pull up
resistor necessary)
X20:04
IF_HB_TOP
Switching signal input (TOP switch)
Digital 15 V; 10 kOhm impedance;
LOW = TOP switch off; HIGH = TOP
switch on
X20:05
IF_nERROR_IN
ERROR input
5V logic; LOW active
X20:06
reserved
X20:07
reserved
X20:08
IF_PWR_15P
Drive power supply
Stabilised +15V ±4%
X20:09
IF_PWR_15P
Drive power supply
Stabilised +15V ±4%
X20:10
IF_PWR_GND
GND for power supply and GND for digital
signals
X20:11
IF_PWR_GND
GND for power supply and GND for digital
signals
X20:12-14
reserved
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2010-04-21 – Rev01
© by SEMIKRON
Board 1 SKYPER® 32 R - Technical Explanations
PIN Array – Secondary Side
Connector X100, X200 (MOLEX Series 41791, Part Number 26-60-4050)
Product information of suitable female connectors and distributor
contact information is available at e.g. http://www.molex.com
(e.g. series 41695).
PIN
Signal
Function
X100:01
EMITTER_TOP
Emitter output TOP IGBT
X100:02
reserved
X100:03
GATE_TOP
Gate output TOP IGBT
X100:05
VCE_TOP
Collector output TOP IGBT
X200:01
EMITTER_BOT
Emitter output BOT IGBT
X200:02
reserved
X200:03
GATE_BOT
Gate output BOT IGBT
X200:05
VCE_BOT
Collector output BOT IGBT
Specification
Setting Dynamic Short Circuit Protection
RCE & CCE
5
Designation
Shape
R162
MiniMELF
C160
0603
R262
MiniMELF
C260
0603
Setting
RCE
Factory setting: not equipped
CCE
Factory setting: not equipped
RCE
Factory setting: not equipped
CCE
Factory setting: not equipped
2010-04-21 – Rev01
TOP
TOP
BOT
BOT
© by SEMIKRON
Board 1 SKYPER® 32 R - Technical Explanations
Collector Series Resistance
RVCE
Designation
Shape
R150
MiniMELF
R250
MiniMELF
Setting
RVCE *
Factory setting: not equipped
RVCE *
Factory setting: not equipped
TOP
BOT
* 1200V IGBT operation: 0Ω
* 1700V IGBT operation: 1kΩ / 0,4W
*
Adaptation Gate Resistors
RGon & RGoff
Designation
Shape
Setting
R151, R152, R153
(parallel connected)
MiniMELF
RGon
Factory setting: not equipped
TOP
R154, R155, R156
(parallel connected)
MiniMELF
RGoff
Factory setting: not equipped
TOP
R251, R252, R253
(parallel connected)
MiniMELF
RGon
Factory setting: not equipped
BOT
R254, R255, R256
(parallel connected)
MiniMELF
RGoff
Factory setting: not equipped
BOT
Boost Capacitors
Cboost15P & Cboost8N
Designation
Shape
C112
1210
C110
1210
C111
1210
C212
1210
C210
1210
C211
1210
Setting
Cboost8N
Factory setting: 4,7µF/25V *
Cboost8N
Factory setting: 4,7µF/25V *
Cboost15P
Factory setting: 2,2µF/25V *
Cboost8N
Factory setting: 4,7µF/25V *
Cboost8N
Factory setting: 4,7µF/25V *
Cboost15P
Factory setting: 2,2µF/25V *
TOP
TOP
TOP
BOT
BOT
BOT
* output charge pulse: 5µC
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2010-04-21 – Rev01
© by SEMIKRON
Board 1 SKYPER® 32 R - Technical Explanations
Mounting Notes
Driver Core Mounting
1. Soldering of components (e.g. RGon, RGoff, etc.) on adaptor board.
2. Insert driver core into the box connector on adaptor board.
3. The connecting leads between board and power module should be as short as possible (max. 20cm), the leads should be twisted.
The connection between driver core and adaptor board should be
mechanical reinforced by using support posts. The posts have to be
spaced between driver core and adaptor board.
Product information of suitable support posts and distributor contact
information is available at e.g. http://www.richco-inc.com (e.g. part
number DLMSPM-8-01, LCBST-8-01).
DISCLAIMER
SEMIKRON reserves the right to make changes without further notice herein to improve reliability, function or design.
Information furnished in this document is believed to be accurate and reliable. However, no representation or warranty is
given and no liability is assumed with respect to the accuracy or use of such information. SEMIKRON does not assume
any liability arising out of the application or use of any product or circuit described herein. Furthermore, this technical
information may not be considered as an assurance of component characteristics. No warranty or guarantee expressed
or implied is made regarding delivery, performance or suitability. This document supersedes and replaces all information
previously supplied and may be superseded by updates without further notice.
SEMIKRON products are not authorized for use in life support appliances and systems without the express written
approval by SEMIKRON.
www.SEMIKRON.com
7
2010-04-21 – Rev01
© by SEMIKRON