6ED family - 2nd generation
Technical Description
Application Note
7
Rev. 1.3, 2014-03-23
AN-EICEDRIVER-6EDL04-1
1
Scope and product family
The 6ED family
– 2
nd
generation is a high voltage gate drive IC for three-phase converters up to a maximum
blocking voltage of 600V. The converters can be used for example in drives applications which are basing on
induction machines (IM) or brushless DC motors. The 6ED family
– 2
nd
generation is designed in silicon-on-
insulator-technology (SOI). This technology provides a high ruggedness against negative voltage spikes and
noise.
This application note gives an overview of the technological characteristics. It also describes the most important
sections in terms of the application and gives design recommendations for a proper operation of the device in
the application. This document covers the following products:
Table 1
Members of 6ED family
– 2nd generation
Sales code
control input HIN1,2,3
and LIN1,2,3
UVLO
threshold
Bootstrap
diode
Package
Optimal for
6EDL04I06NT
negative logic
12.1V/10.2V
Yes
DSO28
IGBT
6EDL04I06PT
positive logic
12.1V/10.2V
Yes
DSO28
IGBT
6EDL04N06PT /
6EDL04N02PR
positive logic
8.9V/8.0V
Yes
DSO28 /
TSSOP28
MOSFET
6ED003L06-F2 /
6ED003L02-F2
negative logic
12.1V/10.2V
No
DSO28 /
TSSOP28
IGBT, replacement
of 1
st
generation
It is obvious that the 6ED family covers positive and negative control logic as well as various under voltage
lockout levels. The control signals, thresholds and parameters described in this application note must be
understood according to the individual part.
Target applications are all cost sensitive applications in the consumer and low end industrial area. All devices
are therefore compatible even to microcontrollers with a supply voltage of 3.3 V. 6ED family
– 2
nd
generation is
similar to use as IR2136 and its derivates. It is compatible to the same footprint, but not compatible in terms of
the internal thresholds, which may concern the external circuitry. Please refer here to the product specifications
of 6ED family
– 2
nd
generation.