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6SD106E Datasheet, PDF (8/12 Pages) List of Unclassifed Manufacturers – Six-pack SCALE Driver for IGBTs and Power MOSFETs
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Data Sheet 6SD106E
Operating conditions
Operating conditions
Operating temperature
Storage temperature
Test conditions
6SD106EN (see Note 10)
6SD106E I (see Note 10)
all types
min max
0 +70
-40 +85
-40 +90
unit
°C
°C
°C
Footnotes to the key data
1) The drivers have a zener diode on each channel for over-voltage protection. When the feed voltage
exceeds 16V, this protection can be subject to thermal overload.
2) If the specified power consumption is exceeded, this indicates an overload of the DC/DC converter. It
should be noted that these DC/DC converters are not protected against overload.
3) This should be considered as a recommended value. Please consult the section: “Output power and
self-heating”.
4) Under-voltage monitoring for protecting the power semiconductors. The voltage refers to the local supply
voltage of each individual drive channel. However, this corresponds approximately to the voltage at
VDC with respect to GND.
5) The input levels must never exceed the limits of the supply voltage (i.e. between GND and VDD),
otherwise latch-up of the integrated circuits LDI 00I can occur. Particular care must be taken when
driving via cables or longer leads.
6) The gate current must be limited to its maximum value by a gate resistor.
7) At a load of 39nF in series with 5.6 W (typical load of a 1200V/100A IGBT).
8) Maximum continuous or repeatedly-applied DC voltage or peak value of the repeatedly-applied AC
voltage between all inputs and all outputs. However, types that have been measured and selected for
higher partial-discharge voltages (e.g. for 1700V IGBT modules) are also available (see Note 11).
9) This specification guarantees that the drive information will be transferred reliably even at a high DC-
link voltage and fastest switching operations.
10) The application-specific self-heating of the drivers - specially at high load - must be taken into account.
11) The partial discharge is not measured for the standard types. Tested and selected types with guaranteed
partial-discharge immunity can be supplied for applications with maximum requirements and higher
operating voltages (such as railroad applications).
12) The test voltage of 4000 Vac(rms)/50Hz may be applied only once during a minute. It should be noted
that with this (strictly speaking obsolete) test method, some (minor) damage occurs to the isolation layers
due to the partial discharge. Consequently, this test is not performed at CONCEPT as a series test. In the
case of repeated isolation tests (e.g. module test, equipment test, system test) the subsequent tests should
be performed with a lower test voltage: the test voltage is reduced by 400V for each additional test. The
more modern if more elaborate partial-discharge measurement is better suited than such test methods as
it is almost entirely non-destructive.
13) The first series (1988) has a creep path of 7.0mm between adjacent channels. A creep path of 12.7mm
will be implemented (with 100% mechanical compatibility) in later series.
14) The typical blocking time after an error is 1 second. If required, versions with other blocking times
may also be supplied.
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