EUPEC BSM150GD120DN2

APPLICATIONS
POWER SEMICONDUCTORS
Mario Feldvoss ● Andreas Karl
IGBT modules of the second generation:
Econopacks shrink frequency
converters
Siemens has developed
technically superior, but
low-cost packages for
second-generation IGBTs
in the power range from
0.75 to 75 kW. The new
Econopacks reduce space
requirements by two-thirds
and weight by threequarters.
modules is reduced by a factor of three,
their weight by as much as a factor of
four. A three-phase full bridge for 100 A in
an Econopack 3 (type BSM100GD120DN2)
for example, weighs only 300 grams in
comparison with the 1260 grams of three
conventional half-bridge modules.
These modules are currently available as
three-phase full bridges (six-packs) for
reverse voltages of 600 and 1200 V and as
tripacks (Table 1). Modules for 6 u 20 A to
6 u 50 A at 600 V, and for 6 x 10 A to 6 u 50 A
at 1200 V are available in Econopack 2
packages. The modules for the power range
6 u 75 to 6 u 100 A or 3 u 150 A to 3 u 200 A
at 1200 V are all housed in Econopack 3
packages.
Assembly times slashed
s well as capacitors and heat sinks,
insulated gate bipolar transistors
(IGBTs) for power control have a
major impact on cost in the design of
frequency converters. In conventional
IGBTs configured as half-bridges or single
switches, the package accounts for a considerable share of component costs. IGBT
technology of the second generation allows
more switching elements to be squeezed
into a package without power dissipation
leading to significantly higher chip temperatures. The Econopack 2 and Econopack 3
packages of technically superior design
(Fig. 1) can withstand higher temperature
and load variations than conventional modules. What’s more, they cost less and take
up less space.
The Econopack packages have solderable
pins, so assembly time can be reduced by a
factor of eight in comparison with conventional screw and plug-in contacts, e.g. from
320 to 40 seconds for a 50 A full-bridge
circuit. The drive pins and power terminals
are located on opposite sides of the package. The concept of solderability throughout
and the separate pin arrangement in
conjunction with a wide range of variants reduce layout costs considerably. The clearances and leakage
paths between the pins are such that
modules soldered onto the circuit board
comply with relevant safety requirements
such as UL 840, UL 508C, IEV 335,
VDE 0110 and VDE 160.
Compact, lightweight packages
Custom configurability
Thanks to the compact design of Econopacks, the space requirement of IGBT
Beyond this, the switches contained in the
module can be individually configured or
A
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connected in parallel. In the Econopack 2,
for example, the 50 A six-pack of type
BSM50GD120DN2 can also be used as a
150 A half-bridge by shorting output pins U,
V and W.
The same applies to modules in the Econopack 3. Thanks to its pin configuration, this
package also allows designers to connect
several full bridges in parallel (Fig. 2) and
thus double the power. The collector current
does not have to be reduced because the
saturation voltage of the IGBT has a positive
temperature coefficient. The gate drop resistor integrated into the IGBT chips ensures
uniform current distribution at turn-on when
the various IGBTs are driven.
The tripack solution in the Econopack 3 also
offers the option of connecting its three
Fig. 1 Second-generation IGBTs in
Econopack 2 (top) and Econopack 3 (bottom)
packages reduce the space requirements and
weight of frequency converters
Components XXXI (1996) No. 3
APPLICATIONS
POWER SEMICONDUCTORS
Collectoremitter
voltage
VCE in V
Collector
current
Econopack 1
Six-pack
Econopack 2
Six-pack
Econopack 3
Six-pack
Tripack
IC in A
600
600
10
15
BSM10GD60DN2
BSM15GD60DN2
600
600
20
30
BSM20GD60DN2
BSM30GD60DN2
600
1200
50
10
BSM50GD60DN2
BSM10GD120DN2
1200
1200
15
25
BSM15GD120DN2
BSM25GD120DN2
1200
1200
35
50
BSM35GD120DN2
BSM50GD120DN2
1200
1200
75
100
1200
1200
150
200
BSM75GD120DN2
BSM100GD120DN2
BSM150GD120DN2
BSM200GD120DN2
Table 1 IGBTs in Econopack packages cover the current ranges from 10 to 50 A at 600 V and from 10 to 200 A at 1200 V
U
18
19
17
16
15
19
20
14
P
21
13
N
1 2
3 4
5 6
7 8
9 10
17
16
W
15
18
19
17
16
15
20
14
20
14
P
21
13
21
13
N
11 12
1 2
3 4
5 6
7 8
9 10
11 12
1 2
3 4
5 6
7 8
9 10
11 12
P
13/21
1
2
V
18
19
5
6
17
9
10
P
1
2
15
3
7
11
3
4
14/20
8
12
4
19
U
5
6
17
9
10
7
11
8
12
15
V
1
2
19
5
6
3
7
4
8
17
9
10
15
W
11
12
N
N
Fig. 2 Thanks to carefully designed pinning of the Econopack 3 package (left), two full bridges (right) can be connected in parallel without major
layout expenditure
separate switches in parallel and thus
tripling the permitted collector current. Its
versatility as a six-pack or half-bridge, as a
tripack or single switch, reduces logistics
and storage costs.
Second-generation IGBT modules in Econopack 2 and Econopack 3 packages thus
give designers of frequency converters
flexible, low-cost and easy-to-process building blocks for a wide power range and
h
variety of applications.
Check #3-96-1 (HL) on Reader Service Card
Components XXXI (1996) No. 3
Mario Feldvoss
Dipl.-Ing. (FH),
studied power engineering at Lübeck and joined
Siemens in 1986. He initially worked on development of power semiconductor technologies.
Since 1990, Mr. Veldfoss (35) has been involved
in definition, development and support for IGBT
modules.
Andreas Karl
Dipl.-Ing. (FH),
studied telecommunications in Regensburg and
joined the Siemens Semiconductor Group as a
designer of magnetic field sensors in 1992. In
1995, after working as an applications engineer
on power semiconductors, he went into product
marketing for IGBT modules.
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