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7MBP50RUA060 の電気的特性と機能

7MBP50RUA060のメーカーはFujiです、この部品の機能は「U-Series IGBT IPMs」です。


製品の詳細 ( Datasheet PDF )

部品番号 7MBP50RUA060
部品説明 U-Series IGBT IPMs
メーカ Fuji
ロゴ Fuji ロゴ 




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7MBP50RUA060 Datasheet, 7MBP50RUA060 PDF,ピン配置, 機能
U-series of IGBT-IPMs (600 V)
Kiyoshi Sekigawa
Hiroshi Endo
Hiroki Wakimoto
1. Introduction
Intelligent power modules (IPMs) are intelligent
power devices that incorporate drive circuits, protec-
tion circuits or other functionality into a modular
configuration. IPMs are widely used in motor driving
(general purpose inverter, servo, air conditioning,
elevator, etc.) and power supply (UPS, PV, etc.)
applications.
The equipment that uses these IPMs are required
to have small size, high efficiency, low noise, long
service life and high reliability.
In response to these requirements, in 1997, Fuji
Electric developed the industry’s first internal over-
heat protection function for insulated gate bipolar
transistors (IGBTs) and developed an R-IPM series
that achieved high reliability by employing an all-
silicon construction that enabled a reduction in the
number of components used.
Then in 2002, Fuji Electric changed the structure of
its IGBT chips from the punch through (PT) structure,
which had been in use previously, to a non-punch
through (NPT) structure, for which lifetime control is
unnecessary, in order to realize lower turn-off loss at
high temperature, and also established finer planar gate
and thin wafer processing technology to develop an R-
IPM3 series that realizes low conduction loss.
With the goal of reducing loss even further, Fuji
Electric has developed an IGBT device that employs a
trench NPT structure to realize lower conduction loss
and has developed a new free wheeling diode (FWD)
structure to improve the tradeoff between switching
noise and loss. Both of these technologies are incorpo-
rated into Fuji Electric’s newly developed U-series
IGBT-IPM (U-IPM) which is introduced below.
2. U-IPM Development Concepts and Product
Line-up
The concepts behind the development of the U-IPM
are listed below.
(1) Realization of lower loss
Lower loss can be realized by developing new
power elements and optimizing the drive performance.
Increasing the carrier frequency of the equipment
contributes to improved control performance. Also,
larger output can be obtained from the equipment
during the operation at the same carrier frequency.
(2) Continued use of the same package as prior
products
Table 1 Product line-up, characteristics and internal functions of the U-IPM series
Inverter part Brake part
Internal function
No. of
elements
Model
VDC VCES
(V) (V)
IC
(A)
PC
(W)
IC
PC
Both upper and
lower arms
Upper arm Lower arm
Package
type
(A) (W)
Dr UV TjOH OC ALM OC ALM TcOH
6MBP 20RUA060
20 84 –
– Yes Yes Yes None None Yes Yes None P619
6MBP 50RUA060
50 176 –
– Yes Yes Yes Yes None Yes Yes Yes
P610
6 in 1 6MBP 80RUA060 450 600 80 283 –
– Yes Yes Yes Yes None Yes Yes Yes
P610
6MBP100RUA060
100 360 –
– Yes Yes Yes Yes None Yes Yes Yes
P611
6MBP160RUA060
160 431 –
– Yes Yes Yes Yes None Yes Yes Yes
P611
7MBP 50RUA060
50 176 30 120 Yes Yes Yes Yes None Yes Yes Yes
P610
7MBP 80RUA060
80 283 50 176 Yes Yes Yes Yes None Yes Yes Yes
7 in 1
450 600
7MBP100RUA060
100 360 50 176 Yes Yes Yes Yes None Yes Yes Yes
P610
P611
7MBP160RUA060
160 431 50 176 Yes Yes Yes Yes None Yes Yes Yes
P611
Dr: IGBT driving circuit, UV : Under voltage lockout for control circuit, TjOH: Device overheat protection, OC: Over-current protection, ALM: Alarm output,
TcOH: Case temperature over-heat protection
*6MBP20RUA060 uses a shunt resistance-based over-current detection method at the N line.
48 Vol. 51 No. 2 FUJI ELECTRIC REVIEW
Free Datasheet http://www.datasheet4u.net/

1 Page





7MBP50RUA060 pdf, ピン配列
Fig.4 Comparison of total loss (at same current) for the U-IPM, R-IPM3 and R-IPM series
100
Tj = 125°C, Ed = 300 V
VCC = 15 V, Io = 50 Arms
Power factor = 0.85, λ =1
R-IPM : 6MBP150RA060
80 R-IPM3 : 6MBP150RTB060
U-IPM : 6MBP160RUA060
Prr
Pf
Poff
60 Pon
Psat
45.50
1.34
40 4.12
7.01
6.13
20
40.55
1.59
3.90
3.03
5.76
35.37
1.22
3.89
3.85
4.21
26.9
26.3
22.2
59.80
2.68
4.12
14.0
12.3
26.7
50.90
3.18
3.90
6.04
11.6
26.2
44.57
2.44
3.89
7.68
8.46
22.1
88.79
5.37
4.12
27.9
24.7
26.7
71.67
6.38
3.89
12.1
23.2
26.1
63.08
4.89
3.89
15.3
17.0
22.0
0
R-IPM
R-IPM3
fc = 4 kHz
U-IPM
R-IPM
R-IPM3
fc = 8 kHz
U-IPM
R-IPM
R-IPM3
fc = 16 kHz
U-IPM
Fig.5 Current vs. total loss (at same frequency) for U-IPM, R-
IPM3 and R-IPM
150
Tj = 125°C, Ed = 300 V
fc = 4 kHz, Vcc = 15 V
Power factor = 0.85, λ =1
R-IPM : 6MBP150RA060
100
R-IPM3 : 6MBP150RTB060
U-IPM : 6MBP160RUA060
R-IPM
R-IPM3
U-IPM
50
53 A
58 A
66 A
0
0 20 40 60 80 100 120
Io (Arms)
generated by existing models and by the U-IPM is
described below.
Figure 4 compares the loss of the U-IPM and the
existing R-IPM and R-IPM3 devices in the case of
operation at carrier frequencies of 4, 8 and 16 kHz, and
a current of 50 Arms (1 /3 of the rated current). As can
be seen in the figure, the newly developed U-IPM
realizes a total loss that is approximately 22 to 28 %
lower than that of the R-IPM and approximately 11 to
12 % lower than that of the R-IPM3. In particular, it
can be seen that the loss generated when using the U-
IPM at a carrier frequency of 8 kHz is less than the
Fig.6 I C-VCE characteristics for U-IPM, R-IPM3 and R-IPM
150
Tj = 125°C,
VCC = 15 V
VCE (sat) at IPM pin
R-IPM
R-IPM3
100
U-IPM
50
0
0 0.5 1 1.5 2 2.5 3 3.5
VCE (sat) (V)
loss generated by a R-IPM operating at a carrier
frequency of 4 kHz, and therefore, the carrier frequen-
cy can be increased from 4 kHz to 8 kHz by replacing a
R-IPM with a U-IPM of the same size package.
Moreover, according to Fig. 5 which shows the relation-
ship between current and total loss at fc = 4 kHz, to
generate the same amount of loss (50 W) as the R-IPM,
the output current of the U-IPM can be increased by
24.5 % compared to that of the R-IPM, or increased by
13.7 % compared to that of the R-IPM3.
These techniques for reducing loss were focused on
reducing the conduction loss, which accounts for more
than 50 % of the total loss, and on reducing the turn-on
50 Vol. 51 No. 2 FUJI ELECTRIC REVIEW
Free Datasheet http://www.datasheet4u.net/


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7MBP50RUA060

U-Series IGBT IPMs

Fuji
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