Infineon DD90N Data Sheet

0090

N

Elektrische

Eigenschaften

Electrical

properties

H6chstzulassige Werte Maximum rated values

Periodische repetitive peak reverse
Spitzensperrspannung

voltage

StoBspitzenspannung non repetitive peak

tVI

t."

= - 40

= +

C

25'C

C -

..

tV)

max

...

t"

reverse voltage
DurchlaBstrom-Grenzeffektivwert
Dauergrenzstrom average forward current

StoBstrom-Grenzwert surge current

Grenzlastintegral

Charakteristische Werte

DurchlaBspannung forward voltage
Schleusenspannung threshold voltage
Ersatzwiderstand

Sperrstrom reverse current

RMS forward current I

te

=

100'C

2

/i

dt-value

Lij;;;25"C,

t,,!

t.,,:;:;2S'C,

t"1 = t'l

le=

10

ms

to=

m,H,

tp

to

10ms

=

"10

= 10

ms

ms

=

C'i

Characteristic values

iF

=

300

=

t'l

A

I

slope resistance

t.,=

V

RRU

Isolations-Prlifspannung insulation test voltage RMS. j = 50 Hz. ! 1 min

V

RRM

V

RSM

FRMSM

I

FAVM

I

FSM

'i2dt

VF

V(TOI

rT
iR

V,

SOL

= V

600.

1200, 1400 V

RRNI

+

28800
21000

max. 1.42 V

max. 10

800

1600 V

100

140 A

90 A

2400 A
20S0

0.75 V
1,9

2,5

V

V

A
A2s
A2s

m£2
mA

kV

I

junction tempemture

max.
operating tempel'alule
slorage temperature

internal insulatioll
tightening torques

mechanische Befestigung

Illounting torque TciG:-2nz/!oierance ±

elektrische Anschllisse terminal connectioll torque

Gewicht weight

Kriechstrecke

creepage distance
Schwingfestigkeit vibration resistance
MaBbild

outline

Toleri1llz!\oler2Ilce

pro

fv10dullper

pro Z\veig/per arm max. 0.48 C/W

pro MOclul/per

module

module

R

tilJC

max.

max.

max.

0.24 C/W

0.22SC/W
'C/W

0.45

O,OS

C/W

max. 0.10 C/W

iSOC

-40'·C.

50C

.clOC.

typo

j\lm
j\lm

160 g

n;1ll

15°,0

0

10

+-

,Q

M1
M2

5 . 9.81

Recognized by

UNDERWRITERS

LABORATORIES

Ib)C.

DO

90 N

150

[w]

t

P

FAV

120

80

I

40

~

:/

~

L

a

D090Nl

Bild/Fig.1
DurchlaBverlustieistung
Forward power

-

~

/

V

~

40

loss P

FAV

JL

8

~50°

V

#:

"/

~

P

eines Zweiges

FAV

per arm

f\.

18

n

7;/1

_

120°

~~

V

/'

/

80

I

n

180°

/

V

"""=::::

oc

/

/

r~

tc

160

~

tcJ

120

100

BO

60

40

20

a

OO'1JN2

Bild/Fig.2
Hiichstzulassige Gehausetemperatur tc
Maximum

~ ~

1

1

-/-

I

1
1

I

I I

allowable case temperature

;;:--..

~

""

'"

e

~60°

40

1

...............

~

"'~

l"-,

""

-

--

JL

L

1 1

i'--

~

~

--......

1

1

n

J\.

120"

180"

1

so

in

Abhangigkeit vom Zweigstrom

te

versus current per arm

I

n

o

lSO

N

1
1

1

1

I

I

I

I

DC

I

150

40

60

80

100

12010

40

80

r--.::::

-r

-

r--+-+

1--

I-

120

.

tA

= 45"C,

IFAVI,m)

1d

II

'~I

DO

got!

3

Bild/Fig.3
B2 - Zweipuls-Briickenscha/tung
H6chstzulassiger Ausgangsstrom
temperatur
B2 - Two-pulse bridge circuit
Maximum
Parameter: Warmewiderstand zwischen Powerblock und Umgebung/

Bild/Fig.5
B2 - Zweipuls-Briickenschaltung/Two-pulse bridge circuit
Uberstrom je Zweig I
Overload on-state current per arm I
heatsink type KPo.33S.
Parameter: Vorlaststrom je

tAo

allowable output current

thermal resistance case to ambient R

tAl'cJ

-

Id

in

Abhangigkeit von der Umgebungs-

Id

versus ambient temperature

I

II

Ii

1

II

-iiT

) bei Luftselbstkiihlung,

FIOV

Zweig/pre-load current per arm

FIOV

)

at

1hCA

----

1

I

;:-1

1--

i

......

fi-

,

tA

= 45°C, Kiihlkiirper KP 0,33

natural cooling,

160

200

[A]

---

tA

..

2000

[A]

t

I

FIOV

1000

800

I

I

I

1

I

I

I

I

I

,

500

400

200

I

I

[I

I I

S.

100

40

50

80

OD9(HI4

Bild/Fig.4
B6 - Sechspuls-Briickenschaltung
Hiichstzulassiger
temperatur
B6 - Six-pulse bridge circuit
Maximum
Parameter: Warmewiderstand zwischen Powerblock und Umgebung/

I FAV(vor ) =

r-

J

.

R2

...........

.........

.......

-

I

r----

10

20

40

! ! •

DD901ll!

Bild/Fig.6
B2 - Zweipuls-Briickenschaltung/Two-pulse bridge circuit
Uberstrom je
Kiihlkiirper
Overload on-state current per arm I
heatsink type KPo.33S.
Parameter: Vorlaststrom je

Ausgangsstrom

tAo

allowable output current

thermal resistance case

/~gA

%50A

/

75A

/85A

gOA

~

~"'i-

r:::-;::-:-+-

1

100

200

Zweig I

KPo,33S.

100 12010

tA

fcJ

----

Id

I

I

II II

I I I

I

i

t:tf~:I

400

) bei verstarkter Luftkiihlung,

FIOV

::!:+'

I

FIOV

Zweig/pre-load current per arm

50

100

1~

1d

in Abhangigkeit von der Umgebungs-

Id

versus ambient temperature

to

ambient R

1hCA

II

III

I

II

II

I

II

I

I

j

I I I

I

10

20

40

----+---

) at forced cooling,

I

I

I

I

III

I

III

-++:111

I

1111

II

Ilf

I

III

I I

~

II

/11

,

1

tA

= 35"C,

tA

= 35°C,

IFAVI",I

II

III

min

200 250

[AJ -

tAo

10

20

------I

t~

I I I

I

I

I I

I

I

I

1

I

II

[ I

I

40

I

I

i

I

1h

DD

IF(QVIM

t

90

'500

[A]

'200

1000

800

500

400

200

N

--.::::::

P=:::

r----

---

r--

-!..

DD~

N9

~

-.......:

~

~

---

-

---

~

Ff

-

~

I

I

I

,

~

;---:::::

-:--1

r--

i---

I I

I I I I

i::-

/

I I

I

240

~A5J

I

1

I

t

'50

'20

80

40

I

I

tA

= 35"' C

1.

t~151'~

I I

/

I

I

3

6 8

t

[m~

10

_____

I/'I

1/

...--

' I

I I I

I!

I I I 1

If/ I I I I I I

If

I

I I

[I

+-1

-+-1---+-+1-+-1

I

I!

-+-If---j--I

I I I I

a

Ill90H10

20

40

50

0

A

-+I---j

'00

Bild/Fig.7
Grenzstrom
LuftkOhlung,

Limiting
forced
a ­b -

-

t~~

-

Z

thJC

0,5

0,4

0,3

0,2

f.-.--

a

3

10-

OD90NIl

Bild/Fig.9
Transienler innerer Warmewiderstand
Transient thermal impedance, junction to case, per arm

je

Zweig

IF(oVJM

IA

= 35"C, KOhlk6rper KPO,33S,

overload on-state current per arm

(tA

= 35"C) cooling, heatsink type KPO.33S,

Belastung nach Leerlauf/current surge under no-load conditions
Belastung nach Betrieb mit Dauergrenzstrom I
Current surge occurs during operation at limiting mean on-state current

I

FAVM

rati ng

~-

I--

~-

1-

bei LuftselbstkOhlung,

.-~

~-.

VAM = 0,8

IF(OVJM

/

tA

= 45"C und verstarkter

at natural

VAM = 0.8

FAVM

/

/

/V-

/

'/

je

//

//

Zweig

/

4 6

Z(.hJJC.

=

f =

50

Hz

n

50'

I

JL'20'
JL'80'

.fL

180"

- ._-_.

Fe

/'

V-

/1.(

/-'1

-

-I-

V

.

AAM

(tA

l---T

f---

~

f---

10°

Z(.hJJC.

= 45"C) and

V

.

AAM

I

I I

i

i

I

I

I

I

I

I

I

I

2 4 6

t [5]

I

I

II

I

I

I

I

___

Bild/Fig.8
Nachlaufladung Os in Abhangigkeit von der abkommutierenden Stromsteil­heil -diF/dl bei
Lag charge Os versus the rate of decay

I

,

!

I'i

rna,·

of

the on-state current -diF/dt at

t'i

rna,.

I

I

I

II

I

10'

Pas. n 1

0,0135

["C/wj

R'

hn

=

n

max

L:

n = 1

0,00055

R.

hn

(1-e

thn)

Tn

Is1

Z.hJC

Transienter Warmewiderstand
Transient thermal impedance

2 3
0,0292 0,1097
0,0031 0,044

Z.hJC

pro Zweig

Z.hJC

per arm for DC.

fOr

DC.

4
0,2198
0,187

5
0,0778

1,25

MaBbilder
Outlines

o

M

TT1BN

AK

I

M5')

A2,BxO,B

0lN46244

<D

0

I

TT

18

K

A

n~Ji~r

TT 18 N

25

TT

31

TT
TT 36 N

46

TT

56

TT
TT66

N
N

N
N
N

TT25
TT32
TT42

F
F
F
F

M5')

/

A2,8xO,B

lOIN

45244

r9?'\l f

I 4

_ 2

~

-::j

, I

!

-1,

<D

,,-

-L t

'~1

TT

93

N

TT 105 N

tz;lS:1ttI~Wl

j-I-i-J==F=:!:d==I=~=1=:::::ll!~~-

AK

'155~

~20-+--20

1-0---

1-0------

n

BOH

K

1!~3

80

92

----J

A

----!.

n~Ji~r

I

AK

I

AK

[

AK

I

K

3

1

llkJ

K

I

K

1

1

r

KJ

t

KJr

A

r

1<3

A

4 2 r

lli<J

A

r

1<3

TO

18

TO

25 N

TO

31

TO

36 N

TO

46 N

TO

56

TO

66

OT

18

OT

25

OT

31
OT36
OT

46 N

OT

56

OT

66

0031
0055
0061
0076
DD

90 N

DD

105 N

TO

93

TO

18

TO

25 F

TO

32 F

TO

42 F

OT

18

OT

25

OT

32 F

OT

42 F

0021
0022
0031
0045
DD
DD

53
68

F

F
F

S

S
S
S
S
S

N

N

N
N

N
N
N
N

N
N

N

N
N

N

AK

I

AK

[

K

3

1

1

1

~(}

r

K

I

KJ

llli<J

A

r

1<3

A

4 2 r

TO

105 N

OT93
OT

105 N

N

N

1)

Linsen-Kombi-Schraube
M5 x

11 Z 4-1

DIN 7985-8.8-A2K

DIN

6900