MIAA15WD600TMH Datasheet MIAA15WD600TMH | P1-P3

1 - 7

20070531a

MIAA15WD600TMH

IXYS reserves the right to change limits, test conditions and dimensions.

Advanced Technical Information

Converter - Inverter Module

NPT IGBT

Single Phase

Rectiﬁer

Three Phase

Inverter

V

RRM

= 1600 V V

CES

= 600 V

I

DAVM25

= 65 A I

C25

= 23 A

I

FSM

= 550 A V

CE(sat)

= 2.1 V

Pin conﬁguration see outlines.

G1 G3 G5

G2

G4

G6

U V

W

NTC1

L1

L2

N EU EV EW

P P1

D8 D10

D9 D11

NTC2

D1

D3

D5

D2

D4

D6

T1

T3 T5

T2

T4

T6

Features:

• High level of integration - only one

power semiconductor module required

for the whole drive

• Inverter with NPT IGBTs

- low saturation voltage

- positive temperature coefﬁcient

- fast switching

- short tail current

• Epitaxial free wheeling diodes with

hiperfast soft reverse recovery

• Temperature sense included

Application:

• AC motor drives

• Pumps, Fans

• Washing machines

• Air-conditioning system

• Inverter and power supplies

Package:

• "Mini" package

• Assembly height is 17 mm

• Insulated base plate

• Pins suitable for wave soldering and

PCB mounting

• Assembly clips available

- IXKU 5-505 screw clamp

- IXRB 5-506 click clamp

• UL registered E72873

Part name (Marking on product)

MIAA15WD600TMH

E 72873

2 - 7

20070531a

MIAA15WD600TMH

IXYS reserves the right to change limits, test conditions and dimensions.

Advanced Technical Information

Output Inverter D1 - D6

Ratings

Symbol Deﬁnitions Conditions min. typ. max. Unit

V

RRM

max. repetitve reverse voltage

T

VJ

= 150°C 600 V

I

F25

I

F80

forward current

T

C

= 25°C

T

C

= 80°C

37

24

A

V

F

forward voltage

I

F

= 15 A; V

GE

= 0 V T

VJ

= 25°C

T

VJ

= 125°C

1.8

1.3

2.1 V

V

Q

rr

I

RM

t

rr

E

rec

reverse recovery charge

max. reverse recovery current

reverse recovery time

reverse recovery energy

V

R

= 300 V

di

F

/dt = -380 A/µs T

VJ

= 125°C

I

F

= 15 A; V

GE

= 0 V

0.58

11.5

115

50

µC

A

ns

µJ

R

thJC

R

thCH

thermal resistance junction to case

thermal resistance case to heatsink

(per diode)

0.55

1.6 K/W

K/W

Ouput Inverter T1 - T6

Ratings

Symbol Deﬁnitions Conditions min. typ. max. Unit

V

CES

collector emitter voltage

T

VJ

= 150°C 600 V

V

GES

V

GEM

max. DC gate voltage

max. transient collector gate voltage

continuous

transient

±20

±30

V

I

C25

I

C80

collector current

T

C

= 25°C

T

C

= 80°C

23

16

A

P

tot

total power dissipation

T

C

= 25°C 80 W

V

CE(sat)

collector emitter saturation voltage

I

C

= 15 A; V

GE

= 15 V T

VJ

= 25°C

T

VJ

= 125°C

2.1

2.3

2.5 V

V

GE(th)

gate emitter threshold voltage

I

C

= 0.4 A; V

GE

= V

CE

T

VJ

= 25°C 4.5 5.5 6.5 V

I

CES

collector emitter leakage current

V

CE

= V

CES

; V

GE

= 0 V T

VJ

= 25°C

T

VJ

= 125°C 1.0

0.6 mA

mA

I

GES

gate emitter leakage current

V

GE

= ±20 V 150 nA

C

ies

input capacitance

V

CE

= 25 V; V

GE

= 0 V; f = 1 MHz 700 pF

Q

G(on)

total gate charge

V

CE

= 300 V; V

GE

= 15 V; I

C

= 15 A 57 nC

t

d(on)

t

r

t

d(off)

t

f

E

on

E

off

turn-on delay time

current rise time

turn-off delay time

current fall time

turn-on energy per pulse

turn-off energy per pulse

inductive load T

VJ

= 25°C

V

CE

= 300 V; I

C

= 15 A

V

GE

= ±15 V; R

G

= 68 W

40

45

155

95

0.35

0.27

ns

mJ

t

d(on)

t

r

t

d(off)

t

f

E

on

E

off

turn-on delay time

current rise time

turn-off delay time

current fall time

turn-on energy per pulse

turn-off energy per pulse

inductive load T

VJ

= 125°C

V

CE

= 300 V; I

C

= 15 A

V

GE

= ±15 V; R

G

= 68 W

40

45

160

120

0.55

0.4

ns

mJ

RBSOA

reverse bias safe operating area

V

GE

= ±15 V; R

G

= 68 W; I

C

= 30 A T

VJ

= 125°C

V

CEK

< V

CES

-L

S

·d

I

/dt V

I

SC

(SCSOA)

short circuit safe operating area

V

CE

= 360 V; V

GE

= ±15 V; T

VJ

= 125°C

R

G

= 68 W; t

p

= 10 µs; non-repetitive

65 A

R

thJC

R

thCH

thermal resistance junction to case

thermal resistance case to heatsink

(per IGBT)

0.55

1.6 K/W

K/W

T

C

= 25°C unless otherwise stated

3 - 7

20070531a

MIAA15WD600TMH

IXYS reserves the right to change limits, test conditions and dimensions.

Advanced Technical Information

Input Rectiﬁer Bridge D8 - D11

Ratings

Symbol Deﬁnitions Conditions min. typ. max. Unit

V

RRM

max. repetitive reverse voltage

T

VJ

= 25°C 1600 V

I

FAV

I

DAVM

average forward current

max. average DC output current

sine 180° T

C

= 80°C

rect.; d = ½ T

C

= 80°C

39

42

A

I

FSM

max. forward surge current

t = 10 ms; sine 50 Hz T

VJ

= 25°C

T

VJ

= 125°C

550

tbd

A

I

2

t

I

2

t value for fusing

t = 10 ms; sine 50 Hz T

VJ

= 25°C

T

VJ

= 125°C

1270

tbd

A

2

s

A

2

s

P

tot

total power dissipation

T

C

= 25°C 100 W

V

F

forward voltage

I

F

= 30 A T

VJ

= 25°C

T

VJ

= 125°C

1.2

1.3

1.5 V

V

I

R

reverse current

V

R

= V

RRM

T

VJ

= 25°C

T

VJ

= 125°C 0.3

0.03 mA

mA

R

thJC

R

thCH

thermal resistance junction to case

thermal resistance case to heatsink

(per diode)

(per diode) 0.4

1.2 K/W

K/W

Temperature Sensor NTC

Ratings

Symbol Deﬁnitions Conditions min. typ. max. Unit

R

25

B

25/50

resistance

T

C

= 25°C 4.75 5.0

3375

5.25

kW

K

Module

Ratings

Symbol Deﬁnitions Conditions min. typ. max. Unit

T

VJ

T

VJM

T

stg

operating temperature

max. virtual junction temperature

storage temperature

-40

125

150

125

°C

V

ISOL

isolation voltage

I

ISOL

< 1 mA; 50/60 Hz 2500 V~

CTI

comparative tracking index

-

F

C

mounting force

40 80 N

d

S

d

A

creep distance on surface

strike distance through air

12.7

12

mm

Weight

35 g

Equivalent Circuits for Simulation

Ratings

Symbol Deﬁnitions Conditions min. typ. max. Unit

V

0

R

0

rectiﬁer diode

D8 - D11 T

VJ

= 125°C 0.9

6

V

mW

V

0

R

0

IGBT

T1 - T6 T

VJ

= 125°C 1.15

77

V

mW

V

0

R

0

free wheeling diode

D1 - D6 T

VJ

= 125°C 1.05

30

V

mW

I

V

0

R

0

T

C

= 25°C unless otherwise stated

MIAA15WD600TMH

MIAA15WD600TMH

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