MITB15WB1200TMH - Zilog

20100906a

MITB15WB1200TMH

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

Converter - Brake - Inverter

Module

Low Loss Trench IGBT

Three Phase

Rectiﬁer

Brake

Chopper

Three Phase

Inverter

VRRM = 1600 V VCES = 1200 V VCES = 1200 V

IDAVM25 = 90 A IC25 = 29 A IC25 = 29 A

IFSM = 300 A VCE(sat) = 1.7 V VCE(sat) = 1.7 V

Pin conﬁguration see outlines.

Features:

• High level of integration - only one

power semiconductor module required

for the whole drive

• Inverter with low loss Trench IGBTs

- very low saturation voltage

- positive temperature coefﬁcient

- 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)

MITB15WB1200TMH

E 72873

G1 G3 G5

G2 G4 G6

U V W

NTC1

NEU EV EW

P P1

D8 D12

D9 D13

NTC2

D1 D3 D5

D2 D4 D6

T1 T3 T5

T2 T4 T6

D10

D11

20100906a

MITB15WB1200TMH

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

Output Inverter D1 - D6

Ratings

Symbol Deﬁnitions Conditions min. typ. max. Unit

VRRM max. repetitve reverse voltage TVJ = 150°C 1200 V

IF25

IF80

forward current TC = 25°C

TC = 80°C

VFforward voltage IF = 15 A; VGE = 0 V TVJ = 25°C

TVJ = 125°C

2.3

1.9

2.7 V

Qrr

IRM

trr

Erec

reverse recovery charge

max. reverse recovery current

reverse recovery time

reverse recovery energy

VR = 600 V

diF /dt = -420 A/µs TVJ = 125°C

IF = 15 A; VGE = 0 V

2.3

19.6

330

0.68

µC

RthJC

RthCH

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

VCES collector emitter voltage TVJ = 150°C 1200 V

VGES

VGEM

max. DC gate voltage

max. transient collector gate voltage

continuous

transient

±20

±30

IC25

IC80

collector current TC = 25°C

TC = 80°C

Ptot total power dissipation TC = 25°C 100 W

VCE(sat) collector emitter saturation voltage IC = 15 A; VGE = 15 V TVJ = 25°C

TVJ = 125°C

1.7

2.0

2.2 V

VGE(th) gate emitter threshold voltage IC = 0.5 mA; VGE = VCE TVJ = 25°C 5 5.5 6.5 V

ICES collector emitter leakage current VCE = VCES; VGE = 0 V TVJ = 25°C

TVJ = 125°C 0.8

0.6 mA

IGES gate emitter leakage current VGE = ±20 V 150 nA

Cies input capacitance VCE = 25 V; VGE = 0 V; f = 1 MHz 1100 pF

QG(on) total gate charge VCE = 600 V; VGE = 15 V; IC = 15 A 92 nC

td(on)

td(off)

Eon

Eoff

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 TVJ = 25°C

VCE = 600 V; IC = 15 A

VGE = ±15 V; RG = 75 W

320

200

1.2

1.3

td(on)

td(off)

Eon

Eoff

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 TVJ = 125°C

VCE = 600 V; IC = 15 A

VGE = ±15 V; RG = 75 W

360

340

1.7

RBSOA reverse bias safe operating area

= ±15 V; R

= 75 W; I

= 30 A;

TVJ = 125°C VCEK < VCES-LS·dI /dt V

ISC

(SCSOA)

short circuit safe operating area VCE = 720 V; VGE = ±15 V; TVJ = 125°C

RG = 75 W; tp = 10 µs; non-repetitive

68 A

RthJC

RthCH

thermal resistance junction to case

thermal resistance case to heatsink

(per IGBT)

0.4

1.2 K/W

K/W

TC = 25°C unless otherwise stated

20100906a

MITB15WB1200TMH

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

Brake T7

Ratings

Symbol Deﬁnitions Conditions min. typ. max. Unit

VCES collector emitter voltage TVJ = 150°C 1200 V

VGES

VGEM

max. DC gate voltage

max. transient collector gate voltage

continuous

transient

±20

±30

IC25

IC80

collector current TC = 25°C

TC = 80°C

Ptot total power dissipation TC = 25°C 100 W

VCE(sat) collector emitter saturation voltage IC = 15 A; VGE = 15 V TVJ = 25°C

TVJ = 125°C

1.7

2.0

2.2 V

VGE(th) gate emitter threshold voltage IC = 0.5 mA; VGE = VCE TVJ = 25°C 5 5.5 6.5 V

ICES collector emitter leakage current VCE = VCES; VGE = 0 V TVJ = 25°C

TVJ = 125°C 0.8

0.6 mA

IGES gate emitter leakage current VGE = ±20 V 150 nA

Cies input capacitance VCE = 25 V; VGE = 0 V; f = 1 MHz 1100 pF

QG(on) total gate charge VCE = 600 V; VGE = 15 V; IC = 15 A 92 nC

td(on)

td(off)

Eon

Eoff

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 TVJ = 25°C

VCE = 600 V; IC = 15 A

VGE = ±15 V; RG = 75 W

320

200

1.0

1.3

td(on)

td(off)

Eon

Eoff

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 TVJ = 125°C

VCE = 600 V; IC = 15 A

VGE = ±15 V; RG = 75 W

360

340

1.6

1.7

RBSOA reverse bias safe operating area

= ±15 V; R

= 75 W; I

= 30 A;

TVJ = 125°C VCEK < VCES-LS·dI /dt V

ISC

(SCSOA)

short circuit safe operating area VCE = 720 V; VGE = ±15 V; TVJ = 125°C

RG = 75 W; tp = 10 µs; non-repetitive

68 A

RthJC

RthCH

thermal resistance junction to case

thermal resistance case to heatsink

(per IGBT)

0.4

1.2 K/W

K/W

Brake Chopper D7

Ratings

Symbol Deﬁnitions Conditions min. typ. max. Unit

VRRM max. repetitive reverse voltage TVJ = 150°C 1200 V

IF25

IF80

forward current TC = 25°C

TC = 80°C

VFforward voltage IF = 15 A; VGE = 0 V TVJ = 25°C

TVJ = 125°C

3.0

2.4

3.3 V

IRreverse current VR = VRRM TVJ = 25°C

TVJ = 125°C 0.2

0.1 mA

Qrr

IRM

trr

Erec

reverse recovery charge

max. reverse recovery current

reverse recovery time

reverse recovery energy

VR = 600 V

diF /dt = tbd A/µs TVJ = 125°C

IF = 10 A; VGE = 0 V

tbd

µC

µJ

RthJC

RthCH

thermal resistance junction to case

thermal resistance case to heatsink

(per diode)

0.85

2.5 K/W

K/W

TC = 25°C unless otherwise stated

20100906a

MITB15WB1200TMH

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

Input Rectiﬁer Bridge D8 - D11

Ratings

Symbol Deﬁnitions Conditions min. typ. max. Unit

VRRM max. repetitive reverse voltage TVJ = 25°C 1600 V

IFAV

IDAVM

average forward current

max. average DC output current

sine 180° TC = 80°C

rect.; d = 1/3 TC = 80°C

IFSM max. forward surge current t = 10 ms; sine 50 Hz TVJ = 25°C

TVJ = 125°C

300

tbd

I2tI2t value for fusing t = 10 ms; sine 50 Hz TVJ = 25°C

TVJ = 125°C

450

tbd

A2s

Ptot total power dissipation TC = 25°C 50 W

VFforward voltage IF = 30 A TVJ = 25°C

TVJ = 125°C

1.35

1.6 V

IRreverse current VR = VRRM TVJ = 25°C

TVJ = 125°C 0.3

0.01 mA

RthJC

RthCH

thermal resistance junction to case

thermal resistance case to heatsink

(per diode)

(per diode) 0.7

2.1 K/W

K/W

Temperature Sensor NTC

Ratings

Symbol Deﬁnitions Conditions min. typ. max. Unit

R25

B25/50

resistance TC = 25°C 4.75 5.0

3375

5.25 kW

Module

Ratings

Symbol Deﬁnitions Conditions min. typ. max. Unit

TVJ

TVJM

Tstg

operating temperature

max. virtual junction temperature

storage temperature

-40

125

150

125

°C

VISOL isolation voltage IISOL < 1 mA; 50/60 Hz 2500 V~

CTI comparative tracking index -

FCmounting force 40 80 N

creep distance on surface

strike distance through air

12.7

Weight 35 g

Equivalent Circuits for Simulation

Ratings

Symbol Deﬁnitions Conditions min. typ. max. Unit

rectiﬁer diode D8 - D13 TVJ = 125°C 0.9

IGBT T1 - T6 TVJ = 125°C 1.0

free wheeling diode D1 - D6 TVJ = 125°C 1.15

IGBT T7 TVJ = 125°C 1.0

free wheeling diode D7 TVJ = 125°C 1.6

TC = 25°C unless otherwise stated

20100906a

MITB15WB1200TMH

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

Part number

M = Module

I = IGBT

T = Trench

A = Gen3 / low loss

10 = Current Rating [A]

WB = 6-Pack + 3~ Rectiﬁer Bridge & Brake Unit

1200 = Reverse Voltage [V]

T = NTC

MH = MiniPack2

Ordering Part Name Marking on Product Delivering Mode Base Qty Ordering Code

Standard MITB 15 WB 1200 TMH MITB15WB1200TMH Box 20 502893

Circuit Diagram

Outline Drawing Dimensions in mm (1 mm = 0.0394“)

40,6

55,9

12,4

25,6

26,6

39,6

45,6

Ø4

0,5

17 ±0,35

20,5 ±0,50

8,15 ±0,35

A ( 2 : 1 )

1,4

1,8

3,6

1,2

2,2

0,635

Pin positions with tolerance Ø 0.4

G1 G3 G5

G2 G4 G6

U V W

NTC1

NEU EV EW

P P1

D8 D12

D9 D13

NTC2

D1 D3 D5

D2 D4 D6

T1 T3 T5

T2 T4 T6

D10

D11

8,89

16,51

20,32

24,13

26,37

27,94

31,75

35,56

44,45

48,26

2,54

6,35

8,89

10,16

17,78

19,05

22,86

31,75

L1 L3

NTC1

G3 V

G1 U

G5 W

EW G6EV G4 EU G2

NTC2

Product Marking

20100906a

MITB15WB1200TMH

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

Typical output characteristics, VGE = 15 V Typical output characteristics (125°C)

Typical transfer characteristics Typical forward characteristics of freewheeling diode

0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5

Vce [V]

Ic [A]

25 °C

125 °C

0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0

Vce [V]

Ic [A]

Vge= 19V

Vge= 17V

Vge= 15V

Vge= 13V

Vge= 11V

Vge= 9V

5 6 7 8 9 10 11 12

Vge [V]

Ic [A]

25 °C

125 °C

0.0 0.5 1.0 1.5 2.0 2.5 3.0

Vf [V]

If [A]

25 °C

125 °C

20100906a

MITB15WB1200TMH

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

Typical turn on gate charge Typical switching energy versus collector current

Typical switching energy versus gate resistance Typical turn-off characteristics of free wheeling diode

0 10 20 30 40 50 60 70 80 90 100 110 120

Qg [nC]

Vge [[V]

Ic = 15A

Vce = 600V

0 5 10 15 20 25 30

Ic, If [A]

E [mJ]

Eon

Eoff

Erec

Vce = 600V

Vge = +/-15V

Rg = 75W

Tvj = 125°C

0 100 200 300 400 500 600

Rg [W]

E [mJ]

Eon

Eoff

Erec

Ic, If = 15A

Vce = 600V

Vge = +/-15V

Tvj = 125°C

560W

75W

270W

75W

560W

270W

100 150 200 250 300 350 400 450

dif/dt [A/µs]

Irr [A]

300

350

400

450

500

550

600

trr [ns]

Irr

trr

If = 15A

Vce = 600V

Vge = +/-15V

Tvj = 125°C

20100906a

MITB15WB1200TMH

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

100

1000

10000

100000

0 25 50 75 100 125 150

T [°C]

Rnom [ ]

Typical turn-off characteristics of free wheeling diode Typical forward characteristics of brake diode

Typical forward characteristics per rectiﬁer Typical thermistor resistance versus temperature

0.5

1.5

2.5

3.5

0 5 10 15 20 25 30 35

If [A]

Qrr [µC]

Vce = 600V

Vge = +/-15V

Rg = 75W

Tvj = 125°C

0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0

Vf [V]

If [A]

25 °C

125 °C

0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0

Vf [V]

If [A]

25 °C

125 °C