10-PZ06NIA075SA-P926F33Y

datasheet

flowNPC 0 IGBT

600 V / 75 A

Topology features

flow 0 12 mm housing

● Kelvin Emitter for improved switching performance

● Neutral Point Clamped Topology (I-Type)

● Temperature sensor

Component features

● Easy paralleling

● Low turn-off losses

● Low collector emitter saturation voltage

● Positive temperature coefficient

● Short tail current

Schematic

Housing features

● Base isolation: Al₂O₃

● Clip-in, reliable mechanical connection, qualified for wave

soldering

● Convex shaped substrate for superior thermal contact

● Thermo-mechanical push-and-pull force relief

● Press-fit pin

● Reliable cold welding connection

Target applications

● UPS

● Solar

Types

● 10-PZ06NIA075SA-P926F33Y

Copyright Vincotech

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31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Maximum Ratings

T_j= 25 °C, unless otherwise specified

Parameter

Symbol

Conditions

Value

Unit

Buck Switch

V_CES

Collector-emitter voltage

600

64

V

A

I_C

Collector current (DC current)

Repetitive peak collector current

Total power dissipation

T_j= T_jmax

T_s= 80 °C

T_j= 150 °C

I_CRM

t_plimited by T_jmax

T_j= T_jmax

225

112

±20

6

A

P_tot

W

V

V_GES

Gate-emitter voltage

t_SC

Short circuit ratings

V_GE= 15 V, V_CC= 360 V

µs

°C

T_jmax

Maximum junction temperature

175

Buck Diode

V_RRM

Peak repetitive reverse voltage

600

66

V

A

I_F

Forward current (DC current)

Repetitive peak forward current

Total power dissipation

T_j= T_jmax

T_s= 80 °C

I_FRM

t_plimited by T_jmax

T_j= T_jmax

150

87

A

P_tot

W

°C

T_jmax

Maximum junction temperature

175

Boost Switch

V_CES

Collector-emitter voltage

600

64

V

A

I_C

Collector current (DC current)

Repetitive peak collector current

Total power dissipation

T_j= T_jmax

T_s= 80 °C

T_j= 150 °C

I_CRM

t_plimited by T_jmax

T_j= T_jmax

225

112

±20

6

A

P_tot

W

V

V_GES

Gate-emitter voltage

t_SC

Short circuit ratings

V_GE= 15 V, V_CC= 360 V

µs

°C

T_jmax

Maximum junction temperature

175

Copyright Vincotech

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31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Maximum Ratings

T_j= 25 °C, unless otherwise specified

Parameter

Symbol

Conditions

Value

Unit

Boost Diode

V_RRM

Peak repetitive reverse voltage

600

66

V

A

I_F

Forward current (DC current)

Repetitive peak forward current

Total power dissipation

T_j= T_jmax

T_s= 80 °C

I_FRM

t_plimited by T_jmax

T_j= T_jmax

150

87

A

P_tot

W

°C

T_jmax

Maximum junction temperature

175

Boost Sw. Inv. Diode

V_RRM

Peak repetitive reverse voltage

600

66

V

A

I_F

Forward current (DC current)

Repetitive peak forward current

Total power dissipation

T_j= T_jmax

T_s= 80 °C

I_FRM

t_plimited by T_jmax

T_j= T_jmax

150

87

A

P_tot

W

°C

T_jmax

Maximum junction temperature

175

Module Properties

Thermal Properties

T_stg

T_jop

Storage temperature

-40…+125

°C

Operation temperature under switching

condition

-40…+(T_jmax- 25)

Isolation Properties

Isolation voltage

Creepage distance

Clearance

V_isol

DC Test Voltage*

AC Voltage

t_p= 2 s

6000

2500

>12,7

9

V

t_p= 1 min

V

mm

Comparative Tracking Index

*100 % tested in production

CTI

≥ 200

Copyright Vincotech

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31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Characteristic Values

Symbol

Parameter

Conditions

Values

Typ

Unit

V_CE[V] I_C[A]

V_DS[V] I_D[A] T_j[°C]

V_GE[V]

V_GS[V]

Min

Max

V_F[V]

I_F[A]

Buck Switch

Static

V_GE(th)

Gate-emitter threshold voltage

V_CE= V_GE

0,0012

75

25

5

5,8

6,5

V

25

1,05

1,58

1,78

1,82

1,85⁽¹⁾

V_CEsat

Collector-emitter saturation voltage

15

125

150

I_CES

I_GES

r_g

Collector-emitter cut-off current

Gate-emitter leakage current

Internal gate resistance

Input capacitance

0

600

0

25

3,8

µA

nA

Ω

20

600

None

4620

288

C_ies

C_oes

C_res

Q_g

pF

nC

Output capacitance

Reverse transfer capacitance

Gate charge

f = 1 Mhz

0

25

137

V_CC= 480 V

15

75

470

Thermal

λ_paste= 3,4 W/mK

(PSX)

(2)

R_th(j-s)

Thermal resistance junction to sink

Dynamic

0,85

K/W

25

144,2

145

t_d(on)

Turn-on delay time

Rise time

ns

125

25

17

t_r

125

25

21,2

R_gon= 8 Ω

R_goff= 8 Ω

207,2

228,4

103,96

123,58

1,48

t_d(off)

Turn-off delay time

Fall time

ns

125

25

±15

350

75

t_f

ns

125

25

Q_rFWD=3,22 µC

Q_rFWD=6,01 µC

E_on

E_off

Turn-on energy (per pulse)

Turn-off energy (per pulse)

mWs

125

25

1,88

2,04

125

2,58

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10-PZ06NIA075SA-P926F33Y

datasheet

Characteristic Values

Symbol

Parameter

Conditions

Values

Typ

Unit

V_CE[V] I_C[A]

V_DS[V] I_D[A] T_j[°C]

V_GE[V]

V_GS[V]

Min

Max

V_F[V]

I_F[A]

Buck Diode

Static

25

1,2

1,46

1,42

1,4

1,9⁽¹⁾

V_F

I_R

Forward voltage

75

125

150

V

Reverse leakage current

Thermal

V_r= 600 V

25

27

µA

λ_paste= 3,4 W/mK

(PSX)

(2)

R_th(j-s)

Thermal resistance junction to sink

Dynamic

1,09

K/W

25

69,66

80,94

133,67

264,69

3,22

I_RM

Peak recovery current

Reverse recovery time

Recovered charge

A

125

25

t_rr

ns

125

25

di/dt=4853 A/µs

di/dt=3998 A/µs

Q_r

±15

350

75

μC

125

25

6,01

0,639

1,32

E_rec

Reverse recovered energy

Peak rate of fall of recovery current

mWs

A/µs

125

25

5313

(di_rf/dt)_max

125

3017

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31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Characteristic Values

Symbol

Parameter

Conditions

Values

Typ

Unit

V_CE[V] I_C[A]

V_DS[V] I_D[A] T_j[°C]

V_GE[V]

V_GS[V]

Min

Max

V_F[V]

I_F[A]

Boost Switch

Static

V_GE(th)

Gate-emitter threshold voltage

V_CE= V_GE

0,0012

75

25

5

5,8

6,5

V

25

1,05

1,58

1,78

1,82

1,85⁽¹⁾

V_CEsat

Collector-emitter saturation voltage

15

125

150

I_CES

I_GES

r_g

Collector-emitter cut-off current

Gate-emitter leakage current

Internal gate resistance

Input capacitance

0

600

0

25

3,8

µA

nA

Ω

20

600

None

4620

288

C_ies

C_oes

C_res

Q_g

pF

nC

Output capacitance

Reverse transfer capacitance

Gate charge

f = 1 Mhz

0

25

137

V_CC= 480 V

15

75

470

Thermal

λ_paste= 3,4 W/mK

(PSX)

(2)

R_th(j-s)

Thermal resistance junction to sink

Dynamic

0,85

K/W

25

141,8

143,2

21

t_d(on)

Turn-on delay time

Rise time

ns

125

25

t_r

125

25

23,6

R_gon= 8 Ω

R_goff= 8 Ω

206,4

227,4

89,63

111,69

1,3

t_d(off)

Turn-off delay time

Fall time

ns

125

25

±15

350

75

t_f

ns

125

25

Q_rFWD=3,5 µC

Q_rFWD=5,76 µC

E_on

E_off

Turn-on energy (per pulse)

Turn-off energy (per pulse)

mWs

125

25

1,68

2,15

125

2,75

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31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Characteristic Values

Symbol

Parameter

Conditions

Values

Typ

Unit

V_CE[V] I_C[A]

V_DS[V] I_D[A] T_j[°C]

V_GE[V]

V_GS[V]

Min

Max

V_F[V]

I_F[A]

Boost Diode

Static

25

1,2

1,46

1,42

1,4

1,9⁽¹⁾

V_F

I_R

Forward voltage

75

125

150

V

Reverse leakage current

Thermal

V_r= 600 V

25

27

µA

λ_paste= 3,4 W/mK

(PSX)

(2)

R_th(j-s)

Thermal resistance junction to sink

Dynamic

1,09

K/W

25

60,12

69,02

133,97

167,81

3,5

I_RM

Peak recovery current

Reverse recovery time

Recovered charge

A

125

25

t_rr

ns

125

25

di/dt=4515 A/µs

di/dt=4247 A/µs

Q_r

±15

350

75

μC

125

25

5,76

0,851

1,42

E_rec

Reverse recovered energy

Peak rate of fall of recovery current

mWs

A/µs

125

25

2711

341,4

(di_rf/dt)_max

125

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31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Characteristic Values

Symbol

Parameter

Conditions

Values

Typ

Unit

V_CE[V] I_C[A]

V_DS[V] I_D[A] T_j[°C]

V_F[V] I_F[A]

V_GE[V]

V_GS[V]

Min

Max

Boost Sw. Inv. Diode

Static

25

1,2

1,46

1,42

1,4

1,9⁽¹⁾

V_F

I_R

Forward voltage

75

125

150

V

Reverse leakage current

V_r= 600 V

25

27

µA

Thermal

λ_paste= 3,4 W/mK

(PSX)

(2)

R_th(j-s)

Thermal resistance junction to sink

1,09

K/W

Thermistor

Static

R

Δ_R/R

P

Rated resistance

Deviation of R₁₀₀

Power dissipation

Power dissipation constant

B-value

25

22

kΩ

%

R₁₀₀= 1484 Ω

100

25

-5

5

130

1,5

mW

mW/K

K

d

25

B_(25/50)

Tol. ±1 %

3962

4000

B_(25/100)

B-value

K

Vincotech Thermistor Reference

I

(1)

Value at chip level

(2)

Only valid with pre-applied Vincotech thermal interface material.

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31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Buck Switch Characteristics

figure 1.

IGBT

figure 2.

IGBT

Typical output characteristics

I_C= f(V_CE

)

I_C= f(V_CE)

200

V_GE

:

7 V

8 V

9 V

10 V

11 V

12 V

13 V

14 V

15 V

16 V

17 V

150

100

50

150

100

50

0

1

2

3

4

5

0

1

2

3

4

5

V

_CE(V)

V_CE(V)

t_p

=

t_p

=

250

15

μs

V

250

150

μs

°C

25 °C

V_GE

T_j=

125 °C

150 °C

T_j:

V_GEfrom 7 V to 17 V in steps of 1 V

figure 3.

IGBT

figure 4.

IGBT

Typical transfer characteristics

Transient thermal impedance as a function of pulse width

I_C= f(V_GE

)

Z_th(j-s)= f(t_p)

0

70

10

60

50

40

30

20

10

-1

10

-2

10

0,5

0,2

0,1

-3

10

0,05

0,02

0,01

0,005

0

-4

0

10

-5

-4

10

-3

10

-2

10

-1

10

0

10

1

10

2

4

6

8

10

t_p(s)

V

_GE(V)

t_p

V_CE

=

250

10

μs

V

D =

t_p/ T

0,851

25 °C

125 °C

150 °C

R_th(j-s)=

T_j:

K/W

IGBT thermal model values

R (K/W)

τ (s)

6,06E-02

1,16E-01

4,51E-01

1,42E-01

5,26E-02

2,79E-02

2,36E+00

4,40E-01

9,55E-02

2,48E-02

5,75E-03

5,60E-04

Copyright Vincotech

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31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Buck Switch Characteristics

figure 5.

IGBT

Safe operating area

I_C= f(V_CE

)

1000

100

10

100µs

1ms

10ms

1

100ms

DC

0,1

0,01

1

10

100

1000

10000

V

_CE(V)

D =

single pulse

T_s=

80

15

°C

V

V_GE

=

T_j=

T_jmax

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datasheet

Buck Diode Characteristics

figure 6.

FWD

figure 7.

FWD

Typical forward characteristics

Transient thermal impedance as a function of pulse width

I_F= f(V_F)

Z_th(j-s)= f(t_p)

1

200

150

100

50

10

0

10

-1

10

0,5

0,2

0,1

-2

10

0,05

0,02

0,01

0,005

0

-3

0

0,0

10

-5

-4

10

-3

10

-2

10

-1

10

0

1

2

0,5

1,0

1,5

2,0

2,5

10

t_p(s)

V_F(V)

t_p

=

250

μs

D =

t_p/ T

1,088

25 °C

125 °C

150 °C

R_th(j-s)=

T_j:

K/W

FWD thermal model values

R (K/W)

τ (s)

7,90E-02

1,75E-01

6,03E-01

1,61E-01

7,01E-02

2,56E+00

3,30E-01

6,52E-02

8,53E-03

6,48E-04

Copyright Vincotech

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31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Boost Switch Characteristics

figure 8.

IGBT

figure 9.

IGBT

Typical output characteristics

I_C= f(V_CE

)

I_C= f(V_CE)

200

V_GE

:

7 V

8 V

9 V

10 V

11 V

12 V

13 V

14 V

15 V

16 V

17 V

150

100

50

150

100

50

0

1

2

3

4

5

0

1

2

3

4

5

V

_CE(V)

V_CE(V)

t_p

=

t_p

=

250

15

μs

V

250

150

μs

°C

25 °C

V_GE

T_j=

125 °C

150 °C

T_j:

V_GEfrom 7 V to 17 V in steps of 1 V

figure 10.

IGBT

figure 11.

IGBT

Typical transfer characteristics

Transient thermal impedance as a function of pulse width

I_C= f(V_GE

)

Z_th(j-s)= f(t_p)

0

70

10

60

50

40

30

20

10

-1

10

-2

10

0,5

0,2

0,1

-3

10

0,05

0,02

0,01

0,005

0

-4

0

10

-5

-4

10

-3

10

-2

10

-1

10

0

10

1

10

2

4

6

8

10

t_p(s)

V

_GE(V)

t_p

V_CE

=

250

10

μs

V

D =

t_p/ T

0,851

25 °C

125 °C

150 °C

R_th(j-s)=

T_j:

K/W

IGBT thermal model values

R (K/W)

τ (s)

6,06E-02

1,16E-01

4,51E-01

1,42E-01

5,26E-02

2,79E-02

2,36E+00

4,40E-01

9,55E-02

2,48E-02

5,75E-03

5,60E-04

Copyright Vincotech

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datasheet

Boost Switch Characteristics

figure 12.

IGBT

Safe operating area

I_C= f(V_CE

)

1000

100

10

100µs

1ms

10ms

1

100ms

DC

0,1

0,01

1

10

100

1000

10000

V

_CE(V)

D =

single pulse

T_s=

80

15

°C

V

V_GE

=

T_j=

T_jmax

Copyright Vincotech

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31 Jul. 2022 / Revision 2

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datasheet

Boost Diode Characteristics

figure 13.

FWD

figure 14.

FWD

Typical forward characteristics

Transient thermal impedance as a function of pulse width

I_F= f(V_F)

Z_th(j-s)= f(t_p)

1

200

150

100

50

10

0

10

-1

10

0,5

0,2

0,1

-2

10

0,05

0,02

0,01

0,005

0

-3

0

0,0

10

-5

-4

10

-3

10

-2

10

-1

10

0

1

2

0,5

1,0

1,5

2,0

2,5

10

t_p(s)

V_F(V)

t_p

=

250

μs

D =

t_p/ T

1,088

25 °C

125 °C

150 °C

R_th(j-s)=

T_j:

K/W

FWD thermal model values

R (K/W)

τ (s)

7,90E-02

1,75E-01

6,03E-01

1,61E-01

7,01E-02

2,56E+00

3,30E-01

6,52E-02

8,53E-03

6,48E-04

Copyright Vincotech

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datasheet

Boost Sw. Inv. Diode Characteristics

figure 15.

FWD

figure 16.

FWD

Typical forward characteristics

Transient thermal impedance as a function of pulse width

I_F= f(V_F)

Z_th(j-s)= f(t_p)

1

200

150

100

50

10

0

10

-1

10

0,5

0,2

0,1

-2

10

0,05

0,02

0,01

0,005

0

-3

0

0,0

10

-5

-4

10

-3

10

-2

10

-1

10

0

1

2

0,5

1,0

1,5

2,0

2,5

10

t_p(s)

V_F(V)

t_p

=

250

μs

D =

t_p/ T

1,088

25 °C

125 °C

150 °C

R_th(j-s)=

T_j:

K/W

FWD thermal model values

R (K/W)

τ (s)

7,90E-02

1,75E-01

6,03E-01

1,61E-01

7,01E-02

2,56E+00

3,30E-01

6,52E-02

8,53E-03

6,48E-04

Copyright Vincotech

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datasheet

Thermistor Characteristics

figure 17.

Thermistor

Typical NTC characteristic as function of temperature

R_T= f(T)

25000

20000

15000

10000

5000

0

20

40

60

80

100

120

140

T(°C)

Copyright Vincotech

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datasheet

Buck Switching Characteristics

figure 18.

IGBT

figure 19.

IGBT

Typical switching energy losses as a function of collector current

Typical switching energy losses as a function of IGBT turn on gate resistor

E = f(I_C)

E = f(R_g)

4,5

4,0

3,5

3,0

2,5

2,0

1,5

1,0

0,5

0,0

6

5

4

3

2

1

0

E_on

E_off

E_on

E_off

E_on

E_off

0

25

50

75

100

125

150

I_C(A)

0

5

10

15

20

25

30

35

R_g(Ω)

With an inductive load at

25 °C

T_j:

V_CE

V_GE

=

V_CE

V_GE

I_C

=

350

±15

8

V

Ω

125 °C

350

±15

75

V

125 °C

V

A

R_gon

R_goff

8

figure 20.

FWD

figure 21.

FWD

Typical reverse recovered energy loss as a function of collector current

Typical reverse recovered energy loss as a function of IGBT turn on gate resistor

E_rec= f(I_C)

E_rec= f(R_g)

2,25

2,00

1,75

1,50

1,25

1,00

0,75

0,50

0,25

0,00

1,75

1,50

1,25

1,00

0,75

0,50

0,25

0,00

E_rec

0

25

50

75

100

125

150

I_C(A)

0

5

10

15

20

25

30

35

R_g(Ω)

With an inductive load at

25 °C

T_j:

V_CE

V_GE

R_gon

=

V_CE

V_GE

I_C

=

350

±15

8

V

Ω

125 °C

350

±15

75

V

A

125 °C

Copyright Vincotech

17

31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Buck Switching Characteristics

figure 22.

IGBT

figure 23.

IGBT

Typical switching times as a function of collector current

Typical switching times as a function of IGBT turn on gate resistor

t = f(I_C)

t = f(R_g)

0

10

0

10

t_d(off)

t_d(on)

t_d(off)

t_d(on)

t_f

-1

10

-1

10

t_r

t_f

t_r

-2

10

-2

10

-3

10

-3

10

0

25

50

75

100

125

150

I_C(A)

0

5

10

15

20

25

30

35

R_g(Ω)

With an inductive load at

T_j=

125

350

±15

8

°C

V

125

350

±15

75

°C

V_CE

=

V_CE

=

V

A

V_GE

R_gon

R_goff

V_GE

I_C

V

Ω

8

figure 24.

FWD

figure 25.

FWD

Typical reverse recovery time as a function of collector current

Typical reverse recovery time as a function of IGBT turn on gate resistor

t_rr= f(I_C)

t_rr= f(R_gon)

0,35

0,30

0,25

0,20

0,15

0,10

0,05

0,00

0,40

0,35

0,30

0,25

0,20

0,15

0,10

0,05

0,00

t_rr

0

25

50

75

100

125

150

0

5

10

15

20

25

30

35

I_C(A)

R_gon(Ω)

With an inductive load at

25 °C

T_j:

V_CE

V_GE

R_gon

=

V_CE

V_GE

I_C

=

350

±15

8

V

Ω

125 °C

350

±15

75

V

A

125 °C

Copyright Vincotech

18

31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Buck Switching Characteristics

figure 26.

FWD

figure 27.

FWD

Typical recovered charge as a function of collector current

Typical recovered charge as a function of IGBT turn on gate resistor

Q_r= f(I_C)

Q_r= f(R_gon)

12

10

8

7

6

5

4

3

2

1

0

Q_r

6

Q_r

4

2

0

25

50

75

100

125

150

0

5

10

15

20

25

30

35

I_C(A)

R_gon(Ω)

With an inductive load at

25 °C

T_j:

V_CE

V_GE

R_gon

=

V_CE

V_GE

I_C

=

350

±15

8

V

Ω

125 °C

350

±15

75

V

125 °C

V

A

figure 28.

FWD

figure 29.

FWD

Typical peak reverse recovery current as a function of collector current

Typical peak reverse recovery current as a function of IGBT turn on gate resistor

I_RM= f(I_C)

I_RM= f(R_gon)

100

80

60

40

20

0

175

150

125

100

75

I_RM

50

I_RM

25

0

25

50

75

100

125

150

I_C(A)

0

5

10

15

20

25

30

35

R

_gon(Ω)

With an inductive load at

25 °C

T_j:

V_CE

V_GE

R_gon

=

V_CE

V_GE

I_C

=

350

±15

8

V

Ω

125 °C

350

±15

75

V

A

125 °C

Copyright Vincotech

19

31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Buck Switching Characteristics

figure 30.

FWD

figure 31.

FWD

Typical rate of fall of forward and reverse recovery current as a function of collector current

Typical rate of fall of forward and reverse recovery current as a function of turn on gate resistor

di_F/dt, di_rr/dt = f(I_C)

di_F/dt, di_rr/dt = f(R_gon)

7000

17500

15000

12500

10000

7500

5000

2500

0

di_F/dt ‒ ‒ ‒ ‒ ‒

di_rr/dt ──────

6000

5000

4000

3000

2000

1000

0

25

50

75

100

125

150

I_C(A)

0

5

10

15

20

25

30

35

R

_gon(Ω)

With an inductive load at

25 °C

T_j:

V_CE

V_GE

R_gon

=

V_CE

V_GE

I_C

=

350

±15

8

V

Ω

125 °C

350

±15

75

V

A

125 °C

figure 32.

IGBT

Reverse bias safe operating area

I_C= f(V_CE

)

175

I_{C MAX}

150

125

100

75

50

25

0

100

200

300

400

500

600

700

V

_CE(V)

T_j=

At

125

8

°C

R_gon

R_goff

=

Ω

8

Copyright Vincotech

20

31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Boost Switching Characteristics

figure 33.

IGBT

figure 34.

IGBT

Typical switching energy losses as a function of collector current

Typical switching energy losses as a function of IGBT turn on gate resistor

E = f(I_C)

E = f(R_g)

5

4

3

2

1

0

7

6

5

4

3

2

1

0

E_off

E_on

E_off

E_on

E_off

0

25

50

75

100

125

150

I_C(A)

0

5

10

15

20

25

30

35

R_g(Ω)

With an inductive load at

25 °C

T_j:

V_CE

V_GE

=

V_CE

V_GE

I_C

=

350

±15

8

V

Ω

125 °C

350

±15

75

V

125 °C

V

A

R_gon

R_goff

8

figure 35.

FWD

figure 36.

FWD

Typical reverse recovered energy loss as a function of collector current

Typical reverse recovered energy loss as a function of IGBT turn on gate resistor

E_rec= f(I_C)

E_rec= f(R_g)

2,5

2,0

1,5

1,0

0,5

0,0

2,25

2,00

1,75

1,50

1,25

1,00

0,75

0,50

0,25

0,00

E_rec

0

25

50

75

100

125

150

0

5

10

15

20

25

30

35

I_C(A)

R_g(Ω)

With an inductive load at

25 °C

T_j:

V_CE

V_GE

R_gon

=

V_CE

V_GE

I_C

=

350

±15

8

V

Ω

125 °C

350

±15

75

V

A

125 °C

Copyright Vincotech

21

31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Boost Switching Characteristics

figure 37.

IGBT

figure 38.

IGBT

Typical switching times as a function of collector current

Typical switching times as a function of IGBT turn on gate resistor

t = f(I_C)

t = f(R_g)

0

10

0

10

t_d(off)

t_d(on)

t_d(off)

t_d(on)

-1

10

-1

10

t_f

t_r

t_f

t_r

-2

10

-2

10

-3

10

-3

10

0

25

50

75

100

125

150

I_C(A)

0

5

10

15

20

25

30

35

R_g(Ω)

With an inductive load at

T_j=

125

350

±15

8

°C

V

125

350

±15

75

°C

V_CE

=

V_CE

=

V

A

V_GE

R_gon

R_goff

V_GE

I_C

V

Ω

8

figure 39.

FWD

figure 40.

FWD

Typical reverse recovery time as a function of collector current

Typical reverse recovery time as a function of IGBT turn on gate resistor

t_rr= f(I_C)

t_rr= f(R_gon)

0,35

0,30

0,25

0,20

0,15

0,10

0,05

0,00

0,40

0,35

0,30

0,25

0,20

0,15

0,10

0,05

0,00

t_rr

0

25

50

75

100

125

150

0

5

10

15

20

25

30

35

I_C(A)

R_gon(Ω)

With an inductive load at

25 °C

T_j:

V_CE

V_GE

R_gon

=

V_CE

V_GE

I_C

=

350

±15

8

V

Ω

125 °C

350

±15

75

V

A

125 °C

Copyright Vincotech

22

31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Boost Switching Characteristics

figure 41.

FWD

figure 42.

FWD

Typical recovered charge as a function of collector current

Typical recovered charge as a function of IGBT turn on gate resistor

Q_r= f(I_C)

Q_r= f(R_gon)

12

10

8

7

6

5

4

3

2

1

0

Q_r

6

Q_r

4

2

0

25

50

75

100

125

150

0

5

10

15

20

25

30

35

I_C(A)

R_gon(Ω)

With an inductive load at

25 °C

T_j:

V_CE

V_GE

R_gon

=

V_CE

V_GE

I_C

=

350

±15

8

V

Ω

125 °C

350

±15

75

V

125 °C

V

A

figure 43.

FWD

figure 44.

FWD

Typical peak reverse recovery current as a function of collector current

Typical peak reverse recovery current as a function of IGBT turn on gate resistor

I_RM= f(I_C)

I_RM= f(R_gon)

100

80

60

40

20

0

125

100

75

50

25

0

I_RM

0

25

50

75

100

125

150

0

5

10

15

20

25

30

35

I_C(A)

R_gon(Ω)

With an inductive load at

25 °C

T_j:

V_CE

V_GE

R_gon

=

V_CE

V_GE

I_C

=

350

±15

8

V

Ω

125 °C

350

±15

75

V

A

125 °C

Copyright Vincotech

23

31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Boost Switching Characteristics

figure 45.

FWD

figure 46.

FWD

Typical rate of fall of forward and reverse recovery current as a function of collector current

Typical rate of fall of forward and reverse recovery current as a function of turn on gate resistor

di_F/dt, di_rr/dt = f(I_C)

di_F/dt, di_rr/dt = f(R_gon)

6000

10000

8000

6000

4000

2000

0

di_F/dt ‒ ‒ ‒ ‒ ‒

di_rr/dt ──────

5000

4000

3000

2000

1000

0

25

50

75

100

125

150

I_C(A)

0

5

10

15

20

25

30

35

R

_gon(Ω)

With an inductive load at

25 °C

T_j:

V_CE

V_GE

R_gon

=

V_CE

V_GE

I_C

=

350

±15

8

V

Ω

125 °C

350

±15

75

V

A

125 °C

figure 47.

IGBT

Reverse bias safe operating area

I_C= f(V_CE

)

175

I_{C MAX}

150

125

100

75

50

25

0

100

200

300

400

500

600

700

V

_CE(V)

T_j=

At

125

8

°C

R_gon

R_goff

=

Ω

8

Copyright Vincotech

24

31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Switching Definitions

figure 48.

IGBT

figure 49.

IGBT

Turn-off Switching Waveforms & definition of t_doff, t_Eoff(t_tEoff= integrating time for E_off

)

Turn-on Switching Waveforms & definition of t_don, t_Eon(t_Eon= integrating time for E_on)

t_doff

%

V_{GE 90%}

V_{CE 90%}

I_C

V_GE

V_CE

t_don

t_Eoff

I_{C 1%}

V_{CE 3%}

V_CE

I_{C 10%}

V_{GE 10%}

t_Eon

t (µs)

figure 50.

IGBT

figure 51.

IGBT

Turn-off Switching Waveforms & definition of t_f

Turn-on Switching Waveforms & definition of t_r

fitted

%

I_C

I_{C 90%}

I_{C 60%}

V_CE

I_{C 90%}

I_{C 40%}

t_r

I_C10%

V_CE

C 10%

t_f

t (µs)

Copyright Vincotech

25

31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Switching Definitions

figure 52.

FWD

figure 53.

FWD

Turn-off Switching Waveforms & definition of t_rr

Turn-on Switching Waveforms & definition of t_Qr(t_Qr= integrating time for Q_r)

%

Q_r

t_rr

t_Qr

I_F

fitted

RRM 10%

V_F

RRM 90%

RRM 100%

t (µs)

Copyright Vincotech

26

31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Ordering Code

Version

Ordering Code

Without thermal paste

10-PZ06NIA075SA-P926F33Y

10-PZ06NIA075SA-P926F33Y-/7/

10-PZ06NIA075SA-P926F33Y-/3/

With thermal paste (5,2 W/mK, PTM6000HV)

With thermal paste (3,4 W/mK, PSX-P7)

Marking

Name

Date code

UL & VIN

Lot

Serial

Text

NN-NNNNNNNNNNNNNN-

TTTTTTVV

WWYY

UL VIN

LLLLL

SSSS

Type&Ver

Lot number

Serial

Date code

Datamatrix

TTTTTTTVV

LLLLL

SSSS

WWYY

Outline

Pin table [mm]

1

X

Y

Function

G2

33,6

30,8

22

0

2

0

S2

3

0

-DC

GND

S4

4

19,2

10,1

2,8

0

5

0

6

0

7

0

G4

8

0

7,1

9,9

12,7

15,5

22,6

14,8

8,2

Line

G3

9

0

10

11

12

13

14

15

16

17

18

19

20

21

22

0

2,8

10,1

19,2

22

S3

GND

+DC

S1

30,8

33,6

G1

NTC1

NTC2

not assembled

Copyright Vincotech

27

31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Pinout

DC+

15,16

T1

D1

G1

18

S1

17

T3

T4

D3

D5

D6

G3

12

S3

13

GND

5,14

Line

8,9,10,11

D4

G4

7

S4

6

T2

NTC

D2

G2

1

S2

2

NTC1

19

NTC2

20

DC-

3,4

Identification

Component

Voltage

Current

Function

Comment

ID

T1, T2

D5, D6

T3, T4

D2, D1

D4, D3

NTC

IGBT

FWD

600 V

75 A

Buck Switch

Buck Diode

IGBT

Boost Switch

Boost Diode

FWD

Boost Sw. Inv. Diode

Thermistor

Copyright Vincotech

28

31 Jul. 2022 / Revision 2

10-PZ06NIA075SA-P926F33Y

datasheet

Packaging instruction

Handling instruction

Standard packaging quantity (SPQ) 135

>SPQ

Standard

<SPQ

Sample

Handling instructions for flow 0 packages see vincotech.com website.

Package data

Package data for flow 0 packages see vincotech.com website.

Vincotech thermistor reference

See Vincotech thermistor reference table at vincotech.com website.

UL recognition and file number

This device is certified according to UL 1557 standard, UL file number E192116. For more information see vincotech.com website.

Document No.:

Date:

Modification:

Pages

New Datasheet format, module is unchanged

Introduce Rth values with PSX-P7

10-PZ06NIA075SA-P926F33Y-D2-14

31 Jul. 2022

DISCLAIMER

The information, specifications, procedures, methods and recommendations herein (together “information”) are presented by Vincotech to

reader in good faith, are believed to be accurate and reliable, but may well be incomplete and/or not applicable to all conditions or situations

that may exist or occur. Vincotech reserves the right to make any changes without further notice to any products to improve reliability,

function or design. No representation, guarantee or warranty is made to reader as to the accuracy, reliability or completeness of said

information or that the application or use of any of the same will avoid hazards, accidents, losses, damages or injury of any kind to persons

or property or that the same will not infringe third parties rights or give desired results. It is reader’s sole responsibility to test and determine

the suitability of the information and the product for reader’s intended use.

LIFE SUPPORT POLICY

Vincotech products are not authorised for use as critical components in life support devices or systems without the express written approval

of Vincotech.

As used herein:

1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant into the body, or (b) support or

sustain life, or (c) whose failure to perform when properly used in accordance with instructions for use provided in labelling can be

reasonably expected to result in significant injury to the user.

2. A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause

the failure of the life support device or system, or to affect its safety or effectiveness.

Copyright Vincotech

29

31 Jul. 2022 / Revision 2


型号：	10-PZ06NIA075SA-P926F33Y
厂家：	VINCOTECH
描述：	Easy paralleling;Low turn-off losses;Low collector emitter saturation voltage;Positive temperature coefficient;Short tail current
文件：	总29页 (文件大小：8798K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

10-PZ06NIA075SA-P926F33Y [VINCOTECH]

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