Mitsubishi Electric US, Inc RM600DG-130S Data Sheet

MITSUBISHI HIGH VOLTAGE DIODE MODULE

RM600DG-130S

High Voltage Diode Module

HIGH POWER SWITCHING USE

RM600DG-130S

● IF ...................................................................600A

● V

RRM ...................................................... 6500V

● High Insulated Type

● 2-element in a Pack

● AISiC Baseplate

APPLICATION

Traction drives, High Reliability Converters / Inverters, DC choppers

INSULATED TYPE

OUTLINE DRAWING & CIRCUIT DIAGRAM Dimensions in mm

130

>PET+PBT<

57

±0.5

±0.25

57

±0.25

42

3

61.2

±0.5

16.5

±0.3

1

4-M8 NUTS

±0.1

17

±0.5

±0.25

±0.3

44

140

124

6-φ7 MOUNTING HOLES

Screwing depth
min. 16.5

+1.0

0

±0.15

48

5

40.4

±0.5

±0.3

22

34.4

±0.5

(K)

4

3

CIRCUIT DIAGRAM

2

(K)

(A)

1

(A)

High Voltage Diode Module

May 2009

1

MITSUBISHI HIGH VOLTAGE DIODE MODULE

RM600DG-130S

HIGH POWER SWITCHING USE

High Voltage Diode Module

MAXIMUM RATINGS

Symbol Item Conditions UnitRatings

T

j = –40 °C
j = +25 °C

T
T

j = +125 °C
j = –40 °C

T
T

j = +25 °C
j = +125 °C

T
T

j = 25 °C

T

C = 25 °C
j = 25 °C start, tw = 8.3 ms

T
Half sign wave

j = 25 °C start, tw = 8.3 ms

T
Half sign wave
Charged part to the baseplate
RMS sinusoidal, 60Hz 1min.
RMS sinusoidal, 60Hz, Q

PD ≤ 10PC

—
—
—

10200

–40 ~ +150
–40 ~ +125
–40 ~ +125

RRM

V

VRSM

VR(DC)
IF

IFSM

I2t

iso

V

Ve
Tj
Top
Tstg

Repetitive peak reverse
voltage

Non-repetitive peak reverse
voltage

Reverse DC voltage
DC forward current

Surge forward current

Current-squared, time
integration

Isolation voltage

Partial discharge extinction voltage
Junction temperature
Operating temperature
Storage temperature

INSULATED TYPE

5800
6300
6500
5800
6300
6500
4500

600

4800

96

5100

kA

°C
°C
°C

V

V

V
A

A

2

s

V

V

ELECTRICAL CHARACTERISTICS

Symbol

RRM

I

VFM

trr
Irr
Qrr
Erec

Note 1. It doesn't include the voltage drop by internal lead resistance.

Repetitive reverse current

Forward voltage (Note 1)

Reverse recovery time
Reverse recovery current
Reverse recovery charge
Reverse recovery energy (Note 2)

2. E

rec is the integral of 0.1VR

Item Conditions

VRM = VRRM

IF = 600 A

VR = 3600 V, IF = 600 A
di/dt = –2000 A/µs

s=100nH, Tj = 125 °C

L

x

0.1Irr x dt.

T

j = 25 °C
j = 125 °C

T
T

j = 25 °C
j = 125 °C

T

Limits

Min Typ Max

—
—
—
—
—
—
—
—

—
10

4.00

3.60

1.0

1250

900

2.0

10
90
—
—
—
—
—
—

Unit

mA

V

µs

A

µC

J/P

High Voltage Diode Module

May 2009

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High Voltage Diode Module

THERMAL CHARACTERISTICS

Symbol Item Conditions

Rth(j-c)

Rth(c-f)

Thermal resistance

Contact thermal resistance

MECHANICAL CHARACTERISTICS

Symbol

t

M
Ms
m
CTI
D

a

Ds
LP CE
RCC’+EE’

Mounting torque

Mass
Comparative tracking index
Clearance
Creepage distance
Internal inductance
Internal lead resistance

Item Conditions

Junction to case
(per 1/2 module)
Case to Fin, λ

(c-f)=100µm, (per 1/2 module)

D

M8: Main terminals screw
M6: Mounting screw

Tc = 25 °C

grease = 1W/m·K

MITSUBISHI HIGH VOLTAGE DIODE MODULE

RM600DG-130S

HIGH POWER SWITCHING USE

INSULATED TYPE

Limits

Min Typ Max

—

—

Min Typ Max

7.0

3.0
—
—
—
—
—

—

600

26

56
—
—

—

16.0

Limits

—
—

1.0
—
—
—
44

0.27

22.0

—

15.0

6.0
—
—
—
—
—
—

Unit

K/kW

K/kW

Unit

N·m
N·m

kg

—
mm
mm

nH

mΩ

PERFORMANCE CURVES

FORWARD CHARACTERISTICS

1200

1000

(A)

F

800

600

400

FORWARD CURRENT I

200

0

01234567

FORWARD VOLTAGE VF (V) FORWARD CURRENT IF (A)

(TYPICAL)

Tj = 25°C

j

= 125°C

T

REVERSE RECOVERY ENERGY

CHARACTERISTICS

3.0
VR = 3600V, di/dt = 2000A/µs
T

j

= 125°C, LS = 100nH

2.5

(J/p)

rec

2.0

1.5

1.0

0.5

REVERSE RECOVERY ENERGY E

80200 400 600 800 1000 1200 1400

0

(TYPICAL)

High Voltage Diode Module

May 2009

3

High Voltage Diode Module

MITSUBISHI HIGH VOLTAGE DIODE MODULE

RM600DG-130S

HIGH POWER SWITCHING USE

INSULATED TYPE

REVERSE RECOVERY

CHARACTERISTICS

2

10

R

= 3600V, di/dt = 2000A/µs

V

7

T

j

= 125°C, LS = 100nH

5

3

2

1

10

7
5

3

2

0

10

7
5

REVERSE RECOVERY TIME trr (µs)NORMALIZED TRANSIENT THERMAL IMPEDANCE

3

2

-1

10

1

10

23 57 23 57 23 57

(TYPICAL)

2

10

10

Irr

trr

3

FORWARD CURRENT IF (A) REVERSE VOLTAGE VR (V)

10

10

10

10

10

REVERSE RECOVERY

SAFE OPERATING AREA

4

7
5

3

2

3

7
5

3

2

2

7
5

3

2

1

4

REVERSE RECOVERY CURRENT Irr (A)

1500

VR ≤ 4500V, di/dt ≤ 3000A/µs
T

j

= 125°C

1000

500

REVERSE RECOVERY CURRENT Irr (A)

0

0 2000 4000 6000 8000

(RRSOA)

TRANSIENT THERMAL IMPEDANCE

CHARACTERISTICS

1.2
R

th(j–c)

= 22K/kW

1.0

0.8

0.6

0.4

0.2

0

10

-3

23 57

10

-2

23 57

10

TIME (s)

-1

23 57

10

0

23 57

10





n

=

th( j –c )

Ri [K/kW]

[sec]

τ

i

( t )

ZR

1

Σ

i=1

0.0059

0.0002

i

1

1–exp

2

0.0978

0.0074





t

–





t

i

3

0.6571

0.0732

4

0.2392

0.4488

High Voltage Diode Module

May 2009

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