ROHM R6008ANX Technical data

Datasheet

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1/13

R6008ANX

Nch 600V 8A Power MOSFET

Switching Power Supply

a



Features



Application



Outline



Inner circuit



Packaging specifications

V

R

(Max.)

I

DS(on)

P

DSS

D

D

600V

0.8Ω
8A

50W

1) Low on-resistance.

2) Fast switching speed.

3) Gate-source voltage (V

) guaranteed to be ±30V.

GSS

4) Drive circuits can be simple.

5) Parallel use is easy.

6) Pb-free lead plating ; RoHS compliant

TO-220FM

Type

(1) (2) (3)

(1) Gate
(2) Drain
(3) Source

*1 Body Diode

Packing

Bulk
Reel size (mm)
Tape width (mm) ­Basic ordering unit (pcs)

500

-

Taping code
Marking



Absolute maximum ratings (T

Parameter

Drain - Source voltage

Continuous drain current

Pulsed drain current
Gate - Source voltage
Avalanche energy, single pulse
Avalanche energy, repetitive
Avalanche current 4
Power dissipation (Tc = 25°C)
Junction temperature

= 25°C)

T

= 25°C

c

Tc = 100°C

Symbol

V

DSS

*1

I

D

*1

I

D

I

D,pulse

V

GSS

*3

E

AS

*4

E

AR

*3

I

AR

P

D

T

j

Value

600

±8

±3.8

*2

±32
±30

4.3

3.4

50

150

-

R6008ANX

Unit

V
A
A
A

V
mJ
mJ

A

W

°C
Range of storage tem per ature
Reverse diode dv/dt

T

stg

*5

dv/dt

−55 to +150
15

°C

V/ns

2012.01 - Rev.C

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Data Sheet

R6008ANX

2/13







Absolute maximum ratings

Parameter

Symbol Conditions Values

Drain - Source voltage slope dv/dt

Thermal resistance

Parameter

Symbol

Thermal resistance, junction - cas e
Thermal resistance, junction - am bient
Soldering temperature, wavesoldering for 10s

Electrical characteristi cs (Ta = 25°C)

R
R

T

V
T

thJC

thJA

sold

= 480V, ID = 8A

DS

= 125°C

j

Min.

-

-

-

Values

Typ.

- 70

-

50

Max.

2.5-

265

Unit

V/ns

Unit

°C/W
°C/W

°C

Parameter

Drain - Source breakdown
voltage

Drain - Source avalanche
breakdown voltage

Zero gate voltage
drain current

Gate - Source leakage curr ent
Gate threshold voltage

Static drain - source
on - state resistance

V

(BR)DSS

V

(BR)DS

I

I

GSS

V

GS (th)

R

DS(on)

DSS

*6

ConditionsSymbol

V

= 0V, ID = 1mA

GS

V

= 0V, ID = 8A

GS

V

= 600V, V

DS

T

= 25°C

j

= 125°C

T

j

V

= ±30V, V

GS

V

= 10V, ID = 1mA

DS

V

= 10V, ID = 4A

GS

= 25°C

T

j

= 125°C

T

j

GS

DS

= 0V

= 0V

Values

Min.

600

-

-

-

-

2.5

Typ.

-

700

0.1

-

-

-

- 0.6 0.8

- 1.3 -

Max.

-

-

100
1000
±100

4.5

Unit

V

V

µA

nA

V

Ω

Gate input resistance

R

f = 1MHz, open drain - 8.2 -

G

Ω

2012.01 - Rev.C

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Data Sheet

R6008ANX

3/13

*1 Limited only by maximum temperature allowed.

*2 PW ≤ 10µs, Duty cycle ≤ 1%

DD





Electrical characteristi cs (Ta = 25°C)

Parameter Symbol Conditions

Values

Unit

Min. Typ.

*6

V

g

fs

= 10V, ID = 4.0A

DS

2.5

5.0Transconductance

Max.

- S
Input capacitance
Output capacitance
Reverse transfer capacitance

Effective output capacitance,
energy related

Effective output capacitance,
time related

Turn - on delay time
Rise time
Turn - off delay time
Fall time

C
C
C

C

C

t

d(on)

t

t

d(off)

t

iss

oss

rss

o(er)

o(tr)

*6

r

*6

f

Gate Charge characteristics (Ta = 25°C)

V
V

GS

DS

= 0V
= 25V

- 680 -

-

450

f = 1MHz - 35 -

- 36.5 -

V

= 0V,

GS

= 0V to 480V

V

DS

- 36.7

*6

V

*6

⋍ 300V, V

DD

ID = 4A

= 75Ω

R

L

R

= 10Ω

G

GS

= 10V

-

-

-

-

-

-

-25

25

-

60 120
35 70

pF

pF

ns

Parameter

Total gate charge
Gate - Source charge
Gate - Drain charge

*3 L ⋍ 500µH, V
*4 L ⋍ 500µH, V

= 50V, RG = 25Ω, starting Tj = 25°C
= 50V, RG = 25Ω, starting Tj = 25°C, f = 10kHz

DD

Symbol

*6

Q

g

*6

Q

gs

*6

Q

gd

V

(plateau)VDD

*5 Reference measurement circuit s Fig .5-1.
*6 Pulsed

Conditions

V

⋍ 300V

DD

ID = 8A

= 10V

V

GS

⋍ 300V, ID = 8A

Values

Min.

-

Typ.

21 -

- 5 -

-

- -

10 -

6.0

Unit

Max.

nC

VGate plateau voltage

2012.01 - Rev.C

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Data Sheet

R6008ANX

4/13





Body diode electrical characteristics (Source-Drain) (Ta = 25°C)

Parameter Symbol Conditions

Values

Min. Max.

Typ.

Unit

Inverse diode continuous,
forward current

Inverse diode direct current,
pulsed

Forward voltage
Reverse recovery time
Reverse recovery charge
Peak reverse recovery current

Peak rate of fall of reverse
recovery current

IS

ISM

V

SD

t

rr

Q

rr

I

rrm

di

rr

*1

*2

*6

*6

*6

*6

/dt

Typical Transient Thermal Characteristics

Symbol Value Unit Unit

T

= 25°C

c

V

= 0V, IS = 8A

GS

= 8A

I

S

di/dt = 100A/µs

T

= 25°C

j

- -

-

-

-

-

-

376

- 3.0 -

- 16

-

370

Symbol Value

8

32

1.5 V

-

ns

µC

- A

-

A/µs

A

A

R

th1

R

th2

R

th3

0.263

0.977

2.18

K/W Ws/K

C

th1

C

th2

C

th3

0.00166

0.0191

0.46

2012.01 - Rev.C

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Data Sheet

R6008ANX

5/13

Electrical characteri st ic curves

Fig.1 Power Dissipation Derating Curve

120

100

max. [%]

80

D

/P

D

60

40

20

Power Dissipation : P

0

0 50 100 150 200

Junction Temperature : Tj [°C]

Fig.2 Maximum Safe Operating Area

100

Operation in this
area is limited

10

by R

[A]

D

1

0.1

Drain Current : I

Ta = 25ºC
Single Pulse

0.01

0.1 1 10 100 1000

DS(ON)

PW = 100us

PW = 1ms

PW = 10ms

Drain - Source Voltage : VDS [V]

Fig.3 Normalized Transient Thermal
Resistance vs. Pulse Width

(t)

1000

100

0.01

0.001

0.0001

Normalized Transient T hermal Resistance : r

Ta = 25ºC
Single Pulse

10

R
R

th(ch-a)(t)
th(ch-a)

= r

(t)×Rth(ch-a)

= 70ºC/W

1

0.1
top D = 1

D = 0.5
D = 0.1
D = 0.05
D = 0.01
D = Single

0.0001 0.01 1 100

Pulse Width : PW [s]

2012.01 - Rev.C

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Data Sheet

R6008ANX

6/13

Electrical characteri st ic curves

Fig.4 Avalanche Current vs Inductive Load

5

Ta = 25ºC
V

= 50V , RG = 25Ω

DD

= 10V , V

V

GF

4

[A]

AR

3

2

1

Avalanche Current : I

0

0.01 0.1 1 10 100

= 0V

GR

Coil Inductance : L [mH]

Fig.5 Avalanche Power Losses

4000

3500

[W]

3000

AR

2500

2000

1500

1000

500

Avalanche Power Losses : P

1.0E+04 1.0E+05 1.0E+06

Ta = 25ºC

0

Frequency : f [Hz]

Fig.6 Avalanche Energy Derating Curve
vs Junction Temperature

120

100

max. [%]

80

AS

/ E

AS

60

40

20

0

Avalanche Energy : E

0 25 50 75 100 125 150 175

Junction Temperature : Tj [ºC]

2012.01 - Rev.C

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Data Sheet

R6008ANX

7/13

Electrical characteri st ic curves

5.0V

VGS= 4.5V

8.0V

6.5V

VGS= 4.5V

5.0V

6.0V

6.5V

8.0V

5.5V

GS

6.5V

10V

VGS= 4.5V

10V

6.5V

5.5V

Fig.7 Typical Output Characteristics(I)

8

10.0V

6

6.0V

[A]

D

4

2

7.0V

Drain Current : I

0

0 5 10 15 20

Drain - Source Voltage : VDS [V]

Ta = 25ºC
Pulsed

5.5V

Fig.8 Typical Output Characteristics(II)

8

Ta = 25ºC
Pulsed

6

[A]

D

4

2

Drain Current : I

0

0 1 2 3 4 5

7.0V

Drain - Source Voltage : VDS [V]

10.0V

5.5V

Fig.9 Tj = 150°C Typical Output
Characteristics(I)

8

8.0V

6

[A]

D

4

2

Drain Current : I

0

0 5 10 15 20

7.0V

Drain - Source Voltage : VDS [V]

Ta = 150ºC
Pulsed

6.0V

V

= 4.5V

Fig.10 Tj = 150°C Typical Output
Characteristics(II)

5

Ta = 150ºC

4

[A]

3

D

2

1

Drain Current : I

0

0 1 2 3 4 5

Drain - Source Voltage : VDS [V]

Pulsed

2012.01 - Rev.C

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Data Sheet

R6008ANX

8/13

Electrical characteri st ic curves

0.0 1.5 3.0 4.5 6.0

Fig.11 Breakdown Voltage
vs. Junction Temperature

900

[V]

850

(BR)DSS

800

750

700

650

600

550

500

-50 0 50 100 150

Drain - Source Breakdown Voltage : V

Junction Temperature : Tj [°C]

Fig.12 Typical Transfer Characteristics

100

V

= 10V

DS

Pulsed

10

Ta = 125ºC

[A]

D

1

0.1

Drain Current : I

0.01

= 75ºC

T

a

= 25ºC

T

a

= -25ºC

T

a

Gate - Source Voltage : VGS [V]

Fig.13 Gate Threshold Voltage
vs. Junction Temperature

6

V

= 10V

DS

ID = 1mA

-50 0 50 100 150

Junction Temperature : Tj [°C]

[V]

Gate Threshold Voltage : V

5

GS(th)

4

3

2

1

0

Fig.14 Transconductance vs. Drain Current

100

V

= 10V

DS

Pulsed

10

[S]

fs

1

0.1
Ta = -25ºC

= 25ºC

T

a

= 75ºC

T

0.01

Transconductance : g

0.001

0.001 0.01 0.1 1 10 100

Drain Current : ID [A]

a

= 125ºC

T

a

2012.01 - Rev.C

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Data Sheet

R6008ANX

9/13

Electrical characteri st ic curves

0 5 10 15

Pulsed

Fig.15 Static Drain - Source On - State
Resistance vs. Gate Source Voltage

2

Ta = 25ºC

1.5

[Ω]

1

DS(on)

: R

0.5

0

Static Drain - Source On-State Resistance

Gate - Source Voltage : VGS [V]

ID = 8A

ID = 4A

Fig.16 Static Drain - Source On - State
Resistance vs. Junction Temperature

2

V

= 10V

GS

Pulsed

1.5

[Ω]

1

DS(on)

: R

0.5

0

Static Drain - Source On-State Resistance

-50 0 50 100 150

Junction Temperature : Tj [ºC]

ID = 8A

ID = 4A

Fig.17 Static Drain - Source On - State
Resistance vs. Drain Current

10

V

= 10V

GS

Pulsed

Ta = 125ºC
Ta = 75ºC

= 25ºC

T

a

= -25ºC

T

a

[Ω]

1

DS(on)

: R

0.1

Static Drain - Source On-State Resistance

0.001 0.01 0.1 1 10

Drain Current : ID [A]

2012.01 - Rev.C

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Data Sheet

R6008ANX

10/13

Electrical characteri st ic curves

C

iss

C

oss

C

rss

Fig.18 Typical Capacitance
vs. Drain - Source Voltage

10000

1000

100

10

Capacitance : C [pF]

Ta = 25ºC
f = 1MHz

= 0V

V

1

GS

0.1 1 10 100 1000

Drain - Source Voltage : VDS [V]

Fig.19 Coss Stored Energy

6

Ta = 25ºC

5

[uJ]

OSS

4

3

2

1

Coss Stored Energy : E

0

0 200 400 600

Drain - Source Voltage : VDS [V]

Fig.20 Switching Characteristics

10000

Ta = 25ºC
V
V

1000

t

t

100

d(off)

10

t

Switching Time : t [ns]

r

1

0.01 0.1 1 10 100

Drain Current : ID [A]

R
Pulsed

f

t

d(on)

= 300V

DD

= 10V

GS

= 10Ω

G

Fig.21 Dynamic Input Characteristics

15

Ta = 25ºC
V

⋍ 300V

[V]

GS

10

5

Gate - Source Voltage : V

0

0 5 10 15 20 25 30

DD

ID = 8A
RG = 10Ω
Pulsed

Total Gate Charge : Qg [nC]

2012.01 - Rev.C

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Data Sheet

R6008ANX

11/13

Electrical characteri st ic curves

100

Fig.22 Inverse Diode Forward Current
vs. Source - Drain Voltage

V

= 0V

[A]

S

Inverse Diode Forward Current : I

10

1

0.1

0.01

GS

Pulsed

Ta = 125ºC

Ta = 75ºC
Ta = 25ºC

Ta = -25ºC

0 0.5 1 1.5

Source - Drain Voltage : VSD [V]

Fig.23 Reverse Recovery Time
vs.Inverse Diode Forward Current

1000

[ns]

rr

100

Ta = 25ºC
di / dt = 100A / μs

= 0V

V

GS

Reverse Recovery Time : t

10

0.1 1 10 100

Inverse Diode Forward Current : IS [A]

Pulsed

2012.01 - Rev.C

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Data Sheet

R6008ANX

12/13

Measurement circuits

Fig.1-1 Switching Time Measurement Circuit Fig.1-2　Switching Waveforms

Fig.2-1 Gate Charge Measurement Circuit Fig.2-2 Gate Charge Waveform

Fig.3-1 Avalanche Measurement Circuit Fig.3-2 Avalanche Waveform

Fig.4-1 dv/dt Measurement Circuit Fig.4-2 dv/dt Waveform

Fig.5-1 di/dt Measurement Circuit Fig.5-2 di/dt Waveform

2012.01 - Rev.C

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Data Sheet

R6008ANX

13/13

Dimensions (Unit : mm)

Dimension in mm/inches

D

b1

E1

E

e

b

c

F

A2

A1

AL

x

A

A4

φp

Q

A

MIN MAX MIN MAX

A 16.60 17.60 0.654 0.693
A1 1.80 2.20 0.071 0.087
A2 14.80 15.40 0.583 0.606
A4 6.80 7.20 0.268 0.283

b 0.70 0.85 0.028 0.033

b1 1.10 1.50 0.043 0.059

c 0.70 0.85 0.028 0.033

D 9.90 10.30 0.39 0.406

E 4.40 4.80 0.173 0.189

e
E1 2.70 3.00 0.106 0.118

F 2.80 3.20 0.11 0.126

L 11.50 12.50 0.453 0.492

p 3.00 3.40 0.118 0.134

Q 2.10 3.10 0.083 0.122

x - 0.381 - 0.015

2.54

0.10

DIM

MILIMETERS

INCHES

TO-220FM

2012.01 - Rev.C

Notes

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consent of ROHM Co.,Ltd.

The content specied herein is subject to change for improvement without notice.

The content specied herein is for the purpose of introducing ROHM's products (hereinafter
"Products"). If you wish to use any such Product, please be sure to refer to the specications,
which can be obtained from ROHM upon request.

Examples of application circuits, circuit constants and any other information contained herein
illustrate the standard usage and operations of the Products. The peripheral conditions must
be taken into account when designing circuits for mass production.

Great care was taken in ensuring the accuracy of the information specied in this document.
However, should you incur any damage arising from any inaccuracy or misprint of such
information, ROHM shall bear no responsibility for such damage.

The technical information specied herein is intended only to show the typical functions of and
examples of application circuits for the Products. ROHM does not grant you, explicitly or
implicitly, any license to use or exercise intellectual property or other rights held by ROHM and
other parties. ROHM shall bear no responsibility whatsoever for any dispute arising from the
use of such technical information.

The Products specied in this document are intended to be used with general-use electronic
equipment or devices (such as audio visual equipment, ofce-automation equipment, commu­nication devices, electronic appliances and amusement devices).

The Products specied in this document are not designed to be radiation tolerant.

While ROHM always makes effor ts to enhance the quality and reliability of its Products, a
Product may fail or malfunction for a variety of reasons.

Please be sure to implement in your equipment using the Products safety measures to guard
against the possibility of physical injur y, re or any other damage caused in the event of the
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shall bear no responsibility whatsoever for your use of any Product outside of the prescribed
scope or not in accordance with the instruction manual.

The Products are not designed or manufactured to be used with any equipment, device or
system which requires an extremely high level of reliability the failure or malfunction of which
may result in a direct threat to human life or create a risk of human injury (such as a medical
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of the Products for the above special purposes. If a Product is intended to be used for any
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