OMNIREL OM6103ST, OM6102ST, OM6101ST, OM6004ST, OM6003ST Datasheet

OM6001ST
OM6002ST

OM6003ST
OM6004ST

OM6101ST
OM6102ST

POWER MOSFET IN HERMETIC ISOLATED
JEDEC TO-257AA PACKAGE

100V Thru 500V, Up To 14 Amp, N-Channel
MOSFET With Or Without Zener Gate
Clamp Protection

FEATURES

• Isolated Hermetic Metal Package

• Bi-Lateral Zener Gate Protection (Optional)

• Fast Switching, Low Drive Current

• Ease Of Paralleling For Added Power

• Low R

• Available Screened To MIL-S-19500, TX, TXV And S Levels

DESCRIPTION

This series of hermetically packaged products feature the latest advanced MOSFET
and packaging technology. They are ideally suited for Military requirements where
small size, high performance and high reliability are required, and in applications such
as switching power supplies, motor controls, inverters, choppers, audio amplifiers and
high energy pulse circuits. The MOSFET gates are protected using bi-lateral zener
clamps in the OM6101ST series.

DS(on)

OM6103ST
OM6104ST

MAXIMUM RATINGS

Note: OM6101ST thru OM6104ST is supplied with zener gate protection.

4 11 R4
Supersedes 1 07 R3

PART NUMBER V

DS

R

DS(on)

I

OM6001ST/OM6101ST 100 V .20 14 A
OM6002ST/OM6102ST 200 V .44 9 A
OM6003ST/OM6103ST 400 V 1.05 5.5 A
OM6004ST/OM6104ST 500 V 1.60 4.5 A

OM6001ST thru OM6004ST is supplied without zener gate protection.

SCHEMATIC

WITHOUT ZENER CLAMPS WITH ZENER CLAMPS

OM6001ST - 6004ST OM6101ST - 6104ST

1 - DRAIN

3 - GATE

ZENERS

2 - SOURCE

3.1 - 71

1 - DRAIN

3 - GATE

2 - SOURCE

D

3.1

3.1

G

D

S

G

D

S

OM6001ST - OM6104ST

ELECTRICAL CHARACTERISTICS: (T

= 25°C unless otherwise noted) ELECTRICAL CHARACTERISTICS: (TC= 25°C unless otherwise noted)

C

STATIC P/N OM6101ST / OM6001ST (100V) STATIC P/N OM6102ST / OM6002 ST (200V)

Parameter Min. Typ. Max. Units Test Conditions Parameter Min. Typ. Max. Units Test Conditions

BV

Drain-Source Breakdown

V
I
I
I

I
V

R

R

3.1 - 72

DSS

Voltage I
Gate-Threshold Voltage 2.0 4.0 V VDS= VGS, ID= 250 mAV

GS(th)

Gate-Body Leakage (OM6101) ± 500 nA VGS= ± 12.8 V I

GSS

Gate-Body Leakage (OM6001) ± 100 nA VGS= ± 20 V I

GSS

Zero Gate Voltage Drain 0.1 0.25 mA VDS= Max. Rat., VGS= 0 I

DSS

Current

On-State Drain Current

D(on)

Static Drain-Source On-State

DS(on)

DS(on)

DS(on)

1

Voltage
Static Drain-Source On-State
Resistance

1

Static Drain-Source On-State
Resistance

1

1

100 V

0.2 1.0 mA

14 A VDS 2 V

1.2 1.60 V V

0.20 V

0.40

DYNAMIC DYNAMIC

g

Forward Transductance

fs

C

Input Capacitance 750 pF VGS= 0 C

iss

C

Output Capacitance 250 pF VDS= 25 V C

oss

C

Reverse Transfer Capacitance 100 pF f = 1 MHz C

rss

t

Turn-On Delay Time 15 ns VDD= 30 V, ID@ 8 A t

d(on)

t

Rise Time 35 ns Rg= 7.5 W , VDS= 10 V t

r

t

Turn-Off Delay Time 38 ns t

d(off)

t

Fall Time 23 ns t

f

1

4.0 S(W ) VDS 2 V

BODY-DRAIN DIODE RATINGS AND CHARACTERISTICS BODY-DRAIN DIODE RATINGS AND CHARACTERISTICS

I

Continuous Source Current

S

(Body Diode) symbol showing (Body Diode) symbol showing

I

SM

Source Current

1

(Body Diode) Junction rectifier. (Body Diode) Junction rectifier.
VSDDiode Forward Voltage

V

Diode Forward Voltage

SD

t

Reverse Recovery Time

rr

1

1

1 Pulse Test: Pulse Width 300msec, Duty Cycle

- 14 A

- 56 A

- 2.5 V

- 2.5 V TC= 25 C, IS= -12 A, VGS= 0 VSDDiode Forward Voltage

100 ns

2%.

VGS= 0, BV

= 250 mA Voltage ID= 250 mA

D

V

= 0.8 Max. Rat., VGS= 0, Current

DS

T

= 125° C TC= 125° C

C

GS

GS

, VGS= 10 V I

DS(on)

= 10 V, ID= 8 A

= 10 V, ID= 8 A

VGS= 10 V, ID= 8 A, R
TC= 125 C Resistance

(W)

Modified MOSPOWER I

the integral P-N I

T

= 25 C, IS= -14 A, VGS= 0 VSDDiode Forward Voltage

C

, ID= 8 A g

DS(on)

TJ= 150 C, IF= IS,t
dl

/ds = 100 A/ms dlF/ds = 100 A/ms

F

1 Pulse Test: Pulse Width 300msec, Duty Cycle

Drain-Source Breakdown

DSS

Gate-Threshold Voltage 2.0 4.0 V VDS= VGS, ID= 250 mA

GS(th)

Gate-Body Leakage (OM6102) ± 500 nA VGS= ± 12.8 V

GSS

Gate-Body Leakage (OM6002) ± 100 nA VGS= ± 20 V

GSS

Zero Gate Voltage Drain 0.1 0.25 mA VDS= Max. Rat., VGS= 0

DSS

200 V

0.2 1.0 mA

On-State Drain Current

D(on)

V

Static Drain-Source On-State

DS(on)

R

DS(on)

DS(on)

fs

iss

oss

rss

d(on)

r

d(off)

f

S

SM

rr

1

Voltage
Static Drain-Source On-State
Resistance

1

Static Drain-Source On-State

1

Forward Transductance
Input Capacitance 780 pF VGS= 0
Output Capacitance 150 pF VDS= 25 V
Reverse Transfer Capacitance 55 pF f = 1 MHz
Turn-On Delay Time 9 ns VDD= 75V, ID@ 5.0 A
Rise Time 18 ns Rg= 7.5 W , VGS=10 V
Turn-Off Delay Time 45 ns
Fall Time 27 ns

Continuous Source Current

Source Current

Reverse Recovery Time

1

9.0 A VDS 2 V

1.25 2.2 V V

0.44 V

0.88

1

3.0 5.8 S(W) VDS 2 V

(W)

- 9 A

1

1

1

- 36 A

- 2 V

- 2 V TC= 25 C, IS= -8 A, VGS= 0

250 ns

2%.

VGS= 0,

VDS= 0.8 Max. Rat., VGS= 0,

, VGS= 10 V

DS(on)

= 10 V, ID= 5.0 A

GS

= 10 V, ID= 5.0 A

GS

VGS= 10 V, ID= 5.0 A,
TC= 125 C

, ID= 5.0 A

DS(on)

Modified MOSPOWER

the integral P-N

T

= 25 C, IS= -9 A, VGS= 0

C

TJ= 150 C, IF= IS,