Datasheet STPS16H100CR, STPS16H100CT, STPS16H100CG, STPS16H100CFP Datasheet (SGS Thomson Microelectronics)

®

STPS16H100CT/CG/CFP/CR

HIGH VOLTAGE POWER SCHOTTKY RECTIFIER

MAIN PRODUCT CHARACTERISTICS

I

F(AV)

V

RRM

2x8A

100 V

Tj (max) 175 °C

V

(max) 0.64V

F

FEATURES AND BENEFITS

NEGLIGIBLE SWITCHING LOSSES

■

HIGH JUNCTION TEMPERATURE CAPABILITY

■

LOW LEAKAGE CURRENT

■

GOOD TRADE OFF BETWEEN LEAKAGE

■

CURRENT AND FORWARD VOLTAGE DROP

■ AVALANCHE CAPABILITY SPECIFIED

DESCRIPTION

DualcentertapSchottkyrectifierdesignedfor
high frequency miniature Switch Mode Power
Supplies such as adaptators and on board
DC/DC converters.

A1

A2

K

A1

TO-220AB

STPS16H100CT

K

A1

TO-220FPAB

STPS16H100CFP

A2

A2

K

STPS16H100CG

STPS16H100CR

K

D2PAK

I2PAK

A1

A1

A2

A2

K

ABSOLUTE RATINGS (limiting values, per diode)

Symbol Parameter Value Unit

V

RRM

I

F(RMS)

I

F(AV)

Repetitive peak reverse voltage 100 V
RMS forward current 30 A
Average forward

current δ = 0.5

TO-220AB
D2PAK/I2PAK

Tc = 165°C Per diode 8 A

TO-220FPAB Tc = 150°C Per device 16
I
I
I

P

T

FSM
RRM
RSM

ARM

stg

Surge non repetitive forward current tp = 10 ms sinusoidal 200 A
Repetitive peak reverse current tp=2µssquare F = 1kHz 1 A
Non repetitive peak reverse current tp = 100 µs square 2 A
Repetitive peak avalanche power tp= 1µs Tj = 25°C 8700 W
Storage temperature range -65 to+175 °C

Tj Maximum operating junction temperature * 175 °C

dV/dt Critical rate of rise of reverse voltage 10000 V/µs

dPtot

* :

<

dTj Rth j a

July 2003 - Ed: 2A

thermal runaway condition for a diode on its own heatsink

−1()

1/7

STPS16H100CT/CG/CFP/CR

THERMAL RESISTANCES

Symbol Parameter Value Unit

R

th (j-c)

R

th (c)

When the diodes 1 and 2 are used simultaneously :

∆ Tj(diode 1) = P(diode1) x R

STATIC ELECTRICAL CHARACTERISTICS (per diode)

Symbol Parameter Tests Conditions Min. Typ. Max. Unit

I

R

V

Junction to ambient TO-220AB / D2PAK/I2PAK Per diode 1.6 °C/W

TO-220FPAB 4
TO-220AB / D

2

PAK/I2PAK Total 1.1 °C/W
TO-220FPAB 3.5
TO-220AB / D2PAK/I2PAK

Coupling

0.6 °C/W

TO-220FPAB 3

(Per diode) + P(diode 2) x R

th(j-c)

* Reverse leakage Current Tj = 25°C VR=V

th(c)

RRM

3.6 µA

Tj = 125°C 1.6 5 mA

** Forward Voltage drop Tj = 25°C IF= 8 A 0.77 V

F

Tj = 125°CI
Tj = 25°C I
Tj = 125°C I

= 8 A 0.59 0.64

F

= 16 A 0.88

F

= 16 A 0.67 0.73

F

Pulse test : * tp=5ms,δ<2%

** tp = 380 µs, δ <2%

To evaluate the conduction losses use the following equation :
P = 0.55 x I

Fig.1: Conductionlossesversus average current.

F(AV)

+ 0.011 x I

F2(RMS)

Fig. 2: Average forward current versus ambient
temperature (δ=0.5).

P (W)F(AV)

7

6

5

4

3

2

1

0

012345678910

δ = 0.05

δ = 0.1

I (A)F(AV)

δ = 0.2

δ = 0.5

δ

=tp/T

δ = 1

T

tp

I (A)F(AV)

9

8
7

6

5
4

3

2
1

=tp/T

δ

0

0 25 50 75 100 125 150 175

Rth

=Rth

(j-a)

(j-c)

Rth

=50°C/W

(j-a)

T

tp

T (°C)amb

TO-220AB/D²PAK/I²PAK

2/7

STPS16H100CT/CG/CFP/CR

Fig. 3: Normalized avalanche power derating

versus pulse duration.

P(t)

ARM p

P (1µs)

ARM

1

0.1

0.01

t (µs)

0.001

0.10.01 1

p

10 100 1000

Fig. 5-1: Non repetitive surge peak forward current
versus overload duration (maximum values)
(TO-220AB, D²PAK, I²PAK).

I (A)M

200
180
160
140
120
100

80
60
40

IM

20

0

1.E-03 1.E-02 1.E-01 1.E+00

δ=0.5

t

t(s)

TC=25°C

TC=75°C

TC=125°C

Fig. 4: Normalized avalanche power derating
versus junction temperature.

P(t)

ARM p

P (25°C)

ARM

1.2
1

0.8

0.6

0.4

0.2

T (°C)

0

j

0 25 50 75 100 125 150

Fig. 5-2: Non repetitive surge peak forward current
versus overload duration (maximum values)
(TO-220FPAB).

I (A)M

120
110
100

90
80
70
60
50
40
30

IM

20
10

0

1.E-03 1.E-02 1.E-01 1.E+00

δ=0.5

t

t(s)

TC=25°C

TC=75°C

TC=125°C

Fig. 6-1: Relative variation of thermal impedance
junction to case versus pulse duration (TO-220AB,
D²PAK & I²PAK).

Zth(j-c) / Rth(j-c)

1.0

0.9

0.8

0.7

δ = 0.5

0.6

0.5

0.4

δ = 0.2

δ = 0.1

0.3

0.2

Single pulse

0.1

0.0

1.E-03 1.E-02 1.E-01 1.E+00

t (s)P

δ

=tp/T

T

tp

Fig. 6-2: Relative variation of thermal impedance
junctionto case versus pulse duration (TO-220FPAB).

Zth(j-c) / Rth(j-c)

1.0

0.9

0.8

0.7

0.6

δ = 0.5

0.5

0.4

δ = 0.2

0.3

δ = 0.1

0.2

0.1

Single pulse

0.0

1.E-03 1.E-02 1.E-01 1.E+00 1.E+01

t (s)P

δ

=tp/T

T

tp

3/7

STPS16H100CT/CG/CFP/CR

Fig. 7: Reverse leakage current versus reverse

voltage applied (typical values).

I (mA)R

1.E+01

1.E+00

1.E-01

1.E-02

1.E-03

1.E-04
0 102030405060708090100

Tj=150°C

Tj=125°C

Tj=100°C

Tj=75°C

Tj=50°C

Tj=25°C

V (V)R

Fig. 9: Forward voltage drop versus forward

current.

I (A)FM

100

Tj=125°C

Tj=125°C

(Maximum values)

(Maximum values)

Tj=125°C

Tj=125°C

(Typical values)

10

(Typical values)

V (V)FM

1

0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4

Tj=25°C

(Maximum values)

Fig. 8: Junction capacitance versus reverse
voltage applied (typical values).

C(nF)

1.00

0.10

F=1MHz

V

osc

T

=30mV

=25°C

j

V (V)R

0.01
1 10 100

Fig. 10: Thermal resistance junction to ambient

versus copper surface under tab (epoxy printed
board FR4, Cu = 35µm).

Rth(j-a)(°C/W)

80

70

60

50

40

30

20

10

0

0 5 10 15 20 25 30 35 40

S(cm²)

D²PAK

4/7

PACKAGE MECHANICAL DATA

TO-220FPAB

H

L6

L2

L3

L5

L4

G1

G

F1

F2

F

Dia

D

STPS16H100CT/CG/CFP/CR

DIMENSIONS

REF.

A

B

A 4.4 4.6 0.173 0.181
B 2.5 2.7 0.098 0.106
D 2.5 2.75 0.098 0.108
E 0.45 0.70 0.018 0.027

F 0.75 1 0.030 0.039

F1 1.15 1.70 0.045 0.067

L7

F2 1.15 1.70 0.045 0.067

G 4.95 5.20 0.195 0.205

G1 2.4 2.7 0.094 0.106

H 10 10.4 0.393 0.409
L2 16 Typ. 0.63 Typ.
L3 28.6 30.6 1.126 1.205
L4 9.8 10.6 0.386 0.417
L5 2.9 3.6 0.114 0.142

E

L6 15.9 16.4 0.626 0.646
L7 9.00 9.30 0.354 0.366

Dia. 3.00 3.20 0.118 0.126

Millimeters Inches

Min. Max. Min. Max.

PACKAGE MECHANICAL DATA

2

PAK

I

E

L2

L1

L

e

b2
b1

b

c2

D

A1

DIMENSIONS

REF.

Millimeters Inches

Min. Max. Min. Max.

A

A 4.40 4.60 0.173 0.181

A1 2.49 2.69 0.098 0.106

b 0.70 0.93 0.028 0.037
b1 1.14 1.17 0.044 0.046
b2 1.14 1.17 0.044 0.046

c 0.45 0.60 0.018 0.024

c2 1.23 1.36 0.048 0.054

D 8.95 9.35 0.352 0.368

e 2.40 2.70 0.094 0.106

E 10.0 10.4 0.394 0.409

L 13.1 13.6 0.516 0.535
L1 3.48 3.78 0.137 0.149

c

L2 1.27 1.40 0.050 0.055

5/7

STPS16H100CT/CG/CFP/CR

PACKAGE MECHANICAL DATA

2

PAK

D

E

L2

L

L3

A1

B2
B

G

* FLAT ZONE NO LESS THAN 2mm

C2

DIMENSIONS

REF.

A

Millimeters Inches

Min. Max. Min. Max.

A 4.40 4.60 0.173 0.181
A1 2.49 2.69 0.098 0.106
A2 0.03 0.23 0.001 0.009

D

B 0.70 0.93 0.027 0.037
B2 1.14 1.70 0.045 0.067

C 0.45 0.60 0.017 0.024
C2 1.23 1.36 0.048 0.054

C

R

D 8.95 9.35 0.352 0.368

E 10.00 10.40 0.393 0.409

G 4.88 5.28 0.192 0.208

A2

L 15.00 15.85 0.590 0.624
L2 1.27 1.40 0.050 0.055

M

*

V2

L3 1.40 1.75 0.055 0.069

M 2.40 3.20 0.094 0.126
R 0.40typ. 0.016 typ.

V2 0° 8° 0° 8°

FOOTPRINT

10.30

6/7

16.90

5.08

1.30

3.70

8.90

PACKAGE MECHANICAL DATA

TO-220AB

H2

Dia

L5

L6

L2

F2
F1

F

G1

G

L9

L4

STPS16H100CT/CG/CFP/CR

DIMENSIONS

REF.

A 4.40 4.60 0.173 0.181

A

C

C 1.23 1.32 0.048 0.051
D 2.40 2.72 0.094 0.107
E 0.49 0.70 0.019 0.027

L7

F 0.61 0.88 0.024 0.034
F1 1.14 1.70 0.044 0.066
F2 1.14 1.70 0.044 0.066

G 4.95 5.15 0.194 0.202

D

G1 2.40 2.70 0.094 0.106

H2 10 10.40 0.393 0.409
L2 16.4 typ. 0.645 typ.

M

E

L4 13 14 0.511 0.551
L5 2.65 2.95 0.104 0.116
L6 15.25 15.75 0.600 0.620
L7 6.20 6.60 0.244 0.259
L9 3.50 3.93 0.137 0.154

M 2.6 typ. 0.102 typ.

Diam. 3.75 3.85 0.147 0.151

Millimeters Inches

Min. Max. Min. Max.

Ordering type Marking Package Weight Base qty Delivery mode

STPS16H100CT STPS16H100CT TO-220AB 2.20 g 50 Tube

STPS16H100CFP STPS16H100CFP TO-220FPAB 2.0 g 50 Tube

2

STPS16H100CG STPS16H100CG D

STPS16H100CG-TR STPS16H100CG D

STPS16H100CR STPS16H100CR I

■

EPOXY MEETS UL94,V0

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PAK 1.48 g 50 Tube

2

PAK 1.48 g 1000 Tape & reel

2

PAK 1.9 g 50 Tube

7/7