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STPS40170C

HIGH VOLTAGE POWER SCHOTTKY RECTIFIER

Table 1: Main Product Characteristics

F(AV)

RRM

(max)

FEATURES AND BENEFITS

■

2 x 20 A

170 V

175 °C

0.75 V

High junction temperature capability

Low leakage current

Good trade off between leakage current and

forward voltage drop

Low thermal resistance

High frequency operation

Avalanche specification

TO-220AB

STPS40170CT

PAK

STPS40170CG

DESCRIPTION

Dual center tab Schottky rectifier suited for High

Frequency Switched Mode Power Supplies.

Packaged in TO-220AB, D2PAK and TO-247,

these devices are intended for use to enhance the

reliability of the application.

TO-247

STPS40170CW

Table 2: Order Codes

Part Numbers

STPS40170CT

STPS40170CG

STPS40170CG-TR

STPS40170CW

Marking

STPS40170CT

STPS40170CG

STPS40170CW

September 2005

REV. 1

1/8

STPS40170C

Table 3: Absolute Ratings

(limiting values, per diode)

Symbol

RRM

F(RMS)

F(AV)

FSM

ARM

stg

dV/dt

dPtot

* : ---------------

dTj

Parameter

Repetitive peak reverse voltage

RMS forward current

Average forward current

= 150 °C

= 0.5

Per diode

Per device

Value

170

250

14100

-65 to + 175

175

10000

Unit

°C

V/µs

Surge non repetitive forward current

Repetitive peak avalanche power

Storage temperature range

Maximum operating junction temperature *

Critical rate of rise of reverse voltage

= 10 ms sinusoidal

= 1 µs T

= 25 °C

------------------------- thermal runaway condition for a diode on its own heatsink

Rth

(

–

)

Table 4: Thermal Parameters

Symbol

th(j-c)

th(c)

When the diodes 1 and 2 are used simultaneously:

∆

Tj(diode 1) = P(diode 1) x Rth(j-c)(Per diode) + P(diode 2) x Rth(c)

Parameter

Junction to case

Per diode

Total

Coupling

Value

1.2

0.85

0.5

Unit

°C/W

Table 5: Static Electrical Characteristics

(per diode)

Symbol

Parameter

Reverse leakage current

Tests conditions

= 25 °C

= 125 °C

= 25 °C

Forward voltage drop

= 125 °C

= 25 °C

= 125 °C

Pulse test:

* tp = 5 ms,

< 2%

** tp = 380 µs,

< 2%

Min.

Typ

0.69

0.79

Max.

0.92

0.75

1.00

0.86

Unit

µA

= V

RRM

= 20A

= 40A

To evaluate the conduction losses use the following equation: P = 0.64 x I

F(AV)

+ 0.055 I

F (RMS)

2/8

STPS40170C

Figure 1: Average forward power dissipation

versus average forward current (per diode)

F(AV)

(W)

F(AV)

(A)

d=0.05

d=0.1

d=0.2

d=0.5

d=1

Figure 2: Average forward current versus

ambient temperature (δ = 0.5, per diode)

F(AV)

(A)

th(j-a)

th(j-c)

th(j-a)

=15°C/W

amb

(°C)

100

125

150

175

Figure 3: Normalized avalanche

derating versus pulse duration

ARM

)

ARM

(1µs)

power

Figure 4: Normalized avalanche

derating versus junction temperature

ARM

)

ARM

(25°C)

power

1.2

0.1

0.8

0.6

0.01

0.4

0.2

0.001

0.01

0.1

(µs)

100

1000

(°C)

100

125

150

Figure 5: Non repetitive surge peak forward

current versus overload duration (maximum

values, per diode)

(A)

250

Figure 6: Relative variation of thermal

impedance junction to case versus pulse

duration

th(j-c)

1.0

0.9

200

0.8

0.7

d=0.5

150

=50°C

0.6

0.5

0.4

0.3

d=0.2

d=0.1

=75°C

100

=125°C

0.2

=0.5

t(s)

1.E-02

1.E-01

1.E+00

0.1

Single pulse

(s)

1.E-02

1.E-01

1.E-03

0.0

1.E-03

1.E+00

3/8

STPS40170C

Figure 7: Reverse leakage current versus

reverse voltage applied (typical values, per

diode)

(µA)

1.E+05

=150°C

Figure 8: Junction capacitance versus reverse

voltage applied (typical values, per diode)

C(pF)

1000

F=1MHz

OSC

=30mV

RMS

=25°C

1.E+04

=125°C

1.E+03

=100°C

1.E+02

=75°C

100

1.E+01

=50°C

1.E+00

=25°C

(V)

1.E-01

10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170

(V)

100

1000

Figure 9: Forward voltage drop versus forward

current (per diode, low level)

(A)

Tj=125°C

(Maximum values)

Figure 10: Forward voltage drop versus

forward current (per diode, high level)

(A)

1000

Tj=125°C

(Maximum values)

100

0.0

0.1

0.2

0.3

(V)

Tj=125°C

(Typical values)

Tj=125°C

(Typical values)

Tj=25°C

(Maximum values)

Tj=25°C

(Maximum values)

(V)

0.4

0.5

0.6

0.7

0.8

0.9

1.0

0.0

0.2

0.4

0.6

0.8

1.0

1.2

1.4

1.6

1.8

Figure 11: Thermal resistance junction to am-

bient versus copper surface under tab (epoxy

printed board FR4, Cu = 35µm) (D

PAK)

th(j-a)

(°C/W)

D²PAK

(cm²)

4/8

STPS40170C

Figure 12: D

PAK Package Mechanical Data

DIMENSIONS

Millimeters

Inches

Min.

Max.

Min.

Max.

4.40

4.60

0.173

0.181

2.49

2.69

0.098

0.106

0.03

0.23

0.001

0.009

0.70

0.93

0.027

0.037

1.14

1.70

0.045

0.067

0.45

0.60

0.017

0.024

1.23

1.36

0.048

0.054

8.95

9.35

0.352

0.368

10.00

10.40

0.393

0.409

4.88

5.28

0.192

0.208

15.00

15.85

0.590

0.624

1.27

1.40

0.050

0.055

1.40

1.75

0.055

0.069

2.40

3.20

0.094

0.126

0.40 typ.

0.016 typ.

0°

8°

0°

8°

REF.

* FLAT ZONE NO LESS THAN 2mm

Figure 13: Foot Print Dimensions

(in millimeters)

16.90

10.30

1.30

5.08

3.70

8.90

5/8

参数对比

与STPS40170CW相近的元器件有：STPS40170CG。描述及对比如下：

型号	STPS40170CW	STPS40170CG
描述	Schottky Diodes u0026 Rectifiers SCHOTTKY RECTIFIER	Schottky Diodes u0026 Rectifiers SCHOTTKY RECTIFIER
Brand Name	STMicroelectronics	STMicroelectronics
是否Rohs认证	符合	符合
零件包装代码	TO-247AC	TO-263
包装说明	TO-247, 3 PIN	PLASTIC, D2PAK-3
针数	3	3
Reach Compliance Code	not_compliant	not_compliant
ECCN代码	EAR99	EAR99
其他特性	LOW LEAKAGE CURRENT	LOW LEAKAGE CURRENT
应用	HIGH VOLTAGE POWER	HIGH VOLTAGE POWER
配置	COMMON CATHODE, 2 ELEMENTS	COMMON CATHODE, 2 ELEMENTS
二极管元件材料	SILICON	SILICON
二极管类型	RECTIFIER DIODE	RECTIFIER DIODE
最大正向电压 (VF)	0.75 V	0.75 V
JESD-30 代码	R-PSFM-T3	R-PSSO-G2
JESD-609代码	e3	e3
最大非重复峰值正向电流	250 A	250 A
元件数量	2	2
相数	1	1
端子数量	3	2
最高工作温度	175 °C	175 °C
最大输出电流	20 A	20 A
封装主体材料	PLASTIC/EPOXY	PLASTIC/EPOXY
封装形状	RECTANGULAR	RECTANGULAR
封装形式	FLANGE MOUNT	SMALL OUTLINE
峰值回流温度（摄氏度）	NOT SPECIFIED	245
认证状态	Not Qualified	Not Qualified
最大重复峰值反向电压	170 V	170 V
表面贴装	NO	YES
技术	SCHOTTKY	SCHOTTKY
端子面层	Tin (Sn)	Matte Tin (Sn)
端子形式	THROUGH-HOLE	GULL WING
端子位置	SINGLE	SINGLE
处于峰值回流温度下的最长时间	NOT SPECIFIED	30
Base Number Matches	1	1