FD6M016N03_技术文档

June 2008

Power-SPM^TM

FD6M016N03

30V/80A Synchronous Rectifier Module

tm

General Features

General Description

The FD6M016N03 is one product in the Power-SPM^TMfamily

that Fairchild has newly developed and designed to be most

suitable for more compact and more efficient synchronous recti-

fication applications such as internet server power supplies and

telecom system power supplies. For higher efficiency, it includes

built-in very low R_DS(ON)MOSFETs. This Power-SPM device

can be used in the secondary side of the PWM transformer of

forward/bridge converter to provide high current rectification at

output voltages ranging from 12 Volts down to 5 Volts. With this

product, it is possible to design the secondary side of power

supply systems with reduced parasitic elements resulting in

minimized voltage spike and EMI noise.

•

Very High Rectification Efficiency at Output 12V

Integrated Solution for Saving Board Space

RoHS Compliant

MOSFET Features

Applications

•

High Current Isolated Converter

Distributed Power Architectures

Synchronous rectifivation

DC/DC Converter

•

VDSS = 30V

QG(TOTAL) = 132nC(Typ.), VGS = 5V

R_DS(ON)= 1.3mΩ(Typ.), V_GS= 10V, I_D= 40A

Low Miller Charge

Battery supplied application

ORing MOSFET

Low Q_rrBody Diode

UIS Capability (Single Pulse and Repetitive Pulse)

Fully Isolated package

1

15

EPM15 Package

Block Diagram

10

9

G2

D2

15

8

14

13

12

11

G1

6

7

S2

S1

D1

1

2

3

4

5

Figure 1. FD6M016N03 Module Block Diagram

FD6M016N03 Rev. A

1

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Pin Configuration and Pin Description

Top View

D1

S1

G1

NC

G2

S2

D2

NC

Figure 2. Pinmap of FD6M016N03

Pin Number

Pin Name

Pin Description

1

D1

S1

G1

NC

G2

S2

D2

Drain of Q1, MOSFET

Source of Q1, MOSFET

Gate of Q1, MOSFET

No Connection

2 ~ 5

6

7

8

9

No Connection

10

Gate of Q2, MOSFET

Source of Q2, MOSFET

Drain of Q2, MOSFET

11 ~ 14

15

Absolute Maximum Ratings T_C= 25°C, Unless Otherwise Specified

Symbol

Parameter

Rating

30

Unit

V

V_DS

V_GS

I_D

Drain to Source Voltage

Gate to Source Voltage

(Note1)

±20

V

Drain Current, Continuous (V_GS= 10V)

Single Pulse Avalanche Energy

80

A

(Note1)

E_AS

1584

-40 ~ 150

mJ

°C

(Note1,2)

T_J,T_STG

Operating and Storage Temperature Range

Thermal Resistance

Symbol

Parameter

Junction to Case Thermal Resistance

Min.

Typ.

Max.

Unit

R_θJC

-

3.9

°C/W

(Note1)

Note:

1. Each MOSFET Switch

2. Starting T = 25°C, V = 20V, L = 0.25mH, I = 65A

J

D

AS

FD6M016N03 Rev. A

2

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Electrical Characteristics T_C= 25°C, Unless Otherwise Specified

Symbol

Parameter

Test Conditions

Min.

Typ.

Max.

Units

Synchronous Rectifier Switch Part (Each Switch)

BV_DSS

I_DSS

Drain to Source Breakdown Voltage

Zero Gate Voltage Drain Current

Gate to Source Leakage Current

Gate Threshold Voltage

I_D= 250μA, V_GS= 0V

30

-

1

V

μA

nA

V

V_GS= 0V, V_DS= 24V

V_GS= ±20V

-

I_GSS

-

±100

3

V_GS(TH)

R_DS(ON)

V_D= 5V, I_DS= 250μA

I_D= 40A, V_GS= 10V

1

-

Drain to Source On Resistance

1.3

1.96

1.6

-

mΩ

T = 150°C

-

J

Dynamic Charateristics

C_ISS

Input Capacitance

-

11535

2195

1580

227

121

9.3

-

pF

nC

V_DS= 15V, V_GS= 0V,

f = 1MHz

C_OSS

C_RSS

Q_g(TOT)

Q_g(5)

Q_g(TH)

Q_gs

Output Capacitance

-

Reverse Transfer Capacitance

Total Gate Charge at 10V

Total Gate Charge at 5V

Threshold Gate Charge

-

295

158

13

-

V_GS= 0V to 10V

V_GS= 0V to 5V

V_GS= 0V to 1V

V_DD= 15V

Gate to Source Gate Charge

Gate Charge Threshold to Plateau

Gate to Drain “MIller” Charge

29

nC

Q_gs2

I_D= 40A

20

-

Q_gd

I_g= 1.0mA

46

-

Switching Charateristics (VGS = 5V)

t_ON

t_d(on)

t_r

Turn-On Time

Turn-On Delay Time

Rise Time

-

165

ns

26

65

90

60

-

I_D= 40A

V_GS= 5V, V_DD= 15V, R_G= 2.5Ω

t_d(off)

t_f

Turn-Off Delay Time

Fall Time

-

t_OFF

Turn-Off Time

255

Drain-Source Diode Charateristics

V_SD

Source to Drain Diode Voltage

I_SD= 80A, V_GS= 0V

-

1.25

V

I_SD= 40A, V_GS= 0V

-

1.0

t_rr

Reverse Recovery Time

I_SD= 40A, dI_SD/dt = 100A/μs

38

32

-

ns

Q_rr

Reverse Recovery Charge

nC

FD6M016N03 Rev. A

3

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Typical Performance Characteristics 1. Each Switch, Unless Otherwise Specified

Figure 3. On-Region Characteristics

120

V_GS

V_DS

Top :

10.0 V

5.0 V

3.5 V

ID

D

Bottom : 3.0 V

80

40

0

V_GS

G

V_DS

VGS,STEP

*Notes :

1. 250μs Pulse Test

FD6M016N03

2. T_C= 25^oC

S

0.0

0.5

1.0

1.5

V_DS, Drain-Source Voltage[V]

Figure 4. Transfer Characteristics

200

V_DS

ID

160

120

150^oC

25^oC

D

V_GS

-40^oC

G

80

40

0

V_DS

VGS

*Notes:

FD6M016N03

1. V_DS= 15V

2. 250μs Pulse Test

S

1.0

1.5

2.0

2.5

3.0

3.5

4.0

V_GS, Input Voltage[V]

Figure 5. Body Diode Forward Voltage

Variation vs. Source Current

and Temperature

Figure 6. Output Capacitance Characteristic

20

C

_iss= C_gs+ C_gd(C_ds= shorted)

_oss= C_ds+ C_gd

C_rss= C_gd

100

C

iss

15

10

5

iss

125^oC

25^oC

* Note:

1. V_GS= 0 V

2. f = 1 MHz

10

C_oss

C_rss

* Notes :

1. V_GS= 0V

2. 250μs Pulse Test

1

0

0.1

0.4

0.6

0.8

1.0

1.2

1

10

30

V_SD, Body Diode Forward Voltage [V]

V_DS, Drain-Source Voltage [V]

FD6M016N03 Rev. A

4

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Typical Performance Characteristics (Continued)

Figure 7. Breakdown Voltage Variation

vs. Temperature

Figure 8. On-Resistance Variation

vs. Temperature

1.15

2.0

1.5

1.0

* Notes:

1. V_GS= 0V

2. I_D= 250μA

1.10

1.00

0.5

0.0

* Notes :

1. V_GS= 10 V

2. I_D= 40 A

0.90

0.85

-50

0

50

100

150

200

-50

0

50

100

150

200

T_J, Junction Temperature [°C]

Figure 9. Transient Thermal Response Curve

10

1

0.5

0.2

0.1

0.05

P_DM

0.1

0.02

0.01

t₁

t₂

*Notes:

1. Z_θJC(t) = 3.9^oC/W Typ.

2. Duty Factor, D= t₁/t₂

0.01

0.001

Single pulse

3. T_JM- T_C= P_DM* Z_θJC(t)

10^-5

10^-4

10^-3

10^-2

10^-1

10⁰

10¹

10²

Rectangular Pulse Duration [sec]

Figure 10. Maximum Safe Operating Area

Figure 11. Unclamped Inductive Switching

Capability

500

If R = 0

t_AV

If R ≠

t_AV

=

(L)(I_AS)/(1.3*Rated BV_DSS- V_DD

0

(L/R)ln[(I_AS*R)/(1.3*Rated BV_DSS- V_DD) + 1]

)

10μs

100

10

1

=

100

10

1

1ms

10ms

DC

Operation in This Area

is Limited by R _DS(on)

Starting T_J= 25^oC

Starting T_J= 100^oC

* Notes :

1. T_C= 25 ^oC

2. T_J= 125 ^oC

3. Single Pulse

0.1

1

10

50

0.01

0.1

1

10

100

1000

V_DS, Drain-Source Voltage [V]

t_AV, Time In Avalanche [ms]

FD6M016N03 Rev. A

5

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AC Test Circuits and Waveforms

tp

V_DS

IAS

V

DS

I

AS

L

D

V_GS

V

DD

G

V_DD

VGS

tp

FD6M016N03

S

0

t

AV

Figure 12. Unclamped Inductive Switching Test Circuit and Waveforms

V_DS

D

R_L

V_GS

R_G

G

Figure 13. Switching Test Waveforms

V_DD

PULSE

FD6M016N03

S

Figure 13. Switching Test Circuit

tON

tOFF

td(OFF)

td(ON)

tr

tf

90%

V_DS

10%

90%

50%

V_IN

50%

PULSE WIDTH

10%

Figure 14. Switching Test Waveforms

FD6M016N03 Rev. A

6

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Application circuits

V_IN

V_OUT

10

9

15

D2

G2

8

6

14

13

12

11

G1

7

S2

PWM

Controller

S1

D1

1

2

3

4

5

OPTO

Feedback

Figure 15. Application Circuit of Forward Converter with FD6M016N03

L_F

V_OUT

V_IN

10

9

15

D2

G2

C_F

Q₁

8

6

C_R

14

13

12

11

G1

FOD817

KA431

V_OUT_FB

7

S2

Q₂

S1

D1

1

2

3

4

5

L_F

Figure 16. Application Circuit of Asymmetrical HB Converter with FD6M016N03

L_F

V_OUT

V_IN

Q₁

Q₃

10

9

15

D2

G2

C_F

8

6

14

13

12

11

G1

FOD817

KA431

V_OUT_FB

7

S2

Q₂

Q₄

S1

D1

1

2

3

4

5

L_F

Figure 17. Application Circuit of Full Bridge Converter with FD6M016N03

FD6M016N03 Rev. A

7

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Detailed Package Outline Drawings

26.20

25.80

2.70

2.30

23.10

22.90

(0.50)

(R0.50)

5.35

5.15

10.70

10.30

(12.00)

14.50

13.50

18.50

17.50

(1.50)

(R0.55)

(0.77)

0.70

0.30

(6.00)

0.60

0.40

MAX 3.07

MAX 0.80

2.97

2.77

0.70

0.50

3.48

2.88

1.27

22.86

(R0.50)

2.70

2.30

Figure 18. EPM15 Package

Dimensions in Millimeters

FD6M016N03 Rev. A

8

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TRADEMARKS

The following includes registered and unregistered trademarks and service marks, owned by Fairchild Semiconductor and/or its global

subsidianries, and is not intended to be an exhaustive list of all such trademarks.

ACEx^®

FPS™

PDP-SPM™

The Power Franchise^®

Build it Now™

CorePLUS™

CorePOWER™

CROSSVOLT™

CTL™

Current Transfer Logic™

EcoSPARK^®

EfficentMax™

F-PFS™

Power-SPM™

PowerTrench^®

Programmable Active Droop™

QFET^®

QS™

Quiet Series™

RapidConfigure™

FRFET^®

Global Power Resource^SM

Green FPS™

Green FPS™ e-Series™

GTO™

TinyBoost™

TinyBuck™

TinyLogic^®

TINYOPTO™

TinyPower™

IntelliMAX™

ISOPLANAR™

MegaBuck™

MICROCOUPLER™

MicroFET™

Saving our world 1mW at a time™ TinyPWM™

EZSWITCH™ *

SmartMax™

SMART START™

SPM^®

STEALTH™

SuperFET™

SuperSOT™-3

SuperSOT™-6

SuperSOT™-8

SuperMOS™

®

TinyWire™

µSerDes™

™

®

MicroPak™

Fairchild^®

MillerDrive™

MotionMax™

Motion-SPM™

OPTOLOGIC^®

UHC^®

Ultra FRFET™

UniFET™

VCX™

Fairchild Semiconductor^®

FACT Quiet Series™

FACT^®

FAST^®

OPTOPLANAR^®

VisualMax™

®

FastvCore™

tm

FlashWriter^®

*

* EZSWITCH™ and FlashWriter^®are trademarks of System General Corporation, used under license by Fairchild Semiconductor.

DISCLAIMER

FAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY PRODUCTS

HEREIN TO IMPROVE RELIABILITY, FUNCTION, OR DESIGN. FAIRCHILD DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE

APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES IT CONVEY ANY LICENSE UNDER

ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS. THESE SPECIFICATIONS DO NOT EXPAND THE TERMS OF FAIRCHILD’S

WORLDWIDE TERMS AND CONDITIONS, SPECIFICALLY THE WARRANTY THEREIN, WHICH COVERS THESE PRODUCTS.

LIFE SUPPORT POLICY

FAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR

SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF FAIRCHILD SEMICONDUCTOR CORPORATION.

As used herein:

1. Life support devices or systems are devices or systems which,

(a) are intended for surgical implant into the body or (b)

support or sustain life, and (c) whose failure to perform when

properly used in accordance with instructions for use provided

in the labeling, can be reasonably expected to result in a

significant injury of the user.

2. A critical component in any component of a life support,

device, or system whose failure to perform can be reasonably

expected to cause the failure of the life support device or

system, or to affect its safety or effectiveness.

PRODUCT STATUS DEFINITIONS

Definition of Terms

Datasheet Identification

Product Status

Definition

This datasheet contains the design specifications for product development.

Specifications may change in any manner without notice.

Advance Information

Formative or In Design

This datasheet contains preliminary data; supplementary data will be pub-

lished at a later date. Fairchild Semiconductor reserves the right to make

changes at any time without notice to improve design.

Preliminary

First Production

This datasheet contains final specifications. Fairchild Semiconductor reserves

the right to make changes at any time without notice to improve the design.

No Identification Needed

Obsolete

Full Production

This datasheet contains specifications on a product that is discontinued by

Fairchild Semiconductor. The datasheet is for reference information only.

Not In Production

Rev. I34

FD6M016N03 Rev. A

9

www.fairchildsemi.com


型号：	FD6M016N03
厂家：	FAIRCHILD SEMICONDUCTOR
描述：	30V/80A Synchronous Rectifier Module 30V / 80A同步整流模块
文件：	总9页 (文件大小：904K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

FD6M016N03 [FAIRCHILD]

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