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PDF ( 数据手册 , 数据表 ) FDD044AN03L

零件编号 FDD044AN03L
描述 N-Channel PowerTrench MOSFET
制造商 Fairchild Semiconductor
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FDD044AN03L 数据手册, 描述, 功能
December 2003
FDD044AN03L / FDU044AN03L
N-Channel PowerTrench® MOSFET
30V, 35A, 4.4m
Features
• rDS(ON) = 3.6m(Typ.), VGS = 4.5V, ID = 35A
• Qg(5) = 48nC (Typ.), VGS = 5V
• Low Miller Charge
• Low QRR Body Diode
• UIS Capability (Single Pulse and Repetitive Pulse)
• Qualified to AEC Q101
Applications
• 12V Automotive Load Control
• Starter / Alternator Systems
• Electronic Power Steering Systems
• ABS
• DC-DC Converters
D
G
S DTO-P-2A5K2
(TO-252)
GDS
I-PAK
(TO-251AA)
D
G
S
MOSFET Maximum Ratings TC = 25°C unless otherwise noted
Symbol
VDSS
VGS
ID
EAS
PD
Parameter
Drain to Source Voltage
Gate to Source Voltage
Drain Current
Continuous (TC < 168oC, VGS = 10V)
Continuous (TC < 167oC, VGS = 4.5V)
Continuous (Tamb = 25oC, VGS = 10V, with RθJA = 52oC/W)
Pulsed
Single Pulse Avalanche Energy (Note 1)
Power dissipation
Derate above 25oC
TJ, TSTG Operating and Storage Temperature
Thermal Characteristics
RθJC
RθJA
RθJA
Thermal Resistance Junction to Case TO-252, TO-251
Thermal Resistance Junction to Ambient TO-252, TO-251
Thermal Resistance Junction to Ambient TO-252, 1in2 copper pad area
Ratings
30
±20
35
35
21
Figure 4
690
160
1.07
-55 to 175
0.94
100
52
Units
V
V
A
A
A
A
mJ
W
W/oC
oC
oC/W
oC/W
oC/W
This product has been designed to meet the extreme test conditions and environment demanded by the automotive industry. For a
copy of the requirements, see AEC Q101 at: http://www.aecouncil.com/
Reliability data can be found at: http://www.fairchildsemi.com/products/discrete/reliability/index.html.
All Fairchild Semiconductor products are manufactured, assembled and tested under ISO9000 and QS9000 quality systems
certification.
©2003 Fairchild Semiconductor Corporation
FDD044AN03L / FDU044AN03L Rev. B1







FDD044AN03L pdf, 数据表
PSPICE Electrical Model
.SUBCKT FDD044AN03L 2 1 3 ; rev December 2003
Ca 12 8 4.2e-9
Cb 15 14 4.2e-9
Cin 6 8 4.7e-9
Dbody 7 5 DbodyMOD
Dbreak 5 11 DbreakMOD
Dplcap 10 5 DplcapMOD
Ebreak 11 7 17 18 32.7
DPLCAP 5
10
RSLC2
RSLC1
51
5
51
ESLC
DBREAK
11
LDRAIN
DRAIN
2
RLDRAIN
Eds 14 8 5 8 1
Egs 13 8 6 8 1
Esg 6 10 6 8 1
Evthres 6 21 19 8 1
Evtemp 20 6 18 22 1
It 8 17 1
Lgate 1 9 5e-9
Ldrain 2 5 1.0e-9
Lsource 3 7 2e-9
RLgate 1 9 50
RLdrain 2 5 10
RLsource 3 7 20
GATE
1
LGATE
RLGATE
-
ESG
6
8
+
EVTEMP
RGATE + 18 -
9 20 22
6
EVTHRES
+ 19 -
8
CIN
S1A
12 13
8
S2A
14 15
13
50
RDRAIN
16
21
+
17
EBREAK 18
-
MWEAK
DBODY
MMED
MSTRO
87
RSOURCE
LSOURCE
SOURCE
3
RLSOURCE
RBREAK
17 18
Mmed 16 6 8 8 MmedMOD
Mstro 16 6 8 8 MstroMOD
Mweak 16 21 8 8 MweakMOD
Rbreak 17 18 RbreakMOD 1
Rdrain 50 16 RdrainMOD 1.57e-3
Rgate 9 20 2.1
RSLC1 5 51 RSLCMOD 1e-6
RSLC2 5 50 1e3
Rsource 8 7 RsourceMOD 1.2e-3
Rvthres 22 8 RvthresMOD 1
Rvtemp 18 19 RvtempMOD 1
S1a 6 12 13 8 S1AMOD
S1b 13 12 13 8 S1BMOD
S2a 6 15 14 13 S2AMOD
S2b 13 15 14 13 S2BMOD
S1B
S2B
CA 13 CB
+ + 14
EGS
6
8
-
EDS
5
8
-
RVTEMP
19
IT -
VBAT
+
8
22
RVTHRES
Vbat 22 19 DC 1
ESLC 51 50 VALUE={(V(5,51)/ABS(V(5,51)))*(PWR(V(5,51)/(1e-6*500),10))}
.MODEL DbodyMOD D (IS=1.3E-11 IKF=10 N=1.01 RS=1.8e-3 TRS1=8e-4 TRS2=2e-7
+ CJO=2e-9 M=0.57 TT=1e-10 XTI=0.9)
.MODEL DbreakMOD D (RS=8e-2 TRS1=1e-3 TRS2=-8.9e-6)
.MODEL DplcapMOD D (CJO=1.6e-9 IS=1e-30 N=10 M=0.38)
.MODEL MmedMOD NMOS (VTO=1.76 KP=10 IS=1e-30 N=10 TOX=1 L=1u W=1u RG=2.1 T_ABS=25)
.MODEL MstroMOD NMOS (VTO=2.2 KP=650 IS=1e-30 N=10 TOX=1 L=1u W=1u T_ABS=25)
.MODEL MweakMOD NMOS (VTO=1.47 KP=0.05 IS=1e-30 N=10 TOX=1 L=1u W=1u RG=21 RS=0.1 T_ABS=25)
.MODEL RbreakMOD RES (TC1=8.3e-4 TC2=-4e-7)
.MODEL RdrainMOD RES (TC1=2e-4 TC2=8e-6)
.MODEL RSLCMOD RES (TC1=9e-4 TC2=1e-6)
.MODEL RsourceMOD RES (TC1=8e-3 TC2=1e-6)
.MODEL RvthresMOD RES (TC1=-2e-3 TC2=-9.5e-6)
.MODEL RvtempMOD RES (TC1=-2.6e-3 TC2=2e-7)
.MODEL S1AMOD VSWITCH (RON=1e-5 ROFF=0.1 VON=-4 VOFF=-3)
.MODEL S1BMOD VSWITCH (RON=1e-5 ROFF=0.1 VON=-3 VOFF=-4)
.MODEL S2AMOD VSWITCH (RON=1e-5 ROFF=0.1 VON=-2 VOFF=-0.5)
.MODEL S2BMOD VSWITCH (RON=1e-5 ROFF=0.1 VON=-0.5 VOFF=-2)
.ENDS
Note: For further discussion of the PSPICE model, consult A New PSPICE Sub-Circuit for the Power MOSFET Featuring Global
Temperature Options; IEEE Power Electronics Specialist Conference Records, 1991, written by William J. Hepp and C. Frank
Wheatley.
©2003 Fairchild Semiconductor Corporation
FDD044AN03L / FDU044AN03L Rev. B1














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