FDD16AN08A0_F085 Fairchild Semiconductor, FDD16AN08A0_F085 Datasheet - Page 9
FDD16AN08A0_F085
Manufacturer Part Number
FDD16AN08A0_F085
Description
MOSFET N-CH 75V 50A DPAK
Manufacturer
Fairchild Semiconductor
Series
UltraFET™r
Datasheet
1.FDD16AN08A0_F085.pdf
(11 pages)
Specifications of FDD16AN08A0_F085
Fet Type
MOSFET N-Channel, Metal Oxide
Fet Feature
Logic Level Gate
Rds On (max) @ Id, Vgs
16 mOhm @ 50A, 10V
Drain To Source Voltage (vdss)
75V
Current - Continuous Drain (id) @ 25° C
9A
Vgs(th) (max) @ Id
4V @ 250µA
Gate Charge (qg) @ Vgs
47nC @ 10V
Input Capacitance (ciss) @ Vds
1874pF @ 25V
Power - Max
135W
Mounting Type
Surface Mount
Package / Case
TO-252-3, DPak (2 Leads + Tab), SC-63
Configuration
Single
Transistor Polarity
N-Channel
Resistance Drain-source Rds (on)
0.016 Ohms
Drain-source Breakdown Voltage
75 V
Gate-source Breakdown Voltage
+/- 20 V
Continuous Drain Current
50 A
Power Dissipation
135 W
Maximum Operating Temperature
+ 175 C
Mounting Style
SMD/SMT
Minimum Operating Temperature
- 55 C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
FDD16AN08A0_F085 Rev. A1
SABER Electrical Model
rev March 2002
template FDD16AN08A0 n2,n1,n3
electrical n2,n1,n3
{
var i iscl
dp..model dbodymod = (isl=2.4e-11,nl=1.08,rs=3.6e-3,trs1=2.2e-3,trs2=2.5e-9,cjo=1.2e-9,m=5.4e-1,tt=1.70e-8,xti=3.9)
dp..model dbreakmod = (rs=1.5e-1,trs1=1e-3,trs2=-8.9e-6)
dp..model dplcapmod = (cjo=0.5e-9,isl=10e-30,nl=10,m=0.5)
m..model mmedmod = (type=_n,vto=3.65,kp=3,is=1e-30, tox=1)
m..model mstrongmod = (type=_n,vto=4.1,kp=67,is=1e-30, tox=1)
m..model mweakmod = (type=_n,vto=3.05,kp=0.06,is=1e-30, tox=1,rs=0.1)
sw_vcsp..model s1amod = (ron=1e-5,roff=0.1,von=-4,voff=-1.5)
sw_vcsp..model s1bmod = (ron=1e-5,roff=0.1,von=-1.5,voff=-4)
sw_vcsp..model s2amod = (ron=1e-5,roff=0.1,von=-1,voff=0.5)
sw_vcsp..model s2bmod = (ron=1e-5,roff=0.1,von=0.5,voff=-1)
c.ca n12 n8 = 6.8e-10
c.cb n15 n14 = 8.9e-10
c.cin n6 n8 = 1.8e-9
dp.dbody n7 n5 = model=dbodymod
dp.dbreak n5 n11 = model=dbreakmod
dp.dplcap n10 n5 = model=dplcapmod
spe.ebreak n11 n7 n17 n18 = 80.00
spe.eds n14 n8 n5 n8 = 1
spe.egs n13 n8 n6 n8 = 1
spe.esg n6 n10 n6 n8 = 1
spe.evthres n6 n21 n19 n8 = 1
spe.evtemp n20 n6 n18 n22 = 1
i.it n8 n17 = 1
l.lgate n1 n9 = 4.81e-9
l.ldrain n2 n5 = 1.0e-9
l.lsource n3 n7 = 4.63e-9
res.rlgate n1 n9 = 48.1
res.rldrain n2 n5 = 10
res.rlsource n3 n7 = 46.3
m.mmed n16 n6 n8 n8 = model=mmedmod, l=1u, w=1u
m.mstrong n16 n6 n8 n8 = model=mstrongmod, l=1u, w=1u
m.mweak n16 n21 n8 n8 = model=mweakmod, l=1u, w=1u
res.rbreak n17 n18 = 1, tc1=0.9e-3,tc2=-5e-7
res.rdrain n50 n16 = 2e-3, tc1=2.5e-2,tc2=6.2e-5
res.rgate n9 n20 = 3.9
res.rslc1 n5 n51 = 1e-6, tc1=1e-3,tc2=1e-5
res.rslc2 n5 n50 = 1e3
res.rsource n8 n7 = 7e-3, tc1=1e-3,tc2=1e-6
res.rvthres n22 n8 = 1, tc1=-5.3e-3,tc2=-1.3e-5
res.rvtemp n18 n19 = 1, tc1=-2.7e-3,tc2=1e-6
sw_vcsp.s1a n6 n12 n13 n8 = model=s1amod
sw_vcsp.s1b n13 n12 n13 n8 = model=s1bmod
sw_vcsp.s2a n6 n15 n14 n13 = model=s2amod
sw_vcsp.s2b n13 n15 n14 n13 = model=s2bmod
v.vbat n22 n19 = dc=1
equations {
i (n51->n50) +=iscl
iscl: v(n51,n50) = ((v(n5,n51)/(1e-9+abs(v(n5,n51))))*((abs(v(n5,n51)*1e6/200))** 3))
}
}
GATE
1
RLGATE
LGATE
9
RGATE
CA
12
20
EVTEMP
+
S1A
S1B
ESG
18
22
EGS
13
8
+
-
-
9
13
6
8
10
+
+
-
-
14
13
6
8
RSLC2
6
S2A
S2B
DPLCAP
EVTHRES
+
EDS
19
8
15
CB
CIN
-
+
-
5
8
5
MSTRO
14
51
21
RSLC1
50
RDRAIN
ISCL
16
8
MMED
8
RSOURCE
DBREAK
IT
17
MWEAK
EBREAK
RVTHRES
RBREAK
11
+
-
17
18
7
+
18
-
22
www.fairchildsemi.com
RVTEMP
19
RLSOURCE
LSOURCE
VBAT
RLDRAIN
DBODY
LDRAIN
SOURCE
DRAIN
2
3
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