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PDF ( 数据手册 , 数据表 ) HUF75332S3S

零件编号 HUF75332S3S
描述 60A/ 55V/ 0.019 Ohm/ N-Channel UltraFET Power MOSFETs
制造商 Intersil Corporation
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HUF75332S3S 数据手册, 描述, 功能
HUF75332G3, HUF75332P3, HUF75332S3S
Data Sheet
June 1999 File Number 4489.3
60A, 55V, 0.019 Ohm, N-Channel UltraFET
Power MOSFETs
These N-Channel power MOSFETs
are manufactured using the
innovative UltraFET™ process.
This advanced process technology
achieves the lowest possible on-resistance per silicon area,
resulting in outstanding performance. This device is capable
of withstanding high energy in the avalanche mode and the
diode exhibits very low reverse recovery time and stored
charge. It was designed for use in applications where power
efficiency is important, such as switching regulators,
switching converters, motor drivers, relay drivers, low-
voltage bus switches, and power management in portable
and battery-operated products.
Formerly developmental type TA75332.
Ordering Information
PART NUMBER
PACKAGE
BRAND
HUF75332G3
TO-247
75332G
HUF75332P3
TO-220AB
75332P
HUF75332S3S
TO-263AB
75332S
NOTE: When ordering, use the entire part number. Add the suffix T to
obtain the TO-263AB variant in tape and reel, e.g., HUF75332S3ST.
Packaging
JEDEC STYLE TO-247
SOURCE
DRAIN
GATE
Features
• 60A, 55V
• Simulation Models
- Temperature Compensated PSPICE® and SABER©
Models
- SPICE and SABER Thermal Impedance Models
Available on the WEB at: www.intersil.com
• Peak Current vs Pulse Width Curve
• UIS Rating Curve
• Related Literature
- TB334, “Guidelines for Soldering Surface Mount
Components to PC Boards”
Symbol
D
G
S
JEDEC TO-220AB
DRAIN
(FLANGE)
SOURCE
DRAIN
GATE
DRAIN
(TAB)
JEDEC TO-263AB
GATE
SOURCE
DRAIN
(FLANGE)
94 CAUTION: These devices are sensitive to electrostatic discharge; follow proper ESD Handling Procedures.
UltraFET™ is a trademark of Intersil Corporation. PSPICE® is a registered trademark of MicroSim Corporation.
SABER© is a Copyright of Analogy, Inc. http://www.intersil.com or 407-727-9207 | Copyright © Intersil Corporation 1999







HUF75332S3S pdf, 数据表
HUF75332G3, HUF75332P3, HUF75332S3S
SABER Electrical Model
REV 17 February 1999
template huf75332 n2, n1, n3
electrical n2, n1, n3
{
var i iscl
d..model dbodymod = (is = 1.3e-12, xti = 6, cjo = 1.7e-9, tt = 4.0e-8, m = 0.45, vj = 0.75)
d..model dbreakmod = ()
d..model dplcapmod = (cjo = 1.8e-9, is = 1e-30, m = 0.9, vj = 1.45)
m..model mmedmod = (type=_n, vto = 3.183, kp = 2, is = 1e-30, tox = 1)
m..model mstrongmod = (type=_n, vto = 3.66, kp = 51.5, is = 1e-30, tox = 1)
m..model mweakmod = (type=_n, vto = 2.703, kp = 8.0e-3, is = 1e-30, tox = 1)
sw_vcsp..model s1amod = (ron = 1e-5, roff = 0.1, von = -8, voff = -3)
sw_vcsp..model s1bmod = (ron = 1e-5, roff = 0.1, von = -3, voff = -8)
sw_vcsp..model s2amod = (ron = 1e-5, roff = 0.1, von = 0, voff = 0.5)
DPLCAP
10
RSLC2
5
RSLC1
51
ISCL
RDBREAK
72
LDRAIN
DRAIN
2
RLDRAIN
RDBODY
sw_vcsp..model s2bmod = (ron = 1e-5, roff = 0.1, von = 0.5, voff = 0)
c.ca n12 n8 = 1.8e-9
c.cb n15 n14 = 1.73e-9
c.cin n6 n8 = 1.19e-9
-
ESG
6
8
+
d.dbody n7 n71 = model=dbodymod
d.dbreak n72 n11 = model=dbreakmod
d.dplcap n10 n5 = model=dplcapmod
i.it n8 n17 = 1
GATE
1
LGATE
EVTEMP
RGATE + 18 -
9 20 22
RLGATE
6
l.ldrain n2 n5 = 1.0e-9
EVTHRES
+ 19 -
8
CIN
50
RDRAIN
16
21
DBREAK
11
MWEAK
MMED
MSTRO
8
EBREAK
+
17
18
-
7
71
DBODY
LSOURCE
SOURCE
3
l.lgate n1 n9 = 1.0e-9
l.lsource n3 n7 = 1.0e-9
RSOURCE
RLSOURCE
k.kl i (l.lgate) i (l.lsource) = l (l.lgate), l (l.lsource), 0.0085
m.mmed n16 n6 n8 n8 = model=mmedmod, l = 1u, w = 1u
S1A
12 13
8
S2A
14 15
13
RBREAK
17 18
m.mstrong n16 n6 n8 n8 = model=mstrongmod, l = 1u, w = 1u
m.mweak n16 n21 n8 n8 = model=mweakmod, l = 1u, w = 1u
S1B
S2B
CA 13 CB
res.rbreak n17 n18 = 1, tc1 = 1.05e-3, tc2 = 4.5e-7
+ + 14
IT
RVTEMP
19
-
res.rdbody n71 n5 = 3.0e-3, tc1 = 2.7e-3, tc2 = 7.0e-7
res.rdbreak n72 n5 = 1.71e-2, tc1 = -4.0e-4, tc2 = -1.55e-5
res.rdrain n50 n16 = 4.5e-3, tc1 = 1.16e-2, tc2 = 1.7e-5
res.rgate n9 n20 = 1.3
EGS
6
8
-
EDS
5
8
-
8
VBAT
+
22
res.rldrain n2 n5 = 10
RVTHRES
res.rlgate n1 n9 = 10
res.rlsource n3 n7 = 10
res.rslc1 n5 n51 = 1e-6, tc1 = 3.96e-3, tc2 = 2.7e-6
res.rslc2 n5 n50 = 1e3
res.rsource n8 n7 = 5.95e-3, tc1 = 1e-3, tc2 = 1e-5
res.rvtemp n18 n19 = 1, tc1 = -2.75e-3, tc2 = 5.0e-7
res.rvthres n22 n8 = 1, tc1 = -2.8e-3, tc2 = -1.0e-5
spe.ebreak n11 n7 n17 n18 = 58.85
spe.eds n14 n8 n5 n8 = 1
spe.egs n13 n8 n6 n8 = 1
spe.esg n6 n10 n6 n8 = 1
spe.evtemp n20 n6 n18 n22 = 1
spe.evthres n6 n21 n19 n8 = 1
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)*1e6/180))** 4.6))
}
}
101







HUF75332S3S equivalent, schematic
HUF75332G3, HUF75332P3, HUF75332S3S
PSPICE Electrical Model
.SUBCKT HUF75332 2 1 3 ; rev 17 February 1999
CA 12 8 1.8e-9
CB 15 14 1.73e-9
CIN 6 8 1.19e-9
DBODY 7 5 DBODYMOD
DBREAK 5 11 DBREAKMOD
DPLCAP 10 5 DPLCAPMOD
EBREAK 11 7 17 18 58.85
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
GATE
1
LDRAIN 2 5 1e-9
LGATE 1 9 1e-9
LSOURCE 3 7 1e-9
K1 LSOURCE LGATE 0.0085
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 4.5e-3
RGATE 9 20 1.3
RLDRAIN 2 5 10
RLGATE 1 9 10
RLSOURCE 3 7 10
RSLC1 5 51 RSLCMOD 1e-6
RSLC2 5 50 1e3
RSOURCE 8 7 RSOURCEMOD 5.95e-3
RVTHRES 22 8 RVTHRESMOD 1
RVTEMP 18 19 RVTEMPMOD 1
DPLCAP 5
10
RSLC2
RSLC1
51
5
51
ESLC
DBREAK
11
LDRAIN
DRAIN
2
RLDRAIN
-
LGATE
ESG
6
8
+ EVTHRES
+ 19 -
EVTEMP
8
RGATE + 18 - 6
9 20 22
RLGATE
CIN
S1A
12 13
8
S2A
14
13
15
50
RDRAIN
16
21
EBREAK
+
17
18
-
MWEAK
DBODY
MMED
MSTRO
87
RSOURCE
LSOURCE
SOURCE
3
RLSOURCE
RBREAK
17 18
S1B
S2B
CA 13 CB
+ + 14
EGS
6
8
-
EDS
5
8
-
RVTEMP
19
IT -
VBAT
+
8
22
RVTHRES
S1A 6 12 13 8 S1AMOD
S1B 13 12 13 8 S1BMOD
S2A 6 15 14 13 S2AMOD
S2B 13 15 14 13 S2BMOD
VBAT 22 19 DC 1
ESLC 51 50 VALUE={(V(5,51)/ABS(V(5,51)))*(PWR(V(5,51)/(1e-6*180),4.6))}
.MODEL DBODYMOD D (IS = 1.3e-12 RS = 3.0e-3 IKF = 20 XTI = 6 TRS1 = 2.7e-3 TRS2 = 7.0e-7 CJO = 1.7e-9 TT = 4.0e-8 M = 0.45 vj = 0.75)
.MODEL DBREAKMOD D (RS = 1.71e-2 IKF = 1.0e-5 TRS1 = -4.0e-4 TRS2 = -1.55e-5)
.MODEL DPLCAPMOD D (CJO = 1.8e-9 IS = 1e-30 N = 1 M = 0.9 vj = 1.45)
.MODEL MMEDMOD NMOS (VTO = 3.183 KP = 2 IS = 1e-30 N = 10 TOX = 1 L = 1u W = 1u RG = 1.3)
.MODEL MSTROMOD NMOS (VTO = 3.66 KP = 51.5 IS = 1e-30 N = 10 TOX = 1 L = 1u W = 1u)
.MODEL MWEAKMOD NMOS (VTO = 2.703 KP = 0.008 IS = 1e-30 N = 10 TOX = 1 L = 1u W = 1u RG = 13)
.MODEL RBREAKMOD RES (TC1 = 1.05e-3 TC2 = 4.5e-7)
.MODEL RDRAINMOD RES (TC1 = 1.16e-2 TC2 = 1.7e-5)
.MODEL RSLCMOD RES (TC1 = 3.96e-3 TC2 = 2.7e-6)
.MODEL RSOURCEMOD RES (TC1 = 1e-3 TC2 = 1e-5)
.MODEL RVTHRESMOD RES (TC1 = -2.8e-3 TC2 = -1.0e-5)
.MODEL RVTEMPMOD RES (TC1 = -2.75e-3 TC2 = 5.0e-7)
.MODEL S1AMOD VSWITCH (RON = 1e-5 ROFF = 0.1 VON = -8 VOFF= -3)
.MODEL S1BMOD VSWITCH (RON = 1e-5 ROFF = 0.1 VON = -3 VOFF= -8)
.MODEL S2AMOD VSWITCH (RON = 1e-5 ROFF = 0.1 VON = 0 VOFF= 0.5)
.MODEL S2BMOD VSWITCH (RON = 1e-5 ROFF = 0.1 VON = 0.5 VOFF= 0)
.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.
100










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