FAIRCHILD FQPF60N03L

QFET
TM
FQPF60N03L
30V LOGIC N-Channel MOSFET
General Description
Features
These N-Channel enhancement mode power field effect
transistors are produced using Fairchild’s proprietary,
planar stripe, DMOS technology.
This advanced technology has been especially tailored to
minimize on-state resistance, provide superior switching
performance, and withstand high energy pulse in the
avalanche and commutation mode. These devices are well
suited for low voltage applications such as DC/DC
converters, high efficiency switching for power
management in portable and battery operated products.
•
•
•
•
•
•
•
39A, 30V, RDS(on) = 0.0135Ω @VGS = 10 V
Low gate charge ( typical 18.5 nC)
Low Crss ( typical 155 pF)
Fast switching
100% avalanche tested
Improved dv/dt capability
175°C maximum junction temperature rating
D
!
"
! "
"
"
G!
GD S
Absolute Maximum Ratings
Symbol
VDSS
ID
TO-220F
!
FQPF Series
S
TC = 25°C unless otherwise noted
Parameter
Drain-Source Voltage
- Continuous (TC = 25°C)
Drain Current
FQPF60N03L
30
Units
V
39
A
- Continuous (TC = 100°C)
IDM
Drain Current
- Pulsed
(Note 1)
27.6
A
156
A
± 20
V
220
mJ
VGSS
Gate-Source Voltage
EAS
Single Pulsed Avalanche Energy
(Note 2)
IAR
Avalanche Current
(Note 1)
39
A
EAR
Repetitive Avalanche Energy
Peak Diode Recovery dv/dt
Power Dissipation (TC = 25°C)
(Note 1)
4.2
7.0
42
0.28
-55 to +175
mJ
V/ns
W
W/°C
°C
300
°C
dv/dt
PD
TJ, TSTG
TL
(Note 3)
- Derate above 25°C
Operating and Storage Temperature Range
Maximum lead temperature for soldering purposes,
1/8" from case for 5 seconds
Thermal Characteristics
Symbol
RθJC
Parameter
Thermal Resistance, Junction-to-Case
RθJA
Thermal Resistance, Junction-to-Ambient
©2001 Fairchild Semiconductor Corporation
Typ
--
Max
3.54
Units
°C/W
--
62.5
°C/W
Rev. A1. May 2001
FQPF60N03L
May 2001
Symbol
TC = 25°C unless otherwise noted
Parameter
Test Conditions
Min
Typ
Max
Units
30
--
--
V
--
V/°C
Off Characteristics
BVDSS
Drain-Source Breakdown Voltage
VGS = 0 V, ID = 250 µA
∆BVDSS
/ ∆TJ
Breakdown Voltage Temperature
Coefficient
ID = 250 µA, Referenced to
25°C
VDS = 30 V, VGS = 0 V
--
0.02
--
--
1
µA
VDS = 24 V, TC = 150°C
--
--
10
µA
Gate-Body Leakage Current, Forward
VGS = 20 V, VDS = 0 V
--
--
100
nA
Gate-Body Leakage Current, Reverse
VGS = -20 V, VDS = 0 V
--
--
-100
nA
Gate Threshold Voltage
VDS = VGS, ID = 250 µA
1.0
--
2.5
V
RDS(on)
Static Drain-Source
On-Resistance
VGS = 10 V, ID = 19.5 A
VGS = 5 V, ID =19.5 A
---
0.011
0.015
0.0135
0.019
Ω
gFS
Forward Transconductance
VDS = 15 V, ID = 19.5 A
--
28
--
S
--
875
1140
pF
--
570
740
pF
--
155
200
pF
IDSS
IGSSF
IGSSR
Zero Gate Voltage Drain Current
On Characteristics
VGS(th)
(Note 4)
Dynamic Characteristics
Ciss
Input Capacitance
Coss
Output Capacitance
Crss
Reverse Transfer Capacitance
VDS = 25 V, VGS = 0 V,
f = 1.0 MHz
Switching Characteristics
td(on)
Turn-On Delay Time
tr
Turn-On Rise Time
td(off)
Turn-Off Delay Time
tf
Turn-Off Fall Time
Qg
Total Gate Charge
Qgs
Gate-Source Charge
Qgd
Gate-Drain Charge
VDD = 15 V, ID = 30 A,
RG = 25 Ω
(Note 4, 5)
VDS = 24 V, ID = 60 A,
VGS = 5 V
(Note 4, 5)
--
17
45
ns
--
155
320
ns
--
10
30
ns
--
75
160
ns
--
18.5
24
nC
--
7
--
nC
--
9.5
--
nC
Drain-Source Diode Characteristics and Maximum Ratings
IS
Maximum Continuous Drain-Source Diode Forward Current
--
--
39
A
ISM
--
--
156
A
VSD
Maximum Pulsed Drain-Source Diode Forward Current
VGS = 0 V, IS = 39 A
Drain-Source Diode Forward Voltage
--
--
1.5
V
trr
Reverse Recovery Time
--
40
--
ns
Qrr
Reverse Recovery Charge
VGS = 0 V, IS = 60 A,
dIF / dt = 100 A/µs
--
35
--
nC
(Note 4)
Notes:
1. Repetitive Rating : Pulse width limited by maximum junction temperature
2. L = 145µH, IAS = 39A, VDD = 15V, RG = 25 Ω, Starting TJ = 25°C
3. ISD ≤ 60A, di/dt ≤ 300A/µs, VDD ≤ BVDSS, Starting TJ = 25°C
4. Pulse Test : Pulse width ≤ 300µs, Duty cycle ≤ 2%
5. Essentially independent of operating temperature
©2001 Fairchild Semiconductor Corporation
Rev. A1. May 2001
FQPF60N03L
Electrical Characteristics
FQPF60N03L
Typical Characteristics
VGS
10.0 V
8.0 V
6.0 V
5.0 V
4.5 V
4.0 V
3.5 V
Bottom : 3.0 V
Top :
ID, Drain Current [A]
2
10
ID, Drain Current [A]
2
10
1
10
1
10
175℃
25℃
※ Notes :
1. 250μ s Pulse Test
2. TC = 25℃
※ Notes :
1. VDS = 15V
2. 250μ s Pulse Test
-55℃
0
-1
0
10
10
1
10
0
10
2
4
6
8
10
VGS, Gate-Source Voltage [V]
VDS, Drain-Source Voltage [V]
Figure 1. On-Region Characteristics
Figure 2. Transfer Characteristics
40
2
IDR, Reverse Drain Current [A]
R DS(ON) [mΩ ],
Drain-Source On-Resistance
10
30
VGS = 5V
VGS = 10V
20
1
10
10
※ Note : TJ = 25℃
175℃
※ Notes :
1. VGS = 0V
2. 250μ s Pulse Test
25℃
0
0
40
80
120
160
200
240
0
10
0.2
0.4
0.6
ID, Drain Current [A]
Figure 3. On-Resistance Variation vs.
Drain Current and Gate Voltage
3000
1.0
※ Notes :
1. VGS = 0 V
2. f = 1 MHz
1000
Crss
500
V GS , Gate-Source Voltage [V]
Coss
1500
1.6
1.8
VDS = 15V
10
Ciss
1.4
12
Ciss = Cgs + Cgd (Cds = shorted)
Coss = Cds + Cgd
Crss = Cgd
2000
1.2
Figure 4. Body Diode Forward Voltage
Variation vs. Source Current
and Temperature
2500
Capacitance [pF]
0.8
VSD, Source-Drain voltage [V]
VDS = 24V
8
6
4
2
※ Note : ID = 60A
0
0
0
-1
10
0
10
VDS, Drain-Source Voltage [V]
Figure 5. Capacitance Characteristics
©2001 Fairchild Semiconductor Corporation
5
10
15
20
25
30
35
1
10
QG, Total Gate Charge [nC]
Figure 6. Gate Charge Characteristics
Rev. A1. May 2001
(Continued)
1.2
2.5
2.0
1.1
RDS(ON) , (Normalized)
Drain-Source On-Resistance
BV DSS , (Normalized)
Drain-Source Breakdown Voltage
FQPF60N03L
Typical Characteristics
1.5
1.0
1.0
※ Notes :
1. VGS = 0 V
2. ID = 250 μ A
0.9
0.8
-100
-50
0
50
100
0.5
150
※ Notes :
1. VGS = 10 V
2. ID = 30 A
0.0
-100
200
-50
0
50
100
150
200
o
o
TJ, Junction Temperature [ C]
TJ, Junction Temperature [ C]
Figure 7. Breakdown Voltage Variation
vs. Temperature
Figure 8. On-Resistance Variation
vs. Temperature
3
40
10
Operation in This Area
is Limited by R DS(on)
30
1 ms
ID , Drain Current [A]
ID , Drain Current [A]
2
10
10 ms
100 ms
DC
1
10
※ Notes :
20
10
o
1. TC = 25 C
o
2. TJ = 175 C
3. Single Pulse
0
10
-1
0
10
0
25
1
10
10
50
Figure 9. Maximum Safe Operating Area
100
125
150
175
Figure 10. Maximum Drain Current
vs. Case Temperature
D = 0 .5
10
0
0 .2
※ N otes :
1 . Z θ J C( t ) = 3 . 5 4 ℃ /W M a x .
2 . D u t y F a c t o r , D = t 1 /t 2
3 . T J M - T C = P D M * Z θ J C( t )
0 .1
0 .0 5
10
-1
0 .0 2
PDM
0 .0 1
t1
θ
JC
(t), T h e rm a l R e s p o n s e
75
TC, Case Temperature [℃]
VDS, Drain-Source Voltage [V]
t2
Z
s in g le p u ls e
10
-2
10
-5
10
-4
10
-3
10
-2
10
-1
10
0
10
1
t1 , S q u a r e W a v e P u ls e D u r a tio n [s e c ]
Figure 11. Transient Thermal Response Curve
©2001 Fairchild Semiconductor Corporation
Rev. A1. May 2001
FQPF60N03L
Gate Charge Test Circuit & Waveform
VGS
Same Type
as DUT
50KΩ
Qg
200nF
12V
5V
300nF
VDS
VGS
Qgs
Qgd
DUT
3mA
Charge
Resistive Switching Test Circuit & Waveforms
VDS
RL
VDS
90%
VDD
VGS
RG
VGS
DUT
5V
10%
tr
td(on)
td(off)
t on
tf
t off
Unclamped Inductive Switching Test Circuit & Waveforms
BVDSS
1
EAS = ---- L IAS2 -------------------2
BVDSS - VDD
L
VDS
BVDSS
IAS
ID
RG
VDD
DUT
10V
tp
©2001 Fairchild Semiconductor Corporation
ID (t)
VDS (t)
VDD
tp
Time
Rev. A1. May 2001
FQPF60N03L
Peak Diode Recovery dv/dt Test Circuit & Waveforms
DUT
+
VDS
_
I SD
L
Driver
RG
VGS
VGS
( Driver )
Same Type
as DUT
VDD
• dv/dt controlled by RG
• ISD controlled by pulse period
Gate Pulse Width
D = -------------------------Gate Pulse Period
10V
IFM , Body Diode Forward Current
I SD
( DUT )
di/dt
IRM
Body Diode Reverse Current
VDS
( DUT )
Body Diode Recovery dv/dt
VSD
VDD
Body Diode
Forward Voltage Drop
©2001 Fairchild Semiconductor Corporation
Rev. A1. May 2001
3.30 ±0.10
TO-220F
10.16 ±0.20
2.54 ±0.20
ø3.18 ±0.10
(7.00)
(1.00x45°)
15.87 ±0.20
15.80 ±0.20
6.68 ±0.20
(0.70)
0.80 ±0.10
)
0°
(3
9.75 ±0.30
MAX1.47
#1
+0.10
0.50 –0.05
2.54TYP
[2.54 ±0.20]
2.54TYP
[2.54 ±0.20]
9.40 ±0.20
©2001 Fairchild Semiconductor Corporation
2.76 ±0.20
4.70 ±0.20
0.35 ±0.10
Rev. A1. May 2001
FQPF60N03L
Package Dimensions
TRADEMARKS
The following are registered and unregistered trademarks Fairchild Semiconductor owns or is authorized to use and is not
intended to be an exhaustive list of all such trademarks.
ACEx™
Bottomless™
CoolFET™
CROSSVOLT™
DenseTrench™
DOME™
EcoSPARK™
E2CMOS™
EnSigna™
FACT™
FACT Quiet Series™
FAST®
FASTr™
FRFET™
GlobalOptoisolator™
GTO™
HiSeC™
ISOPLANAR™
LittleFET™
MicroFET™
MICROWIRE™
OPTOLOGIC™
OPTOPLANAR™
PACMAN™
POP™
PowerTrench®
QFET™
QS™
QT Optoelectronics™
Quiet Series™
SLIENT SWITCHER®
SMART START™
Stealth™
SuperSOT™-3
SuperSOT™-6
SuperSOT™-8
SyncFET™
TinyLogic™
UHC™
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VCX™
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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, or (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 significant injury to the user.
2. A critical component is 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
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PRODUCT STATUS DEFINITIONS
Definition of Terms
Datasheet Identification
Product Status
Definition
Advance Information
Formative or In
Design
This datasheet contains the design specifications for
product development. Specifications may change in
any manner without notice.
Preliminary
First Production
This datasheet contains preliminary data, and
supplementary data will be published at a later date.
Fairchild Semiconductor reserves the right to make
changes at any time without notice in order to improve
design.
No Identification Needed
Full Production
This datasheet contains final specifications. Fairchild
Semiconductor reserves the right to make changes at
any time without notice in order to improve design.
Obsolete
Not In Production
This datasheet contains specifications on a product
that has been discontinued by Fairchild semiconductor.
The datasheet is printed for reference information only.
©2001 Fairchild Semiconductor Corporation
Rev. H2