IRF IRF7413PBF

PD - 95017A
IRF7413PbF
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HEXFET® Power MOSFET
Generation V Technology
Ultra Low On-Resistance
N-Channel Mosfet
Surface Mount
Available in Tape & Reel
Dynamic dv/dt Rating
Fast Switching
100% RG Tested
Lead-Free
A
A
D
1
8
S
2
7
D
S
3
6
D
G
4
5
D
S
VDSS = 30V
RDS(on) = 0.011Ω
Top View
Description
Fifth Generation HEXFETs from International Rectifier
utilize advanced processing techniques to achieve
extremely low on-resistance per silicon area. This benefit,
combined with the fast switching speed and ruggedized
device design that HEXFET Power MOSFETs are well
known for, provides the designer with an extremely efficient
and reliable device for use in a wide variety of applications.
The SO-8 has been modified through a customized
leadframe for enhanced thermal characteristics and
multiple-die capability making it ideal in a variety of power
applications. With these improvements, multiple devices
can be used in an application with dramatically reduced
board space. The package is designed for vapor phase,
infra red, or wave soldering techniques. Power dissipation
of greater than 0.8W is possible in a typical PCB mount
application.
SO-8
Absolute Maximum Ratings
Symbol
Max
Units
VDS
Drain-to-Source Voltage
30
V
VGS
Gate-to-Source Voltage
Continuous Drain Current, VGS @ 10V
± 20
9.2
IDM
Continuous Drain Current, VGS @ 10V
Pulsed Drain Current
PD @TA = 25°C
Power Dissipation
2.5
W
EAS
Linear Derating Factor
Single Pulse Avalanche Energency
0.02
260
mW/°C
mJ
5.0
V/ns
°C
ID @ TA = 25°C
ID @ TA = 70°C
Parameter
13
c
e
d
dv/dt
Peak Diode Recovery dv/dt
TJ, TSTG
Junction and Storage Temperature Range
A
58
-55 to +150
Thermal Resistance Ratings
Symbol
RθJL
RθJA
Parameter
h
Junction-to-Ambient gh
Junction-to-Drain Lead
Typ
Max
–––
20
–––
50
Units
°C/W
06/29/06
IRF7413PbF
Electrical Characteristics @ TJ = 25°C (unless otherwise specified)
Min
Typ
Max Units
V(BR)DSS
Symbol
Drain-to-Source Breakdown Voltage
30
–––
–––
∆V(BR)DSS/∆TJ
Breakdown Voltage Temp. Coefficient
–––
0.034
–––
RDS(on)
Static Drain-to-Source On-Resistance
–––
–––
0.011
–––
–––
0.018
VGS(th)
Gate Threshold Voltage
1.0
–––
gfs
Forward Transconductance
IDSS
IGSS
Parameter
Conditions
VGS = 0V, ID = 250µA
V/°C Reference to 25°C, ID = 1mA
f
f
Ω
VGS = 10V, ID = 7.3A
3.0
V
VDS = VGS, ID = 250µA
S
VDS = 10V, ID = 3.7A
10
–––
–––
–––
–––
1.0
–––
–––
25
Gate-to-Source Forward Leakage
–––
–––
-100
Gate-to-Source Reverse Leakage
–––
–––
100
Drain-to-Source Leakage Current
V
Qg
Total Gate Charge
–––
52
79
Qgs
Gate-to-Source Charge
–––
6.1
9.2
Qgd
Gate-to-Drain ("Miller") Charge
–––
16
23
RG
Gate Resistance
1.2
–––
3.7
td(on)
Turn-On Delay Time
–––
8.6
–––
tr
Rise Time
–––
50
–––
td(off)
Turn-Off Delay Time
–––
52
–––
tf
Fall Time
–––
46
–––
Ciss
Input Capacitance
–––
1800
–––
Coss
Output Capacitance
–––
680
–––
Crss
Reverse Transfer Capacitance
–––
240
–––
µA
nA
VGS = 4.5V, ID = 3.7A
VDS = 30V, VGS = 0V
VDS = 24V, VGS = 0V, TJ = 125°C
VGS = -20V
VGS = 20V
ID = 7.3A
nC
VDS = 24V
VGS = 10V, See Fig. 6 and 9
f
VDD = 15V
ID = 7.3A
ns
RG = 6.2 Ω
RG = 2.0Ω, See Fig. 10
f
VGS = 0V
pF
VDS = 25V
ƒ = 1.0MHz, See Fig. 5
Source-Drain Ratings and Characteristics
Symbol
Parameter
Continuous Source Current
IS
Min. Typ. Max. Units
–––
–––
ISM
Pulsed Source Current
c
MOSFET symbol
3.1
(Body Diode)
Conditions
A
showing the
integral reverse
–––
–––
58
VSD
(Body Diode)
Diode Forward Voltage
–––
–––
1.0
V
trr
Reverse Recovery Time
–––
74
110
ns
Qrr
Reverse Recovery Charge
–––
200
300
nC
p-n junction diode.
TJ = 25°C, IS = 7.3A, VGS = 0V
TJ = 25°C, IF = 7.3A
di/dt = 100A/µs
Notes:
 Repetitive rating; pulse width limited by
ƒ ISD ≤ 7.3A, di/dt ≤ 100A/µs, VDD ≤ V(BR)DSS,
‚ Starting TJ = 25°C, L =9.8mH
„ Pulse width ≤ 300µs; duty cycle ≤ 2%.
max. junction temperature. ( See fig. 11 )
RG = 25Ω, IAS =7.3A. (See Figure 12)
T J ≤ 150°C
… Surface mounted on FR-4 board
† Rθ is measured at TJ approximately 90°C
e
e
IRF7413PbF
100
100
VGS
15V
10V
7.0V
5.5V
4.5V
4.0V
3.5V
BOTTOM 3.0V
VGS
15V
10V
7.0V
5.5V
4.5V
4.0V
3.5V
BOTTOM 3.0V
TOP
I D, Drain-to-Source Current (A)
I D , Drain-to-Source Current (A)
TOP
10
3.0V
20µs PULSE WIDTH
TJ = 25°C
A
1
0.1
1
3.0V
10
20µs PULSE WIDTH
TJ = 150°C
A
1
0.1
10
1
Fig 1. Typical Output Characteristics
Fig 2. Typical Output Characteristics
2.0
R DS(on) , Drain-to-Source On Resistance
(Normalized)
I D , Drain-to-Source Current (A)
100
TJ = 150°C
TJ = 25°C
10
V DS = 10V
20µs PULSE WIDTH
1
3.0
3.5
4.0
VGS , Gate-to-Source Voltage (V)
Fig 3. Typical Transfer Characteristics
10
V DS, Drain-to-Source Voltage (V)
V DS , Drain-to-Source Voltage (V)
A
4.5
I D = 7.3A
1.5
1.0
0.5
VGS = 10V
0.0
-60
-40
-20
0
20
40
60
80
A
100 120 140 160
TJ , Junction Temperature (°C)
Fig 4. Normalized On-Resistance
Vs. Temperature
IRF7413PbF
3200
16
2400
Coss
2000
12
1600
1200
Crss
800
I D = 7.3A
V DS = 24V
V DS = 15V
V GS , Gate-to-Source Voltage (V)
2800
C, Capacitance (pF)
20
V GS = 0V,
f = 1MHz
C iss = Cgs + C gd , Cds SHORTED
C rss = C gd
Ciss C oss = C ds + C gd
8
4
400
0
0
A
1
10
FOR TEST CIRCUIT
SEE FIGURE 9
100
0
10
VDS , Drain-to-Source Voltage (V)
30
40
50
A
60
Q G , Total Gate Charge (nC)
Fig 5. Typical Capacitance Vs.
Drain-to-Source Voltage
Fig 6. Typical Gate Charge Vs.
Gate-to-Source Voltage
100
1000
OPERATION IN THIS AREA LIMITED
BY RDS(on)
TJ = 25°C
ID , Drain Current (A)
ISD , Reverse Drain Current (A)
20
TJ = 150°C
100
10
VGS = 0V
1
0.4
1.2
2.0
2.8
VSD , Source-to-Drain Voltage (V)
Fig 7. Typical Source-Drain Diode
Forward Voltage
A
3.6
100us
10
1ms
TC = 25 ° C
TJ = 150 ° C
Single Pulse
1
0.1
10ms
1
10
VDS , Drain-to-Source Voltage (V)
Fig 8. Maximum Safe Operating Area
100
IRF7413PbF
V DS
QG
10V
VGS
QGS
QGD
D.U.T.
RG
VG
RD
+
- VDD
10V
Pulse Width ≤ 1 µs
Duty Factor ≤ 0.1 %
Charge
Fig 9a. Basic Gate Charge Waveform
Fig 10a. Switching Time Test Circuit
Current Regulator
Same Type as D.U.T.
VDS
50KΩ
12V
90%
.2µF
.3µF
+
V
- DS
D.U.T.
10%
VGS
VGS
3mA
td(on)
IG
tr
t d(off)
tf
ID
Current Sampling Resistors
Fig 9b. Gate Charge Test Circuit
Fig 10b. Switching Time Waveforms
Thermal Response (Z thJA )
100
D = 0.50
10
0.20
0.10
0.05
PDM
0.02
1
0.01
t1
t2
SINGLE PULSE
(THERMAL RESPONSE)
0.1
0.0001
0.001
Notes:
1. Duty factor D = t 1 / t 2
2. Peak TJ = P DM x Z thJA + TA
0.01
0.1
1
10
t1 , Rectangular Pulse Duration (sec)
Fig 11. Maximum Effective Transient Thermal Impedance, Junction-to-Ambient
100
15V
L
VDS
D.U.T
RG
IAS
20V
DRIVER
+
- VDD
0.01Ω
tp
Fig 12a. Unclamped Inductive Test Circuit
V(BR)DSS
tp
A
EAS , Single Pulse Avalanche Energy (mJ)
IRF7413PbF
600
TOP
500
BOTTOM
ID
3.3A
6.0A
7.3A
400
300
200
100
0
25
50
75
100
125
150
Starting T J, Junction Temperature ( oC)
Fig 12c. Maximum Avalanche Energy
Vs. Drain Current
I AS
Fig 12b. Unclamped Inductive Waveforms
IRF7413PbF
Peak Diode Recovery dv/dt Test Circuit
Circuit Layout Considerations
• Low Stray Inductance
• Ground Plane
• Low Leakage Inductance
Current Transformer
+
D.U.T
ƒ
+
‚
-
-
„
+

RG
•
•
•
•
dv/dt controlled by RG
Driver same type as D.U.T.
ISD controlled by Duty Factor "D"
D.U.T. - Device Under Test
Driver Gate Drive
Period
P.W.
D=
+
-
VDD
P.W.
Period
VGS=10V
D.U.T. ISD Waveform
Reverse
Recovery
Current
Body Diode Forward
Current
di/dt
D.U.T. VDS Waveform
Diode Recovery
dv/dt
Re-Applied
Voltage
Body Diode
VDD
Forward Drop
Inductor Curent
Ripple ≤ 5%
* VGS = 5V for Logic Level Devices
Fig 13. For N-Channel HEXFETS
ISD
*
IRF7413PbF
SO-8 Package Outline
Dimensions are shown in millimeters (inches)
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SO-8 Part Marking
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IRF7413PbF
SO-8 Tape and Reel
Dimensions are shown in milimeters (inches)
TERMINAL NUMBER 1
12.3 ( .484 )
11.7 ( .461 )
8.1 ( .318 )
7.9 ( .312 )
FEED DIRECTION
NOTES:
1. CONTROLLING DIMENSION : MILLIMETER.
2. ALL DIMENSIONS ARE SHOWN IN MILLIMETERS(INCHES).
3. OUTLINE CONFORMS TO EIA-481 & EIA-541.
330.00
(12.992)
MAX.
14.40 ( .566 )
12.40 ( .488 )
NOTES :
1. CONTROLLING DIMENSION : MILLIMETER.
2. OUTLINE CONFORMS TO EIA-481 & EIA-541.
Data and specifications subject to change without notice.
This product has been designed and qualified for the Consumer market.
Qualification Standards can be found on IR’s Web site.
IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, USA Tel: (310) 252-7105
TAC Fax: (310) 252-7903
Visit us at www.irf.com for sales contact information. 06/2006