IRF IRHF4230 Radiation hardened power mosfet thru-hole Datasheet

PD - 90672E
IRHF7230
JANSR2N7262
200V, N-CHANNEL
RADIATION HARDENED
POWER MOSFET
THRU-HOLE (TO-39)
REF: MIL-PRF-19500/601
®
RAD-Hard HEXFET TECHNOLOGY
™
Product Summary
Part Number Radiation Level
IRHF7230
100K Rads (Si)
IRHF3230
300K Rads (Si)
RDS(on)
0.35Ω
0.35Ω
ID
5.5A
5.5A
QPL Part Number
JANSR2N7262
JANSF2N7262
IRHF4230
500K Rads (Si)
0.35Ω
5.5A
JANSG2N7262
IRHF8230
1000K Rads (Si)
0.35Ω
5.5A
JANSH2N7262
International Rectifier’s RAD-Hard TM HEXFET ®
technology provides high performance power
MOSFETs for space applications. This technology
has over a decade of proven performance and
reliability in satellite applications. These devices have
been characterized for both Total Dose and Single
Event Effects (SEE). The combination of low Rdson
and low gate charge reduces the power losses in
switching applications such as DC to DC converters
and motor control. These devices retain all of the well
established advantages of MOSFETs such as voltage
control, fast switching, ease of paralleling and
temperature stability of electrical parameters.
TO-39
Features:
n
n
n
n
n
n
n
Single Event Effect (SEE) Hardened
Low RDS(on)
Low Total Gate Charge
Simple Drive Requirements
Ease of Paralleling
Hermetically Sealed
Light Weight
Absolute Maximum Ratings
Pre-Irradiation
Parameter
ID @ VGS = 12V, TC = 25°C
ID @ VGS = 12V, TC = 100°C
IDM
PD @ TC = 25°C
VGS
EAS
IAR
EAR
dv/dt
TJ
T STG
Continuous Drain Current
Continuous Drain Current
Pulsed Drain Current À
Max. Power Dissipation
Linear Derating Factor
Gate-to-Source Voltage
Single Pulse Avalanche Energy Á
Avalanche Current À
Repetitive Avalanche Energy À
Peak Diode Recovery dv/dt Â
Operating Junction
Storage Temperature Range
Lead Temperature
Weight
Units
5.5
3.5
22
25
0.2
±20
240
5.5
2.5
5.0
-55 to 150
A
W
W/°C
V
mJ
A
mJ
V/ns
o
300 (0.063 in. (1.6mm) from case for 10s)
0.98 (Typical)
C
g
For footnotes refer to the last page
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1
05/15/06
IRHF7230, JANSR2N7262
Pre-Irradiation
Electrical Characteristics @ Tj = 25°C (Unless Otherwise Specified)
Parameter
Min
Drain-to-Source Breakdown Voltage
200
—
—
V
VGS =0 V, ID = 1.0mA
—
0.25
—
V/°C
Reference to 25°C, ID = 1.0mA
—
—
2.0
2.5
—
—
—
—
—
—
—
—
0.35
0.36
4.0
—
25
250
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
7.0
100
-100
50
10
25
25
40
60
45
—
∆BV DSS/∆T J Temperature Coefficient of Breakdown
Voltage
RDS(on)
Static Drain-to-Source
On-State Resistance
VGS(th)
Gate Threshold Voltage
g fs
Forward Transconductance
IDSS
Zero Gate Voltage Drain Current
IGSS
IGSS
Qg
Q gs
Q gd
td(on)
tr
td(off)
tf
LS + LD
Ciss
C oss
C rss
Gate-to-Source Leakage Forward
Gate-to-Source Leakage Reverse
Total Gate Charge
Gate-to-Source Charge
Gate-to-Drain (‘Miller’) Charge
Turn-On Delay Time
Rise Time
Turn-Off Delay Time
Fall Time
Total Inductance
Input Capacitance
Output Capacitance
Reverse Transfer Capacitance
—
—
—
Typ Max Units
1100
250
55
Ω
V
S( )
—
—
—
Ω
BVDSS
µA
nA
nC
Test Conditions
VGS = 12V, ID = 3.5A
„
VGS = 12V, ID = 5.5A
VDS = VGS, ID = 1.0mA
VDS > 15V, IDS = 3.5A „
VDS= 160V,VGS=0V
VDS = 160V
VGS = 0V, TJ = 125°C
VGS = 20V
VGS = -20V
VGS = 12V, ID = 5.5A
VDS = 100V
VDD = 100V, ID = 5.5A,
VGS = 12V, RG = 7.5Ω
ns
nH
pF
Measured from drain lead (6mm/0.25in. from
package) to source lead (6mm/0.25in. from
package)
VGS = 0V, VDS = 25V
f = 1.0MHz
Source-Drain Diode Ratings and Characteristics
Parameter
Min Typ Max Units
IS
ISM
VSD
trr
Q RR
Continuous Source Current (Body Diode)
Pulse Source Current (Body Diode) À
Diode Forward Voltage
Reverse Recovery Time
Reverse Recovery Charge
ton
Forward Turn-On Time
—
—
—
—
—
—
—
—
—
—
5.5
22
1.4
400
3.0
Test Conditions
A
V
ns
µC
Tj = 25°C, IS = 5.5A, VGS = 0V Ã
Tj = 25°C, IF = 5.5A, di/dt ≤ 100A/µs
VDD ≤ 25V Ã
Intrinsic turn-on time is negligible. Turn-on speed is substantially controlled by LS + LD.
Thermal Resistance
Parameter
RthJC
RthJA
Junction-to-Case
Junction-to-Ambient
Min Typ Max
—
—
—
—
5.0
175
Units
°C/W
Test Conditions
Typical socket mount
Note: Corresponding Spice and Saber models are available on the International Rectifier Website.
For footnotes refer to the last page
2
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Radiation Characteristics
Pre-Irradiation
IRHF7230, JANSR2N7262
International Rectifier Radiation Hardened MOSFETs are tested to verify their radiation hardness capability.
The hardness assurance program at International Rectifier is comprised of two radiation environments.
Every manufacturing lot is tested for total ionizing dose (per notes 5 and 6) using the TO-3 package. Both
pre- and post-irradiation performance are tested and specified using the same drive circuitry and test
conditions in order to provide a direct comparison.
Table 1. Electrical Characteristics @ Tj = 25°C, Post Total Dose Irradiation ÄÅ
Parameter
BVDSS
VGS(th)
IGSS
IGSS
IDSS
RDS(on)
RDS(on)
VSD
100K Rads(Si)1
Drain-to-Source Breakdown Voltage
Gate Threshold Voltage
Gate-to-Source Leakage Forward
Gate-to-Source Leakage Reverse
Zero Gate Voltage Drain Current
Static Drain-to-Source Ã
On-State Resistance (TO-3)
Static Drain-to-Source Ã
On-State Resistance (TO-39)
Diode Forward Voltage Ã
Units
Test Conditions
V
µA
Ω
VGS = 0V, ID = 1.0mA
VGS = V DS, ID = 1.0mA
V GS = 20V
VGS = -20 V
VDS =160V, VGS =0V
VGS = 12V, ID =3.5A
0.48
Ω
VGS = 12V, ID =3.5A
1.4
V
VGS = 0V, IS = 5.5A
300K - 1000K Rads (Si)2
Min
Max
Min
Max
200
2.0
—
—
—
—
—
4.0
100
-100
25
0.35
200
1.25
—
—
—
—
—
4.5
100
-100
50
0.48
—
0.35
—
—
1.4
—
nA
1. Part number IRHF7230 (JANSR2N7262)
2. Part numbers IRHF3230 (JANSF2N7262), IRHF4230 (JANSG2N7262) and IRHF8230 (JANSH2N7262)
International Rectifier radiation hardened MOSFETs have been characterized in heavy ion environment for
Single Event Effects (SEE). Single Event Effects characterization is illustrated in Fig. a and Table 2.
Table 2. Single Event Effect Safe Operating Area
Ion
Cu
Br
LET
(MeV/(mg/cm2))
28
36.8
Range
VDS(V)
(µm) @VGS =0V @ VGS =-5V @VGS =-10V @VGS =-15V @VGS =-20V
43
190
180
170
125
—
39
100
100
100
50
—
Energy
(MeV)
285
305
200
VDS
150
Cu
Br
100
50
0
0
-5
-10
-15
-20
VGS
Fig a. Single Event Effect, Safe Operating Area
For footnotes refer to the last page
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IRHF7230, JANSR2N7262
Post-Irradiation
Pre-Irradiation
Fig 1. Typical Response of Gate Threshhold Fig 2. Typical Response of On-State Resistance
Voltage Vs. Total Dose Exposure
Vs. Total Dose Exposure
Fig 3. Typical Response of Transconductance
Vs. Total Dose Exposure
4
Fig 4. Typical Response of Drain to Source
Breakdown Vs. Total Dose Exposure
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Post-Irradiation
Pre-Irradiation
IRHF7230, JANSR2N7262
Fig 5. Typical Zero Gate Voltage Drain
Current Vs. Total Dose Exposure
Fig 6. Typical On-State Resistance Vs.
Neutron Fluence Level
Fig 8a. Gate Stress of VGSS
Equals 12 Volts During
Radiation
Fig 7. Typical Transient Response
of Rad Hard HEXFET During
1x1012 Rad (Si)/Sec Exposure
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Fig 8b. VDSS Stress Equals
80% of BVDSS During Radiation
Fig 9. High Dose Rate
(Gamma Dot) Test Circuit
5
RadiationPost-Irradiation
Characteristics
Pre-Irradiation
IRHF7230, JANSR2N7262
Note: Bias Conditions during radiation: VGS = 12 Vdc, VDS = 0 Vdc
Fig 10. Typical Output Characteristics
Pre-Irradiation
Fig 11. Typical Output Characteristics
Post-Irradiation 100K Rads (Si)
Fig 12. Typical Output Characteristics
Post-Irradiation 300K Rads (Si)
Fig 13. Typical Output Characteristics
Post-Irradiation 1 Mega Rads (Si)
6
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Radiation Characteristics
Pre-Irradiation
IRHF7230, JANSR2N7262
Note: Bias Conditions during radiation: VGS = 0 Vdc, VDS = 160 Vdc
Fig 14. Typical Output Characteristics
Pre-Irradiation
Fig 15. Typical Output Characteristics
Post-Irradiation 100K Rads (Si)
Fig 16. Typical Output Characteristics
Post-Irradiation 300K Rads (Si)
Fig 17. Typical Output Characteristics
Post-Irradiation 1 Mega Rads (Si)
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IRHF7230, JANSR2N7262
Fig 18. Typical Output Characteristics
Fig 20. Typical Transfer Characteristics
8
Pre-Irradiation
Fig 19. Typical Output Characteristics
Fig 21. Normalized On-Resistance
Vs. Temperature
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Pre-Irradiation
IRHF7230, JANSR2N7262
Fig 23. Typical Gate Charge Vs.
Gate-to-Source Voltage
Fig 22. Typical Capacitance Vs.
Drain-to-Source Voltage
100
I D , Drain Current (A)
OPERATION IN THIS AREA LIMITED
BY RDS(on)
10us
10
100us
1ms
1
10ms
TC = 25 °C
TJ = 150 °C
Single Pulse
0.1
1
10
100
1000
VDS , Drain-to-Source Voltage (V)
Fig 24. Typical Source-Drain Diode
Forward Voltage
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Fig 25. Maximum Safe Operating Area
9
IRHF7230, JANSR2N7262
Pre-Irradiation
RD
VDS
V GS
D.U.T.
RG
+
- VDD
VGS
Pulse Width ≤ 1 µs
Duty Factor ≤ 0.1 %
Fig 27a. Switching Time Test Circuit
VDS
90%
10%
VGS
Fig 26. Maximum Drain Current Vs.
Case Temperature
td(on)
tr
t d(off)
tf
Fig 27b. Switching Time Waveforms
Thermal Response (Z thJC )
10
D = 0.50
1
0.20
0.10
0.05
0.1
0.01
0.00001
0.02
0.01
PDM
SINGLE PULSE
(THERMAL RESPONSE)
t1
t2
Notes:
1. Duty factor D = t 1 / t 2
2. Peak TJ = P DM x Z thJC + TC
0.0001
0.001
0.01
0.1
1
10
t1 , Rectangular Pulse Duration (sec)
Fig 28. Maximum Effective Transient Thermal Impedance, Junction-to-Case
10
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Pre-Irradiation
IRHF7230, JANSR2N7262
15V
L
VDS
D.U.T
RG
IAS
VGS
20V
DRIVER
+
- VDD
A
0.01Ω
tp
Fig 29a. Unclamped Inductive Test Circuit
V(BR)DSS
tp
Fig 29c. Maximum Avalanche Energy
Vs. Drain Current
I AS
Current Regulator
Same Type as D.U.T.
Fig 29b. Unclamped Inductive Waveforms
50KΩ
QG
12V
.2µF
.3µF
12 V
QGS
QGD
+
V
- DS
VGS
VG
3mA
Charge
Fig 30a. Basic Gate Charge Waveform
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D.U.T.
IG
ID
Current Sampling Resistors
Fig 30b. Gate Charge Test Circuit
11
IRHF7230, JANSR2N7262
Pre-Irradiation
Foot Notes:
À Repetitive Rating; Pulse width limited by
maximum junction temperature.
Á VDD = 25V, starting TJ = 25°C, L= 15.9mH
Peak IL = 5.5A, VGS = 12V
 I SD ≤ 5.5A, di/dt ≤ 120A/µs,
VDD ≤ 200V, TJ ≤ 150°C
à Pulse width ≤ 300 µs; Duty Cycle ≤ 2%
Ä Total Dose Irradiation with VGS Bias.
12 volt VGS applied and VDS = 0 during
irradiation per MIL-STD-750, method 1019, condition A.
Å Total Dose Irradiation with VDS Bias.
160 volt VDS applied and VGS = 0 during
irradiation per MlL-STD-750, method 1019, condition A.
Case Outline and Dimensions — TO-39
LEGEND
1- SOURCE
2- GATE
3- DRAIN
IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, USA Tel: (310) 252-7105
IR LEOMINSTER : 205 Crawford St., Leominster, Massachusetts 01453, USA Tel: (978) 534-5776
TAC Fax: (310) 252-7903
Visit us at www.irf.com for sales contact information.
Data and specifications subject to change without notice. 05/2006
12
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