STP5N30L STP5N30LFI
N - CHANNEL ENHANCEMENT MODE POWER MOS TRANSISTOR
TYPE STP5N30L STP5N30LFI
s s s s s
V DSS 300 V 300 V
R DS( on) < 1.4 Ω < 1.4 Ω
ID 5A 3.5 A
TYPICAL RDS(on) = 1.25 Ω AVALANCHE RUGGED TECHNOLOGY 100% AVALANCHE TESTED REPETITIVE AVALANCHE DATA AT 100oC APPLICATION ORIENTED CHARACTERIZATION TO-220
3 1 2 1 2
3
APPLICATIONS s HIGH SPEED SWITCHING s SWITCH MODE POWER SUPPLIES (SMPS) s CHOPPER REGULATORS, CONVERTERS, MOTOR CONTROL, LIGHTING FOR INDUSTRIAL AND CONSUMER ENVIRONMENT s PARTICULARLY SUITABLE FOR ELECTRONIC FLUORESCENT LAMP BALLASTS
ISOWATT220
INTERNAL SCHEMATIC DIAGRAM
ABSOLUTE MAXIMUM RATINGS
Symbol Parameter STP5N30L VD S V DG R V GS ID ID ID M( •) P tot V ISO T stg Tj Drain-source Voltage (V GS = 0) Drain- gate Voltage (R GS = 20 kΩ ) Gate-source Voltage Drain Current (continuous) at T c = 25 C Drain Current (continuous) at T c = 100 oC Drain Current (pulsed) Total Dissipation at Tc = 25 C Derating Factor Insulation Withstand Voltage (DC) Storage Temperature Max. Operating Junction Temperature
o o
Value STP5N30LFI 300 300 ± 20 5 3.2 20 75 0.6 -65 to 150 150 3.5 2.2 20 35 0.28 2000
Unit
V V V A A A W W/o C V
o o
C C
(•) Pulse width limited by safe operating area
November 1996
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STP5N30L/FI
THERMAL DATA
TO-220 R thj-cas e Rthj- amb Rt hc- sin k Tl Thermal Resistance Junction-case Max 1.67 62.5 0.5 300 ISOWATT220 3.57
o o o
C/W C/W C/W o C
Thermal Resistance Junction-ambient Max Thermal Resistance Case-sink Typ Maximum Lead Temperature For Soldering Purpose
AVALANCHE CHARACTERISTICS
Symbol IA R E AS E AR IA R Parameter Avalanche Current, Repetitive or Not-Repetitive (pulse width limited by T j max, δ < 1%) Single Pulse Avalanche Energy (starting T j = 25 o C, ID = I AR, VD D = 50 V) Repetitive Avalanche Energy (pulse width limited by T j max, δ < 1%) Avalanche Current, Repetitive or Not-Repetitive (T c = 100 o C, pulse width limited by T j max, δ < 1%)
o
Max Value 5 50 1.5 3.2
Unit A mJ mJ A
ELECTRICAL CHARACTERISTICS (Tcase = 25 C unless otherwise specified) OFF
Symbol V( BR)DSS I DS S IG SS Parameter Drain-source Breakdown Voltage Test Conditions I D = 250 µ A VG S = 0 Min. 300 10 100 ± 100 Typ. Max. Unit V µA µA nA
Zero Gate Voltage V DS = Max Rating Drain Current (V GS = 0) V DS = Max Rating x 0.8 Gate-body Leakage Current (V D S = 0) V GS = ± 20 V
T c = 125 oC
ON (∗ )
Symbol V G S(th) R DS( on) I D( on) Parameter Gate Threshold Voltage V DS = V GS Static Drain-source On Resistance On State Drain Current V GS = 5 V Test Conditions ID = 250 µ A I D = 2.5 A 5 Min. 1 Typ. 1.6 1.25 Max. 2.5 1.4 Unit V Ω A
V DS > ID( on) x RD S(on) max V GS = 10 V
DYNAMIC
Symbol gfs ( ∗ ) C iss C oss C rss Parameter Forward Transconductance Input Capacitance Output Capacitance Reverse Transfer Capacitance Test Conditions V DS > ID( on) x RD S(on) max V DS = 25 V f = 1 MHz ID = 2.5 A VG S = 0 Min. 2 Typ. 5 580 75 14 780 110 25 Max. Unit S pF pF pF
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STP5N30L/FI
ELECTRICAL CHARACTERISTICS (continued) SWITCHING ON
Symbol t d(on) tr (di/dt) on Parameter Turn-on Time Rise Time Turn-on Current Slope Test Conditions V DD = 150 V I D = 2.5 A VGS = 5 V R G = 50 Ω (see test circuit, figure 3) V DD = 240 V I D = 5 A VGS = 5 V R G = 50 Ω (see test circuit, figure 5) V DD = 240 V ID = 5 A V GS = 5 V Min. Typ. 70 165 115 Max. 90 215 Unit ns ns A/ µ s
Qg Q gs Q gd
Total Gate Charge Gate-Source Charge Gate-Drain Charge
16 5 7
22
nC nC nC
SWITCHING OFF
Symbol t r(Vof f) tf tc Parameter Off-voltage Rise Time Fall Time Cross-over Time Test Conditions V DD = 240 V I D = 5 A R G = 50 Ω VGS = 5 V (see test circuit, figure 5) Min. Typ. 60 50 120 Max. 80 65 160 Unit ns ns ns
SOURCE DRAIN DIODE
Symbol IS D I SDM( • ) VS D (∗ ) t rr Q rr I RRM Parameter Source-drain Current Source-drain Current (pulsed) Forward On Voltage Reverse Recovery Time Reverse Recovery Charge Reverse Recovery Current I SD = 5 A V GS = 0 360 2.4 13 I SD = 5 A di/dt = 100 A/ µ s V DD = 100 V T j = 150 o C (see test circuit, figure 5) Test Conditions Min. Typ. Max. 5 20 1.6 Unit A A V ns µC A
(∗) Pulsed: Pulse duration = 300 µs, duty cycle 1.5 % (•) Pulse width limited by safe operating area
Safe Operating Areas For TO-220
Safe Operating Areas For ISOWATT220
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STP5N30L/FI
Thermal Impedeance For TO-220
Thermal Impedance For ISOWATT220
Derating Curve For TO-220
Derating Curve For ISOWATT220
Output Characteristics
Transfer Characteristics
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STP5N30L/FI
Transconductance
Static Drain-source On Resistance
Gate Charge vs Gate-source Voltage
Capacitance Variations
Normalized Gate Threshold Voltage vs Temperature
Normalized On Resistance vs Temperature
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STP5N30L/FI
Turn-on Current Slope
Turn-off Drain-source Voltage Slope
Cross-over Time
Switching Safe Operating Area
Accidental Overload Area
Source-drain Diode Forward Characteristics
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STP5N30L/FI
Fig. 1: Unclamped Inductive Load Test Circuits
Fig. 2: Unclamped Inductive Waveforms
Fig. 3: Switching Times Test Circuits For Resistive Load
Fig. 4: Gate Charge Test Circuit
Fig. 5: Test Circuit For Inductive Load Switching And Diode Reverse Recovery Time
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STP5N30L/FI
TO-220 MECHANICAL DATA
DIM. MIN. A C D D1 E F F1 F2 G G1 H2 L2 L4 L5 L6 L7 L9 DIA. 13.0 2.65 15.25 6.2 3.5 3.75 0.49 0.61 1.14 1.14 4.95 2.4 10.0 16.4 14.0 2.95 15.75 6.6 3.93 3.85 0.511 0.104 0.600 0.244 0.137 0.147 4.40 1.23 2.40 1.27 0.70 0.88 1.70 1.70 5.15 2.7 10.40 0.019 0.024 0.044 0.044 0.194 0.094 0.393 0.645 0.551 0.116 0.620 0.260 0.154 0.151 mm TYP. MAX. 4.60 1.32 2.72 MIN. 0.173 0.048 0.094 0.050 0.027 0.034 0.067 0.067 0.203 0.106 0.409 inch TYP. MAX. 0.181 0.051 0.107
A
C
D1
L2 F1
D
G1
E
Dia. F2 F
L5 L7 L6
L9
L4
G
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H2
P011C
STP5N30L/FI
ISOWATT220 MECHANICAL DATA
DIM. MIN. A B D E F F1 F2 G G1 H L2 L3 L4 L6 L7 Ø 28.6 9.8 15.9 9 3 4.4 2.5 2.5 0.4 0.75 1.15 1.15 4.95 2.4 10 16 30.6 10.6 16.4 9.3 3.2 1.126 0.385 0.626 0.354 0.118 mm TYP. MAX. 4.6 2.7 2.75 0.7 1 1.7 1.7 5.2 2.7 10.4 MIN. 0.173 0.098 0.098 0.015 0.030 0.045 0.045 0.195 0.094 0.393 0.630 1.204 0.417 0.645 0.366 0.126 inch TYP. MAX. 0.181 0.106 0.108 0.027 0.039 0.067 0.067 0.204 0.106 0.409
A
B
L3 L6 L7
F1
D
Ø
F
G1
E
H
F2
123 L2 L4
P011G
G
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STP5N30L/FI
Information furnished is believed to be accurate and reliable. However, SGS-THOMSON Microelectronics assumes no responsability for the consequ ences of use of such information nor for any infringement of patents or other rights of third parties which may results from its use. No license is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. SGS-THOMSON Microelectronics products are not authorized for use as critical compone in life support devices or systems without express nts written approval of SGS-THOMSON Microelectonics. © 1996 SGS-THOMSON Microelectronics - Printed in Italy - All Rights Reserved SGS-THOMSON Microelectronics GROUP OF COMPANIES Australia - Brazil - Canada - China - France - Germany - Hong Kong - Italy - Japan - Korea - Malaysia - Malta - Morocco - The Netherlands Singapore - Spain - Sweden - Switzerland - Taiwan - Thailand - United Kingdom - U.S.A .
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