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| SGF40N60UF October 2001 IGBT SGF40N60UF Ultra-Fast IGBT General Description Fairchild's Insulated Gate Bipolar Transistor(IGBT) UF series provides low conduction and switching losses. UF series is designed for the applications such as motor control and general inverters where High Speed Switching is required. Features * High Speed Switching * Low Saturation Voltage : VCE(sat) = 2.1 V @ IC = 20A * High Input Impedance Application AC & DC Motor controls, General Purpose Inverters, Robotics, Servo Controls C G TO-3PF GCE E Absolute Maximum Ratings Symbol VCES VGES IC ICM (1) PD TJ Tstg TL TC = 25C unless otherwise noted Description Collector-Emitter Voltage Gate-Emitter Voltage Collector Current Collector Current Pulsed Collector Current Maximum Power Dissipation Maximum Power Dissipation Operating Junction Temperature Storage Temperature Range Maximum Lead Temp. for Soldering Purposes, 1/8" from Case for 5 Seconds @ TC = 25C @ TC = 100C @ TC = 25C @ TC = 100C SGF40N60UF 600 20 40 20 160 100 40 -55 to +150 -55 to +150 300 Units V V A A A W W C C C Notes : (1) Repetitive rating : Pulse width limited by max. junction temperature Thermal Characteristics Symbol RJC RJA Parameter Thermal Resistance, Junction-to-Case Thermal Resistance, Junction-to-Ambient Typ. --Max. 1.2 40 Units C/W C/W (c)2001 Fairchild Semiconductor Corporation SGF40N60UF Rev. A SGF40N60UF Electrical Characteristics of IGBT T Symbol Parameter C = 25C unless otherwise noted Test Conditions Min. Typ. Max. Units Off Characteristics BVCES BVCES/ TJ ICES IGES Collector-Emitter Breakdown Voltage Temperature Coeff. of Breakdown Voltage Collector Cut-Off Current G-E Leakage Current VGE = 0V, IC = 250uA VGE = 0V, IC = 1mA VCE = VCES, VGE = 0V VGE = VGES, VCE = 0V 600 ----0.6 ----250 100 V V/C uA nA On Characteristics VGE(th) VCE(sat) G-E Threshold Voltage Collector to Emitter Saturation Voltage IC = 20mA, VCE = VGE IC = 20A, VGE = 15V IC = 40A, VGE = 15V 3.5 --4.5 2.1 2.6 6.5 2.6 -V V V Dynamic Characteristics Cies Coes Cres Input Capacitance Output Capacitance Reverse Transfer Capacitance VCE = 30V, VGE = 0V, f = 1MHz ---1430 170 50 ---pF pF pF Switching Characteristics td(on) tr td(off) tf Eon Eoff Ets td(on) tr td(off) tf Eon Eoff Ets Qg Qge Qgc Le Turn-On Delay Time Rise Time Turn-Off Delay Time Fall Time Turn-On Switching Loss Turn-Off Switching Loss Total Switching Loss Turn-On Delay Time Rise Time Turn-Off Delay Time Fall Time Turn-On Switching Loss Turn-Off Switching Loss Total Switching Loss Total Gate Charge Gate-Emitter Charge Gate-Collector Charge Internal Emitter Inductance ------------------15 30 65 50 160 200 360 30 37 110 144 310 430 740 97 20 25 14 --130 150 --600 --200 250 --1200 150 30 40 -ns ns ns ns uJ uJ uJ ns ns ns ns uJ uJ uJ nC nC nC nH VCC = 300 V, IC = 20A, RG = 10, VGE = 15V, Inductive Load, TC = 25C VCC = 300 V, IC = 20A, RG = 10, VGE = 15V, Inductive Load, TC = 125C VCE = 300 V, IC = 20A, VGE = 15V Measured 5mm from PKG (c)2001 Fairchild Semiconductor Corporation SGF40N60UF Rev. A SGF40N60UF 160 Common Emitter T C = 25 120 12V 20V 15V 80 70 Common Emitter VGE = 15V TC = 25 TC = 125 Collector Current, I C [A] 8 Collector Current, I C [A] 60 50 40 30 20 10 80 V GE = 10V 40 0 0 2 4 6 0 0.5 1 10 Collector - Emitter Voltage, V CE [V] Collector - Emitter Voltage, V CE [V] Fig 1. Typical Output Characteristics Fig 2. Typical Saturation Voltage Characteristics 4 30 Common Emitter V GE = 15V Collector - Emitter Voltage, VCE [V] VCC = 300V Load Current : peak of square wave 25 3 40A 2 20A Load Current [A] 20 15 IC = 10A 1 10 5 0 0 30 60 90 120 150 0 Duty cycle : 50% TC = 100 Power Dissipation = 24W 0.1 1 10 100 1000 Case Temperature, TC [] Frequency [KHz] Fig 3. Saturation Voltage vs. Case Temperature at Variant Current Level Fig 4. Load Current vs. Frequency 20 Common Emitter T C = 25 20 Common Emitter T C = 125 Collector - Emitter Voltage, VCE [V] 16 Collector - Emitter Voltage, VCE [V] 16 12 12 8 8 40A 4 IC = 10A 0 0 4 8 12 16 20 20A 40A 4 IC = 10A 0 0 4 8 12 16 20 20A Gate - Emitter Voltage, V GE [V] Gate - Emitter Voltage, V GE [V] Fig 5. Saturation Voltage vs. VGE (c)2001 Fairchild Semiconductor Corporation Fig 6. Saturation Voltage vs. VGE SGF40N60UF Rev. A SGF40N60UF 2500 Common Emitter V GE = 0V, f = 1MHz T C = 25 300 Common Emitter VCC = 300V, VGE = 15V IC = 20A TC = 25 TC = 125 2000 Ton Tr Capacitance [pF] 1500 1000 Coes 500 Cres 0 1 10 30 Switching Time [ns] Cies 100 10 1 10 100 200 Collector - Emitter Voltage, V CE [V] Gate Resistance, RG [ ] Fig 7. Capacitance Characteristics Fig 8. Turn-On Characteristics vs. Gate Resistance 1000 Switching Time [ns] Common Emitter VCC = 300V, VGE = 15V IC = 20A TC = 25 TC = 125 2000 Common Emitter V CC = 300V, V GE = 15V IC = 20A T C = 25 T C = 125 Toff 1000 Tf Switching Loss [uJ] Eon Eoff Eon Eoff 100 Tf 100 20 1 10 100 200 50 1 10 100 200 Gate Resistance, R G [ ] Gate Resistance, R G [] Fig 9. Turn-Off Characteristics vs. Gate Resistance Fig 10. Switching Loss vs. Gate Resistance 200 1000 100 Switching Time [ns] Switching Time [nS] Common Emitter VCC = 300V, V GE = 15V RG = 10 TC = 25 TC = 125 Toff Tf Toff Ton Common Emitter V CC = 300V, V GE = 15V RG = 10 T C = 25 T C = 125 15 20 25 30 35 40 100 Tr Tf 10 10 20 10 15 20 25 30 35 40 Collector Current, IC [A] Collector Current, IC [A] Fig 11. Turn-On Characteristics vs. Collector Current (c)2001 Fairchild Semiconductor Corporation Fig 12. Turn-Off Characteristics vs. Collector Current SGF40N60UF Rev. A SGF40N60UF 3000 15 Common Emitter RL = 15 TC = 25 Gate - Emitter Voltage, VGE [ V ] 1000 12 Switching Loss [uJ] 9 300 V 6 V CC = 100 V 3 200 V Eoff Eon 100 Eoff Eon Common Emitter V CC = 300V, VGE = 15V RG = 10 T C = 25 T C = 125 15 20 25 30 35 40 10 10 0 0 30 60 90 120 Collector Current, IC [A] Gate Charge, Qg [ nC ] Fig 13. Switching Loss vs. Collector Current Fig 14. Gate Charge Characteristics 500 IC MAX. (Pulsed) 100 500 100 100us 1 Collector Current, I C [A] IC MAX. (Continuous) 10 DC Operation 1 Single Nonrepetitive Pulse TC = 25 Curves must be derated linearly with increase in temperature 0.3 1 10 Collector Current, IC [A] 50us 10 1 Safe Operating Area VGE =20V, T C=100 C 100 1000 0.1 1 10 100 1000 o 0.1 Collector-Emitter Voltage, VCE [V] Collector-Emitter Voltage, VCE [V] Fig 15. SOA Characteristics Fig 16. Turn-Off SOA Characteristics 1 Thermal Response [Zthjc] 0.5 0.2 0.1 0.1 0.05 0.02 0.01 0.01 single pulse 1E-5 1E-4 1E-3 0.01 0.1 Pdm t1 t2 Duty factor D = t1 / t2 Peak Tj = Pdm x Zthjc + TC 1 10 Rectangular Pulse Duration [sec] Fig 17. Transient Thermal Impedance of IGBT (c)2001 Fairchild Semiconductor Corporation SGF40N60UF Rev. A SGF40N60UF Package Dimension TO-3PF 5.50 0.20 4.50 0.20 15.50 0.20 o3.60 0.20 3.00 0.20 (1.50) 10.00 0.20 10 26.50 0.20 23.00 0.20 16.50 0.20 14.50 0.20 0.85 0.03 16.50 0.20 2.00 0.20 1.50 0.20 14.80 0.20 2.00 0.20 2.00 0.20 4.00 0.20 0.75 -0.10 +0.20 2.00 0.20 2.50 0.20 2.00 0.20 3.30 0.20 5.45TYP [5.45 0.30] 5.45TYP [5.45 0.30] 0.90 -0.10 +0.20 3.30 0.20 2.00 0.20 5.50 0.20 Dimensions in Millimeters (c)2001 Fairchild Semiconductor Corporation SGF40N60UF Rev. A 22.00 0.20 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. ACExTM BottomlessTM CoolFETTM CROSSVOLTTM DenseTrenchTM DOMETM EcoSPARKTM E2CMOSTM EnSignaTM FACTTM FACT Quiet SeriesTM FAST(R) FASTrTM FRFETTM GlobalOptoisolatorTM GTOTM HiSeCTM ISOPLANARTM LittleFETTM MicroFETTM MicroPakTM MICROWIRETM OPTOLOGICTM OPTOPLANARTM PACMANTM POPTM Power247TM PowerTrench(R) QFETTM QSTM QT OptoelectronicsTM Quiet SeriesTM SLIENT SWITCHER(R) SMART STARTTM STAR*POWERTM StealthTM SuperSOTTM-3 SuperSOTTM-6 SuperSOTTM-8 SyncFETTM TruTranslationTM TinyLogicTM UHCTM UltraFET(R) VCXTM STAR*POWER is used under license DISCLAIMER FAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN. FAIRCHILD DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS. LIFE SUPPORT POLICY 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 INTERNATIONAL. As used herein: 1. Life support devices or systems are devices or systems 2. A critical component is any component of a life support which, (a) are intended for surgical implant into the body, device or system whose failure to perform can be or (b) support or sustain life, or (c) whose failure to perform reasonably expected to cause the failure of the life support when properly used in accordance with instructions for use device or system, or to affect its safety or effectiveness. provided in the labeling, can be reasonably expected to result in significant injury to the user. PRODUCT STATUS DEFINITIONS Definition of Terms Datasheet Identification Advance Information Product Status Formative or In Design First Production Definition This datasheet contains the design specifications for product development. Specifications may change in any manner without notice. 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. This datasheet contains final specifications. Fairchild Semiconductor reserves the right to make changes at any time without notice in order to improve design. This datasheet contains specifications on a product that has been discontinued by Fairchild semiconductor. The datasheet is printed for reference information only. Preliminary No Identification Needed Full Production Obsolete Not In Production (c)2001 Fairchild Semiconductor Corporation Rev. H4 |
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