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| PD - 97058 PDP TRENCH IGBT Features l Advanced Trench IGBT Technology l Optimized for Sustain and Energy Recovery circuits in PDP applications TM) l Low VCE(on) and Energy per Pulse (EPULSE for improved panel efficiency l High repetitive peak current capability l Lead Free package IRGB4055PBF Key Parameters 300 1.70 270 150 V V A C VCE min VCE(ON) typ. @ 110A IRP max @ TC= 25C c TJ max C G E n-channel TO-220AB Description This IGBT is specifically designed for applications in Plasma Display Panels. This device utilizes advanced trench IGBT technology to achieve low VCE(on) and low EPULSETM rating per silicon area which improve panel efficiency. Additional features are 150C operating junction temperature and high repetitive peak current capability. These features combine to make this IGBT a highly efficient, robust and reliable device for PDP applications. Absolute Maximum Ratings Parameter VGE IC @ TC = 25C IC @ TC = 100C IRP @ TC = 25C PD @TC = 25C PD @TC = 100C TJ TSTG Gate-to-Emitter Voltage Continuous Collector Current, VGE @ 15V Continuous Collector, VGE @ 15V Repetitive Peak Current c Power Dissipation Power Dissipation Linear Derating Factor Operating Junction and Storage Temperature Range Soldering Temperature for 10 seconds Mounting Torque, 6-32 or M3 Screw Max. 30 110 60 270 255 102 2.04 -40 to + 150 300 10lbxin (1.1Nxm) Units V A W W/C C N Thermal Resistance Parameter RJC Junction-to-Case d Typ. --- Max. 0.49 Units C/W www.irf.com 1 10/13/05 IRGB4055PBF Electrical Characteristics @ TJ = 25C (unless otherwise specified) Parameter BVCES VCES/TJ VCE(on) VGE(th) VGE(th)/TJ ICES IGES gfe Qg Qgc tst EPULSE Collector-to-Emitter Breakdown Voltage Breakdown Voltage Temp. Coefficient Static Collector-to-Emitter Voltage Gate Threshold Voltage Gate Threshold Voltage Coefficient Collector-to-Emitter Leakage Current Gate-to-Emitter Forward Leakage Gate-to-Emitter Reverse Leakage Forward Transconductance Total Gate Charge Gate-to-Collector Charge Shoot Through Blocking Time Energy per Pulse Min. Typ. Max. Units 300 --- --- --- --- --- 2.6 --- --- --- --- --- --- --- --- 100 --- --- --- 0.23 1.10 1.70 2.35 1.95 --- -11 2.0 100 --- --- 38 132 42 --- 705 915 4280 200 125 5.0 13 Conditions Ciss Coss Crss LC LE Input Capacitance Output Capacitance Reverse Transfer Capacitance Internal Collector Inductance Internal Emitter Inductance --- --- --- --- --- --- V VGE = 0V, ICE = 1 mA --- V/C Reference to 25C, ICE = 1mA 1.30 V VGE = 15V, ICE = 35A e 2.10 V VGE = 15V, ICE = 110A e --- V VGE = 15V, ICE = 200A e --- V VGE = 15V, ICE = 110A, TJ = 150C 5.0 V VCE = VGE, ICE = 1mA --- mV/C 25 A VCE = 300V, VGE = 0V VCE = 300V, VGE = 0V, TJ = 150C --- 100 nA VGE = 30V VGE = -30V -100 VCE = 25V, ICE = 35A --- S --- nC VCE = 200V, IC = 35A, VGE = 15Ve --- --- ns VCC = 240V, VGE = 15V, RG= 5.1 L = 220nH, C= 0.40F, VGE = 15V --- J VCC = 240V, RG= 5.1, TJ = 25C L = 220nH, C= 0.40F, VGE = 15V --- VCC = 240V, RG= 5.1, TJ = 100C VGE = 0V --- --- pF VCE = 30V = 1.0MHz, See Fig.13 --- --- Between lead, nH 6mm (0.25in.) --- from package and center of die contact Notes: Half sine wave with duty cycle = 0.25, ton=1sec. R is measured at TJ of approximately 90C. Pulse width 400s; duty cycle 2%. 2 www.irf.com IRGB4055PBF 200 Top V = 18V GE V = 15V GE V = 12V GE V = 10V GE V = 8.0V GE V = 6.0V GE 200 Top V = 18V GE V = 15V GE V = 12V GE V = 10V GE V = 8.0V GE V = 6.0V GE 150 Bottom 150 Bottom ICE (A) ICE (A) 100 100 50 50 0 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 V CE (V) 0 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 V CE (V) Fig 1. Typical Output Characteristics @ 25C 200 Top V = 18V GE V = 15V GE V = 12V GE V = 10V GE V = 8.0V GE V = 6.0V GE Fig 2. Typical Output Characteristics @ 75C 200 Top V = 18V GE V = 15V GE V = 12V GE V = 10V GE V = 8.0V GE V = 6.0V GE 150 Bottom 150 Bottom ICE (A) ICE (A) 100 100 50 50 0 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 V CE (V) 0 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 V CE (V) Fig 3. Typical Output Characteristics @ 125C 300 IC, Collector-to-Emitter Current (A) Fig 4. Typical Output Characteristics @ 150C 20 T J = 25C 250 200 150 100 5 IC = 35A T J = 150C V CE (V) 15 TJ = 25C TJ = 150C 10 50 10s PULSE WIDTH 0 0 5 10 15 VGE, Gate-to-Emitter Voltage (V) 0 5 10 V GE (V) 15 20 Fig 5. Typical Transfer Characteristics Fig 6. VCE(ON) vs. Gate Voltage www.irf.com 3 IRGB4055PBF 120 100 IC, Collector Current (A) 300 280 Limited By Package Repetitive Peak Current (A) 260 240 220 200 180 160 140 120 100 80 60 40 20 0 ton= 1s Duty cycle = 0.25 Half Sine Wave 80 60 40 20 0 0 25 50 75 100 125 150 TC , Case Temperature (C) 25 50 75 100 125 150 Case Temperature (C) Fig 7. Maximum Collector Current vs. Case Temperature 1000 900 Energy per Pulse (J) Fig 8. Typical Repetitive Peak Current vs. Case Temperature 1000 L = 220nH C = 0.4F V CC = 240V L = 220nH C = variable Energy per Pulse (J) 900 800 700 800 700 600 25C 500 400 300 160 170 180 190 200 210 220 230 100C 100C 600 500 25C 400 300 200 150 160 170 180 190 200 210 220 230 240 V CE, Collector-to-Emitter Voltage (V) Ic , Peak Collector Current (A) Fig 9. Typical EPULSE vs. Collector Current 1200 V CC = 240V 1000 Energy Pulse (J) Fig 10. Typical EPULSE vs. Collector-to-Emitter Voltage 1000 OPERATION IN THIS AREA LIMITED BY V CE(on) L = 220nH t = 1s half sine C= 0.4F 100 800 C= 0.3F 600 C= 0.2F 400 1sec 10sec IC (A) 100sec 10 200 25 50 75 100 125 150 TJ, Temperature (C) 1 1 10 VCE (V) 100 1000 Fig 11. EPULSE vs. Temperature Fig 12. Forrward Bias Safe Operating Area 4 www.irf.com IRGB4055PBF 100000 VGS = 0V, f = 1 MHZ C ies = C ge + C gd, C ce SHORTED C res = C gc C oes = C ce + C gc 16 14 12 10 8 6 4 2 0 IC = 30A IC = 35A 10000 Capacitance (pF) Cies 1000 100 Coes Cres 10 0 50 100 150 200 V GE, Gate-to-Emitter Voltage (V) 0 25 50 75 100 125 150 V CE, Collector-toEmitter-Voltage(V) Q G, Total Gate Charge (nC) Fig 13. Typical Capacitance vs. Collector-to-Emitter Voltage Fig 14. Typical Gate Charge vs. Gate-to-Emitter Voltage 1 D = 0.50 Thermal Response ( Z thJC ) 0.1 0.20 0.10 0.05 0.02 0.01 0.01 0.001 SINGLE PULSE ( THERMAL RESPONSE ) Notes: 1. Duty Factor D = t1/t2 2. Peak Tj = P dm x Zthjc + Tc 0.001 0.01 0.1 1 0.0001 1E-006 1E-005 0.0001 t1 , Rectangular Pulse Duration (sec) Fig 15. Maximum Effective Transient Thermal Impedance, Junction-to-Case www.irf.com 5 IRGB4055PBF A RG DRIVER L C PULSE A VCC B PULSE B RG Ipulse DUT tST Fig 16a. tst and EPULSE Test Circuit Fig 16b. tst Test Waveforms VCE Energy IC Current 0 L DUT 1K VCC Fig 16c. EPULSE Test Waveforms Fig. 17 - Gate Charge Circuit (turn-off) 6 www.irf.com IRGB4055PBF TO-220AB Package Outline Dimensions are shown in millimeters (inches) TO-220AB Part Marking Information @Y6HQG@) UCDTADTA6IADSA A GPUA8P9@A &'( 6TT@H7G@9APIAXXA (A! DIAUC@A6TT@H7GAGDI@AA8A Ir)AAQAAvAhriyAyvrAvv vqvphrAAGrhqAAArrA DIU@SI6UDPI6G S@8UDAD@S GPBP 6TT@H7G GPUA8P9@ Q6SUAIVH7@S 96U@A8P9@ @6SAA2A! X@@FA ( GDI@A8 TO-220AB package is not recommended for Surface Mount Application. The specifications set forth in this data sheet are the sole and exclusive specifications applicable to the identified product, and no specifications or features are implied whether by industry custom, sampling or otherwise. We qualify our products in accordance with our internal practices and procedures, which by their nature do not include qualification to all possible or even all widely used applications. Without limitation, we have not qualified our product for medical use or applications involving hi-reliability applications. Customers are encouraged to and responsible for qualifying product to their own use and their own application environments, especially where particular features are critical to operational performance or safety. Please contact your IR representative if you have specific design or use requirements or for further information. Data and specifications subject to change without notice. This product has been designed for the Industrial 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.10/05 www.irf.com 7 |
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