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International IOR Rectifier IR2101/IR21014 IR2102/IR21024 handbook

1. 7 9 so 50 Typ Typ 0 0 50 25 0 25 50 75 100 125 10 12 14 16 18 20 Temperature C VBIAS Supply Voltage V Figure 10A Turn Off Fall Time vs Temperature Figure 10B Turn Off Fall Time vs Voltage 8 8 7 7 6 5 o 5 2 4 Min z 4 Min 22 Z ey 2 2 2 1 1 0 0 50 05 0 25 50 75 100 125 10 12 14 16 18 20 Temperature C Vcc Supply Voltage V Figure 12A Logic 1 Input Voltage IR2101 Figure 12B Logic 1 Input Voltage 2101 Logic 0 Input Voltage IR2102 Logic 0 Input Voltage IR2102 vs Temperature vs Voltage 4 4 3 2 3 2 24 e 24 gt 1 6 2 1 6 2 Max 0 8 4 0 8 0 0 50 25 0 25 50 75 100 125 10 12 14 16 18 20 Temperature Vcc Supply Voltage V Figure 13A Logic 0 Input Voltage 2101 Figure 13B Logic 0 Input Voltage 2101 Logic 1 Input Voltage 2102 Logic 1 Input Voltage IR2102 vs Temperature vs Voltage 11 2101 21014 2102 21024 International Rectifier 1 1 gt 3 0 8 0 8 9 06 Z d 5 2 e 5 a 04 O 04 9 Max 8 02 a gp D
2. ISR Rectifier 500 500 2 400 400 F 300 F Max 8 ol s 5 100 p 0 0 50 25 0 25 50 75 100 125 10 12 14 16 18 20 Temperature VBIAS Supply Voltage V Figure 6A Turn On Time vs Voltage Figure 6B Turn On Time vs Voltage 500 500 2 400 400 E gt 300 i 300 Max 5 200 Max A 200 dl _ 5 CL 5 100 F Typ 109 0 0 50 25 0 25 50 75 100 125 10 12 14 16 18 20 Temperature C VBIAS Supply Voltage V Figure 7A Turn Off Time vs Temperature Figure 7B Turn Off Time vs Voltage 500 500 8 400 8 400 300 300 8 ra Max 5 200 r 4122 c 5 100 sn 3 100 0 0 50 25 0 25 50 75 100 125 10 12 14 16 18 20 Temperature VBIAS Supply Voltage V Figure 9A Turn On Rise Time vs Temperature Figure 9B Turn On Rise Time vs Voltage 10 Turn Off Fall Time ns International IR2101 1R21014 1R2102 1R21024 Rectifier 200 200 150 150 L i 100 100 TT AAA
3. 2102 2101 21014 2102 21024 International Rectifier Absolute Maximum Ratings Absolute maximum ratings indicate sustained limits beyond which damage to the device may occur All voltage param eters are absolute voltages referenced to COM The thermal resistance and power dissipation ratings are measured under board mounted and still air conditions Definition High side floating supply voltage High side floating supply offset voltage High side floating output voltage Low side and logic fixed supply voltage Low side output voltage Logic input voltage amp LIN Allowable offset supply voltage transient Package power dissipation TA lt 25 C 8 lead PDIP 8 lead SOIC 14 lead PDIP 14 lead SOIC Thermal resistance junction to ambient 8 lead PDIP 8 lead SOIC 14 lead PDIP 14 lead SOIC Junction temperature Storage temperature Lead temperature soldering 10 seconds Recommended Operating Conditions The input output logic timing diagram is shown in figure 1 For proper operation the device should be used within the recommended conditions The Vs offset rating is tested with all supplies biased at 15V differential Definition High side floating supply absolute voltage High side floating supply offset voltage High side floating output voltage Low si
4. 0075 0098 019 0 25 Popol 189 2196 480 498 6 46 255 450 157 3 81 3 99 s 8X 1 78 070 050 BASC 127 BASIC 025 BASIC 0 635 BASIC 2284 2440 5 80 6 20 011 019 0 28 0 48 016 050 0 41 1 27 0 8 0 8 1 27 050 4 E e 1 X 010 1 0043 x L 5 0 25 OUTLINE CONFORMS TO OUTLINE 5 012 TES iios DIMENSION DOES NOT INCLUDE MOLD PROTRUSIONS 1 DIMENSIONING amp TOLERANCING PER ANSI Y14 5M 1982 MOLD PROTRUSIONS NOT TO EXCEED 0 25 006 2 CONTROLLING DIMENSION MILLIMETER DIMENSION amp THE LENGTH OF LEAD F R 3 DIMENSIONS ARE SHOWN IN MILLIMETERS INCHES SOLDERING TO A SUBSTRATE 8 Lead SOIC 01 0021 08 2101 21014 2102 21024 International IGR Rectifier NOTES 1 DIMENSIONING amp TOLERANCING PER ANSI Y14 5M 1982 CONTROLLING DIMENSION INCH DIMENSIONS ARE SHOWN IN MILLIMETERS INCHES 2 3 4 OUTLINE CONFORMS TO OUTLINE MS 001AC 5 MEASURED WITH THE LEADS CONSTRAINED TO BE O PERPENDICULAR TO DATUM PLANE C DIMENSION DOES NOT INCLUDE MOLD PROTU
5. E Eee 0 0 50 25 0 25 50 75 100 125 10 12 14 16 18 20 Temperature C Vcc Supply Voltage V Figure 14A High Level Output Figure 14B High Level Output vs Voltage vs Temperature 1 1 g 0 8 g 08 hd 2 5 5 2 06 Z 06 P 2 2 6 04 04 5 5 02 32 02 Max z Max w _ E 0 0 50 25 0 25 50 75 100 125 10 12 14 16 18 20 Temperature C Vcc Supply Voltage V Figure 15A Low Level Output Figure 15B Low level Output vs Voltage vs Temperature _ 500 500 5 5 400 k 9 O 300 D c D 200 43 200 27 gt m o gt 100 a 2 8 a a o 0 59 25 0 25 50 75 100 125 0 100 200 300 400 500 600 Temperature C VB Boost Voltage V Figure 16 Offset Supply Current Figure 16B Offset Supply Current vs Temperature vs Voltage 12 International IR2101 1R21014 1R2102 1R21024 Rectifier 150 150 T 120 lt 120 5 E 5 90 8 90 o gt o amp 60 8 60 Q LT 30 T
6. T 0 50 25 0 25 50 75 100 125 10 12 14 16 18 20 Temperature C VBS Floating Supply Voltage V Figure 17A Ves Supply Current Figure 17B Ves Supply Current vs Temperature vs Voltage 700 700 T 600 lt 600 E 500 500 8 400 8 400 2 Max gt 1 300 Max g 300 Max e gt Ii 3 200 200 8 _ A 8 gt 100 gt 100 Typ 0 0 50 25 0 25 50 75 100 125 10 12 14 16 18 20 lemperature C Vcc Supply Voltage V Figure 18A Vcc Supply Current Figure 18B Vcc Supply Current vs Temperature vs Voltage 30 30 3 25 3 25 E E 2 20 9 20 5 TT o zx 15 2 715 L TT c 10 10 Max ee TT D 54 3 2 Up ASA 0 0 50 25 0 25 50 75 100 125 10 12 14 16 18 20 Temperature C Vcc Supply Voltage V Figure 19A Logic 1 Input Current Figure 19B Logic 1 Input Current vs Temperature vs Voltage 13 IR2101 IR21014 IR2102 IR21024 5 4 a 3 5 2 Max 3 0 50 235 0 25 50 75 100 125 Temperature C Figure 20A Logic 0 Input Current vs Temperature 11 10 9 2 i Ee ee eee Mi E o 8 l 5 o 7 gt 6 50 25 0 25 50 75 100 125 T
7. D HEADQUARTERS 233 Kansas St El Segundo California 90245 Tel 310 322 3331 IR GREAT BRITAIN Hurst Green Oxted Surrey RH8 9BB UK Tel 44 1883 732020 IR 15 Lincoln Court Brampton Ontario L6T 322 Tel 905 453 2200 IR GERMANY Saalburgstrasse 157 61350 Bad Homburg Tel 49 6172 96590 IR ITALY Via Liguria 49 10071 Borgaro Torino Tel 39 11 451 0111 IR FAR EAST Bldg 2F 30 4 Nishi Ikebukuro 3 Chome Toshima Ku Tokyo Japan 171 Tel 81 3 3983 0086 IR SOUTHEAST ASIA 1 Kim Seng Promenade Great World City West Tower 13 11 Singapore 237994 Tel 65 221 8371 IR TAIWAN 16 FI Suite D 207 Sec 2 Tun Haw South Road Taipei 10673 Taiwan Tel 886 2 2377 9936 http www irf com Data and specifications subject to change without notice 3 22 99 15
8. Logic 1 input bias current Vin 5 IR2101 Vin 20V IR2102 Logic 0 input bias current Vin 0V IR2101 Vin 5V IR2102 Vcc supply undervoltage positive going threshold Vcc supply undervoltage negative going threshold Output high short circuit pulsed current Vo 20V Vin Logic 1 PW 10 us Output low short circuit pulsed current Vo 15V Vin Logic 0 PW x 10 us IR2101 IR21014 IR2102 IR21024 Functional Block Diagram International Rectifier PULSE FILTER 69 UV DETECT 7 LE o IR2101 IR21014 PULSE FILTER Uv DETECT A 00 IR2102 IR21024 International IR2101 1R21014 1R2102 1R21024 Rectifier Lead Definitions Description Logic input for high side gate driver output HO in phase IR2101 Logic input for high side gate driver output HO out of phase IR2102 Logic input for low side gate driver output LO in phase IR2101 Logic input for low side gate driver output LO out of phase IR2102 High side floating supply High side gate drive output High side floating supp
9. O O TR2101 Preliminary Data Sheet No PD60043J International IR2101 IR21014 I amp R Rectifier IR2102 IR21024 HIGH AND LOW SIDE DRIVER Features Product Summary Floating channel designed for bootstrap operation Fully operational to 600V VOFFSET 600V max Tolerant to negative transient voltage lo 130 mA 270 mA dV dt immune e Gate drive supply range from 10 to 20V VOUT 10 20V Undervoltage lockout e 5V Schmitt triggered input logic ton off typ 160 amp 150 ns e Matched propagation delay for both channels e Outputs in phase with inputs IR2101 IR21014 or Delay Matching 50 ns out of phase with inputs IR2102 IR21024 Description Packages 1R2101 IR21014 IR2102 IR21024 are high voltage high speed power MOSFET and IGBT drivers with in dependent high and low side referenced output chan e WW nels Proprietary HVIC and latch immune CMOS tech nologies enable ruggedized monolithic construction The 8 Lead SOIC 14 Lead SOIC logic input is compatible with standard CMOS LSTTL output The output drivers feature a high pulse current buffer stage designed for minimum driver cross conduc tion The floating channel can be used to drive an N channel power MOSFET or IGBT in the high side con figuration which operates up to 600 volts 8 Lead PDIP 14 Lead PDIP Typical Connection up to 600V 2101 up to 600V
10. SIONS MOLD PROTUSIONS SHALL NOT EXCEED 0 25 010 1 1 sax 0 381 015 0 204 008 01 3002 03 NOTES DIMENSIONING amp TOLERANCING PER ANSI Y14 5M 1982 CONTROLLING DIMENSION MILLIMETER DIMENSIONS ARE SHOWN IN MILLIMETERS INCHES 4 OUTLINE CONFORMS TO JEDEC OUTLINE 5 012 DIMENSION IS THE LENGTH OF LEAD FOR SOLDERING TO 2440 SUBSTRATE 20 80 2284 DIMENSION DOES NOT INCLUDE MOLD PROTUSIONS MOLD 010 PROTUSIONS SHALL NOT EXCEED 0 15 006 25 0 25 0098 o 0040 0525 0098 9 0075 14 14 Lead SOIC narrow body 01 3063 00 International IR2101 IR21014 IR2102 IR21024 Figure 1 Input Output Timing Diagram Figure 2 Switching Time Waveform Definitions 50 50 50 MT MT 90 Figure 3 Delay Matching Waveform Definitions 2101 21014 2102 21024 International
11. de and logic fixed supply voltage Low side output voltage Logic input voltage HIN amp LIN IR2101 amp HIN amp LIN IR2102 Ambient temperature Note 1 Logic operational for Vs of 5 to 600V Logic state held for Vs of 5V to VBS 2 International 2101 21014 2102 21024 Rectifier Dynamic Electrical Characteristics VBiAS Vcc Ves 15V C 1000 pF and TA 25 C unless otherwise specified Definition in Test Conditions Turn on propagation delay Vs 0V Turn off propagation delay Vs 600V Turn on rise time Turn off fall time Delay matching HS 8 LS turn on off Static Electrical Characteristics VBiAS Vcc Vgs 15V and TA 25 C unless otherwise specified The Vin VTH and parameters referenced to COM The Vo and lo parameters are referenced to COM and are applicable to the respective output leads HO or LO Definition in Test Conditions Logic 1 input voltage IR2101 Logic 0 input voltage 182102 Voc 10V to 20V Logic 0 input voltage IR2101 Vcc 10V to 20V Logic 1 input voltage IR2102 High level output voltage VBIAS Vo lo 0A Low level output voltage Vo lo 0A Offset supply leakage current VB Vs 600V Quiescent supply current Vin 0V or 5V Quiescent Vcc supply current Vin OV or 5V
12. emperature C Figure 21A Vcc Undervoltage Threshold vs Temperature Typ LL Output Source Current mA 25 50 Temperature C 75 Figure 22 Output Source Current vs Temperature 14 International Rectifier 5 T 2 4 E 3 5 2 2 e Max 2 4d4 u4 L u D 3 0 10 12 14 16 18 20 VCC Supply Voltage V Figure 20B Logic 0 Input Current vs Voltage 11 10 Max 9 Typ VCC UVLO Threshold oo 25 50 75 Temperature C Figure 21B Vcc Undervoltage Threshold vs Temperature 500 Output Source Current mA 10 12 14 16 18 VBIAS Supply Voltage V 20 Figure 22B Output Source Current vs Voltage International IR2101 1R21014 1R2102 1R21024 Rectifier 700 700 2 600 600 500 1 Typ 500 9 400 8 400 3 yp 300 200 9 200 3 Min E 100 8 100 0 0 50 25 0 25 50 75 100 125 10 12 14 16 18 20 Temperature C VBIAS Supply Voltage V Figure 23A Output Sink Current Figure 23B Output Sink Current vs Temperature vs Voltage International ISR Rectifier WORL
13. ly return Low side and logic fixed supply Low side gate drive output Low side return Lead Assignments IR2101 8 Lead PDIP 8 Lead SOIC IR2101 IR2101S 2101 21014 2102 21024 International IGR Rectifier Lead Assignments IR2102 International IR2101 1R21014 1R2102 1R21024 Rectifier m e ENSIONING amp TOLERANCING PER ANSI 14 5 1982 ONTROLLING DIMENSION INCH ENSIONS ARE SHOWN IN MILLIMETERS INCHES UTLINE CONFORMS TO JEDEC OUTLINE 5 001 EASURED WITH THE LEADS CONSTRAINED TO BE ERPENDICULAR TO DATUM PLANE MENSION DOES NOT INCLUDE MOLD PROTUSIONS MOLD PROTUSIONS SHALL NOT EXCEED 0 25 010 Ses YP SN lt A r 5 33 210 LIL y 0558 022 0 356 014 0 25 Loto 0 BOO 0 381 015 8X 0 204 008 01 3003 01 RECOMMENDED FOOTPRINT INCHES MILLIMETERS MIN MAX MIN MAX 028 0532 0688 135 175 0040 0098 040 025 014 08 036 046

International IOR Rectifier IR2101/IR21014 IR2102/IR21024 handbook

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