Data Sheet No. PD60107 revX IR2133/IR2135(J&S) & (PbF) IR2233/IR2235(J&S) & (PbF) 3-PHASE BRIDGE DRIVER Features * Floating channel designed for bootstrap operation Fully operational to +600V or+1200V Tolerant to negative transient voltage dV/dt immune * Gate drive supply range from 10V/12V to 20V DC and up to 25V for transient * Undervoltage lockout for all channels * Over-current shut down turns off all six drivers * Independent 3 half-bridge drivers * Matched propagation delay for all channels * 2.5V logic compatible * Outputs out of phase with inputs * All parts are also available LEAD-FREE Product Summary VOFFSET IO+/VOUT ton/off (typ.) Deadtime (typ.) 600V or 1200V max. 200 mA / 420 mA 10 - 20V or 12 - 20V 750/700 ns 250 ns Packages Description The IR2133IR2135/IR2233IR2355 (J&S) are high voltage, high speed power MOSFET and IGBT driver with three independent high side and low side referenced output channels for 3-phase applications. Propri28-Lead SOIC etary HVIC technology enables ruggedized monolithic construction. 28-Lead PDIP Logic inputs are compatible with CMOS or LSTTL outputs, down to 2.5V logic. An independent operational amplifier provides an analog 44-Lead PLCC w/o 12 leads feedback of bridge current via an external current sense resistor. A current trip function which terminates all six outputs can also be derived from this resistor. A shutdown function is available to terminate all six outputs. An open drain FAULT signal is provided to indicate that an over-current or undervoltage shutdown has occurred. Fault conditions are cleared with the FLT-CLR lead. The output drivers feature a high pulse current buffer stage designed for minimum driver cross-conduction. Propagation delays are matched to simplify use in high frequency applications. The floating channels can be used to drive N-channel power MOSFETs or IGBTs in the high side configuration which operates up to 600 volts or 1200 volts. Typical Connection up to 600V or 1200V (Refer to Lead Assignments for correct pin configuration). This/These diagram(s) show electrical connections only. Please refer to our Application Notes and DesignTips for proper circuit board layout. www.irf.com 1 IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) Absolute Maximum Ratings Absolute Maximum Ratings indicate sustained limits beyond which damage to the device may occur. All voltage parameters are absolute voltages referenced to COM. The Thermal Resistance and Power Dissipation ratings are measured under board mounted and still air conditions. Symbol VB1,2,3 VS1,2,3 VHO1,2,3 V CC VSS VLO1,2,3 VIN VIN,AMP VOUT,AMP VFLT dVS/dt PD RthJA TJ TS TL Definition High side floating supply voltage (IR2133/IR2135) (IR2233/IR2235) High side floating supply offset voltage High side floating output voltage Fixed supply voltage Logic ground Low side output voltage Logic input voltage (HIN, LIN, ITRIP, SD & FLT-CLR) Op amp input voltage (CA+ & CA-) Op amp output voltage (CAO) FAULT output voltage Allowable offset supply voltage transient Package power dissipation @ TA 25C (28 Lead PDIP) (28 Lead SOIC) (44 lead PLCC) Thermal resistance, junction to ambient (28 Lead PDIP) (28 Lead SOIC) (44 lead PLCC) Junction temperature Storage temperature Lead temperature (soldering, 10 seconds Min. Max. -0.3 -0.3 VB1,2,3 - 25 VS1,2,3 - 0.3 -0.3 VCC - 25 -0.3 VSS - 0.3 625 1225 VB1,2,3 + 0.3 VB1,2,3 + 0.3 25 VCC + 0.3 VCC + 0.3 (VSS + 15) or (VCC + 0.3) whichever is lower VCC + 0.3 VCC + 0.3 VCC + 0.3 50 1.5 1.6 2.0 83 78 63 125 150 300 VSS - 0.3 VSS - 0.3 VSS - 0.3 -- -- -- -- -- -- -- -- -55 -- Units V V/ns W C/W C 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. All voltage parameters are absolute voltages referenced to COM. The VS offset rating is tested with all supplies biased at 15V differential. Symbol Parameter Definition VB1,2,3 VS1,2,3 VHO1,2,3 V CC VSS VLO1,2,3 VIN VIN,AMP VOUT,AMP VFLT High side floating supply voltage High side floating supply offset voltage (IR2133/IR2135) (IR2233/IR2235) High side floating output voltage Fixed supply voltage Low side driver return Low side output voltage Logic input voltage (HIN, LIN, ITRIP, SD & FLT-CLR) Op amp input voltage (CA+ & CA-) Op amp output voltage (CAO) FAULT output voltage Min. Max. VS1,2,3 + 10/12 VS1,2,3 + 20 Note 1 600 Note 1 1200 VS1,2,3 VB1,2,3 10 or 12 20 -5 5 0 VCC VSS VSS + 5 VSS VSS + 5 VSS VSS + 5 VSS VCC Units V Note 1: Logic operational for VS of COM - 5V to COM + 600V/1200V. Logic state held for VS of COM -5V to COM -VBS. (Please refer to the Design Tip DT97-3 for more details). Note 2: All input pins, op amp input and output pins are internally clamped with a 5.2V zener diode. 2 www.irf.com IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) Dynamic Electrical Characteristics VBIAS (VCC, VBS1,2,3) = 15V, VS1,2,3 = VSS, TA = 25oC and CL = 1000 pF unless otherwise specified. Symbol Definition Min. Typ. Max. Units Test Conditions ton toff tr tf tsd titrip Turn-on propagation delay Turn-off propagation delay Turn-on rise time Turn-off fall time SD to output shutdown propagation delay ITRIP to output shutdown propagation delay 500 450 -- -- 500 600 750 700 90 40 750 850 1000 950 150 70 1000 1100 tbl ITRIP blanking time -- 400 -- tflt ITRIP to FAULT propagation delay 400 650 900 tfil,in Input filter time (HIN, LIN and SD) -- 310 -- tfltclr DT SR+ SR- VIN = 0 & 5V VS1,2,3 = 0 to 600V or 1200V ns VIN,VSD = 0 & 5V VIN,VITRIP = 0 & 5V ITRIP = 1V VIN,VITRIP = 0 & 5V VIN = 0 & 5V FLT-CLR to FAULT clear time 600 850 1100 VIN,VITRIP = 0 & 5V Deadtime, LS turn-off to HS turn-on & HS turn-off to LS turn-on Amplifier slew rate (positive) Amplifier slew rate (negative) 100 250 400 VIN = 0 & 5V 5 2 10 2.5 -- -- V/s NOTE: For high side PWM, HIN pulse width must be 1 sec Static Electrical Characteristics VBIAS (VCC, VBS1,2,3) = 15V unless otherwise specified and TA = 25oC. All static parameters other than IO and VO are referenced to VSS and are applicable to all six channels (HS1,2,3 & LS1,2,3). The VO and IO parameters are referenced to COM and VS1,2,3 and are applicable to the respective output leads: HO1,2,3 or LO1,2,3. Symbol Definition VIH VIL VFCLR,IH VFCLR,IL VSD,TH+ VSD,THVIT,TH+ VIT,THVOH VOL ILK Logic "0" Input Voltage (OUT = LO) Logic "1" Input Voltage (OUT = HI) Logic "0" Fault Clear Input Voltage Logic "1" Fault Clear Input Voltage SD Input Positive Going Threshold SD Input Negative Going Threshold IITRIP Input Positive Going Threshold IITRIP Input Negative Going Threshold High Level Output Voltage, VBIAS - VO Low Level Output Voltage, VO Offset Supply Leakage Current (IR2133/IR2135) (IR2233/IR2235) Quiescent VBS Supply Current Quiescent VCC Supply Current Logic "1" Input Bias Current (OUT = HI) Logic "0" Input Bias Current (OUT = LO) "High" Shutdown Bias Current "Low" Shutdown Bias Current "High" IITRIP Bias Current "Low" IITRIP Bias Current IQBS IQCC IIN+ IINISD+ ISDIITRIP+ IITRIPwww.irf.com Min. 2.2 -- 2.2 -- 1.6 1.4 470 360 -- -- -- -- -- -- -- -- -- -- -- -- Typ. Max. Units -- -- -- -- 1.9 1.7 570 460 -- -- -- -- 50 4 200 100 30 -- 30 -- -- 0.8 -- 0.8 2.2 2.0 670 560 100 100 50 50 100 8 350 250 100 100 100 100 Test Conditions V mV A mA A nA A nA VIN = 0V, IO = 0A VIN = 5V, IO = 0A VB1,2,3=VS1,2,3 = 600V VB1,2,3=VS1,2,3 = 1200V VIN = 0V or 5V VIN = 0V or 5V VIN = 0V VIN = 5V SD = 5V SD = 0V IITRIP = 5V IITRIP = 0V 3 IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) Static Electrical Characteristics -- Continued VBIAS (VCC, VBS1,2,3) = 15V unless otherwise specified and TA = 25oC. All static parameters other than IO and VO are referenced to VSS and are applicable to all six channels (HS1,2,3 & LS1,2,3). The VO and IO parameters are referenced to COM and VS1,2,3 and are applicable to the respective output leads: HO1,2,3 or LO1,2,3. Symbol Parameter Definition Min. Typ. Max. Units Test Conditions I FLTCLR+ "High" Fault Clear Input Bias Current -- 200 350 I FLTCLR- "Low" Fault Clear Input Bias Current -- 100 250 VBSUV+ VBSUV- VBSUVH V CCUV+ VCCUV- V CCUVH FLT-CLR = 0V A FLT-CLR = 5V VBS Supply Undervoltage Positive Going Threshold (for IR2133/IR2233) 7.6 8.6 9.6 (for IR2135/IR2235) 9.2 10.4 11.6 (for IR2133/IR2233) 7.2 8.2 9.2 (for IR2135/IR2235) 8.3 9.4 10.5 (for IR2133/IR2233) -- 0.4 -- (for IR2135/IR2235) -- 1 -- VBS Supply Undervoltage Negative Going Threshold VBS Supply Undervoltage Lockout Hysteresis V VCC Supply Undervoltage Positive Going Threshold (for IR2133/IR2233) 7.6 8.6 9.6 (for IR2135/IR2235) 9.2 10.4 11.6 (for IR2133/IR2233) 7.2 8.2 9.2 (for IR2135/IR2235) 8.3 9.4 10.5 VCC Supply Undervoltage Negative Going Threshold VCC Supply Undervoltage Lockout Hysteresis (for IR2133/IR2233) -- 0.4 -- (for IR2135/IR2235) -- 1 -- -- 70 100 Ron,FLT FAULT- Low On Resistance IO+ Output High Short Circuit Pulsed Current 200 250 -- IO- Output Low Short Circuit Pulsed Current 420 500 -- mA VOS Amplifier Input Offset Voltage -- 0 30 mV CA+=0.2V, CA-=CAO IIN,AMP Amplifier Input Bias Current -- -- 4 nA CA+ = CA- = 2.5V CMRR Amplifier Common Mode Rejection Ratio 50 70 -- PSRR Amplifier Power Supply Rejection Ratio 50 70 -- dB CA+=0.2V, CA-=CAO VCC = 10V & 20V 5 5.2 5.4 V CA+ = 1V, CA- = 0V mV VOH,Amp Amplifier High Level Output Voltage -- -- 20 I SRC,Amp Amplifier Output Source Current 4 7 -- I SNK,Amp Amplifier Output Sink Current VOL,Amp Amplifier Low Level Output Voltage 0.5 1 -- IO+,Amp Amplifier Output High Short Circuit Current -- 10 -- IO-,Amp Amplifier Output Low Short Circuit Current -- 4 -- 4 VOUT = 0V, VIN = 0V PW 10 s VOUT = 15V, VIN = 5V PW 10 s CA+ = 0.1V & 5V, CA- = CAO CA+ = 0V, CA- = 1V CA+ = 1V, CA- = 0V, CAO = 4V CA+ = 0V, CA- = 1V, CAO = 2V mA CA+ = 5V, CA- = 0V, CAO = 0V CA+ = 0V, CA- = 5V, CAO = 5V www.irf.com IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) Functional Block Diagram Lead Definitions Symbol Lead Description HIN1,2,3 Logic inputs for high side gate driver outputs (HO1,2,3), out of phase. LIN1,2,3 Logic inputs for low side gate driver outputs (LO1,2,3), out of phase. FAULT Indicates over-current or undervoltage lockout (low side) has occurred, negative logic. VCC Logic and low side fixed supply. ITRIP Input for over-current shut down. FLT-CLR Logic input for fault clear, negative logic. SD Logic input for shut down. CAO Output of current amplifier. CA- Negative input of current amplifier. CA+ Positive input of current amplifier. VSS Logic ground. COM Low side return. VB1,2,3 High side floating supplies. HO1,2,3 High side gate drive outputs. VS1,2,3 High side floating supply returns. LO1,2,3 Low side gate drive outputs www.irf.com 5 IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) Lead Assignments ITRIP FAULT ITRIP FAULT FLT-CLR LIN3 FLT-CLR LIN3 CAO LIN2 CAO LIN2 CA- LIN1 CA- LIN1 CA+ HIN3 CA+ HIN3 SD HIN2 SD HIN2 VSS HIN1 VSS HIN1 COM VCC COM VCC LO3 VB1 LO3 VB1 LO2 HO1 LO2 HO1 LO1 VS1 LO1 VS1 VS3 VB2 VS3 VB2 HO3 HO2 HO3 HO2 VB3 VS2 VB3 VS2 28 Lead DIP 44 Lead PLCC w/o 12 Leads IR2133J IR2135J IR2233J IR2235J IR2133 IR2135 28 Lead SOIC (Wide Body) IR2133S IR2135S IR2233S IR2235S Part Number HIN1,2,3 LIN1,2,3 ITRIP SD FLT-CLR FAULT HO1,2,3 LO1,2,3 Figure 1. Input/Output Timing Diagram 6 www.irf.com IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) HIN HIN LIN ton LIN toff tr 90% 50% 50% 50% 50% tf LO 90% 50% 50% HO HO LO 10% 10% DT Figure 2. Switching Time Waveform Definitions DT Figure 3. Deadtime Waveform Definitions FLT-CLR 50% 50% ITRIP FAULT 50% 50% Any Output 50% tflt tfltclr titrip Figure 4. Overcurrent Shutdown Waveform t in,fil U t in,fil 50% HIN/LIN on off on off on off high HO/LO low Figure 4.5. Input Filter Function www.irf.com SD tsd HO LO 90% Figure 5. Shutdown Waveform Definitions 7 IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 1500 Turn-on Delay Time (ns) Turn-on Delay Time (ns) 1500 1200 900 M ax. Typ. 600 M in. 300 0 -50 1200 M ax. 900 Typ. 600 M in. 300 0 -25 0 25 50 75 100 125 10 12.5 Temperature (oC) 1500 1200 Turn-Off Time (ns) Turn-on Delay Time (ns) 20 Figure 6B. Turn-On Time vs. Voltage 1500 M ax. 900 Typ. 600 M in. 300 2.5 3 3.5 4 4.5 1200 900 M ax. Typ. 600 M in. 300 0 -50 0 5 -25 0 25 50 75 100 125 Temperature ( C) o Input Voltage (V) Figure 6C. Turn-On Time vs. Input Voltage Figure 7A. Turn-Off Time vs. Temperature 1500 1500 1200 Turn-Off Time (ns) Turn-Off Time (ns) 17.5 Supply Voltage (V) Figure 6A. Turn-On Time vs. Temperature M ax. 900 Typ. 600 M in. 1200 M ax. 900 Typ. 600 M in. 300 300 0 0 10 8 15 12.5 15 17.5 20 2.5 3 3.5 4 4.5 Supply Voltage (V) Input Voltage (V) Figure 7B. Turn-Off Time vs. Voltage Figure 7C. Turn-Off Time vs. Input Voltage 5 www.irf.com 250 250 200 200 Turn-On Rise Time (ns Turn-On Rise Time (ns IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 150 M ax. 100 Typ. 50 M ax. 150 Typ. 100 50 0 0 -50 -25 0 25 50 75 100 10 125 12.5 Fiure 8A. Turn-On Rise Time vs.Temperature Turn-Off Fall Time Turn-Off Fall Time 20 150 120 90 60 M ax. Typ. 30 120 90 M ax. 60 Typ. 30 0 0 -50 -25 0 25 50 75 100 10 125 12.5 17.5 20 Figure 9B. Turn-Off Fall Time vs. Voltage Figure 9A. Turn-Off Fall Time vs. Temperature 1500 SD to output SD Time (ns) 1500 1200 900 15 Supply Voltage (V) Temperature (oC) SD to output SD Time (ns) 17.5 Fiure 8B. Turn-On Rise Time vs.Voltage 150 M ax. Typ. 600 M in. 300 0 -50 1200 M ax. 900 Typ. 600 M in. 300 0 -25 0 25 50 75 100 125 10 12.5 15 17.5 20 Temperature ( C) Supply Voltage (V) Figure 10A. SD to Output shutdown Time vs. Temperature Figure 10B. SD to Output shutdown Time vs. Voltage o www.irf.com 15 Supply Voltage (V) Temperature ( C) o 9 IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 1500 ITRIP to FAULT Time (ns ITRIP to FAULT Time (ns 1500 1200 900 M ax. Typ. 600 M in. 300 1200 M ax. 900 Typ. 600 M in. 300 0 0 -50 -25 0 25 50 75 100 10 125 ITRIP to output SD Time (ns ITRIP to output SD Time (ns 1800 1500 1200 M ax. 900 Typ. M in. 300 -50 -25 0 25 50 75 100 1500 M ax. 1200 Typ. 900 M in. 600 10 125 12.5 1200 M ax. Typ. M in. 0 25 50 75 100 125 Temperature (oC) ________ ______ Figure 13A. FLT-CLR to FAULT clear Time vs. Temperature 10 17.5 20 Figure 12B. ITRIP to output shutdow n Time vs. Voltage FLT-CLR to FAULT clear Time (ns FLT-CLR to FAULT clear Time (ns 1500 -25 15 Supply Voltage (V) 1800 300 -50 20 300 Figure 12A. ITRIP to output shutdow n Time vs. Temperature 600 17.5 1800 Temperature (oC) 900 15 Supply Voltage (V) _____ Figure 11B. ITRIP to FAULT Time vs. Voltage Temperature (oC) _____ Figure 11A. ITRIP to FAULT Time vs. Temperature 600 12.5 1800 1500 1200 M ax. 900 Typ. M in. 600 300 10 12.5 15 17.5 20 Supply Voltage (V) ________ ______ Figure 13B. FLT-CLR to FAULT clear Time vs. Voltage www.irf.com 750 750 600 600 Deadtime (ns) Deadtime (ns) IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 450 M ax. 300 Typ. 150 450 M ax. 300 Typ. 150 M in. M in. 0 0 -50 -25 0 25 50 75 100 10 125 12.5 Temperature (oC) Amplifier slew rate (v/ s) Amplifier slew rate (v/ s) 16 12 Typ. 8 M in. 4 16 12 Typ. 8 M in. 4 0 0 -50 -25 0 25 50 75 100 10 125 12.5 15 17.5 20 Supply Voltage (V) Temperature (oC) Figure 15A. Amplifier slew rate (+) vs. Temperature Figure 15B. Amplifier slew rate (+) vs. Voltage 5 5 Amplifier slew rate (v/ s) Amplifier slew rate (v/ s) 20 20 20 4 3 Typ. M in. 1 0 -50 4 3 Typ. 2 M in. 1 -25 0 25 50 75 100 Temperature (oC) Figure 16A. Amplifier slew rate (-) vs. Temperature www.irf.com 17.5 Figure 14B. Deadtime vs. Voltage Figure 14A. Deadtime vs. Temperature 2 15 Supply Voltage (V) 125 10 12.5 15 17.5 20 Supply Voltage (V) Figure 16B. Amplifier slew rate (-) vs. Voltage 11 IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 6 Logic "0" Input Voltage (V) Logic "0" Input Voltage (V) 6 5 4 3 M in. 2 5 4 3 M in. 2 1 1 -50 -25 0 25 50 75 100 10 125 12.5 4 3 2 M ax. 0 -50 4 3 2 M ax. 1 0 -25 0 25 50 75 100 125 10 12.5 Temperatre ( C) 17.5 Figure 18A. Logic "1" Input (OUT=HI), Fault Clear Input Voltage vs. Temperature Figure 18B. Logic "1" Input (OUT=HI), Fault Clear Input Voltage vs. Voltage 3.0 3.0 SD Input TH (+) (V) SD Input TH (+) (V) 15 2.5 M ax. Typ. M in. 1.5 1.0 -50 20 Supply Voltage (V) o 2.0 20 5 Logic "1" Input Voltage (V) Logic "1" Input Voltage (V) 5 2.5 M ax. 2.0 Typ. M in. 1.5 1.0 -25 0 25 50 75 100 Temperatre ( C) o Figure 21A. SD Input TH(+) vs. Temperature 12 17.5 Figure 17B. Logic "0" Input Voltage (OUT=LO), Fault Clear Voltage vs. Voltage Figure 17A. Logic "0" Input Voltage (OUT=LO), Fault Clear Voltage vs. Temperature 1 15 Supply Voltage (V) Temperature ( C) o 125 10 12.5 15 17.5 20 Supply Voltage (V) Figure 21B. SD Input TH(+) vs. Voltage www.irf.com IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 3.0 SD Input TH (-) (V) SD Input TH (-) (V) 3.0 2.5 M ax. 2.0 Typ. 1.5 M in. 1.0 -50 2.5 M ax. 2.0 Typ. 1.5 M in. 1.0 -25 0 25 50 75 100 125 10 12.5 Temperatre ( C) Figure 22A. SD Input TH(-) vs. Temperature IITRIP Input TH (+) (mV) M ax. 600 Typ. M in. 400 200 -50 800 M ax. 600 Typ. M in. 400 200 -25 0 25 50 75 100 125 10 12.5 Temperature ( C) Figure 23A. IITRIP Input TH(+) vs. Temperature 17.5 20 Figure 23B. IITRIP Input TH(+) vs. Voltage 900 IITRIP Input TH (-) (mV) 900 IITRIP Input TH (-) (mV) 15 Supply Voltage (V) o 700 M ax. Typ. M in. 300 100 -50 700 M ax. 500 Typ. M in. 300 100 -25 0 25 50 75 100 125 Temperature (oC) Figure 24A. IITRIP Input TH(-) vs.Temperature www.irf.com 20 1000 800 500 17.5 Figure 22B. SD Input TH(-) vs. Voltage 1000 IITRIP Input TH (+) (mV) 15 Supply Voltage (V) o 10 12.5 15 17.5 20 Supply Voltage (V) Figure 24B. IITRIP Input TH(-) vs. Voltage 13 0.5 0.4 0.3 0.2 0.1 M ax. 0.0 -50 -25 0 25 50 75 100 125 Temperature (oC) High Level Output Voltage (V) High Level Output Voltage (V) IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 0.5 0.4 0.3 0.2 M ax. 0.1 0.0 10 0.3 0.2 0.1 M ax. 0 -50 -25 0 25 50 75 100 125 Temperature (oC) 300 200 100 M ax. 0 -50 -25 0 25 50 75 100 125 Temperature (oC) Figure 27A. Offset Supply Leakage Current vs. Temperature 14 Offset Supply Leakage Current (A) Offset Supply Leakage Current (A) 400 20 0.5 0.4 0.3 0.2 M ax. 0.1 0 10 12.5 15 17.5 20 Supply Voltage (V) Figure 26B. Low Level Output vs. Voltage Figure 26A. Low Level Output vs. Temperature 500 17.5 Figure 25B. High Level Output vs. Voltage Low Level Output Voltage (V) Low Level Output Voltage (V) 0.4 15 Supply Voltage (V) Figure 25A. High Level Output vs. Temperature 0.5 12.5 500 400 300 200 100 M ax. 0 0 100 200 300 400 500 600 Supply Voltage (v) Figure 27B. Offset Supply Leakage Current vs. Voltage www.irf.com IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 250 V Supply Current () V Supply Current () 250 200 150 100 50 M ax. Typ. 0 -50 200 150 100 M ax. 50 Typ. 0 -25 0 25 50 75 100 125 10 12.5 Temperature ( C) Figure 28A. VBS Supply Current vs. Temperature V cc Supply Current (A) V cc Supply Current (A) 12 8 M ax. 4 Typ. 0 -50 16 12 8 M ax. 4 Typ. 0 -25 0 25 50 75 100 125 10 12.5 Temperature ( C) Figure 29A. V cc Supply Current vs. Temperature Logic "1" Input Current (A) 600 400 M ax. Typ. -25 0 25 50 75 17.5 20 Figure 29B. V cc Supply Current vs. Voltage 800 0 -50 15 Supply Voltage (V) o Logic "1" Input Current (A) 20 20 16 100 125 Temperature (oC) Figure 30A. Logic "1" Input Bais Current vs. Temperature www.irf.com 17.5 Figure 28B. V BS Supply Current vs. Voltage 20 200 15 Supply Voltage (V) o 800 600 400 M ax. 200 Typ. 0 10 12.5 15 17.5 20 Supply Voltage (V) Figure 30B. Logic "1" Input Bais Current vs. Voltage 15 IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 800 Logic "0" Input Current (A) Logic "0" Input Current (A) 800 600 400 200 M ax. Typ. 0 -50 -25 0 25 50 75 100 600 400 200 M ax. Typ. 0 125 10 12.5 Temperature ( C) Figure 31A. Logic "0" Input Bais Current vs. Temperature "High" SD Bais Current (A) "High" SD Bais Current (A) 200 M ax. Typ. 0 -50 -25 0 25 50 75 100 300 200 100 M ax. Typ. 0 10 125 500 400 300 200 M ax. -25 0 25 50 15 17.5 20 Figure 32B. "High" Shutdow n Bais Current vs. Supply Voltage "Low" SD Bais Current (nA) "Low" SD Bais Current (nA) Figure 32A. "High" Shutdow n Bais Current vs. Temperature 0 -50 12.5 Supply Voltage (V) Temperature ( C) o 75 100 Temperature ( C) o Figure 33A. "Low" Shutdow n Bais Current vs. Temperature 16 20 400 300 100 17.5 Figure 31B. Logic "0" Input Bais Current vs. Supply Voltage 400 100 15 Supply Voltage (V) o 125 500 400 300 200 100 M ax. 0 10 12.5 15 17.5 20 Supply Voltage (V) Figure 33B. "Low " Shutdown Bais Current vs. Supply Voltage www.irf.com IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) "High" IITRIP Bias Current (A) "High" IITRIP Bias Current (A) 400 300 200 100 M ax. Typ. 0 -50 -25 0 25 50 75 100 400 300 200 100 M ax. Typ. 0 10 125 12.5 Figure 34A. "High" IITRIP Bais Current vs. Temperature "Low" I ITRIP Bais Current (nA) "Low" I ITRIP Bais Current (nA) 400 300 200 M ax. -25 0 25 50 75 100 500 400 300 200 100 M ax. 0 125 10 12.5 Figure 35A. "Low" IITRIP Bais Current vs. Temperature Figure 35B. "Low " IITRIP Bais Current vs. Supply Voltage 400 M ax. Typ. -25 0 25 50 75 100 125 Temperature ( C) o Figure 36A. "High" Fault Clear Input Bais Current vs. Temperature "High" Fault Clear Input Current ( A) "High" Fault Clear Input Current ( A) 600 www.irf.com 17.5 Supply Voltage (V) 800 0 -50 15 Temperature ( C) o 200 20 Figure 34B. "High" IITRIP Bais Current vs. Supply Voltage 500 0 -50 17.5 Supply Voltage (V) Temperature (oC) 100 15 20 800 600 400 M ax. 200 Typ. 0 10 12.5 15 17.5 20 Supply Voltage (V) Figure 36B. "High" Fault Clear Input Bais Current vs. Supply voltage 17 800 600 400 200 M ax. Typ. 0 -50 -25 0 25 50 75 100 125 "Low" Fault Clear Input Current (A) "Low" Fault Clear Input Current (A) IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 800 600 400 200 M ax. Typ. 0 10 12.5 Temperature ( C) Figure 37A. "Low" Fault Clear Input Bais Current vs. Temperature V BS UV Th (+) (V) V BS UV Th (+) (V) M ax. M in. 8 6 -50 -25 0 25 50 75 100 11 M ax. 9 8 Typ. M in. 6 -50 125 -25 0 Figure 38A. IR2135/IR2235 VBS Undervoltage Threshold (+) vs. Temperature 75 100 125 Figure 38B. IR2133/IR2233 V BS Undervoltage Threshold (+) vs. Temperature 14 12 V UV TH (+) (V) V UV TH (+) (V) 50 Temperature ( C) Temperature ( C) 12 M ax. Typ. M in. 8 6 -50 -25 0 25 50 75 100 Temperature ( C) o Figure 39A. IR2135/IR2235 VBS Undervoltage Threshold (-) vs. Temperature 18 25 o o 10 20 12 Typ. 10 17.5 Figure 37B. "Low" Fault Clear Input Bais Current vs. Supply Voltage 14 12 15 Supply Voltage (V) o 125 11 M ax. 9 M in. 8 Typ. 6 -50 -25 0 25 50 75 100 125 Temperature ( C) o Figure 39B. IR2133/IR2233 V BS Undervoltage Threshold (-) vs. Temperature www.irf.com IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 12 V cc UV TH (+) (V) V cc UV TH (+) (V) 14 13 M ax. 11 Typ. 10 M in. 8 -50 -25 0 25 50 75 100 11 M ax. 9 Typ. M in. 8 6 -50 125 -25 0 25 Temperature (oC) Figure 40A. IR2135/IR2235 Vcc Undervoltage Threshold (+) vs. Temperature V cc UV TH (+) (V) V cc UV TH (+) (V) 100 125 12 M ax. 11 Typ. 9 M in. 8 6 -50 -25 0 25 50 75 100 11 M ax. 9 Typ. 8 M in. 6 -50 125 -25 0 25 Temperature ( C) Figure 41A. IR2135/IR2235 V cc Undervoltage Threshold (-) vs. Temperature FAULT-Low On Resistance ( ) 150 100 M ax. Typ. 50 -25 0 25 50 75 100 125 Figure 41B. IR2133/IR2233 Vcc Undervoltage Threshold (-) vs. Temperature 200 0 -50 50 Temperature (oC) o FAULT-Low On Resistance () 75 Figure 40B. IR2133/IR2233 V cc Undervoltage Threshold (+) vs. Temperature 12 75 100 Temperature ( C) o Figure 42A. FAULT- Low On Resistance vs. Temperature www.irf.com 50 Temperature ( oC) 125 150 120 M ax. 90 Typ. 60 30 0 10 12.5 15 17.5 20 Supply Voltage (V) Figure 42B. FAULT- Low On Resistance vs. Supply Voltage 19 IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 500 Output Source Current (m) Output Source Current (m) 500 400 Typ. 300 M in. 200 100 0 -50 -25 0 25 50 75 100 400 300 Typ. 200 M in. 100 0 10 125 12.5 Temperature ( C) o Output Sink Current (m) Output Sink Current (m) 1000 800 600 Typ. M in. 400 200 0 -50 800 600 Typ. 400 M in. 200 0 -25 0 25 50 75 100 125 10 12.5 Figure 44A. Ourput Sink Current vs. Temperature Figure 44B. Ourput Sink Current vs. Supply Voltage 70 50 M ax. Typ. -25 0 25 50 75 100 Temperature ( C) o Figure 45A. Amplifier Input Offest Voltage vs. Temperature 125 Amplifier Input Offset Voltage (mV) Amplifier Input Offset Voltage (mV) 17.5 Supply Voltage (V) 90 -10 -50 15 Temperature ( C) o 20 20 Figure 43B. Output Source Current vs. Supply Voltage 1000 10 17.5 Supply voltage (V) Figure 43A. Output Source Current vs. Temperature 30 15 20 90 70 50 30 10 M ax. Typ. -10 10 12.5 15 17.5 20 Supply Voltage (V) Figure 45B. Amplifier Input Offest Voltage vs. Supply Voltage www.irf.com IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 150 Amplifier CMRR (dB) Amplifier CMRR (dB) 150 120 90 Typ. 60 M in. 30 0 -50 120 90 Typ. 60 M in. 30 0 -25 0 25 50 75 100 125 10 12.5 Temperature (oC) Figure 46A. Amplifier Common Mode Rejection Ratio vs. Temperature Amplifier PSRR (dB) Amplifier PSRR (dB) 75 Typ. M in. 50 25 0 -50 100 75 Typ. M in. 50 25 0 -25 0 25 50 75 100 125 10 12.5 Temperature ( C) 15 17.5 20 Supply Voltage (V) o Figure 47A. Amplifier Pow er Supply Rejection Ratio vs. Temperature Figure 47B. Amplifier Power Supply Rejection Ratio vs. Supply Voltage 50 6.0 5.7 Amplifier V OL (V) Amplifier V OH (V) 20 125 100 M ax. Typ. 5.1 M in. 40 30 20 M ax. 10 4.8 0 4.5 10 12.5 15 17.5 20 Supply Voltage (V) Figure 48. Amplifier High Level Output Voltage vs. Supply Voltage www.irf.com 17.5 Figure 46B. Amplifier Common Mode Rejection Ratio vs. Supply Voltage 125 5.4 15 Supply Voltage (V) 10 12.5 15 17.5 20 Supply Voltage (V) Figure 49. Amplifier Low Level Output Voltage vs. Supply Voltage 21 15 Amplifier ISNK (V) Amplifier ISRC(V) IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 12 9 6 Typ. 3 M in. 0 2.5 2.0 1.5 1.0 0.5 Typ. M in. 0.0 10 12.5 15 17.5 20 10 12.5 Supply Voltage (V) 20 Amplifier IO- (V) Amplifier IO+ (V) 20 Figure 51. Amplifier Output Sink Current vs. Supply Voltage 16 Typ. 4 0 20 16 12 8 4 Typ. 0 10 12.5 15 17.5 Supply Voltage (V) Figure 52. Amplifier Output High Short Circuit Current vs. Supply Voltage 22 17.5 Supply Voltage (V) Figure 50. Amplifier Output Source Current vs. Supply Voltage 12 8 15 20 10 12.5 15 17.5 20 Supply Voltage (V) Figure 53. Amplifier Output Low Short Circuit Current vs. Supply Voltage www.irf.com 480V 320V 160V 0V 1E+3 1E+4 Ju n tio n T e m p e ratu re (C ) 120 110 100 90 80 70 60 50 40 30 20 1E+2 1E+5 120 110 100 90 80 70 60 50 40 30 20 1E+2 480 320V 160 0V 1E+3 1E+4 1E+5 Frequency (Hz) Frequency (Hz) Figure 7. IR2133J Junction Temperature vs Frequency Driving (IRGPC20KD2) Rgate = 5.1 @ Vcc = 15V Figure 8. IR2133J Junction Temperature vs Frequency Driving (IRGPC30KD2) Rgate = 5.1 @ Vcc = 15V 120 110 100 90 80 70 60 50 40 30 20 1E+2 150 140 130 120 110 100 90 80 70 60 50 40 30 20 1E+2 480V 320V 160V 0V 1E+3 1E+4 1E+5 Ju n ctio n T e m p e ratu re (C ) Ju n ctio n T e m p e ratu re (C ) Ju n tio n T e m p e ratu re (C ) IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 480V 320V 160V 0V 1E+3 1E+4 1E+5 Frequency (Hz) Frequency (Hz) Figure 9. IR2133J Junction Temperature vs Frequency Driving (IRGPC40KD2) Rgate = 5.1 @ Vcc = 15V Figure 10. IR2133J Junction Temperature vs Frequency Driving (IRGPC50KD2) Rgate = 5.1 @ Vcc = 15V www.irf.com 23 IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 500 300V 0V 1E+3 1E+4 Ju n ctio n T e m p e ratu re (C ) Ju n ctio n T e m p e ratu re (C ) 900V 120 110 100 90 80 70 60 50 40 30 20 1E+2 1E+5 1120 1110 1100 90 80 70 60 50 40 30 20 1E+2 900V 500V 300 0V 1E+3 1E+4 Frequency (Hz) Frequency (Hz) Figure 11. IR2233J Junction Temperature vs Frequency Driving (IRG4PH30KD) Rgate = 20 @ Vcc = 15V Figure 12. IR2233J Junction Temperature vs Frequency Driving (IRG4PH40KD) Rgate = 15 @ Vcc = 15V 900V 500V 300V 120 110 100 90 80 70 60 50 40 30 20 1E+2 300V 0V 1E+3 1E+4 1E+5 Ju n ctio n T e m p e ratu re (C ) Ju n ctio n T e m p e ratu re (C ) 900V 500V 24 1E+5 120 110 100 90 80 70 60 50 40 30 20 1E+2 0V 1E+3 1E+4 1E+5 Frequency (Hz) Frequency (Hz) Figure 13. IR2233J Junction Temperature vs Frequency Driving (IRG4PH50KD) Rgate = 10 @ Vcc = 15V Figure 14. IR2233J Junction Temperature vs Frequency Driving (IRG4ZH71KD) Rgate = 5 @ Vcc = 15V www.irf.com IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) Package Dimensions 28-Lead PDIP (wide body) 01-6011 01-3024 02 (MS-011AB) NOTES 28-Lead SOIC (wide body) www.irf.com 01-6013 01-3040 02 (MS-013AE) 25 IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) 44-Lead PLCC w/o 12 leads 26 01-6009 00 01-3004 02(mod.) (MS-018AC) www.irf.com IR2133/IR2135/IR2233/IR2235(J&S)&(PbF) LEADFREE PART MARKING INFORMATION Part number Date code IRxxxxxx YWW? Pin 1 Identifier ? P MARKING CODE Lead Free Released Non-Lead Free Released IR logo ?XXXX Lot Code (Prod mode - 4 digit SPN code) Assembly site code Per SCOP 200-002 ORDER INFORMATION Basic Part (Non-Lead Free) 28-Lead PDIP IR2133 order IR2133 2 8-Lead SOIC IR2133S order IR2133S 28-Lead PDIP IR2135 order IR2135 28-Lead SOIC IR2135S order IR2135S 28-Lead PDIP IR2233 not available 28-Lead SOIC IR2233S order IR2233S 28-Lead PDIP IR2235 not available 28-Lead SOIC IR2235S order IR2235S 44-Lead PLCC IR2133J order IR2133J 44-Lead PLCC IR2135J order IR2135J 44-Lead PLCC IR2233J order IR2233J 44-Lead PLCC IR2235J order IR2235J Leadfree Part 28-Lead PDIP 28-Lead SOIC 28-Lead PDIP 28-Lead SOIC 28-Lead PDIP 28-Lead SOIC 28-Lead PDIP 28-Lead SOIC 44-Lead PLCC 44-Lead PLCC 44-Lead PLCC 44-Lead PLCC IR2133 IR2133S IR2135 IR2135S IR2233 IR2233S IR2235 IR2235S IR2133J IR2135J IR2233J IR2235J order order order order order order order order order order order order IR2133PbF IR2133SPbF IR2135PbF IR2135SPbF IR2233PbF IR2233SPbF IR2235PbF IR2235SPbF IR2133JPbF IR2135JPbF IR2233JPbF IR2235JPbF IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245 Tel: (310) 252-7105 This product has been qualified per industrial level Data and specifications subject to change without notice. 9/22/2005 www.irf.com 27