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IRS2183PBF资料

2024-06-15 来源:易榕旅网
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Data Sheet No. PD60265IRS2183/IRS21834(S)PbFFeatures•Floating channel designed for bootstrap operation•Fully operational to +600 V•Tolerant to negative transient voltage, dV/dt•••••••immuneGate drive supply range from 10 V to 20 VUndervoltage lockout for both channels3.3 V and 5 V input logic compatibleMatched propagation delay for both channelsLogic and power ground +/- 5 V offsetLower di/dt gate driver for better noise immunityOutput source/sink current capability 1.4 A/1.8 AHALF-BRIDGE DRIVERPackages8-Lead PDIPIRS218314-Lead PDIPIRS2183414-Lead SOICIRS21834S8-Lead SOICIRS2183SDescriptionThe IRS2183/IRS21834 are high voltage,high speed power MOSFET and IGBTdrivers with dependent high and lowFeature ComparisonCross-side referenced output channels. Pro-DeadtimeTon/ToffInputconductionGround PinsPartprietary HVIC and latch immune CMOSpreventionlogic(ns)(ns)logictechnologies enable ruggedized mono-2181COMHIN/LINnonone180/220lithic construction. The logic input is21814VSS/COMcompatible with standard CMOS or2183Internal 5000COMHIN/LINyes180/22021834Program 400-5000VSS/COMLSTTL output, down to 3.3 V logic. The2184Internal 5000COMIN/SDyes680/270output drivers feature a high pulse cur-21844Program 400-5000VSS/COMrent buffer stage designed for minimumdriver cross-conduction. The floating channel can be used to drive an N-channel power MOSFET or IGBTin the high side configuration which operates up to 600 V.Typical ConnectionVCCup to 600 VVCCHINVBHOVSLOup to 600 VTOLOADHINLINCOMLINIRS2183HOIRS21834VCCHINVCCHINLINDTVSSVBVSTOLOADLIN(Refer to Lead Assignment for correct pinVSS configuration) These diagrams show electricalconnections only. Please refer to our ApplicationNotes and DesignTips for proper circuit board layout.COMLORDTwww.irf.com1元器件交易网www.cecb2b.com

IRS2183/IRS21834(S)PbF

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 measuredunder board mounted and still air conditions.SymbolVBVSVHOVCCVLOVINVSSdVS/dtDefinitionHigh side floating absolute voltageHigh side floating supply offset voltageHigh side floating output voltageLow side and logic fixed supply voltageLow side output voltageLogic input voltage (HIN & LIN)Logic ground (IR21834 only)Allowable offset supply voltage transient(8-lead PDIP)Min.-0.3VB - 20VS - 0.3-0.3-0.3VSS - 0.3VCC - 20——Max.620 (Note 1)VB + 0.3VB + 0.320 (Note 1)VCC + 0.3VCC + 0.3VCC + 0.3501.0UnitsVDT Programmable deadtime pin voltage (IR21834 only)VSS - 0.3 VCC + 0.3V/nsPD(8-lead SOIC)—0.625Package power dissipation @ TA ≤ +25 °C (14-lead PDIP) — 1.6 (14-lead SOIC)(8-lead PDIP)(8-lead SOIC)(14-lead PDIP)(14-lead SOIC)——————-50—1.012520075120150150300WRthJAThermal resistance, junction to ambient°C/WTJTSTLJunction temperatureStorage temperatureLead temperature (soldering, 10 seconds)°CNote 1: All supplies are fully tested at 25 V and an internal 20 V clamp exists for each supply.Recommended Operating Conditions

The input/output logic timing diagram is shown in Fig. 1. For proper operation the device should be used within the

recommended conditions. The VS and VSS offset rating are tested with all supplies biased at 15 V differential.SymbolDefinitionMin.Max.VS + 20VB20VCCUnitsVB High side floating supply absolute voltage VS + 10VHOVCCVLOHigh side floating output voltageLow side and logic fixed supply voltageLow side output voltageVS100VS High side floating supply offset voltage Note 2 600VVIN Logic input voltage (HIN & LIN) VSS VCCDT Programmable deadtime pin voltage (IR21834 only)VSSTALogic ground (IR21834 only)Ambient temperatureVSS VCC-5-405125°CNote 2: Logic operational for VS of -5 V to +600 V. Logic state held for VS of -5 V to -VBS. (Please refer to the Design TipDT97-3 for more details).

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IRS2183/IRS21834(S)PbF

Dynamic Electrical Characteristics

VBIAS (VCC, VBS) = 15 V, VSS = COM, CL = 1000 pF, TA = 25 °C, DT = VSS unless otherwise specified.

SymboltontoffMTtrtfDTDefinitionTurn-on propagation delayTurn-off propagation delayDelay matching | ton - toff |Turn-on rise timeTurn-off fall time Min. Typ.—————2804——18022004020400500Max.UnitsTest Conditions270330356035520650600µs nsVS = 0 VRDT= 0 ΩRDT = 200 kΩ (IR21834)VS = 0VVS = 0V or 600VDeadtime: LO turn-off to HO turn-on(DTLO-HO) & HO turn-off to LO turn-on (DTHO-LO)MDTDeadtime matching = | DTLO-HO - DTHO-LO | RDT=0 Ω ns RDT = 200kΩ (IR21834)Static Electrical Characteristics

VBIAS (VCC, VBS) = 15 V, VSS = COM, DT= VSS and TA = 25 °C unless otherwise specified. The VIL, VIH, and IIN

parameters are referenced to VSS/COM and are applicable to the respective input leads: HIN and LIN. The VO, IO, andRon parameters are referenced to COM and are applicable to the respective output leads: HO and LO.

Symbol Definition Min. Typ. Max. Units Test ConditionsVIHVILVOHVOLILKIQBSIQCCIIN+IIN-VCCUV+VBSUV+VCCUV-VBSUV-VCCUVHVBSUVHIO+IO-Logic “1” input voltage for HIN & logic “0” for LIN 2.5 — —Logic “0” input voltage for HIN & logic “1” for LINHigh level output voltage, VBIAS - VOLow level output voltage, VOOffset supply leakage currentQuiescent VBS supply currentQuiescent VCC supply currentLogic “1” input bias currentLogic “0” input bias currentVCC and VBS supply undervoltage positive goingthresholdVCC and VBS supply undervoltage negative goingthresholdHysteresisOutput high short circuit pulsed currentOutput low short circuit pulsed current————200.4——8.07.40.31.41.8————601.025—8.98.20.71.92.30.81.20.2501501.6601.09.89.0——A—VO = 0 V,PW ≤ 10 µsVO = 15 V,PW ≤ 10 µsVµAµAmAVVCC = 10 V to 20 VIO = 0 AIO = 20 mAVB = VS = 600 VVIN = 0 V or 5 VHIN = 5 V, LIN = 0 VHIN = 0 V, LIN = 5 Vwww.irf.com3

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IRS2183/IRS21834(S)PbF

Functional Block Diagrams

VB 2183HINVSS/COMLEVELSHIFTHVLEVELSHIFTERPULSEGENERATORUVDETECTRPULSEFILTERRSQHOVSDTDEADTIME &SHOOT-THROUGHPREVENTIONUVDETECTVCC+5VLOLINVSS/COMLEVELSHIFTDELAYCOMVSSVB 21834HINVSS/COMLEVELSHIFTHVLEVELSHIFTERPULSEGENERATORUVDETECTRPULSEFILTERRSQHOVSDT+5VDEADTIME &SHOOT-THROUGHPREVENTIONUVDETECTVCCLOLINVSS/COMLEVELSHIFTDELAYCOMVSSwww.irf.com4

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IRS2183/IRS21834(S)PbF

Lead Definitions

SymbolDescriptionHINLINLogic input for high side gate driver output (HO), in phase (referenced to COM for IRS2183and VSS for IRS21834)

Logic input for low side gate driver output (LO), out of phase (referenced to COM for IRS2183and VSS for IRS21834)

Programmable deadtime lead, referenced to VSS. (IRS21834 only)Logic ground (IRS21834 only)High side floating supplyHigh side gate driver outputHigh side floating supply returnLow side and logic fixed supplyLow side gate driver outputLow side return

DTVSSVBHOVSVCCLOCOM

Lead Assignments

1234

HINLINCOMLO

VBHOVSVCC

8

765

1234

HINLINCOMLO

VBHOVSVCC

8

765

8-Lead PDIP8-Lead SOIC

IRS2183PbF

1234567

HINLINVSSDTCOMLOVCC

VBHOVS

IRS2183SPbF

14

1312111098

1234567

HINLINVSSDTCOMLOVCC

VBHOVS

14

1312111098

14-Lead PDIP14-Lead SOIC

IRS21834PbF

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IRS21834SPbF

5

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HIN

LIN

HO

LO

Figure 1. Input/Output Timing Diagram

HIN50%50%LIN90%HODTLO-HO10%LO90%DTHO-LO10%MDT=

DTLO-HO

- DT

HO-LO

Figure 3. Deadtime Waveform Definitions

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LIN50%50%tontrtofftf90%90%LO

10%10%50%50%HINtontrtofftf90%90%HO10%10%Figure 2. Switching Time Waveform Definitions

6

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)sn500( yal400eD no300itagMax.ap200oTyp.rP n100O-nru0T-50-250255075100125Temperature (oC)Figure 4A. Turn-On Propagation Delay vs. Temperature)sn600( yale500D noi400tagap300Max.orP ff200Typ.O-nru100T-50-250255075100125Temperature (oC)Figure 5A. Turn-Off Propagation Delay vs. Temperaturewww.irf.comIRS2183/IRS21834(S)PbF

)s500n( yal400eDMax. no300itagap200Typ.orP n100O-nru0T101214161820Supply Voltage (V)Figure 4B. Turn-On Propagation Delay vs. Supply Voltage)sn600( ya500leD n400Max.oitag300Typ.apo200rP ffO100-nru0T101214161820Supply Voltage (V)Figure 5B. Turn-Off Propagation Delay vs. Supply Voltage7

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120)sn( 100emiT80 esiR60 nO-40Max.nruT20Typ.0-50-250255075100125Temperature (oC)Figure 6A. Turn-On Rise Time vs. Temperature80)sn( em60iT llaF40 ffOMax.-nru20TypT0-50-250255075100125Temperature (oC)Figure 7A. Turn-Off Fall Time vs. Temperaturewww.irf.comIRS2183/IRS21834(S)PbF

120)sn( 100emiT80Max. esiR60Typ. nO-40nruT200101214161820Supply Voltage (V)Figure 6B. Turn-On Rise Time vs. Supply Voltage80)sn( em60iT lMax.laF40 ffOTyp.-nru20T0101214161820Supply Voltage (V)Figure 7B. Turn-Off Fall Time vs. Supply Voltage8

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1100900700Max.500Typ.300Min.100-50-250255075100125Temperature (oC)Figure 8A. Deadtime vs. Temperature76Max.)sµ5Typ.( em4Min.itda3eD210050100150200RDT (kΩ )Figure 8C. Deadtime vs. RDTwww.irf.comIRS2183/IRS21834(S)PbF

1100900)ns (700Max.imedta500Typ.eD300Min.100101214161820Supply Voltage (V)Figure 8B. Deadtime vs. Supply Voltage6)5V( e4gatlo3V tup2Min.nI10-50-250255075100125Temperature (oC)Figure 9A. Logic \"1\" Input Voltage vs. Temperature9

Deadtime (ns)元器件交易网www.cecb2b.com

6)5V( eg4atloV3 tup2Min.nI10101214161820VBAIS Supply Voltage (V)Figure 9B. Logic \"1\" Input oltage vs. Supply Voltage6V)5 (geat4 Volut3np I0\"2 \"cgio1Max.L0101214161820Supply Voltage (V)Figure 10B. Logic \"0\" Input Voltage vs. Supply Voltagewww.irf.comIRS2183/IRS21834(S)PbF

6V)5 (ega4olt Vut3pn I0\"2 \"gico1Max.L0-50-250255075100125Temperature (oC)Figure 10A. Logic \"0\" Input Voltage vs. Temperature5V)4 (utput3Ol eev2Max.Lgh Hi10-50-250255075100125Temperature (oC)Figure 11A. High Level Output vs. Temperature10

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5)V( tu4ptuO3 leveL2Max. hgiH10101214161820Supply Voltage (V)Figure 11B. High Level Output vs. Supply Voltage0.5)V( 0.4tuptuO0.3 leve0.2Max.L woL0.10.0101214161820Supply Voltage (V)Figure 12B. Low Level Output vs. Supply Voltagewww.irf.comIRS2183/IRS21834(S)PbF

0.5)V( t0.4uptuO0.3 leveL0.2Max. woL0.10.0-50-250255075100125Temperature (oC)Figure 12A. Low Level Output vs. TemperatureA)(µ 500tnerru400C ega300kaeL200 ylppu100S tMax.esf0fO-50-250255075100125Temperature (oC)Figure 13A. Offset Supply Leakage Current vs. Temperature11

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)Aµ500( tne400rruC e300gakae200L ylpp100Max.uS te0sffO100200300400500600VB Boost Voltage (V)Figure 13B. Offset Supply Leakage Current vs. VB Boost Voltage)250Aµ( t200nerruC150Max. ylpp100Typ.uS SB50Min.V0101214161820VBS Floating Supply Voltage (V)Figure 14B. VBS Supply Current vs. VBS Floating Supply Voltagewww.irf.comIRS2183/IRS21834(S)PbF

)250Aµ( tn200erruC150Max. ylpp100Typ.uS SB50VMin.0-50-250255075100125Temperature (oC)Figure 14A. VBS Supply Current vs. Temperature5A)m(4 tnerur3C lyp2Max.puS CC1Typ.Min.V0-50-250255075100125Temperature (oC)Figure 15A. VCC Supply Current vs. Temperature12

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5A)m4( tnerr3uC yl2ppuS 1CCV0101214161820VCC Supply Voltage (V)Figure 15B. VCC Supply Current vs. VCC Supply Voltage)Aµ120 (tne100rruC80 saiB60 tup40Max.nI \"120Typ.\" cigo0L101214161820Supply Voltage (V)Figure 16B. Logic \"1\" Input Bias Current vs. Supply Voltagewww.irf.comIRS2183/IRS21834(S)PbF

)Aµ120 (tne100rruC80 saiB60 tup40Max.nITyp. \"120\" cig0oL-50-250255075100125Temperature (oC)Figure 16A. Logic \"1\" Input Bias Current vs. Temperature)Aµ5( tner4ruC s3aiB tu2pnIMax. \"01\" cigo0L-50-250255075100125Temperature (oC)Figure 17A. Logic \"0\" Input Bias Current vs. Temperature13

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)Aµ5( tner4ruC s3aiB tu2pnMax.I \"01\" cigo0L101214161820Supply Voltage (V)Figure 17B. Logic \"0\" Input Bias Current vs. Supply Voltage)V( )12-( dlo11hserh10TMax.VU9 STyp.B 8VMin. dn7a CCV6-50-250255075100125Temperature (oC)Figure 19. VCC and VBS Undervoltage Threshold (-) vs. Temperaturewww.irf.comIRS2183/IRS21834(S)PbF

)V( )+12( dlo11hser10Max.hT V9Typ.U SB8Min. V d7na CC6V-50-250255075100125Temperature (oC)Figure 18. VCC and VBS Undervoltage Threshold (+) vs. Temperature)A5( tner4ruC e3crTyp.uoS2 tuptu1Min.O0-50-250255075100125Temperature (oC)Figure 20A. Output Source Current vs. Temperature14

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)A5( tne4rruC e3cruoS2 tTyp.uptu1OMin.0101214161820Supply Voltage (V)Figure 20B. Output Source Current vs. Supply Voltage)5A( tne4rruC 3kniS 2tuTyp.ptuO1Min.0101214161820Supply Voltage (V)Figure 21B. Output Sink Current vs. Supply Voltagewww.irf.comIRS2183/IRS21834(S)PbF

5.0)A( tner4.0ruC kn3.0Typ.iS tuptu2.0OMin.1.0-50-250255075100125Temperature (oC)Figure 21A. Output Sink Current vs. Temperature140120)Co( 100eruta80r140 Vpm 70 Ve60 0 VT40201101001000Frequency (kHz)Figure 22. IR2S183 vs. Frequency (IRFBC20), Rgate=33 Ω, VCC=15 V15

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140)C120o( er100utar140 Ve80p m70 V 0 VeT6040201101001000Frequency (kHz)Figure 23. IRS2183 vs. Frequency (IRFBC30), Rgate=22 Ω, VCC=15 V140140 V70 V120 0 V)Co( e100rutar80epme60T40201101001000Frequency (kHz)Figure 25. IRS2183 vs. Frequency (IRFPE50), Rgate=10 Ω, VCC=15 Vwww.irf.comIRS2183/IRS21834(S)PbF

140120)Co( e100r140 Vuta r8070 Ve pm 0 Ve60T40201101001000Frequency (kHz)Figure 24. IRS2183 vs. Frequency (IRFBC40), Rgate=15 Ω, VCC=15 V140)120Co( e100rutar80epme60140 VT 70 V40 0 V201101001000Frequency (kHz)Figure 26. IRS21834 vs. Frequency (IRFBC20), Rgate=33 Ω, VCC=15 V16

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140)120Co( e100rutar80epm140 Ve60 T70 V 0 V40201101001000Frequency (kHz)Figure 27. IRS21834 vs. Frequency (IRFBC30), Rgate=22 Ω, VCC=15 V140140 V70 V)120Co ( e1000 Vrutar80epme60T40201101001000Frequency (kHz)Figure 29. IRS21834 vs. Frequency (IRFPE50), Rgate=10 Ω, VCC=15 Vwww.irf.comIRS2183/IRS21834(S)PbF

140)120Co( e100rut140 Vare80 70 Vpme60 0 VT40201101001000Frequency (kHz)Figure 28. IRS21834 vs. Frequency (IRFBC40), Rgate=15 Ω, VCC=15 V140)120Co( e100rutar80e140 Vp m 70 Ve60 0 VT40201101001000Frequency (kHz)Figure 30. IRS2183S vs. Frequency (IRFBC20), Rgate=33 Ω, VCC=15 V17

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140120)C140 Vo( 100e 70 vru ta80 0 Vrepm60eT40201101001000Frequency (kHz)Figure 31. IRS2183S vs. Frequency (IRFBC30), Rgate=22 Ω, VCC=15 V140140 V 70 V 0 V)120Co( e100ruter80pme60T40201101001000Frequency (kHz)Figure 33. IRS2183S vs. Frequency (IRFPE50), Rgate=10 Ω, VCC=15 Vwww.irf.comIRS2183/IRS21834(S)PbF

140140 V 70 V)120C 0 V( e100rutar80epme60T40201101001000Frequency (kHz)Figure 32. IRS2183S vs. Frequency (IRFBC40), Rgate=15 Ω, VCC=15 V140)120C( e100rutare80pme60140 VT 70 V40 0 V201101001000Frequency (kHz)Figure 34. IRS21834S vs. Frequency (IRFBC20), Rgate=33 Ω, VCC=15 V18

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140)120Co( e100rutar80e140 Vp m 70 Ve60 0 VT40201 10 100 1000Frequency (kHz)Figure 35. IRS21834S vs. Frequency (IRFBC30), Rgate=22 Ω, VCC=15 V140 140 V 70 V0 V)120Co( e100rutare80pme60T40201101001000Frequency (kHz)Figure 37. IRS21834S vs. Frequency (IRFPE50), Rgate=10 Ω, VCC=15 Vwww.irf.comIRS2183/IRS21834(S)PbF

140)120Co( e100140 Vru ta70 Vr80 e p 0 Vme60T40201101001000Frequency (kHz)Figure 36. IRS21834S vs. Frequency (IRFBC40), Rgate=15 Ω, VCC=15 V19

元器件交易网www.cecb2b.comIRS2183/IRS21834(S)PbFCase outlines8-Lead PDIP01-601401-3003 01 (MS-001AB)DA5BFOOTPRINT8X 0.72 [.028]DIMAbcDINCHESMIN.0532.013.0075.189.1497MAX.0688.0098.020.0098.1968.1574MILLIMETERSMIN1.350.100.330.194.803.80MAX1.750.250.510.255.004.00A1.00406E8765H0.25 [.010] AE6.46 [.255]1234ee1HKL8X 1.78 [.070].050 BASIC.025 BASIC.2284.0099.016 0°.2440.0196.050 8°1.27 BASIC0.635 BASIC5.800.250.40 0°6.200.501.27 8°6Xee13X 1.27 [.050]yAC0.10 [.004] yK x 45°8X b0.25 [.010] A1CAB8X L78X cNOTES:1. DIMENSIONING & TOLERANCING PER ASME Y14.5M-1994.2. CONTROLLING DIMENSION: MILLIMETER3. DIMENSIONS ARE SHOWN IN MILLIMETERS [INCHES].4. OUTLINE CONFORMS TO JEDEC OUTLINE MS-012AA.5 DIMENSION DOES NOT INCLUDE MOLD PROTRUSIONS. MOLD PROTRUSIONS NOT TO EXCEED 0.15 [.006].6 DIMENSION DOES NOT INCLUDE MOLD PROTRUSIONS. MOLD PROTRUSIONS NOT TO EXCEED 0.25 [.010].7 DIMENSION IS THE LENGTH OF LEAD FOR SOLDERING TO A SUBSTRATE.8-Lead SOICwww.irf.com 01-602701-0021 11 (MS-012AA)20元器件交易网www.cecb2b.comIRS2183/IRS21834(S)PbF14-Lead PDIP 01-601001-3002 03 (MS-001AC)14-Lead SOIC (narrow body)01-601901-3063 00 (MS-012AB)www.irf.com21元器件交易网www.cecb2b.com

IRS2183/IRS21834(S)PbF

Tape & Reel

8-lead SOIC

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LOADED TAPE FEED DIRECTION

B AH DF C

NOTE : CONTROLLING DIMENSION IN MME G CARRIERTAPEDIMENSIONFOR8SOICNMetricImperialCodeMinMaxMinMaxA7.908.100.3110.318B 3.904.100.1530.161C11.7012.300.460.484D5.455.550.2140.218E6.306.500.2480.255F5.105.300.2000.208G1.50n/a0.059n/aH1.501.600.0590.062 F DCB AE G H REELDIMENSIONS FOR8SOICNMetricImperialCodeMinMaxMinMaxA329.60330.2512.97613.001B20.9521.450.8240.844C12.8013.200.5030.519D1.952.450.7670.096E98.00102.003.8584.015Fn/a18.40n/a0.724G14.5017.100.5700.673H12.4014.400.4880.566 22

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IRS2183/IRS21834(S)PbF

Tape & Reel14-lead SOIC

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LOADED TAPE FEED DIRECTION

B AH DF C

NOTE : CONTROLLING DIMENSION IN MME G CARRIERTAPEDIMENSIONFOR14SOICNMetricImperialCodeMinMaxMinMaxA7.908.100.3110.318B 3.904.100.1530.161C15.7016.300.6180.641D7.407.600.2910.299E6.406.600.2520.260F9.409.600.3700.378G1.50n/a0.059n/aH1.501.600.0590.062 F DCB E A G H REEL DIMENSIONS FOR 14SOICNMetricImperialCodeMinMaxMinMaxA329.60330.2512.97613.001B20.9521.450.8240.844C12.8013.200.5030.519D1.952.450.7670.096E98.00102.003.8584.015Fn/a22.40n/a0.881G18.5021.100.7280.830H16.4018.400.6450.724 23

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IRS2183/IRS21834(S)PbF

LEADFREE PART MARKING INFORMATION

Part numberSIRxxxxxxDate codeYWW??XXXXIR logoPin 1Identifier?PMARKING CODELead Free ReleasedNon-Lead FreeReleasedLot Code(Prod mode - 4 digit SPN code)Assembly site codePer SCOP 200-002

ORDER INFORMATION

8-Lead PDIP IRS2183PbF8-Lead SOIC IRS2183SPbF

8-Lead SOIC Tape & Reel IRS2183STRPbF

14-Lead PDIP IRS21834PbF 14-Lead SOIC IRS21834SPbF

14-Lead SOIC Tape & Reel IRS21834STRPbF

The SOIC-8 is MSL2 qualified.The SOIC-14 is MSL3 qualified.

This product has been designed and qualified for the industrial level.Qualification standards can be found at www.irf.com

IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245 Tel: (310) 252-7105

Data and specifications subject to change without notice. 6/19/2006

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