IR43x1 Features Product Summary Integrated analog input Class D audio amplifier in a small 5 x 6 mm PQFN package High peak music power output No mechanical heatsink required Split or single power supply Differential or single-ended input Over-current, over-temperature and under voltage protections with self-reset function Start and stop click noise reduction High noise immunity RoHS compliant Half-Bridge, Full-Bridge Topology *IR4301 Output power (Typical, THD+N=10%) 160 W/ 4 Ω *IR4321 Output power (Typical, THD+N=10%) 90 W/ 4 Ω 120 W/ 3 Ω 135 W/ 2 Ω 35 W/ 4 Ω *IR4311 Output power (Typical, THD+N=10%) 45 W/ 3 Ω *Residual noise (AES-17, IHF-A, typical) *THD+N (1kHz, 1W, 4 Ω, typical) * In typical application example Typical Applications Home theatre systems Docking station audio systems PC audio systems Musical instruments Karaoke amplifiers Game consoles Powered speaker systems General purpose audio power amplifiers 250 μVrms 0.02 % Package 5x6mm PQFN22 Typical Connection +B CSH VB VP VAA GND IN+ IN- INPUT VS COMP Speaker CSD VSS VCC COM VN VCC 1 www.irf.com © 2013 International Rectifier -B April 22, 2013 IR43x1 Table of Contents Page Typical Connection Diagram 1 Qualification Information 4 Absolute Maximum Ratings 5 Recommended Operating Conditions 7 Electrical Characteristics 8 Functional Block Diagram 11 Input/Output Pin Equivalent Circuit Diagram 12 Lead Definitions 13 Lead Assignments 13 Package Details 14 Part Marking Information 15 Ordering Information 15 2 www.irf.com © 2013 International Rectifier April 22, 2013 IR43x1 Description The IR43x1 integrates PWM controller and digital audio MOSFETs forming a high performance Class D audio amplifier. As a result of fully optimized MOSFETs co-packed with a dedicated controller IC, the IR43X1operates without mechanical heatsink attached in a typical music playback usage. High voltage ratings and noise immunity in the controller IC ensures reliable operation over various environmental conditions. A small 5x6 mm PQFN package enhances the benefit of smaller size of Class D topology. The IR43x1 are a lead-free, ROHS compliant. Typical Connection Diagram 1. Inverting Amplifier +B CSH VB VP VAA GND IN+ IN- INPUT VS COMP Speaker CSD VSS VCC COM VN VCC -B 2. Differential Amplifier +B CSH VB VP VAA GND IN- IN+ IN+ INVS COMP Speaker CSD VSS VCC COM VN VCC 3 www.irf.com © 2013 International Rectifier -B April 22, 2013 IR43x1 3. Single Power Supply CSH VB VP VAA GND IN- IN+ IN+ IN- Speaker +Vbus VS COMP CSD VSS VIRTUAL GND VCC COM VN VCC Qualification Information † Qualification Level Moisture Sensitivity Level Machine Model ESD Human Body Model IC Latch-Up Test RoHS Compliant †† Industrial Comments: This family of ICs has passed JEDEC’s Industrial qualification. IR’s Consumer qualification level is granted by extension of the higher Industrial level. MSL2 (per IPC/JEDEC J-STD-020C) Class B (per JEDEC standard EIA/JESD22-A115) Class 2 (per EIA/JEDEC standard JESD22-A114) Class I, Level A (per JESD78) Yes Qualification standards can be found at International Rectifier’s web site http://www.irf.com/ Higher qualification ratings may be available should the user have such requirements. Please contact your International Rectifier sales representative for further information. ††† Higher MSL ratings may be available for the specific package types listed here. Please contact your International Rectifier sales representative for further information. † †† 4 www.irf.com © 2013 International Rectifier April 22, 2013 IR43x1 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=VN; all currents are defined positive into any lead. The Thermal Resistance and Power Dissipation ratings are measured under board mounted and still air conditions. Symbol Definition VP VP pin positive power supply rail voltage VB High side floating supply voltage VCSH VS VCC CSH pin input voltage High side floating supply voltage †† Low side supply voltage IR4301 IR4321 IR4311 IR4301 IR4321 IR4311 †† IR4301 IR4321 IR4311 †† VAA Floating input positive supply voltage VSS Floating input negative supply voltage VIN+ Floating input supply ground voltage †† † Min Max -0.3 -0.3 -0.3 VS -0.3 VB -15 -0.3 -0.3 -0.3 -0.3 80 60 40 95 75 55 VB +0.3 VB +0.3 15 100 70 50 -1 (See ISSZ) GND +0.3 VSS -0.3 VAA +0.3 - ±3 IIN Input current between IN- and IN+ pins VCSD CSD pin input voltage VSS -0.3 VAA +0.3 VCOMP COMP pin input voltage VSS -0.3 VAA +0.3 IAAZ ISSZ ICCZ IBSZ dVS/dt dVSS/dt Floating input supply zener clamp current †† Floating input negative supply zener clamp current ††† Low side supply zener clamp current ††† Floating supply zener clamp current Allowable Vs voltage slew rate ††† Allowable Vss voltage slew rate IR4301 Continuous output current, from VP to VS, VS IR4321 to VN, VCC=10V, VB-VS=10V IR4311 IR4301 Continuous output current, from VP to VS, VS IR4321 to VN, VCC=10V, VB-VS=10V IR4311 IR4301 Pulsed output current, from VP to VS, VS to IR4321 ††††† VN, VCC=10V, VB-VS=10V IR4311 IR4301 †††† IR4321 Power dissipation @ TC = 25C IR4311 - 20 20 20 20 50 50 6.5 7.0 3.6 5.4 5.8 2.9 26 28 15 31 31 9 Id@ 25ºC Id@ 100ºC IDM Pd 5 †† www.irf.com © 2013 International Rectifier Units V mA V mA V/ns V/ms A W April 22, 2013 IR43x1 RthJC Thermal resistance, junction to case †††† TJIC TJFET IR4301 IR4321 IR4311 -55 - 4 4 13 150 150 150 300 C/W Control IC junction temperature FET junction temperature C TS Storage Temperature TL Lead temperature (Soldering, 10 seconds) † IN- and IN+ contain clamping diodes between the two pins. †† VAA -VSS, Vcc-COM and VB-VS contain internal shunt zener diodes. Please note that the voltage ratings of these can be limited by the clamping current. ††† For the rising and falling edges of step signal of 10V. Vss=15V to 200V. †††† Per MOSFET ††††† Repetitive rating, pulse width limited by max. junction temperature 6 www.irf.com © 2013 International Rectifier April 22, 2013 IR43x1 Recommended Operating Conditions For proper operation, the device should be used within the recommended conditions below. The Vss and Vs offset ratings are tested with supplies biased at COM=VN, VAA-VSS=9.6V, VCC=12V and VB-VS=12V. All voltage parameters are absolute voltages referenced to COM; all currents are defined positive into any lead. Symbol Definition Min. Max. Units Positive power supply rail voltage, without heatsink VP Positive power supply rail voltage, with heatsink VB IR4301 - 62 IR4321 - 50 IR4311 - 32 IR4301 - 68 IR4321 - 50 IR4311 - 32 VS +10 VS +14 IR4301 † 80 IR4321 † 60 IR4311 † 40 High side floating supply absolute voltage VS High side floating supply offset voltage VAA Floating input positive supply voltage VSS †† Floating input negative supply voltage IAAZ VSS + 4.5 †† Floating input supply zener clamp current VSS + 15 IR4301 0 80 IR4321 0 60 IR4311 0 40 1 15 1 15 10 15 †† †† V mA ISSZ Floating input negative supply zener clamp current VCC Low side fixed supply voltage VIC IN- and IN+ pins common mode input voltage VSS + 2 VAA - 2 VIN- Inverting input voltage VIN+ -0.5 VIN+ +0.5 VCSD CSD pin input voltage VSS VAA VCOMP COMP pin input voltage VSS VAA CCOMP COMP pin phase compensation capacitor to GND 1 - nF VCSH CSH pin input voltage VS VB V dVss/dt Allowable Vss voltage slew rate upon power-up - 50 V/ms fSW Switching Frequency - 500 kHz TA Ambient Temperature -40 100 C ††† V † Logic operational for Vs equal to –5V to +80V. Logic state held for Vs equal to –5V to –VBS. †† GND input voltage is limited by IAAZ and ISSZ. ††† Vss ramps up from 0V to 70V. 7 www.irf.com © 2013 International Rectifier April 22, 2013 IR43x1 Electrical Characteristics VCC,VBS= 12 V, VSS=VS=VN=COM=0V, VAA=9.6V and TA=25C unless otherwise specified. Definition Symbol Low Side Supply Vcc supply UVLO positive UVCC+ threshold Vcc supply UVLO negative UVCCthreshold UVCCHYS UVCC hysteresis IQCC Low side quiescent current Low side operating current ICC Low side zener diode clamp VCLAMPL voltage High Side Floating Supply High side well UVLO UVBS+ positive threshold High side well UVLO UVBSnegative threshold UVBSHYS UVBS hysteresis IQBS High side quiescent current High side zener diode clamp VCLAMPH voltage Floating Input Supply VA+, VA- floating supply UVAA+ UVLO positive threshold from VSS VA+, VA- floating supply UVAAUVLO negative threshold from VSS UVAA hysteresis UVAAHYS Min Typ Max Units 8.4 8.9 9.4 V 8.2 8.7 9.2 V - 0.2 5 3 - V mA mA f=400kHz 14.7 15.3 16.2 V ICC=5mA 8.0 8.5 9.0 V 7.8 8.3 8.8 V - 0.2 - 2.4 V mA 14.7 15.3 16.2 V 8.2 8.7 9.2 V VSS =0V, GND pin floating 7.7 8.2 8.7 V VSS =0V, GND pin floating - 0.5 - V IQAA0 Floating Input positive quiescent supply current - 1 2 mA IQAA1 Floating Input positive quiescent supply current - 2 3 mA IQAA2 Floating Input positive quiescent supply current - 2.5 4 mA - - 50 µA 4.9 5.1 5.4 V -5.4 -5.1 -4.9 V ILKM VCLAMPM+ VCLAMPM- 8 Floating input side to Low side leakage current VAA floating supply zener diode clamp voltage, positive, with respect to GND VSS floating supply zener diode clamp voltage, negative, with respect to GND www.irf.com © 2013 International Rectifier Test Conditions IBS=5mA VSS =0V, GND pin floating VAA=9.6V, VSS =0V, VCSD =VSS VAA=9.6V, VSS =0V, VCSD =VAA VAA=9.6V, VSS =0V, VCSD =GND VAA=VSS=VGND= 100V IAA=5mA, ISS=5mA, VGND=0V, VCSD =VSS IAA=5mA, ISS=5mA, VGND=0V, VCSD =VSS April 22, 2013 IR43x1 Electrical Characteristics (cont’d) VCC,VBS= 12 V, VSS=VS=VN=COM=0V, VAA=9.6V and TA=25C unless otherwise specified. Definition Symbol Min Typ Max Units 0 - 18 40 mV nA 9 - MHz - 10 - mS 50 - - dB - (VAA -VSS)/2 - V 0.7 1.0 1.5 MHz - 370 - ns - 320 - ns Audio Input (VGND=0, VAA=4.8V, VSS=-4.8V) VOS Input offset voltage -18 IBIN Input bias current Small signal bandwidth GBW OTA transconductance gm GV PWM OTA gain PWM comparator threshold in COMP COMP pin star-up local fOTA oscillation frequency COMP to VS rising edge Ton propagation delay COMP to VS trailing edge Toff propagation delay Deadtime: Low-side turn-off to High-side turn-on (DTLO-HO) & DT High-side turn-off to Low-side turn-on (DTHO-LO) Power MOSFET (FET1, FET2) (IR4301) Drain-to-Source breakdown V(BR)DSS voltage RDS(ON) FET on resistance Qg Total gate charge VthPWM - 50 - ns 80 - - V - 39 7.3 50 - mΩ nC VP leakage current, VS=VN - - 20 µA ILK1 VP leakage current, VS=VP Power MOSFET (FET1, FET2) (IR4321) Drain-to-Source breakdown V(BR)DSS voltage RDS(ON) FET on resistance Qg Total gate charge - - 50 µA 60 - - V - 30 8.3 40 - mΩ nC - - 20 µA - - 50 µA 40 - - V - 44 4.5 56 - mΩ nC ILK0 ILK0 VP leakage current, VS=VN ILK1 VP leakage current, VS=VP Power MOSFET (FET1, FET2) (IR4311) Drain-to-Source breakdown V(BR)DSS voltage RDS(ON) FET on resistance Qg Total gate charge ILK0 VP leakage current, VS=VN - - 20 µA ILK1 VP leakage current, VS=VP - - 50 µA 9 www.irf.com © 2013 International Rectifier Test Conditions CCOMP=1nF, Rf=0 VIN+=0V, VIN=10mV VCSD =GND VP=30V, VN=-30V VGS=0V, ID=250uA VGS=10V, ID=3.3A VP=80V, VCSD =VSS VGS=0V, ID=250uA VGS=10V, ID=3.3A VP=60V, VCSD =VSS VGS=0V, ID=250uA VGS=10V, ID=3.6A VP=40V, VCSD =VSS April 22, 2013 IR43x1 Electrical Characteristics (cont’d) VCC,VBS= 12 V, VSS=VS=VN=COM=0V, VAA=9.6V and TA=25C unless otherwise specified. Definition Symbol Protection IOCP Positive OC threshold IOCN Negative OC threshold CSD pin shutdown release Vth1 threshold Vth2 CSD pin self-reset threshold CSD pin discharge current ICSD+ CSD pin charge current ICSDtSD tOCP tOCN TSD TSDHYS 10 Shutdown propagation delay from VS < Vth1 to Shutdown Propagation delay time from IO > IOCP to Shutdown Propagation delay time from IO < IOCN to Shutdown Over temperature shutdown threshold in controller IC Over temperature shutdown threshold hysteresis www.irf.com Min Typ Max Units - 16 -16 - A A 0.62xVAA 0.70xVAA 0.78xVAA V 0.26xVAA 0.30xVAA 0.34xVAA V 70 100 130 µA 70 100 130 µA - - 250 ns - - 500 ns - - 500 ns - 105 - ºC - 7 - ºC © 2013 International Rectifier Test Conditions VCSD = VSS +4.8V VCSD = VSS +4.8V COMP = VSS COMP = VSS COMP = VSS April 22, 2013 IR43x1 Functional Bock Diagram CSH VAA VB GND VP D IN- G S IN+ COMP VCC VSS D VS G CSD S VN COM 47 11 www.irf.com © 2013 International Rectifier April 22, 2013 IR43x1 Input/Output Pin Equivalent Circuit Diagrams CSH VP 10k VB VAA 15 V Clamp ESD Diode 5V Zener Diode ESD Diode D G ESD Diode IN- IN+ ESD Diode HO S VS 200 V V CC 200 V VCC 15 V Clamp GND 5V Zener Diode ESD Diode D G LO ESD Diode S VSS COM COM VN VCC VAA ESD Diode ESD Diode DT, VREF or OCSET COMP or CSD ESD Diode COM VSS 12 ESD Diode www.irf.com © 2013 International Rectifier April 22, 2013 IR43x1 Lead Definitions Pin # Symbol 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 VAA GND IN+ INCOMP CSD VSS VCC COM VN VS VP VB CSH SUB Description Floating input positive supply GND for internal shunt zener diodes to VAA and VSS Analog non-inverting input Analog inverting input PWM comparator input Shutdown timing capacitor / shutdown input Floating input negative supply Low side supply Low side supply return, internally connected to VN Negative power supply, internally connected to COM externally PWM output Positive power supply High side floating supply, referenced to VS High side over current sensing input, referenced to VS Internally connected to COM (Do not use as supply return) Lead Assignments (Top View) 10 11 12 13 9 15 14 8 1 13 www.irf.com 2 3 © 2013 International Rectifier 4 5 6 7 April 22, 2013 IR43x1 Package Details 14 www.irf.com © 2013 International Rectifier April 22, 2013 IR43x1 Board Mounting Information Refer to Application Note AN-1170 Audio Power Quad Flat No-Lead (PQFN) Board Mounting Application Note. Part Marking Information Ordering Information Standard Pack Base Part Number Package Type Complete Part Number Form Quantity IR4301M PQFN22 5x6mm Tape and Reel 4000 IR4301MTRPBF IR4321M PQFN22 5x6mm Tape and Reel 4000 IR4321MTRPBF IR4311M PQFN22 5x6mm Tape and Reel 4000 IR4311MTRPBF The information provided in this document is believed to be accurate and reliable. However, International Rectifier assumes no responsibility for the consequences of the use of this information. International Rectifier assumes no responsibility for any infringement of patents or of other rights of third parties which may result from the use of this information. No license is granted by implication or otherwise under any patent or patent rights of International Rectifier. The specifications mentioned in this document are subject to change without notice. This document supersedes and replaces all information previously supplied. For technical support, please contact IR’s Technical Assistance Center http://www.irf.com/technical-info/ WORLD HEADQUARTERS: 101 N. Sepulveda Blvd., El Segundo, California 90245 Tel: (310) 252-7105 15 www.irf.com © 2013 International Rectifier April 22, 2013