Transcription of ON Semiconductor Is Now
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4 91 Publication Order Number:MC33035/DMC33035, NCV33035 Brushless DC Motor ControllerThe MC33035 is a high performance second generation monolithicbrushless DC motor controller containing all of the active functionsrequired to implement a full featured open loop, three or four phasemotor control system. This device consists of a rotor position decoderfor proper commutation sequencing, temperature compensatedreference capable of supplying sensor power, frequencyprogrammable sawtooth oscillator, three open collector top drivers,and three high current totem pole bottom drivers ideally suited fordriving power included are protective features consisting of undervoltagelockout, cycle by cycle current limiting with a selectable timedelayed latched shutdown mode, internal thermal shutdown, and aunique fault output that can be interfaced into microprocessorcontrolled motor control functions include open loop speed, forward orreverse direction, run enable, and dynamic braking.
5 The MC33035 isdesigned to operate with electrical sensor phasings of 60 /300 or120 /240 , and can also efficiently control brush DC 10 to 30 V Operation Undervoltage Lockout V Reference Capable of Supplying Sensor Power Fully Accessible Error Amplifier for Closed Loop ServoApplications High Current Drivers Can Control External 3 Phase MOSFETB ridge Cycle By Cycle Current Limiting Pinned Out Current Sense Reference Internal Thermal Shutdown Selectable 60 /300 or 120 /240 Sensor Phasings Can Efficiently Control Brush DC Motors with External MOSFETH Bridge NCV Prefix for Automotive and Other Applications RequiringUnique Site and Control Change Requirements; AEC Q100 Qualified and PPAP Capable Pb Free Packages are DriveOutput16 BottomDrive Outputs15(Top View)
6 17181920211098765 SensorInputs4 OscillatorCurrent SenseNoninverting InputReference OutputOutput EnableSCSBSA60 /120 SelectFwd/RevCurrent SenseInverting InputGndVCCCT2223 BBCB324 Brake2AB1 VCPIN CONNECTIONS241241 PDIP 24P SUFFIXCASE 724 SOIC 24 WBDW SUFFIXCASE 751E14131211 Error AmpInverting InputError AmpNoninverting InputError Amp Out/PWM InputFault OutputSee detailed ordering and shipping information in the packagedimensions section on page 28 of this data INFORMATIONSee general marking information in the device markingsection on page 28 of this data MARKING INFORMATIONMC33035, NCV33035 AmpPWMT hermalShutdownReferenceRegulatorLockoutU ndervoltageVinFwd/RevQRSF asterSSVMS peedSetThis device contains 285 active Schematic DiagramRotorPositionDecoderOutput BuffersCurrent SenseReference60 /120 1817 BrakeFaultNN7223654811121310142124212019 9152316MC33035, NCV33035 RATINGSR atingSymbolValueUnitPower Supply VoltageVCC40 VDigital Inputs (Pins 3, 4, 5, 6, 22, 23) VrefVOscillator Input Current (Source or Sink)IOSC30mAError Amp Input Voltage Range (Pins 11, 12, Note 1)VIR to VrefVError Amp Output Current (Source or Sink, Note 2)IOut10mACurrent Sense Input Voltage Range (Pins 9, 15)VSense to Output VoltageVCE(Fault)20 VFault Output Sink CurrentISink(Fault)20mATop Drive Voltage (Pins 1, 2, 24)VCE(top)
7 40 VTop Drive Sink Current (Pins 1, 2, 24)ISink(top)50mABottom Drive Supply Voltage (Pin 18)VC30 VBottom Drive Output Current (Source or Sink, Pins 19, 20, 21)IDRV100mAElectrostatic Discharge Sensitivity (ESD)Human Body Model (HBM) Class 2, JESD22 A114 CMachine Model (MM) Class A, JESD22 A115 ACharged Device Model (CDM), JESD22 C101 C 20002002000 VVVP ower Dissipation and Thermal CharacteristicsP Suffix, Dual In Line, Case 724 Maximum Power Dissipation @ TA = 85 CThermal Resistance, Junction to AirDW Suffix, Surface Mount, Case 751 EMaximum Power Dissipation @ TA = 85 CThermal Resistance, Junction to AirPDR JAPDR JA86775650100mW C/WmW C/WOperating Junction TemperatureTJ150 COperating Ambient Temperature Range (Note 3)MC33035 NCV33035TA 40 to + 85 40 to +125 CStorage Temperature RangeTstg 65 to +150 CStresses exceeding Maximum Ratings may damage the device.
8 Maximum Ratings are stress ratings only. Functional operation above theRecommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affectdevice , NCV33035 CHARACTERISTICS (VCC = VC = 20 V, RT = k, CT = 10 nF, TA = 25 C, unless otherwise noted.)CharacteristicSymbolMinTypMaxUnit REFERENCE SECTIONR eference Output Voltage (Iref = mA)TA = 25 C (Note 4) Regulation (VCC = 10 to 30 V, Iref = mA)Regline Regulation (Iref = to 20 mA)Regload 1630mVOutput Short Circuit Current (Note 5)ISC4075 mAReference Under Voltage Lockout AMPLIFIERI nput Offset Voltage (Note 4)VIO Offset Current (Note 4)IIO Bias Current (Note 4)IIB 46 1000nAInput Common Mode Voltage RangeVICR(0 V to Vref)VOpen Loop Voltage Gain (VO = V, RL = 15 k)AVOL7080 dBInput Common Mode Rejection RatioCMRR5586 dBPower Supply Rejection Ratio (VCC = VC = 10 to 30 V)PSRR65105 dBOutput Voltage SwingHigh State (RL = 15 k to Gnd)Low State (RL = 15 k to Vref)
9 SECTIONO scillator FrequencyfOSC222528kHzFrequency Change with Voltage (VCC = 10 to 30 V) fOSC/ V Peak VoltageVOSC(P) Valley VoltageVOSC(V) VLOGIC INPUTSI nput Threshold Voltage (Pins 3, 4, 5, 6, 7, 22, 23)High StateLow Inputs (Pins 4, 5, 6)High State Input Current (VIH = V)Low State Input Current (VIL = 0 V)IIHIIL 150 600 70 337 20 150 AForward/Reverse, 60 /120 Select (Pins 3, 22, 23)High State Input Current (VIH = V)Low State Input Current (VIL = 0 V)IIHIIL 75 300 36 175 10 75 AOutput EnableHigh State Input Current (VIH = V)Low State Input Current (VIL = 0 V)IIHIIL 60 60 29 29 10 10 ACURRENT LIMIT COMPARATORT hreshold VoltageVth85101115mVInput Common Mode Voltage RangeVICR VInput Bias CurrentIIB AOUTPUTS AND POWER SECTIONSTop Drive Output Sink Saturation (Isink = 25 mA)VCE(sat) Drive Output Off State Leakage (VCE = 30 V)IDRV(leak) ATop Drive Output Switching Time (CL = 47 pF, RL = k)nsRise Timetr 107300 Fall Timetf 26300 Bottom Drive Output VoltageHigh State (VCC = 20 V, VC = 30 V, Isource = 50 mA)Low State (VCC = 20 V, VC = 30 V, Isink = 50 mA)VOHVOL(VCC ) (VCC ) , NCV33035 CHARACTERISTICS (VCC = VC = 20 V, RT = k, CT = 10 nF, TA = 25 C, unless otherwise noted.)
10 CharacteristicUnitMaxTypMinSymbolOUTPUTS AND POWER SECTIONSB ottom Drive Output Switching Time (CL = 1000 pF)nsRise Timetr 38200 Fall Timetf 30200 Fault Output Sink Saturation (Isink = 16 mA)VCE(sat) 225500mVFault Output Off State Leakage (VCE = 20 V)IFLT(leak) AUnder Voltage LockoutVDrive Output Enabled (VCC or VC Increasing)Vth(on) Supply CurrentPin 17 (VCC = VC = 20 V)Pin 17 (VCC = 20 V, VC = 30 V)Pin 18 (VCC = VC = 20 V)Pin 18 (VCC = 20 V, VC = 30 V)ICCIC The input common mode voltage or input signal voltage should not be allowed to go negative by more than The compliance voltage must not exceed the range of to NCV33035: Tlow = 40 C, Thigh = 125 C. Guaranteed by design. NCV prefix is for automotive and other applications requiring site and MC33035: TA = 40 C to +85 C; NCV33035: TA = 40 C to +125 Maximum package power dissipation limits must be , NCV33035 , OUTPUT SATURATION VOLTAGE (V) s/DIVAV = + LoadTA = 25 C, OUTPUT VOLTAGE (V) s/DIVAV = + LoadTA = 25 , OUTPUT LOAD CURRENT (mA)f, FREQUENCY (Hz) k2202001801601401201008060-24-16- M100 k10 k40240 AVOL, OPEN LOOP VOLTAGE GAIN (dB)EXCESS PHASE (DEGREES), PhaseGainTA, AMBIENT TEMPERATURE ( C)-55- OSCOSCILLATOR FREQUENCY CHANGE (%), Figure 1.
