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HPW7095A

HPW7095A

  • 厂商:

    ETC1

  • 封装:

  • 描述:

    HPW7095A - 6-Channel DC/DC Converter Control IC - List of Unclassifed Manufacturers

  • 数据手册
  • 价格&库存
HPW7095A 数据手册
HPW7095/A 6-Channel DC/DC Converter Control IC Features • • • Supports for synchronous rectification (CH1, CH2 and CH5) Supports for down or up-down Zeta conversions (CH1 and HPW7095 CH2) Supports for up, flyback or up-down SEPIC conversions HPW7095A CH2, CH3, APW7095 CH4, CH5 and CH6) General Description The HPW7095/A is a 6-channel, frequency-settable, voltage-mode, DC/DC control IC providing a complete power supply solution for high-performance portable digital cameras. The HPW7095/A uses pulse-widthmodulation (PWM) and synchronous rectification for high efficiency step-up, step-down, up-down and inverting converters with free input and output settings in 2 or 4-cell AA, 1-cell lithium-ion (Li+), and dualbattery designs. The HPW7095/A incorporates error amplifiers, output short-circuit detection, under-voltage lockout, soft-start and output switch control into a chip. The HP7095/A improves performance, component count, and size compared to conventional multichannel controllers. The APW7095/A has a power-good indicator (PGOOD) that signals when CH1 output is within ±10% of the set voltage by monitoring IN1 pin. The HPW7095/A is available in compact 48-pin plastic LQFP and TQFN packages. • • • Supports for Inverting conversion (HPW7095A CH4) Low Start-up Voltage : 1.4V (CH6) Power Supply Voltage Range - CH1 to CH5 : 3.0V to 6.5V - CH6 : 2.4V to 6.5V • • • • 1% Reference Voltage Accuracy Wide Operating Frequency 100kHz to 1MHz Soft-Start Function (CH1 to 6) Power Good (PGOOD) Indicator for CH1 • Low Shutdown Current • · Output Short-Circuit Detections Applications • • • Digital Camera Camcorder Hand-held Instrument  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 1 www.hipacsemi.com HPW7095/A Ordering and Marking Information HPW7095/A Lead Free Code Handling Code Temp. Range Package Code HPW7095 XXXXX HPW7095A XXXXX Package Code QD : LQFP QB : TQFN Temp. Range E : -30 to 85 °C Handling Code TY : Tray Lead Free Code L : Lead Free Device Blank : Original Device XXXXX - Date Code HPW7095 QD/QB : HPW7095A QD/QB : XXXXX - Date Code Pinouts 48 47 46 45 44 43 42 41 40 39 38 OUT1-2 OUT2-1 PGOOD OUT5-1 OUT5-2 OUT2-2 OUT1-1 PGND OUT6 OUT4 PVCC OUT3 37 IC DTC1 FB1 IN1 DTC2 FB2 36 35 34 33 32 31 30 29 28 27 26 25 HPW7095 Synchronous Step-down Synchronous Up-down Step-up Step-up Synchronous Step-up Step-up HPW7095A Synchronous Step-down Synchronous Step-up Step-up Inverting Synchronous Step-up Step-up 1 2 3 4 5 6 7 8 9 10 11 12 SWOUT SWIN FB6 IN6 CIN6 DTC5 FB5 IN5 INA4 OUTA4 FB4 IN4 CTL1,2 CSCP VREF DTC4 CTL4 INS4 GND VCC CTL3 CTL5 CH1 CH2 CH3 CH4 CH5 CH6 HPW7095/A IN2 DTC3 FB3 IN3 VB CT RT 13 14 15 CS 16 17 18 19 20 CTL 21 22 23 Pin Description P IN No. 1 2 3 4 5 6 Nam e SW OUT S W IN FB6 IN 6 C IN 6 D TC 5 I/O O I O I I I D E S C R IP T IO N O u tp u t S w itc h C o n tro l C irc u it O u tp u t P in . O u tp u t S w itc h C o n tro l C irc u it In p u t P in . C H 6 E rro r A m p lifie r O u tp u t P in . C H 6 In ve rte d In p u t P in o f E rro r A m p lifie r. C H 6 S o ft-S ta rt C a p a c ito r C o n n e ctio n P in . L e a ve th is p in “O p e n ” to d isa b le th e so ft-sta rt fu n ctio n . C H 5 D e a d Tim e C o n tro l P in . C o n n e c t th is p in to V R E F d ire c tly w h e n th e d e a d -tim e c o n tro l is not used. 2 www.hipacsemi.com  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 24 HPW7095/A Pin Description (Cont.) PIN N o. 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Nam e F B5 IN5 INA4 OUTA4 FB4 IN4 INS4 DTC4 CS VREF GND CSCP VCC CTL I/O O I I O O I I I O P P I DESCRIPTION CH5 Error Amplifier Output Pin. CH5 Inverted Input Pin of Error Amplifier. CH4 Inverting Am plifier Input Pin. CH4 Inverting Am plifier Output Pin. Connect this pin to INA4 when the inverting amplifier is not used. CH4 Error Amplifier Output Pin. CH4 Inverted Input Pin of Error Amplifier. CH4 Inverted Input Pin of Short Detection Com parator. CH4 Dead Tim e Control Pin. Connect this pin to VREF directly when the dead-time control is not used. CH1 to CH5 Soft-Start Capacitor Connection Pin. Leave this pin “Open” to disable the soft-start function. Reference Voltage Output Pin. Reference Voltage and Control Circuit Ground Pin. Short-Circuit Detection Capacitor Connection Pin. Connect this pin to GND with the shortest distance to disable the timer-latch short-circuit protection circuit. Reference Voltage and Control Circuit Power Supply Pin. Power Supply and CH6 Control Pin. “H” Level : Operation Mode. “L” Level : Standby Mode CH1 and CH2 Control Pin. “H” Level : Operation Mode. “L” Level : OFF Mode CH3 Control Pin. “H” Level : Operation Mode. “L” Level : OFF Mode CH4 Control Pin. “H” Level : Operation Mode. “L” Level : OFF Mode CH5 Control Pin. “H” Level : Operation Mode. “L” Level : OFF Mode Oscillator Frequency Setting Resistor Connection Pin. Oscillator Frequency Setting Capacitor Connection Pin. Triangular W ave Oscillator Regulator Output Pin. CH3 Inverted Input Pin of Error Amplifier. CH3 Error Amplifier Output Pin. CH3 Dead Tim e Control Pin. Connect this pin to VREF directly when the dead-time control is not used. CH2 Inverted Input Pin of Error Amplifier. CH2 Error Amplifier Output Pin. CH2 Dead Tim e Control Pin. Connect this pin to VREF directly when the dead-time control is not used. CH1 Inverted Input Pin of Error Amplifier. CH1 Error Amplifier Output Pin. CH1 Dead Tim e Control Pin. Connect this pin to VREF directly when the dead-time control is not used. CH1 Main-side MOSFET Drive Pin. Connect OUT1-1 to the m ain MOSFET. CH1 MOSFET Drive Pin for Synchronous Rectifier. CH2 Main-side MOSFET Drive Pin. APW 7095 : Drive a p-channel MOSFET for a step-down converter. APW 7095A : Drive an n-channel MOSFET for a step-up converter. CH2 MOSFET Drive Pin for Synchronous Rectifier 3 www.hipacsemi.com 21 CTL1,2 I 22 CTL3 I 23 CTL4 I 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 CTL5 RT CT VB IN3 FB3 DTC3 IN2 FB2 DTC2 IN1 FB1 DTC1 OUT1-1 OUT1-2 OUT2-1 OUT2-2 I O I O I I O I I O I O O O O  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 HPW7095/A Pin Description (Cont.) P IN No. 41 42 43 44 45 46 47 48 Nam e O UT3 PVCC O UT4 PGND O U T 5 -1 O U T 5 -2 O UT6 PGOOD I/O O P O P O O O O D E S C R IP T IO N C H 3 M O S F E T D rive P in . D riv e C irc u it P o w e r S u p p ly P in . C H 4 M O S F E T D rive P in . A P W 7 0 9 5 : D rive a n n -c h a n n e l M O S F E T fo r a s te p -u p c o n v e rte r. A P W 7 0 9 5 A : D rive a p -c h a n n e l M O S F E T fo r a in ve rtin g s te p -u p /d o w n c o n ve rte r. D riv e C irc u it G ro u n d P in . C H 5 M a in -s id e M O S F E T D rive P in . C o n n e c t O U T 5 -1 to th e m a in M O S F E T. C H 5 M O S F E T D rive P in fo r S yn c h ro n o u s R e c tifie r. C H 6 M O S F E T D rive P in . In d ic a to r O u tp u t P in . T h is p in is a n o p e n -d ra in o u tp u t u s e d to in d ic a te s ta tu s o f th e C H 1 o u tp u t vo lta g e .  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 4 www.hipacsemi.com HPW7095/A Block Diagram P V CC D riv e r 1- 1 FB 1 Er ro r Amp. FB1 D TC 1 C T2 C TL 1 ,2 IN1 1 .2 5 V CH1 PW M Controll er OUT1-1 D riv e r 1- 2 OUT1-2 SC P C o mp . 1 .2 5 V x 1 .1 IN 1 1.0V P GOOD C o mp . DTC1 1.2 5 V x 0 .9 D riv e r 2 - 1 FB 2 Err or FB2 D TC 2 C T1 C TL 1,2 1 .2 5 V SC P C o mp . D rive IN2 Amp . CH2 PW M Controll er 1-1 2-1 OUT2-1 D riv e r 2 - 2 D rive 1-2 OUT2-2 1.0V DTC2 FB 3 Err or Amp . FB3 D TC 3 C T2 C TL 3 1.25 V SC P C o mp . D riv e r 3 IN3 CH3 PWM Controll er OUT3 1.0V DTC3 INA 4 IN V Amp . OUTA 4 FB 4 Er ro r FB4 D TC 4 C T1 C TL 4 1 .2 5 V D riv e r 4 IN4 Amp . CH4 PWM Controll er OUT4 SC P C o mp . INS 4 1.0V DTC4 FB 5 Err or Amp . FB5 D riv e r 5 - 1 OUT5-1 D TC 5 C T2 C TL 5 1 .2 5 V SC P C o mp . IN5 CH5 PWM Controll er D riv e r 5 - 2 OUT5-2 1.0V DTC5 FB 6 VB:2 V D riv e r 6 IN6 Err o r Amp . FB6 3 7 .5 k 6 2.5k CH6 PWM Controll er (Ma x . D u ty =8 0 %) OUT6 CT CIN6 SC P C o n tro l So ft- Star t 0.9V Po w e r C omp . 0.9V U VLO SC P C o mp. S W OUT CTL1,2 CTL3 CTL4 CTL5 CS CTL Logic 0.8V 0.3V 1.8V 1.1V 1.8V 1.1V R ef O SC 2V SC P 2 .4 9 V CT C T2 C T1 U VLO P GND S W IN V CC Po w e r O N /O FF C TL CTL CS VB RT CT CS CP V RE F GND  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 5 www.hipacsemi.com HPW7095/A Absolute Maximum Ratings Symbol V CC V PVCC Parameter V CC Supply Voltage (VCC to GND) P VCC Supply Voltage (PVCC to GND) IN1~6, INA4, INS4, DTC1~5 Input Voltages C TL, CTL1~5, SWIN Input Voltages P GOOD Pull High Voltage M aximum Junction Temperature T STG T SDR S torage Temperature M aximum Soldering Temperature, 10 Seconds Rating -0.3 ~ 7 -0.3 ~ 7 -0.3 ~ V CC +0.3 -0.3 ~ 7 -0.3 ~ 7 150 -65 ~ 150 300 Unit V V V V V o o o C C C Thermal Characteristics Symbol Parameter J unction-to-Ambient Resistance in free air 48-pin Plastic QFP Q FN Value 80 Unit o θ JA C/W Recommended Operating Conditions Symbol VCC VCC IREF IB VIN VCTL IO FOSC CT RT CS CCIN6 CSCP CVB TA Parameter Start-up Power Supply Voltage Operating Voltage Reference Voltage Output Current VB Output Current Input Voltage Control Voltage Output Current Oscillator Frequency Timing Capacitor Timing Resistor Soft-Start Capacitor Short Detection Capacitor VB Pin Capacitor Operating Ambient Temperature CH1 to CH5 CH6 Condition CH6 CH6 CH1 to CH5 VREF Pin VB Pin IN1 to IN5, INA4, INS4 Pins IN6 Pin CTL Pin OUT Pin (CH1 to CH5) OUT Pin (CH6) SWOUT Pin HPW7095/A Min. Typ. Max. 6.5 1.4 2.4 5.0 6.5 3.0 5.0 6.5 -1 0 0 -0.5 0 VCC 0 VCC 0 6.5 2 15 2 15 1 4 100 500 1000 47 100 560 8.2 18 100 0.027 1.0 0.47 1.0 0.1 1.0 0.082 0.1 -30 25 85 Unit V V mA mA V V mA kHz pF kΩ µF µF µF o C  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 6 www.hipacsemi.com HPW7095/A Electrical Characteristics Refer to the typical application circuit. These specifications apply over, VCC=5V and TA= -30 to 85°C, unless otherwise specified. Typical values refer to TA =25°C. Symbol Parameter Test Condition CTL=0V CTL=0V CTL, CTL1 to CTL5=5V Rising VCC Falling VCC Rising VCC IREF=0mA TA=-30°C to 85°C VCC=3.0V to 6.5V IREF=0mA to –1mA VREF=2V HPW7095/A Min. Typ. Max. 10 10 1.8 5 2.5 1.2 1.25 2.46 -10 -10 -25 -1.4 0.65 -1.4 CT=100pF, RT=18Ω,VB=2V VCC=3V to 6.5V TA= -30°C to 85°C FB=1.45V TA= -30°C to 85°C IN=0V (CH1 to CH5) DC AV=0dB 450 1.23 -50 60 4.9 5 1.24 -50 2.7 0.2 1.3 1.4 2.49 0.5 -18 50 -1.0 0.70 50 50 -1.0 500 1 1 1.25 0.5 100 1.0 4.99 3 -25 16 1.26 0.5 2.9 1.4 1.55 2.51 10 10 -1 100 -0.6 0.75 100 100 -0.6 550 10 1.27 50 -10 1.28 Unit µA mA ICCS VCC Standby Current IPVCC PVCC Standby Current ICC VCC Nominal Supply Current Under Voltage Lockout VTH Threshold Voltage CH1 to VH Hysteresis Width CH5 VRST Reset Voltage Threshold Voltage VTH CH6 Reference Voltage VREF Reference Voltage ∆VREF/ Output Voltage Temperature VREF Stability Line Input Stability Load Load Stability IOS Short-Circuit Output Current Soft-Start VSTB Input Standby Voltage Soft-Start Charge Current ICS Short-Circuit Detection VTH Threshold Voltage VSTB Input Standby Voltage Input Latch Voltage VI ICSCP Input Source Current Triangular Wave Oscillator fOSC Oscillator Frequency ∆f/fdv Frequency Stability for Voltage Frequency Stability for ∆f/fdt Temperature Error Amplifier (CH1 to CH5) VTH Threshold Voltage ∆VT/ VT Temperature Stability VT IB Input Bias Current Voltage Gain AV BW Frequency Bandwidth VOH Maximum Output Voltage VOL Minimum Output Voltage ISOURCE Output Source Current ISINK Output Sink Current Error Amplifier (CH6) VTH Threshold Voltage ∆VTH/ VTH Temperature Stability VTH IB Input Bias Current V V % mV mV mA mV µA V mV mV µA kHz % % V % nA dB MHz V mV mA mA V % nA FB=1.45V FB=1.45V FB=0.55V TA= -30°C to 85°C IN6=0V  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 7 www.hipacsemi.com HPW7095/A Electrical Characteristics (Cont.) Refer to the typical application circuit. These specifications apply over, VCC=5V and TA= -30 to 85°C, unless otherwise specified. Typical values refer to TA =25°C. Symbol AV BW VOH VOL Parameter DC AV=0dB Test Condition HPW7095/A Min. Typ. Max. 60 75 1.0 4.9 4.99 3 50 -50 -10 60 120 -10 -50 60 4.9 5 0.97 -50 -50 0.8 1.0 -50 0.2 70 100 100 300 0 100 1.0 4.99 3 -26 16 1.00 0.9 1.1 1.8 0.3 0.74 80 -130 160 18 10 -130 160 18 10 -290 470 7 4 10 50 -1.0 1.03 1.0 1.9 0.84 90 -80 30 20 -80 30 20 -180 15 10 Unit dB MHz V mV mA µA mV nA dB MHz V mV mA mA V nA V V nA V % mA Ω Voltage Gain Frequency Bandwidth Maximum Output Voltage Minimum Output Voltage ISOURCE Output Source Current ISINK Output Sink Current Inverted Amplifier (CH4) VIO Input Offset Voltage IB Input Bias Current Voltage Gain AV BW Frequency Bandwidth VOH Maximum Output Voltage VOL Minimum Output Voltage ISOURCE Output Source Current ISINK Output Sink Current Short Detect Comparator (CH1 to CH5) VTH Threshold Voltage IB Input Bias Current FB=0.55V FB=0.55V OUT=1.25V IN=0V DC AV=0dB OUT=1.25V OUT=1.25V CH1 to CH5 IN=0V (CH1 to CH3, CH5) INS4=0V (CH4) Short Detect Comparator (CH6) VTH Threshold Voltage PWM Comparator (CH1 to CH5) VT0 Duty=0% Threshold Voltage VT100 Duty=100% IDTC Input Current DTC=0.4V (CH1 to CH5) PWM Comparator (CH6) VT0 Duty=0% Threshold Voltage VTmax Duty=Max. Dtr Maximum Duty Cycle CT=100pF, RT=18kΩ PWM Controller Driver for P-MOS (CH1,CH2,CH5) ISOURCE Output Source Current Duty≤5%, OUT=0V ISINK Output Sink Current Duty≤5%, OUT=5V ROH OUT= -15mA Output ON Resistance ROL OUT= 15mA PWM Controller Driver for N-MOS (CH1,CH2,CH5,CH6) ISOURCE Output Source Current Duty≤5%, OUT=0V ISINK Output Sink Current Duty≤5%, OUT=5V ROH OUT= -15mA Output ON Resistance ROL OUT= 15mA PWM Controller Driver for P-MOS (CH3,CH4) ISOURCE Output Source Current Duty≤5%, OUT=0V ISINK Output Sink Current Duty≤5%, OUT=5V ROH OUT= -15mA Output ON Resistance ROL OUT= 15mA  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 8 mA Ω mA Ω www.hipacsemi.com HPW7095/A Electrical Characteristics (Cont.) Refer to the typical application circuit. These specifications apply over, VCC=5V and TA= -30 to 85°C, unless otherwise specified. Typical values refer to TA =25°C. Symbol Parameter Test Condition SWOUT=”L” level SWOUT=”H” level SWIN=5V SWOUT=0V SWOUT=5V OUT= -4mA OUT= 4mA Rising IN1 Rising IN1 IPGOOD= 4mA Active Mode Standby Mode CTL=5V HPW7095/A Min. Typ. Max. 1.2 0 1.5 0 2.5 -7 19 325 85 110 94 2 0.17 2.6 6.5 0.5 20 400 150 0.8 6.5 0.5 20 Unit Output Switch Control (SW) VIH SW Input Voltage VIL ISWIN Input Current ISOURCE Output Source Current ISINK Output Sink Current ROH Output ON Resistance ROL Power Good VTH IN1 Upper Threshold Voltage VTH IN1 Lower Threshold Voltage Upper/Lower Hysteresis VPGOOD PGOOD Output Voltage Control Block (CTL, CT1 to CT5) VIH CTL Input Voltage VIL ICTL Input Current V µA mA mA Ω % % % V V µA  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 9 www.hipacsemi.com HPW7095/A Typical Characteristics Power Supply Current vs. Power Supply Voltage 5 V CC =5V Reference Voltage Current vs. Power Supply Voltage 5 IREF=0mA TA=25°C CTL=CTL1,2=CTL3=CTL4=CTL5=5V Power Supply Current, ICC(mA) Reference Voltage, VREF(V) 4 3 2 1 0 0 4 3 2 1 0 TA=25°C CTL=CTL1,2=CTL3=CTL4=CTL5=5V 1 2 3 4 5 6 7 8 0 1 2 3 4 5 6 7 8 Power Supply Voltage, VCC(V) Power Supply Voltage, VCC(V) Reference Voltage vs. Ambient Temperature 2.56 V CC =5V Reference Voltage vs. Control Voltage 5 V CC =5V TA=25°C IREF=0mA Reference Voltage, VREF(V) 2.54 2.52 2.50 2.48 2.46 2.44 Reference Voltage, VREF(V) 100 TA=25°C CTL=CTL1,2=CTL3=CTL4=CTL5=5V IREF=0mA 4 3 2 1 0 -40 -20 0 20 40 60 80 0 Ambient Temperature, TA(°C) 1 2 3 4 Control Voltage, VCTL(V) 5  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 10 www.hipacsemi.com HPW7095/A Typical Characteristics (Cont.) Control Current vs. Control Voltage Upper & Lower Threshold Voltage, VCT(V) 5 V CC=5V Triangular Wave Upper & Lower Threshold Voltages vs. Oscillator Frequency 1.0 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0.0 0 200 400 600 800 1000 1200 Lower V CC=5V TA=25°C RT=18kΩ Upper Control Current, ICTL(µA) 4 3 2 1 0 0 TA=25°C VTL, CTL1,2~CTL5 1 2 3 4 5 6 7 8 Control Voltage, VCTL(V) Oscillator Frequency, fosc(kHz) Oscillator Frequency vs. Timing Capacitor 10000 Oscillator Frequency vs. Timing Resistor 10000 Oscillator Frequency, fosc(kHz) V CC =5V TA=25°C Oscillator Frequency, fosc(kHz) V CC =5V TA=25°C 1000 RT=4.3kΩ 1000 CT=47pF 100 RT=100kΩ RT=18kΩ 100 CT=1000pF CT=470pF CT=100pF CT=220pF 10 10 100 1000 10000 10 1 10 100 1000 Timing Capacitor, CT(pF) Timing Resistor, RT(kΩ)  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 11 www.hipacsemi.com HPW7095/A Typical Characteristics (Cont.) Oscillator Frequency vs. Ambient Temperature Upper & Lower Threshold Voltage, VCT(V) Oscillator Frequency, fosc(kHz) 560 540 520 500 480 460 440 -40 -20 0 20 40 60 80 100 V CC =5V CTL=CTL1,2=CTL3=CTL4=CTL5=5V RT=18kΩ CT=100pF Triangular Wave Upper & Lower Threshold Voltages vs. Ambient Temperature 1.0 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0.0 -40 -20 0 20 40 60 80 100 Lower V CC =5V RT=18kΩ CT=100pF Upper Ambient Temperature, TA (°C) Ambient Temperature, TA (°C)  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 12 www.hipacsemi.com HPW7095/A Typical Applications vvv 1.VBAT=2.7V~6V (4-Cell Battery or 1-Cell LI-ION) for 2 Buck and 4 Boost Converter (Using APW7095) VBAT C28 22uF HPW7095 HPM2301A OUT1-1 Q1 VBAT C1 22uF L1 22uH D1 SS0520 C2 100uF R1 6.8K R2 R4 VREF 24K R5 VBAT 15K 7.5V/20mA D7 SS12 R31 75k Q11 L6 22uH 1.8V/300mA C27 22uF HPM2300A OUT4 INA4 C26 0.1uF Driver CH4 Boost Controller CH1 Buck Controller Driver OUT1-2 FB1 IN1 R29 1K OUTA4 FB4 IN4 INS4 VREF VBAT R26 24K R25 47K C25 22uF DTC4 1.25V Vref 1.25V Vref DTC1 PGOOD 47K HPM2301A OUT2-1 Q3 L2 22uH 10uF Q8 OUT5-1 HPM2300A HPM2300A C5 C3 0.1uF HPM2300A R28 15k Q2 R3 1K R27 0 C4 22uF L5 22uH 5V/300mA HPM2301A D6 SS12 L3 22uH D2 SS12 3.3V/300mA Q10 C24 22uF C23 22uF R24 300K Q9 OUT5-2 C22 0.1uF Driver HPM2301A R22 1K CH5 Boost Controller CH2 Buck Controller Driver OUT2-2 FB2 IN2 C7 Q4 R8 1K R6 24K R7 C6 100uF FB5 IN5 1.25V Vref 0.1uF R23 100K VREF DTC5 1.25V Vref DTC2 R9 VREF 18K R10 47K T1 SS12 D3 15K R21 24K VBAT R20 47K L4 22uH 5V HPM2301A C19 22uF Q7 C20 22uF R19 100K D5 SS12 R18 309K Q6 OUT6 Driver CH6 Boost Controller CH3 Boost Controller Driver HPM2300A OUT3 FB3 IN3 DTC3 1.25V Vref CTL CTL1,2 VCC PVCC SWIN CSCP VB PGND VREF CS RT CT C16 0.1uF GND CTL3 CTL4 CTL5 C12 0.1uF C21 22uF C8 22uF 5V -10V/20mA C9 22uF 15V/20mA D4 SS12 C11 C10 22uF R11 165K R12 R14 VREF 15K HPM2312 R17 1K C17 0.33uF C18 0.1uF Q5 R13 1K 4700PF FB6 IN6 CIN6 1.26V Vref SWOUT 18K R15 47K C15 0.1uF R16 30K C14 100PF C13 0.22uF VREF  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 13 www.hipacsemi.com HPW7095/A Typical Applications (Cont.) 2.VBAT=1.4V~3V (2-Cell Battery) for 1 Buck , 1 Inverting and 4 Boost Converter s (Using APW7095A) VBAT Q11 HPM2301A -7.5V/20mA D7 OUT1-1 C27 22uF SS12 R31 60k R30 10k R29 1K C26 0.1uF INA4 FB1 IN1 OUTA4 FB4 IN4 INS4 VREF VBAT R26 24K R25 47K C25 22uF OUT2-1 Q8 Q10 C24 22uF C23 22uF R24 24K Q9 HPM2301A R22 1K R23 15K VREF DTC5 1.25V Vref 1.25V Vref DTC2 C22 0.1uF HPM2300A OUT5-2 Driver OUT5-1 HPM2300A CH5 Boost Controller CH2 Boost Controller Q3 Driver OUT2-2 HPM2301A FB2 IN2 C7 R8 1K R9 VREF 18K R10 47K 5V C8 22uF R6 33K R7 15K 3.3V DTC4 1.25V Vref L2 22uH C4 22uF D2 SS12 DTC1 1.25V Vref PGOOD 47K 0.1uF L5 22uH OUT4 Driver CH4 Inverting Controller CH1 Buck Controller Q1 C28 22uF HPW7095A HPM2301A 3.3V ( from CH5 ) C1 22uF L1 22uH D1 SS0520 1.8V/300mA HPM2300A Driver OUT1-2 C3 C2 100uF R1 6.8K R2 Q2 R3 1K R28 10k R27 0 R4 VREF 24K R5 VBAT 15K L4 22uH 3.3V/300mA HPM2301A D6 SS12 4V/300mA C5 1uF C6 100uF Q4 FB5 IN5 0.1uF R21 24K VBAT R20 47K L3 22uH 5V HPM2301A C19 22uF Q7 C20 22uF R19 100K D5 SS12 R18 309K R17 1K C17 0.33uF SWOUT VCC PVCC SWIN VB CSCP PGND VREF CS RT CT C16 0.1uF GND Q6 OUT6 Driver CH6 Boost Controller CH3 Boost Controller Driver OUT3 FB3 IN3 DTC3 CTL CTL1,2 CTL3 CTL4 CTL5 C12 0.1uF HPM2300A C21 22uF D8 SS0520 D3 18V/3mA C9 22uF 15V/20mA L6 22uH SS0520 D4 C11 1uF SS12 HPM2312 C18 0.1uF Q5 R13 1K R14 18K R15 47K VREF C10 22uF R11 165K R12 15K FB6 IN6 CIN6 1.26V Vref 1.25V Vref C15 0.1uF R16 30K C14 100PF C13 0.22uF VREF  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 14 www.hipacsemi.com HPW7095/A Function Descriptions General The HPW7095/A provides voltage-mode feedback controls for six DC/DC PWM converters(CH1 to CH6). Each channel operates with an error amplifier, PWM comparator, short-circuit comparator, ON/OFF control and output driver. An internal temperature-compensated voltage provides reference voltages for each channel. An triangular-wave oscillator(CT) with a timing resistor and capacitor generates triangular waves to each channel. A inverting amplifier(CH4) cooperates with the error amplifier for an inverting converter (with negative output voltage) . Reference Voltage The HPW7095 outputs a temperature- compensated reference voltage(2.49V) at VREF pin. It is regulated from the voltage at VCC pin and can source current of max. 1mA to external loads. It also supplies bias for the IC’s internal circuitry. Triangular-wave Oscillator The triangular-wave oscillator is designed to generates a triangular oscillation signal (CT) with amplitude of 0.3V~0.8V at CT pin, providing signal to CH6. The oscillator frequency is settable from 100kHz to 1MHz and set by a timing resistor and a timing capacitor connected respectively from RT and CT pins to ground. Additional two triangular oscillation signals (CT1 and CT2) are also internally generated with amplitude of 1. 1V~1.8V. The CT1 is in phase with the CT to the PWM comparators of CH2 and CH4; the CT2 is out of phase with the CT to the PWM comparators of CH1, CH3 and CH5. Error Amplifier The error amplifier is designed with unit-gain-bandwidth of 1MHz and to satisfy wide application requirements. It works with enternal resistor-capacitor network for each converter’s feedback compensation. The loop gain can be set by connecting a feedback resistor and  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 15 capacitor from the output pin(FB) to inverted input pin of the error amplifier for stable operations. Inverting Amplifier (Inv Amp) The inverting amplifier detects the inverting DC/DC converter output voltage (as a negative voltage) and outputs a control signal to the error amp. Channel Control Function The channel control function turns on/off one or more channels depending on the states (“H” or “L” level) at CTL, CTL1,2 to CTL5 pins. The on/off control logic is shown as the following table: Channel on/off Setting Table Vol tage Level at CTL Pin CTL CTL1,2 CTL3 CTL4 CTL5 L x x L H L L H H H L L H H L H H x L x L H L H L H L H L H L H L H L H Channel ON/OFF State Power CH1 CH3 CH4 CH6 /CH6 /CH2 OFF( Standby State) OFF OFF ON OFF OFF ON ON OFF OFF OFF ON ON OFF ON ON ON OFF OFF ON OFF OFF ON ON ON OFF OFF ON ON OFF ON ON MOSFET Drive Circuits HPW7095/A uses push-pull configuration at output of each MOSFET driver for providing large drive current to MOSFET gate. The following table shows the MOSFETs connected to the drivers: IC CH1 CH2 CH3 CH4 CH5 CH6 HPW7095 OUT1-1 : PMOS OUT1-2 : NMOS OUT2-1 : PMOS OUT2-2 : NMOS OUT3 : NMOS OUT4 : NMOS OUT5-1 : NMOS OUT5-2 : PMOS OUT6 : NMOS HPW7095A OUT1-1 : PMOS OUT1-2 : NMOS OUT2-1 : NMOS OUT2-2 : PMOS OUT3 : NMOS OUT4 : PMOS OUT5-1 : NMOS OUT5-2 : PMOS OUT6 : NMOS www.hipacsemi.com HPW7095/A Function Descriptions (Cont.) Timer-latch short-circuit protection circuit The short-circuit protection comparator in each channel (CH1 to CH5) monitors converter’s output voltage via input pin of error amplifier. In CH6, the short-circuit comparator detects the voltage at output of error amplifier. As any detected voltages of CH1 to CH5 falls below 1.0V or the detected voltage of CH6 is larger than 0.9V, the timer circuits is actuated to start charging the external capacitor CSCP connected from CSCP pin to ground. When the rising voltage of CSCP reaches 0.7V, the IC turns off all external MOSFETs and pulls up the voltage at SWOUT pin. Then the IC is latched. Applying a signal from “L” to “H” to CTL pin enables operation again. The short-circuit detection function remains working during soft start operation on CH1 to CH5. Under-Voltage Lockout (UVLO) Circuit The under-voltage lockout circuit monitors the supply voltage at VCC pin to prevent wrong logic control. The IC starts operation after the supply voltage rises above it’s rising threshold. As the supply voltage falls below it’s falling threshold, the IC turns off the external MOSFETs and pulls up the voltage at SWOUT pin. Soft-Start Operation The soft-start function controls the output voltage rate of rise to limit the current surge at start-up. For CH1 to CH5, the soft-start interval is programmed by the soft-start capacitor, CS connected from CS pin to ground and charged by an internal 1µA current source. For CH6, a soucing current from the internal resistordivider charges the capacitor, CCIN6 connected from CIN6 pin to ground, providing soft-start control. Figure 1 and 2 show the soft-start processes. In figure 1, when all control pins (CTL, CTL1,2 to CTL 5) are driven high (“H” level) at the same time, the voltage at CIN6 pin starts to rise up by charging the capacitor CCIN6 , starting a soft-start operation on CH6. After the  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 16 rising voltage at CIN6 reaches 0.9V, the reference voltage starts to regulate and the internal source current starts to charge the CS , starting a soft-start operation on CH1 to CH5. During soft-start interval, the error amplifiers compares the CH1 to CH5 output voltage to the voltage at the CS pin. When any control pins (CH1, 2 to CH5) go “H” from “L” during the soft-start interval (CH1 to CH5), the output rises rapidly to follow the rising voltage at CS pin. Inpu t CTL CTL1,2 CTL3 CTL4 CTL5 O utp ut 2V VB 0.9V CIN6 CH6 O utput Voltage (Vo6) 2.49V VR EF 1.25V CS CH1 to CH5 O utput Voltages (Vo1 to Vo5) t (1) (3) (2) (4) (1) to (2) : CH6 Soft-Start Interval (3) : VREF Output start (3) to (4) : CH1 to CH5 Soft-Start Interval Figure 1 Soft-start waveforms Input CTL CTL1,2 CTL3 CTL4 CTL5 O utput 2V VB 0.9V CIN6 CH6 O utput Voltage (Vo6) 2.49V VREF 1.25V 1.25V CS CH1 to CH3 O utput Voltages (Vo1 to Vo3) CH4 to CH5 O utput Voltages (Vo4 to Vo5) (1) (3) (2) (4) (5) (6)' (7)' (6) (7) t (1) to (2) : CH6 soft-start interval (3) : VREF Output start (4) to (5) : CH1 to CH3 soft-start Interval (6) to (7) : CH4, CH5 soft-start Interval (6)' to (7)' : CH4(CH5) soft start interval as CTL4 (CTL5) go "H" from "L" during CH1 to CH3 soft start interval Figure 2 Soft-start waveforms www.hipacsemi.com HPW7095/A Function Descriptions (Cont.) Output Switch Control Circuit The output switch control circuit outputs a signal to control external p-channel MOSFETs for preventing reactive current flow to external step-up circuits on CH5 and CH6. When a “H” level signal is applied to SWIN pin after releasing the UVLO and the voltage at CIN6 pin rises above 0.9V(typical), the IC pulls low the voltage at SWOUT pin, turning on the external p-channel MOSFETs to generate output voltages. Output Voltage Settings The output voltage is set by the external resistor-divider connected with converter output, error amplifier input, and ground. (1) CH1 to CH3, CH5  R1  Vo (V) = 1.25V ⋅ 1 +   R2  VO R1 Error Amp. 1 IN1 Application Information Soft-Start Interval Settings The CH6 soft-start time depends on the capacitor CCIN6 and is determined as the following equation: R2 1.25 V (2) CH4 Vo (V) = - 1.25V ⋅ VO R1 R2 INV Amp. 4 ts(S)= - CCIN6 (F)⋅ 37.5(kΩ) ⋅ 62.5(kΩ) 100(kΩ) V B (2 V ) ⋅ ln1−   VCIN6(V)  1.26(V)  ts (S) ≈ 1.25 f OSC (kHz) ≈ R2 R3 R1 INA4 ⋅ C S (900000 µ F) Error Am p. 6 RT (k OUTA4 Ω ) ⋅ CT IN4 (pF) Error Amp. 4 V C IN 6 CIN6 37.5k 62.5k CC IN 6 1.2 5V (3) CH6 The soft-start time until CH6 output voltage reaches 95% of the set voltage is determined as the following equation: ts (S) ≈ 0.07 ⋅ C CIN6 ( µ F) On CH1 to CH5, the soft-start time depending on the capacitor CS determined as the following equation :  R1  Vo (V) = 1.26V ⋅ 1 +   R2  VO VB(2V) R1 IN6 37.5k R2 CIN6 62.5k Error Amp. 6 Triangular Oscillator Frequency Setting The triangular oscillator frequency set by the timing capacitor (CT) connected to the CT pin and the timing resistor (RT) connected to the RT pin determined as the following equation:  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 17 Time Constant Setting for Timer-Latch Short-Circuit Protection Circuit The time constant for timer-latch short-circuit protection is set by the capacitor CSCP and determined as the following equation : tPE (S) = 0.70 ⋅ C SCP ( µ F) www.hipacsemi.com HPW7095/A Application Information (Cont.) Dead-Time Setting The dead-time control pin (DTC) is designed to set the maximum ON duty of the main-side MOSFET. When the device is set for step-up inverted output based on the step-up or step-up/down Zeta method or flyback method, the FB pin voltage may reach and exceed the triangular wave voltage due to load fluctuation. If this is the case, the output MOSFET is fixed to a ON duty of 100 %. To prevent this, set the maximum duty of the output MOSFET. Connecting a resistor- divider between VREF, DTC and GND pins provides a voltage VDTC to DTC pin. When the the voltage at the DTC pin is higher than the triangular wave voltage (CT1/ 2), the output transistor is turned on. The maximum duty is calculated as the following equation: ON Duty (max ) = VDTC (V) = VDTC - 1.1 V ⋅ 100 (%) 0.7 V R2 ⋅ VREF R1 + R2 VREF R1 VDTC R2 DTC1 where VREF is the output of the reference voltage (2. 49V typical) at VREF pin. The amplitude of the triangular waves CT1 and CT2 are typically 0.7V from 1. 1V to 1.8V.  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 18 www.hipacsemi.com HPW7095/A Package Information LQFP-48 A A2 C b E D E T A IL "E " e A1 L L1 θ 48 37 1 36 Hd 25 12 "E" 13 He 24 Dim A A1 A2 b c D E e Hd He L L1 y θ M illim et ers M in . 0.050 1.400 ± 0.05 0 .200T YP 0 .127T YP 7 .000 ± 0.100 7 .000 ± 0.100 0 .500T YP 9.000 ± 0.250 9.000 ± 0.250 0 .600 ± 0.150 1.000REF 0° 0 .100 7° M ax. 1 .600 0.150 In ch es M in . M ax. 0.0630 0.0020 0.0059 0.0551 ± 0.0020 0.0078T YP 0.0050T YP 0.2756 ± 0.0039 0.2756 ± 0.0039 0.0196T YP 0.3543 ± 0.0098 0.3543 ± 0.0098 0.0236 0.006 0.0393REF 0.0039 0° 7°  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 19 www.hipacsemi.com D HPW7095/A Package Information TQFN-48 D 48 1 2 47 46 45 44 43 42 41 40 39 38 37 36 35 D2 47 48 L 1 2 3 34 4 33 5 32 E6 7 8 31 E2 30 29 9 10 28 27 11 12 13 14 15 16 17 18 19 20 21 22 23 24 26 25 e b A2 A A3 A1 Dim A A1 A2 A3 b D D2 E E2 e L M illim et ers M in . 0 .80 0 0 0.20REF 0 .18 7 BSC 4.15 7 BSC 4.15 0 .50BSC 0 .30 0.50 0.01 5.25 0.09 5.25 0.09 0.30 0.007 M ax. 1.00 0.05 1.00 M in . 0.03 0 0 In ch es M ax. 0.04 0.002 0.04 0.008REF 0.01 0.28BSC 0.21 0.28BSC 0.21 0.02BSC 0.01  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 20 www.hipacsemi.com HPW7095/A Physical Specifications Terminal Material Lead Solderability Solder-Plated Copper (Solder Material : 90/10 or 63/37 SnPb), 100%Sn Meets EIA Specification RSI86-91, ANSI/J-STD-002 Category 3. Reflow Condition TP (IR/Convection or VPR Reflow) tp Critical Zone T L to T P Ram p-up Tem perature TL Tsm ax tL Tsm in Ram p-down ts Preheat 25 t 25 °C to Peak Tim e Classificatin Reflow Profiles Profile Feature Sn-Pb Eutectic Assembly Large Body Small Body Pb-Free Assembly Large Body Small Body 3°C/second max. 150°C 200°C 60-180 seconds 3°C/second max 217°C 60-150 seconds 245 +0/-5°C 250 +0/-5°C 10-30 seconds 20-40 seconds 6°C/second max. 8 minutes max. www.hipacsemi.com Average ramp-up rate 3°C/second max. (TL to TP) Preheat - Temperature Min (Tsmin) 100°C - Temperature Mix (Tsmax) 150°C - Time (min to max)(ts) 60-120 seconds Tsmax to TL - Ramp-up Rate Tsmax to TL - Temperature(TL) 183°C - Time (tL) 60-150 seconds Peak Temperature(Tp) 225 +0/-5°C 240 +0/-5°C Time within 5°C of actual Peak 10-30 seconds 10-30 seconds Temperature(tp) Ramp-down Rate 6°C/second max. 6 minutes max. Time 25°C to Peak Temperature  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 21 Note: All temperatures refer to topside of the package. Measured on the body surface. HPW7095/A Reliability test program Test item SOLDERABILITY H OLT PCT T ST ESD Latch-Up Method MIL-STD-883D-2003 MIL-STD-883D-1005.7 JESD-22-B,A102 MIL-STD-883D-1011.9 MIL-STD-883D-3015.7 JESD 78 Description 245 °C, 5 SEC 1000 Hrs Bias @125°C 168 Hrs, 100% RH, 121°C -65°C~150°C, 200 Cycles VHBM > 2KV, VMM > 200V 10ms, 1tr > 100mA 7X7mm Shipping Tray  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 22 www.hipacsemi.com HPW7095/A CONTACT HIPAC Semiconductor, Inc. 2540 North First Street, Suite 308 San Jose, CA 95131-1016 U.S.A. Tel: 1-408-943-0808 Fax: 1-408-943-0878 E-Mail: info@hipacsemi.com  Copyright HIPAC Semiconductor, Inc. Rev. A.2 - July., 2004 23 www.hipacsemi.com
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