参数资料
| 型号: | NCP5318FTR2G |
| 厂商: | ON Semiconductor |
| 文件页数: | 15/32页 |
| 文件大小: | 0K |
| 描述: | IC CTLR CPU 2/3/4 PHASE 32-LQFP |
| 产品变化通告: | Product Obsolescence 08/Apr/2011 |
| 标准包装: | 1 |
| 应用: | 控制器,CPU |
| 输入电压: | 9.5 V ~ 13.2 V |
| 输出数: | 4 |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 32-LQFP |
| 供应商设备封装: | 32-LQFP(7x7) |
| 包装: | 剪切带 (CT) |
| 其它名称: | NCP5318FTR2GOSCT |
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�NCP5318�
�APPLICATIONS� INFORMATION�
�Overview�
�The� NCP5318� is� a� multiphase,� synchronous� buck�
�controller� using� the� Enhanced� V� 2� topology� which� combines�
�the� fast� transient� response� of� the� original� V� 2� topology� with�
�the� load� current� sharing� characteristic� of� peak� current� ?� mode�
�control.� The� NCP5318� can� be� operated� as� an� interleaved�
�two/three/four� ?� phase� controller.� Differential� current�
�sensing� is� incorporated� in� order� to� more� easily� achieve�
�effective� current� sharing.� Converter� output� is� regulated� to� a�
�voltage� corresponding� to� the� logic� states� at� six� digital� inputs.�
�The� NCP5318� incorporates� a� Power� Good� (PWRGD)�
�function,� providing� integrated� fault� monitoring� and�
�sequencing� that� simplifies� design,� minimizes� circuit� board�
�area,� and� reduces� overall� system� cost.�
�Fixed� Frequency� Multi� ?� Phase� Control�
�In� a� multi� ?� phase� buck� converter,� multiple,� synchronously�
�rectified,� buck� power� stages� are� connected� in� parallel� and� are�
�energized� at� a� common� frequency� but� with� staggered�
�phasing� (interleaving).� Each� stage� carries� only� part� of� the�
�total� output� current.� In� four� ?� phase� mode,� each� phase�
�oscillator� is� delayed� 360/4� ?� or� 90� ?� degrees� from� that� of� the�
�previous� phase.� Likewise,� for� other� phase� counts,� each� phase�
�oscillator� is� delayed� 360/N� degrees� from� that� of� the� previous�
�phase,� where� N� is� the� number� of� phases.�
�Advantages� of� a� multiphase� converter� over� a� single� ?� phase�
�converter� include� a� better� heat� distribution� and� decreased�
�input� and� output� ripple� currents.� Breaking� up� heat� into� a�
�greater� number� of� smaller� amounts,� reduces� PC� Board�
�thermal� stress.� Multiple� phases� also� permits� phase�
�inductance� to� be� higher� than� used� in� a� single� ?� phase�
�converter� capable� of� equal� transient� response,� with�
�correspondingly� lower� phase� ripple� current� and� I� 2� R� losses.�
�In� addition� to� the� higher� efficiency,� input� capacitor� current�
�appears� even� lower� because� of� the� cancellation� achieved� by�
�the� summation� of� individual,� phase� shifted,� ripple� currents.�
�This� often� allows� the� use� of� fewer� input� capacitors� without�
�exceeding� the� capacitor� RMS� current� rating.� Also� due� to� the�
�x� =� 1,� 2,� 3� or� 4�
�decrease� in� phase� ripple� current,� output� di/dt� change� from�
�positive� to� negative� during� switching� is� reduced.� This�
�reduction� of� output� di/dt� change� decreases� the� output�
�capacitor� ESL� component� of� output� ripple� voltage� ?� often�
�allowing� a� reduction� in� the� number� of� ceramic� output�
�capacitors.�
�Because� the� inductors� are� always� connected� between� the�
�output� and� some� low� impedance� (either� the� input� supply� or�
�ground),� the� effective� inductance� value� seen� at� the� output� is�
�the� value� of� all� inductors� connected� in� parallel� (the� value� of�
�a� single� inductor� divided� by� the� number� of� phases).�
�Multiphase� output� current� ramp� ?� up� (+di/dt)� or� ramp� ?� down�
�(� ?� di/dt)� exhibits� finer� granularity� due� to� the� summation� of�
�the� smaller� individual� phase� di/dt� produced� by� the� larger�
�individual� inductors.� Within� one� switching� cycle,� however,�
�total� converter� di/dt� can� sum� to� the� same� di/dt� as� a� power�
�stage� with� a� single� inductor� of� the� same� effective� value.�
�Enhanced� V� 2� Control�
�Enhanced� V� 2� control� measures� and� adjusts� the� output�
�current� in� each� phase� while� simultaneously� adjusting� the�
�current� of� all� phases� to� maintain� the� correct� output� voltage.�
�Enhanced� V� 2� responds� to� output� voltage� disturbances� by� the�
�combined� effect� of� two� mechanisms.� The� first� mechanism�
�includes� the� response� of� the� Error� Amplifier,� and� is�
�responsible� for� maintaining� the� DC� accuracy� of� the� output�
�voltage� setting.� Depending� on� the� frequency� compensation�
�set� by� the� amplifier� ’s� external� components,� the� Error�
�Amplifier� response� begins� to� change� the� PWM� duty� cycle�
�within� one� to� two� cycles.� The� second� mechanism� is� the� direct�
�coupling� of� converter� output� voltage� to� all� non� ?� inverting�
�PWM� comparator� inputs,� which� dominates� PWM� response�
�at� frequencies� above� the� unity� ?� gain� crossover� frequency� of�
�the� compensated� Error� Amplifier.� A� rapid� increase� in� load�
�current� that� decreases� converter� output� voltage� immediately�
�extends� the� duty� cycle� of� any� phase� already� on,� and� will�
�typically� increase� the� duty� cycle� of� several� of� the� following�
�phases� for� one� cycle.�
�SWNODE�
�Lx�
�RLx�
�RSx�
�CSxP�
�+�
�CSA�
�?�
�COx�
�CSxN�
�V� FFB�
�Internal� Ramp�
�DAC�
�Out�
�V� OUT�
�(V� CORE� )�
�+�
�+�
�V� FB�
�COMP�
�“Fast� ?� Feedback”�
�Connection�
�?�
�E.A.�
�+�
�Channel�
�Startup�
�Offset�
�+�
�?�
�PWM�
�COMP�
�To� PWM� Latch� Reset�
�Figure� 17.� Enhanced� V� 2� Control� Employing� Resistive� Current� Sensing� and� Internal� Ramp�
�http://onsemi.com�
�15�
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