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| 型号: | LTC1876EG#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 13/36页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BST PWM CM 36-SSOP |
| 标准包装: | 37 |
| 系列: | PolyPhase® |
| PWM 型: | 电流模式 |
| 输出数: | 3 |
| 频率 - 最大: | 360kHz |
| 占空比: | 99.4% |
| 电源电压: | 3.5 V ~ 36 V |
| 降压: | 是 |
| 升压: | 是 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | -40°C ~ 85°C |
| 封装/外壳: | 36-SSOP(0.209",5.30mm 宽) |
| 包装: | 管件 |
| 产品目录页面: | 1333 (CN2011-ZH PDF) |
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�
�LTC1876�
�OPERATIO�
�(Refer� to� Functional� Diagram)�
�controller� has� been� started� and� been� given� adequate� time�
�to� charge� up� the� output� capacitors� and� provide� full-load�
�current,� the� RUN/SS� capacitor� is� used� as� a� short-circuit�
�time-out� circuit.� If� the� output� voltage� falls� to� less� than� 70%�
�of� its� nominal� output� voltage,� the� RUN/SS� capacitor� be-�
�gins� discharging� on� the� assumption� that� the� output� is� in� an�
�overcurrent� and/or� short-circuit� condition.� If� the� condition�
�lasts� for� a� long� enough� period� as� determined� by� the� size� of�
�the� RUN/SS� capacitor,� both� controllers� will� be� shut� down�
�until� the� RUN/SS� pin(s)� voltage(s)� are� recycled.� This� built-�
�in� latchoff� can� be� overridden� by� providing� a� >5� μ� A� pull-up�
�at� a� compliance� of� 5V� to� the� RUN/SS� pin(s).� This� current�
�shortens� the� soft� start� period� but� also� prevents� net� dis-�
�charge� of� the� RUN/SS� capacitor(s)� during� an� overcurrent�
�and/or� short-circuit� condition.� Foldback� current� limiting� is�
�also� activated� when� the� output� voltage� falls� below� 70%� of�
�its� nominal� level� whether� or� not� the� short-circuit� latchoff�
�circuit� is� enabled.� Even� if� a� short� is� present� and� the� short-�
�circuit� latchoff� is� not� enabled,� a� safe,� low� output� current� is�
�provided� due� to� internal� current� foldback� and� actual� power�
�wasted� is� low� due� to� the� efficient� nature� of� the� current�
�mode� switching� regulator.�
�Theory� and� Benefits� of� 2-Phase� Operation�
�The� LTC1876� dual� high� efficiency� DC/DC� controller� brings�
�the� considerable� benefits� of� 2-phase� operation� to� portable�
�applications� for� the� first� time.� Notebook� computers,� PDAs,�
�handheld� terminals� and� automotive� electronics� will� all�
�benefit� from� the� lower� input� filtering� requirement,� reduced�
�electromagnetic� interference� (EMI)� and� increased� effi-�
�ciency� associated� with� 2-phase� operation.�
�5V� SWITCH�
�20V/DIV�
�3.3V� SWITCH�
�20V/DIV�
�INPUT� CURRENT�
�5A/DIV�
�INPUT� VOLTAGE�
�500mV/DIV�
�Why� the� need� for� 2-phase� operation?� In� most� dual� con-�
�stant-frequency� switching� regulators,� both� regulators� are�
�operated� in� phase� (i.e.,� single-phase� operation).� This�
�means� that� both� switches� turned� on� at� the� same� time,�
�causing� current� pulses� of� up� to� twice� the� amplitude� of�
�those� for� one� regulator� to� be� drawn� from� the� input� capaci-�
�tor� and� battery.� These� large� amplitude� current� pulses�
�increased� the� total� RMS� current� flowing� from� the� input�
�capacitor,� requiring� the� use� of� more� expensive� input�
�capacitors� and� increasing� both� EMI� and� losses� in� the� input�
�capacitor� and� battery.�
�With� 2-phase� operation,� the� two� channels� of� the� dual-�
�switching� regulator� are� operated� 180� degrees� out� of�
�phase.� This� effectively� interleaves� the� current� pulses�
�coming� from� the� switches,� greatly� reducing� the� overlap�
�time� where� they� add� together.� The� result� is� a� significant�
�reduction� in� total� RMS� input� current,� which� in� turn� allows�
�less� expensive� input� capacitors� to� be� used,� reduces� shield-�
�ing� requirements� for� EMI� and� improves� real� world� operat-�
�ing� efficiency.�
�Figure� 3� compares� the� input� waveforms� for� a� representa-�
�tive� single-phase� dual� switching� regulator� to� the� LTC1876�
�2-phase� dual� switching� regulator.� An� actual� measurement�
�of� the� RMS� input� current� under� these� conditions� shows�
�that� 2-phase� operation� dropped� the� input� current� from�
�2.53A� RMS� to� 1.55A� RMS� .� While� this� is� an� impressive� reduc-�
�tion� in� itself,� remember� that� the� power� losses� are� propor-�
�tional� to� I� RMS2� ,� meaning� that� the� actual� power� wasted� is�
�reduced� by� a� factor� of� 2.66.� The� reduced� input� ripple�
�voltage� also� means� less� power� is� lost� in� the� input� power�
�5V� SWITCH�
�20V/DIV�
�3.3V� SWITCH�
�20V/DIV�
�INPUT� CURRENT�
�5A/DIV�
�INPUT� VOLTAGE�
�500mV/DIV�
�I� IN(MEAS)� =� 2.53A� RMS�
�(a)� Single-Phase�
�1876� F03a�
�I� IN(MEAS)� =� 1.55A� RMS�
�(b)� 2-Phase�
�1876� F03b�
�Figure� 3.� Input� Waveforms� Comparing� Single-Phase� (a)� and� 2-Phase� (b)� Operation� for� Dual� Switching� Regulators�
�Converting� 12V� to� 5V� and� 3.3V� at� 3A� Each.� The� Reduced� Input� Ripple� with� the� LTC1876� 2-Phase� Regulator� Allows�
�Less� Expensive� Input� Capacitors,� Reduces� Shielding� Requirements� for� EMI� and� Improves� Efficiency�
�1876fa�
�13�
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