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参数资料
| 型号: | MAX15023EVKIT+ |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 18/28页 |
| 文件大小: | 0K |
| 描述: | KIT EVALUATION FOR MAX15023 CTLR |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 1 |
| 主要目的: | DC/DC,步降 |
| 输出及类型: | 2,非隔离 |
| 输出电压: | 1.2V,3.3V |
| 电流 - 输出: | 10A,5A |
| 输入电压: | 9 ~ 16 V |
| 稳压器拓扑结构: | 降压 |
| 频率 - 开关: | 500kHz |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | MAX15023 |
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�MAX15023�
�Wide� 4.5V� to� 28V� Input,� Dual-Output�
�Synchronous� Buck� Controller�
�Setting� the� Cycle-by-Cycle,� Low-Side,�
�Source� Peak� Current� Limit�
�The� minimum� current-limit� threshold� must� be� high�
�enough� to� support� the� maximum� expected� load� current�
�with� the� worst-case� low-side� MOSFET� on-resistance�
�value� since� the� low-side� MOSFET’s� on-resistance� is�
�used� as� the� current-sense� element.� The� inductor� ’s�
�cycle-by-cycle,� low-side,� source� peak� current� occurs� at�
�I� LOAD(MAX)� minus� half� the� ripple� current.� The� ripple� cur-�
�rent� is� maximum� when� the� inductor� value� is� at� the� lower�
�limit� of� its� specified� tolerance.� The� minimum� value� of�
�the� current-limit� threshold� voltage� (V� ITH� )� should� be�
�greater� than� the� voltage� on� the� low-side� MOSFET� dur-�
�ing� the� ripple-current� valley:�
�I� RMS� has� a� maximum� value� when� the� input� voltage�
�equals� twice� the� output� voltage� (V� IN� =� 2V� OUT� ),� so�
�I� RMS(MAX)� =� I� LOAD(MAX)� /2.�
�Choose� an� input� capacitor� that� exhibits� less� than� +10°C�
�temperature� rise� at� the� RMS� input� current� for� optimal�
�long-term� reliability.�
�The� input� voltage� ripple� is� composed� of� ?� V� Q� (caused�
�by� the� capacitor� discharge)� and� ?� V� ESR� (caused� by� the�
�ESR� of� the� capacitor).� Use� low-ESR� ceramic� capacitors�
�with� high� ripple� current� capability� at� the� input.� Assume�
�the� contribution� from� the� ESR� and� capacitor� discharge�
�are� equal� to� 50%.� Calculate� the� input� capacitance� and�
�ESR� required� for� a� specified� input� voltage� ripple� using�
�the� following� equations:�
�V� ITH� >� R� DS� (� ON� ,� MAX� )� � I� LOAD� (� MAX� )� � ?� 1� ?�
�?�
�I� OUT� +�
�?� LIR� ?�
�?� 2� ?�
�where� R� DS(ON)� is� the� on-resistance� of� the� low-side�
�MOSFET� in� ohms.� Use� the� maximum� value� for� R� DS(ON)�
�where:�
�ESR� IN� =�
�?� V� ESR�
�?� I� L�
�2�
�from� the� low-side� MOSFET’s� data� sheet.�
�To� adjust� the� current-limit� threshold,� connect� a� resistor�
�(R� LIM_� )� from� LIM_� to� SGND.� The� relationship� between�
�the� current-limit� threshold� (V� ITH_� )� and� R� LIM_� is:�
�and:�
�?� I� L� =�
�(V� IN� ?� V� OUT� )� � V� OUT�
�V� IN� � f� SW� � L�
�C� IN� =� OUT�
�R� LIM� _� =�
�10� � V� ITH _�
�50� μ� A�
�I� � D(1� ?� D)�
�?� V� Q� � f� SW�
�D� =� OUT�
�where� R� LIM_� is� in� k� ?� and� V� ITH_� is� in� mV.�
�An� R� LIM_� resistance� range� of� 6k� ?� to� 60k� ?� corresponds�
�to� a� current-limit� threshold� of� 30mV� to� 300mV.� When�
�adjusting� the� current� limit,� use� 1%� tolerance� resistors� to�
�minimize� errors� in� the� current-limit� threshold� setting.�
�Input� Capacitor�
�The� input� filter� capacitor� reduces� peak� currents� drawn�
�from� the� power� source� and� reduces� noise� and� voltage�
�ripple� on� the� input� caused� by� the� circuit’s� switching.�
�The� two� converters� of� the� MAX15023� run� 180°� out-of-�
�phase,� thereby,� effectively� doubling� the� switching� fre-�
�quency� at� the� input� and� lowering� the� input� RMS� current.�
�The� input� ripple� waveform� would� be� unsymmetrical� due�
�to� the� difference� in� load� current� and� duty� cycle� between�
�converter� 1� and� converter� 2.� In� fact,� the� worst-case� input�
�RMS� current� occurs� when� only� one� controller� is� operat-�
�ing.� The� converter� delivering� the� highest� output� power�
�(V� OUT� x� I� OUT� )� must� be� used� in� the� formulas� below:�
�The� input� capacitor� RMS� current� requirement� (I� RMS� )� is�
�defined� by� the� following� equation:�
�where:�
�V�
�V� IN�
�All� equations� listed� above� are� valid� under� the� assump-�
�tion� that� the� input� ports� of� both� converters� can� be�
�merged� in� the� physical� layout,� so� that� only� one� input�
�capacitor� truly� serves� both� converters.� If� this� is� not� the�
�case,� additional� low-ESR,� low-ESL� ceramic� capacitors�
�should� be� locally� placed� on� each� converter’s� input� port,�
�connected� between� the� drain� of� the� high-side� MOSFET�
�and� the� source� of� the� low-side� MOSFET.�
�Output� Capacitor�
�The� key� selection� parameters� for� the� output� capacitor�
�are� capacitance� value,� ESR,� and� voltage� rating.� These�
�parameters� affect� the� overall� stability,� output� ripple� volt-�
�age,� and� transient� response.� The� output� ripple� has� two�
�components:� variations� in� the� charge� stored� in� the� out-�
�put� capacitor,� and� the� voltage� drop� across� the� capaci-�
�tor’s� ESR� caused� by� the� current� flowing� into� and� out� of�
�the� capacitor:�
�18�
�I� RMS� =� I� LOAD� (� MAX� )�
�V� OUT� (� V� IN� ?� V� OUT� )�
�V� IN�
�?� V� RIPPLE� ?� ?� V� ESR� +� ?� V� Q�
�Maxim� Integrated�
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