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参数资料
| 型号: | APEK4403GEU-01-T-DK |
| 厂商: | Allegro Microsystems Inc |
| 文件页数: | 8/16页 |
| 文件大小: | 0K |
| 描述: | BOARD EVAL FOR A4403 |
| 标准包装: | 1 |
| 主要目的: | DC/DC,步降 |
| 输出及类型: | 1,非隔离 |
| 输入电压: | 9 V ~ 46 V |
| 稳压器拓扑结构: | 降压 |
| 板类型: | 完全填充 |
| 已供物品: | 板,CD |
| 已用 IC / 零件: | A4403 |
| 相关产品: | 620-1273-2-ND - IC REG BUCK ADJ 3A 16QFN |
| 其它名称: | 620-1387 |
��
�
�A4403�
�Valley� Current� Mode� Control� Buck� Converter�
�When� the� output� voltage� is� set� for� 0.8� V,� the� typical� bandwidth�
�is� 90� kHz� with� a� phase� margin� of� 45°� at� full� load.� As� the� load� is�
�reduced,� the� bandwidth� remains� largely� constant;� however,� the�
�phase� margin� tends� to� reduce� slightly� because� the� output� power�
�pole� is� shifted� down� in� frequency,� introducing� the� phase� lag�
�sooner.� At� light� loads,� before� pulse� frequency� modulation� occurs,�
�the� phase� margin� reduces� to� approximately� 40°,� which� is� reason-�
�able� given� that� it� is� the� worst-case� condition.� Note� that� when�
�pulse� frequency� modulation� occurs,� the� system� no� longer� operates�
�as� a� linear� system,� therefore,� the� control� laws� do� not� apply.�
�A� good� starting� point� in� selecting� the� inductance� for� a� given�
�application� is� to� specify� a� maximum� peak-to-peak� ripple� current�
�of� about� 25%� of� the� maximum� load.� The� equates� to� a� ripple� cur-�
�rent� of� approximately� 750� mA� for� a� maximum� load� of� 3� A.� This�
�often� gives� a� good� compromise� between� size,� cost,� and� perfor-�
�mance.�
�The� maximum� peak� to� peak� ripple� current,� I� RIPP� ,� occurs� at� the�
�maximum� input� voltage.� Therefore� the� duty� cycle,� D,� should� be�
�found� under� these� conditions:�
�When� the� output� voltage� is� set� for� higher� voltages,� the� DC� gain�
�is� reduced� by� the� resistor� feedback� network� from� the� output.� This�
�D� (min)� =�
�V� OUT� +V� f�
�V� IN� (max)� +V� f�
�,�
�(9)�
�effectively� reduces� the� bandwidth� of� the� control� loop.� An� optional�
�speed-up� capacitor� (C6)� can� be� used� in� parallel� with� the� feedback�
�resistor� (R5)� to� compensate� for� this� effect.� The� addition� of� this�
�capacitor� introduces� an� additional� zero� which� increases� the� gain�
�where� V� f� is� the� forward� voltage� drop� of� the� recirculation� diode�
�and� the� sense� resistor.�
�The� required� inductance� can� be� found:�
�and� extends� the� bandwidth� to� maintain� it� in� the� region� of� 90� kHz.�
�The� position� of� the� zero� depends� on� the� values� of� R5� and� C6.�
�The� following� time� constants� should� be� used� for� various� output�
�L� (min)� =�
�V� IN� –� V� OUT�
�I� RIPP�
�� D� (min)� �
�1�
�f� SW� (min)�
�.� (10)�
�voltages:�
�Note� that� the� manufacturers� inductance� tolerance� should� also� be�
�taken� into� account.� This� value� may� be� as� high� as� ±20%.�
�Output� Voltage�
�(V)�
�5�
�3.3�
�2.5�
�1.5�
�0.8�
�Time� Constant�
�(� τ)�
�3.6� ×� 10� –5�
�2.4� ×� 10� –5�
�1.8� ×� 10� –5�
�1.1� ×� 10� –5�
�Not� required�
�In� addition,� because� the� control� is� dependant� on� the� valley� signal,�
�it� is� important� to� consider� the� minimum� peak� to� peak� valley�
�voltage� that� is� developed� across� the� sense� resistor.� The� minimum�
�peak� to� peak� ripple� current� occurs� at� minimum� input� voltage.� The�
�peak� to� peak� voltage� is� simply� the� peak� to� peak� current� multiplied�
�by� the� sense� resistor� value.� It� is� recommended� that� the� peak� to�
�peak� sense� voltage� should� be� greater� than� 25� mV.�
�For� example,� assume� a� target� output� voltage� of� 5� V,� and� an� R5�
�of� 3.92� k� Ω� to� achieve� that� voltage.� Then� C6� =� 9.18� ×� 10� –9� .� The�
�nearest� commonly� available� value� is� 10� nF.�
�For� applications� that� require� output� voltages� (V� OUT� )� other� than�
�what� is� defined� above,� the� following� formula� should� be� used� to�
�calculate� the� time� constant:�
�It� is� recommended� that� gapped� ferrite� solutions� be� used� as�
�opposed� to� powdered� iron� solutions.� The� latter� exhibit� relatively�
�high� core� losses� that� can� have� a� large� impact� on� long� term� reli-�
�ability.�
�Inductors� are� typically� specified� at� two� current� levels:�
�?� RMS� current.� It� is� important� to� understand� how� the� RMS� cur-�
�τ� =� V� OUT� ×� 7.2� ×� 10� –6� ,�
�(8)�
�rent� level� is� specified,� in� terms� of� ambient� temperature.� Some�
�manufacturers� quote� an� ambient� only,� whilst� others� quote� a� tem-�
�Inductor� The� main� factor� in� selecting� the� inductance� value� is�
�the� ripple� current.� The� ripple� current� affects� the� output� voltage�
�ripple� and� also� has� an� effect� on� the� current� limit.� Because� slope�
�compensation� is� not� used,� the� ripple� current� is� not� constrained� by�
�this� factor.�
�perature� that� includes� a� self-temperature� rise.� For� example,� if� an�
�inductor� is� rated� for� 85°C� and� includes� a� self-temperature� rise� of�
�25°C� at� maximum� load,� then� the� inductor� cannot� be� safely� oper-�
�ated� beyond� an� ambient� temperature� of� 60°C� at� full� load.� The�
�RMS� current� can� be� assumed� to� be� simply� the� maximum� load�
�Allegro� MicroSystems,� LLC�
�115� Northeast� Cutoff�
�Worcester,� Massachusetts� 01615-0036� U.S.A.�
�1.508.853.5000;� www.allegromicro.com�
�8�
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