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参数资料
| 型号: | MIC5237-5.0YT |
| 厂商: | Micrel Inc |
| 文件页数: | 7/9页 |
| 文件大小: | 0K |
| 描述: | IC REG LDO 5V .5A TO220-3 |
| 标准包装: | 50 |
| 稳压器拓扑结构: | 正,固定式 |
| 输出电压: | 5V |
| 输入电压: | 最高 16V |
| 电压 - 压降(标准): | 0.3V @ 500mA |
| 稳压器数量: | 1 |
| 电流 - 输出: | 500mA |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 通孔 |
| 封装/外壳: | TO-220-3 |
| 供应商设备封装: | TO-220-3 |
| 包装: | 管件 |
| 产品目录页面: | 1099 (CN2011-ZH PDF) |
| 其它名称: | 576-2384 MIC5237-5.0YT-ND |
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�θ� JA� =�
�Micrel,� Inc.�
�Application� Information�
�The� MIC5237� is� intended� for� general-purpose� use� and� can�
�be� implemented� in� a� wide� variety� of� applications� where�
�500mA� of� output� current� is� needed.� It� is� available� in� several�
�voltage� options� for� ease� of� use.� For� voltage� options� that� are�
�not� available� on� the� MIC5237,� consult� the� MIC5209� for� a�
�500mA� adjustable� LDO� regulator,� or� the� MIC5219� for�
�applications� that� require� only� short-duration� peak� output�
�current.�
�Input� Capacitor�
�A� 1μF� capacitor� should� be� placed� from� IN� to� GND� if� there� is�
�more� than� 10� inches� of� wire� between� the� input� and� the� ac�
�filter� capacitor� or� if� a� battery� is� used� as� the� input.�
�Output� Capacitor�
�An� output� capacitor� is� required� between� OUT� and� GND� to�
�prevent� oscillation.� 1μF� minimum� is� recommended� for�
�standard� applications.� Larger� values� improve� the�
�regulator’s� transient� response.� The� output� capacitor� value�
�may� be� increased� without� limit.�
�The� output� capacitor� should� have� an� ESR� (equivalent�
�series� resistance)� of� about� 5� ?� or� less� and� a� resonant�
�frequency� above� 1MHz.� Ultra� low-ESR� capacitors� can�
�cause� low-amplitude� oscillations� and/or� under-damped�
�transient� response.� Most� tantalum� or� aluminum� electrolytic�
�capacitors� are� adequate;� film� types� will� work,� but� are� more�
�expensive.� Since� many� aluminum� electrolytics� have�
�electrolytes� that� freeze� at� about� –30°C,� solid� tantalums� are�
�recommended� for� operation� below� –25°C.�
�At� lower� values� of� output� current,� less� output� capacitance� is�
�needed� for� output� stability.� The� capacitor� can� be� reduced� to�
�0.47μF� for� current� below� 10mA� or� 0.33μF� for� currents�
�below� 1mA.�
�For� 2.5V� applications� a� 22μF� output� capacitor� is� recom-�
�mended� to� reduce� startup� voltage� overshoot.�
�MIC5237�
�read� from� the� data� sheet.� Assuming� the� worst� case�
�scenario� is� good� design� procedure,� and� the� corresponding�
�ground� current� number� can� be� obtained� from� the� data�
�sheet.� First,� calculate� the� power� dissipation� of� the� device.�
�This� example� uses� the� MIC5237-5.0BT,� a� 13V� input,� and�
�500mA� output� current,� which� results� in� 20mA� of� ground�
�current,� worst� case.� The� power� dissipation� is� the� sum� of�
�two� power� calculations:� voltage� drop� � output� current� and�
�input� voltage� � ground� current.�
�P� D� =� [(V� IN� –� V� OUT� )� ×� I� OUT� ]� +� (V� IN� ×� I� GND� )�
�P� D� =� [(13V� –� 5V)� ×� 500mA]� +� (13V� ×� 20mA)�
�P� D� =� 4.260W�
�From� this� number,� the� heat� sink� thermal� resistance� is�
�determined� using� the� regulator’s� maximum� operating�
�junction� temperature� (T� J(max)� )� and� the� ambient� temperature�
�(T� A� )� along� with� the� power� dissipation� number� already�
�calculated.�
�T� J(MAX)� =� 125°C�
�θ� JC� =� junction-to-case� thermal� resistance�
�θ� CS� =� case-to-sink� thermal� resistance�
�θ� JA� =� junction-to-ambient� thermal� resistance�
�θ� SA� =� sink-to-ambient� thermal� resistance�
�To� determine� the� heat� sink� thermal� resistance,� the� junction-�
�to-case� thermal� resistance� of� the� device� must� be� used�
�along� with� the� case-to-heat� sink� thermal� resistance.� These�
�numbers� show� the� heat-sink� thermal� resistance� required� at�
�T� A� =25°C� that� does� not� exceed� the� maximum� operating�
�junction� temperature.�
�T� J(max)� - T� A�
�P� D�
�θ� SA� =� θ� JA� -� θ� JC�
�θ� CS� is� approximately� 1°C/W� and� θ� JC� for� the� TO-220� is�
�3°C/W� in� this� example.�
�No-Load� Stability�
�The� MIC5237� will� remain� stable� and� in� regulation� with� no�
�θ� JA� =�
�125 - 25�
�4.260W�
�load� (other� than� the� internal� voltage� divider)� unlike� many�
�other� voltage� regulators.� This� is� especially� important� in�
�CMOSRAM� keep-alive� applications.�
�Thermal� Considerations�
�Proper� thermal� design� can� be� accomplished� with� some�
�basic� design� criteria� and� some� simple� equations.� The�
�following� information� is� required� to� implement� a� regulator�
�design.�
�V� IN� =� input� voltage�
�V� OUT� =� output� voltage�
�I� OUT� =� output� current�
�T� A� =� ambient� operating� temperature�
�I� GND� =� ground� current�
�The� regulator� ground� current,� I� GND� ,� can� be� measured� or�
�θ� JA� =� 23.5°C/W�
�θ� SA� =� 23.5°C/W� –� (3°C/W� +� 1°C/W)�
�θ� SA� =� 19.5°C/W�
�Therefore,� a� heat� sink� with� a� thermal� resistance� of�
�19.5°C/W� will� allow� the� part� to� operate� safely� and� it� will� not�
�exceed� the� maximum� junction� temperature� of� the� device.�
�The� heat� sink� can� be� reduced� by� limiting� power� dissipation,�
�by� reducing� the� input� voltage� or� output� current.� Either� the�
�TO-220� or� TO-263� package� can� operate� reliably� at� 2W� of�
�power� dissipation� without� a� heat� sink.� Above� 2W,� a� heat�
�sink� is� recommended.�
�For� a� full� discussion� on� voltage� regulator� thermal� effects,�
�please� refer� to� “Thermal� Management”� in� Micrel’s�
�Designing� with� Low-Dropout� Voltage� Regulators� handbook.�
�September� 2007�
�7�
�M9999-090607-C�
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