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参数资料
| 型号: | MAX669EUB+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 14/18页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR PWM HYBRID 10-UMAX |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| PWM 型: | 电流模式,混合 |
| 输出数: | 1 |
| 频率 - 最大: | 575kHz |
| 占空比: | 94% |
| 电源电压: | 1.8 V ~ 28 V |
| 降压: | 无 |
| 升压: | 是 |
| 回扫: | 是 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 是 |
| 工作温度: | -40°C ~ 85°C |
| 封装/外壳: | 10-TFSOP,10-MSOP(0.118",3.00mm 宽) |
| 包装: | 带卷 (TR) |
��
�
�MAX668/MAX669�
�1.8V� to� 28V� Input,� PWM� Step-Up�
�Controllers� in� μMAX�
�I� LDC� =� OUT� OUT� D�
�given� output� ripple.� An� inductance� value� larger� than�
�L� IDEAL� may� also� be� used,� but� output-filter� capacitance�
�must� be� increased� by� the� same� proportion� that� L� has� to�
�L� IDEAL� .� See� the� Capacitor� Selection� section� for� more�
�information� on� determining� output� filter� values.�
�Due� the� MAX668/MAX669’s� high� switching� frequencies,�
�inductors� with� a� ferrite� core� or� equivalent� are� recom-�
�mended.� Powdered� iron� cores� are� not� recommended�
�due� to� their� high� losses� at� frequencies� over� 50kHz.�
�Determining� Peak� Inductor� Current�
�The� peak� inductor� current� required� for� a� particular� out-�
�put� is:�
�I� LPEAK� =� I� LDC� +� (I� LPP� /� 2)�
�where� I� LDC� is� the� average� DC� input� current� and� I� LPP� is�
�the� inductor� peak-to-peak� ripple� current.� The� I� LDC� and�
�I� LPP� terms� are� determined� as� follows:�
�I (V + V )�
�(V� IN� –� V� SW� )�
�where� V� D� is� the� forward� voltage� drop� across� the�
�Schottky� rectifier� diode� (D1),� and� V� SW� is� the� drop�
�across� the� external� FET,� when� on.�
�old� NFETs� that� specify� on-resistance� with� a� gate-�
�source� voltage� (V� GS� )� of� 2.7V� or� less.� When� selecting� an�
�NFET,� key� parameters� can� include:�
�1)� Total� gate� charge� (Q� g� )�
�2)� Reverse� transfer� capacitance� or� charge� (C� RSS� )�
�3)� On-resistance� (R� DS(ON)� )�
�4)� Maximum� drain-to-source� voltage� (V� DS(MAX)� )�
�5)� Minimum� threshold� voltage� (V� TH(MIN)� )�
�At� high� switching� rates,� dynamic� characteristics� (para-�
�meters� 1� and� 2� above)� that� predict� switching� losses�
�may� have� more� impact� on� efficiency� than� R� DS(ON),�
�which� predicts� DC� losses.� Q� g� includes� all� capacitances�
�associated� with� charging� the� gate.� In� addition,� this�
�parameter� helps� predict� the� current� needed� to� drive� the�
�gate� at� the� selected� operating� frequency.� The� continu-�
�ous� LDO� current� for� the� FET� gate� is:�
�I� GATE� =� Q� g� x� f� OSC�
�For� example,� the� MMFT3055L� has� a� typical� Q� g� of� 7nC�
�(at� V� GS� =� 5V);� therefore,� the� I� GATE� current� at� 500kHz� is�
�3.5mA.� Use� the� FET� manufacturer’s� typical� value� for� Q� g�
�in� the� above� equation,� since� a� maximum� value� (if� sup-�
�plied)� is� usually� too� conservative� to� be� of� use� in� esti-�
�(V� IN� SW� OUT� D� IN� )�
�L� x� f� OSC� OUT� D� )�
�I� LPP� =�
�–� V� )� (V� +� V� –� V�
�(V� +� V�
�mating� I� GATE� .�
�Diode� Selection�
�I� DIODE� OUT� +� LPEAK� OUT�
�where� L� is� the� inductor� value.� The� saturation� rating� of�
�the� selected� inductor� should� meet� or� exceed� the� calcu-�
�lated� value� for� I� LPEAK� ,� although� most� coil� types� can� be�
�operated� up� to� 20%� over� their� saturation� rating� without�
�difficulty.� In� addition� to� the� saturation� criteria,� the� induc-�
�tor� should� have� as� low� a� series� resistance� as� possible.�
�For� continuous� inductor� current,� the� power� loss� in� the�
�inductor� resistance,� P� LR� ,� is� approximated� by:�
�P� LR� ?� (I� OUT� x� V� OUT� /� V� IN� )� 2� x� R� L�
�where� R� L� is� the� inductor� series� resistance.�
�Once� the� peak� inductor� current� is� selected,� the� current-�
�sense� resistor� (R� CS� )� is� determined� by:�
�R� CS� =� 85mV� /� I� LPEAK�
�For� high� peak� inductor� currents� (>1A),� Kelvin� sensing�
�connections� should� be� used� to� connect� CS+� and�
�PGND� to� R� CS� .� PGND� and� GND� should� be� tied� together�
�at� the� ground� side� of� R� CS� .�
�Power� MOSFET� Selection�
�The� MAX668/MAX669� ’s� high� switching� frequency�
�demands� a� high-speed� rectifier.� Schottky� diodes� are�
�recommended� for� most� applications� because� of� their�
�fast� recovery� time� and� low� forward� voltage.� Ensure� that�
�the� diode’s� average� current� rating� is� adequate� using�
�the� diode� manufacturer’s� data,� or� approximate� it� with�
�the� following� formula:�
�I� -� I�
�=� I�
�3�
�Also,� the� diode� reverse� breakdown� voltage� must�
�exceed� V� OUT� .� For� high� output� voltages� (50V� or� above),�
�Schottky� diodes� may� not� be� practical� because� of� this�
�voltage� requirement.� In� these� cases,� use� a� high-speed�
�silicon� rectifier� with� adequate� reverse� voltage.�
�Capacitor� Selection�
�Output� Filter� Capacitor�
�The� minimum� output� filter� capacitance� that� ensures� sta-�
�bility� is:�
�(2� π� R� CS� IN(MIN)� OSC� )�
�The� MAX668/MAX669� drive� a� wide� variety� of� N-channel�
�power� MOSFETs� (NFETs).� Since� LDO� limits� the� EXT�
�output� gate� drive� to� no� more� than� 5V,� a� logic-level�
�C� OUT(MIN)� =�
�(7.5V� x� L� /� L� IDEAL� )�
�xV� xf�
�NFET� is� required.� Best� performance,� especially� at� low�
�input� voltages� (below� 5V),� is� achieved� with� low-thresh-�
�14�
�where� V� IN(MIN)� is� the� minimum� expected� input� voltage.�
�Typically� C� OUT(MIN)� ,� though� sufficient� for� stability,� will�
�Maxim� Integrated�
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