参数资料
| 型号: | MC34716EPR2 |
| 厂商: | Freescale Semiconductor |
| 文件页数: | 21/27页 |
| 文件大小: | 0K |
| 描述: | IC CONVERTER DDR 26QFN |
| 标准包装: | 2,500 |
| 应用: | 转换器,DDR |
| 输入电压: | 3 V ~ 6 V |
| 输出数: | 2 |
| 输出电压: | 0.7 V ~ 3.6 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 26-VFQFN 裸露焊盘 |
| 供应商设备封装: | 26-QFN-EP(5x5) |
| 包装: | 带卷 (TR) |
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�TYPICAL� APPLICATIONS�
�(� V� out� ?� I� out� *� (� Rds� (� on� )� _� ls� ?� r� _� w� ))�
�?� I� out�
�T� *� I� OUT�
�SELECTING� INDUCTOR�
�Inductor� calculation� process� is� the� same� for� both�
�Channels.� The� equation� is� the� following:�
�L� ?� D� '� MAX� ?� T� ?�
�Inductor� Current� Rise� Time:�
�dt� _� I� _� rise� ?�
�?� I� OUT� _� step�
�The� following� formula� will� be� helpful� to� find� the� maximum�
�V� out�
�D� '� MAX� ?� 1� ?�
�Vin� _� max�
�T�
�Rds� (� on� ) _� ls�
�Maximum� Off� Time� Percentage�
�Switching� Period�
�Drain� –� to� –� Source�
�Resistance� of� FET�
�allowed� ESR.�
�ESR� max� ?�
�?� V� OUT� *� Fsw� *� L�
�V� OUT� (� 1� ?� D� min)�
�r� _� w�
�?� I� OUT� ?� 0� .� 4� *� I� OUT�
�Winding� Resistance� of� Inductor�
�Output� Current� Ripple�
�The� effects� of� the� ESR� is� often� neglected� by� the� design-�
�ers� and� may� present� a� hidden� danger� to� the� ultimate� supply�
�stability.� Poor� quality� capacitors� have� widely� disparate� ESR�
�value,� which� can� make� the� closed� loop� response� inconsis-�
�I� OUT� *� dt� _� I� _� rise�
�If� channel� 1� will� be� serving� as� power� supply� for� channel� 2,�
�it� is� necessary� to� locate� the� LC� poles� at� different� frequencies�
�in� order� to� ensure� that� the� input� impedance� of� the� second�
�converter� is� always� higher� than� the� output� impedance� of� the�
�first� converter,� and� thus,� ensure� system� stability.� This� can� be�
�achieved� by� selecting� different� values� for� L1� and� L2� slightly�
�higher� than� the� calculated� value.�
�SELECTING� THE� OUTPUT� FILTER� CAPACITOR�
�For� the� output� capacitor,� the� following� considerations� are�
�most� important� and� not� the� actual� Farad� value:� the� physical�
�size,� the� ESR� of� the� capacitor,� and� the� voltage� rating.�
�Calculate� the� minimum� output� capacitor� using� the�
�following� formula:�
�Co� ?�
�TR� _� V� _� dip�
�Transient� Response� percentage:�
�TR_%�
�(Use� a� recommended� value� of� 2� to� 4%� to� assure� a� good�
�transient� response.)�
�Maximum� Transient� Voltage:�
�TR_V_dip� =� V� OUT� *TR_%�
�Maximum� Current� Step:�
�tent.�
�BOOTSTRAP� CAPACITOR�
�The� bootstrap� capacitor� is� needed� to� supply� the� gate�
�voltage� for� the� high� side� MOSFET.� This� N-Channel� MOSFET�
�needs� a� voltage� difference� between� its� gate� and� source� to� be�
�able� to� turn� on.� The� high� side� MOSFET� source� is� the� SW�
�node,� so� it� is� not� at� ground� and� it� is� floating� and� shifting� in�
�voltage.� We� cannot� just� apply� a� voltage� directly� to� the� gate� of�
�the� high� side� that� is� referenced� to� ground.� We� need� a� voltage�
�referenced� to� the� SW� node.� This� is� why� the� bootstrap�
�capacitor� is� needed.� This� capacitor� charges� during� the� high�
�side� off� time.� Since� the� low� side� will� be� on� during� that� time,�
�the� SW� node� and� the� bottom� of� the� bootstrap� capacitor� will� be�
�connected� to� ground,� and� the� top� of� the� capacitor� will� be�
�connected� to� a� voltage� source.� The� capacitor� will� charge� up�
�to� that� voltage� source� (for� example� 5.0� V).� Now� when� the� low�
�side� MOSFET� switches� off� and� the� high� side� MOSFET�
�switches� on,� the� SW� nodes� rise� to� V� IN� ,� and� the� voltage� on� the�
�boot� pin� will� be� V� CAP� +� V� IN� .� The� gate� of� the� high� side� will� have�
�V� CAP� across� it� and� it� will� be� able� to� stay� enhanced.� A� 0.1� ?� f�
�capacitor� is� a� good� value� for� this� bootstrap� element.�
�TYPE� III� COMPENSATION� NETWORK�
�Power� supplies� are� desired� to� offer� accurate� and� tight�
�regulation� output� voltages.� A� high� DC� gain� is� required� to�
�accomplish� this,� but� with� high� gain� comes� the� possibility� of�
�instability.� The� purpose� of� adding� compensation� to� the�
�internal� error� amplifier� is� to� counteract� some� of� the� gains� and�
�phases� contained� in� the� control-to-output� transfer� function�
�that� could� jeopardized� the� stability� of� the� power� supply.� The�
�Type� III� compensation� network� used� for� 34716� is� comprised�
�?� Iout� _� step� ?�
�(� Vin� _ min� ?� Vout� ) *� D� _ max�
�Fsw� *� L�
�of� two� poles� (one� integrator� and� one� high� frequency,� to�
�cancel� the� zero� generated� from� the� ESR� of� the� output�
�capacitor)� and� two� zeros� to� cancel� the� two� poles� generated�
��34716�
�Analog� Integrated� Circuit� Device� Data� ?�
�Freescale� Semiconductor�
�21�
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相关代理商/技术参数 |
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| MC34717 | 制造商:SPC Multicomp 功能描述:HEADER R/ANGLE 4WAY 制造商:SPC Multicomp 功能描述:HEADER, R/ANGLE, 4WAY 制造商:SPC Multicomp 功能描述:WIRE-BOARD CONN, RECEPTACLE, 4POS, 3MM; Series:2261(5561); Pitch Spacing:3mm; Contact Termination:Through Hole Right Angle; No. of Contacts:4; No. of Rows:2; Connector Mounting:PCB; Gender:Receptacle; Contact Material:Copper Alloy ;RoHS Compliant: Yes |
| MC34717EP | 功能描述:开关变换器、稳压器与控制器 5.0A 1.0MHZ DUAL SWITCH RoHS:否 制造商:Texas Instruments 输出电压:1.2 V to 10 V 输出电流:300 mA 输出功率: 输入电压:3 V to 17 V 开关频率:1 MHz 工作温度范围: 安装风格:SMD/SMT 封装 / 箱体:WSON-8 封装:Reel |
| MC34717EPR2 | 功能描述:开关变换器、稳压器与控制器 5.0A 1.0MHZ DUAL SWITCH RoHS:否 制造商:Texas Instruments 输出电压:1.2 V to 10 V 输出电流:300 mA 输出功率: 输入电压:3 V to 17 V 开关频率:1 MHz 工作温度范围: 安装风格:SMD/SMT 封装 / 箱体:WSON-8 封装:Reel |
| MC34719 | 制造商:SPC Multicomp 功能描述:HEADER VERTICAL 4WAY |
| MC3471P | 制造商:Motorola Inc 功能描述: |
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