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| 型号: | MAX767EAP+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 14/19页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM CM 20-SSOP |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,000 |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 340kHz |
| 占空比: | 95% |
| 电源电压: | 4.5 V ~ 5.5 V |
| 降压: | 是 |
| 升压: | 无 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | 0°C ~ 70°C |
| 封装/外壳: | 20-SSOP(0.209",5.30mm 宽) |
| 包装: | 带卷 (TR) |
��
�
�5V-to-3.3V,� Synchronous,� Step-Down�
�Power-Supply� Controller�
�Proper� circuit� operation� requires� that� the� short-circuit�
�current� be� at� least� I� LOAD� x� (1� +� LIR� /� 2).� However,� the�
�standard� application� circuits� are� designed� for� a� short-�
�circuit� current� slightly� in� excess� of� this� amount.� This�
�PD� (I� 2� R)� =� resistive� loss� =� (I� LOAD� 2� )� x�
�(R� COIL� +� r� DS(ON)� +� R1)�
�I� 2� R� Losses�
�______________________� f�
�P� OUT�
�_______________� x� 100%�
�excess design current guarantees proper start-up�
�under� constant� full-load� conditions� and� proper� full-load�
�transient� response,� and� is� particularly� necessary� with�
�low� input� voltages.� If� the� circuit� will� not� be� subjected� to�
�full-load� transients� or� to� loads� approaching� the� full-load�
�at� start-up,� you� can� decrease� the� short-circuit� current�
�by� increasing� R1,� as� described� in� the� Current-Sense�
�Resistor� section.� This� may� allow� use� of� MOSFETs� with� a�
�lower� current-handling� capability.�
�Heavy-Load� Efficiency�
�Losses� due� to� parasitic� resistances� in� the� switches,�
�coil,� and� sense� resistor� dominate� at� high� load-current�
�levels.� Under� heavy� loads,� the� MAX767� operates� deep�
�in� the� continuous-conduction� mode,� where� there� is� a�
�large� DC� offset� to� the� inductor� current� (plus� a� small�
�sawtooth� AC� component)� (see� Inductor� section).� This�
�DC� current� is� exactly� equal� to� the� load� current,� a� fact�
�which� makes� it� easy� to� estimate� resistive� losses� via� the�
�simplifying� assumption� that� the� total� inductor� current� is�
�equal� to� this� DC� offset� current.� The� major� loss� mecha-�
�nisms� under� heavy� loads,� in� usual� order� of� importance,�
�are:�
�?� I� 2� R� losses�
�?� gate-charge� losses�
�?� diode-conduction� losses�
�?� transition� losses�
�?� capacitor-ESR� losses�
�?� losses� due� to� the� operating� supply� current� of� the� IC.�
�Inductor-core� losses,� which� are� fairly� low� at� heavy�
�loads� because� the� AC� component� of� the� inductor� cur-�
�rent� is� small,� are� not� accounted� for� in� this� analysis.�
�Efficiency� =� ______� x� 100%� =�
�P� IN�
�P� OUT�
�P� OUT� +� PD� TOTAL�
�PD� TOTAL� =� PD� (I� 2� R)� +� PD� GATE� +� PD� DIODE� +�
�PD� TRAN� +� PD� CAP� +� PD� IC�
�where� R� COIL� is� the� DC� resistance� of� the� coil� and�
�r� DS(ON)� is� the� drain-source� on� resistance� of� the� MOS-�
�FET.� Note� that� the� r� DS(ON)� term� assumes� that� identical�
�MOSFETs� are� employed� for� both� the� synchronous� recti-�
�fier� and� high-side� switch,� because� they� time-share� the�
�inductor� current.� If� the� MOSFETs� are� not� identical,� esti-�
�mate� losses� by� averaging� the� two� individual� r� DS(ON)�
�terms� according� to� their� duty� factors:� 0.66� for� N1� and�
�0.34� for� N2.�
�Gate-Charge� Losses�
�PD� GATE� =� gate� driver� loss� =� q� G� x� f� x� 5V�
�where� q� G� is� the� sum� of� the� gate� charge� for� low-� and�
�high-side� switches.� Note� that� gate-charge� losses� are�
�dissipated� in� the� IC,� not� the� MOSFETs,� and� therefore�
�contribute� to� package� temperature� rise.� For� a� pair� of�
�matched� MOSFETs,� q� G� is� simply� twice� the� gate� capaci-�
�tance� of� a� single� MOSFET� (a� data� sheet� specification).�
�Diode� Conduction� Losses�
�PD� DIODE� =� diode� conduction� losses� =�
�I� LOAD� x� V� D� x� t� D� x� f�
�where� V� D� is� the� forward� voltage� of� the� Schottky� diode�
�at� the� output� current,� t� D� is� the� diode’s� conduction� time�
�(typically� 110ns),� and� f� is� the� switching� frequency.�
�Transition� Losses�
�PD� TRAN� =� transition� loss� =�
�V� IN� 2� x� C� RSS� x� I� LOAD� x�
�I� DRIVE�
�where� C� RSS� is� the� reverse� transfer� capacitance� of� the�
�high-side� MOSFET� (a� data� sheet� parameter),� f� is� the�
�switching� frequency,� and� I� DRIVE� is� the� peak� current�
�available� from� the� high-side� gate� driver� output� (approx-�
�imately� 1A).�
�Additional� switching� losses� are� introduced� by� other�
�sources� of� stray� capacitance� at� the� switching� node,�
�including� the� catch-diode� capacitance,� coil� interwind-�
�ing� capacitance,� and� low-side� switch� drain� capaci-�
�tance,� and� are� given� as� PD� SW� =� V� IN� 2� x� C� STRAY� x� f,� but�
�these� are� usually� negligible� compared� to� C� RSS� losses.�
�The� low-side� switch� introduces� only� tiny� switching� loss-�
�es,� since� its� drain-source� voltage� is� already� low� when� it�
�turns� on.�
�14�
�______________________________________________________________________________________�
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相关代理商/技术参数 |
参数描述 |
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| MAX767EVKIT-SO | 功能描述:DC/DC 开关控制器 Evaluation Kit for the MAX767 RoHS:否 制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK |
| MAX767RCAP | 功能描述:DC/DC 开关控制器 RoHS:否 制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK |
| MAX767RCAP-T | 功能描述:DC/DC 开关控制器 RoHS:否 制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK |
| MAX767REAP | 功能描述:DC/DC 开关控制器 RoHS:否 制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK |
| MAX767REAP+ | 功能描述:DC/DC 开关控制器 RoHS:否 制造商:Texas Instruments 输入电压:6 V to 100 V 开关频率: 输出电压:1.215 V to 80 V 输出电流:3.5 A 输出端数量:1 最大工作温度:+ 125 C 安装风格: 封装 / 箱体:CPAK |
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