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参数资料
| 型号: | MAX8833ETJ+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 8/20页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK ADJ 3A DL 32TQFN |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,500 |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 2 |
| 输出电压: | 0.6 V ~ 3.24 V |
| 输入电压: | 2.35 V ~ 3.6 V |
| PWM 型: | 电压模式 |
| 频率 - 开关: | 1MHz ~ 2MHz |
| 电流 - 输出: | 3A |
| 同步整流器: | 无 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 32-WFQFN 裸露焊盘 |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | 32-TQFN-EP(5x5) |
��
�
�Dual,� 3A,� 2MHz� Step-Down� Regulator�
�Pin� Description� (continued)�
�PIN�
�27,� 28�
�29�
�30�
�31�
�32�
�—�
�NAME�
�IN1�
�EN1�
�COMP1�
�FB1�
�SS1�
�EP�
�FUNCTION�
�Power-Supply� Input� for� Regulator� 1.� The� voltage� range� is� 2.35V� to� 3.6V.� Connect� two� 10μF� and� one� 0.1μF�
�ceramic� capacitors� from� IN1� to� PGND1.�
�Enable� Input� for� Regulator� 1.� Drive� EN1� high� to� enable� regulator� 1,� or� low� for� shutdown.� For� always-on�
�operation,� connect� EN1� to� V� DD� .�
�Compensation� for� Regulator� 1.� COMP1� is� the� output� of� the� internal� voltage-error� amplifier.� Connect� external�
�compensation� network� from� COMP1� to� FB1.� See� the� Compensation� Design� section.� COMP1� is� internally�
�pulled� to� GND� when� the� output� is� shut� down.�
�Feedback� Input� for� Regulator� 1.� Connect� FB1� to� the� center� of� an� external� resistor-divider� from� the� output� to�
�GND� to� set� the� output� voltage� from� 0.6V� to� 90%� of� V� IN1� .� FB1� is� high� impedance� when� the� IC� is� shut� down.�
�Soft-Start� for� Regulator� 1.� Connect� a� capacitor� from� SS1� to� GND� to� set� the� startup� time.� See� the� Setting� the�
�Soft-Start� Time� section.� When� E1� is� disabled� (pulled� low),� or� regulator� 1� is� in� shutdown� mode� due� to� a� fault�
�condition,� SS1� is� internally� pulled� low� with� 335� Ω� resistor.�
�Exposed� Pad.� Connect� the� exposed� pad� to� the� power� ground� plane.�
�Detailed� Description�
�PWM� Controller�
�The� controller� logic� block� is� the� central� processor� that�
�determines� the� duty� cycle� of� the� high-side� MOSFET�
�under� different� line,� load,� and� temperature� conditions.�
�Under� normal� operation,� where� the� current-limit� and�
�temperature� protection� are� not� triggered,� the� control�
�logic� block� takes� the� output� from� the� PWM� comparator�
�and� generates� the� driver� signals� for� both� high-side� and�
�low-side� MOSFETs.� It� also� contains� the� break-before-�
�make� logic� and� the� timing� for� charging� the� bootstrap�
�capacitors.� The� error� signal� from� the� voltage-error� ampli-�
�fier� is� compared� with� the� ramp� signal� generated� by� the�
�oscillator� at� the� PWM� comparator� and,� thus,� the� required�
�PWM� signal� is� produced.� The� high-side� switch� is� turned�
�on� at� the� beginning� of� the� oscillator� cycle� and� turns� off�
�when� the� ramp� voltage� exceeds� the� V� COMP_� signal� or�
�the� current-limit� threshold� is� exceeded.� The� low-side�
�switch� is� then� turned� on� for� the� remainder� of� the� oscilla-�
�tor� cycle.� The� two� switching� regulators� operate� at� the�
�same� switching� frequency� with� 180°� phase� shift� to�
�reduce� the� input-capacitor� ripple� current� requirement.�
�Figure� 1� shows� the� MAX8833� functional� diagram.�
�Current� Limit�
�The� MAX8833� provides� both� peak� and� valley� current� limits�
�to� achieve� robust� short-circuit� protection.� During� the�
�high-side� MOSFET’s� on-time,� if� the� drain-source� current�
�reaches� the� peak� current-limit� threshold� (specified� in�
�the� Electrical� Characteristics� table),� the� high-side� MOS-�
�FET� turns� off� and� the� low-side� MOSFET� turns� on,� allow-�
�ing� the� current� to� ramp� down.� At� the� next� clock,� the�
�high-side� MOSFET� is� turned� on� only� if� the� inductor� cur-�
�rent� is� below� the� valley� current� limit.� Otherwise,� the� PWM�
�cycle� is� skipped� to� continue� ramping� down� the� inductor�
�current.� When� the� inductor� current� stays� above� the� valley�
�current� limit� for� 12μs� and� the� FB_� is� below� 0.7� x� V� REFIN� ,�
�the� regulator� enters� hiccup� mode.� During� hiccup� mode,�
�the� SS_� capacitor� is� discharged� to� zero� and� the� soft-start�
�sequence� begins� after� a� predetermined� time� period.�
�Undervoltage� Lockout� (UVLO)�
�When� the� V� DD� supply� voltage� drops� below� the� falling�
�undervoltage� threshold� (typically� 1.9V),� the� MAX8833�
�enters� its� undervoltage� lockout� mode� (UVLO).� UVLO�
�forces� the� device� to� a� dormant� state� until� the� input� voltage�
�is� high� enough� to� allow� the� device� to� function� reliably.� In�
�UVLO,� LX_� nodes� of� both� regulators� are� in� the� high-�
�impedance� state.� PWRGD1� and� PWRGD2� are� forced� low�
�in� UVLO.� When� V� VDD� rises� above� the� rising� undervoltage�
�threshold� (typically� 2V),� the� IC� powers� up� normally� as�
�described� in� the� Startup� and� Sequencing� section.�
�The� UVLO� circuitry� also� monitors� the� IN1� and� IN2� sup-�
�plies.� When� the� IN_� voltage� drops� below� the� falling�
�undervoltage� threshold� (typically� 1.9V),� the� correspond-�
�ing� regulator� shuts� down,� and� corresponding� PWRGD_�
�goes� low.� The� regulator� powers� up� when� V� IN_� rises�
�above� the� rising� undervoltage� threshold� (typically� 2V).�
�Power-Good� Output� (PWRGD_)�
�PWRGD1� and� PWRGD2� are� open-drain� outputs� that�
�indicate� when� the� corresponding� output� is� in� regulation.�
�PWRGD1� is� high� impedance� when� V� REFIN� ≥� 0.54V� and�
�V� FB1� ≥� 0.9� x� V� REFIN� .� PWRGD1� is� low� when� V� REFIN� <�
�0.54V,� EN1� is� low,� V� VDD� or� V� IN1� is� below� V� UVLO� ,� the�
�thermal-overload� protection� is� activated,� or� when� V� FB1�
�<� 0.9� x� V� REFIN� .�
�8�
�_______________________________________________________________________________________�
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