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参数资料
| 型号: | LTC3850IGN-2#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 20/36页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM CM 28-SSOP |
| 产品培训模块: | LTC3850 Dual Output DC/DC Switching Regulator Controller |
| 标准包装: | 2,500 |
| 系列: | PolyPhase® |
| PWM 型: | 电流模式 |
| 输出数: | 2 |
| 频率 - 最大: | 860kHz |
| 占空比: | 97.2% |
| 电源电压: | 4 V ~ 30 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: | -40°C ~ 85°C |
| 封装/外壳: | 28-SSOP(0.154",3.90mm 宽) |
| 包装: | 带卷 (TR) |
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�LTC3850-2�
�APPLICATIONS� INFORMATION�
�Topside� MOSFET� Driver� Supply� (C� B� ,� DB)�
�External� bootstrap� capacitors� C� B� connected� to� the� BOOST�
�pins� supply� the� gate� drive� voltages� for� the� topside� MOSFETs.�
�Capacitor� C� B� in� the� Functional� Diagram� is� charged� though�
�external� diode� DB� from� INTV� CC� when� the� SW� pin� is� low.�
�When� one� of� the� topside� MOSFETs� is� to� be� turned� on,�
�the� driver� places� the� C� B� voltage� across� the� gate� source�
�of� the� desired� MOSFET.� This� enhances� the� MOSFET� and�
�turns� on� the� topside� switch.� The� switch� node� voltage,� SW,�
�rises� to� V� IN� and� the� BOOST� pin� follows.� With� the� topside�
�MOSFET� on,� the� boost� voltage� is� above� the� input� supply:�
�V� BOOST� =� V� IN� +� V� INTVCC� .� The� value� of� the� boost� capacitor�
�C� B� needs� to� be� 100� times� that� of� the� total� input� capa-�
�citance� of� the� topside� MOSFET(s).� The� reverse� break-�
�down� of� the� external� Schottky� diode� must� be� greater�
�than� V� IN(MAX)� .� When� adjusting� the� gate� drive� level,� the�
�?nal� arbiter� is� the� total� input� current� for� the� regulator.� If�
�a� change� is� made� and� the� input� current� decreases,� then�
�the� ef?ciency� has� improved.� If� there� is� no� change� in� input�
�current,� then� there� is� no� change� in� ef?ciency.�
�C� IN� and� C� OUT� Selection�
�The� selection� of� C� IN� is� simpli?ed� by� the� 2-phase� architec-�
�ture� and� its� impact� on� the� worst-case� RMS� current� drawn�
�through� the� input� network� (battery/fuse/capacitor).� It� can� be�
�shown� that� the� worst-case� capacitor� RMS� current� occurs�
�when� only� one� controller� is� operating.� The� controller� with�
�the� highest� (V� OUT� )(I� OUT� )� product� needs� to� be� used� in� the�
�formula� below� to� determine� the� maximum� RMS� capacitor�
�current� requirement.� Increasing� the� output� current� drawn�
�from� the� other� controller� will� actually� decrease� the� input�
�RMS� ripple� current� from� its� maximum� value.� The� out-of-�
�phase� technique� typically� reduces� the� input� capacitor’s� RMS�
�ripple� current� by� a� factor� of� 30%� to� 70%� when� compared�
�to� a� single� phase� power� supply� solution.�
�In� continuous� mode,� the� source� current� of� the� top� MOSFET�
�is� a� square� wave� of� duty� cycle� (V� OUT� )/(V� IN� ).� To� prevent�
�large� voltage� transients,� a� low� ESR� capacitor� sized� for� the�
�maximum� RMS� current� of� one� channel� must� be� used.� The�
�maximum� RMS� capacitor� current� is� given� by:�
�Undervoltage� Lockout�
�C� IN� Required� I� RMS� ≈�
�I� MAX�
�V� IN�
�??� (� V� OUT� )� (� V� IN� –� V� OUT� )� ??�
�1/2�
�The� LTC3850-2� has� two� functions� that� help� protect� the�
�controller� in� case� of� undervoltage� conditions.� A� precision�
�UVLO� comparator� constantly� monitors� the� INTV� CC� voltage�
�to� ensure� that� an� adequate� gate-drive� voltage� is� present.�
�It� locks� out� the� switching� action� when� INTV� CC� is� below�
�3V.� To� prevent� oscillation� when� there� is� a� disturbance� on�
�the� INTV� CC� ,� the� UVLO� comparator� has� 500mV� of� preci-�
�sion� hysteresis.�
�Another� way� to� detect� an� undervoltage� condition� is� to�
�monitor� the� V� IN� supply.� Because� the� RUN� pins� have� a�
�precision� turn-on� reference� of� 1.2V,� one� can� use� a� resistor�
�divider� to� V� IN� to� turn� on� the� IC� when� V� IN� is� high� enough.�
�An� extra� 4.5μA� of� current� ?ows� out� of� the� RUN� pin� once�
�the� RUN� pin� voltage� passes� 1.2V.� One� can� program� the�
�hysteresis� of� the� run� comparator� by� adjusting� the� values�
�of� the� resistive� divider.� For� accurate� V� IN� undervoltage�
�detection,� V� IN� needs� to� be� higher� than� 4V.�
�This� formula� has� a� maximum� at� V� IN� =� 2V� OUT� ,� where� I� RMS�
�=� I� OUT� /2.� This� simple� worst-case� condition� is� commonly�
�used� for� design� because� even� signi?cant� deviations� do� not�
�offer� much� relief.� Note� that� capacitor� manufacturers’� ripple�
�current� ratings� are� often� based� on� only� 2000� hours� of� life.�
�This� makes� it� advisable� to� further� derate� the� capacitor,� or�
�to� choose� a� capacitor� rated� at� a� higher� temperature� than�
�required.� Several� capacitors� may� be� paralleled� to� meet�
�size� or� height� requirements� in� the� design.� Due� to� the� high�
�operating� frequency� of� the� LTC3850-2,� ceramic� capacitors�
�can� also� be� used� for� C� IN� .� Always� consult� the� manufacturer�
�if� there� is� any� question.�
�The� bene?t� of� the� LTC3850-2� 2-phase� operation� can� be�
�calculated� by� using� the� equation� above� for� the� higher�
�power� controller� and� then� calculating� the� loss� that� would�
�have� resulted� if� both� controller� channels� switched� on� at�
�the� same� time.� The� total� RMS� power� lost� is� lower� when�
�38502f�
�20�
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