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参数资料
| 型号: | MCP1640EV-SBC |
| 厂商: | Microchip Technology |
| 文件页数: | 13/32页 |
| 文件大小: | 0K |
| 描述: | BOARD EVAL FOR MCP1640 |
| 标准包装: | 1 |
| 主要目的: | DC/DC,步升 |
| 输出及类型: | 1,非隔离 |
| 输出电压: | 2V,3.3V 或 5V |
| 电流 - 输出: | 100mA,350mA |
| 输入电压: | 0.35 ~ 5.5V |
| 稳压器拓扑结构: | 升压 |
| 频率 - 开关: | 500kHz |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | MCP1640 |
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�MCP1640/B/C/D�
�4.2.2�
�PWM-ONLY� MODE� OPERATION�
�4.2.6�
�INTERNAL� BIAS�
�In� normal� PWM� operation,� the� MCP1640/B/C/D�
�operates� as� a� fixed� frequency,� synchronous� boost�
�converter.� The� switching� frequency� is� internally�
�maintained� with� a� precision� oscillator� typically� set� to�
�500� kHz.� The� MCP1640B/D� devices� will� operate� in�
�PWM-Only� mode� even� during� periods� of� light� load�
�operation.� By� operating� in� PWM-Only� mode,� the� output�
�ripple� remains� low� and� the� frequency� is� constant.�
�Operating� in� fixed� PWM� mode� results� in� lower�
�The� MCP1640/B/C/D� gets� its� start-up� bias� from� V� IN� .�
�Once� the� output� exceeds� the� input,� bias� comes� from�
�the� output.� Therefore,� once� started,� operation� is�
�completely� independent� of� V� IN� .� Operation� is� only�
�limited� by� the� output� power� level� and� the� input� source�
�series� resistance.� When� started,� the� output� will� remain�
�in� regulation� down� to� 0.35V� typical� with� 1� mA� output�
�current� for� low� source� impedance� inputs.�
�efficiency� during� light� load� operation� (when� compared�
�4.2.7�
�INTERNAL� COMPENSATION�
�to� PFM� mode� (MCP1640C)).�
�Lossless� current� sensing� converts� the� peak� current� sig-�
�nal� to� a� voltage� to� sum� with� the� internal� slope� compen-�
�sation.� This� summed� signal� is� compared� to� the� voltage�
�error� amplifier� output� to� provide� a� peak� current� control�
�command� for� the� PWM� signal.� The� slope�
�compensation� is� adaptive� to� the� input� and� output�
�voltage.� Therefore,� the� converter� provides� the� proper�
�amount� of� slope� compensation� to� ensure� stability,� but� is�
�not� excessive,� which� causes� a� loss� of� phase� margin.�
�The� error� amplifier,� with� its� associated� compensation�
�network,� completes� the� closed� loop� system� by�
�comparing� the� output� voltage� to� a� reference� at� the�
�input� of� the� error� amplifier,� and� feeding� the� amplified�
�and� inverted� signal� to� the� control� input� of� the� inner�
�current� loop.� The� compensation� network� provides�
�phase� leads� and� lags� at� appropriate� frequencies� to�
�cancel� excessive� phase� lags� and� leads� of� the� power�
�circuit.� All� necessary� compensation� components� and�
�slope� compensation� are� integrated.�
�The� peak� current� limit� is� set� to� 800� mA� typical.�
�4.2.8�
�SHORT� CIRCUIT� PROTECTION�
�4.2.3�
�PFM� MODE� OPERATION�
�Unlike� most� boost� converters,� the� MCP1640/B/C/D�
�The� MCP1640C� devices� are� capable� of� operating� in�
�normal� PWM� mode� and� PFM� mode� to� maintain� high�
�efficiency� at� all� loads.� In� PFM� mode,� the� output� ripple�
�has� a� variable� frequency� component� that� changes� with�
�the� input� voltage� and� output� current.� With� no� load,� the�
�quiescent� current� draw� from� the� output� is� typically�
�19� μA.� The� PFM� mode� can� be� disabled� in� selected�
�allows� its� output� to� be� shorted� during� normal� operation.�
�The� internal� current� limit,� and� overtemperature�
�protection,� limit� excessive� stress� and� protect� the� device�
�during� periods� of� short� circuit,� overcurrent� and� over-�
�temperature.� While� operating� in� Bypass� mode,� the�
�P-Channel� current� limit� is� inhibited� to� minimize�
�quiescent� current.�
�device� options.�
�PFM� operation� is� initiated� if� the� output� load� current� falls�
�4.2.9�
�LOW� NOISE� OPERATION�
�below� an� internally� programmed� threshold.� The� output�
�voltage� is� continuously� monitored.� When� the� output�
�voltage� drops� below� its� nominal� value,� PFM� operation�
�pulses� one� or� several� times� to� bring� the� output� back�
�into� regulation.� If� the� output� load� current� rises� above�
�The� MCP1640/B/C/D� integrates� a� low� noise� anti-ring�
�switch� that� damps� the� oscillations� typically� observed� at�
�the� switch� node� of� a� boost� converter� when� operating� in�
�the� Discontinuous� Inductor� Current� mode.� This�
�removes� the� high� frequency� radiated� noise.�
�the� upper� threshold,� the� MCP1640C� transitions�
�smoothly� into� PWM� mode.�
�4.2.10�
�OVERTEMPERATURE�
�PROTECTION�
�4.2.4�
�ADJUSTABLE� OUTPUT� VOLTAGE�
�Overtemperature� protection� circuitry� is� integrated� into�
�The� MCP1640/B/C/D� output� voltage� is� adjustable� with�
�a� resistor� divider� over� a� 2.0V� minimum� to� 5.5V�
�maximum� range.� High� value� resistors� are�
�recommended� to� minimize� quiescent� current� to� keep�
�efficiency� high� at� light� loads.�
�the� MCP1640/B/C/D.� This� circuitry� monitors� the� device�
�junction� temperature� and� shuts� the� device� off� if� the�
�junction� temperature� exceeds� the� typical� +150� o� C�
�threshold.� If� this� threshold� is� exceeded,� the� device� will�
�automatically� restart� when� the� junction� temperature�
�drops� by� 10� o� C.� The� soft� start� is� reset� during� an�
�4.2.5�
�ENABLE� PIN�
�overtemperature� condition.�
�The� enable� pin� is� used� to� turn� the� boost� converter� on�
�and� off.� The� enable� threshold� voltage� varies� with� input�
�voltage.� To� enable� the� boost� converter,� the� EN� voltage�
�level� must� be� greater� than� 90%� of� the� V� IN� voltage.� To�
�disable� the� boost� converter,� the� EN� voltage� must� be�
�less� than� 20%� of� the� V� IN� voltage.�
�?� 2011� Microchip� Technology� Inc.�
�DS22234B-page� 13�
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