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| 型号: | ADP2102-1.2-EVALZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 13/24页 |
| 文件大小: | 0K |
| 描述: | BOARD EVAL FOR 1.2V ADP2102 |
| 产品培训模块: | ADP2102 DSP Battery Life Applications |
| 标准包装: | 1 |
| 主要目的: | DC/DC,步降 |
| 输出及类型: | 1,非隔离 |
| 输出电压: | 1.2V |
| 电流 - 输出: | 600mA |
| 输入电压: | 2.7 ~ 5.5 V |
| 稳压器拓扑结构: | 降压 |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | ADP2102 |
| 产品目录页面: | 791 (CN2011-ZH PDF) |
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��ADP2102�
�THEORY� OF� OPERATION�
�The� ADP2102� is� a� high� frequency,� synchronous� step-down,�
�dc-to-dc� converter� optimized� for� battery-powered,� portable�
�applications.� It� is� based� on� constant� on-time� current-mode�
�control� architecture� with� voltage� feed� forward� to� null� frequency�
�variation� with� line� voltage,� creating� a� pseudofixed� frequency.�
�This� type� of� control� allows� generation� of� very� low� output� voltages�
�at� a� higher� switching� frequency� and� offers� a� very� fast� load� and�
�line� transient� response� with� minimal� external� component� count�
�and� size.� The� ADP2102� provides� features� such� as� undervoltage�
�lockout,� thermal� shutdown,� and� short-circuit� protection.�
�The� ADP2102� uses� valley� current-mode� control,� which� helps� to�
�prevent� minimum� on-time� limitations� at� very� low� output� voltages.�
�This� allows� high� frequency� operation,� resulting� in� low� filter�
�inductor� and� capacitor� values.�
�CONTROL� SCHEME�
�The� ADP2102� high-side� power� switch� on-time� is� determined� by�
�a� one-shot� timer� whose� pulse� width� is� directly� proportional� to�
�the� output� voltage� and� inversely� proportional� to� the� input� or�
�line� voltage.� Another� one-shot� timer� sets� a� minimum� off� time� to�
�allow� for� inductor� valley� current� sensing.�
�The� constant� on-time,� one-shot� timer� is� triggered� at� the� rising�
�edge� of� EN� and,� subsequently,� when� the� low-side� power� switch�
�current� is� below� the� valley� current� limit� threshold� and� the�
�minimum� off-time� one-shot� timer� has� timed� out.�
�While� the� constant� on-time� is� asserted,� the� high-side� power�
�switch� is� turned� on.� This� causes� the� inductor� current� to� ramp�
�positively.� After� the� constant� on-time� has� completed,� the� high-�
�side� power� switch� turns� off� and� the� low-side� power� switch� turns�
�on.� This� causes� the� inductor� current� to� ramp� negatively� until�
�the� sensed� current� flowing� in� this� switch� has� reached� valley�
�current� limit.� At� this� point,� the� low-side� power� switch� turns� off�
�and� a� new� cycle� begins� with� the� high-side� switch� turning� on,�
�provided� that� the� minimum� off-time� one� shot� has� timed� out.�
�CONSTANT� ON-TIME� TIMER�
�The� constant� on-time� timer� sets� the� high-side� switch� on-time.�
�This� fast,� low� jitter,� adjustable� one� shot� varies� the� on-time� in�
�response� to� input� voltage� for� a� given� output� voltage.� The� high-�
�side� switch� on-time� is� inversely� proportional� to� the� input�
�voltage� and� directly� proportional� to� the� output� voltage.�
�t� ON� =� K� (� V� OUT� /� V� IN� )� (1)�
�Equating� Equation� 1� and� Equation� 2� gives�
�f� SW� =� 1/� K� (3)�
�where� K� is� an� internally� set� on-time� scale� factor� constant� resulting�
�in� a� constant� switching� frequency.�
�As� shown� in� Equation� 1,� the� steady� state� switching� frequency�
�is� theoretically� independent� of� both� the� input� and� output� voltages�
�to� a� first� order.� This� means� the� loop� switches� at� a� nearly� constant�
�frequency� until� a� load� step� occurs.�
�When� a� load� step� occurs,� the� constant� on-time� control� loop�
�responds� by� modulating� the� off� time� up� or� down� to� quickly�
�return� to� regulation.� This� momentary� frequency� variation�
�results� in� a� faster� load� transient� response� than� a� fixed� frequency�
�current-mode� control� loop� of� similar� bandwidth� with� a� similar�
�external� filter� inductor� and� capacitor.� This� is� an� advantage� of�
�a� constant� on-time� control� scheme.�
�Resistive� voltage� losses� in� the� high-side� and� low-side� power�
�switches,� package� parasitics,� inductor� DCR,� and� board� parasitic�
�resistance� cause� the� loop� to� compensate� by� reducing� the� off� time�
�and,� therefore,� increase� the� switching� frequency� with� increasing�
�load� current.�
�A� minimum� off-time� constraint� is� introduced� to� allow� inductor�
�valley� current� sensing� on� the� synchronous� switch.�
�FORCED� CONTINUOUS� CONDUCTION� MODE�
�When� the� MODE� pin� is� high,� the� ADP2102� operates� in� forced�
�continuous� conduction� mode� (CCM).� In� this� mode,� irrespective�
�of� the� load� current,� the� inductor� current� stays� continuous,� and�
�CCM� is� the� preferred� mode� of� operation� for� low� noise� applications.�
�During� this� mode,� the� switching� frequency� stays� close� to� 3� MHz�
�typical.� In� this� mode,� efficiency� is� lower� at� light� loads,� compared� to�
�the� power� save� mode,� but� the� output� voltage� ripple� is� minimized.�
�POWER� SAVE� MODE�
�When� the� MODE� pin� is� low,� the� ADP2102� operates� in� power�
�save� mode� (PSM).� In� this� mode,� at� light� load� currents,� the� part�
�automatically� goes� into� reduced� frequency� operation� where�
�some� pulses� are� skipped� to� increase� efficiency� while� remaining�
�in� regulation.� At� light� loads,� a� zero-crossing� comparator�
�truncates� the� low-side� switch� on-time� when� the� inductor�
�current� becomes� negative.� In� this� condition,� the� part� works� in�
�discontinuous� conduction� mode� (DCM).� The� threshold� between�
�CCM� and� DCM� is� approximately�
�The� duty� cycle� for� a� buck� converter� operating� in� continuous�
�conduction� mode� (CCM)� is� given� by� D� =� V� OUT� /V� IN� and,� by�
�definition,� D� =� t� ON� /(t� ON� +� t� OFF� ).� Therefore,� equating� the� duty� cycle�
�I� LOAD� (skip)� =�
�(� V� IN� ?� V� OUT� )� � V� OUT�
�2� � L� � V� IN� � f� SW�
�(4)�
�terms� of� V� OUT� /V� IN� and� t� ON� /(t� ON� +� t� OFF� )� gives�
�There� is� a� first-order� dependency� of� this� threshold� on� the� internally�
�t� ON� =� V� OUT� /(� V� IN� � f� SW� )�
�(2)�
�set� on-time� scale� factor� indicated� in� Equation� 3.� For� higher� load�
�currents,� the� inductor� current� does� not� cross� zero� threshold.� The�
�device� switches� to� the� continuous� conduction� mode,� and� the�
�frequency� is� fixed� to� the� nominal� value.�
�Rev.� B� |� Page� 13� of� 24�
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相关代理商/技术参数 |
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| ADP2102-1-EVALZ | 功能描述:BOARD EVAL 0.8V-1.2V ADJ OUTPUT RoHS:是 类别:编程器,开发系统 >> 评估板 - DC/DC 与 AC/DC(离线)SMPS 系列:- 产品培训模块:Obsolescence Mitigation Program 标准包装:1 系列:True Shutdown™ 主要目的:DC/DC,步升 输出及类型:1,非隔离 功率 - 输出:- 输出电压:- 电流 - 输出:1A 输入电压:2.5 V ~ 5.5 V 稳压器拓扑结构:升压 频率 - 开关:3MHz 板类型:完全填充 已供物品:板 已用 IC / 零件:MAX8969 |
| ADP2102-2-EVALZ | 功能描述:BOARD EVAL 1.2V-1.5V ADJ OUTPUT RoHS:是 类别:编程器,开发系统 >> 评估板 - DC/DC 与 AC/DC(离线)SMPS 系列:- 产品培训模块:Obsolescence Mitigation Program 标准包装:1 系列:True Shutdown™ 主要目的:DC/DC,步升 输出及类型:1,非隔离 功率 - 输出:- 输出电压:- 电流 - 输出:1A 输入电压:2.5 V ~ 5.5 V 稳压器拓扑结构:升压 频率 - 开关:3MHz 板类型:完全填充 已供物品:板 已用 IC / 零件:MAX8969 |
| ADP2102-3-EVALZ | 功能描述:BOARD EVAL 1.5V-1.875V ADJ OUTPT RoHS:是 类别:编程器,开发系统 >> 评估板 - DC/DC 与 AC/DC(离线)SMPS 系列:- 产品培训模块:Obsolescence Mitigation Program 标准包装:1 系列:True Shutdown™ 主要目的:DC/DC,步升 输出及类型:1,非隔离 功率 - 输出:- 输出电压:- 电流 - 输出:1A 输入电压:2.5 V ~ 5.5 V 稳压器拓扑结构:升压 频率 - 开关:3MHz 板类型:完全填充 已供物品:板 已用 IC / 零件:MAX8969 |
| ADP2102-4-EVALZ | 功能描述:BOARD EVAL 2.5V-3.3V ADJ OUTPUT RoHS:是 类别:编程器,开发系统 >> 评估板 - DC/DC 与 AC/DC(离线)SMPS 系列:- 产品培训模块:Obsolescence Mitigation Program 标准包装:1 系列:True Shutdown™ 主要目的:DC/DC,步升 输出及类型:1,非隔离 功率 - 输出:- 输出电压:- 电流 - 输出:1A 输入电压:2.5 V ~ 5.5 V 稳压器拓扑结构:升压 频率 - 开关:3MHz 板类型:完全填充 已供物品:板 已用 IC / 零件:MAX8969 |
| ADP2102A-EVALZ | 制造商:Analog Devices 功能描述:ADJ OUTPUT FROM 0.8V-1.2V - Bulk |
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