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参数资料
| 型号: | ADP1870ARMZ-1.0-R7 |
| 厂商: | Analog Devices Inc |
| 文件页数: | 23/44页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM CM 10-MSOP |
| 标准包装: | 1 |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 1MHz |
| 占空比: | 45% |
| 电源电压: | 2.95 V ~ 20 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 ~ 125°C |
| 封装/外壳: | 10-TFSOP,10-MSOP(0.118",3.00mm 宽) |
| 包装: | 标准包装 |
| 其它名称: | ADP1870ARMZ-1.0-R7DKR |
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��
�
�Data� Sheet�
�ADP1870/ADP1871�
�t� ON�
�C�
�SW�
�INFORMATION�
�VREG�
�I�
�R� (TRIMMED)�
�V� IN�
�To� illustrate� this� feature� more� clearly,� this� section� describes�
�one� such� load� transient� event—a� positive� load� step—in� detail.�
�During� load� transient� events,� the� high-side� driver� output� pulse�
�width� stays� relatively� consistent� from� cycle� to� cycle;� however,�
�the� off-time� (DRVL� on-time)� dynamically� adjusts� according� to�
�the� instantaneous� changes� in� the� external� conditions� mentioned.�
�When� a� positive� load� step� occurs,� the� error� amplifier� (out� of� phase�
�of� the� output,� V� OUT� )� produces� new� voltage� information� at� its� output�
�Figure� 77.� Constant� On-Time� Time�
�The� constant� on-time� (t� ON� )� is� not� strictly� “constant”� because� it�
�varies� with� V� IN� and� V� OUT� .� However,� this� variation� occurs� in� such�
�a� way� as� to� keep� the� switching� frequency� virtually� independent�
�of� V� IN� and� V� OUT� .�
�The� t� ON� timer� uses� a� feedforward� technique,� applied� to� the� constant�
�on-time� control� loop,� making� it� a� pseudo-fixed� frequency� to� a� first�
�order.� Second-order� effects,� such� as� dc� losses� in� the� external� power�
�MOSFETs� (see� the� Efficiency� Consideration� section),� cause� some�
�variation� in� frequency� vs.� load� current� and� line� voltage.� These�
�effects� are� shown� in� Figure� 23� to� Figure� 34.� The� variations� in�
�frequency� are� much� reduced� compared� with� the� variations�
�generated� when� the� feedforward� technique� is� not� utilized.�
�The� feedforward� technique� establishes� the� following� relationship:�
�(COMP).� In� addition,� the� current-sense� amplifier� senses� new�
�inductor� current� information� during� this� positive� load� transient�
�event.� The� error� amplifier’s� output� voltage� reaction� is� compared�
�with� the� new� inductor� current� information� that� sets� the� start� of�
�the� next� switching� cycle.� Because� current� information� is� produced�
�from� valley� current� sensing,� it� is� sensed� at� the� down� ramp� of� the�
�inductor� current,� whereas� the� voltage� loop� information� is� sensed�
�through� the� counter� action� upswing� of� the� error� amplifier’s�
�output� (COMP).�
��which� allows� an� instantaneous� increase� in� switching� frequency�
�during� the� positive� load� transient� event.� In� summary,� a� positive�
�load� step� causes� V� OUT� to� transient� down,� which� causes� COMP� to�
�transient� up� and� therefore� shortens� the� off-time.� This� resulting�
�increase� in� frequency� during� a� positive� load� transient� helps� to�
�f� SW� ?�
�1�
�K�
�quickly� bring� V� OUT� back� up� in� value� and� within� the� regulation�
�window.�
�where� f� SW� is� the� controller� switching� frequency� (300� kHz,�
�600� kHz,� and� 1.0� MHz).�
�The� t� ON� timer� senses� V� IN� and� V� OUT� to� minimize� frequency�
�variation� as� previously� explained.� This� provides� a� pseudo-fixed�
�frequency� as� explained� in� the� Pseudo-Fixed� Frequency� section.�
�To� allow� headroom� for� V� IN� and� V� OUT� sensing,� adhere� to� the�
�following� equations:�
�V� REG� ≥� V� IN� /8� +� 1.5�
�V� REG� ≥� V� OUT� /4�
�For� typical� applications� where� V� REG� is� 5� V,� these� equations� are�
�not� relevant;� however,� for� lower� V� REG� inputs,� care� may� be�
�required.�
�PSEUDO-FIXED� FREQUENCY�
�The� ADP1870/ADP1871� employ� a� constant� on-time� control�
�scheme.� During� steady� state� operation,� the� switching� frequency�
�stays� relatively� constant,� or� pseudo-fixed.� This� is� due� to� the� one-�
�shot� t� ON� timer� that� produces� a� high-side� PWM� pulse� with� a�
�“fixed”� duration,� given� that� external� conditions� such� as� input�
�Similarly,� a� negative� load� step� causes� the� off-time� to� lengthen� in�
�response� to� V� OUT� rising.� This� effectively� increases� the� inductor�
�demagnetizing� phase,� helping� to� bring� V� OUT� within� regulation.�
�In� this� case,� the� switching� frequency� decreases,� or� experiences� a�
�foldback,� to� help� facilitate� output� voltage� recovery.�
�Because� the� ADP1870/ADP1871� has� the� ability� to� respond� rapidly�
�to� sudden� changes� in� load� demand,� the� recovery� period� in� which�
�the� output� voltage� settles� back� to� its� original� steady� state� operating�
�point� is� much� quicker� than� it� would� be� for� a� fixed-frequency�
�equivalent� .� Therefore,� using� a� pseudo-fixed� frequency� results� in�
�significantly� better� load� transient� performance� than� using� a�
�fixed� frequency.�
�LOAD� CURRENT�
�DEMAND�
�CS� AMP�
�OUTPUT�
�voltage,� output� voltage,� and� load� current� are� also� at� steady� state.�
�During� load� transients,� the� frequency� momentarily� changes� for�
�ERROR� AMP�
�OUTPUT�
�VALLEY�
�TRIP� POINTS�
�the� duration� of� the� transient� event� so� that� the� output� comes�
�PWM� OUTPUT�
�f� SW�
�>� f� SW�
�back� within� regulation� more� quickly� than� if� the� frequency� were�
�fixed� or� if� it� were� to� remain� unchanged.� After� the� transient�
�event� is� complete,� the� frequency� returns� to� a� pseudo-fixed�
�frequency� value� to� a� first� order.�
�Rev.� B� |� Page� 23� of� 44�
�Figure� 78.� Load� Transient� Response� Operation�
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相关代理商/技术参数 |
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