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| 型号: | MCP1630-E/MC |
| 厂商: | Microchip Technology |
| 文件页数: | 12/26页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BST FLYBK ISO 8-DFN |
| 标准包装: | 150 |
| PWM 型: | 电压模式 |
| 输出数: | 1 |
| 频率 - 最大: | 1MHz |
| 占空比: | 75% |
| 电源电压: | 3 V ~ 5.5 V |
| 降压: | 是 |
| 升压: | 是 |
| 回扫: | 是 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 是 |
| 工作温度: | -40°C ~ 125°C |
| 封装/外壳: | 8-VFDFN 裸露焊盘 |
| 包装: | 管件 |
| 配用: | MCP1630DM-LED2-ND - BOARD DEM MCP1630 BOOST MODE LED MCP1630RD-NMC1-ND - REF DESIGN MCP1630 NIMH BATT CHG MCP1630RD-DDBK3-ND - REF DESIGN MCP1630V BI-DIR 4CELL MCP1630DM-DDBK4-ND - BOARD CONV DEMO MCP1630 TRPL-OUT MCP1630DM-DDBS2-ND - BOARD DEMO BOOST COUPLED INDUCTR MCP1630DM-DDBS1-ND - BOARD DEMO BOOST AUTO INPUT MCP1630DM-NMC1-ND - BOARD DEMO FOR MCP1630 |
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�
�MCP1630/MCP1630V�
�4.0�
�4.1�
�DETAILED� DESCRIPTION�
�Device� Overview�
�For� Voltage� mode� or� Average� Current� mode� applica-�
�tions� that� utilize� a� large� signal� ramp� at� the� CS� input,� the�
�MCP1630V� is� used� to� provide� more� signal� (2.7V� typ.).�
�The� MCP1630� is� comprised� of� a� high-speed� compara-�
�The� operation� of� the� PWM� does� not� change.�
�tor,� high-bandwidth� amplifier� and� logic� gates� that� can�
�be� combined� with� a� PICmicro� MCU� to� develop� an�
�advanced� programmable� power� supply.� The� oscillator�
�4.4�
�Error� Amp/Comparator� Current�
�Limit� Function�
�and� reference� voltage� inputs� are� generated� by� the�
�PICmicro� MCU� so� that� switching� frequency,� maximum�
�duty� cycle� and� output� voltage� are� programmable.� Refer�
��The� internal� amplifier� is� used� to� create� an� error� output�
�signal� that� is� determined� by� the� external� V� REF� input� and�
�the� power� supply� output� fed� back� into� the� FB� pin.� The�
�error� amplifier� output� is� rail-to-rail� and� clamped� by� a�
�precision� 2.7V.� The� output� of� the� error� amplifier� is� then�
�4.2�
�PWM�
�divided� down� 3:1� (MCP1630)� and� connected� to� the�
�The� V� EXT� output� of� the� MCP1630/V� is� determined� by�
�the� output� level� of� the� internal� high-speed� comparator�
�and� the� level� of� the� external� oscillator.� When� the� oscil-�
�lator� level� is� high,� the� PWM� output� (V� EXT� )� is� forced� low.�
�When� the� external� oscillator� is� low,� the� PWM� output� is�
�determined� by� the� output� level� of� the� internal� high-�
�speed� comparator.� During� UVLO,� the� V� EXT� pin� is� held�
�in� the� low� state.� During� overtemperature� operation,� the�
�V� EXT� pin� is� high-impedance� (100� k� Ω� to� ground).�
�inverting� input� of� the� high-speed� comparator.� Since� the�
�maximum� output� of� the� error� amplifier� is� 2.7V,� the� max-�
�imum� input� to� the� inverting� pin� of� the� high-speed� com-�
�parator� is� 0.9V.� This� sets� the� peak� current� limit� for� the�
�switching� power� supply.�
�For� the� MCP1630V,� the� maximum� error� amplifier� out-�
�put� is� still� 2.7V.� However,� the� resistor� divider� is�
�removed,� raising� the� maximum� input� signal� level� at� the�
�high-speed� comparator� inverting� input� (CS)� to� 2.7V.�
�4.3�
�Normal� Cycle� by� Cycle� Control�
�As� the� output� load� current� demand� increases,� the� error�
�amplifier� output� increases,� causing� the� inverting� input�
�The� beginning� of� a� cycle� is� defined� when� OSC� IN� tran-�
�sitions� from� a� high� state� to� a� low� state.� For� normal� oper-�
�ation,� the� state� of� the� high-speed� comparator� output�
�(R)� is� low� and� the� Q� output� of� the� latch� is� low.� On� the�
�OSC� IN� high-to-low� transition,� the� S� and� R� inputs� to� the�
�high-speed� latch� are� both� low� and� the� Q� output� will�
�remain� unchanged� (low).� The� output� of� the� OR� gate�
�(V� DRIVE� )� will� transition� from� a� high� state� to� a� low� state,�
�turning� on� the� internal� P-channel� drive� transistor� in� the�
�output� stage� of� the� PWM.� This� will� change� the� PWM�
�output� (V� EXT� )� from� a� low� state� to� a� high� state,� turning�
�on� the� power-train� external� switch� and� ramping� current�
�in� the� power-train� magnetic� device.�
�The� sensed� current� in� the� magnetic� device� is� fed� into�
�the� CS� input� (shown� as� a� ramp)� and� increases� linearly.�
�Once� the� sensed� current� ramp� (MCP1630)� reaches� the�
�pin� of� the� high-speed� comparator� to� increase.�
�Eventually,� the� output� of� the� error� amplifier� will� hit� the�
�2.7V� clamp,� limiting� the� input� of� the� high-speed� com-�
�parator� to� 0.9V� max� (MCP1630).� Even� if� the� FB� input�
�continues� to� decrease� (calling� for� more� current),� the�
�inverting� input� is� limited� to� 0.9V.� By� limiting� the� inverting�
�input� to� 0.9V,� the� current-sense� input� (CS)� is� limited� to�
�0.9V,� thus� limiting� the� output� current� of� the� power�
�supply.�
�For� Voltage� mode� control,� the� error� amplifier� output� will�
�increase� as� input� voltage� decreases.� A� voltage� ramp� is�
�used� instead� of� sensed� inductor� current� at� the� CS� input�
�of� the� MCP1630V.� The� 3:1� internal� error� amplifier� out-�
�put� resistor� divider� is� removed� in� the� MCP1630V� option�
�to� increase� the� maximum� signal� level� input� to� 2.7V�
�(typ.).�
�same� voltage� level� as� 1/3� of� the� EA� output,� the� compar-�
�ator� output� (R)� changes� states� (low-to-high)� and� resets�
�4.5�
�0%� Duty� Cycle� Operation�
�the� PWM� latch.� The� Q� output� transitions� from� a� low�
�state� to� a� high� state,� turning� on� the� N-channel� MOSFET�
�in� the� output� stage,� which� turns� off� the� V� EXT� drive� to� the�
�external� MOSFET� driver� terminating� the� duty� cycle.�
�The� OSC� IN� will� transition� from� a� low� state� to� a� high�
�state� while� the� V� EXT� pin� remains� unchanged.� If� the� CS�
�input� ramp� had� never� reached� the� same� level� as� 1/3� of�
�the� error� amplifier� output,� the� low-to-high� transition� on�
�OSC� IN� would� terminate� the� duty� cycle� and� this� would�
�be� considered� maximum� duty� cycle.� In� either� case,�
�while� OSC� IN� is� high,� the� V� EXT� drive� pin� is� low,� turning�
�off� the� external� power-train� switch.� The� next� cycle� will�
�start� on� the� transition� of� the� OSC� IN� pin� from� a� high�
�state� to� a� low� state.�
�DS21896B-page� 12�
�The� duty� cycle� of� the� V� EXT� output� is� capable� of� reach-�
�ing� 0%� when� the� FB� pin� is� held� higher� than� the� V� REF� pin�
�(inverting� error� amplifier).� This� is� accomplished� by� the�
�rail-to-rail� output� capability� of� the� error� amplifier� and� the�
�offset� voltage� of� the� high-speed� comparator.� The� mini-�
�mum� error� amplifier� output� voltage,� divided� by� three,� is�
�less� than� the� offset� voltage� of� the� high-speed� compar-�
�ator.� In� the� case� where� the� output� voltage� of� the� con-�
�verter� is� above� the� desired� regulation� point,� the� FB�
�input� will� be� above� the� V� REF� input� and� the� error� ampli-�
�fier� will� be� pulled� to� the� bottom� rail� (GND).� This� low�
�voltage� is� divided� down� 3:1� by� the� 2R� and� 1R� resistor�
�(MCP1630)� and� connected� to� the� input� of� the� high-�
�speed� comparator.� This� voltage� will� be� low� enough� so�
�that� there� is� no� triggering� of� the� comparator,� allowing�
�narrow� pulse� widths� at� V� EXT� .�
�?� 2005� Microchip� Technology� Inc.�
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