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参数资料
| 型号: | ADP1877HC-EVALZ |
| 厂商: | Analog Devices Inc |
| 文件页数: | 13/32页 |
| 文件大小: | 0K |
| 描述: | BOARD EVALUATION 13A ADP1877 |
| 标准包装: | 1 |
| 主要目的: | DC/DC,步降 |
| 输出及类型: | 2,非隔离 |
| 输出电压: | 1.05V,1.8V |
| 电流 - 输出: | 13A |
| 输入电压: | 6 ~ 14 V |
| 稳压器拓扑结构: | 降压 |
| 频率 - 开关: | 600kHz |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | ADP1877 |
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��Data� Sheet�
�THEORY� OF� OPERATION�
�The� ADP1877� is� a� current� mode� (using� ADI� proprietary�
�Flex-Mode� architecture),� dual-channel,� step-down� switching�
�controller� with� integrated� MOSFET� drivers� that� drive� N-channel�
�synchronous� power� MOSFETs.� The� two� outputs� are� phase� shifted�
�180°.� This� reduces� the� input� RMS� current,� thus� minimizing�
�required� input� capacitance.�
�The� ADP1877� can� be� set� to� operate� in� pulse� skip� high� efficiency�
�mode� under� light� load� or� in� forced� PWM.� The� integrated� boost�
�diodes� in� the� ADP1877� reduce� the� overall� system� cost� and�
�component� count.� The� ADP1877� includes� programmable� soft�
�start,� output� overvoltage� protection,� programmable� current�
�limit,� power� good,� and� tracking� function.� The� ADP1877� can� be�
�set� to� operate� in� any� switching� frequency� between� 200� kHz� and�
�1.5� MHz� with� one� external� resistor.�
�CONTROL� ARCHITECTURE�
�The� ADP1877 is based on a fixed frequency current mode�
�PWM� control� architecture.� The� inductor� current� is� sensed� by�
�the� voltage� drop� measured� across� the� external� low-side� MOSFET�
�ADP1877�
�benefits� of� using� current� mode� control� scheme� still� apply,� such�
�as� simplicity� of� loop� compensation.� Control� logic� enforces�
�antishoot-through� operation� to� limit� cross� conduction� of� the�
�internal� drivers� and� external� MOSFETs.�
�OSCILLATOR� FREQUENCY�
�The� internal� oscillator� frequency,� which� ranges� from� 200� kHz� to�
�1.5� MHz,� is� set� by� an� external� resistor,� R� FREQ� ,� at� the� FREQ� pin.�
�Some� popular� f� OSC� values� are� shown� in� Table� 4,� and� a� graphical�
�relationship� is� shown� in� Figure� 24.� For� instance,� a� 78.7� k�
�resistor� sets� the� oscillator� frequency� to� 800� kHz.� Furthermore,�
�connecting� FREQ� to� AGND� or� FREQ� to� VCCO� sets� the�
�oscillator� frequency� to� 300� kHz� or� 600� kHz,� respectively.� For�
�other� frequencies� that� are� not� listed� in� Table� 4,� the� values� of�
�R� FREQ� and� f� OSC� can� be� obtained� from� Figure� 24,� or� use� the�
�following� empirical� formula� to� calculate� these� values:�
�R� FREQ� (� k� Ω� )� =� 96568� ×� f� OSC� (� kHz� )� ?� 1� .� 065�
�Table� 4.� Setting� the� Oscillator� Frequency�
�R� DSON� during� the� off� period� of� the� switching� cycle� (valley� inductor�
�current).� The� current� sense� signal� is� further� processed� by� the�
�current� sense� amplifier.� The� output� of� the� current� sense� amplifier� is�
�held,� and� the� emulated� current� ramp� is� multiplexed� and� fed� into�
�the� PWM� comparator� as� shown� in� Figure� 23.� The� valley� current�
�information� is� captured� at� the� end� of� the� off� period,� and� the�
�emulated� current� ramp� is� applied� at� that� point� when� the� next� on�
�cycle� begins.� An� error� amplifier� integrates� the� error� between� the�
�feedback� voltage� and� the� generated� the� error� voltage� from� the�
�COMP� pin� (from� error� amp� in� Figure� 23).�
�R� FREQ�
�332� k�
�78.7� k�
�60.4� k�
�51� k�
�40.2� k�
�FREQ� to� AGND�
�FREQ� to� VCCO�
�410�
�f� OSC� (Typical)�
�200� kHz�
�800� kHz�
�1000� kHz�
�1200� kHz�
�1500� kHz�
�300� kHz�
�600� kHz�
�I� RAMP�
�V� IN�
�R� RAMP�
�V� IN�
�OSC�
�S�
�R�
�FF�
�Q�
�Q�
�TO�
�DRIVERS�
�360�
�310�
�R� FREQ� (k� ?� )� =� 96568� f� OSC� (kHz)� –1.065�
�A� R�
�C� R�
�260�
�210�
�160�
�V� CS�
�FROM�
�ERROR� AMP�
�A� CS�
�FROM�
�LOW� SIDE�
�MOSFET�
�110�
�60�
�Figure� 23.� Simplified� Control� Architecture�
�10�
�100�
�400�
�700�
�1000�
�1300�
�1600�
�1900�
�As� shown� in� Figure� 23,� the� emulated� current� ramp� is� generated�
�inside� the� IC� but� offers� programmability� through� the� RAMPx�
�pin.� Selecting� an� appropriate� value� resistor� from� V� IN� to� the�
�RAMP� pin� programs� a� desired� slope� compensation� value� and,� at�
�the� same� time,� provides� a� feed� forward� feature.� The� benefits�
�realized� by� deploying� this� type� of� control� scheme� are� that� there�
�is� no� need� to� worry� about� the� turn-on� current� spike� corrupting�
�the� current� ramp.� Also,� the� current� signal� is� stable� because� the�
�current� signal� is� sampled� at� the� end� of� the� turn-off� period,�
�which� gives� time� for� the� switch� node� ringing� to� settle.� Other�
�Rev.� D� |� Page� 13� of� 32�
�f� OSC� (kHz)�
�Figure� 24.� R� FREQ� vs.� f� OSC�
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