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参数资料
| 型号: | ISL6228EVAL3Z |
| 厂商: | Intersil |
| 文件页数: | 9/16页 |
| 文件大小: | 0K |
| 描述: | EVALUATION BOARD FOR ISL6228 |
| 标准包装: | 1 |
| 系列: | Robust Ripple Regulator™ (R³) |
| 主要目的: | DC/DC,步降 |
| 输出及类型: | 2,非隔离 |
| 输出电压: | 1.5V 或 1.8V,1.8V |
| 电流 - 输出: | 8A,8A |
| 输入电压: | 3.3 ~ 25 V |
| 稳压器拓扑结构: | 降压 |
| 频率 - 开关: | 270kHz,300kHz |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | ISL6228 |
��
�
�ISL6228�
�pins.� The� power� for� the� LGATE� gate-driver� is� sourced�
�directly� from� the� PVCC� pin.� The� power� for� the� UGATE� gate-�
�driver� is� sourced� from� a� “boot”� capacitor� connected� across�
�the� BOOT� and� PHASE� pins.� The� boot� capacitor� is� charged�
�from� a� 5V� bias� supply� through� a� “boot� diode”� each� time� the�
�low-side� MOSFET� turns� on,� pulling� the� PHASE� pin� low.� The�
�ISL6228� has� an� integrated� boot� diode� connected� from� the�
�PVCC� pin� to� the� BOOT� pin.�
�detected� positive� voltage� and� LGATE� was� allowed� to� go� high�
�for� eight� consecutive� PWM� switching� cycles.� The� ISL6228�
�will� turn� off� the� low-side� MOSFET� once� the� phase� voltage�
�turns� positive,� indicating� negative� inductor� current.� The�
�ISL6228� will� return� to� CCM� on� the� following� cycle� after� the�
�PHASE� pin� detects� negative� voltage,� indicating� that� the� body�
�diode� of� the� low-side� MOSFET� is� conducting� positive�
�inductor� current.�
�Efficiency� can� be� further� improved� with� a� reduction� of�
�UGATE�
�LGATE�
�t� LGFUGR�
�50%�
�50%�
�t� UGFLGR�
�unnecessary� switching� losses� by� reducing� the� PWM�
�frequency.� It� is� characteristic� of� the� R� 3� architecture� for� the�
�PWM� frequency� to� decrease� while� in� diode� emulation.� The�
�extent� of� the� frequency� reduction� is� proportional� to� the�
�reduction� of� load� current.� Upon� entering� DEM,� the� PWM�
�frequency� makes� an� initial� step-reduction� because� of� a� 33%�
�step-increase� of� the� window� voltage� V� W� .�
�Overcurrent� Protection�
�The� overcurrent� protection� (OCP)� setpoint� is� programmed�
�with� resistor� R� OCSET� that� is� connected� across� the� OCSET�
�and� PHASE� pins.�
�L�
�FIGURE� 4.� LGATE� AND� UGATE� DEAD-TIME�
�Diode� Emulation�
�PHASE�
�ISL6228�
�+�
�DCR�
�R� OCSET�
�V� DCR�
�C� SEN�
�I� L�
�_�
�V� O�
�C� O�
�The� ISL6228� implements� forced� continuous-conduction-�
�mode� (CCM)� at� heavy� load� and� diode-emulation-mode�
�(DEM)� at� light� load,� to� optimize� efficiency� in� the� entire� load�
�range.� The� transition� is� automatically� achieved� by� detecting�
�10μA�
�OCSET�
�VO�
�+� V� ROCSET�
�R� O�
�_�
�the� output� load� current.�
�Positive-going� inductor� current� flows� from� either� the� source�
�of� the� high-side� MOSFET,� or� the� drain� of� the� low-side�
�MOSFET.� Negative-going� inductor� current� flows� into� the�
�drain� of� the� low-side� MOSFET.� When� the� low-side� MOSFET�
�conducts� positive� inductor� current,� the� phase� voltage� will� be�
�negative� with� respect� to� the� GND� and� PGND� pins.�
�FIGURE� 5.� OVERCURRENT-SET� CIRCUIT�
�Figure� 5� shows� the� overcurrent-set� circuit.� The� inductor�
�consists� of� inductance� L� and� the� DC� resistance� DCR.� The�
�inductor� DC� current� I� L� creates� a� voltage� drop� across� DCR,�
�given� by� Equation� 3:�
�Conversely,� when� the� low-side� MOSFET� conducts� negative�
�inductor� current,� the� phase� voltage� will� be� positive� with�
�V� DCR� =� I� L� ?� DCR�
�(EQ.� 3)�
�respect� to� the� GND� and� PGND� pins.� The� ISL6228� monitors�
�the� phase� voltage,� when� the� low-side� MOSFET� is�
�conducting� inductor� current,� to� determine� the� direction� of� the�
�The� ISL6228� sinks� 10μA� current� into� the� OCSET� pin,�
�creating� a� DC� voltage� drop� across� the� resistor� R� OCSET� ,�
�given� by� Equation� 4:�
�inductor� current.�
�V� ROCSET� =� 10� μ� A� ?� R� OCSET�
�(EQ.� 4)�
�When� the� output� load� current� is� greater� than� or� equal� to� ?�
�the� inductor� ripple� current,� the� inductor� current� is� always�
�positive,� and� the� converter� is� always� in� CCM.� The� ISL6228�
�minimizes� the� conduction� loss� in� this� condition� by� forcing� the�
�low-side� MOSFET� to� operate� as� a� synchronous� rectifier.�
�When� the� output� load� current� is� less� than� ?� the� inductor�
�ripple� current,� negative� inductor� current� occurs.� Sinking�
�negative� inductor� through� the� low-side� MOSFET� lowers�
�efficiency� through� unnecessary� conduction� losses.� The�
�ISL6228� automatically� enters� DEM� after� the� PHASE� pin� has�
�9�
�Resistor� R� O� is� connected� between� the� VO� pin� and� the� actual�
�output� voltage� of� the� converter.� During� normal� operation,� the�
�VO� pin� is� a� high� impedance� path,� therefore� there� is� no�
�voltage� drop� across� R� O� .� The� DC� voltage� difference� between�
�the� OCSET� pin� and� the� VO� pin� can� be� established� using�
�Equation� 5:�
�V� OCSET� –� V� VO� =� V� DCR� –� V� ROCSET� =� I� L� ?� DCR� –� 10� μ� A� ?� R� OCSET�
�(EQ.� 5)�
�FN9095.2�
�May� 7,� 2008�
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