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| 型号: | ISL8500EVAL1Z |
| 厂商: | Intersil |
| 文件页数: | 12/15页 |
| 文件大小: | 0K |
| 描述: | EVALUATION BOARD FOR ISL8500 |
| 产品培训模块: | Solutions for Industrial Control 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: | 2.5V |
| 电流 - 输出: | 2A |
| 输入电压: | 4.5 ~ 25 V |
| 稳压器拓扑结构: | 降压 |
| 频率 - 开关: | 500kHz |
| 板类型: | 完全填充 |
| 已供物品: | 板 |
| 已用 IC / 零件: | ISL8500 |
��
�
�ISL8500�
�transient� load� current.� These� requirements� are� generally� met�
�with� a� mix� of� capacitors� and� careful� layout.�
�Embedded� processor� systems� are� capable� of� producing�
�transient� load� rates� above� 1A/ns.� High� frequency� capacitors�
�The� response� time� to� a� transient� is� different� for� the�
�application� of� load� and� the� removal� of� load.� Equation� 4� gives�
�the� approximate� response� time� interval� for� application� and�
�removal� of� a� transient� load:�
�initially� supply� the� transient� and� slow� the� current� load� rate�
�seen� by� the� bulk� capacitors.� The� bulk� filter� capacitor� values�
�t� RISE� =�
�L� x� I� TRAN�
�V� IN� -� V� OUT�
�t� FALL� =�
�L x I� TRAN�
�V� OUT�
�(EQ.� 4)�
�are� generally� determined� by� the� ESR� (Effective� Series�
�Resistance)� and� voltage� rating� requirements� rather� than�
�actual� capacitance� requirements.�
�High� frequency� decoupling� capacitors� should� be� placed� as�
�close� to� the� power� pins� of� the� load� as� physically� possible.� Be�
�careful� not� to� add� inductance� in� the� circuit� board� wiring� that�
�could� cancel� the� usefulness� of� these� low� inductance�
�components.� Consult� with� the� manufacturer� of� the� load� on�
�specific� decoupling� requirements.�
�Use� only� specialized� low-ESR� capacitors� intended� for�
�switching-regulator� applications� for� the� bulk� capacitors.� The�
�bulk� capacitor’s� ESR� will� determine� the� output� ripple� voltage�
�and� the� initial� voltage� drop� after� a� high� slew-rate� transient.� An�
�aluminum� electrolytic� capacitor’s� ESR� value� is� related� to� the�
�case� size� with� lower� ESR� available� in� larger� case� sizes.�
�However,� the� Equivalent� Series� Inductance� (ESL)� of� these�
�where:� I� TRAN� is� the� transient� load� current� step,� t� RISE� is� the�
�response� time� to� the� application� of� load,� and� t� FALL� is� the�
�response� time� to� the� removal� of� load.� The� worst� case�
�response� time� can� be� either� at� the� application� or� removal� of�
�load.� Be� sure� to� check� Equation� 4� at� the� minimum� and�
�maximum� output� levels� for� the� worst� case� response� time.�
�Rectifier� Selection�
�Current� circulates� from� ground� to� the� junction� of� the� MOSFET�
�and� the� inductor� when� the� high-side� switch� is� off.� As� a�
�consequence,� the� polarity� of� the� switching� node� is� negative�
�with� respect� to� ground.� This� voltage� is� approximately� -0.5V� (a�
�Schottky� diode� drop)� during� the� off-time.� The� rectifier's� rated�
�reverse� breakdown� voltage� must� be� at� least� equal� to� the�
�maximum� input� voltage,� preferably� with� a� 20%� derating� factor.�
�The� power� dissipation� is� shown� in� Equation� 5:�
�P� D� [� W� ]� =� I� OUT� ?� V� D� ?� ?� 1� –� ----------------� ?�
�capacitors� increases� with� case� size� and� can� reduce� the�
�usefulness� of� the� capacitor� to� high� slew-rate� transient� loading.�
�?� V� OUT� ?�
�?� V� IN� ?�
�(EQ.� 5)�
�Unfortunately,� ESL� is� not� a� specified� parameter.� Work� with�
�your� capacitor� supplier� and� measure� the� capacitor’s�
�impedance� with� frequency� to� select� a� suitable� component.� In�
�most� cases,� multiple� electrolytic� capacitors� of� small� case� size�
�perform� better� than� a� single� large� case� capacitor.�
�Output� Inductor� Selection�
�The� output� inductor� is� selected� to� meet� the� output� voltage�
�ripple� requirements� and� minimize� the� converter� ’s� response�
�time� to� the� load� transient.� The� inductor� value� determines� the�
�converter� ’s� ripple� current� and� the� ripple� voltage� is� a� function�
�of� the� ripple� current.� The� ripple� voltage� and� current� are�
�approximated� by� Equation� 3:�
�where� V� D� is� the� voltage� of� the� Schottky� diode� =� 0.5V� to� 0.7V�
�Input� Capacitor� Selection�
�Use� a� mix� of� input� bypass� capacitors� to� control� the� voltage�
�overshoot� across� the� MOSFETs.� Use� small� ceramic�
�capacitors� for� high� frequency� decoupling� and� bulk� capacitors�
�to� supply� the� current� needed� each� time� the� switching�
�MOSFET� turns� on.� Place� the� small� ceramic� capacitors�
�physically� close� to� the� MOSFET� VIN� pins� (switching�
�MOSFET� drain)� and� the� Schottky� diode� anode.�
�The� important� parameters� for� the� bulk� input� capacitance� are�
�the� voltage� rating� and� the� RMS� current� rating.� For� reliable�
�Δ� I� =�
�V� IN� - V� OUT�
�Fs� x� L�
�x�
�V� OUT�
�V� IN�
�Δ� V� OUT� =� Δ� I� x� ESR�
�(EQ.� 3)�
�operation,� select� bulk� capacitors� with� voltage� and� current�
�ratings� above� the� maximum� input� voltage� and� largest� RMS�
�current� required� by� the� circuit.� Their� voltage� rating� should� be�
�Increasing� the� value� of� inductance� reduces� the� ripple� current�
�and� voltage.� However,� the� large� inductance� values� reduce�
�the� converter� ’s� response� time� to� a� load� transient.�
�One� of� the� parameters� limiting� the� converter� ’s� response� to�
�a� load� transient� is� the� time� required� to� change� the� inductor�
�current.� Given� a� sufficiently� fast� control� loop� design,� the�
�ISL8500� will� provide� either� 0%� or� 80%� duty� cycle� in�
�at� least� 1.25� times� greater� than� the� maximum� input� voltage,�
�while� a� voltage� rating� of� 1.5� times� is� a� conservative� guideline.�
�For� most� cases,� the� RMS� current� rating� requirement� for� the�
�input� capacitor� of� a� buck� regulator� is� approximately� 1/2� the�
�DC� load� current.�
�The� maximum� RMS� current� required� by� the� regulator� may� be�
�closely� approximated� through� Equation� 6:�
�--------------� � ?� I� OUT�
�?�
�+� ------� � ?� -----------------------------� � --------------� ?� ?�
�V� IN� ?� ?�
�L� � f� s�
�response� to� a� load� transient.� The� response� time� is� the� time�
�required� to� slew� the� inductor� current� from� an� initial� current�
�value� to� the� transient� current� level.� During� this� interval,� the�
�I� RMS�
�MAX�
�=�
�V� OUT�
�V� IN�
�MAX�
�2�
�12� ?�
�1� V� IN� –� V� OUT� V� OUT� 2�
�(EQ.� 6)�
�difference� between� the� inductor� current� and� the� transient�
�current� level� must� be� supplied� by� the� output� capacitor.�
�Minimizing� the� response� time� can� minimize� the� output�
�capacitance� required.�
�12�
�For� a� through� hole� design,� several� electrolytic� capacitors�
�may� be� needed.� For� surface� mount� designs,� solid� tantalum�
�capacitors� can� be� used,� but� caution� must� be� exercised� with�
�FN6611.0�
�December� 10,� 2007�
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