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参数资料
| 型号: | MIC2198YML |
| 厂商: | Micrel Inc |
| 文件页数: | 11/14页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM CM 12-MLF |
| 标准包装: | 300 |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 550kHz |
| 占空比: | 76% |
| 电源电压: | 4.5 V ~ 32 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: | 12-VFDFN 裸露焊盘,12-MLF? |
| 包装: | 托盘 |
��
�
�R� ESR� ≤�
�?� I�
�?�
�(�
�)�
�PP� � (1� ?� D)�
�?V� OUT� =�
�?� +� I� PP� � R� ESR�
�?� C� OUT� � f� S� ?�
�=� PP�
�I� C�
�12�
�MIC2198�
�For� the� high-side� switch,� the� maximum� DC� power� dissipa-�
�tion� is:�
�P� SWITCH1(dc)� =� R� DS(on)1� � I� SW1(rms)� 2�
�For� the� low-side� switch� (N-Channel� MOSFET),� the� DC� power�
�dissipation� is:�
�P� SWITCH2(dc)� =� R� DS(on)2� � I� SW� 2(rms)� 2�
�Since� the� AC� switching� losses� for� the� low-side� MOSFET� is�
�near� zero,� the� total� power� dissipation� is:�
�P� low-side� MOSFET(max)� =� P� SWITCH2(dc)�
�The� total� power� dissipation� for� the� high-side� MOSFET� is:�
�P� high� ?� sideMOSFET(max)� =� P� SWITCH� 1(dc)� +� P� AC�
�External� Schottky� Diode�
�An� external� freewheeling� diode� is� used� to� keep� the� inductor�
�current� ?ow� continuous� while� both� MOSFETs� are� turned� off.�
�This� dead� time� prevents� current� from� ?owing� unimpeded�
�through� both� MOSFETs� and� is� typically� 80ns� The� diode�
�conducts� twice� during� each� switching� cycle.� Although� the�
�average� current� through� this� diode� is� small,� the� diode� must�
�be� able� to� handle� the� peak� current.�
�I� D(avg)� =� I� OUT� � 2� � 80ns� � f� S�
�The� reverse� voltage� requirement� of� the� diode� is:�
�V� DIODE(rrm)� =� V� IN�
�The� power� dissipated� by� the� Schottky� diode� is:�
�P� DIODE� =� I� D(avg)� � V� F�
�where:�
�V� F� =� forward� voltage� at� the� peak� diode� current�
�The� external� Schottky� diode,� D2,� is� not� necessary� for� circuit�
�operation� since� the� low-side� MOSFET� contains� a� parasitic�
�body� diode.� The� external� diode� will� improve� ef?ciency� and�
�decrease� high� frequency� noise.� If� the� MOSFET� body� diode�
�is� used,� it� must� be� rated� to� handle� the� peak� and� average� cur-�
�rent.� The� body� diode� has� a� relatively� slow� reverse� recovery�
�time� and� a� relatively� high� forward� voltage� drop.� The� power�
�lost� in� the� diode� is� proportional� to� the� forward� voltage� drop�
�of� the� diode.� As� the� high-side� MOSFET� starts� to� turn� on,� the�
�body� diode� becomes� a� short� circuit� for� the� reverse� recovery�
�period,� dissipating� additional� power.� The� diode� recovery� and�
�the� circuit� inductance� will� cause� ringing� during� the� high-side�
�MOSFET� turn-on.�
�An� external� Schottky� diode� conducts� at� a� lower� forward� voltage�
�preventing� the� body� diode� in� the� MOSFET� from� turning� on.�
�The� lower� forward� voltage� drop� dissipates� less� power� than�
�the� body� diode.� The� lack� of� a� reverse� recovery� mechanism�
�in� a� Schottky� diode� causes� less� ringing� and� less� power� loss.�
�Depending� on� the� circuit� components� and� operating� condi-�
�tions,� an� external� Schottky� diode� will� give� a� 1/2%� to� 1%�
�improvement� in� ef?ciency.�
�Micrel,� Inc.�
�Output� Capacitor� Selection�
�The� output� capacitor� values� are� usually� determined� by� the�
�capacitors� ESR� (equivalent� series� resistance).� Voltage� rating�
�and� RMS� current� capability� are� two� other� important� factors� in�
�selecting� the� output� capacitor.� Recommended� capacitors� are�
�tantalum,� low-ESR� aluminum� electrolytics,� and� OS-CON.�
�The� output� capacitor� ’s� ESR� is� usually� the� main� cause� of� output�
�ripple.� The� maximum� value� of� ESR� is� calculated� by:�
�?V� OUT�
�I� PP�
�where:�
�V� OUT� =� peak-to-peak� output� voltage� ripple�
�I� PP� =� peak-to-peak� inductor� ripple� current�
�The� total� output� ripple� is� a� combination� of� the� ESR� and� the�
�output� capacitance.� The� total� ripple� is� calculated� below:�
�2�
�2�
�?�
�where:�
�D� =� duty� cycle�
�C� OUT� =� output� capacitance� value�
�f� S� =� switching� frequency�
�The� voltage� rating� of� capacitor� should� be� twice� the� output�
�voltage� for� a� tantalum� and� 20%� greater� for� an� aluminum�
�electrolytic� or� OS-CON.�
�The� output� capacitor� RMS� current� is� calculated� below:�
�I�
�OUT(rms)�
�The� power� dissipated� in� the� output� capacitor� is:�
�P� DISS(C� OUT� )� =� I� C� OUT(rms)2� � R� ESR(C� OUT� )�
�Input� Capacitor� Selection�
�The� input� capacitor� should� be� selected� for� ripple� current� rating�
�and� voltage� rating.� Tantalum� input� capacitors� may� fail� when�
�subjected� to� high� inrush� currents,� caused� by� turning� the� input�
�supply� on.� Tantalum� input� capacitor� voltage� rating� should�
�be� at� least� 2� times� the� maximum� input� voltage� to� maximize�
�reliability.� Aluminum� electrolytic,� OS-CON,� and� multilayer�
�polymer� ?lm� capacitors� can� handle� the� higher� inrush� currents�
�without� voltage� derating.�
�The� input� voltage� ripple� will� primarily� depend� on� the� input�
�capacitors� ESR.� The� peak� input� current� is� equal� to� the� peak�
�inductor� current,� so:�
�?V� IN� =� I� INDUCTOR(peak)� � R� ESR(C� IN� )�
�The� input� capacitor� must� be� rated� for� the� input� current� ripple.�
�The� RMS� value� of� input� capacitor� current� is� determined� at�
�the� maximum� output� current.� Assuming� the� peak-to-peak�
�inductor� ripple� current� is� low:�
�I� C�
�IN� (rms)�
�≈� I� OUT(max)� ×� D� ×� (1� ?� D)�
�October� 2005�
�11�
�MIC2198�
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