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参数资料
| 型号: | IR3710MTRPBF |
| 厂商: | International Rectifier |
| 文件页数: | 13/20页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM 16-MLPQ |
| 标准包装: | 3,000 |
| PWM 型: | 控制器 |
| 输出数: | 1 |
| 频率 - 最大: | 1MHz |
| 电源电压: | 3 V ~ 28 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: | 0°C ~ 125°C |
| 封装/外壳: | 16-MLPQ |
| 包装: | 带卷 (TR) |
��
�
�IR3710MTRPBF�
�switching� power� loss� because� the� output� current� flow�
�through� the� lower� MOSFET’s� body� diode� during� the�
�dead� time� stores� some� minority� charges.� When� the�
�upper� MOSFETs� turn� on,� it� has� to� carry� this� extra�
�current� to� remove� the� minority� charges.� The� reverse�
�recovery� power� loss� can� be� found� in� equation� 8.�
�P� Qrr� =� Q� rr� ?� V� IN� ?� F� S� (8)�
�By� combining� the� P� SW� and� P� Qrr� ,� the� total� switching�
�power� loss� of� the� upper� MOSFETs� is� much� greater�
�than� its� conduction� loss.� International� Rectifier�
�MOSFET� datasheets� has� separated� the� gate� charge�
�Inductor� selection� involves� meeting� the� steady� state�
�output� ripple� requirement,� minimizing� the� switching�
�loss� of� upper� MOSFETs,� transient� response� and�
�minimizing� the� output� capacitance.� The� output�
�voltage� includes� a� DC� voltage� and� a� small� AC� ripple�
�component� due� to� the� low� pass� filter� which� has�
�incomplete� attenuation� of� the� switching� harmonics.�
�Neglecting� the� inductance� in� series� with� output�
�capacitor,� the� magnitude� of� the� AC� voltage� ripple� is�
�determined� by� the� total� inductor� ripple� current� flow�
�through� the� total� equivalent� series� resistance� (ESR)�
�of� the� output� capacitor� bank.�
�of� Q� GS1� and� Q� GS2� so� that� the� designer� can� calculate�
�the� switching� power� loss.� Therefore,� selection� of� the�
�upper� MOSFETs� should� consider� those� factors.�
�Δ� I� =�
�V� OUT�
�L�
�?� (� 1� ?� D� )� ?� Ts� =�
�V� OUT� ?� (� V� IN� ?� V� OUT� )�
�V� IN� ?� L� ?� F� s�
�(12)�
�Otherwise,� the� converter� losses� degrade� the� system�
�efficiency� and� may� exceed� the� thermal� constraints.�
�The� main� power� loss� of� lower� MOSFETs� is� the�
�conduction� loss� because� its� on-time� is� in� the� range� of�
�90%� of� the� switching� period.� The� switching� power�
�loss� of� lower� MOSFETs� can� be� negligible� because�
�their� body� diode� voltage� drops� are� in� the� range� of� 1V.�
�Equation� 9� shows� the� conduction� power� loss�
�calculation.� T� S� is� inversely� proportional� to� fs,� and� T� OFF�
�is� the� on-time� of� the� lower� MOSFETs.� R� DS(on)�
�increases� approximately� 30%� with� temperature.�
�One� can� use� equation� 12� to� find� the� inductance.� The�
�main� advantage� of� small� inductance� is� increased�
�inductor� current� slew� rate� during� a� load� transient,�
�which� leads� to� small� output� capacitance� requirement�
�as� discussed� in� the� Output� Capacitor� Selection�
�section.� The� draw� back� of� using� smaller� inductances�
�is� increased� switching� power� loss� in� upper�
�MOSFETs,� which� reduces� the� system� efficiency� and�
�increases� the� thermal� dissipation� as� discussed� in� the�
�Power� Loss� section.�
�P� COND� =� I� RMS_COND� 2� ?� R� DSON� ?�
�T� OFF�
�Ts�
�(9)�
�Input� Capacitor� Selection�
�The� main� function� of� the� input� capacitor� bank� is� to�
�?� ?�
�1� ?� Δ� I� ?�
�Where� :� I� RMS_COND� =� I� OUT� ?� 1� -� D� ?� 1� +�
�?�
�3� ?� I� OUT� ?�
�2�
�provide� the� input� ripple� current� and� fast� slew� rate�
�current� during� the� load� current� step� up.� The� input�
�capacitor� bank� must� have� adequate� to� handle� the�
�The� driver� power� loss� is� a� small� factor� when� heavily�
�loaded� but� it� can� be� significant� contributor� of�
�degradation� to� the� converter� efficiency� in� light� load.�
�Equation� 10� shows� the� driver� power� loss� relating� to�
�the� total� gate� charge� of� upper� and� lower� MOSFETs�
�and� switching� frequency.�
�total� RMS� current.� Figure� 21� shows� a� typical� input�
�current.� Equation� 13� shows� the� RMS� input� current.�
�The� RMS� input� current� contains� the� DC� load� current�
�and� the� inductor� ripple� current.� As� shown� in� equation�
�12,� inductor� ripple� current� is� unrelated� to� the� load�
�current.� The� maximum� RMS� input� current� occurs� at�
�the� maximum� output� current.� The� maximum� power�
�P� COND� =�
�1�
�Ts�
�Ts�
�∫� V� DR� ?� I� GDr� ?� dt� =� V� DR� ?� Q� GTotal� ?� F� S� (10)�
�0�
�dissipate� in� the� input� capacitor� equals� the� square� of�
�the� maximum� RMS� input� current� times� the� input�
�capacitor’s� total� ESR.�
�The� low� frequency� and� core� losses� are� main� factors�
�of� the� total� power� loss� of� an� inductor.� Low� frequency�
�loss� of� an� inductor� is� caused� by� the� resistance� of�
�copper� winding.� The� copper� loss� of� the� winding� is�
�shown� in� equation� 11.� The� core� loss� of� an� inductor�
�depends� on� the� B-H� loop� characteristic,� volume� and�
�frequency.� This� data� can� be� obtained� from� the�
�inductor� manufactures.�
�P� DCR� =� I� RMS� 2� ?� DCR� (11)�
�Figure� 21.� Typical� Input� Current� Waveform.�
�Where� :� I� RMS� =� I� OUT� ?� 1� +� ?� ?� ?�
�?�
�∫�
�1� ?� Δ� I� ?�
�Inductor� Selection�
�1� Δ� I� ?�
�3� ?� I� OUT� ?�
�2�
�I� IN_RMS� =�
�1�
�Ts�
�?�
�Ts�
�f� 2� (� t� )� ?� dt� =� I� OUT� ?� D� ?� 1� +�
�0�
�?� ?� ?� (13)�
�3� ?� I� OUT� ?�
�2�
�Page� 13� of� 20�
�www.irf.com�
�IR� Confidential�
�4/26/10�
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