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| 型号: | ADP1883ARMZ-0.3-R7 |
| 厂商: | Analog Devices Inc |
| 文件页数: | 26/40页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM CM 10-MSOP |
| 标准包装: | 1 |
| PWM 型: | 电流模式 |
| 输出数: | 1 |
| 频率 - 最大: | 300kHz |
| 占空比: | 84% |
| 电源电压: | 2.75 V ~ 20 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: | 10-TFSOP,10-MSOP(0.118",3.00mm 宽) |
| 包装: | 标准包装 |
| 其它名称: | ADP1883ARMZ-0.3-R7DKR |
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�
�ADP1882/ADP1883�
�EFFICIENCY� CONSIDERATIONS�
�One� of� the� important� criteria� to� consider� in� constructing� a� dc-to-dc�
�converter� is� efficiency.� By� definition,� efficiency� is� the� ratio� of� the�
�output� power� to� the� input� power.� For� high� power� applications� at�
�load� currents� up� to� 20� A,� the� following� are� important� MOSFET�
�parameters� that� aid� in� the� selection� process:�
�800�
�720�
�640�
�560�
�480�
�V� DD� =� 2.7V�
�V� DD� =� 3.6V�
�V� DD� =� 5.5V�
�?�
�?�
�V� GS� (TH)� ,� the� MOSFET� support� voltage� applied� between� the�
�gate� and� the� source�
�R� DS� (ON)� ,� the� MOSFET� on� resistance� during� channel�
�400�
�320�
�240�
�?�
�?�
�conduction�
�Q� G� ,� the� total� gate� charge�
�C� N1� ,� the� input� capacitance� of� the� upper-side� switch�
�160�
�80�
�300�
�400�
�500�
�600�
�700�
�800�
�+125°C�
�+25°C�
�–40°C�
�900� 1000�
�?�
�C� N2� ,� the� input� capacitance� of� the� lower-side� switch�
�SWITCHING� FREQUENCY� (kHz)�
�The� following� are� the� losses� experienced� through� the� external�
�component� during� normal� switching� operation:�
�Figure� 81.� Internal� Rectifier� Voltage� Drop� vs.� Switching� Frequency�
�Switching� Loss�
�?�
�?�
�?�
�?�
�?�
�Channel� conduction� loss� (both� MOSFETs)�
�MOSFET� driver� loss�
�MOSFET� switching� loss�
�Body� diode� conduction� loss� (lower-side� MOSFET)�
�Inductor� loss� (copper� and� core� loss)�
�The� SW� node� transitions� as� a� result� of� the� switching� activities�
�of� the� upper-side� and� lower-side� MOSFETs.� This� causes� removal�
�and� replenishing� of� charge� to� and� from� the� gate� oxide� layer� of�
�the� MOSFET,� as� well� as� to� and� from� the� parasitic� capacitance� that�
�is� associated� with� the� gate� oxide� edge� overlap� and� the� drain� and�
�source� terminals.� The� current� that� enters� and� exits� these� charge�
�Channel� Conduction� Loss�
�During� normal� operation,� the� bulk� of� the� loss� in� efficiency� is�
�due� to� the� power� dissipated� through� MOSFET� channel� conduc-�
�tion.� Power� loss� through� the� upper-side� MOSFET� is� directly�
�proportional� to� the� duty� cycle� (D)� for� each� switching� period,�
�and� the� power� loss� through� the� lower-side� MOSFET� is� directly�
�proportional� to� 1� ?� D� for� each� switching� period.� The� selection�
�of� MOSFETs� is� governed� by� the� amount� of� maximum� dc� load�
�current� that� the� converter� is� expected� to� deliver.� In� particular,�
�the� selection� of� the� lower-side� MOSFET� is� dictated� by� the�
�maximum� load� current� because� a� typical� high� current� application�
�paths� presents� additional� loss� during� these� transition� times.� This�
�loss� can� be� approximately� quantified� by� using� the� following� equa-�
�tion,� which� represents� the� time� in� which� charge� enters� and� exits�
�these� capacitive� regions:�
�t� SW-TRANS� =� R� GATE� � C� TOTAL�
�where:�
�R� GATE� is� the� gate� input� resistance� of� the� MOSFET.�
�C� TOTAL� is� the� C� GD� +� C� GS� of� the� external� MOSFET� used.�
�The� ratio� of� this� time� constant� to� the� period� of� one� switching� cycle�
�is� the� multiplying� factor� to� be� used� in� the� following� expression:�
�P� N1,N2(CL)� =� [� D� � R� N1(ON)� +� (� 1� ?� D� )� � R� N2(ON)� ]� � I� LOAD�
�employs� duty� cycles� of� less� than� 50%.� Therefore,� the� lower-side�
�MOSFET� is� in� the� on� state� for� most� of� the� switching� period.�
�2�
�or�
�P� SW� (� LOSS� )� =�
�t� SW� -� TRANS�
�t� SW�
�� I� LOAD� � V� IN� � 2�
�[�
�)� ]�
�MOSFET� Driver� Loss�
�Other� dissipative� elements� are� the� MOSFET� drivers.� The� con-�
�tributing� factors� are� the� dc� current� flowing� through� the� driver�
�during� operation� and� the� Q� GATE� parameter� of� the� external� MOSFETs.�
�P� DR� (� LOSS� )� =� V� DR� � (� f� SW� C� upperFET� V� DR� +� I� BIAS�
�+� [� V� DD� � (� f� SW� C� lowerFET� V� DD� +� I� BIAS� )� ]�
�where:�
�V� DR� is� the� driver� bias� voltage� (that� is,� the� low� input� voltage� (V� DD� )�
�minus� the� rectifier� drop� (see� Figure� 81)).�
�C� upperFET� is� the� input� gate� capacitance� of� the� upper-side� MOSFET.�
�C� lowerFET� is� the� input� gate� capacitance� of� the� lower-side� MOSFET.�
�I� BIAS� is� the� dc� current� flowing� into� the� upper� and� lower-side� drivers.�
�V� DD� is� the� bias� voltage.�
�Rev.� 0� |� Page� 26� of� 40�
�P� SW(LOSS)� =� f� SW� � R� GATE� � C� TOTAL� � I� LOAD� � V� IN� � 2�
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