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| 型号: | SP6123CN-L/TR |
| 厂商: | Exar Corporation |
| 文件页数: | 11/18页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM VM 8NSOIC |
| 标准包装: | 2,500 |
| PWM 型: | 电压模式 |
| 输出数: | 1 |
| 频率 - 最大: | 330kHz |
| 占空比: | 93% |
| 电源电压: | 3 V ~ 5.5 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 ~ 70°C |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 包装: | 带卷 (TR) |
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�APPLICATIONS� INFORMATION�
�P� CL(max)� =� R� DS(ON)� I� OUT(max)� (1� -� D),�
�P� CH(max)� =� R� DS(ON)� I� OUT(max)� D�
�power� sources.� Certain� tantalum� capacitors,� such�
�as� AVX� TPS� series,� are� surge� tested.� For� generic�
�tantalum� capacitors,� use� 2:1� voltage� derating� to�
�protect� the� input� capacitors� from� surge� fallout.�
�MOSFET� Selection�
�The� losses� associated� with� MOSFETs� can� be�
�divided� into� conduction� and� switching� losses.�
�Conduction� losses� are� related� to� the� on� resis-�
�tance� of� MOSFETs,� and� increase� with� the� load�
�current.� Switching� losses� occur� on� each� on/off�
�transition� when� the� MOSFETs� experience� both�
�high� current� and� voltage.� Since� the� bottom�
�MOSFET� switches� current� from/to� a� paralleled�
�diode� (either� its� own� body� diode� or� an� external�
�Schottky� diode),� the� voltage� across� the� MOSFET�
�is� no� more� than� 1V� during� switching� transition.�
�As� a� result,� its� switching� losses� are� negligible.�
�The� switching� losses� are� difficult� to� quantify�
�due� to� all� the� variables� affecting� turn� on/off�
�time.� However,� making� the� assumption� that� the�
�turn� on� and� turn� off� transition� times� are� equal,�
�the� transition� time� can� be� approximated� by:�
�t� T� =� C� ISS� V� IN� ,�
�I� G�
�where� C� ISS� is� the� MOSFET’s� input� capacitance,�
�or� the� sum� of� the� gate-to-source� capacitance,�
�C� GS� ,� and� the� drain-to-gate� capacitance,� C� GD� .�
�This� parameter� can� be� directly� obtained� from�
�the� MOSFET’s� data� sheet.�
�I� G� is� the� gate� drive� current� provided� by� the�
�SP6123� (approximately� 1A� at� V� IN� =5V)� and� V� IN�
�is� the� input� supply� voltage.�
�Therefore� an� approximate� expression� for� the�
�switching� losses� associated� with� the� high� side�
�MOSFET� can� be� given� as:�
�P� SH(max)� =� (V� IN(max)� +� V� F� )I� OUT(max)� t� T� F� S� ,�
�where� t� T� is� the� switching� transition� time� and� V� F�
�is� the� free� wheeling� diode� drop.�
�Switching� losses� need� to� be� taken� into� account�
�for� high� switching� frequency,� since� they� are�
�directly� proportional� to� switching� frequency.�
�The� conduction� losses� associated� with� top� and�
�bottom� MOSFETs� are� determined� by�
�2�
�2�
�where:�
�P� CH(max)� =� conduction� losses� of� the� high� side�
�MOSFET�
�P� CL(max)� =� conduction� losses� of� the� low� side�
�MOSFET�
�R� DS(ON)� =� drain� to� source� on� resistance.�
�The� total� power� losses� of� the� top� MOSFET� are�
�the� sum� of� switching� and� conduction� losses.� For�
�synchronous� buck� converters� of� efficiency� over�
�90%,� allow� no� more� than� 4%� power� losses� for�
�high� or� low� side� MOSFETs.� For� input� voltages�
�of� 3.3V� and� 5V,� conduction� losses� often� domi-�
�nate� switching� losses.� Therefore,� lowering� the�
�R� DS(ON)� of� the� MOSFETs� always� improves� effi-�
�ciency� even� though� it� gives� rise� to� higher� switch-�
�ing� losses� due� to� increased� C� ISS� .�
�Total� gate� charge� is� the� charge� required� to� turn�
�the� MOSFETs� on� and� off� under� the� specified�
�operating� conditions� (V� GS� and� V� DS� ).� The� gate�
�charge� is� provided� by� the� SP6123� gate� drive�
�circuitry.� (At� 500kHz� switching� frequency,� the�
�gate� charge� is� the� dominant� source� of� power�
�dissipation� in� the� SP6123).� At� low� output� levels,�
�this� power� dissipation� is� noticeable� as� a� reduc-�
�tion� in� efficiency.� The� average� current� required�
�to� drive� the� high� side� and� low� side� MOSFETs� is:�
�I� G(av)� =� Q� GH� F� S� +� Q� GL� F� S� ,� where�
�Q� GH� and� Q� GL� are� the� total� charge� for� the� high�
�side� and� the� low� side� MOSFETs� respectively.�
�Considering� that� the� gate� charge� current� comes�
�from� the� input� supply� voltage� V� IN� ,� the� power�
�dissipated� in� the� SP6123� due� to� the� gate� drive� is:�
�P� GATE� DRIVE� =� V� IN� I� G(av)�
�Top� and� bottom� MOSFETs� experience� unequal�
�conduction� losses� if� their� on� time� is� unequal.� For�
�applications� running� at� large� or� small� duty� cycle,�
�it� makes� sense� to� use� different� top� and� bottom�
�MOSFETs.� Alternatively,� parallel� multiple�
�MOSFETs� to� conduct� large� duty� factor.�
�R� DS(ON)� varies� greatly� with� the� gate� driver� volt-�
�age.� The� MOSFET� vendors� often� specify� R� DS(ON)�
�on� multiple� gate� to� source� voltages� (V� GS� ),� as�
�well� as� provide� typical� curve� of� R� DS(ON)� versus�
�Date:� 9/13/04�
�SP6123� Low� Voltage,� Synchronous� Step� Down� PWM� Controller�
�11�
�?� Copyright� 2004� Sipex� Corporation�
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