参数资料
| 型号: | SC470ITSTRT |
| 厂商: | Semtech |
| 文件页数: | 11/31页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM 14-TSSOP |
| 标准包装: | 1 |
| PWM 型: | 控制器 |
| 输出数: | 1 |
| 电源电压: | 5 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: | -40°C ~ 125°C |
| 封装/外壳: | 14-TSSOP(0.173",4.40mm 宽) |
| 包装: | 标准包装 |
| 产品目录页面: | 1358 (CN2011-ZH PDF) |
| 其它名称: | SC470ITSDKR |
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��
�
�NOT� RECOMMENDED� FOR� NEW� DESIGN�
�POWER� MANAGEMENT�
�Application� Information� (Cont.)�
�(maximum)� minimum� off-time� one-shot.� For� best� dropout�
�SC470�
�performance,� use� the� slowest� on-time� setting� of� 200kHz.�
�When� working� with� low� input� voltages,� the� duty-factor�
�limit� must� be� calculated� using� worst-case� values� for� on�
�and� off� times.� The� IC� duty-factor� limitation� is� given� by:�
�Design� Procedure�
�Prior� to� designing� an� output� and� making� component�
�selections,� it� is� necessary� to� determine� the� input� voltage�
�range� and� the� output� voltage� specifications.� For� purposes�
�DUTY� =�
�t� ON� (� MIN� )�
�t� ON� (� MIN� )� +� t� OFF� (� MAX� )�
�of� demonstrating� the� procedure� the� output� for� the�
�schematic� in� Figure� 8� on� Page� 17� will� be� designed.�
�Be� sure� to� include� inductor� resistance� and� MOSFET� on-�
�state� voltage� drops� when� performing� worst-case� dropout�
�duty-factor� calculations.�
�470� System� DC� Accuracy�
�Two� IC� parameters� affect� system� DC� accuracy,� the� error�
�comparator� threshold� voltage� variation� and� the� switching�
�frequency� variation� with� line� and� load.� The� error�
�comparator� threshold� does� not� drift� significantly� with�
�supply� and� temperature.� Thus,� the� error� comparator�
�contributes� 0.85%� or� less� to� DC� system� inaccuracy.�
�Board� components� and� layout� also� influence� DC�
�accuracy.� The� use� of� 1%� feedback� resistors� contribute�
�1%.� If� tighter� DC� accuracy� is� required� use� 0.1%� feedback�
�resistors.�
�The� on-pulse� in� the� SC470� is� calculated� to� give� a� pseudo-�
�fixed� frequency.� Nevertheless,� some� frequency� variation�
�with� line� and� load� can� be� expected.� This� variation� changes�
�the� output� ripple� voltage.� Because� constant� on-�
�regulators� regulate� to� the� valley� of� the� output� ripple,� ?�
�of� the� output� ripple� appears� as� a� DC� regulation� error.�
�For� example,� if� the� feedback� resistors� are� chosen� to�
�divide� down� the� output� by� a� factor� of� five,� the� valley� of�
�the� output� ripple� will� be� VOUT.� For� example:� if� VOUT� is�
�The� maximum� input� voltage� (V� BAT(MAX)� )� is� determined� by�
�the� highest� AC� adaptor� voltage.� The� minimum� input�
�voltage� (V� BAT(MIN)� )� is� determined� by� the� lowest� battery�
�voltage� after� accounting� for� voltage� drops� due� to�
�connectors,� fuses� and� battery� selector� switches.� For� the�
�purposes� of� this� design� we� will� use� a� V� BAT� range� of� 8V� to�
�20V.�
�Four� parameters� are� needed� for� the� output:�
�1)� Nominal� output� voltage,� V� OUT� (we� will� use� 1.2V).�
�2)� Static� (or� DC)� tolerance,� TOL� ST� (we� will� use� +/-4%).�
�3)� Transient� tolerance,� TOL� TR� and� size� of� transient� (we�
�will� use� +/-8%� for� purposes� of� this� demonstration).�
�4)� Maximum� output� current,� I� OUT� (we� will� design� for� 6A).�
�Switching� frequency� determines� the� trade-off� between�
�size� and� efficiency.� Increased� frequency� increases� the�
�switching� losses� in� the� MOSFETs,� since� losses� are� a�
�function� of� VIN� 2� ,� knowing� the� maximum� input� voltage� and�
�budget� for� MOSFET� switches� usually� dictates� where� the�
�design� ends� up.� A� default� R� tON� value� of� 1M� ?� is� suggested�
�as� a� starting� point,� but� this� is� not� set� in� stone.� The� first�
�thing� to� do� is� to� calculate� the� on-time,� t� ON� ,� at� V� BAT(MIN)� and�
�V� BAT(MAX)� ,� since� this� depends� only� upon� V� BAT� ,� V� OUT� and� R� tON� .�
�t� ON� _� VBAT� (� MIN� )� =� ?� 3� .� 3� ?� 10� ?� 12� ?� (� R� tON� +� 37� ?� 10� 3� )� ?�
�V� OUT� ?�
�?� +� 50� ?� 10� s�
�t� ON� _� VBAT� (� MAX� )� =� ?� 3� .� 3� ?� 10� ?� 12� ?� (� R� tON� +� 37� ?� 10� 3� )� ?�
�?� +� 50� ?� 10� s�
�2.5V� and� the� ripple� is� 50mV� with� VBAT� =� 6V,� then� the�
�measured� DC� output� will� be� 2.525V.� If� the� ripple� increases�
�to� 80mV� with� VBAT� =� 25V,� then� the� measured� DC� output�
�will� be� 2.540V.�
�The� output� inductor� value� may� change� with� current.� This�
�will� change� the� output� ripple� and� thus� the� DC� output�
�voltage.� It� will� not� change� the� frequency.�
�Switching� frequency� variation� with� load� can� be� minimized�
�and,�
�For� V� OUT� <� 3.3V:�
�?�
�?� ?�
�?�
�?� ?�
�V� BAT� (� MIN� )� ?� ?�
�V� OUT� ?�
�V� BAT� (� MAX� )� ?� ?�
�?� 9�
�?� 9�
�by� choosing� MOSFETs� with� lower� R� DS(ON)� .� High� R� DS(ON)�
�MOSFETs� will� cause� the� switching� frequency� to� increase�
�as� the� load� current� increases.� This� will� reduce� the� ripple�
�and� thus� the� DC� output� voltage.�
�From� these� values� of� t� ON� we� can� calculate� the� nominal�
�switching� frequency� as� follows:�
�?� 2005� Semtech� Corp.�
�11�
�www.semtech.com�
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