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参数资料
| 型号: | LM22674QMRX-ADJ/NOPB |
| 厂商: | National Semiconductor |
| 文件页数: | 12/22页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK ADJ 0.5A 8PSOP |
| 标准包装: | 2,500 |
| 系列: | SIMPLE SWITCHER® |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 可调至 1.285V |
| 输入电压: | 4.5 V ~ 42 V |
| PWM 型: | 电压模式 |
| 频率 - 开关: | 500kHz |
| 电流 - 输出: | 500mA |
| 同步整流器: | 无 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-SOIC(0.154",3.90mm Width)裸露焊盘 |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | 8-PSOP |
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��SNVS590L� –� SEPTEMBER� 2008� –� REVISED� APRIL� 2013�
��It� is� good� practice� to� include� a� high� frequency� bypass� capacitor� as� close� as� possible� to� the� LM22674.� This� small�
�case� size,� low� ESR,� ceramic� capacitor� should� be� connected� directly� to� the� VIN� and� GND� pins� with� the� shortest�
�possible� PCB� traces.� Values� in� the� range� of� 0.47� μF� to� 1� μF� are� appropriate.� This� capacitor� helps� to� provide� a�
�low� impedance� supply� to� sensitive� internal� circuitry.� It� also� helps� to� suppress� any� fast� noise� spikes� on� the� input�
�supply� that� may� lead� to� increased� EMI.�
�OUTPUT� CAPACITOR�
�The� output� capacitor� is� responsible� for� filtering� the� output� voltage� and� supplying� load� current� during� transients.�
�Capacitor� selection� depends� on� application� conditions� as� well� as� ripple� and� transient� requirements.� Best�
�performance� is� achieved� with� a� parallel� combination� of� ceramic� capacitors� and� a� low� ESR� SP?� or� POSCAP?�
�type.� Very� low� ESR� capacitors� such� as� ceramics� reduce� the� output� ripple� and� noise� spikes,� while� higher� value�
�electrolytics� or� polymer� provide� large� bulk� capacitance� to� supply� transients.� Assuming� very� low� ESR,� the�
�following� equation� gives� an� approximation� to� the� output� voltage� ripple:�
�(14)�
�Typically,� a� total� value� of� 100� μF,� or� greater,� is� recommended� for� output� capacitance.�
�In� applications� with� V� out� less� than� 3.3V,� it� is� critical� that� low� ESR� output� capacitors� are� selected.� This� will� limit�
�potential� output� voltage� overshoots� as� the� input� voltage� falls� below� the� device� normal� operating� range.�
�BOOT-STRAP� CAPACITOR�
�The� bootstrap� capacitor� between� the� BOOT� pin� and� the� SW� pin� supplies� the� gate� current� to� turn� on� the� N-�
�channel� MOSFET.� The� recommended� value� of� this� capacitor� is� 10� nF� and� should� be� a� good� quality,� low� ESR�
�ceramic� capacitor.� In� some� cases� it� may� be� desirable� to� slow� down� the� turn-on� of� the� internal� power� MOSFET,� in�
�order� to� reduce� EMI.� This� can� be� done� by� placing� a� small� resistor� in� series� with� the� C� boot� capacitor.� Resistors� in�
�the� range� of� 10� ?� to� 50� ?� can� be� used.� This� technique� should� only� be� used� when� absolutely� necessary,� since� it�
�will� increase� switching� losses� and� thereby� reduce� efficiency.�
�OUTPUT� VOLTAGE� DIVIDER� SELECTION�
�For� output� voltages� between� about� 1.285V� and� 5V,� the� -ADJ� option� should� be� used,� with� an� appropriate� voltage�
�divider� as� shown� in� Figure� 16� .� The� following� equation� can� be� used� to� calculate� the� resistor� values� of� this� divider:�
�(15)�
�A� good� value� for� R� FBB� is� 1k� ?� .� This� will� help� to� provide� some� of� the� minimum� load� current� requirement� and�
�reduce� susceptibility� to� noise� pick-up.� The� top� of� R� FBT� should� be� connected� directly� to� the� output� capacitor� or� to�
�the� load� for� remote� sensing.� If� the� divider� is� connected� to� the� load,� a� local� high-frequency� bypass� should� be�
�provided� at� that� location.�
�For� output� voltages� of� 5V,� the� -5.0� option� should� be� used.� In� this� case� no� divider� is� needed� and� the� FB� pin� is�
�connected� to� the� output.� The� approximate� values� of� the� internal� voltage� divider� are� as� follows:� 7.38k� ?� from� the�
�FB� pin� to� the� input� of� the� error� amplifier� and� 2.55k� ?� from� there� to� ground.�
�Both� the� -ADJ� and� -5.0� options� can� be� used� for� output� voltages� greater� than� 5V,� by� using� the� correct� output�
�divider.� As� mentioned� in� the� Internal� Compensation� section,� the� -5.0� option� is� optimized� for� output� voltages� of� 5V.�
�However,� for� output� voltages� greater� than� 5V,� this� option� may� provide� better� loop� bandwidth� than� the� -ADJ�
�option,� in� some� applications.� If� the� -5.0� option� is� to� be� used� at� output� voltages� greater� than� 5V,� the� following�
�equation� should� be� used� to� determine� the� resistor� values� in� the� output� divider:�
�(16)�
�Again� a� value� of� R� FBB� of� about� 1k� ?� is� a� good� first� choice.�
�12�
��Product� Folder� Links:� LM22674�
�Copyright� ?� 2008–2013,� Texas� Instruments� Incorporated�
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