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| 型号: | LTC3850IGN-2#TRPBF |
| 厂商: | Linear Technology |
| 文件页数: | 13/36页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR BUCK PWM CM 28-SSOP |
| 产品培训模块: | LTC3850 Dual Output DC/DC Switching Regulator Controller |
| 标准包装: | 2,500 |
| 系列: | PolyPhase® |
| PWM 型: | 电流模式 |
| 输出数: | 2 |
| 频率 - 最大: | 860kHz |
| 占空比: | 97.2% |
| 电源电压: | 4 V ~ 30 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 ~ 85°C |
| 封装/外壳: | 28-SSOP(0.154",3.90mm 宽) |
| 包装: | 带卷 (TR) |
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�
�LTC3850-2�
�APPLICATIONS� INFORMATION�
�R� SENSE� =�
�I� (MAX)� +�
�V� ESL� (� STEP� )� t� ON� ?� t� OFF�
�Δ� I� L�
�+� t�
�setsthepeakoftheinductorcurrent,yieldingamaximum�
�average� output� current� I� MAX� equal� to� the� peak� value� less�
�half� the� peak-to-peak� ripple� current,� ΔI� L� .� To� calculate� the�
�sense� resistor� value,� use� the� equation:�
�V� SENSE(MAX)�
�Δ� I� L�
�2�
�Because� of� possible� PCB� noise� in� the� current� sensing� loop,�
�the� AC� current� sensing� ripple� of� ΔV� SENSE� =� ΔI� L� ?� R� SENSE�
�also� needs� to� be� checked� in� the� design� to� get� a� good�
�signal-to-noise� ratio.� In� general,� for� a� reasonably� good�
�PCB� layout,� a� 15mV� ΔV� SENSE� voltage� is� recommended� as�
�a� conservative� number� to� start� with,� either� for� R� SENSE� or�
�DCR� sensing� applications.�
�For� previous� generation� current� mode� controllers,� the�
�maximum� sense� voltage� was� high� enough� (e.g.,� 75mV� for�
�the� LTC1628� /� LTC3728� family)� that� the� voltage� drop� across�
�the� parasitic� inductance� of� the� sense� resistor� represented�
�a� relatively� small� error.� For� today’s� highest� current� density�
�solutions,� however,� the� value� of� the� sense� resistor� can�
�be� less� than� 1m� and� the� peak� sense� voltage� can� be� as�
�low� as� 20mV.� In� addition,� inductor� ripple� currents� greater�
�than� 50%� with� operation� up� to� 1MHz� are� becoming� more�
�common.� Under� these� conditions� the� voltage� drop� across�
�the� sense� resistor’s� parasitic� inductance� is� no� longer� neg-�
�ligible.� A� typical� sensing� circuit� using� a� discrete� resistor� is�
�shown� in� Figure� 2a.� In� previous� generations� of� controllers,�
�a� small� RC� ?lter� placed� near� the� IC� was� commonly� used� to�
�reduce� the� effects� of� capacitive� and� inductive� noise� coupled�
�inthe� sense� traces� on� the� PCB.� A� typical� ?lter� consists� of�
�two� series� 10Ω� resistors� connected� to� a� parallel� 1000pF�
�capacitor,� resulting� in� a� time� constant� of� 20ns.�
�This� same� RC� ?lter,� with� minor� modi?cations,� can� be� used� to�
�extract� the� resistive� component� of� the� current� sense� signal�
�in� the� presence� of� parasitic� inductance.� For� example,� Figure�
�3� illustrates� the� voltage� waveform� across� a� 2m� sense�
�resistor� with� a� 2010� footprint� for� the� 1.2V/15A� converter�
�shown� in� Figure� 18� operating� at� 100%� load.� The� waveform�
�is� the� superposition� of� a� purely� resistive� component� and� a�
�purely� inductive� component.� It� was� measured� using� two�
�scope� probes� and� waveform� math� to� obtain� a� differential�
�measurement.� Based� on� additional� measurements� of� the�
�inductor� ripple� current� and� the� on-time� and� off-time� of�
�the� top� switch,� the� value� of� the� parasitic� inductance� was�
�determined� to� be� 0.5nH� using� the� equation:�
�ESL� =�
�t� ON� OFF�
�If� the� RC� time� constant� is� chosen� to� be� close� to� the� parasitic�
�inductance� divided� by� the� sense� resistor� (L/R),� the� result-�
�ing� waveform� looks� resistive� again,� as� shown� in� Figure�
�4.� For� applications� using� low� maximum� sense� voltages,�
�check� the� sense� resistor� manufacturer’s� data� sheet� for�
�information� about� parasitic� inductance.� In� the� absence� of�
�data,� measure� the� voltage� drop� directly� across� the� sense�
�resistor� to� extract� the� magnitude� of� the� ESL� step� and� use�
�the� equation� above� to� determine� the� ESL.� However,� do� not�
�over-?lter.� Keep� the� RC� time� constant� less� than� or� equal�
�to� the� inductor� time� constant� to� maintain� a� high� enough�
�ripple� voltage� on� V� RSENSE� .�
�The� above� generally� applies� to� high� density� /� high� current�
�applications� where� I� (MAX)� >� 10A� and� low� values� of� inductors�
�are� used.� For� applications� where� I� (MAX)� <� 10A,� set� R� F� to� 10Ω�
�and� C� F� to� 1000pF.� This� will� provide� a� good� starting� point.�
�The� ?lter� components� need� to� be� placed� close� to� the� IC.� The�
�positive� and� negative� sense� traces� need� to� be� routed� as� a�
�differential� pair� and� Kelvin� connected� to� the� sense� resistor.�
�Inductor� DCR� Sensing�
�For� applications� requiring� the� highest� possible� ef?ciency� at�
�high� load� currents,� the� LTC3850-2� is� capable� of� sensing� the�
�voltage� drop� across� the� inductor� DCR,� as� shown� in� Figure�
�2b.� The� DCR� of� the� inductor� represents� the� small� amount�
�of� DC� winding� resistance� of� the� copper,� which� can� be� less�
�than� 1mΩ� for� today’s� low� value,� high� current� inductors.�
�In� a� high� current� application� requiring� such� an� inductor,�
�conduction� loss� through� a� sense� resistor� would� cost� several�
�points� of� ef?ciency� compared� to� DCR� sensing.�
�38502f�
�13�
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