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| 型号: | TPS51020DBTRG4 |
| 厂商: | Texas Instruments |
| 文件页数: | 10/28页 |
| 文件大小: | 0K |
| 描述: | IC DUAL DC/DC SYNC CTRLR 30TSSOP |
| 标准包装: | 2,000 |
| 应用: | 控制器,DDR,DDR2 |
| 输入电压: | 4.5 V ~ 28 V |
| 输出数: | 2 |
| 输出电压: | 0.9 V ~ 24 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 30-TFSOP(0.173",4.40mm 宽) |
| 供应商设备封装: | 30-TSSOP |
| 包装: | 带卷 (TR) |
| 配用: | 296-18958-ND - EVAL MODULE FOR TPS51020-001 296-17268-ND - EVALUATION MODULE FOR TPS51100 296-12357-ND - EVAL MOD FOR TPS2330-185 |
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�TPS51020�
�SLUS564C� ?� JULY� 2003� ?� REVISED� OCTOBER� 2008�
�APPLICATION� INFORMATION�
�PWM� OPERATION�
�The� PWM� control� block� utilizes� a� fixed-frequency,� feed-forward,� voltage-mode� control� scheme� with� a�
�wide-bandwidth,� low-impedance� output� error� amplifier� as� the� voltage� servo� control� block.� This� scheme� allows�
�the� highest� efficiency� down� conversion� while� maintaining� excellent� line� regulation� and� fast� transient� response.�
�Loop� compensation� is� programmed� by� connecting� a� filter� network� between� the� COMPx� pin� and� the� INVx� pin.�
�The� wide� bandwidth� error� amplifier� handles� conventional� Type� II� compensation� or� Type� III� compensation� when�
�using� ceramic� capacitors� for� the� converter� output.� For� channel� one,� the� reference� signal� for� the� control� loop� is�
�always� a� precision� 0.85-V� internal� reference,� while� the� channel� two� loop� reference� is� either� the� 0.85-V� reference�
�or,� in� the� case� of� DDR� mode,� one� half� the� VO1_VDDQ� voltage,� (VO1_VDDQ)/2.� The� output� signal� of� the� error�
�amplifier� appears� at� the� COMPx� pin� and� is� compared� to� a� buffered� version� of� the� 0.6-V� oscillator� ramp.� When�
�TRIP2� pin� is� tied� to� VIN� through� a� resistor,� the� voltage� ramp� is� further� modulated� by� the� input� voltage,� VIN,� to�
�maintain� a� constant� modulator� gain.� If� the� TRIP2� pin� is� connected� to� ground� through� a� resistor,� then� the� voltage�
�ramp� remains� fixed� regardless� of� VIN� value.�
�The� oscillator� frequency� is� internally� fixed� and� can� be� selected� at� 270� kHz,� 360� kHz� or� 470� kHz� by� insertion� of�
�a� clamping� resistor� on� the� SSTRTx� pin� per� Table� 1.� For� example,� 470� kHz� can� be� attained� when� both� SSTRTx�
�voltages� exceed� 3.5� V,� as� described� in� WAVEFORM1.� The� controller� begins� with� 270� kHz� in� the� first� stage� of�
�the� softstart,� and� then� increases� to� 470� kHz� at� the� steady� state.� When� 270� kHz� is� selected,� both� of� SSTRTx�
�voltages� are� kept� below� 3.5� V� so� that� the� frequency� is� the� same� 270� kHz� for� the� entire� operation.�
�Two� channels� are� operated� in� 180� degrees� out-of-phase� interleave� switching� mode.� This� interleaving� helps�
�reduce� the� input� current� ripple� requirement� for� the� input� capacitor.� However,� because� the� PWM� loop� determines�
�both� the� turn-off� AND� turn-on� of� the� high-side� MOSFET,� this� 180� degree� operation� may� not� be� apparent� by�
�looking� at� the� LLx� nodes� only.� Rather,� the� turn-off� cycle� of� one� channel� always� corresponds� to� the� turn-on� cycle�
�of� the� other� channel� and� vise-versa.� As� a� result,� input� ripple� is� reduced� and� dynamic� response� is� improved� over�
�a� broad� input� voltage� range.�
�MAXIMUM� DUTY� CYCLE�
�Because� most� notebook� applications� typically� run� from� three� to� four� cell� Li?Ion� or� run� from� a� 20-V� adapter,� 100%�
�duty� cycle� operation� is� not� required.� Rather,� the� TPS51020� is� optimized� for� low� duty� ratio� step-down� conversion.�
�As� a� result� of� limiting� the� duty� cycle,� the� flying� BST� capacitor� is� refreshed� reliably� and� the� low-side� over� current�
�detection� circuitry� is� capable� of� detecting� an� overcurrent� condition� even� if� the� output� is� stuck� between� the�
�regulation� point� and� UVP.� The� maximum� duty� cycle� for� each� operating� frequency� is� 88%� for� 270� kHz,� 85%� for�
�360� kHz� and� 82%� for� 470� kHz.�
�It� should� be� noted� that� if� the� system� is� operating� close� to� maximum� (or� minimum)� duty� cycle,� it� may� be� difficult�
�for� the� converter� to� respond� quickly� during� line/load� transients� or� state� changes� (such� as� frequency� switching�
�during� soft� start� or� PWM� to� SKIP� mode� transitions).� This� slow� response� is� due� to� the� dynamic� range� of� the� COMP�
�pin� and� is� usually� not� a� result� of� poor� phase� compensation.� In� the� case� of� minimum� duty� cycle� operation,� the�
�slow� response� is� due� to� the� minimum� pulse� width� of� the� converter� (100� ns� TYP).� In� this� case� (counter� intuitively),�
�it� may� be� advisable� to� slow� down� the� switching� frequency� of� the� converter� in� order� to� improve� response� time.�
�10�
�www.ti.com�
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