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参数资料
| 型号: | SI8250DK |
| 厂商: | Silicon Laboratories Inc |
| 文件页数: | 14/32页 |
| 文件大小: | 0K |
| 描述: | DEVELOPMENT KIT FOR SI8250/1/2 |
| 标准包装: | 1 |
| 主要目的: | DC/DC,步降 |
| 输出及类型: | 1,隔离 |
| 输出电压: | 1V |
| 电流 - 输出: | 35A |
| 输入电压: | 36 ~ 75 V |
| 稳压器拓扑结构: | 降压 |
| 频率 - 开关: | 400kHz |
| 板类型: | 完全填充 |
| 已供物品: | 板,线缆,CD,电源,USB 适配器 |
| 已用 IC / 零件: | SI8250,SI8251,SI8252 |
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�Si8250/1/2�
�2.� Benefits� of� Digital� Power� Control�
�Digitally-controlled� power� systems� have� the� following�
�key� advantages� over� analog� implementations:�
�In-system programmability� :� Virtually� all� aspects� of�
�digital� controller� behavior� can� be� changed� in�
�software� locally� or� remotely� and� without� hardware�
�modification.� This� benefits� the� system� in� several�
�ways:�
�Hardware� designs� can� be� segregated� into� base�
�platforms� (for� example,� by� form� factor� or� output� power),�
�and� optimized� to� the� end� application� in� software.� This�
�lowers� development� costs� by� reducing� the� total� number�
�of� hardware� designs� required� to� address� a� given�
�application� segment.�
�The� controller's� ability� to� readily� accept� changes�
�enables� low-cost,� custom� power� supply� versions� with�
�relatively� short� lead-times.�
�The� cost� and� risk� of� field� configuration� and/or� updating�
�is� greatly� reduced,� lowering� the� overhead� associated�
�with� customer� support.�
�More advanced control algorithms� :� Power� supply�
�design� with� fixed-function� analog� components� leads�
�to� many� performance� trade-offs.� For� example,�
�analog� compensator� design� routinely� trades� stability�
�for� higher� loop� bandwidth� and� places� the� required�
�poles� and� zeros� using� passive� components.� The� "if-�
�then-else"� decision-making� capability� of� digital�
�control� can� change� loop� bandwidth� as� needed� for�
�optimum� control� response.� For� example,� the�
�controller� can� operate� the� compensator� at� a�
�relatively� low� bandwidth� during� steady-state�
�operation,� but� significantly� extend� bandwidth� during�
�a� transient.� This� adaptive� response� concept� can� be�
�applied� to� improve� other� operating� parameters,� such�
�as� efficiency.�
�Power Efficiency Optimization� :� In� a� switched� mode�
�power� supply,� it� is� desirable� to� maintain� high� power�
�efficiency� over� a� wide� range� of� loads.� Software�
�algorithms� can� optimize� efficiency� at� every� point� of�
�line� and� load.� For� example,� the� software� can� adjust�
�dead� time� with� changing� load,� disable� synchronous�
�rectification� at� low� loads,� or� take� other� measures� to�
�maximize� efficiency.�
�Higher operating precision� :� Switch� timing,� control�
�response,� and� protection� setting� thresholds� in�
�analog� systems� are� typically� determined� by� the�
�values� of� external� passive� components.� These�
�components� typically� have� a� wide� tolerance� and� vary�
�with� temperature� and� time.� Designers� must� allow� for�
�these� tolerances� when� considering� worst-case�
�operating� conditions.� Digital� control� offers� tighter�
�parameter� tolerances� with� greatly� reduced�
�temperature/time� variations,� resulting� in� improved�
�worst-case� operating� specifications.�
�Power management and power delivery functions in�
�a single package� :� Power� management� functions,�
�such� as� external� supply� sequencing� and� fan� control�
�can� be� performed� by� the� digital� controller,� eliminating�
�dedicated� external� components.�
�System connectivity� :� Communication� protocols�
�enable� system� processors� to� communicate� with� the�
�power� supply� to� obtain� data� and� command� action.�
�For� example,� the� system� processor� may� request� the�
�power� supply� operating� history,� perform� self-�
�diagnostics,� or� change� system� settings� without�
�taking� the� supply� off-line.� Communication� with� the�
�system� controller� enables� notification� of� a� pending�
�power� supply� failure,� enhancing� system� reliability.�
�This� attribute� also� reduces� the� cost� and� complexity�
�of� field� configurations� and� upgrades.�
�Higher integration/smaller size/lower cost� :� Many�
�discrete� circuits� can� be� transformed� to� lines� of�
�software� code,� eliminating� components� and� lowering�
�cost.� The� digital� controller� can� be� used� to� execute�
�self-diagnostic� routines� during� production� test,�
�thereby� reducing� test� time� and� lowering� cost.� The�
�small� physical� size� of� the� Si8250� in� particular�
�(5� x� 5� mm)� saves� board� space.�
�14�
�Rev.� 1.0�
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相关代理商/技术参数 |
参数描述 |
|---|---|
| SI8250-IM | 功能描述:电压监测器/监控器 SMPS Controller RoHS:否 制造商:Texas Instruments 监测电压数:2 监测电压:Adjustable 输出类型:Open Drain 欠电压阈值: 过电压阈值: 准确性:1 % 工作电源电压:1.5 V to 6.5 V 工作电源电流:1.8 uA 最大工作温度:+ 125 C 封装 / 箱体:SON-6 安装风格:SMD/SMT |
| SI8250-IMR | 制造商:Silicon Laboratories Inc 功能描述:VOLT SUPERVISOR PWR SUPPLY 0.05V TO 0.8V 28QFN - Tape and Reel 制造商:Silicon Laboratories Inc 功能描述:IC DIGITAL PWR CONTROLLER 32LQFP 制造商:Silicon Laboratories Inc 功能描述:32K 28 Pin SMPS Controller |
| SI8250-IQ | 功能描述:电压监测器/监控器 SMPS Controller RoHS:否 制造商:Texas Instruments 监测电压数:2 监测电压:Adjustable 输出类型:Open Drain 欠电压阈值: 过电压阈值: 准确性:1 % 工作电源电压:1.5 V to 6.5 V 工作电源电流:1.8 uA 最大工作温度:+ 125 C 封装 / 箱体:SON-6 安装风格:SMD/SMT |
| SI8250-IQR | 制造商:Silicon Laboratories Inc 功能描述:VOLT SUPERVISOR PWR SUPPLY 0.05V TO 0.8V 32LQFP - Tape and Reel 制造商:Silicon Laboratories Inc 功能描述:IC DIGITAL PWR CONTROLLER 32LQFP 制造商:Silicon Laboratories Inc 功能描述:32K 32 Pin SMPS Controller |
| SI8251 | 制造商:SILABS 制造商全称:SILABS 功能描述:DIGITAL POWER CONTROLLER |
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