UC1846-SP
制造商:TI
产品信息
描述 The UC1846-SP control devices provide all of the necessary features to implement fixed frequency, current mode control schemes while maintaining a minimum external parts count. The superior performance of this technique can be measured in improved line regulation, enhanced load response characteristics, and a simpler, easier-to-design control loop. Topological advantages include inherent pulse-by-pulse current limiting capability, automatic symmetry correction for push-pull converters, and the ability to parallel power modules while maintaining equal current sharing.Protection circuitry includes built-in UVLO and programmable current limit in addition to soft-start capability. A shutdown function is also available which can initiate either a complete shutdown with automatic restart or latch the supply off.Other features include fully latched operation, double-pulse suppression, deadline adjust capability, a ±1% trimmed bandgap reference, and low outputs in the OFF state.特性QML-V Qualified, SMD 5962-86806 5962P8680603VxA: Radiation Hardness Assurance (RHA) up to 30-krad(Si) Total Ionizing Dose (TID) Passes Functional and Specified Post-Radiation Parametric Limits at 45 krad at LDR (10 mrad(Si)/s) per 1.5× Over Test as Defined in MIL-STD-883 Test Method 1019.9 Paragraph 3.13.3.b Exhibits Low-Dose Rate Sensitivity but Remains Within the Pre-Radiation Electrical Limits at 30-krad Total Dose Level, as Allowed by MIL-STD-883, TM1019 Automatic Feed-Forward Compensation Programmable Pulse-by-Pulse Current Limiting Automatic Symmetry Correction in Push-Pull Configuration Enhanced Load Response Characteristics Parallel-Operation Capability for Modular Power Systems Differential Current-Sense Amplifier With Wide Common-Mode Range Double-Pulse Suppression 500-mA (Peak) Totem-Pole Outputs ±1% Bandgap Reference Undervoltage Lockout (UVLO) Soft-Start Capability Shutdown Terminal 500-kHz Operation
电路图、引脚图和封装图
在线购买
2013-04-07
控制电路的SPICE仿真模型控制电路的SPICE仿真模型
开关电源中的反馈控制电路现已广泛使用集成电路如SG1524(单环控制),UC1846(双环控制)等。
2013-04-07
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2013-04-07
RFID技术的发展及现状...学基础研究,其中的佼佼者是美国人本杰明.富兰克林。1846年英国科学家米歇尔.法拉弟发现了光波与电波均属于电磁能量。1864年苏格兰科学家詹姆士.克拉克.麦克斯韦尔发表了他的电磁场理论。
2013-04-07
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