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| 型号: | MIC4724YMME |
| 厂商: | Micrel Inc |
| 文件页数: | 13/19页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK ADJ 3A 10MSOP |
| 标准包装: | 100 |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 可调至 1V |
| 输入电压: | 3 V ~ 6 V |
| 频率 - 开关: | 2MHz |
| 电流 - 输出: | 3A |
| 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: | 10-TFSOP,10-MSOP(0.118",3.00mm 宽)裸露焊盘 |
| 包装: | 管件 |
| 供应商设备封装: | 10-MSOP 裸露焊盘 |
| 产品目录页面: | 1093 (CN2011-ZH PDF) |
| 其它名称: | 576-3120-5 |
��
�
�Micrel,� Inc.�
�MIC4724�
�Loop� Stability� and� Bode� Analysis�
�Bode� analysis� is� an� excellent� way� to� measure� small�
�signal� stability� and� loop� response� in� power� supply�
�designs.� Bode� analysis� monitors� gain� and� phase� of� a�
�Network�
�Analyzer�
�“R”� Input�
�Feedback�
�+8V�
�MIC922BC5�
�R1�
�1k�
�Network�
�Analyzer�
�“A”� Input�
�Output�
�control� loop.� This� is� done� by� breaking� the� feedback� loop�
�and� injecting� a� signal� into� the� feedback� node� and�
�comparing� the� injected� signal� to� the� output� signal� of� the�
�control� loop.� This� will� require� a� network� analyzer� to�
�sweep� the� frequency� and� compare� the� injected� signal� to�
�the� output� signal.� The� most� common� method� of� injection�
�is� the� use� of� transformer.� Figure� 7� demonstrates� how� a�
�R3�
�1k�
�R4�
�1k�
�50�
�Network� Analyzer�
�Source�
�transformer� is� used� to� inject� a� signal� into� the� feedback�
�network.�
�Figure� 7.� Transformer� Injection�
�A� 50� ?� resistor� allows� impedance� matching� from� the�
�network� analyzer� source.� This� method� allows� the� DC�
�loop� to� maintain� regulation� and� allow� the� network�
�analyzer� to� insert� an� AC� signal� on� top� of� the� DC� voltage.�
�The� network� analyzer� will� then� sweep� the� source� while�
�Figure� 8.� Op� Amp� Injection�
�R1� and� R2� reduce� the� DC� voltage� from� the� output� to� the�
�non-inverting� input� by� half.� The� network� analyzer� is�
�generally� a� 50� ?� source.� R1� and� R2� also� divide� the� AC�
�signal� sourced� by� the� network� analyzer� by� half.� These�
�two� signals� are� “summed”� together� at� half� of� their�
�original� input.� The� output� is� then� gained� up� by� 2� by� R3�
�and� R4� (the� 50� ?� is� to� balance� the� network� analyzer’s�
�source� impedance)� and� sent� to� the� feedback� signal.� This�
�essentially� breaks� the� loop� and� injects� the� AC� signal� on�
�top� of� the� DC� output� voltage� and� sends� it� to� the�
�feedback.� By� monitoring� the� feedback� “R”� and� output�
�“A”,� gain� and� phase� are� measured.� This� method� has� no�
�minimum� frequency.� Ensure� that� the� bandwidth� of� the�
�op-amp� being� used� is� much� greater� than� the� expected�
�bandwidth� of� the� power� supplies� control� loop.� An� op-amp�
�with� >100MHz� bandwidth� is� more� than� sufficient� for� most�
�monitoring� A� and� R� for� an� A/R� measurement.� While� this�
�power� supplies�
�(which�
�includes�
�both�
�linear�
�and�
�is� the� most� common� method� for� measuring� the� gain� and�
�phase� of� a� power� supply,� it� does� have� significant�
�limitations.� First,� to� measure� low� frequency� gain� and�
�phase,� the� transformer� needs� to� be� high� in� inductance.�
�This� makes� frequencies� <100Hz� require� an� extremely�
�large� and� expensive� transformer.� Conversely,� it� must� be�
�able� to� inject� high� frequencies.� Transformers� with� these�
�wide� frequency� ranges� generally� need� to� be� custom�
�made� and� are� extremely� expensive� (usually� in� the� tune�
�of� several� hundred� dollars!).� By� using� an� op-amp,� cost�
�switching)� and� are� more� common� and� significantly�
�cheaper� than� the� injection� transformers� previously�
�mentioned.� The� one� disadvantage� to� using� the� op-amp�
�injection� method;� is� the� supply� voltages� need� to� below�
�the� maximum� operating� voltage� of� the� op-amp.� Also,� the�
�maximum� output� voltage� for� driving� 50� ?� inputs� using� the�
�MIC922� is� 3V.� For� measuring� higher� output� voltages,�
�1M� ?� input� impedance� is� required� for� the� A� and� R�
�channels.� Remember� to� always� measure� the� output�
�voltage� with� an� oscilloscope� to� ensure� the� measurement�
�and� frequency�
�limitations�
�used�
�by�
�an� injection�
�is� working� properly.� You� should� see� a� single� sweeping�
�transformer�
�are�
�completely�
�eliminated.�
�Figure�
�8�
�sinusoidal� waveform� without� distortion� on� the� output.� If�
�demonstrates� using� an� op-amp� in� a� summing� amplifier�
�configuration� for� signal� injection.�
�there� is� distortion� of� the� sinusoid,� reduce� the� amplitude�
�of� the� source� signal.� You� could� be� overdriving� the�
�feedback� causing� a� large� signal� response.�
�June� 2008�
�13�
�M9999-062408-A�
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