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| 型号: | LT1375CS8-5#TR |
| 厂商: | Linear Technology |
| 文件页数: | 21/28页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK 5V 1.5A 8SOIC |
| 标准包装: | 2,500 |
| 类型: | 降压(降压) |
| 输出类型: | 固定 |
| 输出数: | 1 |
| 输出电压: | 5V |
| 输入电压: | 5 V ~ 25 V |
| PWM 型: | 电流模式 |
| 频率 - 开关: | 500kHz |
| 电流 - 输出: | 1.5A |
| 同步整流器: | 无 |
| 工作温度: | 0°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | 8-SOIC |
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�LT1375/LT1376�
�APPLICATIO� N� S� I� N� FOR� M� ATIO� N�
�77dB� at� low� frequency,� rolling� off� to� unity-gain� at� 20kHz.�
�Phase� shows� a� two-pole� characteristic� until� the� ESR� of� the�
�output� capacitor� brings� it� back� above� 10kHz.� Phase� mar-�
�gin� is� about� 60� °� at� unity-gain.�
�Analog� experts� will� note� that� around� 1kHz,� phase� dips� very�
�close� to� the� zero� phase� margin� line.� This� is� typical� of� switch-�
�ing� regulators,� especially� those� that� operate� over� a� wide�
�range� of� loads.� This� region� of� low� phase� is� not� a� problem�
�as� long� as� it� does� not� occur� near� unity-gain.� In� practice,� the�
�variability� of� output� capacitor� ESR� tends� to� dominate� all�
�other� effects� with� respect� to� loop� response.� Variations� in�
�ESR� will� cause� unity-gain� to� move� around,� but� at� the� same�
�proper� operation� of� the� regulator.� In� the� marginal� case,�
�subharmonic� switching� occurs,� as� evidenced� by� alternat-�
�ing� pulse� widths� seen� at� the� switch� node.� In� more� severe�
�cases,� the� regulator� squeals� or� hisses� audibly� even� though�
�the� output� voltage� is� still� roughly� correct.� None� of� this� will�
�show� on� a� theoretical� Bode� plot� because� Bode� is� an�
�amplitude� insensitive� analysis.� Tests� have� shown� that� if�
�ripple� voltage� on� the� V� C� is� held� to� less� than� 100mV� P-P� ,� the�
�LT1376� will� be� well� behaved.� The� formula� below� will� give�
�an� estimate� of� V� C� ripple� voltage� when� R� C� is� added� to� the�
�loop,� assuming� that� R� C� is� large� compared� to� the� reactance�
�of� C� C� at� 500kHz.�
�time� phase� moves� with� it� so� that� adequate� phase� margin�
�is� maintained� over� a� very� wide� range� of� ESR� (� ≥� ±� 3:1).�
�What� About� a� Resistor� in� the� Compensation� Network?�
�V� C� (� RIPPLE� )� =�
�(� R� C� )(� G� MA� )(� V� IN� ?� V� OUT� )(� ESR� )(� 2� .� 4� )�
�(� V� IN� )(� L� )(� f� )�
�(� =� 3� k� )� ??� 2� ?� 10� ??� (� 10� ?� 5� )(� 0� .� 1� )(� 2� .� 4� )� =� 0� .� 144� V�
�(� )� ??� 10� ?� 10� ?� ?� ??� 500� ?� 10� ??�
�V� C� (� RIPPLE� )� ?� 6� 3�
�)� (� )(� )(� )(� )�
�(�
�R� C� Loop� Gain� =� 1� =�
�Itiscommonpracticeinswitchingregulatordesigntoadd�
�a� “zero”� to� the� error� amplifier� compensation� to� increase�
�loop� phase� margin.� This� zero� is� created� in� the� external�
�network� in� the� form� of� a� resistor� (R� C� )� in� series� with� the�
�compensation� capacitor.� Increasing� the� size� of� this� resis-�
�tor� generally� creates� better� and� better� loop� stability,� but�
�there� are� two� limitations� on� its� value.� First,� the� combina-�
�tion� of� output� capacitor� ESR� and� a� large� value� for� R� C� may�
�cause� loop� gain� to� stop� rolling� off� altogether,� creating� a�
�gain� margin� problem.� An� approximate� formula� for� R� C�
�where� gain� margin� falls� to� zero� is:�
�V� OUT�
�G� MP� G� MA� ESR� 2� .� 42�
�G� MP� =� Transconductance� of� power� stage� =� 2A/V�
�G� MA� =� Error� amplifier� transconductance� =� 2� ×� 10� –3�
�ESR� =� Output� capacitor� ESR�
�2.42� =� Reference� voltage�
�With� V� OUT� =� 5V� and� ESR� =� 0.1� ?� ,� a� value� of� 5.17k� for� R� C�
�would� yield� zero� gain� margin,� so� this� represents� an� upper�
�limit.� There� is� a� second� limitation� however� which� has�
�nothing� to� do� with� theoretical� small� signal� dynamics.� This�
�resistor� sets� high� frequency� gain� of� the� error� amplifier,�
�G� MA� =� Error� amplifier� transconductance� (2000� μ� Mho)�
�If� a� computer� simulation� of� the� LT1376� showed� that� a�
�series� compensation� resistor� of� 3k� gave� best� overall� loop�
�response,� with� adequate� gain� margin,� the� resulting� V� C� pin�
�ripple� voltage� with� V� IN� =� 10V,� V� OUT� =� 5V,� ESR� =� 0.1� ?� ,�
�L� =� 10� μ� H,� would� be:�
�?� 3�
�10�
�This� ripple� voltage� is� high� enough� to� possibly� create�
�subharmonic� switching.� In� most� situations� a� compromise�
�value� (<� 2k� in� this� case)� for� the� resistor� gives� acceptable�
�phase� margin� and� no� subharmonic� problems.� In� other�
�cases,� the� resistor� may� have� to� be� larger� to� get� acceptable�
�phase� response,� and� some� means� must� be� used� to� control�
�ripple� voltage� at� the� V� C� pin.� The� suggested� way� to� do� this�
�is� to� add� a� capacitor� (C� F� )� in� parallel� with� the� R� C� /C� C� network�
�on� the� V� C� pin.� Pole� frequency� for� this� capacitor� is� typically�
�set� at� one-fifth� of� switching� frequency� so� that� it� provides�
�significant� attenuation� of� switching� ripple,� but� does� not�
�add� unacceptable� phase� shift� at� loop� unity-gain� frequency.�
�With� R� C� =� 3k,�
�2� π� ??� 500� ?� 10� ?� (� 3� k� )�
�includingthegainattheswitchingfrequency.Ifswitching�
�frequency� gain� is� high� enough,� output� ripple� voltage� will�
�appear� at� the� V� C� pin� with� enough� amplitude� to� muck� up�
�C� F� =�
�5�
�(� 2� π� )(� f� )(� R� C� )�
�=�
�5�
�3�
�=� 531� pF�
�13756fd�
�21�
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