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参数资料
| 型号: | LT1425IS#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 11/20页 |
| 文件大小: | 0K |
| 描述: | IC REG FLYBK ISOLATED .2A 16SOIC |
| 标准包装: | 50 |
| 类型: | 回扫,隔离 |
| 输出数: | 1 |
| 输入电压: | 2.8 V ~ 20 V |
| PWM 型: | 电流模式 |
| 频率 - 开关: | 285kHz |
| 电流 - 输出: | 200mA |
| 同步整流器: | 无 |
| 工作温度: | -40°C ~ 100°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-SOIC(0.154",3.90mm 宽) |
| 包装: | 管件 |
| 供应商设备封装: | 16-SOIC |
| 产品目录页面: | 1327 (CN2011-ZH PDF) |
��
�
�LT1425�
�APPLICATIO� N� S� I� N� FOR� M� ATIO� N�
�)� )� )� )�
�V� BG�
�N� SP�
�)� )�
�R� OUT� =� ESR�
�)� )� )� )�
�?� I� SW�
�R� OUT�
�)� )�
�α� =�
�SELECTING� R� FB� AND� R� REF� RESISTOR� VALUES�
�The� expression� for� V� OUT� developed� in� the� Operation�
�section� can� be� rearranged� to� yield� the� following� expres-�
�sion� for� R� FB� :�
�V� OUT� + V� F� + I� SEC� (ESR� )� α�
�R� FB� =� R� REF�
�The� unknown� parameter� α� ,� which� represents� the� fraction�
�of� R� FB� current� flowing� into� the� R� REF� node,� can� be� repre-�
�sented� instead� by� specified� data� sheet� values� as� follows:�
�(I� REF� )(� α� )(3k)� =� V� BG�
�V� BG�
�(I� REF� )(3k)�
�Allowing� the� expression� for� R� FB� to� be� rewritten� as:�
�R� OCOMP� ,� the� external� resistor� value� required� for� its� nomi-�
�nal� compensation:�
�1�
�1� –� DC�
�?� V� RCCOMP� R� FB�
�R� OCOMP� =� K1�
�While� the� value� for� R� OCOMP� may� therefore� be� theoretically�
�determined,� it� is� usually� better� in� practice� to� employ�
�empirical� methods.� This� is� because� several� of� the� required�
�input� variables� are� difficult� to� estimate� precisely.� For�
�instance,� the� ESR� term� above� includes� that� of� the� trans-�
�former� secondary,� but� its� effective� ESR� value� depends� on�
�high� frequency� behavior,� not� simply� DC� winding� resis-�
�tance.� Similarly,� K1� appears� to� be� a� simple� ratio� of� V� IN� to�
�V� OUT� times� (differential)� efficiency,� but� theoretically� esti-�
�R� FB� =� R� REF�
�)�
�V� OUT� + V� F� + I� SEC� (ESR)�
�I� REF� (3k)N� SP�
�)�
�mating� efficiency� is� not� a� simple� calculation.� The� sug-�
�gested� empirical� method� is� as� follows:�
�Build� a� prototype� of� the� desired� supply� using� the�
�where,�
�V� OUT� =� Desired� output� voltage�
�V� F� =� Switching� diode� forward� voltage�
�(I� SEC� )(ESR)� =� Secondary� resistive� losses�
�I� REF� =� Data� sheet� reference� current� value�
�N� SP� =� Effective� secondary-to-primary� turns� ratio�
�Strictly� speaking,� the� above� equation� defines� R� FB� not� as� an�
�absolute� value,� but� as� a� ratio� of� R� REF� .� So� the� next� question�
�is,� “What� is� the� proper� value� for� R� REF� ?”� The� answer� is� that�
�R� REF� should� be� approximately� 3k.� This� is� because� the�
�LT1425� is� trimmed� and� specified� using� this� value� of� R� REF� .�
�If� the� impedance� of� R� REF� varies� considerably� from� 3k,�
�additional� errors� will� result.� However,� a� variation� in� R� REF�
�of� several� percent� or� so� is� perfectly� acceptable.� This� yields�
�a� bit� of� freedom� in� selecting� standard� 1%� resistor� values�
�to� yield� nominal� R� FB� /R� REF� ratios.�
�SELECTING� R� OCOMP� RESISTOR� VALUE�
�The� Operation� section� previously� derived� the� following�
�expressions� for� R� OUT� ,� i.e.,� effective� output� impedance� and�
�eventual� secondary� components.� Temporarily� ground�
�the� R� CCOMP� pin� to� disable� the� load� compensation� func-�
�tion.� Operate� the� supply� over� the� expected� range� of�
�output� current� loading� while� measuring� the� output�
�voltage� deviation.� Approximate� this� variation� as� a� single�
�value� of� R� OUT� (straight� line� approximation).� Calculate� a�
�value� for� the� K1� constant� based� on� V� IN� ,� V� OUT� and� the�
�measured� (differential)� efficiency.� They� are� then� com-�
�bined� with� the� data� sheet� typical� value� for� (� ?� V� RCCOMP� /�
�?� I� SW� )� to� yield� a� value� for� R� OCOMP� .�
�Verify� this� result� by� connecting� a� resistor� of� roughly� this�
�value� from� the� R� OCOMP� pin� to� ground.� (Disconnect� the�
�ground� short� to� R� CCOMP� and� connect� the� requisite�
�0.1� μ� F� filter� capacitor� to� ground.)� Measure� the� output�
�impedance� with� the� new� compensation� in� place.� Modify�
�the� original� R� OCOMP� value� if� necessary� to� increase� or�
�decrease� the� effective� compensation.�
�Once� the� proper� load� compensation� resistor� has� been�
�chosen,� it� may� be� necessary� to� adjust� the� value� of� the�
�R� FB� resistor.� This� is� because� the� load� compensation�
�system� exhibits� some� nonlinearity.� In� particular,� the�
�circuit� can� shift� the� reference� current� by� a� noticeable�
�11�
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