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参数资料
| 型号: | XC9235A15CER-G |
| 厂商: | Torex Semiconductor Ltd |
| 文件页数: | 18/34页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK SYNC 1.5V 0.6A USP-6 |
| 标准包装: | 3,000 |
| 类型: | 降压(降压) |
| 输出类型: | 固定 |
| 输出数: | 1 |
| 输出电压: | 1.5V |
| 输入电压: | 2 V ~ 6 V |
| 频率 - 开关: | 1.2MHz |
| 电流 - 输出: | 600mA |
| 同步整流器: | 是 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 6-UFDFN 裸露焊盘 |
| 包装: | 带卷 (TR) |
| 供应商设备封装: | USP-6C |
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�XC9235/XC9236/XC9237� Series�
�■� NOTE� ON� USE�
�1.� For� temporary,� transitional� voltage� drop� or� voltage� rising� phenomenon,� the� IC� is� liable� to� malfunction� should� the� ratings� be�
�exceeded.�
�2.� The� XC9235/XC9236/XC9237� series� is� designed� for� use� with� ceramic� output� capacitors.� If,� however,� the� potential�
�difference� is� too� large� between� the� input� voltage� and� the� output� voltage,� a� ceramic� capacitor� may� fail� to� absorb� the� resulting�
�high� switching� energy� and� oscillation� could� occur� on� the� output.�
�If� the� input-output� potential� difference� is� large,� connect� an�
�electrolytic� capacitor� in� parallel� to� compensate� for� insufficient� capacitance.�
�3.� Spike� noise� and� ripple� voltage� arise� in� a� switching� regulator� as� with� a� DC/DC� converter.� These� are� greatly� influenced� by�
�external� component� selection,� such� as� the� coil� inductance,� capacitance� values,� and� board� layout� of� external� components.�
�Once� the� design� has� been� completed,� verification� with� actual� components� should� be� done.�
�4.� Depending� on� the� input-output� voltage� differential,� or� load� current,� some� pulses� may� be� skipped,� and� the� ripple� voltage� may�
�increase.�
�5.� When� the� difference� between� V� IN� and� V� OUT� is� large� in� PWM� control,� very� narrow� pulses� will� be� outputted,� and� there� is� the�
�possibility� that� some� cycles� may� be� skipped� completely.�
�6.� When� the� difference� between� V� IN� and� V� OUT� is� small,� and� the� load� current� is� heavy,� very� wide� pulses� will� be� outputted� and�
�there� is� the� possibility� that� some� cycles� may� be� skipped� completely.�
�7.� With� the� IC,� the� peak� current� of� the� coil� is� controlled� by� the� current� limit� circuit.� Since� the� peak� current� increases� when�
�dropout� voltage� or� load� current� is� high,� current� limit� starts� operation,� and� this� can� lead� to� instability.� When� peak� current�
�becomes� high,� please� adjust� the� coil� inductance� value� and� fully� check� the� circuit� operation.� In� addition,� please� calculate�
�the� peak� current� according� to� the� following� formula:�
�Ipk� =� (V� IN� -� V� OUT� )� x� OnDuty� /� (2� x� L� x� f� OSC� )� +� I� OUT�
�L:� Coil� Inductance� Value�
�f� OSC� :� Oscillation� Frequency�
�8.� When� the� peak� current� which� exceeds� limit� current� flows� within� the� specified� time,� the� built-in� Pch� MOS� driver� transistor�
�turns� off.� During� the� time� until� it� detects� limit� current� and� before� the� built-in� transistor� can� be� turned� off,� the� current� for� limit�
�current� flows;� therefore,� care� must� be� taken� when� selecting� the� rating� for� the� external� components� such� as� a� coil.�
�9.� When� V� IN� is� less� than� 2.4V,� limit� current� may� not� be� reached� because� voltage� falls� caused� by� ON� resistance.�
�10.� Care� must� be� taken� when� laying� out� the� PC� Board,� in� order� to� prevent� misoperation� of� the� current� limit� mode.� Depending�
�on� the� state� of� the� PC� Board,� latch� time� may� become� longer� and� latch� operation� may� not� work.� In� order� to� avoid� the� effect� of�
�noise,� the� board� should� be� laid� out� so� that� input� capacitors� are� placed� as� close� to� the� IC� as� possible.�
�11.� Use� of� the� IC� at� voltages� below� the� recommended� voltage� range� may� lead� to� instability.�
�12.� This� IC� should� be� used� within� the� stated� absolute� maximum� ratings� in� order� to� prevent� damage� to� the� device.�
�13.� When� the� IC� is� used� in� high� temperature,� output� voltage� may� increase� up� to� input� voltage� level� at� no� load� because� of� the�
�leak� current� of� the� driver� transistor.�
�14.� The� current� limit� is� set� to� 1350mA� (MAX.)� at� typical.� However,� the� current� of� 1350mA� or� more� may� flow.� In� case� that� the�
�current� limit� functions� while� the� V� OUT� pin� is� shorted� to� the� GND� pin,� when� Pch� MOS� driver� transistor� is� ON,� the� potential�
�difference� for� input� voltage� will� occur� at� both� ends� of� a� coil.�
�For� this,� the� time� rate� of� coil� current� becomes� large.� By�
�contrast,� when� Nch� MOS� driver� transistor� is� ON,� there� is� almost� no� potential� difference� at� both� ends� of� the� coil� since� the�
�V� OUT� pin� is� shorted� to� the� GND� pin.� Consequently,� the� time� rate� of� coil� current� becomes� quite� small.� According� to� the�
�repetition� of� this� operation,� and� the� delay� time� of� the� circuit,� coil� current� will� be� converged� on� a� certain� current� value,�
�exceeding� the� amount� of� current,� which� is� supposed� to� be� limited� originally.� Even� in� this� case,� however,� after� the� over�
�current� state� continues� for� several� ms,� the� circuit� will� be� latched.� A� coil� should� be� used� within� the� stated� absolute�
�maximum� rating� in� order� to� prevent� damage� to� the� device.�
�①� Current� flows� into� Pch� MOS� driver� transistor� to� reach� the� current� limit� (I� LIM� ).�
�②� The� current� of� I� LIM� or� more� flows� since� the� delay� time� of� the� circuit� occurs� during� from� the� detection� of� the� current� limit� to�
�OFF� of� Pch� MOS� driver� transistor.�
�③� Because� of� no� potential� difference� at� both� ends� of� the� coil,� the� time� rate� of� coil� current� becomes� quite� small.�
�④� Lx� oscillates� very� narrow� pulses� by� the� current� limit� for� several� ms.�
�⑤� The� circuit� is� latched,� stopping� its� operation.�
�18/34�
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