参数资料
| 型号: | NCP3126ADR2G |
| 厂商: | ON Semiconductor |
| 文件页数: | 11/23页 |
| 文件大小: | 0K |
| 描述: | IC REG BUCK SYNC ADJ 3A 8SOIC |
| 标准包装: | 1 |
| 类型: | 降压(降压) |
| 输出类型: | 可调式 |
| 输出数: | 1 |
| 输出电压: | 可调至 0.8V |
| 输入电压: | 4.5 V ~ 13.2 V |
| PWM 型: | 电压模式 |
| 频率 - 开关: | 350kHz |
| 电流 - 输出: | 3A |
| 同步整流器: | 是 |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 8-SOIC(0.154",3.90mm 宽) |
| 包装: | 标准包装 |
| 供应商设备封装: | 8-SOICN |
| 其它名称: | NCP3126ADR2GOSDKR |
��
�
�NCP3126�
�LP� _DC� +� I� RMS� 2� @� DCR� 3�
�173� mW� +� 3.01� A� 2� @� 19.1� m� W�
�(eq.� 11)�
�The� ESL� of� capacitors� depends� on� the� technology� chosen,�
�but� tends� to� range� from� 1� nH� to� 20� nH,� where� ceramic�
�capacitors� have� the� lowest� inductance� and� electrolytic�
�V� ESLON� +� 3�
�D�
�10� nH� *� 0.84� A� *� 350� kHz�
�15.27� mV� +�
�I� RMS� =� Inductor� RMS� current�
�DCR� =� Inductor� DC� resistance�
�LP� CU_DC� =� Inductor� DC� power� dissipation�
�The� core� losses� and� AC� copper� losses� will� depend� on� the�
�geometry� of� the� selected� core,� core� material,� and� wire� used.�
�Most� vendors� will� provide� the� appropriate� information� to�
�make� accurate� calculations� of� the� power� dissipation� at� which�
�point� the� total� inductor� losses� can� be� captured� by� the�
�capacitors� have� the� highest.� The� calculated� contributing�
�voltage� ripple� from� ESL� is� shown� for� the� switch� on� and�
�switch� off� below:�
�ESL� *� Ipp� *� F� SW�
�(eq.� 15)�
�27.5%�
�V� ESLOFF� +� 3�
�equation� below:�
�LP� tot� +� LP� CU_DC� )� LP� CU_AC� )� LP� Core� 3�
�185� mW� +� 173� mW� )� 0� mW� )� 12� mW�
�LP� CU_DC� =� Inductor� DC� power� dissipation�
�LP� CU_AC� =� Inductor� AC� power� dissipation�
�LP� Core� =� Inductor� core� power� dissipation�
�(eq.� 12)�
�ESL� *� Ipp� *� F� SW�
�(1� *� D� )�
�10 nH * 0.84 A * 350 kHz�
�5.79� mV� +�
�1� *� 27.5%�
�D� =� Duty� ratio�
�ESL� =� Capacitor� inductance�
�(eq.� 16)�
�Co� RMS� +� I� OUT� @�
�3� 0.243� A� +� 3� A�
�V� ESR_C� +� I� OUT� *� ra� *� Co� ESR� )�
�3�
�42.64� mV� +� 3� *� 28%� *� 50� m� W� )�
�(eq.� 18)�
�2A�
�6.8� m� H�
�Output� Capacitor� Selection�
�The� important� factors� to� consider� when� selecting� an�
�output� capacitor� are� DC� voltage� rating,� ripple� current� rating,�
�output� ripple� voltage� requirements,� and� transient� response�
�requirements.�
�The� output� capacitor� must� be� rated� to� handle� the� ripple�
�current� at� full� load� with� proper� derating.� The� RMS� ratings�
�given� in� datasheets� are� generally� for� lower� switching�
�frequency� than� used� in� switch� mode� power� supplies,� but� a�
�multiplier� is� usually� given� for� higher� frequency� operation.�
�The� RMS� current� for� the� output� capacitor� can� be� calculated�
�below:�
�ra� 28%�
�(eq.� 13)�
�12� 12�
�Co� RMS� =� Output� capacitor� RMS� current�
�I� OUT� =� Output� current�
�ra� =� Ripple� current� ratio�
�The� maximum� allowable� output� voltage� ripple� is� a�
�combination� of� the� ripple� current� selected,� the� output�
�capacitance� selected,� the� Equivalent� Series� Inductance�
�(ESL),� and� Equivalent� Series� Resitance� (ESR).�
�The� main� component� of� the� ripple� voltage� is� usually� due�
�to� the� ESR� of� the� output� capacitor� and� the� capacitance�
�selected,� which� can� be� calculated� as� shown� in� Equation� 14:�
�1�
�8� *� F� SW� *� C� OUT�
�(eq.� 14)�
�1�
�8� *� 350� kHz� *� 470� m� F�
�Co� ESR� =� Output� capacitor� ESR�
�C� OUT� =� Output� capacitance�
�F� SW� =� Switching� frequency�
�I� OUT� =� Output� current�
�ra� =� Ripple� current� ratio�
�F� SW� =� Switching� frequency�
�Ipp� =� Peak� ?� to� ?� peak� current�
�The� output� capacitor� is� a� basic� component� for� the� fast�
�response� of� the� power� supply.� For� the� first� few� microseconds�
�of� a� load� transient,� the� output� capacitor� supplies� current� to�
�the� load.� Once� the� regulator� recognizes� a� load� transient,� it�
�adjusts� the� duty� ratio,� but� the� current� slope� is� limited� by� the�
�inductor� value.�
�During� a� load� step� transient,� the� output� voltage� initially�
�drops� due� to� the� current� variation� inside� the� capacitor� and� the�
�ESR� (neglecting� the� effect� of� the� ESL).�
�D� V� OUT� *� ESR� +� I� TRAN� Co� ESR� 3� 100� mV� +� 2.0� 50� m� W�
�(eq.� 17)�
�Co� ESR� =� Output� capacitor� Equivalent� Series�
�Resistance�
�I� TRAN� =� Output� transient� current�
�D� V� OUT_ESR� =� Voltage� deviation� of� V� OUT� due� to� the�
�effects� of� ESR�
�A� minimum� capacitor� value� is� required� to� sustain� the�
�current� during� the� load� transient� without� discharging� it.� The�
�voltage� drop� due� to� output� capacitor� discharge� is� given� by�
�the� following� equation:�
�2�
�I� TRAN� L� OUT�
�D� V� OUT� *� DIS� +� 3�
�2� D� MAX� C� OUT� V� IN� *� V� OUT�
�2�
�4.02� mV� +�
�2� 75%� 470� m� F� 12� V� *� 3.3� V�
�C� OUT� =� Output� capacitance�
�D� MAX� =� Maximum� duty� ratio�
�I� TRAN� =� Output� transient� current�
�L� OUT� =� Output� inductor� value�
�V� IN� =� Input� voltage�
�V� OUT� =� Output� voltage�
�D� V� OUT_DIS� =� Voltage� deviation� of� V� OUT� due� to� the�
�effects� of� capacitor� discharge�
�http://onsemi.com�
�11�
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