参数资料
| 型号: | NCP5810DMUTXG |
| 厂商: | ON Semiconductor |
| 文件页数: | 11/14页 |
| 文件大小: | 0K |
| 描述: | IC AMOLED DRIVER DUAL 1W 12UDFN |
| 产品变化通告: | Product Obsolescence 14/Apr/2010 |
| 标准包装: | 1 |
| 显示器类型: | AMOLED |
| 配置: | 显示矩阵 |
| 电流 - 电源: | 1.5mA |
| 电源电压: | 2.7 V ~ 4.6 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 12-UFDFN 裸露焊盘 |
| 供应商设备封装: | 12-UDFN(3x3) |
| 包装: | 标准包装 |
| 其它名称: | NCP5810DMUTXGOSDKR |
��
�
�NCP5810D�
�too� high� to� keep� good� voltage� accuracy.� Therefore� it� is�
�R� 1� +� R� 2�
�FBN� SWN�
�7�
�R2�
�10�
�D1�
�L2�
�4.7� μ� H�
�C4�
�4.7� μ� F�
�VOUTN�
�D2�
�recommended� to� use� values� in� the� 10� k� W� to� 100� k� W� range�
�for� the� lower� resistor� R2.� The� upper� feedback� resistor� R1�
�can� calculated� using� the� following� equation:�
�V� OUTN� *� V� FBN�
�V� FBN� *� V� REF�
�R1�
�MM3Z_XX�
�But� :� V� FBN� +�
�V� REF�
�2�
�C6�
�Figure� 17.� Zener� Protection�
�So:� R� 1� +� R� 2�
�1� )�
�2�
�V� OUTN�
�V� REF�
�Zener� voltage� must� choose� to� be� 25� %� above� steady� state�
�voltage� operation� setup.� For� example,� if� one� needs� V� OUTN�
�=� -5.4� V,� V� Z� =� 5.4� +� 25� %� =� 6.8� V.� Some� recommended�
�zener� diodes� include� but� are� not� limited� to:�
�For� example,� should� one� need� –5.4� V� for� V� OUTN� ,� if� a�
�56� k� W� ±� 1%� is� selected� of� R2,� R1� should� be� selected�
�according� to� the� following� equation:�
�1� )� 2� 5.4� +� 536� k� W� "� 1%�
�ON� SEMICONDUCTOR:� MM3Z6V8T1�
�Enable�
�R� 1� +� 56�
�1.265�
�I� PEAK_P� +�
�)�
�h� P� (1� *� D� P� )�
�L� P�
�I� PEAK_N� +�
�)�
�h� N� (1� *� D� N� )�
�L� N�
�This� input� logic� allows� enabling� and� disabling� the�
�converter.� An� active� high� logic� level� on� this� pin� enables� the�
�device.� A� built-in� pull-down� resistor� disables� the� device� if�
�the� pin� is� left� open.�
�True� Shut� Down�
�When� in� disable� condition,� the� switch� MP0� is� turned� off�
�and� truly� isolates� the� battery� from� the� output.� The� True� shut�
�down� eliminates� the� leakage� current� from� the� battery� to� the�
�load� and� significantly� reduces� battery� consumption� during�
�disable� condition,� thus� increasing� battery� life.�
�Inrush� Current� Limiting� Circuitry�
�Before� the� NCP5810D� boost� converter� is� turned� on,� it� is�
�unknown� whether� the� output� capacitor� COUTP� is� charged�
�or� discharged.� If� the� output� capacitor� is� discharged,� a�
�common� boost� converter� shows� high� inductor� inrush�
�current� at� start-up.� The� internal� circuitry� of� the� NCP5810D�
�has� been� carefully� designed� to� limit� the� amplitude� of� the�
�inrush� current� at� start-up.�
�Thermal� Shutdown�
�When� the� IC� junction� temperature� exceeds� 165� °� C� (nom),�
�the� power� section� of� the� device� is� disabled.� Normal�
�operation� will� resume� when� the� junction� temperature� drops�
�below� 150� °� C� (nom).�
�Design� Procedure�
�Buck-Boost� Inverter� Output� Voltage� Setting�
�The� output� voltage� of� the� buck-boost� inverter� is� also�
�adjusted� using� external� feedback� resistors,� and� can� be� set�
�from� -2� V� down� to� -15� V.� Unlike� for� the� boost� converter,�
�the� lower� feedback� resistor� R2� does� not� use� the� ground� as�
�a� reference� but� uses� the� reference� voltage� (nom� 1.265� V).�
�R2� is� placed� between� the� feedback� pin� FBN� (nom� 632� mV)�
�and� the� reference� pin� REF.� As� for� the� boost� converter,� the�
�current� flowing� out� of� the� feedback� resistors� must� be� as� low�
�as� possible� to� ensure� high� efficiency� in� low� load� conditions.�
�Components� Selection�
�Inductor� Selection�
�Three� different� electrical� parameters� need� to� be�
�considered� when� selecting� an� inductor,� the� absolute� value�
�of� the� inductor,� the� saturation� current� and� the� DCR.� During�
�normal� operation,� the� NCP5810D� is� intended� to� operate� in�
�Continuous� Conduction� Mode� (CCM).� The� two� equations�
�below� can� be� used� to� calculate� the� peak� current� for� each�
�converters:�
�I� OUT_P� V� IN� D� P�
�2� F�
�For� the� boost� converter�
�I� OUT_N� D� N� V� IN� D� N�
�2� F�
�For� the� buck-boost� inverter�
�Where� V� IN� is� the� battery� voltage,� I� OUT_X� is� the� load�
�current,� L� the� inductor� value,� F� the� switching� frequency,�
�and� D� X� the� duty� cycle.�
�The� global� converter� efficiency� h� varies� with� load�
�current.� A� good� approximation� is� to� use� h� =� 0.8� from� the�
�boost� and� h� =� 0.75� for� the� buck-boost� inverter.� It� is�
�important� to� ensure� that� the� inductor� current� rating� is� high�
�enough� such� that� it� not� saturate.� As� the� inductor� size� is�
�reduced,� the� peak� current� for� a� given� set� of� conditions�
�increases� along� with� higher� current� ripple� so� it� is� not�
�possible� to� deliver� maximum� output� power� at� lower�
�inductor� values.� Finally� an� acceptable� DCR� must� be�
�selected� regarding� losses� in� the� coil� and� must� be� lower� than�
�300� m� W� to� limit� excessive� voltage� drop.� In� addition,� as�
�DCR� is� reduced,� overall� efficiency� will� improve.� The�
�inductor� value� should� range� between� 2.7� m� H� and� 6.8� m� H,�
�typically� for� each� DC/DC� converter,� it� is� recommended� to�
�use� a� 4.7� m� H� low� profile� inductor.� Some� recommended�
�inductors� include� but� are� not� limited� to:�
�Nevertheless� the� feedback� resistor� impedance� must� not� be�
�http://onsemi.com�
�11�
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| NCP5810MUTXG | 功能描述:直流/直流开关转换器 DUAL 1 W AMOLED DRVR SUPPLY RoHS:否 制造商:STMicroelectronics 最大输入电压:4.5 V 开关频率:1.5 MHz 输出电压:4.6 V 输出电流:250 mA 输出端数量:2 最大工作温度:+ 85 C 安装风格:SMD/SMT |
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