参数资料
| 型号: | EL7642AILTZ |
| 厂商: | Intersil |
| 文件页数: | 17/19页 |
| 文件大小: | 0K |
| 描述: | IC CONV DC/DC TFT-LCD 32-QFN |
| 标准包装: | 72 |
| 应用: | 转换器,TFT,LCD |
| 输入电压: | 2.6 V ~ 5.5 V |
| 输出数: | 7 |
| 输出电压: | 5.5 V ~ 20 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 32-WFQFN 裸露焊盘 |
| 供应商设备封装: | 32-TQFN-EP(5x5) |
| 包装: | 散装 |
��
�
�EL7640A,� EL7641A,� EL7642A�
�?� V� V� g�
�(� R� i� ||� R� L� )� ?� C� L�
�?� t�
�supplies.� A� high� quality� layout/design� of� the� PCB,� in� respect�
�of� grounding� quality� and� decoupling� is� necessary� to� avoid�
�falsely� triggering� the� fault� detection� scheme� –� especially�
�during� start-up.� The� user� is� directed� to� the� layout� guidelines�
�and� component� selection� sections� to� avoid� problems� during�
�initial� evaluation� and� prototype� PCB� generation.�
�V� ON� -Slice� Circuit�
�The� V� ON� -slice� Circuit� functions� as� a� three� way� multiplexer,�
�switching� the� voltage� on� COM� between� ground,� DRN� and�
�SRC,� under� control� of� the� start-up� sequence� and� the� CTL� pin.�
�During� the� start-up� sequence,� COM� is� held� at� ground� via� an�
�NDMOS� FET,� with� ~1k� impedance.� Once� the� start-up�
�sequence� has� completed,� CTL� is� enabled� and� acts� as� a�
�multiplexer� control� such� that� if� CTL� is� low,� COM� connects� to�
�DRN� through� a� 5� ?� internal� MOSFET,� and� if� CTL� is� high,�
�COM� connects� to� SRC� via� a� 30� ?� MOSFET.�
�The� slew� rate� of� start-up� of� the� switch� control� circuit� is� mainly�
�restricted� by� the� load� capacitance� at� COM� pin� as� in� the�
�following� equation:�
�--------� =� ------------------------------------�
�Where� V� g� is� the� supply� voltage� applied� to� the� switch� control�
�circuit,� R� i� is� the� resistance� between� COM� and� DRN� or� SRC�
�including� the� internal� MOSFET� r� DS(ON)� ,� the� trace� resistance�
�and� the� resistor� inserted,� R� L� is� the� load� resistance� of� the�
�switch� control� circuit,� and� C� L� is� the� load� capacitance� of� the�
�Driving� Capacitive� Loads�
�EL7640A,� EL7641A� and� EL7642A� can� drive� a� wide� range� of�
�capacitive� loads.� As� load� capacitance� increases,� however,�
�the� –3dB� bandwidth� of� the� device� will� decrease� and� the�
�peaking� will� increase.� The� amplifiers� drive� 10pF� loads� in�
�parallel� with� 10k� ?� with� just� 1.5dB� of� peaking,� and� 100pF�
�with� 6.4dB� of� peaking.� If� less� peaking� is� desired� in� these�
�applications,� a� small� series� resistor� (usually� between� 5� ?� and�
�50� ?� )� can� be� placed� in� series� with� the� output.� However,� this�
�will� obviously� reduce� the� gain.� Another� method� of� reducing�
�peaking� is� to� add� a� “snubber”� circuit� at� the� output.� A� snubber�
�is� a� shunt� load� consisting� of� a� resistor� in� series� with� a�
�capacitor.� Values� of� 150� ?� and� 10nF� are� typical.� The�
�advantage� of� a� snubber� is� that� it� does� not� draw� any� DC� load�
�current� and� reduce� the� gain.�
�Over-Temperature� Protection�
�An� internal� temperature� sensor� continuously� monitors� the�
�die� temperature.� In� the� event� that� the� die� temperature�
�exceeds� the� thermal� trip� point,� the� device� will� be� latched� off�
�until� either� the� input� supply� voltage� or� enable� is� cycled.�
�Layout� Recommendation�
�The� device’s� performance� including� efficiency,� output� noise,�
�transient� response� and� control� loop� stability� is� dramatically�
�affected� by� the� PCB� layout.� PCB� layout� is� critical,� especially�
�at� high� switching� frequency.�
�There� are� some� general� guidelines� for� layout:�
�switch� control� circuit.�
�1.� Place� the� external� power� components� (the� input�
�V� DRN� =� -------------------------------------------------------------� 8�
�In� the� Typical� Application� Circuit,� R� 8� ,� R� 9� and� C� 8� give� the�
�bias� to� DRN� based� on� the� following� equation:�
�V� ON� ?� R� 9� +� A� VDD� ?� R�
�R� 8� +� R� 9�
�and� R� 10� can� be� adjusted� to� adjust� the� slew� rate.�
�Op� Amps�
�The� EL7640A,� EL7641A� and� EL7642A� have� 1,� 3� and� 5�
�amplifiers� respectively.� The� op� amps� are� typically� used� to�
�drive� the� TFT-LCD� backplane� (V� COM� )� or� the� gamma-�
�correction� divider� string.� They� feature� rail-to-rail� input� and�
�output� capability,� they� are� unity� gain� stable,� and� have� low�
�power� consumption� (typical� 600� μ� A� per� amplifier).� The�
�EL7640A,� EL7641A� and� EL7642A� have� a� –3dB� bandwidth�
�of� 12MHz� while� maintaining� a� 10V/� μ� s� slew� rate.�
�Short� Circuit� Current� Limit�
�The� EL7640A,� EL7641A� and� EL7642A� will� limit� the� short�
�circuit� current� to� ±180mA� if� the� output� is� directly� shorted� to�
�the� positive� or� the� negative� supply.� If� an� output� is� shorted� for�
�a� long� time,� the� junction� temperature� will� trigger� the� Over�
�Temperature� Protection� limit� and� hence� the� part� will� shut�
�down.�
�17�
�capacitors,� output� capacitors,� boost� inductor� and� output�
�diodes,� etc.)� in� close� proximity� to� the� device.� Traces� to�
�these� components� should� be� kept� as� short� and� wide� as�
�possible� to� minimize� parasitic� inductance� and� resistance.�
�2.� Place� V� REF� and� V� DD� bypass� capacitors� close� to� the� pins.�
�3.� Reduce� the� loop� with� large� AC� amplitudes� and� fast� slew�
�rate.�
�4.� The� feedback� network� should� sense� the� output� voltage�
�directly� from� the� point� of� load,� and� be� as� far� away� from� LX�
�node� as� possible.�
�5.� The� power� ground� (PGND)� and� signal� ground� (SGND)�
�pins� should� be� connected� at� only� one� point.�
�6.� The� exposed� die� plate,� on� the� underneath� of� the�
�package,� should� be� soldered� to� an� equivalent� area� of�
�metal� on� the� PCB.� This� contact� area� should� have� multiple�
�via� connections� to� the� back� of� the� PCB� as� well� as�
�connections� to� intermediate� PCB� layers,� if� available,� to�
�maximize� thermal� dissipation� away� from� the� IC.�
�7.� To� minimize� the� thermal� resistance� of� the� package� when�
�soldered� to� a� multi-layer� PCB,� the� amount� of� copper� track�
�and� ground� plane� area� connected� to� the� exposed� die�
�plate� should� be� maximized� and� spread� out� as� far� as�
�possible� from� the� IC.� The� bottom� and� top� PCB� areas�
�especially� should� be� maximized� to� allow� thermal�
�dissipation� to� the� surrounding� air.�
�FN6270.0�
�May� 15,� 2006�
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