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| 型号: | MAX8795AGCJ+T |
| 厂商: | Maxim Integrated Products |
| 文件页数: | 25/31页 |
| 文件大小: | 0K |
| 描述: | IC CONV DC-DC TFT-LCD 32LQFP |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,000 |
| 应用: | 转换器,TFT,LCD |
| 输入电压: | 2.5 V ~ 6 V |
| 输出数: | 8 |
| 输出电压: | 2.5 V ~ 18 V |
| 工作温度: | -40°C ~ 105°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 32-LQFP |
| 供应商设备封装: | 32-LQFP(7x7) |
| 包装: | 带卷 (TR) |
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�TFT-LCD� DC-DC� Converter� with�
�Operational� Amplifiers�
�Step-Up� Regulator�
�The� largest� portions� of� power� dissipation� in� the� step-up�
�regulator� are� the� internal� MOSFET,� the� inductor,� and� the�
�output� diode.� If� the� step-up� regulator� has� 90%� efficiency,�
�approximately� 3%� to� 5%� of� the� power� is� lost� in� the� internal�
�MOSFET,� approximately� 3%� to� 4%� in� the� inductor,� and�
�approximately� 1%� in� the� output� diode.� The� remaining� 1%�
�to� 3%� is� distributed� among� the� input� and� output� capacitors�
�and� the� PCB� traces.� If� the� input� power� is� about� 5W,� the�
�power� lost� in� the� internal� MOSFET� is� approximately� 150mW�
�to� 250mW.�
�Operational� Amplifier�
�The� power� dissipated� in� the� operational� amplifiers�
�depends� on� their� output� current,� the� output� voltage,�
�and� the� supply� voltage:�
�PD� SOURCE� =� I� OUT� _(� SOURCE� )� � (� V� SUP� ?� V� OUT� _� )�
�PD� SINK� =� I� OUT� _(� SINK� )� � V� OUT� _�
�where� I� OUT_(SOURCE)� is� the� output� current� sourced� by�
�the� operational� amplifier,� and� I� OUT_(SINK)� is� the� output�
�current� that� the� operational� amplifier� sinks.�
�In� a� typical� case� where� the� supply� voltage� is� 13V� and�
�the� output� voltage� is� 6V� with� an� output� source� current�
�of� 30mA,� the� power� dissipated� is� 180mW.�
�PCB� Layout� and� Grounding�
�Careful� PCB� layout� is� important� for� proper� operation.�
�Use� the� following� guidelines� for� good� PCB� layout:�
�?� Minimize� the� area� of� high-current� loops� by� placing�
�the� inductor,� the� output� diode,� and� the� output�
�capacitors� near� the� input� capacitors� and� near� the�
�LX� and� PGND� pins.� The� high-current� input� loop�
�goes� from� the� positive� terminal� of� the� input� capacitor�
�to� the� inductor,� to� the� IC’s� LX� pin,� out� of� PGND,� and�
�to� the� input� capacitor’s� negative� terminal.� The� high-�
�current� output� loop� is� from� the� positive� terminal� of�
�the� input� capacitor� to� the� inductor,� to� the� output�
�diode� (D1),� and� to� the� positive� terminal� of� the� output�
�capacitors,� reconnecting� between� the� output� capac-�
�itor� and� input� capacitor� ground� terminals.� Connect�
�these� loop� components� with� short,� wide� connec-�
�tions.� Avoid� using� vias� in� the� high-current� paths.� If�
�vias� are� unavoidable,� use� many� vias� in� parallel� to�
�reduce� resistance� and� inductance.�
�?� Create� a� power-ground� island� (PGND)� consisting� of�
�the� input� and� output� capacitor� grounds,� PGND� pin,�
�and� any� charge-pump� components.� Connect� all� of�
�these� together� with� short,� wide� traces� or� a� small�
�ground� plane.� Maximizing� the� width� of� the� power-�
�ground� traces� improves� efficiency� and� reduces� out-�
�put� voltage� ripple� and� noise� spikes.� Create� an�
�analog� ground� plane� (AGND)� consisting� of� the�
�AGND� pin,� all� the� feedback-divider� ground� connec-�
�tions,� the� operational-amplifier� divider� ground� con-�
�nections,� the� COMP� and� DEL� capacitor� ground�
�connections,� and� the� device’s� exposed� backside�
�paddle.� Connect� the� AGND� and� PGND� islands� by�
�connecting� the� PGND� pin� directly� to� the� exposed�
�backside� paddle.� Make� no� other� connections�
�between� these� separate� ground� planes.�
�?� Place� all� feedback� voltage-divider� resistors� within�
�5mm� of� their� respective� feedback� pins.� The� divider’s�
�center� trace� should� be� kept� short.� Placing� the� resis-�
�tors� far� away� causes� their� FB� traces� to� become�
�antennas� that� can� pick� up� switching� noise.� Take�
�care� to� avoid� running� any� feedback� trace� near� LX� or�
�the� switching� nodes� in� the� charge� pumps,� or� pro-�
�vide� a� ground� shield.�
�?� Place� the� IN� pin� and� REF� pin� bypass� capacitors� as�
�close� as� possible� to� the� device.� The� ground� connec-�
�tion� of� the� IN� bypass� capacitor� should� be� connected�
�directly� to� the� AGND� pin� with� a� wide� trace.�
�?� Minimize� the� length� and� maximize� the� width� of� the�
�traces� between� the� output� capacitors� and� the� load�
�for� best� transient� responses.�
�?� Minimize� the� size� of� the� LX� node� while� keeping� it�
�wide� and� short.� Keep� the� LX� node� away� from� feed-�
�back� nodes� (FB,� FBP,� and� FBN)� and� analog� ground.�
�Use� DC� traces� to� shield� if� necessary.�
�Refer� to� the� MAX8795A� evaluation� kit� for� an� example� of�
�proper� PCB� layout.�
�Chip� Information�
�TRANSISTOR� COUNT:� 6595�
�PROCESS:� BiCMOS�
�______________________________________________________________________________________�
�25�
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