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| 型号: | MCP1804T-A002I/MT |
| 厂商: | Microchip Technology |
| 文件页数: | 21/32页 |
| 文件大小: | 0K |
| 描述: | IC REG LDO 10V .15A SOT89-5 |
| 标准包装: | 1 |
| 稳压器拓扑结构: | 正,固定式 |
| 输出电压: | 10V |
| 输入电压: | 最高 28V |
| 电压 - 压降(标准): | 0.7V @ 100mA |
| 稳压器数量: | 1 |
| 电流 - 输出: | 150mA(最小) |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | SOT-89-5/6 |
| 供应商设备封装: | SOT-89-5 |
| 包装: | 标准包装 |
| 产品目录页面: | 667 (CN2011-ZH PDF) |
| 其它名称: | MCP1804T-A002I/MTDKR |
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�MCP1804�
�6.3� Voltage� Regulator�
�Internal� power� dissipation,� junction� temperature� rise,�
�junction� temperature� and� maximum� power� dissipation�
�are� calculated� in� the� following� example.� The� power�
�dissipation,� as� a� result� of� ground� current,� is� small�
�enough� to� be� neglected.�
�T� J� =� T� JRISE� +� T� A(MAX)�
�T� J� =� 76.3°C�
�Maximum� Package� Power� Dissipation� at� +25°C�
�Ambient� Temperature� (minimum� PCB� footprint)�
�6.3.1�
�POWER� DISSIPATION� EXAMPLE�
�SOT-23� (256°C/Watt� =� R� θ� JA� ):�
�Package:�
�Package� Type� =� SOT-23�
�Input� Voltage:�
�V� IN� =� 3.8V� to� 4.6V�
�LDO� Output� Voltages� and� Currents:�
�P� D(MAX)� =� (85°C� -� 25°C)� /� 256°C/W�
�P� D(MAX)� =� 234� milli-Watts�
�SOT-89� (180°C/Watt� =� R� θ� JA� ):�
�P� D(MAX)� =� (85°C� -� 25°C)� /� 180°C/W�
�P� D(MAX)� =� 333� milli-Watts�
�V� OUT� =� 1.8V�
�6.4�
�Voltage� Reference�
�V� IN�
�V� OUT�
�1� μF� C� OUT�
�1� μF�
�I� OUT� =� 50� mA�
�Maximum� Ambient� Temperature:�
�T� A(MAX)� =� +40°C�
�Internal� Power� Dissipation:�
�Internal� Power� dissipation� is� the� product� of� the� LDO�
�output� current� times� the� voltage� across� the� LDO�
�(V� IN� to� V� OUT� ).�
�P� LDO(MAX)� =� (V� IN(MAX)� -� V� OUT(MIN)� )� x�
�I� OUT(MAX)�
�P� LDO� =� (4.6V� -� (0.98� x� 1.8V))� x� 50� mA�
�P� LDO� =� 141.8� milli-Watts�
�6.3.1.1� Device� Junction� Temperature� Rise�
�The� internal� junction� temperature� rise� is� a� function� of�
�internal� power� dissipation� and� the� thermal� resistance�
�from� junction� to� ambient� for� the� application.� The� thermal�
�resistance� from� junction� to� ambient� (R� θ� JA� )� is� derived�
�from� an� EIA/JEDEC� standard� for� measuring� thermal�
�resistance� for� small� surface� mount� packages.� The� EIA/�
�JEDEC� specification� is� JESD51-7,� “High� Effective� Ther-�
�mal� Conductivity� Test� Board� for� Leaded� Surface� Mount�
�Packages”.� The� standard� describes� the� test� method�
�and� board� specifications� for� measuring� the� thermal�
�The� MCP1804� can� be� used� not� only� as� a� regulator,� but�
�also� as� a� low� quiescent� current� voltage� reference.� In�
�many� microcontroller� applications,� the� initial� accuracy�
�of� the� reference� can� be� calibrated� using� production� test�
�equipment� or� by� using� a� ratio� measurement.� When� the�
�initial� accuracy� is� calibrated,� the� thermal� stability� and�
�line� regulation� tolerance� are� the� only� errors� introduced�
�by� the� MCP1804� LDO.� The� low-cost,� low� quiescent�
�current� and� small� ceramic� output� capacitor� are� all�
�advantages� when� using� the� MCP1804� as� a� voltage�
�reference.�
�Ratio� Metric� Reference�
�MCP1804� PICmicro� ?�
�50� μA� Bias� Microcontroller�
�C� IN� V� REF�
�GND�
�ADO�
�AD1�
�Bridge� Sensor�
�resistance� from� junction� to� ambient.� The� actual� thermal�
�resistance� for� a� particular� application� can� vary� depend-�
�ing� on� many� factors,� such� as� copper� area� and� thick-�
�ness.� Refer� to� AN792,� “A� Method� to� Determine� How�
�FIGURE� 6-2:�
�Voltage� Reference.�
�Using� the� MCP1804� as� a�
�Much� Power� a� SOT23� Can� Dissipate� in� an� Application”�
�6.5�
�Pulsed� Load� Applications�
�(DS00792),� for� more� information� regarding� this� subject.�
�T� J(RISE)� =� P� TOTAL� x� Rq� JA�
�T� JRISE� =� 141.8� milli-Watts� x� 256.0� °� C/Watt�
�T� JRISE� =� 36.3� °� C�
�6.3.1.2� Junction� Temperature� Estimate�
�To� estimate� the� internal� junction� temperature,� the�
�calculated� temperature� rise� is� added� to� the� ambient� or�
�offset� temperature.� For� this� example,� the� worst-case�
�junction� temperature� is� estimated� below.�
�?� 2011� Microchip� Technology� Inc.�
�For� some� applications,� there� are� pulsed� load� current�
�events� that� may� exceed� the� specified� 150� mA�
�maximum� specification� of� the� MCP1804.� The� internal�
�current� limit� of� the� MCP1804� will� prevent� high� peak�
�load� demands� from� causing� non-recoverable� damage.�
�The� 150� mA� rating� is� a� maximum� average� continuous�
�rating.� As� long� as� the� average� current� does� not� exceed�
�150� mA� nor� the� max� power� dissipation� of� the� packaged�
�device,� pulsed� higher� load� currents� can� be� applied� to�
�the� MCP1804� .� The� typical� current� limit� for� the�
�MCP1804� is� 200� mA� (T� A� =� +25°C).�
�DS22200C-page� 21�
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