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| 型号: | LT1580CT#06PBF |
| 厂商: | Linear Technology |
| 文件页数: | 11/16页 |
| 文件大小: | 0K |
| 描述: | IC CONV PENTIUM PROCESSR TO220-5 |
| 标准包装: | 50 |
| 应用: | 转换器,Intel Pentium? |
| 输入电压: | 1.79 V ~ 6 V |
| 输出数: | 1 |
| 输出电压: | 1.25 V ~ 4.65 V |
| 工作温度: | 0°C ~ 125°C |
| 安装类型: | 通孔 |
| 封装/外壳: | TO-220-5 |
| 供应商设备封装: | TO-220-5 |
| 包装: | 管件 |
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�
�LT1580/LT1580-2.5�
�APPLICATIO� N� S� I� N� FOR� M� ATIO� N�
�low� dropout� applications� the� power� dissipation� will� be� less�
�than� 12W.�
�The� power� in� the� device� is� made� up� of� two� main� compo-�
�nents:� the� power� in� the� output� transistor� and� the� power� in�
�the� drive� circuit.� The� additional� power� in� the� control� circuit�
�is� negligible.�
�The� power� in� the� drive� circuit� will� be� equal� to:�
�P� DRIVE� =� (V� CONTROL� –� V� OUT� )(I� CONTROL� )�
�where� I� CONTROL� is� equal� to� between� I� OUT� /100� (typ)� and�
�I� OUT� /58� (max).�
�I� CONTROL� is� a� function� of� output� current.� A� curve� of�
�I� CONTROL� vs� I� OUT� can� be� found� in� the� Typical� Performance�
�Characteristics� curves.�
�The� power� in� the� output� transistor� is� equal� to:�
�P� OUTPUT� =� (V� POWER� –� V� OUT� )(I� OUT� )�
�The� total� power� is� equal� to:�
�P� TOTAL� =� P� DRIVE� +� P� OUTPUT�
�Junction-to-case� thermal� resistance� is� specified� from� the�
�IC� junction� to� the� bottom� of� the� case� directly� below� the� die.�
�This� is� the� lowest� resistance� path� for� heat� flow.� Proper�
�mounting� is� required� to� ensure� the� best� possible� thermal�
�flow� from� this� area� of� the� package� to� the� heat� sink.� Thermal�
�compound� at� the� case-to-heat� sink� interface� is� strongly�
�recommended.� If� the� case� of� the� device� must� be� electroni-�
�cally� isolated,� a� thermally� conductive� spacer� can� be� used�
�as� long� as� the� added� contribution� to� thermal� resistance� is�
�considered.� Please� consult� Linear� Technology’s� “� Mount-�
�ing� Considerations� for� Power� Semiconductors,”� 1990�
�Linear� Applications� Handbook,� Volume� 1,� Pages� RR3-1� to�
�RR3-20.� Note� that� the� case� of� the� LT1580� is� electrically�
�connected� to� the� output.�
�The� following� example� illustrates� how� to� calculate�
�maximum� junction� temperature.� Using� an� LT1580� and�
�assuming:�
�V� CONTROL� (max� continuous)� =� 5.25V� (5V� +� 5%),�
�V� POWER� (max� continuous)� =� 3.465V� (3.3V� +� 5%),�
�V� OUT� =� 2.5V,� Iout� =� 4A,�
�T� A� =� 70� °� C,� θ� HEATSINK� =� 4� °� C/W,�
�θ� CASE-HEATSINK� =� 1� °� C/W� (with� thermal� compound)�
�Power� dissipation� under� these� conditions� is� equal� to:�
�Total� Power� Dissipation� =� P� DRIVE� +� P� OUTPUT�
�P� DRIVE� =� (V� CONTROL� –� V� OUT� )� (I� CONTROL� )�
�I� CONTROL� =� I� OUT� /58� =� 4A/58� =� 69mA�
�P� DRIVE� =� (5.25V� –� 2.5V)(69mA)� =� 190mW�
�P� OUTPUT� =� (V� POWER� –� V� OUT� )(I� OUT� )�
�=� (� 3.465V� –� 2.5V)(4A)� =� 3.9W�
�Total� Power� Dissipation� =� 4.05W�
�Junction� temperature� will� be� equal� to:�
�T� J� =� T� A� +� P� TOTAL� (� θ� HEATSINK� +� θ� CASE-HEATSINK� +� θ� JC� )�
�For� the� Control� section:�
�T� J� =� 70� °� C� +� 4.05W(4� °� C/W� +1� °� C/W� +� 0.65� °� C/W)� =� 93� °� C�
�93� °� C� <� 125� °� C� =� T� JMAX� for� Control� Section�
�For� the� Power� section:�
�T� J� =� 70� °� C� +� 4.05W� (4� °� C/W� +� 1� °� C/W� +� 2.7� °� C/W)� =� 101� °� C�
�101� °� C� <� 150� °� C� =� T� JMAX� for� Power� Section�
�In� both� cases� the� junction� temperature� is� below� the�
�maximum� rating� for� the� respective� sections,� ensuring�
�reliable� operation.�
�11�
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