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参数资料
| 型号: | LT1580IT7-2.5#PBF |
| 厂商: | Linear Technology |
| 文件页数: | 10/16页 |
| 文件大小: | 0K |
| 描述: | IC LDO REGULATOR 7A 2.5V TO220-7 |
| 产品培训模块: | More Information on LDOs |
| 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: | 2.5V |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 通孔 |
| 封装/外壳: | TO-220-7 成形引线 |
| 供应商设备封装: | TO-220-7 |
| 包装: | 管件 |
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�LT1580/LT1580-2.5�
�APPLICATIO� N� S� I� N� FOR� M� ATIO� N�
�A� protection� diode� between� the� V� OUT� pin� and� the� V� POWER�
�pin� is� usually� not� needed.� An� internal� diode� between� the�
�V� OUT� pin� and� the� V� POWER� pin� on� the� LT1580� can� handle�
�microsecond� surge� currents� of� 50A� to� 100A.� Even� with�
�large� value� output� capacitors� it� is� difficult� to� obtain� those�
�values� of� surge� currents� in� normal� operation.� Only� with�
�large� values� of� output� capacitance,� such� as� 1000� μ� F� to�
�5000� μ� F,� and� with� the� V� POWER� pin� instantaneously� shorted�
�to� ground� can� damage� occur.� A� crowbar� circuit� at� the�
�power� input� can� generate� those� levels� of� current,� and� a�
�diode� from� output� to� power� input� is� then� recommended.�
�This� is� shown� in� Figure� 6.� Normal� power� supply� cycling� or�
�system� “hot� plugging� and� unplugging”� will� not� do� any�
�damage.�
�V� CONTROL�
�+�
�If� the� LT1580� is� connected� as� a� single� supply� device� with�
�the� V� CONTROL� and� V� POWER� input� pins� shorted� together� the�
�internal� diode� between� the� V� OUT� and� the� V� POWER� input� pin�
�will� protect� the� V� CONTROL� input� pin.�
�Like� any� other� regulator� exceeding� the� maximum� input� to�
�output� differential� can� cause� the� internal� transistors� to�
�break� down� and� none� of� the� internal� protection� circuitry� is�
�then� functional.�
�Thermal� Considerations�
�The� LT1580� has� internal� current� and� thermal� limiting�
�designed� to� protect� the� device� under� overload� conditions.�
�For� continuous� normal� load� conditions� maximum� junction�
�temperature� ratings� must� not� be� exceeded.� It� is� important�
�to� give� careful� consideration� to� all� sources� of� thermal�
�resistance� from� junction� to� ambient.� This� includes� junc-�
�tion-to-case,� case-to-heat� sink� interface� and� heat� sink�
�resistance� itself.� Thermal� resistance� specifications� are�
�+�
�V� CONTROL�
�V� POWER� V� POWER�
�LT1580�
�ADJ�
�*OPTIONAL� DIODES:� 1N4002�
�V� OUT�
�SENSE�
�D1*�
�D2*�
�+�
�R1�
�R2�
�V� OUT�
�given� in� the� electrical� characteristics� for� both� the� Control�
�section� and� the� Power� section� of� the� device.� The� thermal�
�resistance� of� the� Control� section� is� given� as� 0.65� °� C/W� and�
�junction� temperature� of� the� Control� section� is� allowed� to�
�run� at� up� to� 125� °� C.� The� thermal� resistance� of� the� Power�
�section� is� given� as� 2.7� °� C/W� and� the� junction� temperature�
�of� the� Power� section� is� allowed� to� run� at� up� to� 150� °� C.� The�
�difference� in� thermal� resistances� between� Control� and�
�1580� F06�
�Figure� 6.� Optional� Clamp� Diodes� Protect� Against�
�Input� Crowbar� Circuits�
�A� protection� diode� between� the� V� OUT� pin� and� the� V� CONTROL�
�pin� is� usually� not� needed.� An� internal� diode� between� the�
�V� OUT� pin� and� the� V� CONTROL� pin� on� the� LT1580� can� handle�
�microsecond� surge� currents� of� 1A� to� 10A.� This� can� only�
�occur� if� the� V� CONTROL� pin� is� instantaneously� shorted� to�
�ground� with� a� crowbar� circuit� with� large� value� output�
�capacitors.� Since� the� V� CONTROL� pin� is� usually� a� low� current�
�supply,� this� condition� is� unlikely.� A� protection� diode� from�
�the� V� OUT� pin� to� the� V� CONTROL� pin� is� recommended� if� the�
�V� CONTROL� pin� can� be� instantaneously� shorted� to� ground.�
�This� is� shown� in� Figure� 6.� Normal� power� supply� cycling� or�
�system� “hot� plugging� and� unplugging”� will� not� do� any�
�damage.�
�10�
�Power� sections� is� due� to� thermal� gradients� between� the�
�power� transistor� and� the� control� circuitry.�
�Virtually� all� of� the� power� dissipated� by� the� device� is�
�dissipated� in� the� power� transistor.� The� temperature� rise� in�
�the� power� transistor� will� be� greater� than� the� temperature�
�rise� in� the� Control� section� so� the� effective� thermal� resis-�
�tance,� temperature� rise� per� watt� dissipated,� will� be� lower�
�in� the� Control� section.� At� power� levels� below� 12W� the�
�temperature� gradient� will� be� less� than� 25� °� C� and� the�
�maximum� ambient� temperature� will� be� determined� by� the�
�junction� temperature� of� the� Control� section.� This� is� due� to�
�the� lower� maximum� junction� temperature� in� the� Control�
�section.� At� power� levels� greater� than� 12W� the� temperature�
�gradient� will� be� greater� than� 25� °� C� and� the� maximum�
�ambient� temperature� will� be� determined� by� the� Power�
�section.� For� both� cases� the� junction� temperature� is� deter-�
�mined� by� the� total� power� dissipated� in� the� device.� For� most�
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