参数资料
| 型号: | LT1185IT#30PBF |
| 厂商: | Linear Technology |
| 文件页数: | 6/16页 |
| 文件大小: | 0K |
| 描述: | IC REG LDO NEG ADJ 3A TO220-5 |
| 标准包装: | 50 |
| 稳压器拓扑结构: | 负,可调式 |
| 输出电压: | -2.5 V ~ -25 V |
| 输入电压: | -4.2 V ~ -35 V |
| 电压 - 压降(标准): | 0.67V @ 3A |
| 稳压器数量: | 1 |
| 电流 - 输出: | 3A |
| 电流 - 限制(最小): | 可调式 |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 通孔 |
| 封装/外壳: | TO-220-5 成形引线 |
| 供应商设备封装: | TO-220-5 |
| 包装: | 管件 |
��
�
�LT1185�
�APPLICATIO� S� I� FOR� ATIO�
�(V� OUT� –� 2.37)� R1�
�Amplifier� A2� is� used� to� generate� an� internal� current� through�
�Q4� when� an� external� resistor� is� connected� from� the� REF�
�pin� to� ground.� This� current� is� equal� to� 2.37V� divided� by�
�R� LIM� .� It� generates� a� current� limit� sense� voltage� across� R1.�
�The� regulator� will� current� limit� via� A4� when� the� voltage�
�across� R2� is� equal� to� the� voltage� across� R1.� These� two�
�resistors� essentially� form� a� current� “amplifier”� with� a� gain�
�of� 350/0.055� =� 6,360.� Good� temperature� drift� is� inherent�
�because� R1� and� R2� are� made� from� the� same� diffusions.�
�Their� ratio,� not� absolute� value,� determines� current� limit.�
�Initial� accuracy� is� enhanced� by� trimming� R1� slightly� at�
�wafer� level.� Current� limit� is� equal� to� 15k� ?� /R� LIM� .�
�D1� and� I� 1� are� used� to� guarantee� regulator� shutdown� when�
�REF� pin� current� drops� below� 2� μ� A.� A� current� less� than� 2� μ� A�
�through� Q4� causes� the� +input� of� A5� to� go� low� and� shut�
�down� the� regulator� via� D2.�
�A3� is� an� internal� current� limit� amplifier� which� can� override�
�the� external� current� limit.� It� provides� “goof� proof”� protec-�
�tion� for� the� pass� transistor.� Although� not� shown,� A3� has�
�a� nonlinear� foldback� characteristic� at� input-output� volt-�
�ages� above� 12V� to� guarantee� safe� area� protection� for� Q3.�
�See� the� graph,� Internal� Current� Limit� in� the� Typical� Perfor-�
�mance� Characteristics� of� this� data� sheet.�
�Setting� Output� Voltage�
�The� LT1185� output� voltage� is� set� by� two� external� resistors�
�(see� Figure� 2).� Internal� reference� voltage� is� trimmed� to�
�2.37V� so� that� a� standard� 1%� 2.37k� resistor� (R1)� can� be�
�used� to� set� divider� current� at� 1mA.� R2� is� then� selected�
�from:�
�R2� =�
�V� REF�
�for� R1� =� 2.37k� and� V� REF� =� 2.37V,� this� reduces� to:�
�R2� =� V� OUT� –� 2.37k�
�suggested� values� of� 1%� resistors� are� shown.�
�Output� Capacitor�
�The� LT1185� has� a� collector� output� NPN� pass� transistor,�
�which� makes� the� open-loop� output� impedance� much�
�higher� than� an� emitter� follower.� Open-loop� gain� is� a� direct�
�function� of� load� impedance,� and� causes� a� main-loop�
�“pole”� to� be� created� by� the� output� capacitor,� in� addition� to�
�an� internal� pole� in� the� error� amplifier.� To� ensure� loop�
�stability,� the� output� capacitor� must� have� an� ESR� (effective�
�series� resistance)� which� has� an� upper� limit� of� 2� ?� ,� and� a�
�lower� limit� of� 0.2� divided� by� the� capacitance� in� μ� F.� A� 2� μ� F�
�output� capacitor,� for� instance,� should� have� a� maximum�
�ESR� of� 2� ?� ,� and� a� minimum� of� 0.2/2� =� 0.1� ?� .� These� values�
�are� easily� encompassed� by� standard� solid� tantalum�
�capacitors,� but� occasionally� a� solid� tantalum� unit� will� have�
�abnormally� high� ESR,� especially� at� very� low� tempera-�
�tures.� The� suggested� 2� μ� F� value� shown� in� the� circuit�
�applications� should� be� increased� to� 4.7� μ� F� for� –� 40� °� C� and�
�–� 55� °� C� designs� if� the� 2� μ� F� units� cannot� be� guaranteed� to�
�stay� below� 2� ?� at� these� temperatures.�
�Although� solid� tantalum� capacitors� are� suggested,� other�
�types� can� be� used� if� they� meet� the� ESR� requirements.�
�Standard� aluminum� electrolytic� capacitors� need� to� be�
�upward� of� 25� μ� F� in� general� to� hold� 2� ?� maximum� ESR,�
�especially� at� low� temperatures.� Ceramic,� plastic� film,� and�
�monolithic� capacitors� have� a� problem� with� ESR� being� too�
�low.� These� types� should� have� a� 1� ?� carbon� resistor� in�
�series� to� guarantee� loop� stability.�
�The� output� capacitor� should� be� located� close� to� the� regu-�
�lator� (� ≤� 3")� to� avoid� excessive� impedance� due� to� lead�
�inductance.� A� six� inch� lead� length� (2� ?� 3")� will� generate� an�
�extra� 0.8� ?� inductive� reactance� at� 1MHz,� and� unity-gain�
�frequency� can� be� up� to� that� value.�
�For� remote� sense� applications,� the� capacitor� should� still� be�
�located� close� to� the� regulator.� Additional� capacitance� can�
�be� added� at� the� remote� sense� point,� but� the� remote�
�capacitor� must� be� at� least� 2� μ� F� solid� tantalum.� It� cannot� be�
�a� low� ESR� type� like� ceramic� or� mylar� unless� a� 0.5� ?� to� 1� ?�
�V� OUT�
�5V�
�5.2V�
�6V�
�12V�
�15V�
�R2� WHEN� R1� =� 2.37k�
�2.67k�
�2.87k�
�3.65k�
�9.76k�
�12.7k�
�carbon� resistor� is� added� in� series� with� the� capacitor.� Logic�
�boards� with� multiple� low� ESR� bypass� capacitors� should�
�have� a� solid� tantalum� unit� added� in� parallel� whose� value� is�
�approximately� five� times� the� combined� value� of� low� ESR�
�capacitors.�
�1185ff�
�6�
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