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参数资料
| 型号: | LTC3714EG#TR |
| 厂商: | Linear Technology |
| 文件页数: | 22/28页 |
| 文件大小: | 0K |
| 描述: | IC STP-DWN CNTRLR W/OPAMP 28SSOP |
| 标准包装: | 2,000 |
| 应用: | 控制器,Intel Pentium? |
| 输入电压: | 4 V ~ 36 V |
| 输出数: | 1 |
| 输出电压: | 0.6 V ~ 1.75 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 28-SSOP(0.209",5.30mm 宽) |
| 供应商设备封装: | 28-SSOP |
| 包装: | 带卷 (TR) |
| 其它名称: | LTC3714EGTR |
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�LTC3714�
�APPLICATIONS� INFORMATION�
�(� 20A� )� (� 1.2� )� (� 0.013� Ω� )� +�
�P� TOP�
�1.15V� 2�
�24V�
�Δ� V� OUT(STEP)� =� (� 15A� )� ?� ?� (� 0.025� Ω� )� =� 125mV�
�Δ� I� TH� =� ?�
�?� R� SENSE� Δ� I� OUT�
�Δ� I� TH� =� g� m� R� VP� ?�
�?� Δ� V� OUT�
�Because the top MOSFET is on for such a short time, a�
�single� IRF7811� will� be� sufficient.� Checking� its� power� dis-�
�sipation� at� current� limit� with� ρ� 80°C� =� 1.2:�
�=�
�(� 1.7� )� (� 24V� )� 2� (� 20A� )� (� 60pF� )� (� 300kHz� )�
�=� 0.299W� +� 0.353W� =� 0.652W�
�T� J� =� 50°C� +� (0.652W)(50°C/W)� =� 82.6°C�
�The� junction� temperatures� will� be� significantly� less� at�
�nominal� current,� but� this� analysis� shows� that� careful�
�attention� to� heat� sinking� will� be� necessary� in� this� circuit.�
�C� IN� is� chosen� for� an� RMS� current� rating� of� about� 6A� at�
�temperature.� The� output� capacitors� are� chosen� for� a� low�
�ESR� of� 0.005Ω� to� minimize� output� voltage� changes� due�
�to� inductor� ripple� current� and� load� steps.� The� ripple� volt-�
�age� will� be� only:�
�?V� OUT(RIPPLE)� =� ?I� L(MAX)� (ESR)� =� (5.4A)� (0.005Ω)�
�=� 27mV�
�However,� a� 0A� to� 15A� load� step� will� cause� an� output�
�change� of� up� to:�
�?V� OUT(STEP)� =� ?I� LOAD� (ESR)� =� (15A)(0.005Ω)� =� ±75mV�
�The� complete� circuit� is� shown� in� Figure� 8.�
�Active� Voltage� Positioning�
�Active� voltage� positioning� (also� termed� load� “deregula-�
�tion”� or� droop)� describes� a� technique� where� the� output�
�voltage� varies� with� load� in� a� controlled� manner.� It� is� useful�
�in� applications� where� rapid� load� steps� are� the� main� cause�
�of� error� in� the� output� voltage.� By� positioning� the� output�
�voltage� at� or� above� the� regulation� point� at� zero� load,� and�
�below� the� regulation� point� at� full� load,� one� can� use� more�
�of� the� error� budget� for� the� load� step.� This� allows� one� to�
�reduce� the� number� of� output� capacitors� by� relaxing� the�
�ESR� requirement.�
�In� the� design� example,� Figure� 8,� five� 0.025Ω� capacitors�
�are� required� in� parallel� to� keep� the� output� voltage� within�
�tolerance.� Using� active� voltage� positioning,� the� same�
�specification� can� be� met� with� only� three� capacitors.� In� this�
�case,� the� load� step� will� cause� an� output� voltage� change� of:�
�?� 1� ?�
�?� 3� ?�
�By� positioning� the� output� voltage� 60mV� above� the� regula-�
�tion� point� at� no� load,� it� will� drop� 65mV� below� the� regulation�
�point� after� the� load� step.� However,� when� the� load� disap-�
�pears� or� the� output� is� stepped� from� 15A� to� 0A,� the� 65mV�
�is� recovered.� This� way,� a� total� of� 65mV� change� is� observed�
�on� V� OUT� in� all� conditions,� whereas� a� total� of� ±75mV� or�
�150mV� is� seen� on� V� OUT� without� voltage� positioning.�
�Implementing� active� voltage� positioning� requires� setting�
�a� precise� gain� between� the� sensed� current� and� the� output�
�voltage.� Because� of� the� variability� of� MOSFET� on-resistance,�
�it� is� prudent� to� use� a� sense� resistor� with� active� voltage�
�positioning.� In� order� to� minimize� power� lost� in� this� resis-�
�tor,� a� low� value� of� 0.003Ω� is� chosen.� The� nominal� sense�
�voltage� will� now� be:�
�V� SNS(NOM)� =� (0.003Ω)(15A)� =� 45mV�
�To� maintain� a� reasonable� current� limit,� the� voltage� on� the�
�V� RNG� pin� is� reduced� to� 0.5V� by� connecting� it� between�
�INTV� CC� and� GND,� corresponding� to� a� 50mV� nominal�
�sense� voltage.�
�Next,� the� gain� of� the� LTC3714� error� amplifier� must� be�
�determined.� The� change� in� I� TH� voltage� for� a� corresponding�
�change� in� the� output� current� is:�
�?� 12V� ?�
�?� V� RNG� ?�
�=� (� 24� )� (� 0.003� Ω� )� (� 15A� )� =� 1.08V�
�The� corresponding� change� in� the� output� voltage� is� deter-�
�mined� by� the� gain� of� the� error� amplifier� and� feedback� divider.�
�The� LTC3714� error� amplifier� has� a� transconductance� g� m�
�that� is� constant� over� both� temperature� and� a� wide� ±40mV�
�input� range.� Thus,� by� connecting� a� load� resistance� R� VP� to�
�the� I� TH� pin,� the� error� amplifier� gain� can� be� precisely� set�
�for� accurate� voltage� positioning.�
�?� 0.6V� ?�
�?� V� OUT� ?�
�3714f�
�22�
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