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| 型号: | VTM48ET020T080A00 |
| 厂商: | Vicor Corporation |
| 文件页数: | 9/18页 |
| 文件大小: | 0K |
| 描述: | VTM CURRENT MULTIPLIER 2V 80A |
| 应用说明: | Factorized Power Architecture and V-I Chips |
| 标准包装: | 1 |
| 系列: | V-I Chip™, VTM™ |
| 类型: | 变压模块 |
| 输出数: | 1 |
| 电压 - 输入(最小): | 26V |
| 电压 - 输入(最大): | 55V |
| 输出电压: | 2V |
| 电流 - 输出(最大): | 80A |
| 电源(瓦) - 制造商系列: | 160W |
| 电压 - 隔离: | 2.25kV(2250V) |
| 应用: | 商用 |
| 特点: | 具有远程开/关功能 |
| 安装类型: | 通孔 |
| 封装/外壳: | 模块 |
| 尺寸/尺寸: | 1.28" L x 0.87" W x 0.26" H(32.5mm x 22.0mm x 6.7mm) |
| 包装: | 托盘 |
| 工作温度: | -40°C ~ 125°C |
| 效率: | 92.4% |
| 电源(瓦特)- 最大: | 160W |
| 重量: | 0.033 磅(14.97g) |
| 其它名称: | 1102-1170 VTM48ET020T080A00-ND |
��
�
�VTM� 48� E� x� 020� y� 080� A00�
�than� 400� Ω� .�
�7.0 USING THE CONTROL SIGNALS VC, PC, TM, IM�
�The� VTM� ?� Control� (VC)� pin� is� an� input� pin� which� powers� the�
�internal� VCC� circuitry� when� within� the� specified� voltage� range�
�of� 11.5� V� to� 16.5� V.� This� voltage� is� required� for� VTM� current�
�multiplier� start� up� and� must� be� applied� as� long� as� the� input� is�
�below� 26� V.� In� order� to� ensure� a� proper� start,� the� slew� rate� of�
�the� applied� voltage� must� be� within� the� specified� range.�
�Some� additional� notes� on� the� using� the� VC� pin:�
�?� In� most� applications,� the� VTM� module� will� be� powered� by� an�
�upstream� PRM� ?� regulator� which� provides� a� 10� ms�
�VC� pulse� during� start� up.� In� these� applications� the� VC� pins�
�of� the� PRM� regulator� and� VTM� current� multiplier� should� be�
�tied� together.�
�?� The� VC� voltage� can� be� applied� indefinitely� allowing� for�
�continuous� operation� down� to� 0� V� IN� .�
�?� The� fault� response� of� the� VTM� module� is� latching.� A� positive�
�edge� on� VC� is� required� in� order� to� restart� the� unit.� If� VC� is�
�continuously� applied� the� PC� pin� may� be� toggled� to� restart�
�the� VTM� module.�
�Primary� Control� (PC)� pin� can� be� used� to� accomplish� the�
�following� functions:�
�?� Delayed� start:� Upon� the� application� of� VC,� the� PC� pin� will�
�source� a� constant� 100� μA� current� to� the� internal� RC�
�network.� Adding� an� external� capacitor� will� allow� further�
�delay� in� reaching� the� 2.5� V� threshold� for� module� start.�
�?� Auxiliary� voltage� source:� Once� enabled� in� regular�
�operational� conditions� (no� fault),� each� VTM� PC� provides� a�
�regulated� 5� V,� 2� mA� voltage� source.�
�?� Output� disable:� PC� pin� can� be� actively� pulled� down� in� order�
�to� disable� the� module.� Pull� down� impedance� shall� be� lower�
�?� Fault� detection� flag:� The� PC� 5� V� voltage� source� is� internally�
�turned� off� as� soon� as� a� fault� is� detected.� It� is� important� to�
�notice� that� PC� doesn’t� have� current� sink� capability.� Therefore,�
�in� an� array,� PC� line� will� not� be� capable� of� disabling�
�neighboring� modules� if� a� fault� is� detected.�
�?� Fault� reset:� PC� may� be� toggled� to� restart� the� unit� if� VC�
�is� continuously� applied.�
�Temperature� Monitor� (TM)� pin� provides� a� voltage�
�proportional� to� the� absolute� temperature� of� the� converter�
�control� IC.�
�It� can� be� used� to� accomplish� the� following� functions:�
�?� Monitor� the� control� IC� temperature:� The� temperature� in�
�Kelvin� is� equal� to� the� voltage� on� the� TM� pin� scaled�
�by� 100.� (i.e.� 3.0� V� =� 300� K� =� 27oC).� If� a� heat� sink� is� applied,�
�TM� can� be� used� to� thermally� protect� the� system.�
�?� Fault� detection� flag:� The� TM� voltage� source� is� internally�
�turned� off� as� soon� as� a� fault� is� detected.� For� system�
�monitoring� purposes� (microcontroller� interface)� faults� are�
�detected� on� falling� edges� of� TM� signal.�
�8.0� START� UP� BEHAVIOR�
�Depending� on� the� sequencing� of� the� VC� with� respect� to� the�
�input� voltage,� the� behavior� during� start� up� will� vary� as� follows:�
�?� Normal� operation� (VC� applied� prior� to� V� IN� ):� In� this� case� the�
�controller� is� active� prior� to� ramping� the� input.� When� the�
�input� voltage� is� applied,� the� VTM� module� output� voltage� will�
�track� the� input� (See� Figure� 10).� The� inrush� current� is�
�determined� by� the� input� voltage� rate� of� rise� and� output�
�capacitance.� If� the� VC� voltage� is� removed� prior� to� the� input�
�reaching� 26� V,� the� VTM� may� shut� down.�
�?� Stand-alone� operation� (VC� applied� after� V� IN� ):� In� this� case� the�
�VTM� output� will� begin� to� rise� upon� the� application� of� the�
�VC� voltage� (See� Figure� 11).� The� Adaptive� Soft� Start� Circuit�
�(See� Section� 11)� may� vary� the� ouput� rate� of� rise� in� order� to�
�limit� the� inrush� current� to� its� maximum� level.� When� starting�
�into� high� capacitance,� or� a� short,� the� output� current� will� be�
�limited� for� a� maximum� of� 120� μsec.� After� this� period,� the�
�Adaptive� Soft� Start� Circuit� will� time� out� and� the� VTM� module�
�may� shut� down.� No� restart� will� be� attempted� until� VC� is�
�re-applied� or� PC� is� toggled.� The� maximum� output�
�capacitance� is� limited� to� 27000� μF� in� this� mode� of� operation�
�to� ensure� a� sucessful� start.�
�9.0� THERMAL� CONSIDERATIONS�
�VI� Chip� ?� products� are� multi-chip� modules� whose� temperature�
�distribution� varies� greatly� for� each� part� number� as� well� as� with�
�the� input� /output� conditions,� thermal� management� and�
�environmental� conditions.� Maintaining� the� top� of� the�
�VTM48EF020T080A00� case� to� less� than� 100oC� will� keep� all�
�junctions� within� the� VI� Chip� module� below� 125oC� for� most�
�applications.�
�The� percent� of� total� heat� dissipated� through� the� top� surface�
�versus� through� the� J-lead� is� entirely� dependent� on� the�
�particular� mechanical� and� thermal� environment.� The� heat�
�dissipated� through� the� top� surface� is� typically� 60%.� The� heat�
�dissipated� through� the� J-lead� onto� the� PCB� board� surface� is�
�typically� 40%.� Use� 100%� top� surface� dissipation� when�
�designing� for� a� conservative� cooling� solution.�
�It� is� not� recommended� to� use� a� VI� Chip� module� for� an�
�extended� period� of� time� at� full� load� without� proper�
�heat� sinking.�
�VTM� ?� Current� Multiplier�
�Page� 9� of� 18�
�Rev� 3.2�
�4/2013�
�vicorpower.com�
�800� 735.6200�
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| VTM48ET030M070A00 | 功能描述:VTM CURRENT MULTIPLIER 3V 70A RoHS:是 类别:电源 - 板载 >> DC DC 转换器(分解式) 系列:V-I Chip™, VTM™ 应用说明:Factorized Power Architecture and V-I Chips 产品培训模块:VI Chip Bus Converter Modules 标准包装:1 系列:V-I Chip™, BCM™ 类型:总线转换器模块 输出数:1 电压 - 输入(最小):330V 电压 - 输入(最大):365V 输出电压:12.5V 电流 - 输出(最大):24A 电源(瓦) - 制造商系列:300W 电压 - 隔离:4.242kV(4242V) 应用:商用 特点:具有远程开/关功能和 UVLO 安装类型:通孔 封装/外壳:模块 尺寸/尺寸:1.28" L x 0.87" W x 0.26" H(32.5mm x 22.0mm x 6.7mm) 包装:托盘 工作温度:-55°C ~ 125°C 效率:95.3% 电源(瓦特)- 最大:300W 重量:0.031 磅(14.06g) |
| VTM48ET030T070A00 | 功能描述:VTM CURRENT MULTIPLIER 3V 70A RoHS:是 类别:电源 - 板载 >> DC DC 转换器(分解式) 系列:V-I Chip™, VTM™ 应用说明:Factorized Power Architecture and V-I Chips 产品培训模块:VI Chip Bus Converter Modules 标准包装:1 系列:V-I Chip™, BCM™ 类型:总线转换器模块 输出数:1 电压 - 输入(最小):330V 电压 - 输入(最大):365V 输出电压:12.5V 电流 - 输出(最大):24A 电源(瓦) - 制造商系列:300W 电压 - 隔离:4.242kV(4242V) 应用:商用 特点:具有远程开/关功能和 UVLO 安装类型:通孔 封装/外壳:模块 尺寸/尺寸:1.28" L x 0.87" W x 0.26" H(32.5mm x 22.0mm x 6.7mm) 包装:托盘 工作温度:-55°C ~ 125°C 效率:95.3% 电源(瓦特)- 最大:300W 重量:0.031 磅(14.06g) |
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| VTM48ET040T050A00 | 功能描述:VTM CURRENT MULTIPLIER 4V 50A RoHS:是 类别:电源 - 板载 >> DC DC 转换器(分解式) 系列:V-I Chip™, VTM™ 应用说明:Factorized Power Architecture and V-I Chips 产品培训模块:VI Chip Bus Converter Modules 标准包装:1 系列:V-I Chip™, BCM™ 类型:总线转换器模块 输出数:1 电压 - 输入(最小):330V 电压 - 输入(最大):365V 输出电压:12.5V 电流 - 输出(最大):24A 电源(瓦) - 制造商系列:300W 电压 - 隔离:4.242kV(4242V) 应用:商用 特点:具有远程开/关功能和 UVLO 安装类型:通孔 封装/外壳:模块 尺寸/尺寸:1.28" L x 0.87" W x 0.26" H(32.5mm x 22.0mm x 6.7mm) 包装:托盘 工作温度:-55°C ~ 125°C 效率:95.3% 电源(瓦特)- 最大:300W 重量:0.031 磅(14.06g) |
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