【产品】能高温液化的国产导热相变材料XK-C15,热阻抗0.12℃·in²/W,可替代贝格斯HI-FLOW 200G
金菱通达导热相变材料XK-C15是含高分子蜡的导热相变化材料,具有高温液化成高黏度性质,有别于传统材料在高温下有外溢现象,该材料具有高性赖度和高导热性质。XK-C15具有象导热片一样可预先成型适合于器件安装,又具有像硅脂一样的低热阻特性,其结合了二者的完美特性应用在处理器、显示芯片、DC模块、存储器模块、功率模块以及微处理器等。
导热相变材料XK-C15具有热阻低、可相变及操作方便的优点,主要应用在CPU、显卡等与散热器之间,起导热填充作用,在高速运转上升到一定温度时可相变,有利于降低温度带走热量,效果明显。该产品可替代贝格斯HI-FLOW 200G。
特性:
●低热阻
●高温下为高黏度材料
●低温下微黏表面,容易操作
应用:
●处理器
●显示芯片
导热相变材料XK-C15产品参数表:
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本文由闯天涯转载自金菱通达,原文标题为:导热相变材料K值1.5,本站所有转载文章系出于传递更多信息之目的,且明确注明来源,不希望被转载的媒体或个人可与我们联系,我们将立即进行删除处理。
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【方案】100KW双向储能优选器件方案
描述- 对业内100KW双向储能产品而言,主功率电路多采用了六管IGBT搭建的三相应用拓扑架构。因100KW双向储能选择主功率架构器件时,规格需求通常是1200V/600A(包含裕量),驱动开关频率一般在20kHz以内,考虑到体内二极管散热等因数,功率模块一般会选用三个半桥模块来搭建六管架构。
型号- SMCJ36CA,TOP267VG,SMBJ,SMAJ6.0CA,92MLSC A 24X18 H1/059AL2 0030+-0007/DI,SMBJ8.5CA,5KP200A,SMBJ51A,SMBJ75A,SMBJ70CA,TOP270EG,0324030.,5KP40A,5KP64A,SMAJ,SMBJ17CA,SMBJ40A,SMBJ64A,0324.375,5KP18CA,5KP51A,SMCJ14CA,5KP75A,SMBJ160CA,TOP269KG-TL,0314.375MXP,5KP8.5CA,SMDJ,SMBJ85A,SMBJ28CA,5KP160CA,5KP78A,SMAJ8.0A,TOP271EG,5KP,5KP28CA,SMBJ300A,0324040.,5KP30A,TOP268VG,5KP54A,SMBJ150CA,92ML 104/83 24X18,92MLSC A 24X18 H2/059AL2 0030+-0007/DI,SMCJ,SMDJ33CA,SMF12A,SMF5.0A,SMF36A,SMBJ16CA,0324030.MXP,5KP70CA,5KP17CA,SMCJ30A,TOP265VG,SMDJ20A,SMF11A,5KP180CA,SMCJ400A,MLX91208LDC-CAH-000-RE,5KP60A,SMBJ170CA,TOP271KG,0324010.,SMBJ400A,SMF10A,SMCJ8.0CA,SMBJ60A,92ML 1080/85 24X18,SMBJ15CA,SMCJ40A,TOP265KG-TL,5KP16CA,SMCJ16CA,SMCJ64A,TOP266VG,92ML 104/88 12X18,MLX91208LDC-CAH-000-SP,SMBJ26CA,SMBJ400CA,MLX91208,5KP26CA,SMBJ90CA,0324020.,92ML A 24X18 HL/HL 0400+-004/DI,SMBJ14CA,SMBJ70A,MLX91208LDC-CAH-000-TU,5KP170CA,SID1182K,5KP15CA,92G0040CVVAKP42,5KP85A,SMDJ7.0A,0324015.,92ML0488-50K042,SMBJ48CA,5KP12A,5KP36A,5KP24A,SMDJ36CA,5KP48A,5KP48CA,5KP200CA,SMBJ130CA,SMAJ18CA,5KP6.5CA,SMCJ28CA,5KP90CA,SMBJ13CA,SMF54A,SMF,5KP190CA,SMDJ51A,SMBJ36CA,5KP11A,SMAJ250CA,0314012.MXP,5KP14CA,MLX91208LDC-CAL-RE,SMBJ24CA,SMCJ200A,5KP14A,5KP26A,5KP24CA,92ML PREPREG 104/88 12.00X18.00,TOP270KG,TOPSWITCH-JX,0314040.MXP,SMBJ90A,0314015.MXP,SMBJ12CA,0314.375,SMBJ58CA,5KP13A,SMF3.3,SMBJ188CA,0324001.,SMBJ350CA,0324025.,SMCJ70A,5KP13CA,5KP36CA,5KP8.0CA,TOP264-271,SMBJ5.0A,SID11X2,SMCJ250CA,TOP269EG,SMBJ180A,SMCJ440A,SMAJ5.0CA,TOP267KG-TL,314,5KP20A,TOP270KG-TL,0324040.MXP,SMDJ11CA,5KP100CA,SMBJ11CA,SMDJ180A,5KP7.5CA,324,92G0600CWWAKP42,5KP190A,MLX91208LDC-CAL-TU,5KP210CA,92ML0488-50K098,SMDJ5.0A,5KP12CA,5KP58CA,5KP43A,SID1182,SMCJ5.0CA,SMBJ22CA,SMBJ45CA,0314040.,92ML A 24X18 H2/H2 0600+-005/DI,5KP22A,5KP58A,SMBJ170A,SMCJ220A,SMBJ10CA,5KP22CA,5KP45CA,5KP10A,5KP5.0A,0324015.HXP,SMBJ6.0A,92G0080CWAKP42,SMBJ33CA,SMBJ250CA,5KP45A,5KP33A,5KP9.0CA,5KP180A,92MLSC B 24X18 H4/059AL2 0060+-001/DI,5KP11CA,SMBJ5.0CA,5KP6.0A,SMBJ220CA,5KP110CA,92G0400CWWAKP42,TOP267EG,SMBJ160A,SMAJ16A,5KP6.0CA,92G0600CWWAWP42,92G0600CTTAKP42,TOP270VG,SMBJ78CA,TOP269KG,SMAJ48CA,5KP10CA,SMBJ43CA,TOP266EG,MLX91208LDC-CAH-TU,5KP170A,SMBJ20CA,5KP33CA,SMCJ7.5A,SMBJ7.0A,TOP268EG,5KP20CA,5KP43CA,SMBJ54CA,SMBJ18A,SI86XXISO-KIT,5KP220CA,SMAJ26A,SMBJ150A,92ML,TOP271VG,0314015.,A0-VP122PA600M7-L759F70,SMBJ6.0CA,SI86XX,5KP160A,SMCJ350A,SMBJ100CA,SMAJ15A,5KP78CA,MLX91208LDC-CAV-000-RE,SMBJ6.5A,5KP7.0CA,5KP16A,SMBJ16A,SMCJ250A,SMAJ180CA,SMBJ30CA,SMDJ15CA,5KP28A,SMBJ28A,5KP6.5A,SMBJ188A,SMCJ64CA,5KP7.0A,SMBJ8.0A,92MLHF 0104 RC:88% 24.00X18.00,5KP150A,MLX91208LDC-CAV-000-SP,SMBJ440CA,0324030.HXP,TOP264EG,5KP54CA,SMBJ64CA,0324020.MXP,5KP15A,TOP267KG,SMBJ17A,SMAJ5.0A,SMBJ120CA,SMBJ250A,SI86XXIS0-KIT,0314012.,5KP8.0A,TOP266,5KP250A,TOP268,TOP267,TOP264,5KP64CA,SMBJ14A,SMBJ75CA,92G0080CWWAKP42,SMBJ26A,5KP18A,SMBJ110CA,SMBJ7.0CA,SMBJ130A,0324010.MXP,TOP271,TOP270,SMCJ6.5A,SMBJ7.5A,5KP120CA,TOP264KG-TL,SMBJ40CA,5KP30CA,TOP265EG,SMBJ15A,TOP269,5KP17A,TOP268KG,0324025.MXP,A0-VP122PA600M7-L759F70T,92G0400CTTAKP42,SMCJ30CA,SMBJ9.0A,SMCJ16A,SMBJ12A,SMBJ51CA,5KP40CA,SMBJ36A,SMBJ24A,SMAJ6.0A,SMBJ48A,SMAJ10CA,SMBJ350A,SMBJ120A,SMAJ20A,SMBJ6.5CA,5KP130A,SMDJ51CA,5KP75CA,SMBJ13A,SMBJ85CA,TOP265KG,5KP7.5A,SMAJ33A,5KP250CA,SMBJ8.0CA,SMCJ6.0A,MLX91208LDC-CAV-000-TU,SMBJ8.5A,5KP130CA,SMBJ22A,5KP85CA,SMBJ58A,5KP70A,SMBJ110A,5KP8.5A,SMBJ300CA,VINCODUAL E3,5KP9.0A,5KP120A,SMAJ170A,SMBJ10A,5KP51CA,SMBJ11A,TOP266KG,SMBJ220A,SMCJ6.5CA,SMBJ180CA,SMCJ48A,SMCJ36A,SMCJ180A,TOP266KG-TL,SMBJ43A,5KP220A,MLX91208LDC-CAL-000-RE,92ML SC B 24X18 H3/059AL2 0.006+-0. 001,SMBJ7.5CA,SMBJ100A,TOP269VG,92ML A 24X18 H2/H2 0200+-0025/DI,SMAJ40A,92G0080CTTAKP42,SMAJ30CA,5KP5.0CA,5KP110A,SMBJ20A,5KP150CA,SMBJ45A,SMBJ33A,SMBJ9.0CA,SMDJ16A,SMBJ60CA,TOP268KG-TL,SMBJ440A,SMCJ12CA,SMCJ33CA,SMCJ58CA,5KP90A,SMBJ200CA,5KP210A,MLX91208LDC-CAL-000-SP,SMBJ78A,5KP60CA,0324001.MXP,TOP271KG-TL,0324010.HXP,SMCJ33A,MLX91208LDC-CAL-000-TU,TPCM780,SMCJ5.0A,SMBJ18CA,SMBJ30A,5KP100A,SMAJ150A,SMBJ54A,92ML PREPREG 104/88 24. 00X18. 00,MLX91208LDC-CAH-RE,SMBJ200A,0324.375HXP,TOP264KG,SMCJ22A
导热相变材料:电子设备高效散热的新篇章
在今日科技高速发展的背景下,散热技术已成为电子设备高性能运行的核心支撑。随着电子元件功能的不断强化和使用频率的增加,传统散热解决方案已逐渐难以满足高集成度、高功耗电子设备的需求。这一挑战促使了一种创新材料——导热相变材料的出现,它以其卓越的性能,正在为电子设备散热技术带来革命性的进步。本文中盛恩来给大家介绍导热相变材料在电子设备高效散热的应用,希望对各位工程师有所帮助。
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