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详细介绍
Summarize:
The innovative frequency-domain thermal reflection technology (FDTR) can precisely measure the thermal conductivity and other thermal properties of thin films and microstructures, and can also observe their distribution status.
Advantage:
Mechanical micro-nano systems, thermal property measurement of chip microsystems, including tests for thermal conductivity, interface thermal resistance, etc., mature solutions
Characteristic:
1. Precise measurement of micro-scale thermal conductivity: It can accurately measure the thermal conductivity of materials, whether they are thin films, particles (such as 18 μm single-crystal aluminum oxide particles) or anisotropic materials (such as La₅Ca₆Cu₂O₄₁ single crystal).
2. Quantification of thermal boundary conduction: Accurately determine the thermal conduction performance at deep interfaces, for example, comparing the interface conduction differences between gold films prepared by physical vapor deposition (PVD) and sputtering (TBCs are 138.0 MW/m²·K and 306.5 MW/m²·K).
3. Three-dimensional thermal diffusion modeling: By using laser scanning and beam offset technology, simultaneously analyze the in-plane and out-of-plane thermal conductivities, revealing the anisotropic characteristics of the materials.
4. Efficient data acquisition: A single phase curve measurement only takes 10 minutes and supports wideband scanning from low frequency to high frequency (10 kHz – 100 kHz)
Application:
1. Measurement of thermal conductivity of films and particles
2. Measurement of thermal conductivity of anisotropic materials
3. Interface thermal conductivity (between films or between films and substrates)
4. Micro-area mapping measurement of thermal physical properties
5. Measurement of thermal conductivity coefficient and specific heat capacity
6. Blocks and films, including films with a thickness less than 100 nanometers
7. Chip packaging and thermal interface materials
8. Multilayer structures, anisotropic material, two-dimensional materials
9. Thermal performance imaging with micrometer resolution
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详细参数
Specification:
Temperature measurement range: -190℃ to 600℃
Film thickness: < 100 nm
Laser pump: Fully automatic, no external exposure
Data acquisition and analysis software
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产品特色
因用于机器人各方面应用且与大多数机器人类型兼容,AutoCal系统可以检测出机器人自身构造和工具中心点(TCP)的 突然改变或偏离,并且该系统无需人为干涉就自动地更正这些误差。
AutoCal系统-Dynalog的先进水平校准技术,Dynalog是机器人单元标定技术的世界领导者。它的主流产品DynaCal 系统,被应用于离线的机器人单元校准,并作为最精确的和技术先进的机器人校准程序为许多机器人制造商和终端使用者所接受。AutoCal 系统将已证实的DynaCal校准技术结合到一个在线的全自动系统中,该系统专为程序控制和复原而设计的,价格低廉。
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详细介绍
AutoCal系统提供在线的机器人校准方案,旨在快速和自动地保证机械设备的工作性能。因用于机器人各方面应用且与大多数机器人类型兼容,AutoCal系统可以检测出机器人自身构造和工具中心点(TCP)的 突然改变或偏离,并且该系统无需人为干涉就自动地更正这些误差。这意味着不用猜测哪里会出错,不用浪费宝贵时间在机器人程序重复校准上,产品品质无任何损失。
AutoCal系统-Dynalog的先进水平校准技术,Dynalog是机器人单元标定技术的世界领导者。它的主流产品DynaCal 系统,被应用于离线的机器人单元校准,并作为最精确的和技术先进的机器人校准程序为许多机器人制造商和终端使用者所接受。AutoCal 系统将已证实的DynaCal校准技术结合到一个在线的全自动系统中,该系统专为程序控制和复原而设计的,价格低廉。
