品牌:MAP |
The MDPinline ingot is the state of the art system for topographic electrical characterisation of multicrystalline bricks in fabs with high throughput. Total measurement times of less than two minutes at 1 mm resolution, two brick sides simultaneously. MDPinline铸锭是用于高产量晶圆厂中多晶砖地形电学表征的进系统。1毫米分辨率下的总测量时间少于2分钟,同时有两个砖侧。 The MDPinline ingot systems are worldwide the fastest measurement tools available for electrical characterisation of multicrystalline silicon bricks. They are designed for single brick investigation in high throughput production fabs. Every brick can be measured on two sides in less than two minutes all maps at the same time. Measurement parameters are lifetime and conduction type equivalent maps with 1 mm resolution as well as resistivity linescans. MDPinline铸锭系统是全球最快的测量工具,可用于多晶硅砖的电气特性分析。它们专为高吞吐量生产工厂的单块砖研究而设计。每块砖可以在两分钟内在不到两分钟的时间内同时测量所有地图。测量参数是寿命和导电类型的等效地图,分辨率为1毫米以及电阻率线扫描。 The system includes a database and statistical data evaluation which can be used for automated determination of precise cut positions for yield improvement, for material quality monitoring and for furnace selection and process improvement. 该系统包括一个数据库和统计数据评估,可用于自动确定***切割位置以提高产量,用于材料质量监控以及炉子选择和工艺改进。 Advantages World record speed for inline multicrystalline silicon brick characterisation for advanced PV fabs. Measurement of carrier lifetime with one millimeter resolution in less than two minutes at two brick sites. Spatial resolved measurement of conduction type changes as well as resistivity linescans are measured at the same time. Customer defined brick cut criteria can be transmitted to the fab database which allows a fully automated material monitoring for next generation photovoltaic fabs. Enables material quality control and monitoring of furnace performance, and failure analysis. Special “underneath the surface” measurement technique reduces distortion of data by surface recombination considerably 优点 用于***光伏电站的在线多晶硅砖特性的世界纪录速度。在两个砖块地点用不到两分钟的时间测量1毫米分辨率的载流子寿命。同时测量导电类型变化的空间分辨测量以及电阻率线扫描。 客户定义的切砖准则可以传输到晶圆厂数据库,从而为下一代光伏制造商提供全自动化的材料监控。实现材料质量控制和炉子性能监测以及故障分析。 特殊的“表面下”测量技术通过表面重组显着减少了数据失真。