Add to ORKGIlluminated Lock-In Thermography (ILIT) was introduced as a further development of Dark Lock-In Thermography (DLIT) in 2004 and allows to measure under conditions considerably closer to real operation conditions of solar cells. Recently, a number of different modes were developed, that differ in the measurement conditions chosen. This contribution investigates favorable measurement conditions for the most important parameters of a solar cell. It will be shown that adapted modes of Lock-In Thermography are well suited for the investigation of linear and non-linear shunts, bulk material quality and losses due to series resistance as e.g. contact resistance and inappropriate metalization patterns. Bulk material quality is best investigated und...
In this short communication, we present a method which utilizes contactless ILIT (illuminated lock-i...
Lock-in thermography (LIT) is an imaging method that depicts radiated heat andits diffusion in manif...
The purpose of this paper is a detailed comparison of selected luminescence and lock-in thermography...
Illuminated Lock-In Thermography (ILIT) is a versatile tool for spatially resolved detection of powe...
The principles of a recently introduced measurement technique for power losses in solar cells, illum...
Illuminated lock-in thermography (ILIT) was introduced for spatially resolved measurement of the loc...
Two operation modes of lock-in thermography are introduced to detect regions of high series resistan...
This contribution gives an overview about the present state of the art of Lock-in Thermography (LIT)...
The spatially resolved evaluation of power losses in solar cells is a key issue in identifying techn...
This paper focuses on the fast spatially resolved detection of material and / or processing induced ...
This paper focuses on the fast spatially resolved detection of material and / or processing induced ...
The focus of this paper is on the fast spatially resolved detection of conversion efficiency limitin...
The primary part of this work is the localisation of short circuits in solar cells with the help of ...
Infrared lock-in thermography not only allows to image local heat sources like shunts in electronic ...
Infrared lock-in thermography allows to image shunts very sensitively in all kinds of solar cells an...
In this short communication, we present a method which utilizes contactless ILIT (illuminated lock-i...
Lock-in thermography (LIT) is an imaging method that depicts radiated heat andits diffusion in manif...
The purpose of this paper is a detailed comparison of selected luminescence and lock-in thermography...
Illuminated Lock-In Thermography (ILIT) is a versatile tool for spatially resolved detection of powe...
The principles of a recently introduced measurement technique for power losses in solar cells, illum...
Illuminated lock-in thermography (ILIT) was introduced for spatially resolved measurement of the loc...
Two operation modes of lock-in thermography are introduced to detect regions of high series resistan...
This contribution gives an overview about the present state of the art of Lock-in Thermography (LIT)...
The spatially resolved evaluation of power losses in solar cells is a key issue in identifying techn...
This paper focuses on the fast spatially resolved detection of material and / or processing induced ...
This paper focuses on the fast spatially resolved detection of material and / or processing induced ...
The focus of this paper is on the fast spatially resolved detection of conversion efficiency limitin...
The primary part of this work is the localisation of short circuits in solar cells with the help of ...
Infrared lock-in thermography not only allows to image local heat sources like shunts in electronic ...
Infrared lock-in thermography allows to image shunts very sensitively in all kinds of solar cells an...
In this short communication, we present a method which utilizes contactless ILIT (illuminated lock-i...
Lock-in thermography (LIT) is an imaging method that depicts radiated heat andits diffusion in manif...
The purpose of this paper is a detailed comparison of selected luminescence and lock-in thermography...