Evaluation of TFT characteristics of liquid crystal panels
We can perform good product characteristic measurements for performance verification, as well as defective characteristic measurements and reliability evaluations!
Our company can perform good product characteristic measurements, defective characteristic measurements, and reliability evaluations for specific TFTs in liquid crystal panels. In the "Electrical characteristic measurement of TFTs at various temperatures," we can disassemble the monitor in display mode and measure the electrical characteristics of the pixel TFTs within the panel. In the "DC bias stress test," we apply an arbitrary DC bias to the Gate and Drain and measure the Vth shift when stress is applied to the TFT, conducting reliability verification. 【Features】 - Electrical characteristic measurements can be performed on the pixel TFTs within the panel. - Measurements can be conducted before and after annealing, under light exposure, heating, or cooling conditions. - From the measurement results, indicators such as Ion, Ioff, Vth, and mobility can be calculated. - Verification of actual values in good product analysis and clarification of causes of defects can be performed. *For more details, please refer to the PDF document or feel free to contact us.
basic information
【Other Features】 <DC Bias Stress Test> ■ Apply an arbitrary DC bias to the Gate and Drain, measure the Vth shift when stress is applied to the TFT, and confirm reliability. ■ Can be measured even in a heated state as an accelerated test. ■ By conducting measurements with multiple panel manufacturers and comparing the Vth shift amounts, superiority judgments can also be made. *For more details, please refer to the PDF document or feel free to contact us.
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For more details, please refer to the PDF document or feel free to contact us.
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Observation of Conductive Particle Shape in COG Implementation
We will introduce the observation of the shape of conductive particles in COG implementation. ICs and liquid crystal panels are implemented using the COG method with ACF (anisotropic conductive film). A resin ball is used as the core, and a metal layer (such as nickel or gold) for conductivity is deposited on its surface. During connection, the particles deform appropriately to electrically connect the IC and the panel. To confirm the degree of particle deformation and connection status, cross-sectional observations were conducted, revealing that the particle deformation was at a "medium" level, indicating an appropriate degree of deformation. By examining the deformation of conductive particles from both the planar and cross-sectional directions, we can explore the correlation with display defects. Please feel free to contact us for any inquiries regarding panel-related defects.
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Analysis of trace metal elements in liquid crystals
We will introduce a case where ICP measurement was conducted using panels before and after reliability testing, along with quantification. The liquid crystal molecules in an LCD are oriented within the panel, and the display is controlled by changes in the orientation state of the liquid crystal due to voltage. When ionic substances, such as metal elements, are present inside the panel, the liquid crystal may not drive correctly, leading to display defects. It is known that ionic substances can increase due to contamination during manufacturing or long-term use, making it important to quantify and understand them as part of panel quality. Metal ions can be quantitatively analyzed using ICP analysis, and depending on the differences in pretreatment methods and detection sensitivity, ICP-AES and ICP-MS are used selectively. [Analysis Content] ■ Comparison of metal element content using ICP-AES analysis ■ Comparison of metal element content using ICP-MS analysis For more details, please refer to the related products and catalog below.
