Viewing angle switchable displays based on three-dimension control of liquid-crystal orientation

Chen, Chia-Wei

08 September 2010

In this study, a liquid-crystal display (LCD) with the capability of switchable viewing-angle is proposed. The contrast ratio of the LCD mainly depends on the transmittance of the bright state and the dark state. By using the improved structure of the pixel electrodes, the viewing angle of the LCD can be switched between the wide viewing-angle mode and the narrow-viewing angle mode. Based on the proposed three-electrode structure, the liquid-crystal orientation of the LCD is controlled to generate different light-leakage conditions at large viewing angles, thus, resulting in the switch of the viewing angle of the LCD. The proposed structure, which has the slim outline and low-cost of the LCD, is a simple way to control the viewing angle of the LCD. Potential applications for the protection of personal privacy are emphasized.

light leakage

contrast ratio

viewing angle switching

Studies of viewing-angle-switching display devices with all-direction-switching characteristic

Chung, Chia-Hung

05 September 2011

In this study, a liquid crystal display (LCD) is proposed to have a capability of viewing-angle-switching in all directions. In the proposed LCD, a three-electrode structure is used to control the viewing angle of the LCD. By using a bi-direction slit type electrode, fringe fields with two different directions are generated. The fringe fields cause a light leakage of the dark state in all directions. Experimental results reveal that the proposed LCD has viewing angle within 40o in both vertical and horizontal directions when the area ratio of the vertical and horizontal slit is 1:1. Furthermore, contrast ratio (CR) of the proposed LCD increases as cell gap increases. When the angle between polarizer axis and LC is 0, the proposed LCD has the highest CR in the normal direction. The personal privacy is protected based on the proposed LCD due to the all-direction light leakage in the dark state.

light leakage

viewing-angle-switching LCD

contrast ratio

three electrode

fringe field

High Performance Three-Dimensional Display Based on Polymer-Stabilized Blue Phase Liquid Crystal

Liu, Yifan

01 January 2014

Autostereoscopic 2D/3D (two-dimension/three-dimension) switchable display has been attracting great interest in research and practical applications for several years. Among different autostereoscopic solutions, direction-multiplexed 3D displays based on microlens array or parallax barrier are viewed as the most promising candidates, due to their compatibility with conventional 2D display technologies. These 2D/3D switchable display system designs rely on fast switching display panels and photonics devices, including adaptive focus microlens array and switchable slit array. Polymer-stabilized blue phase liquid crystal (PS-BPLC) material provides a possible solution to meet the aforementioned fast response time requirement. However, present display and photonic devices based on blue phase liquid crystals suffer from several drawbacks, such as low contrast ratio, relatively large hysteresis and short lifetime. In this dissertation, we investigate the material properties of PS-BPLC so as to improve the performance of PS-BPLC devices. Then we propose several PS-BPLC devices for the autostereoscopic 2D/3D switchable display system designs. In the first part we evaluate the optical rotatory power (ORP) of blue phase liquid crystal, which is proven to be the primary reason for causing the low contrast ratio of PS-BPLC display systems. Those material parameters affecting the ORP of PS-BPLC are investigated and an empirical equation is proposed to calculate the polarization rotation angle in a PS-BPLC cell. Then several optical compensation methods are proposed to compensate the impact of ORP and to improve the contrast ratio of a display system. The pros and cons of each solution are discussed accordingly. In the second part, we propose two adaptive focus microlens array structures and a high efficiency switchable slit array based on the PS-BPLC materials. By optimizing the design parameters, these devices can be applied to the 2D/3D switchable display systems. In the last section, we focus on another factor that affects the performance and lifetime of PS-BPLC devices and systems: the UV exposure condition. The impact of UV exposure wavelength, dosage, uniformity, and photo-initiator are investigated. We demonstrate that by optimizing the UV exposure condition, we can reduce the hysteresis of PS-BPLC and improve its long term stability.

Three dimensional display

blue phase liquid crystal

fast response

contrast ratio

hysteresis

Electromagnetics and Photonics

Optics

Efficiency Enhancement Techniques for Switched Mode Power Electronics

Zhao, April (Yang)

29 August 2011

In the design of the state-of-the-art electronic products, power management circuits play a very important role for the enhancement of overall system efficiency. Switched mode DC-DC converter is an increasingly popular power management circuit due to its superior power conversion efficiency. This thesis introduces two efficiency optimization techniques for switched mode power electronic circuits. One is dead-time optimization. This technique can automatically adjust the dead-time on-the-fly according to the circuit operating conditions. Second, an energy conservation based high-efficiency dimmable multi-channel LED driver is discussed. An auxiliary power switched is use to allow free wheeling of the inductor current during the load disconnect period. The sequential burst mode PWM current sharing scheme with dimming capability can effectively reduce design complexity and cost. The proposed LED driver provides a practical solution for the realization of LED BLU in the flat panel TVs with local dimming capability according to the video content.

power management circuit

power efficiency

DC-DC converter

dead-time

LED driver

contrast ratio

energy conservation

0544

Efficiency Enhancement Techniques for Switched Mode Power Electronics

Zhao, April (Yang)

29 August 2011

In the design of the state-of-the-art electronic products, power management circuits play a very important role for the enhancement of overall system efficiency. Switched mode DC-DC converter is an increasingly popular power management circuit due to its superior power conversion efficiency. This thesis introduces two efficiency optimization techniques for switched mode power electronic circuits. One is dead-time optimization. This technique can automatically adjust the dead-time on-the-fly according to the circuit operating conditions. Second, an energy conservation based high-efficiency dimmable multi-channel LED driver is discussed. An auxiliary power switched is use to allow free wheeling of the inductor current during the load disconnect period. The sequential burst mode PWM current sharing scheme with dimming capability can effectively reduce design complexity and cost. The proposed LED driver provides a practical solution for the realization of LED BLU in the flat panel TVs with local dimming capability according to the video content.

power management circuit

power efficiency

DC-DC converter

dead-time

LED driver

contrast ratio

energy conservation

0544

High Birefringence And Low Viscosity Liquid Crystals

Wen, Chien-Hui

01 January 2006

In this dissertation, liquid crystal (LC) materials and devices are investigated in order to meet the challenges for photonics and displays applications. We have studied three kinds of liquid crystal materials: positive dielectric anisotropic LCs, negative dielectric anisotropic LCs, and dual- frequency LCs. For the positive dielectric anisotropic LCs, we have developed some high birefringence isothiocyanato tolane LC compounds with birefringence ~0.4, and super high birefringence isothiocyanato biphenyl-bistolane LC compounds with birefringence as high as ~0.7. Moreover, we have studied the photostability of several high birefringence LC compounds, mixtures, and LC alignment layers in order to determine the failure mechanism concerning the lifetime of LC devices. Although cyano and isothiocyanato LC compounds have similar absorption peaks, the isothiocyanato compounds are more stable than their cyano counterparts under the same illumination conditions. This ultraviolet-durable performance of isothiocyanato compounds originates from its molecular structure and the delocalized electron distribution. We have investigated the alignment performance of negative dielectric anisotropic LCs in homeotropic (vertical aligned, VA) LC cell. Some (2,3) laterally difluorinated biphenyls, terphenyls and tolanes are selected for this study. Due to the strong repulsive force between LCs and alignment layer, (2,3) laterally difluorinated terphenyls and tolanes do not align well in a VA cell resulting in a poor contrast ratio for the LC panel. We have developed a novel method to suppress the light leakage at dark state. By doping positive [Delta][epsilon] or non-polar LC compounds/mixtures into the host negative LC mixtures, the repulsive force is reduced and the cell exhibits an excellent dark state. In addition, these dopants increase the birefringence and reduce the viscosity of the host LCs which leads to a faster response time. Dual-frequency liquid crystal exhibits a unique feature that its dielectric anisotropy changes from positive to negative when we increase the operating frequency. Submillisecond response time can be achieved by switching the frequency of a biased voltage, rather than switching the voltage at a given frequency. In this dissertation, we investigate the dielectric heating effect of dual-frequency LCs. Because the absorption peak of imaginary dielectric constant occurs at high frequency region (~ MHz), there is a heat generated when the LC cell is operated at a high frequency voltage. To measure the transient temperature change of the LC inside the cell, we have developed a non-contact method by utilizing the temperature-dependent birefringence property of the LC. Most importantly, we have formulated a new dual-frequency LC mixture which greatly reduces the dielectric heating effect while maintaining good physical properties. Another achievement in this thesis is that we have developed a polarization independent phase modulator by using a negative dielectric anisotropic LC gel. With ~20 % of polymer mixed in the LC host, the LC forms polymer network which, in turn, exerts a strong anchoring force to the neighboring LC molecules. As a result, the operating voltage increases but the response time is significantly decreased. On the phase shift point of view, our homeotropic LC gel has ~0.08 [pi] phase shift, which is 2X larger than the previous nano-sized polymer-dispersed liquid crystal droplets. Moreover, it is free from light scattering and requires a lower operating voltage. In conclusion, this dissertation provides solutions to improve the performance of LC devices both in photonics and displays applications. These will have great impacts in defense and display systems such as optical phased array, LCD TVs, projectors, and LCD monitors.

Liquid Crystal

High Birefringence

Low Viscosity

Dual-Frequency

Negative Dielectric Anisotropy

High Contrast Ratio

Electromagnetics and Photonics

Optics

The Impact of the Optical Phenomena of Color Adjustment Potential and Kubelka-Munk Layering of Dental Composite Resins on Modern Esthetic Dentistry

Carney, Melody Noelle

27 May 2015

No description available.

Biomedical Engineering

Dentistry

Optics

esthetic dentistry

composite resins

shade matching

Kubelka-Munk

color adjustment potential

blending effect

translucency parameter

contrast ratio

colorimetry

Digitala skyltar i stadsmiljö : Utvärdering av ljusemitterande storbildsskärmars kontrastförhållande och påverkan på det upplevda stadsrummet / Digital signages in urban environments

Martinsson, Viktor, Wikström, Tina

January 2017

Denna studie syftar till att förse kommuner och fackmän med en rimlig utgångspunkt vid upprättande av ljusemitterande skyltar i stadsmiljö och på så vis bidra till perceptuellt väl sammansatta stadsrum. De vägledande frågeställningar som tas upp i rapporten ser till såväl lämpliga kontrastförhållanden som digitala skyltars påverkan på rumsupplevelsen. Med grund i vetenskapsteori rörande seende, rumslig upplevelse och digitala skyltar upprättades en 20 kvadratmeter stor digital skylt på Tändstickstorget i Jönköping, vari ett fältexperiment kom att äga rum den 15 mars 2017. Under experimentet kom skylten att ställas till sex olika scenarier med avseende på skyltluminans och kontrastförhållande till dess direkta omgivning, vilka samtliga granskades av en respondentgrupp om 20 personer. Därefter följde en omfattande visuell utvärdering av den digitala skyltens perceptuella påverkan på det aktuella torgrummet, med skylten inställd på det scenario som dömts behagligast. Av resultaten framgår att ett lågt kontrastförhållande mellan den ljusemitterande skylten och dess direkta omgivning föredras framför ett högt, då en tydlig korrelation mellan höga kontraster och obehag identifierats. Vidare visar resultaten att en digital skylt leder till att stadsrummet som helhet upplevs mörkare och att dess upplevda form och storlek förändras. Konkurrens uppstår mellan lokala landmärken och skylten, då dess luminanta yta blir det dominerande objektet i synfältet. Det framgår tydligt av undersökningen att beslut vid implementering av digitala skyltar i stadsmiljö bör styrkas med en god kunskapsgrund, något som resultaten och det specifikt för studien utformade mätdataformuläret avser bidra till. / This thesis aims to provide municipalities and professionals with a reasonable starting point when planning for light emitting signs in urban environments, thus contributing to perceptually cohesive urban spaces. The questions raised in this report examine appropriate contrast ratios as well as digital signage’s impact on the spatial experience. Based on scientific theory concerning human vision, spatial experience and digital signage’s a 20-square meter digital sign was installed at Tändstickstorget in Jönköping, where a field experiment took place on the 15th of March 2017. The sign was programmed into six different scenarios with regard to its screen luminance and contrast ratio to its immediate surroundings, all of which were reviewed by 20 respondents. Furthermore, an extensive visual evaluation was carried out to investigate the perceptual impact the digital sign had on the city square, with the sign set to the scenario deemed most pleasant. The results show that a low contrast ratio between the light emitting sign and its immediate surroundings is preferred to a high ratio, seeing as a clear correlation between high contrasts and discomfort has been identified. Moreover, the results show that a digital sign makes the urban space perceptually darker overall, whilst at the same time affecting the form and size of the space. Competition arises between the local landmarks and the sign, as its luminous surface becomes the dominant object in the field of view. It is clear from the study that decisions regarding the implementation of digital signs in urban environments should be strengthened with a good knowledgebase, which the results along with the measurement data form developed specifically for the study intends to contribute with.

Digital signage

contrast ratio

visual comfort

spatial experience

LED-screens

urban space

Digitala skyltar

kontrastförhållande

visuell komfort

rumsupplevelse

LED-skärmar

stadsrum

Övrig annan teknik