• Title/Summary/Keyword: capacitive touch screen

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Circuit Modeling and Analysis of Touch Screen Panel (터치스크린 패널의 회로 모델링 및 분석)

  • Byun, Kisik;Min, Byung-Wook
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.25 no.1
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    • pp.47-52
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    • 2014
  • A simple RC circuit model of large-scale touch screen panels is developed and the frequency range of the RC model is analyzed. 2D EM simulation results of a single touch cell are cascaded for a 23 inch touch panel using a circuit simulator, and the shortest and longest channels of the full panel are modeled with a 5-element RC circuit. The 5-element RC circuit can model the touch screen panel upto 130 kHz with the channel phase error of $10^{\circ}$. 7-element RC circuit model is also proposed and the frequency range for the channel phase error of $10^{\circ}$ is extended to 200 kHz.

Dual Sensing with Voltage Shifting Scheme for High Sensitivity Touch Screen Detection (고감도 터치스크린 감지를 위한 양방향 센싱과 전압쉬프팅을 이용한 센싱 기법)

  • Seo, Incheol;Kim, HyungWon
    • Journal of the Institute of Electronics and Information Engineers
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    • v.52 no.4
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    • pp.71-79
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    • 2015
  • This paper proposes a new touch screen sensing method that improves the drawback of conventional single-line sensing methods for mutual capacitance touch screen panels (TSPs). It introduces a dual sensing and voltage shifting method, which reduces the ambient noise effectively and enhances the touch signal strength. The dual sensing scheme reduces the detection time by doubling the integration speed using both edges of excitation pulse signals. The voltage shifting method enhances the signal-to-noise ratio (SNR) by increasing the voltage range of integrations, and maximizing the ADC's input dynamic range. Simulation and experimental results using a commercial 23" large touch screen show an SNR performance of 43dB and a scan rate 2 times faster than conventional schemes - key properties suited for a large touch screen panels. We implemented the proposed method into a TSP controller chip using Magnachip's CMOS 0.18um process.

An alternative method for smartphone input using AR markers

  • Kang, Yuna;Han, Soonhung
    • Journal of Computational Design and Engineering
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    • v.1 no.3
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    • pp.153-160
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    • 2014
  • As smartphones came into wide use recently, it has become increasingly popular not only among young people, but among middle-aged people as well. Most smartphones adopt capacitive full touch screen, so touch commands are made by fingers unlike the PDAs in the past that use touch pens. In this case, a significant portion of the smartphone's screen is blocked by the finger so it is impossible to see the screens around the finger touching the screen; this causes difficulties in making precise inputs. To solve this problem, this research proposes a method of using simple AR markers to improve the interface of smartphones. A marker is placed in front of the smartphone camera. Then, the camera image of the marker is analyzed to determine the position of the marker as the position of the mouse cursor. This method can enable click, double-click, drag-and-drop used in PCs as well as touch, slide, long-touch-input in smartphones. Through this research, smartphone inputs can be made more precise and simple, and show the possibility of the application of a new concept of smartphone interface.

Improvement of Smartphone Interface Using AR Marker (AR 마커를 이용한 스마트폰 인터페이스의 개선)

  • Kang, Yun-A;Han, Soon-Hung
    • Korean Journal of Computational Design and Engineering
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    • v.16 no.5
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    • pp.361-369
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    • 2011
  • As smartphones came into wide use recently, it has become increasingly popular not only among young people, but middle-aged people as well. Most smartphones use capacitive full touch screen, so touch commands are made by fingers unlike the PDAs in the past that use touch pens. In this case, a significant portion of the smartphone's screen is blocked by the finger so it is impossible to see the screens around the finger touching the screen, and difficulty occurs in precise control used for small buttons such as qwerty keyboard. To solve this problem, this research proposes a method of using simple AR markers to improve the interface of smartphones. Sticker-form marker is attached to fingernails and placed in front of the smartphone camera Then, the camera image of the marker is analyzed to determine the orientation of the marker to perceive as onRelease() or onPress() of the mouse depending on the marker's angle of rotation, and use its position as the position of the mouse cursor. This method can enable click, double-click, drag-and-drop used in PCs as well as touch, slide, long-touch-input in smartphones. Through this research, smartphone inputs can be made more precise and simple, and show the possibility of the application of a new concept of smartphone interface.

Touch Recognition based on SIFT Algorithm (SIFT 알고리즘 기반 터치인식)

  • Jung, Sung Hoon
    • Journal of the Korea Society of Computer and Information
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    • v.18 no.11
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    • pp.69-75
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    • 2013
  • This paper introduces a touch recognition method for touch screen systems based on the SIFT(Scale Invariant Feature Transform) algorithm for stable touch recognition under strong noises. This method provides strong robustness against the noises and makes it possible to effectively extract the various size of touches due to the SIFT algorithm. In order to verify our algorithm we simulate it on the Matlab with the channel data obtained from a real touch screen. It was found from the simulations that our method could stably recognize the touches without regard to the size and direction of the touches. But, our algorithm implemented on a real touch screen system does not support the realtime feature because the DoG(Difference of Gaussian) of the SIFT algorithm needs too many computations. We solved the problem using the DoM(Difference of Mean) which is a fast approximation method of DoG.

Image Processing Algorithms for DI-method Multi Touch Screen Controllers (DI 방식의 대형 멀티터치스크린을 위한 영상처리 알고리즘 설계)

  • Kang, Min-Gu;Jeong, Yong-Jin
    • Journal of the Institute of Electronics Engineers of Korea SP
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    • v.48 no.3
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    • pp.1-12
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    • 2011
  • Large-sized multi-touch screen is usually made using infrared rays. That is because it has technical constraints or cost problems to make the screen with the other ways using such as existing resistive overlays, capacitive overlay, or acoustic wave. Using infrared rays to make multi-touch screen is easy, but is likely to have technical limits to be implemented. To make up for these technical problems, two other methods were suggested through Surface project, which is a next generation user-interface concept of Microsoft. One is Frustrated Total Internal Reflection (FTIR) which uses infrared cameras, the other is Diffuse Illumination (DI). FTIR and DI are easy to be implemented in large screens and are not influenced by the number of touch points. Although FTIR method has an advantage in detecting touch-points, it also has lots of disadvantages such as screen size limit, quality of the materials, the module for infrared LED arrays, and high consuming power. On the other hand, DI method has difficulty in detecting touch-points because of it's structural problems but makes it possible to solve the problem of FTIR. In this thesis, we study the algorithms for effectively correcting the distort phenomenon of optical lens, and image processing algorithms in order to solve the touch detecting problem of the original DI method. Moreover, we suggest calibration algorithms for improving the accuracy of multi-touch, and a new tracking technique for accurate movement and gesture of the touch device. To verify our approaches, we implemented a table-based multi touch screen.

A Fast Sensing Method using Concurrent Driving and Sequential Sensing for Large Capacitance Touch Screens (동시구동 및 순차센싱을 이용한 대형 정전용량 터치스크린용 고속 센싱 기법)

  • Mohamed, Mohamed G.A.;Kim, HyungWon;Cho, Tae-Won
    • Journal of the Institute of Electronics and Information Engineers
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    • v.52 no.4
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    • pp.62-70
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    • 2015
  • Recently the demand for projected capacitance touch screens is sharply growing especially for large screens for medical devices, PC monitors and TVs. Large touch screens in general need a controller of higher complexity. They usually have a larger number of driving and sensing lines, and hence it takes longer to scan one frame for touch detection leading to a low frame scan rate. In this paper, a novel touch screen control technique is presented, which scans each frame in two steps of simultaneous multi-channel driving. The first step is to drive all driving lines simultaneously and determine which sensing lines have any touch. The second step is to sequentially rescan only the touched sensing lines, and determine exact positions of the touches. This technique can substantially increase the frame scan rate. This technique has been implemented using an FPGA and an AFE board, and tested using a commercial 23-inch touch screen panel. Experimental results show that the proposed technique improves the frame scan rate by 8.4 times for the 23-inch touch screen panel over conventional methods.

Implementation of 24-Channel Capacitive Touch Sensing ASIC (24 채널 정전 용량형 터치 검출 ASIC의 구현)

  • Lee, Kyoung-Jae;Han, Pyo-Young;Lee, Hyun-Seok;Bae, Jin-Woong;Kim, Eung-Soo;Nam, Chul
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.48 no.5
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    • pp.34-41
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    • 2011
  • This paper presents a 24 channel capacitive touch sensing ASIC. This ASIC consists of analog circuit part and digital circuit part. Analog circuits convert user screen touch into electrical signal and digital circuits represent this signal change as digital data. Digital circuit also has an I2C interface for operation parameter reconfiguration from host machine. This interface guarantees the stable operation of the ASIC even against wide operation condition change. This chip is implemented with 0.18 um CMOS process. Its area is about 3 $mm^2$ and power consumption is 5.3mW. A number of EDA tools from Cadence and Synopsys are used for chip design.

Electrical and Optical Properties of ITO Thin Films with Various Thicknesses of SiO2 Buffer Layer for Capacitive Touch Screen Panel (정전용량식 터치스크린 패널을 위한 SiO2 버퍼층 두께에 따른 ITO 박막의 전기적 및 광학적 특성)

  • Yeun-Gun, Chung;Yang-Hee, Joung;Seong-Jun, Kang
    • The Journal of the Korea institute of electronic communication sciences
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    • v.17 no.6
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    • pp.1069-1074
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    • 2022
  • In this study, we prepared ITO thin films on the Nb2O5/SiO2 double buffer layer and investigated electrical and optical properties according to the change of SiO2 buffer layer thickness (40~50nm). The ITO thin film fabricated on the Nb2O5/SiO2 double buffer layer exhibited a broad surface roughness with a small value ranging of 0.815 to 1.181nm, and the sheet resistance was 99.3 to 134.0Ω/sq. It seems that there is no problem in applying the ITO thin film to a capacitive touch screen panel. In particular, the average transmittance in the short-wavelength (400~500nm) region and the chromaticity (b*) of the ITO thin film deposited on the Nb2O5(10nm)/SiO2(40nm) double buffer layer showed significantly improved results as 83.58% and 0.05, respectively, compared to 74.46% and 4.28 of ITO thin film without double buffer layer. As a result, it was confirmed that optical properties such as transmittance in the short-wavelength region and chromaticity were remarkably improved due to the index matching effect in the ITO thin film with the Nb2O5/SiO2 double buffer layer.

Recent Research Trends in Touchscreen Readout Systems (최근 터치스크린 Readout 시스템의 연구 경향)

  • Jun-Min Lee;Ju-Won Ham;Woo-Seok Jang;Ha-Min Lee;Sang-Mo Koo;Jong-Min Oh;Seung-Hoon Ko
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.36 no.5
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    • pp.423-432
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    • 2023
  • With the increasing demand for mobile devices featuring multi-touch operation, extensive research is being conducted on touch screen panel (TSP) Readout ICs (ROICs) that should possess low power consumption, compact chip size, and immunity to external noise. Therefore, this paper discusses capacitive touch sensors and their readout circuits, and it introduces research trends in various circuit designs that are robust against external noise sources. The recent state-of-the-art TSP ROICs have primarily focused on minimizing the impact of parasitic capacitance (Cp) caused by thin panel thickness. The large Cp can be effectively compensated using an area-efficient current compensator and Current Conveyor (CC), while a display noise reduction scheme utilizing a noise-antenna (NA) electrode significantly improves the signal-to-noise ratio (SNR). Based on these achievements, it is expected that future TSP ROICs will be capable of stable operation with thinner and flexible Touch Screen Panels (TSPs).