Touchscreen Technology and Digitizers
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![What is a touch screen?
• An electronic visual
display that locates the
coordinates of a users
touch within display
area.
• Works independently of
what is being
displayed on screen.[7]](data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7)
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Touchscreen Technology and Digitizers
- 1. Touch Screen Technology and Digitizer By: Devashree Kumari BCA III Roll no.: 20 Guide: Mr. Ramesh Rawat
- 2. What is a touch screen? • An electronic visual display that locates the coordinates of a users touch within display area. • Works independently of what is being displayed on screen.[7]
- 3. When is it Applicable? • It allows users to interact directly with what is being displayed, rather than indirectly using a mouse or keyboard. • Can be used without any intermediate device. • Found in modern smartphones, video games, kiosks, navigation systems, etc. . . [1]
- 4. What Is a Digitizer? The digitizer by definition is a device used to convert analog signals into digital signals. In the case of our cell phones, this device would be the glass that covers the LCD. It converts your actions (press, swipe, etc) into a digital signal that your phone understands. The data from the digitizer (glass) is transferred to the phone by the attached digitizer flex cable or digitizer flex ribbon.
- 5. Brief History • Invented by E.A. Johnson (Royal Radar Est.) around 1965 for air traffic control. • HP-150 home computer using infrared technology in 1983. • 1993 Apple’s Newton and IBM’s Simon. • 2002 Microsoft’s Windows XP Tablet. • 2007 Apple’s iPhone (Multi-touch). [6]
- 6. SIMON by IBM • In 1992 IBM released the first smart phone called Simon, with a touch screen interface that allowed users to dial phone numbers. In addition Simon was also able to send and receive faxes, e-mails and cellular pages. Simon featured many applications including an address book, calendar, appointment scheduler, calculator, world time clock, electronic note pad, handwritten annotations and standard and predictive stylus input screen keyboards.
- 7. Touch Screen Technology • Four different technologies used to make touch screens today: • Resistive • Capacitive • Surface Acoustic Wave (SAW) • Infrared LED or Optical
- 8. Resistive Touch Screens • Two layers of conductive material. • Touch creates contact between resistive layers completing circuit. [2]
- 9. Resistive Touch Screens • Voltage in circuit changes based on position. • Controller determines location based on voltages. • Any material can trigger sensors. [2]
- 10. Why Resistive? • Advantages: • Cost-effective and low power Requirements. • Activated by any object. • Accurate. • Disadvantages: • Polyester surface can be damaged. • Only 75% light transmission. • Lower endurance (~35 million touches).
- 11. Capacitive Touch Screens • Glass panel with conductive layer (Indium Tin Oxide). • Small amount of voltage applied to four corners of touch screen. [2]
- 12. Capacitive Touch Screens • Touch draws minute amount of current creating voltage drop. • Coordinates of point of contact calculated by controller. [2]
- 13. Why Capacitive? • Advantages: • Durable surface material. • High endurance (~255 million touches). • Very accurate. • Good optical quality. • Disadvantages: • Triggered only by bare finger or active stylus.
- 14. Surface Acoustic Wave Touch Screens • Surface consists of glass overlay with transmitting and receiving transducers.
- 15. Surface Acoustic Wave Touch Screens • Electrical signals sent to the transmitting transducers converts to ultrasonic waves . • Waves are directed across screen by reflectors then directed to receiving transducers. [2]
- 16. Surface Acoustic Wave Touch Screens • When finger touches screen it absorbs waves. • Received values are compared to stored digital maps to calculate x and y coordinates. [2]
- 17. Why SAW? • Advantages: • Best optical quality. • High surface durability and seal. • Activated by multiple sources . • Disadvantages: • Expensive. • Contaminates on screen can cause false-touches.
- 18. • Uses infrared LEDs and matching photodetectors. • Touching screen interrupts LEDs. Infrared/Optical Touch Screens [2]
- 19. Infrared/Optical Touch Screens • Cameras detect reflected LED caused by touch. • Controller able to calculate coordinates from camera data. [8]
- 20. Infrared/Optical Touch Screens • Advantages: • High optical clarity. • Durable surface. • Supports multi-touch. • Can scale to large sizes. • Disadvantages: • Expensive. • Cameras can get out of alignment.
- 21. Touch Screen Technology Comparison Chart Resistive Infrared SAW Capacitive Touch Resolution High High Average High Clarity Average Good Good Good Operation Finger or Stylus Finger or Stylus Finger or Soft- tipped Stylus Finger only Durability Can be Damaged by Sharp Objects Highly Durable Susceptible to Dirt and Moisture Highly durable
- 22. End.. • Though the touch screen technology contains some limitations it’s very user friendly, fast, accurate, easy for the novices & fun to operate. It has been widely accepted. And now by just modifying a little it can replace the mouse and key board completely in near future.
- 23. Bibliography • www.wikipedia.org • www.makeuseof.com • www.techexplainer.wordpress.com • www.inventors.about.com • Google Images