A Wacom Bamboo Capture graphics tablet with supplied inductive pen. The crop marks on the surface indicate the active area, which measures 14.7×9.2 cm or 5.8×3.6 in.
Active Pen, palm-on-screen natural writing experience
An active pen (also referred to as active stylus) is an input device that includes electronic components and allows users to write directly onto the display of a computing device such as a smartphone, tablet computer or Ultrabook. The active pen marketplace has long been dominated by N-trig and Wacom, but newer firms Atmel and Synaptics also offer active pen designs.
An active pen is generally larger and has more features than a stylus. Digital pens typically contain internal electronics and have features such as touch sensitivity, input buttons, memory, writing data transmission capabilities, and electronic erasers.
The main difference between an active pen and the input device known as a passive stylus or passive pen is that although the latter can also be used to write directly onto the screen, it does not include electronics and thus lacks all of the features that are unique for an active pen: touch sensitivity, input buttons, etc.
Active pen devices support most modern operating systems, including Google's Android and Microsoft Windows.
Active Pen, natural pressure sensing
Active pens are typically used for note taking, on-screen drawing/painting and electronic document annotation, as well as accurate object selection and scrolling. When used in conjunction with handwriting recognition software, the active pen's handwritten input can be converted to digital text, stored in a digital document, and edited in a text or drawing application.
Active and positional pens
The electronic components generate wireless signals that are picked up by a proprietary digitizer and transmitted to its dedicated controller, providing data on pen location, pressure and other functionalities. Additional features enabled by the active pen's electronics include palm rejection to prevent unintended touch inputs, and hover, which allows the computer to track the pen's location when it is held near, but not touching the screen. Most active pens feature one or more function buttons (e.g. eraser and right-click) that can be used in the place of a mouse or keyboard.
There is a new technological generation of active capacitive devices compatible with multitouch screens that allow seeing the tip while drawing a fine line on the screen, giving an accuracy impossible to achieve with a finger, as this covers the point of contact when drawing or writing. (multitouch capacitive technology is originally designed to be activated by fingers),
Some typical passive stylus include a large tip made of rubber or conductive foam in order to emulate a user's finger, rather than the more accurate ballpoint pen-like tip used in the active pen.
Active pens carried out by manufacturers such as Wacom Pro Pen 2 and Huion PW500/PW507 can support 8,192 levels of pressure sensitivity and tilt recognition with accuracy. Tilt feature of the active pen helps create natural-looking pen, brush, and eraser strokes in applications that support tilt sensitivity.
Active pens, such as N-trig's DuoSense Pen™, include electronic components whose signals are picked up by a mobile device's built-in digitizer and transmitted to its controller, providing data on pen location, pressure, button presses and other functionality.
Position-based digital pens use a facility to detect the location of the tip during writing. Some models can be found on graphics tablets made popular by Wacom, and on tablet computers using Wacom's Penabled technology.
^Hughes, Andrew (2011). "Active Pen Input and the Android Input Framework". M.S. thesis. California Polytech State University. p. 2. Archived from the original on 2014-06-11.
^Cooper, Andrew (September 12, 2013). "N-trig Release Teases that Fujitsu's Stylistic Q702 will Come with Active Pen Support". Engadget.com. Archived from the original on December 9, 2013. Retrieved February 28, 2014.
^Kendrick, James (September 28, 2004). "Wacom Digitizer for Smartphones". GigaOm.com. Archived from the original on August 28, 2014. Retrieved February 28, 2014.
^Takahashi, Dean (January 7, 2014). "New Sensors Could Lower the Cost of Touchscreen Pens – and Make Them as Good as Pen and Paper". VentureBeat.com. Archived from the original on February 28, 2014. Retrieved February 28, 2014.
^Gasior, Geoff (October 17, 2013). "Synaptics Intros Pressure-Sensitive Stylus Tech for Win8.1". techreport.com. Archived from the original on October 21, 2013. Retrieved February 28, 2014.
^Shelly, Gary B.; Misty E. Vermaat (2009). Discovering Computers: Fundamentals. Cengage Learning. ISBN 978-0-495-80638-7. Archived from the original on 15 February 2017. Retrieved 3 November 2009.
^ abLinenberger, Michael (October 16, 2013). "The Importance of an Active Digitizer Pen". MichaelLinenberger.com. Archived from the original on February 18, 2014. Retrieved January 6, 2014.
^"Android Getting Native Active Pen Support in Ice Cream Sandwich". GottaBeMobile.com. Notebooks.com Inc. October 21, 2011. Archived from the original on April 2, 2015. Retrieved January 6, 2014.
^Bricklin, Dan (2009). Bricklin on Technology. Indianapolis, IN: Wiley Publishing. p. 283. ISBN 978-0-470-40237-5.
^Gartenberg, Chaim (2016-10-10). "Wacom's latest tablet PC has a pen with 8,192 levels of sensitivity". The Verge.
^"With Outstanding Technology, HUION Launches New Battery-free Pen Display KAMVAS Pro 13". Market Insiders. 2018-08-08.
^"What is Tilt?". Wacom. Archived from the original on 2018-11-08. Retrieved 2018-11-08.