Computer graphics processing and selective visual display system – Display peripheral interface input device
Reexamination Certificate
2002-11-18
2004-09-07
Wu, Xiao (Department: 2674)
Computer graphics processing and selective visual display system
Display peripheral interface input device
C345S157000
Reexamination Certificate
active
06788287
ABSTRACT:
FIELD OF THE INVENTION
This invention is a mechanical input to electrical output device and generally relates to a touch pad for controlling the movement of a cursor on a visual display. More particularly, it relates to a touch pad module mountable on a wrist band.
BACKGROUND OF THE INVENTION
As part of the miniaturization of computer products, touch pads have been developed to perform the same function as a mouse device, i.e. to control the movement of a cursor in a visual display. As touch pads have a reduced size, they are advantageously used in notebook computers, mounted on a keyboard panel. patent application Ser. No. 10/243,082, filed by David Wilson, the same inventor as in this disclosure, disclosed a new IR mouse design that used the raising of fingers to break a light beam as a replacement for the typical buttons on a conventional mouse. That application also disclosed a wristband mouse as an embodiment. The wristband mouse uses the light beam interruption as a method of input as well as a touch pad mounted on the wristband to control cursor movement. It has now been discovered that a new design for a touch pad, as disclosed in this application, will work even better and give more certain and accurate cursor control.
User-friendly input devices for computers are well known in the art. One of the several types of input devices is the familiar “mouse.” When combined with a graphical user interface, a mouse can be much easier to use than typed keyboard commands. By moving the mouse across a surface, an operator causes a cursor to move correspondingly on a display screen. The mouse has been accepted as a “user-friendly” input device providing a simple means for both experienced and novice computer users to interact with a computer. However, mice are limited because they generally require a flat rolling surface, e.g. a tabletop, on which to operate. Thus, a mouse is not well suited for use in confined spaces or where little or no surface space exists such as with a kiosk or other touch screen application. A mouse also includes mechanical parts that can become jammed, that can become dirty or worn, and that generally cannot be sealed from outside contamination.
Various alternative input devices have been proposed in answer to the long-existing need for an input device more suitable for use in situations where space is limited or a flat rolling surface is unavailable. These alternative input devices include devices commonly referred to as track balls, track pens and track point devices, as well as various devices that sense the position of a pointing object on a position-sensing surface. Devices which sense the position of a pointing object on a sensing surface generally have the advantages of being simple to use, reliable, rugged, compact and easy to integrate with current computers and other computing devices.
Numerous types of input devices utilize a position-sensing surface. For example, U.S. Pat. No. 3,886,311, issued to Rodgers et al. (May 27, 1975), discloses a writing pen for detecting a time varying electrostatic field produced by a writing tablet. U.S. Pat. No. 4,672,154, also issued to Rodgers et al. (Jun. 9, 1987), discloses a cordless stylus that emits a directional electric field from the tip of a conductive pen cartridge sensed by a digitizer tablet having an X-Y coordinate system. U.S. Pat. No. 4,680,430, issued to Yoshikawa et al. (Jul. 14, 1987), discloses a tablet-like coordinate detecting apparatus including a resistive film for determining the coordinate position data of a point on a plane indicated by the touch of a finger tip or other load. U.S. Pat. No. 4,103,252, issued to Bobick (Jul. 25, 1978), discloses a position sensing tablet with electrodes located on the boundaries of a sensing region which detects a human touch by the change in capacitive charge caused by the touch which varies the time constant of an RC network which is part of an oscillator. U.S. Pat. No. 4,736,191, issued to Matzke (Apr. 5, 1988), discloses a touch activated control device comprising individual conductive plates wherein a user's touch on the dielectric layer overlaying the plates is detected by individually charging and discharging each of the sectors in the plates in a sequential manner to determine the increased capacitance of the sector. U.S. Pat. No. 4,550,221, issued to Mabusth (Oct. 29, 1985), discloses a touch-sensitive control device which translates touch location to output signals and which includes a substrate that supports first and second interleaved, closely spaced, non-overlapping conducting plates. U.S. Pat. No. 4,639,720, issued to Rympalski et al. (Jan. 27, 1987), discloses an electronic sketch pad which contains a graphics input pad having an array of transparent capacitive pixels, the capacitance characteristics of which are changed in response to the passing of a conductive tipped stylus over the surface of the pad. European Patent Publication 574,213, to Miller (filed Jul. 6, 1993, published Dec. 15, 1993), discloses a proximity sensor that includes a sensor matrix array which senses changes in capacitance between horizontal and vertical conductors connected to the position-sensing pad to determine x, y & z position information).
Among recent additions to the position-sensing pad art is U.S. Pat. No. 5,305,017 to Gerpheide (Apr. 19, 1994). The devices and methods of the Gerpheide patent include a touch sensitive input pad upon which a user conveniently inputs position information with a finger. In operation, the user's fingertip is brought in close proximity to the top surface of the position-sensing surface of the touch sensitive pad. The device of the Gerpheide patent detects the position of the fingertip in the horizontal (“x”) and vertical (“y”) directions of the touch pad, as well as the finger's proximity in the z direction in relation to the sensing surface. A device with a relative position sensing surface which is primarily operated by the touch of an operator's finger is commonly called a touch pad. In addition to a finger, Gerpheide's and many other touch pads can also be operated by other conductive objects.
Another recent example of prior art is U.S. Pat. No. 6,393,165 issued to Yeh (May 21, 2002) titled “Touch Pad Module for Controlling a Cursor” which discloses a touch pad module for controlling the movement of a cursor includes a plate, two resilient arms coplanar with the plate, each of the resilient arms having a free end part opposite to an end formed integrally with the plate, each of the resilient arms being bendable to permit the free end part to resiliently move away from the plane of the plate, a touch control region formed at a front side of said plate, a control circuit unit disposed opposite to the touch control region at a rear side of the plate, and a switching unit provided on a rear side of each of the resilient arms and electrically connected to the control circuit unit. The switching unit has a movable contact member projecting resiliently from the rear side of the corresponding one of the resilient arms.
Touch pads detect a finger placed on or near the sensing surface and translate movement of the finger into corresponding movement of a cursor on a display screen. One advantage of using a touch pad as an input device is space conservation. More specifically, the touch pad can be fixed in place and an operator can still manipulate a cursor on a display screen. This characteristic is very important when space is at a premium.
However, the touch pads described in the prior art have various disadvantages, especially in attempts to use existing touch pads for particular applications. First, existing touch pads, even those with enter zones on the touch pad surface, require a combination of operator taps on the surface to send a “mouse button click” or “enter/select” command to a host computer. For example, a slow and hard, down-and-up tap motion of the finger is required by some touch pads to generate a “mouse button click” command. Although convenient and efficient for expert users, the appropr
Cook, Esq. Dennis L.
Wu Xiao
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