US 20060268560 A1
An electronic device includes a bezel feature, a connector and a processor. The bezel feature is rotatable amongst a plurality of positions on an arc length that defines a path of motion for the bezel feature. The plurality of positions are distributed along the entire arc length of the path of motion. An interface or connector couples the bezel feature to the processor of the electronic device.
1. A method for processing input on an electronic device, the method comprising:
identifying a change in position of an input device, the change corresponding to movement of the input device from an original position to any one of a plurality of new positions along an arc length that defines a path of motion for the input device;
determining an input value from the change in position; and
processing the input value.
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12. An electronic device comprising:
a bezel feature rotatable amongst a plurality of positions located on an arc length that defines a path of motion for the bezel feature, the arc length of the bezel feature extending 360 degrees, and the plurality of positions being distributed along the entire arc length of the path of motion;
an interface; and
a processor coupled to the bezel feature via the interface to detect any one of the plurality of positions of the bezel feature, and to perform one or more operations based on the detected position of the bezel feature.
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This application is a continuation of U.S. patent application Ser. No. 10/006,342 filed Nov. 30, 2001, entitled “Electronic Device With Bezel Feature For Receiving Input”; the aforementioned priority application is hereby incorporated by reference.
The present invention relates to electronic devices. In particular, the present invention relates to input devices for electronic devices.
Input mechanisms for many electronic devices, including handheld computers such as personal digital assistants (PDAs), tend to be have either an actuated or non-actuated state. For example, electronic devices tend to use buttons that can be actuated with a button press.
Some electronic devices, such as mobile phones and personal digital assistants manufactured by the SONY CORP., utilize a jog dial. The jog dial is a bezel that is typically rotatable between a non-actuated state and an actuated state. The jog dial is relatively small, and tends to be partially embedded within the housing. In many devices, the jog dial can be rotated a small distance about a center axis. That distance is only a small portion of its overall circumference. In many instances, the number of input values that can be entered through use of a jog dial is relatively small. For example, rotating the jog dial may cause one input value to be entered. The position of the jog dial may be varied so that the number of inputs per second, where each input has the same value, may be varied from slow to fast depending on the position of the jog dial about its rotation.
According to an embodiment, an electronic device is provided having a rotating bezel for entering user-input. The bezel can be rotated amongst multiple positions, where each position is on an arc length that defines a path of motion for the bezel feature. The arc length of the bezel feature may extend 360 degrees. The electronic device may include an interface. A processor may be coupled to the bezel feature via the interface to detect any one of the plurality of positions for the bezel feature. The processor may perform one or more operations based on the detected position of the bezel feature.
Embodiments of the invention are illustrated by way of example, and not by way of limitation, in the figures of the accompanying drawings. Like reference numerals are intended to refer to similar elements among different figures.
Embodiments of the invention describe en electronic device having a bezel feature for receiving input. In the following description, for the purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the present invention. It will be apparent, however, that the present invention may be practiced without these specific details. In other instances, well-known structures and devices are shown in block diagram form in order to avoid unnecessarily obscuring the present invention.
In an embodiment, an input device for an electronic device corresponds to a bezel. The bezel can rotate along an arc length. Multiple positions of the bezel are detectable along the arc length. Each position corresponds to an input. A new position for the bezel may be detected. The new bezel position corresponds to an input value that can be processed by the electronic device.
The term “arc length” refers to an arcuate path that can be traced by the bezel feature. The arcuate path may be circular or oval.
According to an embodiment, bezel feature 110 may be moved along an arcuate path, shown by arrow A, and provided a rotation axis Z. The bezel feature 110 may include one or more pointers that indicate a relative position of the bezel feature 110 along its arc length. In one embodiment, a first pointer 112 is detectable at a plurality of positions on the arc length of the bezel feature 110. The detectable positions may include, for example, one position at every n degrees between 0 and 360 degrees, depending on how much sensitivity is desired from bezel feature 110.
As will be described in
Input entered as a result of bezel feature 110 rotating may affect content appearing on display 130. For example, rotation of bezel feature 110 may correspond to scrolling data entries appearing on display 130, or navigating through applications that can be launched from selection on the display.
The discrete inputs offered by bezel feature 110 may be visually identifiable by the user. For example, a user may know that positioning the pointer 112 at 90, 180, 270 or 360 degrees along the arc length will cause different specified applications to be launched. Furthermore, there are numerous positions that are discretely identifiable along the arc length of the pointer's motion.
A sensor cue or tactile feedback may be combined with bezel feature 110 to provide the user with sensory feedback, so that as the bezel feature 110 is moved, the pointer 112 occupies several discrete positions. Because numerous, identifiable inputs may be entered through use of bezel feature 110, the need for buttons or other button-type switches may be avoided, or entirely eliminated.
In an embodiment, dimensions of bezel feature 110 include a diameter length D. The diameter length D corresponds to a diameter of the arc length if the arc length is circular. The diameter length D corresponds to the longest diameter of the arc length if the arc length is elliptical. According to one embodiment, D is greater than a length L (the greatest dimension) of electronic device 100. In another embodiment, D is at least 50% of L. In still another embodiment, D is at least 80% of L.
In an embodiment, the bezel feature includes a lid 225 rotatably mounted over display 220. The lid 225 may be rotatable when in a closed position over display 220. The lid 225 may enable display 220 to be viewed. The lid 225 may be operated as a bezel feature similar to any of the embodiments described herein.
The bezel extensions 320 may be rotated in order to position one or more bezel pointers along an arc length that defines the bezel's path of motion. Even though the bezel 320 is partially embedded within housing 310, the arc length of the bezel's rotation may be sufficient to enable pointers to be positionable at 90 degree intervals.
According to embodiments of the invention, rotation of a bezel feature such as described with
The bezel track 410 is formed as a pair of concentric ellipses on a periphery of the housing 120 section shown by the cross-section. The bezel track 410 encircles display 130.
In an embodiment, bezel track 410 includes a plurality of markers 415. Each marker 415 may include a sensor for detecting pointer 112 (
Other mechanisms may be used to register movement of bezel feature 110 as input. For example, markers 415 may correspond to light sensors that detect a particular light emission change created by pointer 112. The pointer 112 may be opaque, while the rest of bezel feature 110 is dark. Each marker 415 may provide a light emission and a sensor that detects a reflection of that light emission on the underside of the bezel feature 110. Each marker 415 may detect when pointer 112 crosses over it because the opaque material used for pointer 112 alters or limits the reflection off the marker's light emission.
In another embodiment, markers 415 may be formed from contact-sensitive material that protrudes from a plane forming a remainder of the track. The pointer 112 may be formed from a flexible material that can give when a protrusion is encountered. Pointer 112 initiates contact with one or more of the markers 415 as it moves over the track 410. The contact-sensitive material used to form markers 415 detects the contact.
Position information detected by the position of pointer 112 over track 410 is converted into an input value. In an embodiment, the position information may be detected as an analog value, especially if a resistive detection mechanism is used. The position information may be converted to an input value that corresponds to the position of the pointer 112 on the track 410. The number of markers 415 employed, as well as their relative positioning, may be a design factor based on the variations in input value desired.
A virtual bezel feature 540 may be provided as a logical element of PDA 500. Software, hardware and/or firmware may be used to create the bezel feature 540. The user may select to have the bezel feature 540 appear on display 520. The bezel feature 540 may include a track 544, having a moveable icon 542 appearing on it.
In order to operate the bezel feature 540, the user may take a pointing device, such as a stylus, and drag the moveable icon 542 from a starting position on track 544 to a new position. Alternatively, the user may click the starting position on track 544, and then the finishing point, rather than drag the icon 542 from the start to finish.
The input processed by the bezel feature 540 may have a value based on the change in arc length from the starting and finishing point of the icon 542. The virtual bezel feature 540 provides users with a mechanism to anticipate an input value based on a visual indication—the change in arc length of the icon 542. For example, in a address book application, the starting point of the icon 542 may coincide with names that start with the letter “A”. If the user wants to look at names that start with the letter “M”, the user may cause icon 542 to be moved along track 544 180 degrees.
In step 610, an arc length of a bezel rotation is measured. In an embodiment, pointer 112 (
In step 620, an input value is determined from the measured arc length. The input value may be determined by detecting which one of the markers 415 (
The input value may be detected from analog data. The markers 415 may have distinctive voltage values that are in the form of analog data. Therefore, an intermediate step may be required to convert the input value from an analog format to a digital format.
In step 630, the input value is processed. The range of input values provided by the bezel feature is large. For example, one embodiment may provide for 360 possible input values from use of one of the bezel features described with
In one example, the input value provided by the bezel features is useful for scrolling amongst a plurality of data entries appearing on the display. For example, display 130 (
Alternatively, the input value may measure a proportion. The proportion may be based on the amount of the full arc length the bezel feature is moved. For example, a user may move a bezel 90 degrees, corresponding to a quarter proportion. The result would be that the entry displayed would be one quarter of the stack of all entries, measured from the entry displayed.
In an embodiment, some or all of the entries between the starting point and finishing point of the pointer 112 (
While embodiments described with
In one embodiment, one of the bezels described herein are employed to navigate within an application. A bezel may be used to enter a large value, such as for controlling color or contrast on display 130 (
In an embodiment, handheld computer 700 includes a processor 740 coupled to a first memory 744 (non-volatile) and a second memory 746 (volatile). The processor 740 is coupled to a display driver 722. The processor 740 combines with display driver 722 to process and signal data for presentation on a display assembly 720. The display assembly 720 includes screen and digitizer.
An analog-digital (AD) converter 732 is coupled to processor 740. A bezel feature 760 is coupled to a bezel interface 765. The bezel interface 765 may correspond to track 544 (
The handheld computer 700 may include one or more expansion ports for coupling to accessory devices, such as cradles, modems, memory units, re-chargers and other devices. Examples of expansion ports include serial ports, Universal Serial Bus (USB) ports, CompactFlash slots and infra-red ports. In an embodiment shown, a first expansion port 702 enables one or more types of expansion modules to be connected to processor 740.
In an embodiment, a bezel feature 1110 may correspond to a digitizer pad 1120 for a display assembly. For example, an electronic device such as shown with
In the foregoing specification, the invention has been described with reference to specific embodiments thereof. It will, however, be evident that various modifications and changes may be made thereto without departing from the broader spirit and scope of the invention. The specification and drawings are, accordingly, to be regarded in an illustrative rather than a restrictive sense.