Title of Invention

"MECHANICAL LAYOUT AND COMPONENT PLACEMENT FOR THIN CLAMSHELL PHONE"

Abstract Folding wireless communication devices incorporate a two-part housing, which includes a first part that is rotatably coupled to a second part. The overall depth of the device is reduced by adjusting the mechanical layout and component placement relative to one another, wherein previously stacked components have been reordered. More specifically, the hinge, the battery, and the communication and control circuitry have been organized so as to be in the same horizontal plane, and so as to not overlap in a vertical direction.
Full Text WO 2006/007222 PCT/US2005/018718
MECHANICAL LAYOUT AND COMPONENT PLACEMENT FOR THIN CLAMSHELL PHONE
FIELD OF THE INVENTION
The present invention relates in general to handheld communication devices. More particularly, the present invention relates to the mechanical layout and component placement for thin handheld communication devices, which have at least a two part housing, where the first housing part is adapted to rotate relative to the second housing part,
BACKGROUND OF THE INVENTION
There is an interest in making certain handheld electronic devices such as cellular telephones smaller. Making such devices smaller makes it more convenient to carry them around at all times.
Concurrently there is a trend toward increasing the functionality of devices. In the case of cellular telephones, increased functionality includes providing operability on multiple frequency bands using multiple protocols and providing the ability to take and playback photographs and/or video clips. Adding more functionality often leads to increased components and/or circuit elements, which often correspond to increased space requirements, which is at odds with the desire to make devices smaller. Thus, generally, the volume available for accommodating components is at a premium.
Depending upon the overall design and usage goals the reduction of some . dimensions may be more desirable than the reduction of other dimensions. For example, while smaller is generally thought to be better in connection with overall size, size reduction can be limited by usage requirements, where if certain components of a device, such as the keypad, are allowed to shrink too much, the device may become difficult to operate. In other instances, there may be a desire to support ever larger components, such as in the case of display screens. Consequently, it becomes a balancing act of competing tradeoffs, when the components are placed relative to one another.
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One of the dimensions for which there is some desire to further reduce the size of the device includes depth. Historically, a reduction in depth has been at least partially achieved by minimizing the depth of each of the individual components contained in a particular component stack up. While this is a valid approach for reducing the overall depth, at any given time, there may be limits as to how far the depth of a particular component may be reduced.
The present inventors have recognized that a further approach, which can be used to adjust dimensioning in a particular direction, can involve the rearrangement of one or more of the components. Rearranging one or more of the components may allow some of the components to be shifted relative to other components, with the potential overall effect of achieving an aggregate dimension in one or more directions, such as depth, which meets the desired results.
BRIEF DESCRIPTION OF THE FIGURES
The present invention will be described by way of exemplary embodiments, but not limitations, illustrated in the accompanying drawings in which like references denote similar elements, and in which:
FIG. 1 is a first perspective view of a first handheld communication device, in a first configuration, for example an opened position;
FIG. 2 is a second perspective view of the first handheld communication device, shown in a second configuration, for example a closed position;
FIG. 3 is an exploded view of the handheld communication device shown in FIGs. 1-2;
FIG. 4 is a cross sectional side view of the handheld device illustrated in FIGs.
1-3;
FIG. 5 is a block diagram of an exemplary mechanical layout and component placement in the prior art;
FIG. 6 is a block diagram of a mechanical layout and component placement, in accordance with at least one embodiment of the present invention;
FIG. 7 is a block diagram of the handheld communication device shown in FIGs. 1-4.
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DETAILED DESCRIPTION
As required, detailed embodiments of the present invention are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the invention, which can be embodied in various forms. Therefore, specific structural and functional, details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present invention in virtually any appropriately detailed structure. Further, the terms and phrases used herein are not intended to be limiting; but rather, to provide an understandable description of the invention.
FIG. 1 is a first perspective view of a first handheld communication device, in particular a clamshell wireless communication device 100., shown in a first configuration and FIG. 2 is a second perspective view of the first handheld communication device 100, shown in a second configuration. The device 100 comprises an upper part also know as a flip 102, and a lower part 104. The flip 102 and the lower part 104 are coupled by a rotational coupling, in particular a hinge 106. The device 100 is relatively flat, which is to say that its depth D dimension is smaller than its width W and length L dimensions. In fact, relative to the illustrated embodiment, a reduced depth is an overall design goal. An axis 108 of the hinge 106 is aligned with the width dimension of the device 100. The flip 102 comprise a first inside surface 110, and a first outside surface 202. The lower part 104 comprises a second inside surface 112, and a. second outside surface, which is not shown in FIGS. 1 and 2, wherein the second outside surface is facing away from the viewer. The hinge 106 allows the flip 102 to be rotated from the first configuration in which the flip 102 extends upward away from the lower part 104, i.e. opened position, to the second configuration in which the flip 102 overlies the lower part 104, i.e. closed position.
A main display 114 of the device 100 is located at the inside surface 110 of the flip 102. An auxiliary display 204 is located at the outside surface 202 of the flip 102. The main display 114 and the auxiliary display 204 are useful for displaying control
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screens including menus and information related to communications including lists of received calls, lists of placed calls, telephone numbers in a phone book, email addresses and web addresses, as well as a list of selectable functions, among other things.
In the illustrated embodiment, the flip 102 comprises a plurality of buttons including a first button 302 (FIG. 3), a second button 304 (FIG. 3), a. third button 306 (FIG. 3), and a fourth button 308 (FIG, 3). These buttons 302-308 are not directly visible in FIGs. 1-2. The first through third buttons 302-306 are located proximate a first side edge 116 of the flip 102. The fourth button 308 is located proximate a second side edge 118 of the flip 102. The four buttons 302-308 are covered by three button covers including a first button cover 120, a second button cover 122 and a third button cover 310. The first button 302 and the second button 304 share the first button cover 120, the third button 306 is covered by the second button cover 122, and the fourth button 308 is covered by the third button cover 310. The four buttons 302-308 are used to generate signals for controlling various aspects of the operation of the device 100. In one or more modes, of operation of the device 100 the first button 302 and the second button 304 are used as directional inputs, such as "UP" and "DOWN" commands to control software of the device 100. A keypad 124 is located on the inside surface of the lower part 112.
Referring now to FIG. 3 an exploded view of the handheld communication device 100 is shown. As shown in FIG. 3, the flip 102 comprises a flip outer housing part 312 and a flip inner housing part 314 which are coupled together by screws (not shown), or coupled together using one or more other well known elements and/or methods. A number of components are located in the flip 102 between the flip outer housing part 312 and the flip inner housing part 314. These components include a display module 316 that includes the main display 114, and the auxiliary display 204, an earpiece speaker 320, a flexible circuit 322, and a magnet 325. A camera 318 is incorporated as part of the handheld communication device 100 in the space occupied by the hinge 106. When the device 100 is assembled, the flexible circuit 322 is positioned on the display module 316. The flip inner housing part 314 includes an integrally molded rectangular frame 324 that is sized to receive at least a portion of
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the display module 316, which generally fits within the frame 324. The flexible circuit 322 includes three peripheral tab portions 326 that are folded over the frame 324. The buttons 302-308 are mounted on the peripheral tab portions 326 positioned along the side of the display module 316. A plurality of resilient foam blocks 328 are positioned between the button covers 120, 122, 310 and the frame 324. The resilient foam blocks 328 serve to enhance the tactile feel of the buttons 302-308. The magnet 325 is mounted in the flip inner housing part 314 near the hinge 106, which interacts with a Hall effect sensor, associated with the lower part 104 of the two part housing, as discussed below.
As shown in FIG. 3, the lower part 104 of the device 100 comprises a lower part inner housing part 330 and a lower part outer housing part 332 which are coupled together by screws (not shown) and a pair of resilient catches 334 that are integrally molded with the lower part outer housing part 332. Similar to the upper part, one skilled in the art will recognize other elements and/or methods could be used to hold the lower part inner housing part 330 to the lower part outer housing part 332. A battery compartment 336 is defined between the lower part inner housing part 330, and a battery compartment cover 338 that is located adjacent the lower outer housing part 332. The battery compartment 336 is located proximate a top end 340 of the lower part 104. A battery 342 is substantially disposed in the battery compartment 336. An antenna 344 is located proximate a bottom end 346 of the lower part 104. A populated printed circuit board 348 that includes communication and control circuits of the device 100 is located between the bottom end 346 and the battery compartment 336. The lower part 104 further includes a transducer 353, which is adapted for providing vibrational feedback to the user.
Note that the battery 342 and the populated printed circuit board 348 are located in a common plane 362 (FIG. 4) in a lengthwise L direction, and do not overlap in the direction of depth D. The latter arrangement allows the thickness of the lower part 104 to be reduced, as a result of fewer components being stacked, which reduces the thickness of the entire device 100, making the device 100 more convenient to carry. Note however that this arrangement also limits the longitudinal size of the battery. In the interest of extending battery capacity and thereby the
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duration of standby time and the amount of communication that can be conducted
with the device 100 before battery recharging is necessary, the width of the battery
342 is increased. Placement of the four buttons 302-308 in the flip 102, as opposed to
near the top end 340 of the lower part 104 where they would be positioned according
to conventional practice, avoids adding to the width of the device 100, which in the
illustrated embodiment corresponds to the width of the battery 342, thereby allowing
the device 100 to be smaller and making the device 100 more convenient to carry.
Positioning the buttons 302-308 in the flip 102 also leads to users tending to position
their hands closer to the flip 102 and or the upper part in order to more easily actuate
the buttons 302-308. In this position a user's hand will be positioned further away
from the antenna 344 located near the bottom end 346 of the lower part 104, and will
absorb less energy from signals emanating from, or being received by the antenna 344
thereby leading to improved Quality of Service (QoS). Also; as shown in FIG. 3, the
keypad 124 comprises a cover 349 made of a sheet of flexible material. A,
microphone 350 is mounted on the populated printed circuit board 348 near the
bottom end 346 of the lower part 104.
A portion of the lower part inner housing part 330 is shown cutaway to show a
Hall effect sensor 352 that is located in lower part 104. The Hall effect sensor 352
works in conjunction with the magnet 325 to sense whether the flip 102 is positioned overlying the lower part 104, such as a proximately closed position, as shown in FIG. - 2, or extended away from the lower part 104, such as in an opened position, as shown in FIG. 1. A flexible circuit feedthrough 354 connects circuits in the lower part 104 to circuits in the flip 102. In the assembled device 100 the flexible circuit feedthrough 354 passes through the hinge 106.
FIG. 4 is a cross-sectional side view of the hand-held device illustrated in FIGs. 1-3, in a closed position. The cross-sectional side view further illustrates the battery 342 in the same horizontal plane as the printed circuit board 348, containing the communication and control circuitry, and the hinge 106. This is a departure from prior systems which largely vertically stacked the printed circuit board 348, as shown in FIG. 5, with the battery 342,. FIG. 4 further highlights an antenna 344, which is located near the bottom end 346 of the lower part 104, and which is located in an
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enclosure further including a polyphonic speaker 321. By placing the antenna 344 proximate the bottom end 346 of the lower part 104, the hinge 106 can similarly be located in the same plane 362 as the battery 342 and the printed circuit board 348. As illustrated in FIG. 5, an antenna 345 alternatively located proximate the top end of the lower part 104, could potentially preclude the placement of a hinge 107 in the same plane 362 as the battery 342 and/or the printed circuit board 348.
FIG. 5 is a block diagram 370 of an exemplary mechanical layout and component placement in the prior art. As noted above, the exemplary prior art mechanical layouts generally included a printed circuit board 348, which was vertically stacked relative to the battery 342. The block diagram 370 further illustrates the general spatial relationship of a keypad 124, display assembly 316, hinge 107 and antenna 345. The dashed line 372 represents a common separation point between items located in the upper part or flip 102, and the lower part 104 of the handheld communication device 100.
FIG. 6 is a block diagram of a mechanical layout and component placement, in accordance with at least one embodiment of the present invention, where consistent with the cross sectional side view illustrated in FIG. 4 illustrates the hinge 106, battery 342 and printed circuit board 348, which includes communication and control circuitry, that is located in the same horizontal plane 362. The vertical dashed lines 382, serve to.highlight a component placement, where the corresponding elements, which are located in the same horizontal plane 362, do not vertically overlap. In this way the overall depth of the device can be reduced, in so far as the depth of the printed circuit board does not need to be added to the stack up including the battery 342, keypad 124, and display assembly 316.
FIG. 7 is a block diagram of the handheld communication device 100 shown in FIGs. 1-4. As shown in FIG. 7 the device 100 comprises a transceiver 402, a processor 404, an analog-to-dig:ita.l converter (A/D) 406, the flip position sensor 352, a camera interface 408, a digital-to-analog converter (D/A) 410, a display driver 412, a button interface decoder 414, a program memory 416, and a workspace memory 418 coupled together through a system bus 420.
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The transceiver 402 is coupled to the antenna 344. Radio Frequency and/or microwave signals that are modulated with encoded data (e.g., digitized voice audio, . text messages, photos, etc.) pass between the transceiver 402 and the antenna 344.
The processor 404 executes control programs, and may also perform communication encoding and decoding tasks. Programs executed by the processor 404 are stored in the program memory 416. The processor 404 uses the workspace memory 418 in executing programs. The processor 404 is suitably part of a highly integrated micro-controller integrated circuit. The micro-controller suitably includes one or more of the other above mentioned components that are coupled together through the signal bus 420. The transceiver 402, the processor 404, and optionally other blocks shown in FIG. 7 are embodied in circuits of the populated printed circuit board 348.
The microphone 350 is coupled through a first amplifier 422 to the A/D 406. The A/D 406 is used to digitize a user's spoken words, which are then encoded by a voice encoder (vocoder) component of the processor.
The camera 318 is interfaced to the processor 404 through the camera interface 408. The camera interface 408 reads and digitizes pixel data from the camera 318, and makes such data available to the processor 404 for further processing, e.g., image/video compression encoding.
The.button input decoder 414 is coupled to the one or more buttons 301, which in the embodiment illustrated in FIGs. 1-3 includes the first through forth buttons 302-308 located in the flip 102, as well as to the keys of keypad 124. The button input decoder 414 receives the electrically encoded actuation signals from the keypad 124 and the one or more buttons 301 and identifies each depressed key or button to the processor 404.
The display driver 412 drives the main display 114 and the auxiliary display 204. The D/A 410 drives the earpiece speaker 320 through a second amplifier 424. A similar or the same circuit could also be used to drive the polyphonic speaker 321, shown in FIG. 4.
While the preferred and other embodiments of the invention have been illustrated and described, it will be clear that the invention is not so limited.
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Numerous modifications, changes, variations, substitutions, and equivalents will occur to those of ordinary skill in the art without departing from the spirit and scope of the present invention as defined by the following claims.
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WHAT IS CLAIMED IS:
1. A clamshell telephone comprising:
a two part housing including an upper housing and a lower housing rotatably coupled together via a hinge assembly, said lower housing having a battery assembly, and communication and control circuitry;
wherein said hinge, said battery assembly, and said communication and control circuitry are arranged side by side along a common horizontal plane in a non-vertically overlapping relation.
2. A clamshell telephone in accordance with claim 1 further comprising an
antenna, which is incorporated as part of said lower housing, where said antenna is
similarly arranged side by side along a common horizontal plane in a non-vertically
overlapping relation with said hinge, said battery assembly, and said communication
and control circuitry.
3. A clamshell telephone in accordance with claim 2 wherein said hinge is
coupled to the lower housing at a first end of the lower housing, and said antenna is
located proximate a second end of the lower housing, which is opposite the first end.
4. A clamshell telephone in accordance with claim 3 further comprising a
speaker and corresponding acoustic chamber, wherein said speaker and corresponding
acoustic chamber are located proximate said antenna at the second end of the lower
housing.
5. A clamshell telephone in accordance with claim 4, wherein said antenna is
located within the space forming the acoustic chamber.
6. A clamshell telephone in accordance with claim 1 further comprising a
camera, which is included within the space containing the hinge.
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7. A clamshell telephone in accordance with claim 6, wherein said hinge includes
a right side hinge element and a left side hinge element, and wherein said camera is
located between the right side hinge element and the left side hinge element.
8. A clamshell telephone in accordance with claim 1, wherein said
communication and control circuitry includes a planer substrate.
9. A clamshell telephone in accordance with claim 8, wherein said planer
substrate is a printed circuit board.
10. A clamshell telephone in accordance with claim 1, wherein said
communication and control circuitry includes at least one of power management
circuitry, wireless communication circuitry, and audio processing circuitry.
11. A clamshell telephone in accordance with claim 10, wherein said wireless
communication circuitry includes a radio frequency transceiver.
12. A clamshell telephone in accordance with claim 1, wherein said lower housing
includes a keypad.
13. A clamshell telephone in accordance with claim 1, wherein said lower housing
includes a vibrational element, which is adapted for providing to the user at least one
of a vibrational alert and vibrational feedback.
14. A clamshell telephone in. accordance with claim 1, wherein said upper housing
includes a display assembly.
15. A clamshell telephone in accordance with claim 14, wherein said upper
housing and wherein the display assembly includes a first display, which is visible
through the front facing of the upper housing, and a second display, which is visible
through the back facing of the upper housing.
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16. A clamshell telephone in accordance with claim 1, wherein said upper housing
has one or more selectively actuatable control elements.
17. A clamshell telephone in accordance with claim 16, wherein said upper
housing has a front facing, which faces away from the lower housing when the upper
housing and the lower housing are in a closed position with the upper housing and the
lower housing substantially adjacent to one another along the length of the upper and
lower housings, a back facing, which faces toward the lower housing when the upper
and lower housing are in a closed position, and a side edge, which is coupled between
the front facing and the back facing at least partly around the outer circumference of
the front and back facing, and wherein said selectively actuatable control elements
include buttons located along said side edge of the upper housing.
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Folding wireless communication devices incorporate a two-part housing, which includes a first part that is rotatably coupled to a second part. The overall depth of the device is reduced by adjusting the mechanical layout and component placement relative to one another, wherein previously stacked components have been reordered. More specifically, the hinge, the battery, and the communication and control circuitry have been organized so as to be in the same horizontal plane, and so as to not overlap in a vertical direction.

Documents:

0061-kolnp-2007 assignment.pdf

0061-kolnp-2007 correspondence-1.1.pdf

0061-kolnp-2007 p.a.pdf

0061-kolnp-2007-abstract.pdf

0061-kolnp-2007-claims.pdf

0061-kolnp-2007-correspondence others.pdf

0061-kolnp-2007-description (complete).pdf

0061-kolnp-2007-drawings.pdf

0061-kolnp-2007-form1.pdf

0061-kolnp-2007-form3.pdf

0061-kolnp-2007-form5.pdf

0061-kolnp-2007-international publication.pdf

0061-kolnp-2007-international search authority report.pdf

0061-kolnp-2007-pct form.pdf

0061-kolnp-2007-priority document.pdf

61-KOLNP-2007-(07-05-2012)-ASSIGNMENT.pdf

61-KOLNP-2007-(07-05-2012)-CERTIFIED COPIES(OTHER COUNTRIES).pdf

61-KOLNP-2007-(07-05-2012)-CORRESPONDENCE.pdf

61-KOLNP-2007-(07-05-2012)-FORM-1.pdf

61-KOLNP-2007-(07-05-2012)-FORM-2.pdf

61-KOLNP-2007-(07-05-2012)-FORM-3.pdf

61-KOLNP-2007-(07-05-2012)-FORM-5.pdf

61-KOLNP-2007-(07-05-2012)-FORM-6.pdf

61-KOLNP-2007-(07-05-2012)-PA-CERTIFIED COPIES.pdf

61-KOLNP-2007-(09-09-2014)-PA.pdf

61-KOLNP-2007-(16-06-2014)-ABSTRACT.pdf

61-KOLNP-2007-(16-06-2014)-CLAIMS.pdf

61-KOLNP-2007-(16-06-2014)-CORRESPONDENCE.pdf

61-KOLNP-2007-(16-06-2014)-DESCRIPTION (COMPLETE).pdf

61-KOLNP-2007-(16-06-2014)-DRAWINGS.pdf

61-KOLNP-2007-(16-06-2014)-FORM-1.pdf

61-KOLNP-2007-(16-06-2014)-FORM-2.pdf

61-KOLNP-2007-(16-06-2014)-OTHERS.pdf

61-KOLNP-2007-(16-06-2014)-PETITION UNDER RULE 137.pdf

61-kolnp-2007-form 18.pdf

abstract-00061-kolnp-2007.jpg


Patent Number 263351
Indian Patent Application Number 61/KOLNP/2007
PG Journal Number 43/2014
Publication Date 24-Oct-2014
Grant Date 21-Oct-2014
Date of Filing 04-Jan-2007
Name of Patentee MOTOROLA MOBILITY, INC.
Applicant Address 600 NORTH US HIGHWAY 45, LIBERTYVILLE IL 60048
Inventors:
# Inventor's Name Inventor's Address
1 SPENCE, MICHAEL F. 1119, SHARI LANE, LIBERTYVILLE, ILLINOIS 60048,
2 DABBEEKEH, JOHN L. 2530, GABRIEL AVE., ZION, ILLINOIS 60099
3 JELLICOE, RIGER J. 3908, CHERRY VALLEY ROAD, WOODSTOCK, ILLINOIS 60098
4 STONE, FRANK H. 36921 N.BLVD. VIEW AVE, WAUKEGAN, ILLINOIS 60087
5 VOLLMER, SIMON F. 4 MCGREGOR COURT, HAWTHORN WOODS, ILLINOIS 60047
6 WEISS, GARY 2920, KINGSTON DRIVE, BUFFALO GROVE, ILLINOIS 60089
7 ALLORE, JOSEPH L. 1328 DUNLEER DRIVE, MUNDELEIN, ILLINOIS 60060
PCT International Classification Number H04M1/02; H04M1/73
PCT International Application Number PCT/US2005/018718
PCT International Filing date 2005-05-26
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 10/874,017 2004-06-21 U.S.A.