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Title:
KEYBOARD ACCESSORY FOR A PORTABLE ELECTRONIC DEVICE
Document Type and Number:
WIPO Patent Application WO/2020/055453
Kind Code:
A1
Abstract:
An accessory device for an electronic device is described. The accessory device may include a cover section and a keyboard section. The cover section may include a receiving surface that engages the electronic device. The cover section may include electrical contacts designed to electrically couple with contacts on the electronic device. The cover section may include several magnets designed to magnetically couple with magnets within the electronic device. The keyboard section may include a keyboard and one or more channels designed to receive and position the electronic device in a usable configuration with the keyboard. Several magnets may surround each channel, and may magnetically couple with magnets within (and along an edge of) the electronic device. The magnetic circuits formed between the channel magnets and the device magnets may counter, or offset, forces that otherwise remove the electronic device from the channel in an undesired manner.

Inventors:
GILBERT TAYLOR HARRISON (US)
TOM KRISTINE S (US)
KIBITI ELVIS M (US)
CHAVEZ RUIZ GARZA JAIME G (US)
MATZINGER THOMAS R (US)
LI ZHENGYU (US)
BATES CHARLES A (US)
HSIAO SHIH-HSIANG (US)
LYON JOHAN E (US)
Application Number:
PCT/US2019/023914
Publication Date:
March 19, 2020
Filing Date:
March 25, 2019
Export Citation:
Click for automatic bibliography generation   Help
Assignee:
APPLE INC (US)
International Classes:
A45C15/00; A45C7/00; A45C11/00; A45C13/02; A45C13/10; G06F1/16; H04M1/04
Foreign References:
US20170177037A12017-06-22
US20180196473A12018-07-12
JP2013025420A2013-02-04
US20170192455A12017-07-06
US20130279096A12013-10-24
Attorney, Agent or Firm:
FERRAZANO, Michael J. et al. (US)
Download PDF:
Claims:
CLAIMS

What is claimed is:

1. An accessory device for use with an electronic device, the accessory device comprising:

a cover section that defines a receiving surface for the electronic device, the cover section comprising electrical contacts located on the receiving surface, the electrical contacts configured to electrically couple to the electronic device;

a cover magnet located in the cover section, the cover magnet capable of magnetically coupling with a device magnet in the electronic device; and

a keyboard section that is rotationally coupled to the cover section, the

keyboard section comprising a keyboard and a channel, the channel capable of receiving the electronic device when the electronic device is coupled to the cover section.

2. The accessory device of claim 1, wherein the cover section comprises:

a first segment having a first size; and

a second segment that is rotationally coupled to the first segment, the second segment having a second size different from the first size.

3. The accessory device of claim 2, wherein the first size is greater than the second size.

4. The accessory device of claim 3, further comprising a panel located in the first segment, the panel comprising:

a first layer;

a second layer; and

a third layer, wherein the second layer comprises a foam layer positioned between the first layer and the third layer, the foam layer carrying the cover magnet.

5. The accessory device of claim 4, further comprising a reinforcement layer coupled with the foam layer, the reinforcement layer defining a through hole capable of receiving a camera assembly of the electronic device.

6. The accessory device of claim 2, further comprising:

a first microfiber layer located on the first segment; and a second microfiber layer located on the second segment, the second microfiber layer separated from the first microfiber layer by hinge that allows the second segment to rotate with respect to the first segment.

7. The accessory device of any one of claims 1-6, further comprising:

a shell located in the keyboard section, the shell further comprising key

openings in locations corresponding to keys of the keyboard, the shell at least partially defining the channel and a comprising channel opening at the channel; and

a channel magnet located in the keyboard section, the channel magnet at least partially positioned in the channel opening.

8. The accessory device of claim 7, further comprising:

a first layer that covers the channel; and

a second layer covered by the first layer, the second layer covering the channel magnet and the channel opening.

9. An accessory device for use with an electronic device, the accessory device comprising:

a cover section that defines a receiving surface for the electronic device; and a keyboard section that is rotationally coupled to the cover section, the

keyboard section comprising:

a keyboard,

a channel capable of receiving the electronic device, the channel

comprising a first diagonal wall and a second diagonal wall, a first magnet located along the first diagonal wall, and a second magnet located along the second diagonal wall, wherein the first magnet and the second magnet magnetically couple with a device magnet of the electronic device when the electronic device is positioned in the channel.

10. The accessory device of claim 9, wherein the first magnet comprises a first external magnetic field and wherein the second magnet comprises a second external magnetic field that is less than the first magnetic field.

11. The accessory device of claim 10, wherein the first external magnetic field and the second external magnetic field are capable of offsetting a force applied to the electronic device that otherwise causes the electronic device to rotate away from the keyboard section and out of the channel.

12. The accessory device of any one of claims 9-11, wherein the channel comprises:

a first layer that covers the keyboard section;

a second layer covered by the first layer;

a shell comprising key openings in locations corresponding to keys of the keyboard, the shell defining the channel and a comprising channel opening at the channel; and

a third layer surrounding by the shell.

13. The accessory device of any one of claims 9-11, wherein the cover section comprises a first segment and a second segment separate from the first segment.

14. The accessory device of claim 13, further comprising a panel located in the first segment, the panel comprising:

a first layer;

a second layer; and

a third layer, wherein the second layer comprises a foam layer positioned between the first layer and the third layer, the foam layer carrying a cover magnet capable of magnetically coupling with a second device magnet of the electronic device.

15. The accessory device of any one of claims 9-11, further comprising:

electrical contacts located on the receives surface; and

an electrically conductive fabric electrically coupled to the electrical contacts and extending into the keyboard section.

16. An accessory device for use with an electronic device, the accessory device comprising:

a keyboard section comprising a keyboard and a channel, the channel capable of receiving the electronic device;

a cover section that is rotationally coupled to the keyboard section, the cover section comprising:

a receiving surface for the electronic device,

electrical contacts located on the receiving surface,

a flexible circuit that is coupled to the electrical contacts; and a panel embedded in the cover section, the panel comprising: an embedded magnet capable of magnetically coupling with a device magnet of the electronic device when the electronic device is positioned on the receiving surface, and

a recess, wherein the flexible circuit is positioned in the recess.

17. The accessory device of claim 16, wherein the panel comprises:

a first layer;

a second layer; and

a third layer, wherein the second layer comprises a foam layer positioned

between the first layer and the third layer, the foam layer carrying the embedded magnet.

18. The accessory device of claim 17, wherein the foam layer defines the recess, and wherein the second layer comprises an opening aligned with the recess.

19. The accessory device of any one of claims 16-18, wherein the keyboard section comprises:

a circuit board; and

internal blocks that surround the circuit board.

20. The accessory device of any one of claims 16-18, wherein the cover section comprises a segment that carries the electrical contacts, wherein:

the electrical contacts extend beyond the segment when the electronic device is not positioned on the segment, and

the segment compresses when the electronic device is positioned on the

segment such that the electrical contacts are planar with respect to the segment or sub -flush with respect to the segment.

21. An accessory device for use with an electronic device having device magnets, the accessory device comprising:

a first section that defines a receiving surface for the electronic device;

electrical contacts located on the receiving surface, the electrical contacts configured to electrically couple to the electronic device; and a second section coupled to the first section, the second section comprising: a first magnetic assembly covered by a first channel, and a second magnetic assembly covered by a second channel, wherein a first magnetic circuit is formed between the first magnetic assembly and the device magnets when the electronic device is positioned in the first channel, and wherein a second magnetic circuit is formed between the second magnetic assembly and the device magnets when the electronic device is positioned in the second channel, the second magnetic circuit different from the first magnetic circuit.

22. The accessory device of claim 21, further comprising:

a panel embedded in first section, the panel comprising a recess; and electrical contacts coupled to a flexible circuit that is located in the panel.

23. The accessory device of claim 22, further comprising magnets embedded in the panel, the magnets configured to magnetically couple with magnets in the electronic device.

24. The accessory device of claim 22, wherein the panel comprises a foam layer.

25. The accessory device of claim 22, wherein the first section comprises openings, and wherein the electrical contacts are positioned in the openings.

26. The accessory device of claim 22, wherein the first section defines a surfaces, and wherein the electrical contacts are sub-flush with respect to the surface when the electronic device is positioned on the first section.

27. The accessory device of any one of claims 21-26, wherein the second section includes a size and shape capable of covering a display of the electronic device.

28. The accessory device of any one of claims 21-26, wherein the first section is rotationally coupled to the second section by a hinge.

29. An accessory device for use with an electronic device, the accessory device comprising:

a first section that defines a receiving surface for the electronic device, the first section comprising a first segment and a second segment that is smaller than the first segment;

electrical contacts located on the receiving surface, the electrical contacts configured to electrically couple to the electronic device; and a second section coupled to the first section by a hinge, the second section comprising:

a keyboard in communication with the electronic device via the electrical contacts, and

a channel between the keyboard and the hinge, the channel capable of receiving the electronic device.

30. The accessory device of claim 29, further comprising:

a flexible circuit that is electrically coupled to the electrical contacts; and an electrically conductive fabric that is electrically coupled to the keyboard and the flexible circuit.

31. The accessory device of claim 29, wherein the first segment comprises:

a first magnet that aligns the electronic device with the first section; and a second magnet that aligns device contacts of the electronic device with the electrical contacts.

32. The accessory device of claim 31, further comprising a third magnet located in the second section, the third magnet configured to magnetically couple with the first magnet.

33. The accessory device of any one of claims 29-32, further comprising magnets that are covered by the channel.

34. The accessory device of any one of claims 29-32, wherein the electrical contacts are located on the first segment.

35. An accessory device for use with an electronic device, the accessory device comprising:

a first section that defines a receiving surface for the electronic device, the first section comprising:

a first segment,

an opening formed in the first segment, the opening capable of receiving a camera of the electronic device, and

a second segment that is that is rotationally coupled to the first segment; and

a second section coupled to the first section by a hinge, wherein a folded configuration comprises i) the first segment in contact with the second segment, and ii) the opening being laterally displaced and unobstructed by the second segment.

36. The accessory device of claim 35, wherein the first segment comprises:

a foam layer; and

a reinforcement layer coupled to the foam layer, wherein the foam layer and the reinforcement layer at least partially define the opening.

37. The accessory device of claim 36, further comprising a magnet located in the foam layer, the magnet capable of magnetically coupling with a magnet of the electronic device.

38. The accessory device of any one of claims 35-37, further comprising:

a channel located on the second section; and

a magnetic field sensor located in the second section, wherein the magnetic field sensor is capable of detecting a magnet in the electronic device when the electronic device is positioned in the channel.

39. The accessory device of any one of claims 35-37, further comprising:

a keyboard located on the second section; and

a stop mechanism coupled to located at an edge of the keyboard, the stop

mechanism capable of limiting travel of a key of the keyboard.

40. The accessory device of any one of claims 35-37, wherein the first segment is larger than the second segment.

41. An accessory device for use with an electronic device, the accessory device comprising:

a cover section;

electrical contacts located on the cover section, the electrical contacts

providing an electrical connection to the electronic device; a cover magnet located in the cover section, the cover magnet providing a magnetic coupling with a device magnet in the electronic device; and a keyboard section that is pivotally coupled to the cover section, the keyboard section comprising a keyboard and a channel, wherein a support configuration comprises the channel receiving the electronic device and the cover section supporting the electronic device.

42. The accessory device of claim 41, wherein the cover section comprises:

a first segment having a first size; and

a second segment rotationally coupled to the first segment, the second segment having a second size different from the first size.

43. The accessory device of claim 42, wherein the first size is greater than the second size.

44. The accessory device of claim 43, further comprising a panel located in the first segment, the panel comprising:

a first layer; a second layer; and

a third layer, wherein the second layer comprises a foam layer positioned

between the first layer and the third layer, the foam layer carrying the cover magnet.

45. The accessory device of claim 44, further comprising a reinforcement layer coupled with the foam layer, the reinforcement layer defining a through hole capable of receiving a camera assembly of the electronic device.

46. The accessory device of claim 42, further comprising:

a first microfiber layer located on the first segment; and

a second microfiber layer located on the second segment, the second

microfiber layer separated from the first microfiber layer by a hinge that allows the second segment to rotate with respect to the first segment.

47. The accessory device of claim 41, further comprising:

a shell located in the keyboard section, the shell further comprising key

openings in locations corresponding to keys of the keyboard, the shell at least partially defining the channel and a comprising channel opening at the channel; and

a channel magnet located in the keyboard section, the channel magnet at least partially positioned in the channel opening.

48. The accessory device of claim 47, further comprising:

a first layer that covers the channel; and

a second layer covered by the first layer, the second layer covering the channel magnet and the channel opening.

49. An accessory device for use with an electronic device, the accessory device comprising:

a cover section that receives the electronic device; and

a keyboard section coupled to the cover section, the keyboard section

comprising:

a keyboard,

a channel comprising a first diagonal wall and a second diagonal wall, a first magnet located along the first diagonal wall, and a second magnet located along the second diagonal wall, wherein the first magnet and the second magnet magnetically couple with a device magnet of the electronic device when the electronic device is positioned in the channel.

50. The accessory device of claim 49, wherein the first magnet comprises a first external magnetic field and wherein the second magnet comprises a second external magnetic field that is less than the first magnetic field.

51. The accessory device of claim 50, wherein the first external magnetic field and the second external magnetic field are capable of offsetting a force applied to the electronic device that otherwise causes the electronic device to rotate away from the keyboard section and out of the channel.

52. The accessory device of claim 49, wherein the channel comprises:

a first layer that covers the keyboard section;

a second layer covered by the first layer;

a shell comprising key openings in locations corresponding to keys of the keyboard, the shell defining the channel and a comprising channel opening at the channel; and

a third layer surrounding by the shell.

53. The accessory device of claim 49, wherein the cover section comprises a first segment and a second segment separate from the first segment.

54. The accessory device of claim 43, further comprising a panel located in the first segment, the panel comprising:

a first layer;

a second layer; and

a third layer, wherein the second layer comprises a foam layer positioned between the first layer and the third layer, the foam layer carrying a cover magnet capable of magnetically coupling with a second device magnet of the electronic device.

55. The accessory device of claim 49, further comprising:

electrical contacts located on the receives surface; and

an electrically conductive fabric electrically coupled to the electrical contacts and extending into the keyboard section.

56. An accessory device for use with an electronic device, the accessory device comprising:

a keyboard section comprising a keyboard and a channel; a cover section rotationally coupled to the keyboard section, the cover section comprising:

electrical contacts,

a flexible circuit that is coupled to the electrical contacts; and a panel embedded in the cover section, the panel comprising:

an embedded magnet that magnetically couples with a device magnet of the electronic device when the electronic device is positioned on the cover section, and

a recess, wherein the flexible circuit is positioned in the recess.

57. The accessory device of claim 56, wherein the panel comprises:

a first layer;

a second layer; and

a third layer, wherein the second layer comprises a foam layer positioned between the first layer and the third layer, the foam layer carrying the embedded magnet.

58. The accessory device of claim 57, wherein the foam layer defines the recess, and wherein the second layer comprises an opening aligned with the recess.

59. The accessory device of claim 56, wherein the keyboard section comprises: a circuit board; and

internal blocks that surround the circuit board.

60. The accessory device of claim 16, wherein the cover section comprises a segment that carries the electrical contacts, wherein:

the electrical contacts extend beyond the segment when the electronic device is not positioned on the segment, and

the segment compresses when the electronic device is positioned on the segment such that the electrical contacts are planar with respect to the segment or sub -flush with respect to the segment.

Description:
KEYBOARD ACCESSORY FOR A PORTABLE ELECTRONIC

DEVICE

FIELD

[0001] The following description relates to accessory devices. In particular, the following description relates to accessory devices designed to carry an electronic device (e.g., smartphone, tablet device). Accessory devices described herein may include both a cover and a keyboard.

BACKGROUND

[0002] Accessory devices are known to carry electronic devices. An accessory device may provide a protective outer cover for an electronic device.

SUMMARY

[0003] In one aspect, an accessory device for use with an electronic device is described. The accessory device may include a cover section that defines a receiving surface for the electronic device. The cover section may include electrical contacts located on the receiving surface. The electrical contacts can be configured to electrically couple to the electronic device. The accessory device may further include a cover magnet located in the cover section. The cover magnet can be capable of magnetically coupling with a device magnet in the electronic device. The accessory device may further include a keyboard section rotatably coupled to the cover section. The keyboard section may include a keyboard and a channel. The channel can be capable of receiving the electronic device when the electronic device is coupled to the cover section.

[0004] In another aspect, an accessory device for use with an electronic device is described. The accessory device may include a cover section that defines a receiving surface for the electronic device. The accessory device may further include a keyboard section rotatably coupled to the cover section. The keyboard section may include a keyboard. The keyboard section may further include a channel capable of receiving the electronic device. The channel may include a first diagonal wall and a second diagonal wall. The keyboard section may further include a first magnet located along the first diagonal wall. The keyboard section may further include a second magnet located along the second diagonal wall. In some instances, the first magnet and the second magnet magnetically couple with a device magnet of the electronic device when the electronic device is positioned in the channel. [0005] In another aspect, an accessory device for use with an electronic device is described. The accessory device may include a keyboard section may include a keyboard and a channel. The channel can be capable of receiving the electronic device. The accessory device may further include a cover section rotatably coupled to the keyboard section. The cover may include a receiving surface for the electronic device. The cover may further include electrical contacts located on the receiving surface. The cover may further include a flexible circuit coupled to the electrical contacts. The accessory device may further include a panel embedded in the cover section. The panel may include an embedded magnet capable of magnetically coupling with a device magnet of the electronic device when the electronic device is positioned on the receiving surface. The panel may further include a recess. In some instances, the flexible circuit is positioned in the recess.

[0006] Other systems, methods, features and advantages of the embodiments will be, or will become, apparent to one of ordinary skill in the art upon examination of the following figures and detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description and this summary, be within the scope of the embodiments, and be protected by the following claims.

BRIEF DESCRIPTION OF TU I DRAWINGS

[0007] The disclosure will be readily understood by the following detailed description in conjunction with the accompanying drawings, wherein like reference numerals designate like structural elements, and in which:

[0008] FIG. 1 illustrates an isometric view of an embodiment of an accessory device, in accordance with some described embodiments;

[0009] FIG. 2 illustrates a plan view of the accessory device shown in FIG. 1, showing various internal features of the accessory device;

[0010] FIG. 3 illustrates an exploded view of the panel, showing various features of the panel as well as other components located in the first section;

[0011] FIG. 4 illustrates a side view of the first section of the accessory device, showing the electrical contacts protruding from the first segment;

[0012] FIG. 5 illustrates a side view of the first section shown in FIG. 4, showing the electronic device positioned on the first section;

[0013] FIG. 6 illustrates a plan view of the electronic device positioned on the first section of the accessory device; [0014] FIG. 7 illustrates an exploded view of the second section, showing various features of the second section;

[0015] FIG. 8 illustrates a cross sectional view of the second section, showing a stop mechanism engaged with a key of the keyboard;

[0016] FIG. 9A illustrates a cross sectional view of an accessory device, showing various layers and components of a channel of the accessory device, in accordance with some described embodiments;

[0017] FIG. 9B illustrates a cross sectional view of an alternate embodiment of an accessory device, showing an alternate configuration of a channel of the accessory device, in accordance with some described embodiments;

[0018] FIG. 9C illustrates a cross sectional view of an alternate embodiment of an accessory device, showing a channel with a material embedded in a layer, in accordance with some described embodiments;

[0019] FIG. 9D illustrates a cross sectional view of an alternate embodiment of an accessory device, showing a channel and a molded insert installed at the channel;

[0020] FIG. 10 illustrates a side view of the accessory device shown in FIG. 1, showing the electronic device coupled to the accessory device and positioned in the first channel, in accordance with some described embodiments.

[0021] FIG. 11 illustrates a side view of the accessory device, showing the electronic device positioned in the second channel;

[0022] FIG. 12 illustrates a side view of the accessory device, showing the first section engaged with the second section.

[0023] FIG. 13 illustrates a side view of the accessory device, showing the electronic device positioned between, and engaged with, the first section and the second section;

[0024] FIG. 14 illustrates a side view of the accessory device, showing the electronic device coupled to the first section, while the first section and the second section form a stand;

[0025] FIG. 15 illustrates a plan view of the accessory device, showing the first section partially extended laterally from the second section;

[0026] FIG. 16 illustrates a side view of the accessory device shown in FIG. 15, showing the first segment extending beyond the second segment; [0027] FIG. 17 illustrates a side view of the accessory device, showing the accessory device supporting the electronic device on a rear surface of the accessory device;

[0028] FIG. 18 illustrates a side view of the accessory device, showing the accessory device supporting the electronic device in an alternate configuration;

[0029] FIG. 19 illustrates a user interacting with the accessory device and electronic device in the configuration shown in FIG. 18;

[0030] FIG. 20 illustrates the accessory device coupled with the electronic device, showing the accessory device engaged with, and suspended from, a magnetically attractable material using magnets in the accessory device; and

[0031] FIG. 21 illustrates a block diagram of an accessory device, in accordance with some described embodiments.

[0032] Those skilled in the art will appreciate and understand that, according to common practice, various features of the drawings discussed below are not necessarily drawn to scale, and that dimensions of various features and elements of the drawings may be expanded or reduced to more clearly illustrate the embodiments of the present invention described herein.

PET AIT, ED DESCRIPTION

[0033] Reference will now be made in detail to representative embodiments illustrated in the accompanying drawings. It should be understood that the following descriptions are not intended to limit the embodiments to one preferred embodiment. To the contrary, it is intended to cover alternatives, modifications, and equivalents as can be included within the spirit and scope of the described embodiments as defined by the appended claims.

[0034] In the following detailed description, references are made to the accompanying drawings, which form a part of the description and in which are shown, by way of illustration, specific embodiments in accordance with the described embodiments. Although these embodiments are described in sufficient detail to enable one skilled in the art to practice the described embodiments, it is understood that these examples are not limiting such that other embodiments may be used, and changes may be made without departing from the spirit and scope of the described embodiments.

[0035] The following disclosure relates to an accessory device designed for use with electronic devices, including portable computing devices (such as tablet computing devices, smartphones, and laptop computing devices). Accessory devices described herein may be referred to as portable accessory devices, accessory covers, accessory cases, cases, folios, as non-limiting examples. Accessory devices described herein may include a cover having segments foldable with respect to each other, as well as a keyboard coupled with the cover in a manner that allows rotational movement between the cover and the keyboard. The cover may further include electrical contacts designed to engage electrical contacts of the electronic device and place the electronic device in electrical communication with the accessory device, including the keyboard.

[0036] The keyboard may include several keys arranged in a QWERTY configuration, as a non-limiting example. Further, the keyboard may include one or more channels (also referred to as troughs or trenches). Each channel is designed to receive part of the electronic device (when coupled with the cover) and position the electronic device in a manner that allows a user to interact with the electronic device (in particular, a display of the electronic device) and the keyboard. Also, each channel may include one or more magnets designed to magnetically couple with magnets in the electronic device, which promotes retention of the electronic device in the channel.

[0037] While traditional accessory devices include mechanical interlocking features to couple the electronic device with the accessory device, the accessory devices described herein may couple with and retain electronic devices through magnets. In this regard, the cover and the keyboard may include several embedded magnets. Further, the respective magnets in the cover and the keyboard can magnetically couple to each other, thereby placing the cover in contact with the keyboard.

[0038] These and other embodiments are discussed below with reference to FIGS. 1 - 21. However, those skilled in the art will readily appreciate that the detailed description given herein with respect to these Figures is for explanatory purposes only and should not be construed as limiting.

[0039] FIG. 1 illustrates an isometric view of an embodiment of an accessory device 100, in accordance with some described embodiments. The accessory device

100 is designed as a complementary device for an electronic device 180. As shown, the accessory device 100 may include a first section l02a and a second section l02b connected to the first section l02a. The accessory device 100 may include a hinge l04a that connects the first section l02a with the second section l02b. The hinge l04a allows the first section l02a to rotate or pivot with respect to the second section l02b, and vice versa. The hinge l04a may include a flexible material (such as polyurethane, as a non-limiting example) that defines an outer layer (or layers) extending across both the first section l02a and the second section l02b.

[0040] The first section l02a, also referred to as a cover, a cover portion, a cover section, an electronic device cover, or a segmented cover, may define a receiving surface for the electronic device 180. The first section l02a may include a first segment l06a and a second segment l06b that define that collectively define the receiving surface. The first segment l06a is separated from the second segment l06b by a hinge l04b positioned between the first segment l06a and the second segment l06b. The hinge l04b allows rotational movement of the first segment l06a relative to the second segment l06b, and vice versa. The hinge l04b may be formed from the aforementioned outer layer(s) used to form the hinge l04a. In some embodiments, the first segment l06a and the second segment l06b are the same size, generally. In the embodiment shown in FIG. 1, the first segment l06a is larger than the second segment l06b. Also, each of the first segment l06a and the second segment l06b may include a microfiber layer (not labeled). In some instances, the microfiber layer is restricted to the first segment l06a and the second segment l06b such that the microfiber layer does not cover the hinge l04b.

[0041] The second section l02b, also referred to as a keyboard section or a keyboard cover, may include a keyboard 108. The keyboard 108 may include several keys (not labeled) arranged in a QWERTY configuration, as a non-limiting example. The second section l02b may further include one or more channels designed to provide a location that is below or sub-flush with respect to a location of the second section l02b that surrounds the one or more channels. For example, the second section l02b may include a first channel H2a and a second channel H2b. The first channel H2a and the second channel H2b are designed to receive the electronic device 180 (or a portion of the electronic device 180) in order to place and position the electronic device 180 in a manner such that the electronic device 180 can be used with the keyboard 108. Also, the second section l02b may include a dimension l03a measured from a rear surface of the second section l02b to a key (not labeled) of the keyboard 108. The second section l02b may include a dimension l03b measured from a rear surface of the second section l02b to a section that surrounds the first channel 1 l2a and the second channel 1 l2b. The dimension l03a may be the same as, or substantially similar to, the dimension l03b, such that the keys of the keyboard 108 are planar with respect to the surface surrounding the first channel 112a and the second channel H2b. In this manner, when the electronic device 180 is coupled to the first section l02a and the first section l02a is folded over the second section l02b, the electronic device 180 may lie flat, or horizontal, on the second section l02b.

[0042] The first section l02a may include electrical contacts 114 designed to engage electrical contacts 184 (shown as dotted lines) located in openings (not labeled) of a housing 182 of the electronic device 180, and place the accessory device 100 in communication (including electrical communication) with electronic device

180, and in particular, the keyboard 108. When the accessory device 100 is in communication with the electronic device 180, the keyboard 108 can be used to provide inputs and commands to the electronic device 180 to control a display 181 of the electronic device 180. As shown, the electrical contacts 114 are located on the first segment l06a. However, other locations are possible (such as the second segment l06b). Generally, the electrical contacts 114 can be at any location corresponding to the location of the electrical contacts 184 such that the electronic device 180 lies within an outer perimeter of the first section l02a when the electronic device 180 is placed on the receiving surface of the first section l02a. Also, while the electrical contacts 114 include three electrically conductive pins, the number of pins of the electrical contacts 114 may vary. For example, in some embodiments (not shown in FIG. 1), the electrical contacts 114 include one, two, or four our more contacts. Also, while the electrical contacts 114 represent a physical/direct communication between the accessory device 100 and the electronic device 180, the accessory device 100 and the electronic device 180 may also be in communication via wireless communication, such as Bluetooth® communication, as a non-limiting example.

[0043] The first section l02a may further include an opening 116, or through hole, designed to receive a camera assembly 186 and a flash module 187 (shown as dotted lines) extending from the housing 182, thereby allowing the electronic device 180 to capture images while coupled to the first section l02a. Although not shown, the electronic device 180 may include a microphone positioned between the camera assembly 186 and the flash module 187. As shown, the opening 116 is located on the first segment l06a. However, other locations are possible. Generally, the opening 116 can be at any location corresponding to the location of the camera assembly 186 and the flash module 187 such that the electronic device 180 lies within an outer perimeter of the first section l02a when the electronic device 180 is in contact with the receiving surface of the first section l02a.

[0044] FIG. 2 illustrates a plan view of the accessory device 100 shown in FIG. 1, showing various internal features of the accessory device 100. The first segment l06a of the first section l02a may include several magnets designed to magnetically couple with magnets in the electronic device 180 (shown in FIG. 1) to retain the electronic device 180 against the first section l02a. For example, the first segment l06a may include a magnet l20a, a magnet l20b, and a magnet l20c capable of magnetically coupling with magnets (or other magnetically attractable elements) in the electronic device 180, as well as a magnet l22a, a magnet l22b, and a magnet l22c, respectively, located in the second section l02b. The first segment l06a may further include a magnet l20d, a magnet l20e, and a magnet l20f capable of magnetically coupling with magnets (or other magnetically attractable elements) in the electronic device 180, as well as a magnet l22d, a magnet l22e, and a magnet l22f, respectively, located in the second section l02b. When the aforementioned magnets are not magnetically coupled with the electronic device 180, the magnets in the first section l02a can magnetically couple with magnets in corresponding locations in the second section l02b, by, for example, rotating the first section l02a about the hinge l04a. Further, the first section l02a can be rotated about the hinge l04a such that the front surface (shown in FIG. 2) covers a front surface (shown in FIG. 2) of the second section l02b. Alternatively, the first section l02a can be rotated about the hinge l04a such that a back surface (not shown in FIG. 2) covers a back surface (not shown in FIG. 2) of the second section l02b.

[0045] The first section l02a may include additional magnets used to magnetically couple with the electronic device 180. For example, the first section l02a may include a magnet l20g, a magnet l20h, a magnet l20i, and a magnet l20j. It should be noted that the aforementioned magnets shown in FIG. 2 may represent a group of two or more magnets. Also, the magnets located in the first section l02a may be referred to as cover magnets, as the first section l02a may be referred to as a cover or a cover section. Also, the magnets located in the second section l02b may be referred to as keyboard magnets, as the second section l02b may be referred to as a keyboard or keyboard section. It should also be noted that additional magnets in the first section l02a and second section l02b are possible.

[0046] An external magnetic field (not shown in FIG. 2) provided by each magnet in the first segment l06a can be used to magnetically attract magnets in the electronic device 180 and retain the electronic device 180 (shown in FIG. 1) against the first section l02a. Further, this magnetic attraction can withstand gravitational forces acting on the electronic device 180, and the first section l02a can retain the electronic device 180 even when gravity is acting to remove the electronic device 180. In this regard, the first section l02a may not require mechanical retaining features, such as sidewalls and/or locks, designed to wrap around and/or interlock with the electronic device 180 to retain the electronic device 180. However, in some instances, the second segment l06b may optionally include magnets, such as a magnet l20k and a magnet 1201, that each provide an additional external magnetic field (not shown in FIG. 2) used to retain the electronic device 180 with the first section l02a by magnetic attraction. The magnet l20k and/or the magnet 1201 may represent a group of two or more magnets. Also, a panel 134 (shown as a dotted line) may include some of the magnets in the first segment l06a. In this regard, the magnets in the first segment l06a may be embedded in the panel 134. This will be shown below.

[0047] As described above, the size of the first segment l06a is different from the size of the second segment l06b. In particular, a dimension l24a of the first segment l06a is greater than a dimension l24b of the second segment l06b. This may facilitate positioning the first section l02a in a desired manner to support the electronic device 180. This will be shown and described below.

[0048] The second section l02b may further include magnets along an edge (of the second section l02b). For example, the second section l02b may include a magnet l26a, a magnet l26b, a magnet l26c, and a magnet l26d. These magnets are designed to magnetically couple with magnets (or magnetically attractable materials) in the electronic device 180 in order to retain the electronic device 180 with the second section l02b along the edge.

[0049] The second section l02b may include additional magnets. For example, the second section l02b may include a magnetic assembly l28a and a magnetic assembly l28b (both shown as dotted lines), with each magnetic assembly including two or more magnets positioned around the first channel 1 l2a. The magnetic assembly l28a and the magnetic assembly l28b are designed to magnetically couple with magnets (not shown in FIG. 2), or magnetically attractable materials, in the electronic device 180 in order to retain a portion of the electronic device 180 within the first channel H2a. The second section l02b may further include a magnetic assembly l28c and a magnetic assembly l28d (both shown as dotted lines), with each magnetic assembly including two or more magnets positioned around the second channel 112b. The magnetic assembly l28c and the magnetic assembly l28d are designed to magnetically couple with magnets (not shown in FIG. 2), or magnetically attractable materials, in the electronic device 180 in order to retain a portion of the electronic device 180 within the second channel 1 l2b.

[0050] To provide additional support, the second section l02b may include a support member 129 that extends laterally beyond the shell to opposing edges of the keyboard 108 and the section associated with the first channel H2a and the second channel H2b. Also, the second section l02b may include a shell (shown later) that provides structural support to the keyboard 108, the first channel 1 l2a, and the second channel 1 l2b. However, the shell may not extend (laterally) to opposing edges of the keyboard 108, and may include cut outs, or removed section, in locations corresponds to the channels of the second section l02b.

[0051] It may be advantageous to selectively activate or deactivate the keyboard 108 based upon the position of the electronic device 180 relative to the accessory device 100. In this regard, the accessory device 100 may include sensors designed to detect an external magnetic field generated from magnets in the electronic device 180 to determine the position of the electronic device 180. For example, the accessory device 100 may include a first sensor l32a and a second sensor l32b. The first sensor l32a and the second sensor l32b are designed to detect when the electronic device 180 is positioned in the first channel 1 l2a and the second channel 1 l2b, respectively.

In some embodiments, the first sensor l32a and the second sensor l32b are Hall Effect sensors designed to detect an external magnetic field generated by a magnet in the electronic device 180.

[0052] FIG. 3 illustrates an exploded view of the panel 134, showing various features of the panel 134 as well as other components located in the first section l02a (shown in FIGS. 1 and 2). The panel 134 may include a first layer l36a, a second layer 136b, a third layer 136c, a fourth layer l36d, and a fifth layer l36e. As shown, the first layer 136a and the fifth layer l36e surround the second layer 136b, the third layer 136c, and the fourth layer l36d. At least some of the layers may include glass fiber, and at least some layers may include foam. For example, the first layer l36a, the second layer 136b, the fourth layer l36d, and the fifth layer l36e may include glass fiber. Some layers may include a combination of glass fiber and foam. For example, the third layer 136c may include a foam layer as well as glass fiber. Furthermore, the relative densities of glass fiber may vary among the layers. For example, the first layer 136a and the fifth layer l36e may include a relatively high- density glass fiber, while the second layer 136b, the third layer 136c, and the fourth layer l36d may include a relatively low-density glass fiber. In this regard, the first layer 136a and the fifth layer l36e are relatively rigid as compared to the second layer l36b, the third layer l36c, and the fourth layer l36d. Also, the third layer l36c may be referred to as a central layer or a foam layer. Also, while FIG. 3 shows a discrete number of layers that define the panel 134, the number of panels that form the panel 134 may vary in other embodiments.

[0053] The first layer 136a, the second layer 136b, the third layer 136c, the fourth layer l36d, and the fifth layer l36e may include a first opening H6a, a second opening 116b, a third opening 116c, a fourth opening H6d, and a fifth opening H6e, respectively. When assembled, the aforementioned openings at least partially define the opening 116 of the first section l02a (shown in FIG. 1). The panel 134 may include a reinforcement layer 130 bonded to the third layer 136c at a corner. The reinforcement layer 130 may include glass or another rigid material. Also, the reinforcement layer 130 may define the third opening 116c as well as the opening 116 of the first section l02a (shown in FIG. 1). In this manner, the panel 134 can be strengthened in the corner to offset the void of material due to the opening 116, and due to the relatively low-density foam material.

[0054] The third layer 136c is designed to carry the magnets in the first segment l06a (shown in FIG. 2). For example, the third layer 136c carries the magnet l20a, the magnet l20b, and the magnet l20c. Additional magnets (not labeled) are carried by the third layer 136c. The third layer 136c can undergo a machining operation to form pockets, or openings, to receive each of the magnets. Further, additional layers may carry magnets. For example, the second layer l36b may carry the magnet l20g and the magnet l20h, while the fourth layer l36d may carry the magnet l20i and the magnet l20j. Other combinations are possible. The layers that carry the magnets may place the magnets in closer proximity to magnets, or magnetic elements, external to the electronic device 180 (shown in FIG. 1) in order to promote magnetic coupling with magnets in the electronic device 180.

[0055] The electrical contacts 114 are carried by a circuit board 138. The circuit board 138 may include a printed circuit board or a flexible circuit board. In order for the panel 134 to accommodate the circuit board 138, the third layer l36c may include a recess 142 (shown as dotted lines) that receives the circuit board 138. The recess 142 defines a cavity, or partial opening, that does not fully extend through the third layer 136c, with exception of openings (not labeled) through which the electrical contacts 114 pass when the circuit board 138 is positioned in the recess 142. Further, the fourth layer l36d may include an opening 144 through which the circuit board 138 passes. When the third layer l36c is assembled with the fourth layer l36d, the opening 144 is aligned with the recess 142. Further, when the third layer l36c is assembled with the second layer 136b and the second layer 136b is assembled with the first layer l36a, the electrical contacts 114 pass through openings (not labeled) in the first layer 136a.

[0056] The electrical contacts 114 are designed to couple with the electronic device 180 (shown in FIG. 1) such that the keyboard 108 (shown in FIGS. 1 and 2) is in communication with the electronic device 180. In order to complete the communication pathway, electrically conductive material can electrically couple with the circuit board 138 as well as a circuit board(s) in the second section l02b (shown later). For example, a first conductive material l46a, a second conductive material l46b, and a third conductive material l46c are electrically coupled to the circuit board 138. The first conductive material l46a, the second conductive material l46b, and the third conductive material l46c may include an electrically conductive fabric. The first conductive material l46a, the second conductive material l46b, and the third conductive material l46c may extend from the circuit board 138, through the hinge l04a (shown in FIG. 1), and into the second section l02b (shown in FIG. 1) to electrically with the keyboard 108 (shown in FIG. 1) via a circuit board (not shown).

[0057] Although not shown, several adhesive layers may be used to adhesively secure parts together. For example, an adhesive layer may adhesively secure the circuit board 138 to the third layer l36c at the recess 142. Also, several caps, or covers, may overlay the some components in order to conceal the presence of the components. For example, a glass fiber cap may cover the first conductive material l46a, the second conductive material l46b, and/or the third conductive material l46c in order to hide the conductive material(s). This may be useful when a polyurethane layer covers an outer perimeter of the accessory device 100 (shown in FIGS. 1 and 2).

[0058] FIG. 4 illustrates a side view of the first section l02a of the accessory device 100, showing the electrical contacts 114 protruding from the first segment l06a. The first segment l06a and the second segment l06b may include a microfiber layer that covers a compressible material. In this regard, the first segment l06a and the second segment l06b may compress when the electronic device 180 (shown in FIG. 1) is placed on the first section l02a and in contact with the electrical contacts 114.

[0059] FIG. 5 illustrates a side view of the first section l02a shown in FIG. 4, showing the electronic device 180 positioned on the first section l02a. As shown, the first segment l06a and the second segment l06b compress from the weight of the electronic device 180. Also, a first electrical contact H4a and a second electrical contact H4b (both part of the electrical contacts 114 of the accessory device 100) are engaged with a first electrical contact l84a and a second electrical contact l84b (both part of the electrical contacts 184 of the electronic device 180), respectively, thereby placing the accessory device 100 in communication with the electronic device 180. The compression of the first segment l06a causes the first electrical contact H4a and the second electrical contact H4b to move along the Z-axis such that the first electrical contact H4a and the second electrical contact H4b are sub-flush with respect to a surface of the first segment l06a (or at least co-planar with respect to the surface of the first segment l06a). This prevents the electronic device 180 from resting along some non-horizontal plane on the first section l02a. Also, when the electronic device 180 or another object (such as a digit of a user) slides laterally across the first segment l06a to engage at least one of the electrical contacts 114, the compression of the first segment l06a and the second segment l06b prevent the electrical contact 114 from snagging and interlocking with the electronic device 180 or the other object, thereby preventing damage to the electronic device 180 and/or the accessory device 100.

[0060] FIG. 6 illustrates a plan view of the electronic device 180 positioned on the first section l02a of the accessory device 100. The magnets of the accessory device 100 are magnetically coupled with at least some magnets (not shown in FIG. 6) of the electronic device 180 to form multiple magnetic circuits. Although not shown, the magnets in the electronic device 180 are generally locations corresponding to magnets in the accessory device 100. The magnetic attraction between the magnets may counter some lateral movement of the electronic device 180 with respect to the first section l02a of the accessory device 100. Further, the magnetic attraction between the magnets may cause the electronic device 180 to return to its initial position (shown in FIG. 6) on the first section l02a. For example, as shown in the enlarged view, the first electrical contact l84a of the electronic device 180 is positioned over the first electrical contact H4a of the accessory device 100. The first electrical contact H4a of the accessory device 100 includes a diameter such that a shift of the electronic device 180 along the X- and/or the Y-axis that causes a corresponding lateral shift of the first electrical contact l84a of the electronic device 180. However, if the shift causes the first electrical contact l84a to move to a circumference

H8around the first electrical contact 114a, but no further, the magnetic attraction causes the electronic device 180, and in particular, the first electrical contact l84a, to return to its initial position (shown in FIG. 6). The circumference 118 is a function of the size of the first electrical contact 1 l4a as well as the size, shape and location of the magnets (including the magnet l20a, the magnet l20b, and the magnet l20c, along with additional magnets (not labeled) located in the first section l02a. The remaining electrical contact(s) of the accessory device 100 may exhibit a similar relationship.

[0061] FIG. 7 illustrates an exploded view of the second section l02b, showing various features of the second section l02b. The second section l02b may include an outer layer 148 that covers the keyboard 108 (including the keys), the first channel H2a, and the second channel H2b. In some embodiments, the outer layer 148 includes polyurethane. Also, although not shown, the outer layer 148 may extend across the first section l02a (shown in FIG. 1).

[0062] The second section l02b may further include a shell 152. The shell 152 may provide structural rigidity to the second section l02b. In this regard, the shell 152 may be formed from plastic or other rigid material(s). As shown, the shell 152 includes several openings (not labeled) for the keys of the keyboard 108. Also, the shell 152 may include two pairs of diagonal walls (not labeled), with one pair of diagonal walls defining the first channel H2a, and another pair of diagonal walls defining the second channel H2b. This will be further shown and discussed below. Each diagonal wall may include several openings to accommodate a magnetic assembly. For example, the shell 152 may include openings 154 that receive the magnets of the magnetic assembly l28a. Although not labeled, the shell 152 includes openings that receive the magnets of the magnetic assembly l28b, the magnetic assembly l28c, and the magnetic assembly l28d. The shell 152 may include additional openings (similar to the openings 154) to accommodate the remaining magnets of the magnetic assemblies associated with the channels.

[0063] The second section l02b may further include a circuit board l56a. The circuit board l56a is electrically coupled with the first conductive material l46a, the second conductive material l46b, and the third conductive material l46c. The circuit board l56a may include one or more processor circuits (not labeled) to control and process inputs to keys of the keyboard 108. In this regard, the second section l02b may include a circuit board 156b associated with the keyboard 108. The circuit board 156b can be electrically coupled with the circuit board l56a by a flexible circuit 158. The circuit board l56a may also send commands to the electronic device 180 (shown in FIG. 1), and control and process inputs received from the electronic device 180. The circuit board l56a may electrically couple with, and receive inputs from, the first sensor l32a and the second sensor 132b (shown in FIG. 2). As a result, the processor circuits of the circuit board l56a may provide commands to selectively activate and deactivate the keyboard 108 based on received inputs from the first sensor l32a and the second sensor 132b.

[0064] In order to provide additional structural support, the second section l02b may include several blocks. For example, the second section l02b may include a first block l62a and a second block l62b. The first block l62a and the second block l62b may include glass fiber blocks that provide added stiffness to the second section l02b while limiting the amount of weight added to the second section l02b. As shown, the first block l62a may include a recess (not labeled) that receives the circuit board l56a.

[0065] The second section l02b may further include an enclosure 164 that provides a protective rear cover to the second section l02b. The enclosure 164 may include a back wall and sidewalls (not labeled) that define an internal volume to house several components shown in FIG. 7. Although not shown, an outer layer, which may include polyurethane, may cover the enclosure 164. Several additional materials may be included. For example, a thermoplastic shield may cover the first conductive material l46a, the second conductive material l46b, and the third conductive material l46c in order to provide ingress protection and electrical insulation. [0066] FIG. 8 illustrates a cross sectional view of the second section l02b, showing a stop mechanism 166 engaged with a key l08a of the keyboard 108. The key l08a can be depressed in a manner that causes contact with the circuit board 156b, thereby generating a command. When the key l08a is released, the key l08a travels in a direction of an arrow 170, and returns to an initial position. The stop mechanism 166 can engage the key l08a to prevent additional, unwanted travel in the direction of the arrow 170. Also, as shown, a first outer layer l50a combines with a second outer layer l50b to cover the keyboard 108 and the enclosure 164. Also, as shown, the circuit board 156b can be adhesively secured to the enclosure 164.

[0067] FIGS. 9A-9D show various implementations of a channel that can be used in an accessory device, such as the accessory device 100 (shown in FIG. 1). The channels shown and described in FIGS. 9A-9D can substitute for the first channel 1 l2a and/or the second channel 1 l2b (shown in FIG. 1). Also, at least some features shown and described in FIG. 9A-9D may be combined with each other.

[0068] FIG. 9A illustrates a cross sectional view of an accessory device 200, showing various layers and components of a channel 212 of the accessory device 200, in accordance with some described embodiments. The accessory device 200 may include a first layer 248a, or outer layer, which may include a polyurethane layer. The accessory device 200 may further include a second layer 248b, formed from a rigid material such as glass fiber (as a non-limiting example). The accessory device 200 may further include a third layer 248c, which may be part of a shell used in a second section of an accessory device. For example, the third layer 248c may any features described for the shell 152 (shown in FIG. 7). The channel 212 may be defined by the first layer 248a, the second layer 248b, and the third layer 248c. The accessory device 200 may include a layer 248d that terminates at the channel 212. The layer 248d may include a woven fabric material, such as taffeta.

[0069] The third layer 248c may include openings (not labeled) in which magnets of a magnetic assembly 228 are positioned. For example, the magnetic assembly 228 may include a first magnet 272a and a second magnet 272b. As shown, the first magnet 272a and the second magnet 272b surround the channel 212. In this regard, the first magnet 272a and the second magnet 272b may be referred to as channel magnets. The first magnet 272a and the second magnet 272b may adhesively secure with the second layer 248b by an adhesive (not labeled). Each magnet may include a cap formed for a material (such as steel). For example, the first magnet 272a includes a cap 274a and the second magnet 272b includes a cap 274b. Although not shown, the third layer 248c may include additional openings, and the magnetic assembly 228 may include additional magnets, with each additional magnet positioned in an additional opening of the third layer 248c. The arrangement may be similar to the openings 154 of the shell 152 (shown in FIG. 7) and the magnetic assembly l28a (shown in FIG. 7). Generally, the number of openings is the same as the number of magnets of a magnetic assembly.

[0070] The first layer 248a and the second layer 248b are relatively thin to allow external magnetic fields (shown as dotted lines) of the first magnet 272a and the second magnet 272b to pass through the first layer 248a, the second layer 248b, and the adhesive. This allows the first magnet 272a and the second magnet 272b to magnetically couple with a magnet(s) in an electronic device (such as the electronic device 180, shown in FIG. 1). However, the second layer 248b should be relatively rigid to maintain the first magnet 272a and the second magnet 272b in a fixed position, as the first magnet 272a and the second magnet 272b may be magnetically attracted to each other.

[0071] The magnets of the magnetic assembly 228 can be arranged in different configurations. For example, the first magnet 272a and the second magnet 272b can be arranged to form a Halbach array in which the external magnetic field is additive, or augmented, at a location associated with the channel 212, while the external magnetic field is significantly reduced, or even canceled, on locations internally within the accessory device 200 that are not associated with the channel 212. This described arrangement may enhance the magnetic field to better retain an electronic device.

[0072] The channel 212 may include a first diagonal wall 276a and a second diagonal wall 276b, both of which are defined in part by the first layer 248a, the second layer 248b, and the third layer 248c. As shown, the first diagonal wall 276a is separated from the second diagonal wall 276b by an angle 280. The angle 280 may be approximately in the range of 70 to 110 degrees. In some embodiments, the angle 280 is 90 degrees. In some embodiments, the angle 280 is 91.5 degrees. The angle

280 may be slightly larger than an angle between a back wall and a sidewall of a housing of an electronic device (such as the electronic device 180, shown in FIG. 1).

[0073] FIG. 9B illustrates a cross sectional view of an alternate embodiment of an accessory device 300, showing an alternate configuration of a channel 312 of the accessory device 300, in accordance with some described embodiments. The accessory device 300 may include a first layer 348a, a second layer 348b, and a third layer 348c that may include any materials and features described for the first layer 248a, the second layer 248b, and the third layer 248c, respectively (shown in FIG. 9A). The accessory device 300 may include a layer 348d that terminates at the channel 312. The layer 348d may include any materials and features described for the layer 248d (shown in FIG. 9A). The third layer 348c may include openings to receive a first magnet 372a and a second magnet 372b of a magnetic assembly 328. The third layer 348c and the magnetic assembly 328 may include any features shown and described for the third layer 248c and the magnetic assembly 228, respectively, shown in FIG. 9A.

[0074] The channel 312 may include a first diagonal wall 376a and a second diagonal wall 376b, both of which are defined in part by the first layer 348a, the second layer 348b, and the third layer 348c. As shown, the first diagonal wall 376a is separated from the second diagonal wall 376b by an angle 380, which may include any angle described for the angle 280 (shown in FIG. 9A). While the first diagonal wall 276a and the second diagonal wall 276b (shown in FIG. 9A) are approximately the same size, the first diagonal wall 376a and the second diagonal wall 376b are different. For example, the first diagonal wall 376a is smaller than the second diagonal wall 376b. Also, the first diagonal wall 376a may be relatively steep as compared to the second diagonal wall 376b. As a result, an electronic device (such as the electronic device 180 shown in FIG. 1) may be positioned differently in the channel 312, as compared to the channel 212 (shown in FIG. 9A).

[0075] FIG. 9C illustrates a cross sectional view of an alternate embodiment of an accessory device 400, showing an alternate configuration of a channel 412 of the accessory device 400, in accordance with some described embodiments. The accessory device 400 may include a first layer 448a, a second layer 448b, and a third layer 448c that may include any materials and features described for the first layer 248a, the second layer 248b, and the third layer 248c, respectively (shown in FIG. 9A). The accessory device 400 may include a layer 448d that terminates at the channel 412. The layer 448d may include any materials and features described for the layer 248d (shown in FIG. 9A). The third layer 448c may include openings to receive a first magnet 472a and a second magnet 472b of a magnetic assembly 428. The third layer 448c and the magnetic assembly 428 may include any features shown and described for the third layer 248c and the magnetic assembly 228, respectively, shown in FIG. 9A.

[0076] The second layer 448b may include different material, as compared to prior embodiments. For example, the second layer 448b may include a metal (or metal alloy), such as SUS stainless steel. Further, the second layer 448b may be molded to the third layer 448c by a molding operation, including an insert molding operation.

[0077] FIG. 9D illustrates a cross sectional view of an alternate embodiment of an accessory device 500, showing a channel 512 and a molded insert 578 installed at the channel 512. The accessory device 500 may include a first layer 548a, a second layer 548b, and a third layer 548c that may include any materials and features described for the first layer 248a, the second layer 248b, and the third layer 248c, respectively (shown in FIG. 9A). The molded insert 578 may carry the second layer 548b and a magnetic assembly 528, which includes a first magnet 572a and a second magnet 572b. In this regard, the second layer 548b and the magnetic assembly 528 can be molded into the molded insert 578, which may include a glass fiber material. The magnetic assembly 528 may include any features shown and described for the magnetic assembly 228 (shown in FIG. 9A). The third layer 548c may include a stepped configuration. In order to assemble the molded insert 578 with the accessory device 500, the molded insert 578 may include a corresponding stepped configuration.

[0078] The first magnet 572a and the second magnet 572b may include a chamfered region 573a and a chamfered region 573b, respectively. The chamfered regions reduce the overall size of their respective magnets in order to create an accessory device 500 that includes a reduced profile. Also, the chamfered regions represent less magnetic material, which may reduce the external magnetic fields of the magnets along a rear section (not shown in FIG. 9D) of the accessory device 500. The reduced external magnetic fields may prevent unwanted interference with magnetically sensitive objects, such as credit cards, placed on the rear section.

[0079] FIG. 10 illustrates a side view of the accessory device 100 shown in FIG. 1, showing the electronic device 180 coupled to the accessory device 100 and positioned in the first channel H2a, in accordance with some described embodiments. As shown, the electronic device 180 includes a magnet 188 (or in some cases, multiple magnets) that is magnetically coupled with a first magnet l72a and a second magnet l72b of the magnetic assembly l28a. When a force (in the direction of an arrow l79a) is applied to the electronic device 180, a rotational force (in the direction of the arrow l79b) may cause the electronic device 180 to rotate and leave the first channel H2a. However, the magnetic assembly l28a may counter this rotational force. For example, the first magnet l72a may include a size and shape that is greater than that of the second magnet l72b. In this manner, the first magnet l72a may include a stronger external magnetic field as compared to that of the second magnet l72b. The relatively stronger external magnetic field of the first magnet l72a provides a force in the direction of an arrow l79c that is opposite to the force in the direction of the arrow l79b, thereby counteracting the rotational force. Also, the magnetic coupling between the magnet 188 and the second magnet l72b provides a force in the direction, or at least approximately in the direction, of gravity to maintain the electronic device 180 in the first channel H2a. It should be noted that the magnetic assembly l28b (shown in FIG. 2) may include a number of magnets and associated features described for the magnetic assembly l28a. Furthermore, the electronic device 180 may include an additional magnet similar to that of the magnet 188 that magnetically couple with the magnetic assembly l28a. It should be noted that the magnetic assembly l28b (shown in FIG. 2) may include a number of magnets and associated features described for the magnetic assembly l28a. Also, the magnet 188 (and any other magnets within the electronic device 180) may be referred to as a device magnet.

[0080] FIG. 11 illustrates a side view of the accessory device 100, showing the electronic device 180 positioned in the second channel H2b. As shown, the magnet 188 is magnetically coupled with a first magnet l72c and a second magnet l72d of the magnetic assembly l28c. When a force (in the direction of an arrow l79d) is applied to the electronic device 180, the electronic device 180 may be lifted out of the second channel 1 l2b and away from the second section l02b. However, the magnetic assembly l28c may counter the force. For example, the second magnet l72d may include a size and shape that is greater than that of the first magnet l72c. In this manner, the second magnet l72d may include a stronger external magnetic field as compared to that of the first magnet l72c. The relatively stronger external magnetic field of the second magnet l72d provides a force in the direction of an arrow l79e that is opposite to the force in the direction of the arrow l79d, thereby counteracting the force. Also, the magnetic coupling between the magnet 188 in the electronic device 180 and the first magnet l72c provides a force to maintain the electronic device 180 in the second channel 1 l2b. It should be noted that the magnetic assembly l28d (shown in FIG. 2) may include a number of magnets and associated features described for the magnetic assembly l28c. Furthermore, the electronic device 180 may include additional magnet similar to that of the magnet 188 that magnetically couple with the magnetic assembly l28d.

[0081] FIGS. 10 and 11 show the first section l02a supporting the electronic device 180 in an upright configuration such that a user can interact with both the keyboard 108 and the display 181. Further, the disparate size between the first segment l06a and the second segment l06b (that is, the first segment l06a being larger than the second segment l06b) allows the first section l02a to adjust, thereby allowing the electronic device 180 to be positioned in the first channel H2a and the second channel 1 l2b. Also, the orientation of the magnet 188 and the magnets of the magnetic assembly l28a shown in FIG. 10 form a magnetic circuit in which the magnetic field is in a clockwise direction, while the orientation of the magnet 188 and the magnets of the magnetic assembly l28c shown in FIG. 11 form a magnetic circuit in which the magnetic field is in a counter-clockwise direction.

[0082] Also, referring to FIG. 2, the accessory device 100 includes a first sensor l32a and a second sensor l32b. When the electronic device 180 is in the first channel H2a, the first sensor l32a can detect an external magnetic field (not shown in FIG. 10) generated by a magnet in the electronic device 180, and provide an input to a processor circuit on the circuit board l56a (shown in FIG. 7), which can subsequently provide a command to activate the keyboard 108. Similarly, when the electronic device 180 is in the second channel H2b, the second sensor l32b can detect an external magnetic field (not shown in FIG. 11) generated by a magnet in the electronic device 180, and provide an input to a processor circuit on the circuit board l56a (shown in FIG. 7), which can subsequently provide a command to activate the keyboard 108. The processor circuit on the circuit board l56a can provide a command to deactivate the keyboard 108 when neither the first sensor l32a nor the second sensor l32b detect the magnet 188. By selectively activating and deactivating the keyboard 108, the keyboard 108 is active only when it can be accessed by a user and is inactive when it cannot. This may conserve battery power as well as prevent unwanted inputs (e.g., keystrokes) to the keyboard 108. Moreover, the keyboard 108 may be normally in a deactivated mode (i.e., inactive) until triggered or awakened using the first sensor 132a or the second sensor 132b. [0083] FIGS. 12-19 show various configurations capable by the accessory device 100. Further, the various configurations of the accessory device 100 are attainable when the electronic device 180 is engaged with the accessory device 100 and retained by the accessory device 100 by magnetic coupling.

[0084] FIG. 12 illustrates a side view of the accessory device 100, showing the first section l02a engaged with the second section l02b. As shown, a rear surface (or back surface) of the first section l02a is engaged with a rear surface (or back surface) of the second section l02b. The first section l02a can remain engaged with the second section l02b through magnet attraction between magnets in first section l02a and magnets in the second section l02b. For example, the magnet l20a in the first section l02a may magnetically couple with the magnet l22a in the second section l02b. Additional magnets (not shown in FIG. 12) in the first section l02a may magnetically couple with additional magnets (not shown in FIG. 12) in the second section l02b.

[0085] FIG. 13 illustrates a side view of the accessory device 100, showing the electronic device 180 positioned between, and engaged with, the first section l02a and the second section l02b. In order to maintain the engagement, magnets in the electronic device 180 may magnetically couple with magnets in both the first section l02a and the second section l02b. For example, the electronic device 180 includes a magnet 189 magnetically coupled with both the magnet l20a in the first section l02a and the magnet l22a in the second section l02b. Furthermore, the electronic device 180 may include a magnet 191 magnetically coupled with a magnet l26a located along an edge of the second section l02b. The electronic device 180 may include additional magnets (not shown in FIG. 13), with each additional magnet magnetically coupled with one of the magnet l26b, the magnet l26c, or the magnet l26d (shown in FIG. 2) in the second section l02b.

[0086] Also, in some instances, the first sensor l32a and/or the second sensor 132b may detect an external magnetic field generated from a magnet (or magnets) in the electronic device 180, thereby generating a subsequent command to activate the keyboard 108 (shown in FIG. 2), even though the keyboard 108 is inaccessible.

However, the accessory device 100 may include a third sensor l32c capable of detecting an external magnetic field from the magnet 188 in the electronic device 180. The third sensor l32c can send an input to the processor circuit on the circuit board l56a (shown in FIG. 6) when the external magnetic field is detected. The processor circuit can then generate a command that deactivates the keyboard 108. In other words, an input from the third sensor l32c can override inputs from the first sensor l32a and the second sensor 132b.

[0087] FIG. 14 illustrates a side view of the accessory device 100, showing the electronic device 180 coupled to the first section l02a, while the first section l02a and the second section l02b form a stand. As shown, the first section l02a is separated from the second section l02b to form a triangular stand. Also, the electronic device 180 is retained by the first section l02a through magnetic coupling between magnets (not labeled) in the electronic device 180 and magnets (not labeled) in the first section l02a.

[0088] FIG. 15 illustrates a plan view of the accessory device 100, showing the first section l02a partially extended laterally from the second section l02b. As shown, the electronic device 180 (shown as a dotted line) is coupled to the first section l02a. The camera assembly 186 and the flash module 187 are aligned with the opening 116 in the first section l02a, and as a result, are unobstructed from the second section l02b, thereby allowing the camera assembly 186 to capture images and the flash module 187 to provide additional light.

[0089] FIG. 16 illustrates a side view of the accessory device 100 shown in FIG. 15, showing the first segment l06a extending beyond the second segment l06b. Based upon the disparate size between the first segment l06a and the second segment l06b, the first segment l06a extends laterally beyond the second section l02b. This allows for unobstructed image capturing by the camera assembly 186, as the second section l02b does not cover the first segment l06a. Also, the FIG. 16 shows a compact configuration of the accessory device 100 while still carrying the electronic device 180 in manner in which a user can interact with the display 181 (which may include a capacitive touch input display) in order to control the camera assembly 186 to capture images.

[0090] FIG. 17 illustrates a side view of the accessory device 100, showing the accessory device 100 supporting the electronic device 180 on a rear surface 105 of the accessory device 100. The rear surface 105 may include a rear surface of the second section l02b. As shown, the first segment l06a is capable of supporting the electronic device 180 without engagement between the second segment l06b and the electronic device 180. This allows the second segment l06b to form a support beam and define (along with the first segment l06a and the second section l02b) a triangular support. The first segment l06a may be magnetically coupled with the electronic device 180 through magnets (not shown in FIG. 17) in first segment l06a and the electronic device 180.

[0091] FIG. 18 illustrates a side view of the accessory device 100, showing the accessory device 100 supporting the electronic device 180 in an alternate configuration. As shown, the electronic device 180 is engaged with the first segment l06a. The first segment l06a may be magnetically coupled with the electronic device 180 through magnets (not labeled in FIG. 18) in first segment l06a and the electronic device 180. The keyboard 108 is facing away from the display 181, which, in some instances, may trigger a deactivation of the keyboard 108 as both the display 181 and the keyboard 108 are generally not simultaneously visible by a user. However, a fourth sensor l32d may provide an input to the processor circuit on the circuit board l56a (shown in FIG. 7) denoting the absence of a detected external magnetic field, which may activate the keyboard 108. As a result, the keyboard 108 may be activated even when the keyboard 108 and the display 181 are facing away from each other.

[0092] FIG. 19 illustrates a user 193 interacting with the accessory device 100 and electronic device 180 in the configuration shown in FIG. 18. As shown, the user 193 can view the display 181 (shown in FIG. 18) while also using the keys of the keyboard 108, as the keyboard 108 is active. While the fourth sensor l32d (shown in FIG. 18) is generally described as a Hall Effect sensor, in some embodiments, the fourth sensor l32d is an accelerometer or an orientation sensor that determines the orientation of the accessory device 100 as shown in FIG. 19, thereby allowing the accessory device 100 to determine that the keyboard 108 is usable by the user 193. Also, the electronic device 180 may communicate to the accessory device 100 the type of software program(s) (not shown in FIG. 19) in use by the user 193 and displayed on the display 181 (shown in FIG. 18). For example, the software program may include a game in which the keyboard 108 is used a controller for the game, or a media player in which the keyboard 108 is used to control the media played by the media player. Accordingly, the electronic device 180 may notify the accessory device 100 that the keyboard 108 can be used with the software program.

[0093] FIG. 20 illustrates the accessory device 100 coupled with the electronic device 180, showing the accessory device 100 engaged with, and suspended from, a magnetically attractable material 195 using magnets in the accessory device 100. The magnetically attractable material 195 (shown as a dotted line) may be integrated with a chalkboard, a dry erase board, or refrigerator, as non-limiting examples. As shown, the magnetically attractable material 195 is integrated with a dry erase board 197 that is hung vertically. The accessory device 100 includes a sufficient number of magnets (such as the magnet l20a and the magnetic assembly l28a) that generate (collectively) an external magnetic field that can magnetically couple with the magnetically attractable material 195 and support the weight of the accessory device 100 and the electronic device 180, thereby countering gravitational forces. In some instances, the magnets in the first section l02a alone provide an external magnetic field sufficient to support the weight of the accessory device 100 and the electronic device 180. In some instances, the magnets in the second section l02b alone provide an external magnetic field sufficient to support the weight of the accessory device 100 and the electronic device 180.

[0094] FIG. 21 illustrates a block diagram of an accessory device 600, in accordance with some embodiments. The accessory device 600 is capable of implementing the various techniques described herein. The accessory device 600 may include any features described herein for an accessory device. Further, the accessory device 100 (previously shown) may include any features described herein for the accessory device 600. Also, electronic devices described herein may include at least some features described for the accessory device 600. In this regard, the accessory device 600 and/or the electronic device 180 (shown in FIG. 1) may include one or more processors 610 for executing functions of the accessory device 600. The one or more processors 610 can refer to at least one of a central processing unit (CPU) and at least one microcontroller for performing dedicated functions.

[0095] According to some embodiments, the accessory device 600 can include one or more sensors 630 capable of detecting an orientation of the accessory device 600. In some examples, the one or more sensors 630 may include an accelerometer, an electronic gyroscope, or some other orientation sensor. In some embodiments, the one or more sensors 630 can determine whether the accessory device 600 is positioned in a manner that a user can use certain features (such as a keyboard) of the accessory device 600. In response, the one or more processors 610 can modify a notification that activates both the keyboard and an electronic device display coupled to the accessory device 600. The one or more sensors 630 can also include magnetic field sensors, such as Hall Effect sensors. The one or more sensors 630 is/are connected to the one or more processors 610 via one or more connection cables 632.

[0096] According to some embodiments, the accessory device 600 can include one or more input/output components 640 (also referred to as“I/O components”) that enable communication between a user and the accessory device 600. In some cases, the one or more input/output components 640 can refer to a button or a switch that is capable of actuation by the user. In some examples, the one or more input/output components 640 can refer to a switch having a mechanical actuator (e.g., spring-based switch, slide-switch, rocker switch, rotating dial, etc.) or other moving parts that enable the switch to be actuated by the user. The one or more input/output components 640 can include an accelerometer that determines whether the accessory device 600, and to what extent, is accelerating or decelerating. When the one or more input/output components 640 are used, the one or more input/output components 640 can generate an electrical signal that is provided to the one or more processors 610 via one or more connection cables 642.

[0097] According to some embodiments, the accessory device 600 can include a power supply 650 that is capable of providing energy to the operational components of the accessory device 600. In some examples, the power supply 650 can refer to a rechargeable battery. The power supply 650 can be connected to the one or more processors 610 via one or more connection cables 652. The power supply 650 can be directly connected to other devices of the accessory device 600, such as the one or more input/output components 640. In some examples, the accessory device 600 can receive power from another power sources (e.g., an external charging device) not shown in FIG. 21.

[0098] According to some embodiments, the accessory device 600 can include memory 660, which can include a single disk or multiple disks (e.g., hard drives), and includes a storage management module that manages one or more partitions within the memory 660. In some cases, the memory 660 can include flash memory, semiconductor (solid state) memory or the like. The memory 660 can also include a Random Access Memory (“RAM”) and a Read-Only Memory (“ROM”). The ROM can store programs, utilities or processes to be executed in a non-volatile manner. The RAM can provide volatile data storage, and stores instructions related to the operation of the accessory device 600. In some embodiments, the memory 660 refers to a non-transitory computer readable medium, where an operating system (“OS”) is established at the memory 660 that can be configured to execute software applications. The one or more processors 610 can also be used to execute software applications. In some embodiments, a data bus 662 can facilitate data transfer between the memory 660 and the one or more processors 610.

[0099] According to some embodiments, the accessory device 600 can include a wireless communications component 670. A network/bus interface 672 can couple the wireless communications component 670 to the one or more processors 610. The wireless communications component 670 can communicate with other electronic devices via any number of wireless communication protocols, including at least one of a global network (e.g., the Internet), a wide area network, a local area network, a wireless personal area network (WPAN), or the like. In some examples, the wireless communications component 670 can transmit data to the other electronic devices over IEEE 802.11 (e.g., a Wi-Fi ® networking system), Bluetooth (IEEE 802.15.1), ZigBee, Wireless EiSB, Near-Field Communication (NFC), a cellular network system (e.g., a 3G/4G/5G network such as EIMTS, LTE, etc.), or the like.

[0100] The various aspects, embodiments, implementations or features of the described embodiments can be used separately or in any combination. Various aspects of the described embodiments can be implemented by software, hardware or a combination of hardware and software. The described embodiments can also be embodied as computer readable code on a computer readable medium for controlling manufacturing operations or as computer readable code on a computer readable medium for controlling a manufacturing line. The computer readable medium is any data storage device that can store data which can thereafter be read by a computer system. Examples of the computer readable medium include read-only memory, random-access memory, CD-ROMs, HDDs, DVDs, magnetic tape, and optical data storage devices. The computer readable medium can also be distributed over network-coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

[0101] The foregoing description, for purposes of explanation, used specific nomenclature to provide a thorough understanding of the described embodiments. However, it will be apparent to one skilled in the art that the specific details are not required in order to practice the described embodiments. Thus, the foregoing descriptions of the specific embodiments described herein are presented for purposes of illustration and description. They are not targeted to be exhaustive or to limit the embodiments to the precise forms disclosed. It will be apparent to one of ordinary skill in the art that many modifications and variations are possible in view of the above teachings.