The present disclosure relates to mobile consumer electronic devices and, more particularly, to devices connected to smartphones and tablets for delivering sound and visual information to users. Today, mobile devices such as smartphones and tablet computers are often used with mobile accessories that facilitate user access to the inputs and outputs (e.g., display, speaker, microphone, etc.) of the mobile devices. For example, if a user wishes to listen to music stored on her smartphone without disturbing those around her, she can plug a set of earphones into her smartphone and listen to the music through the earphones. If the user wishes to type faster on her smartphone, she can connect a Bluetooth keyboard to her smartphone and type on the Bluetooth keyboard. Thus, using such mobile accessories can improve how users communicate with the mobile devices.
One aspect of the invention provides a wearable personal wireless media station in communication with a paired mobile computing device of a user for playing sound and displaying data based on communication with the paired mobile computing device. The wearable personal wireless media station comprises: a wearable base station comprising an information display, a base station speaker, a volume control button, a base station connector, a docking mechanism and a wearable mechanism configured to allow the wearable base station to be worn by a user; a wireless earbud comprising an earbud speaker and an earbud connector, the wireless earbud configured to dock to or undock from the docking mechanism of the wearable base station; wherein when the wireless earbud is docked to the docking mechanism of the wearable base station, the wireless earbud and the wearable base station form a single integrated body and the earbud connector, and the base station connector are electrically in contact with each other.
The wearable personal wireless media station may be programmed: to detect a docked-to-undocked change in which the wireless earbud becomes undocked from the docking mechanism; and to detect an undocked-to-docked change in which the wireless earbud becomes docked to the docking mechanism.
In the foregoing wearable personal wireless media station, the wearable base station and the wireless earbud may be configured to wirelessly communicate with a smartphone such that: when there is an incoming call made to the smartphone while the wireless earbud is docked to the docking mechanism of the wearable base station, the wearable base station receives text data corresponding to the incoming call from the smartphone and the wireless earbud receives audio data corresponding to a ringtone indicative of the incoming call from the smartphone; in response to receiving the text data corresponding to the incoming call, the wearable base station displays caller information on a display of the wearable base station; in response to receiving the audio data corresponding to the ringtone indicative of the incoming call, the wireless earbud converts the audio data such that the converted audio data is playable by the base station speaker while the wireless earbud is docked to the docking mechanism of the wearable base station and causes the base station speaker to play the ringtone; and in response to detecting the docked-to-undocked change, the wearable personal wireless media station sends instructions to the smartphone to accept the incoming call, and the wireless earbud plays audio data for the accepted incoming call via the earbud speaker such that the incoming call is accepted and conducted without the user touching the smartphone.
In the foregoing wearable personal wireless media station, the wearable base station and the wireless earbud may be configured to wirelessly communicate with a smartphone such that: when there is an incoming call made to the smartphone while the wireless earbud is docked to the docking mechanism of the wearable base station, the smartphone sends text data corresponding to the incoming call to the wearable base station and sends audio data corresponding to a ringtone indicative of the incoming call to a wireless audio device other than the wearable base station and the wireless earbud such that the ringtone is played by the wireless audio device; in response to receiving the text data corresponding to the incoming call, the wearable base station displays caller information on a display of the wearable base station; and in response to detecting the docked-to-undocked change, the wearable personal wireless media station sends instructions to the smartphone to accept the incoming call and begin sending audio data for the accepted incoming call to the wireless earbud instead of the wireless audio device, and the wireless earbud provides audio playback via the earbud speaker based on the audio data such that the incoming call is accepted and conducted without the user touching the smartphone.
In the foregoing wearable personal wireless media station, the wireless earbud may comprise a head a head portion, a waist portion and an ear portion, the ear portion configured to be inserted into the user's ear to provide sound playback, wherein the earbud connector is provided on the waist portion such that the earbud connector is in electrical contact with the wearable base station connector when the wireless earbud is in its docked state. The docking mechanism may comprise two docking arms that extend generally parallelly to each other with a gap therebetween, wherein the docking mechanism further comprises at least one locking device on an inner surface of one or both of the two docking arms for engaging with the waist portion of the wireless earbud when the wireless earbud is in its docked state. The wireless earbud may comprise a recess formed into the waist portion, wherein the at least one locking device of the docking mechanism comprises a locking protrusion configured to spatially correspond to the recess when the wireless earbud is in its docked state, wherein the recess is configured to receive the locking protrusion when the wireless earbud is in its docked state
In the foregoing wearable personal wireless media station, the wearable personal wireless media station may be programmed to: cease playing sound on the base station speaker and to begin playing sound on the earbud speaker in response to detecting the docked-to-undocked change while sound is being played on the base station speaker; and cease playing sound on the earbud speaker and to begin playing sound on the base station speaker in response to detecting the undocked-to-docked change while sound is being played on the earbud speaker.
In the foregoing wearable personal wireless media station, the wearable personal wireless media station may be programmed to display caller information indicative of a caller associated with the incoming call on the information display in response to receiving the data regarding the incoming call from the smartphone.
In the foregoing wearable personal wireless media station, the wearable personal wireless media station may be programmed, in response to receiving data regarding an incoming call or message from the smartphone while the wireless earbud is docked to the docking mechanism, to display a text or image associated with the incoming call or message on the information display.
In the foregoing wearable personal wireless media station, each of the wearable base station and the wireless earbud may be configured to separately and individually pair with the smartphone. In some cases, the wireless earbud is programmed to relay audio data received from the smartphone to the wearable base station for playback via the base station speaker. In some cases, the wireless earbud is programmed to wirelessly communicate directly with the smartphone to receive audio data from the smartphone and transmit voice data captured by the wireless earbud to the smartphone without going through the wearable base station. In some cases, the wearable base station is programmed to wirelessly communicate with the smartphone and with the wireless earbud to relay audio data received from the smartphone to the wireless earbud for playback via the earbud speaker and to relay voice data captured by the wireless earbud to the smartphone.
In the foregoing wearable personal wireless media station, the wearable personal wireless media station may be programmed: upon detecting activation of the volume control button by the user while the wireless earbud is undocked from the docking mechanism and sound playback for audio data received from the smartphone is being provided via the earbud speaker, to adjust a volume of the sound playback for the audio data received from the smartphone being provided via the earbud speaker such that the volume of the sound playback via the earbud speaker is controlled without the user touching the smartphone; and upon detecting activation of the volume control button by the user while the wireless earbud is docked to the docking mechanism and sound playback for audio data received from the smartphone is being provided via the base station speaker, to adjust a volume of the sound playback for the audio data received from the smartphone being provided via the base station speaker such that the volume of the sound playback via the base station speaker is controlled without the user touching the smartphone.
In the foregoing wearable personal wireless media station, the wearable personal wireless media station may be programmed, upon detecting activation of the volume control button by the user while the wireless earbud is undocked from the docking mechanism and sound playback for audio data received from the smartphone is being provided via the earbud speaker, to wirelessly communicate with the smartphone to adjust a volume of the sound playback for the audio data received from the smartphone being provided via the earbud speaker such that that the volume of the sound playback via the earbud speaker is controlled without the user touching the smartphone.
In the foregoing wearable personal wireless media station, the wearable personal wireless media station may be programmed to detect the docked-to-undocked change based on whether the base station connector is electrically connected to the earbud connector.
In the foregoing wearable personal wireless media station, the wearable personal wireless media station may be programmed, in response to detecting the undocked-to-docked change while the sound playback of the audio data received by the smartphone for the accepted incoming call is being provided via the wireless earbud, to cease providing the sound playback via the wireless earbud and begin providing the sound playback of the audio data received by the smartphone for the accepted incoming call via the wearable base station such that the sound playback for the accepted incoming call is continued via the wearable base station.
In the foregoing wearable personal wireless media station, the wearable personal wireless media station may comprise the wireless earbud comprises a rail, and the wearable base station comprises a sliding groove configured to receive the rail of the wireless earbud such that, when the rail has been fully inserted into the sliding groove, the earbud connector and the base station connector are in electrical contact with each other. In some cases, the wireless earbud comprises a head portion and an ear portion, the ear portion configured to be inserted into the user's ear to provide sound playback, wherein the wearable base station comprises a hole configured to receive the ear portion of the wireless earbud such that, when the ear portion has been fully inserted into the hole, the head portion of the wireless earbud snaps into a portion of the wearable base station surrounding the hole, and the earbud connector and the base station connector are in electrical contact with each other. In some cases, the wireless earbud comprises a head portion and an ear portion, the ear portion configured to be inserted into the user's ear to provide sound playback, wherein the wearable base station comprises a slit configured to receive the head portion of the wireless earbud, and the head portion is configured to slide into the slit such that, when the head portion has been fully slid into the slit, the earbud connector and the base station connector are in electrical contact with each other. In some cases, the wireless earbud comprises a head portion and an ear portion, the ear portion configured to be inserted into the user's ear to provide sound playback, wherein the wearable base station comprises a slit configured to receive the head portion of the wireless earbud, and the head portion is configured to slide into the slit such that, when the head portion has been fully slid into the slit, the earbud connector and the base station connector are in electrical contact with each other. In some cases, the wearable base station comprises a Universal Serial Bus (USB)-type plug, and the wireless earbud comprises a USB-type socket configured to receive the plug such that, when the plug has been fully inserted into the socket, the earbud connector and the base station connector are in electrical contact with each other. In some cases, the wireless earbud comprises a Universal Serial Bus (USB)-type plug, and the wearable base station comprises a USB-type socket configured to receive the plug such that, when the plug has been fully inserted into the socket, the earbud connector and the base station connector are in electrical contact with each other.
The foregoing and other features, aspects and advantages of the present invention are described in detail below with reference to the drawings of various embodiments, which are intended to illustrate and not to limit the invention. The drawings comprise the following figures in which:
Embodiments of the invention will now be described with reference to the accompanying figures. The terminology used in the description presented herein is not intended to be interpreted in any limited or restrictive manner, simply because it is being utilized in conjunction with a detailed description of certain specific embodiments of the invention. Furthermore, embodiments of the invention may comprise several novel features, no single one of which is solely responsible for its desirable attributes or which is essential to practicing the inventions herein described.
Today, many mobile electronic accessories are available for use with mobile electronic devices such as smartphones, tablet computers, and other user computing devices (collectively referred to herein as primary devices). Some of these accessories allow the user to switch between the different ways of accessing the content provided on the primary device. For example, if a user wishes to listen to music stored on his smartphone without disturbing others around him, rather than using the speaker on his smartphone, he can use a set of headphones that wirelessly connects to his smartphone and listen to the music through the headphones. Other accessories allow the user to access the content provided on the primary device in a more convenient manner. For example, a user may keep her smartphone in her purse (e.g., her smartphone may be too big to fit in her pocket or she may be wearing a dress without any pockets). If she does not wish to constantly reach into her purse and take out her smartphone to check for any new text messages, she can use a smartwatch that wirelessly connects to her smartphone and read and respond to text messages using the touch screen on the smartwatch.
In one aspect, the invention provides a wearable personal wireless media station 100 (also referred to herein as personal wireless media station 100) as exemplified in
Referring to
In some cases, the primary device 200 is capable of making and receiving voice calls, and the base station 102 is not capable of, on its own, making and receiving voice calls. For example, the primary device 200 is a smartphone, and the base station 102 is not a phone. Alternatively, in some cases, the base station 102 is capable of making and receiving voice calls. For example, the base station 102 is a smartphone.
The clip provided on the base station 102 allows the personal wireless media station 100 to be clipped to the user's clothing or other possessions. The clip allows the user to keep the personal wireless media station 100 in a place that is easily accessible and visible as illustrated in
Reading Messages and Answering Calls without Touching Your Phone
In embodiments, the wireless earbud 104 can be docked to and undocked from the base station 102. The base station 102 provides a docking bay 112 to receive the wireless earbud 104. Referring to
Referring to
In embodiments, a display panel is provided under the display surface 106. The display panel may incorporate an available display technology such as LCD and OLED technologies. In embodiments, the display surface 106 is capable of displaying information including incoming call information, song information, text information, email information, photographic information and the like.
In embodiments, the volume control buttons 108 are used to increase or decrease the volume of the speaker of the base station 102 and/or the speaker of the wireless earbud 104. When the earbud 104 is docked to the base station 102, in response to a volume control input at the volume control buttons 108, base station increase or decrease the volume of its own speaker, i.e., the speaker of the base station 102. When the earbud 104 is undocked from the base station 102, however, in response to a volume control input at the volume control buttons 108, the base station 102 wirelessly communicates with the earbud 104 to increase or decrease the volume of the speaker of the earbud 104. In the alternative, when the earbud 104 is undocked from the base station 102, in response to a volume control input at the volume control buttons 108, the base station 102 wirelessly communicates with the primary device 200 for controlling the volume of the speaker of the earbud 104. In addition, the volume control buttons 108 can be used to increase or decrease the size of the text displayed on the display surface 106, to increase or decrease the scrolling speed of the text displayed on the display surface, and/or to go to the next page or the previous page of the text, email, or other information displayed on the display surface 106.
In embodiments, the function control button 110 is used to activate or deactivate a variety of functions available on the personal wireless media station 100. One or more functions described herein (e.g., enabling/disabling modes or components, activating/deactivating modes or components, causing the personal wireless media station 100 to perform certain actions, etc.) may be activated or deactivated by pressing the function control button, pressing and holding the function control button for a threshold period of time (e.g., 1 second, 2 seconds, 3 seconds, or any other duration), pressing the function control button while another button is pressed (e.g., one or more volume control buttons), or pressing and holding the function control button for a threshold period of time (e.g., 1 second, 2 seconds, 3 seconds, or any other duration) while another button is pressed (e.g., one or more volume control buttons).
In embodiments, the docking bay 112 is configured, shaped and sized to receive the wireless earbud 104 in a docking space provided therein and allow the wireless earbud 104 to be docked to the base station 102. In the illustrated embodiment, the docking space of the docking bay 112 is provided between two docking arms 113 that are elongated in the X axis and generally parallel to each other with a gap therebetween in the Z axis.
In embodiments, a locking device 114 is installed on an inner side of each docking arm 113. Each locking device 114 includes a locking protrusion protruding from the corresponding docking arm 113 and a locking mechanism (spring-loaded or elastic) exerting force on the locking protrusion toward the opposite docking arm along the z-axis. When the earbud 104 is securely docked in the docking space created by the docking bay 112, the locking devices 114 provided on the docking arms 113 hug the waist portion of the earbud 104. In some embodiments, when the earbud 104 is securely docked to the base station 102 in the desired position, the locking devices 114 are in contact with the rear portions (portions that are farther away from the connectors 115 along the x-axis) of the waist portion of the earbud 104 such that the locking devices 114 securely hold the earbud 104 in place in the docked position. In other embodiments, when the earbud 104 is securely docked to the base station 102 in the desired position, the locking protrusions of the locking devices 114 are inserted into the corresponding recesses provided on the waist portion of the earbud 104 such that the locking devices 114 securely hold the earbud 104 in place in the docked position.
As shown in
The docking arms 113 are distanced apart to allow sliding in of the waist of the wireless earbud 104 for docking (attaching) or undocking (detaching). The width of the “U” of the docking bay 112 may be substantially equal to the width of the waist portion 104B of the wireless earbud 104 in the z-axis direction. In some embodiments, the distance between the bottom of the “U” and the portion of the protrusions that is farthest from the bottom of the “U” on the docking arms 113 along the x-axis is substantially equal to the width of the waist portion 104B in the x-axis direction. In other embodiments, the distance between the bottom of the “U” and the portion of the protrusions that is farthest from the bottom of the “U” on the docking arms 113 along the x-axis is less than the width of the waist portion 104B in the x-axis direction. In some embodiments, the distance between the two protrusions on the opposite docking arms along the z-axis is less than the width of the width of the waist portion 104B of the wireless earbud 104 in the z-axis direction.
No Rotation about X-Axis or Y-Axis During Slide-In
In some embodiments, the gap (distance and/or other mechanical structure) in the docking bay 112 is configured such that the wireless earbud 104 can be rotated about neither the x-axis nor the y-axis during sliding as well as while docked. For example, the respective surfaces of the waist of the wireless earbud 104 are flat and parallel to the surfaces of the docking arms 113 facing the respective surfaces of the waist of the wireless earbud 104 while the wireless earbud 104 is slid into the docking space.
In embodiments, the base station 102 includes contact one or more connectors 115 on an inner side of the docking bay 112 for electrically connecting to the earbud 104 when it is docked to the base station 102. When the earbud 104 is docked and secured, the one or more connectors contact one or more counterpart connectors of the earbud 104. When the earbud 104 is pulled away from the base station 102 along the X axis with a threshold amount of force along the X axis, the earbud 104 becomes undocked (the connectors 115 are no longer electrically connected to the corresponding connectors on the earbud 104, and the earbud 104 physically exits the docking bay 112. In embodiments, the one or more connectors 115 include pogo pins although not limited thereto.
In some embodiments, the base station and earbud connectors may be pogo connectors. The base station pogo connectors may be configured to be connected with the counterpart pogo connectors provided on the wireless earbud 104 when the wireless earbud 104 is moved into the docking space along the x-axis to be connected with the base station 102. When the wireless earbud 104 is connected with the base station 102, the counterpart pogo connectors on the wireless earbud 104 are in contact with the pogo connectors on the base station 102.
In embodiments, the clip 116 is integrated with the body of the base station 102. The clip 116 clips the base station 102 to the user's clothing or other belongings (e.g., shirt, tie, pocket, bag, etc.). Instead of the clip 116, the base station 102 may include any other attachment mechanism such as a band or other fasteners for attaching the base station 102 to the user's body, clothing, or other belongings.
With reference to
In some embodiments, the wireless earbud 104 plays back sound data received from the base station 102. In other embodiments, the wireless earbud 104 plays back sound data received from the primary device 200.
In some embodiments, the waist portion 104B of the wireless earbud 104 may include one or more pogo connectors. In some embodiments, the waist portion 104B of the wireless earbud 104 may include one or more recesses. In some embodiments, the waist portion 104B of the wireless earbud 104 may include one or more pogo connectors and one or more recesses. The pogo connectors are mateable with the base station pogo connectors provided in the docking bay 112 of the base station 102.
In some embodiments, the wireless earbud 104 plays back sound received from the base station 102 when the earbud connectors are not connected to the base station connectors. In other embodiments, the wireless earbud 104 plays back sound received from the primary device 200 when the earbud connectors are not connected to the base station connectors.
The waist portion of the wireless earbud 104 may have a width in the z-axis direction that is slightly narrower than the distance between the docking arms 113 in the z-axis direction such that the waist portion of the wireless earbud 104 can slide into the docking space between the docking arms 113 along the x-axis while maintaining contact with both of the docking arms 113.
The waist portion of the wireless earbud 104 may have one or more recesses that match and correspond to the protrusions on the docking arms 113. The protrusions are either in contact with or inserted into the recesses when the wireless earbud 104 is fully docked. The protrusions (locking device) on the docking arms 113 may hug the one or more recesses formed in the waist of wireless earbud 104 or may be inserted into the recesses such that once the wireless earbud 104 is fully docked and the locking device is engaged, the protrusions (locking device) exert enough force on the wireless earbud 104 to prevent the wireless earbud 104 from moving in the x-axis direction, rotating about the y-axis or the z-axis, or moving up or down in the y-axis direction. In some embodiments, the protrusions are configured such that once the wireless earbud 104 is fully docked (e.g., locking device is engaged), a threshold amount of force in the x-axis direction away from the docking space is needed to disengage the locking device. Thus, inadvertent disengaging of the locking device or undocking of the wireless earbud 104 may be prevented.
In some embodiments, when the wireless earbud 104 is fully docked, the protrusion is returned to its original position (e.g., when the docking space is unoccupied). In other embodiments, when the wireless earbud 104 is fully docked, the protrusion is sitting between its fully-loaded position (e.g., when the amount by which it extends from the docking arm 113 in the z-axis direction is at its minimum) and its original position. In other embodiments, when the wireless earbud 104 is fully docked, the protrusion is sitting at its fully-loaded position (e.g., when the amount by which it extends from the docking arm 113 in the z-axis direction is at its minimum).
One or both of the docking arms 113 may have a spring-loaded or elastic protrusion (locking device) that is configured to convert the force exerted thereon in the x-axis direction into the protrusion's outward movement in the z-axis direction (e.g., away from the docking space) when the wireless earbud 104 is slid out of the docking space in the x-axis direction. When the earbud is fully undocked, the spring-loaded or elastic protrusion (locking device) returns to its original position and stops exerting inward force.
In some embodiments, the head portion of the wireless earbud 104 has a flat (planar) surface on the x-z plane parallel to the display surface 106. While the wireless earbud 104 is slid into the docking space and when the wireless earbud 104 is fully docked, the flat (planar) surface maintains contact with a counterpart flat (planar) surface on the base station 102.
In some embodiments, the waist portion of the wireless earbud 104 has two flat (planar) surfaces respectively maintaining contact with the docking arms 113 while the wireless earbud 104 is slid into the docking space and when the wireless earbud 104 is fully docked. In some embodiments, the flat (planar) surface on the head portion of the wireless earbud 104 and the flat (planar) surfaces on the waist portion of the wireless earbud 104 all maintain contact with the respective counterpart surfaces of the base station 102 while the wireless earbud 104 is slid into the docking space and when the wireless earbud 104 is fully docked.
In some embodiments, the guide surfaces provided on the wireless earbud 104 restrict unwanted movement of the wireless earbud 104 while the wireless earbud 104 is slid into the docking space and when the wireless earbud 104 is fully docked. For example, maintaining contact between the flat (planar) surface on the head portion of the wireless earbud 104 and the counterpart surface on the base station 102 while the wireless earbud 104 is slid into the docking space and when the wireless earbud 104 is fully docked prevents the wireless earbud 104 from rotating about the x-axis or the z-axis. Further, maintaining contact between the flat (planar) surfaces on the waist of the wireless earbud 104 and the counterpart surfaces on the docking arms 113 while the wireless earbud 104 is slid into the docking space and when the wireless earbud 104 is fully docked prevents the wireless earbud 104 from rotating about the x-axis or the y-axis.
In some embodiments, the guide surfaces provided on the wireless earbud 104 provide guidance as the wireless earbud 104 is slid into the docking space. For example, maintaining contact between the flat (planar) surface on the head portion of the wireless earbud 104 and the counterpart surface on the base station 102 while the wireless earbud 104 is slid into the docking space and when the wireless earbud 104 is fully docked allows the wireless earbud 104 to maintain its relative position in the y-axis direction with respect to the base station 102, facilitating the docking process.
In some embodiments, the base station 102 is shaped such that a space is formed on the opposing side of the guide surface on the base station 102 corresponding to the flat (planar) surface on the head portion of the wireless earbud 104. The space has a width in the x-axis direction that is substantially the same as the width of the ear portion of the wireless earbud 104 in the x-axis direction.
Wireless Earbud's Ear Portion does not Touch Base Station
In some embodiments, the ear portion of the wireless earbud 104 is not in contact with any part of the base station 102 when the wireless earbud 104 is fully docked. In other embodiments, the widest portion of the ear portion of the wireless earbud 104 in the x-axis direction is not in contact with any part of the base station 102 when the wireless earbud 104 is fully docked.
Alignment of Wireless Earbud's Ear Portion when Fully Docked
When the wireless earbud 104 is fully docked, the portion of the ear portion of the wireless earbud 104 that is farthest away from the base station connectors in the x-axis direction is substantially aligned with the portion of the docking arms 113 that is farthest away from the base station connectors in the x-axis direction. In some embodiments, when the wireless earbud 104 is fully docked, the portion of the ear portion of the wireless earbud 104 that is farthest away from the base station connectors in the x-axis direction is substantially on the same y-z plane as the portion of the docking arms 113 that is farthest away from the base station connectors in the x-axis direction.
In some embodiments, the docking arms 113 have a thickness in the y-axis direction that is smaller than the thickness of the thinnest portion of the base station 102 in the y-axis direction excluding the docking arms 113. In some embodiments, the docking arms 113 constitute the thinnest portions of the base station 102 in the y-axis direction. By providing thinner docking arms 113 relative to the thickness of the base station 102 in the y-axis direction, the ear portion of the wireless earbud 104 may be positioned within the space adjacent to the base station 102 and the docking arms 113 when the wireless earbud 104 is docked to the base station 102.
The waist portion of the wireless earbud 104 may include connectors that correspond to the connectors provided in the docking bay 112 of the base station 102. The connectors on the wireless earbud 104 and the connectors on the base station 102 may be of the opposite gender. When fully docked in the correct position along the y-axis and at the correct angle along the z-axis, each connector (e.g., pogo pin/connector) of the wireless earbud 104 contacts its corresponding connector (e.g., pogo pin/connector) of the base station 102.
The cross-section of the waist portion of the wireless earbud 104 may be substantially in the shape of a square or a rectangle. In some embodiments, the cross-section may include two pairs of parallel sides that face each other. For example, the side including the connectors may be opposite and parallel to a side including neither connectors nor recesses. In another example, the side including the connectors may be adjacent to two sides that each include a recess corresponding to the protrusion on the docking arms 113.
In some embodiments, the cross-section of the waist portion may be circular, elliptical, or oval. In other embodiments, the cross-section of the waist portion may include a side that is flat, includes the connectors, and is configured to face the bottom of the “U” of the docking arms 113 when docked to the base station 102, and the remaining portion of the waist portion may be round.
The base station 102 and/or the wireless earbud 104 may include one or more speakers for playing back sound data from another user device (e.g., primary device 200) paired with the personal wireless media station 100.
The base station 102 and/or the wireless earbud 104 may include LED light indicators for indicating information to the user by blinking or flashing light therefrom. For example, such LED light indicators may indicate that the battery level is low (e.g., by blinking in red) or that there is an unread message or a missed call (e.g., by lighting up).
The base station 102 and/or the wireless earbud 104 may include one or more microphones for capturing sound data and providing the captured sound data to the primary device 200 paired with the personal wireless media station 100.
Although not shown in
As shown in
As shown in
The communication modules 502 and 514 may be Bluetooth modules configured to establish Bluetooth connections with each other and/or with the primary device 200. Although Bluetooth is used as an example, any other wireless protocols may be used to establish wireless connections between the base station 102 and the wireless earbud 104 and/or between the personal wireless media station 100 and the primary device 200.
The connectors 504 and 516 may be pogo pins/connectors of opposite gender. Once electrically connected, the connectors 504 and 516 allow the base station 102 and the wireless earbud 104 to transmit and receive data to and from each other. The data transmission may be two way (e.g., the wireless earbud 104 transmits data to the base station 102 via the connectors, and the base station 102 transmits data to the wireless earbud 104) or one way (e.g., the wireless earbud 104 transmits data to the base station 102 via the connectors but the base station 102 does not or cannot transmit data to the wireless earbud 104, or the base station 102 transmits data to the wireless earbud 104 via the connectors but the wireless earbud 104 does not or cannot transmit data to the base station 102). Although pogo pins/connectors are used as examples, other connectors such as the 3.5 mm jack or other types of connectors.
The processor 506 may receive data and instructions from other computing systems via the communications module 502. Further, the processor 506 may store data in the memory 508 or retrieve data from the memory 508. The processor 506 may process input data received by the input(s) 510, and provide output data to the output(s) 512. Further, the processor 506 may perform one or more techniques described herein regarding the process of providing and/or redirecting sound playback. For example, the processor 506 may, via one or more sensors or detectors, detect whether the earbud connector of the wireless earbud 104 is connected to the base station connector of the base station 102. Based on whether or not the earbud connector of the wireless earbud 104 is connected to the base station connector of the base station 102, the processor 506 may cause different output(s) (e.g., the speaker on the base station 102 or the speaker on the wireless earbud 104) to play back the sound based on the audio data received from the primary device 200.
The base station 102 may include software or firmware that, when executed by the processor 506, configures the base station 102 to perform one or more processes described herein.
The memory 508 may store audio data transmitted from the primary device 200. In some embodiments, the memory 508 is a volatile memory and only stores what is currently being transmitted and played back by the personal wireless media station 100. For example, all the data stored in the memory 508 may be lost shortly after use or upon power down of the personal wireless media station 100. In other embodiments, the memory 508 is a nonvolatile memory or a combination of volatile and nonvolatile memory. The memory 508 may include RAM, ROM and/or other persistent, auxiliary or non-transitory computer-readable media. The memory 508 may store computer program instructions to be executed by the processor 506 in the general administration and operation of the personal wireless media station 100. The memory 508 may further include computer program instructions and other data for implementing aspects of the present disclosure.
The base station 102 may include one or more inputs (e.g., physical or digital buttons) that allow the user of the personal wireless media station 100 to enter various user commands. Such buttons or sensors may include a power button, volume control button(s), touch sensitive button(s), function control button(s), or the like. Although not illustrated in
The base station 102 may include one or more outputs for providing visual or audible information to the user. Such outputs may include one or more speakers, displays, LED indicators, and the like. The speaker may be configured to play sound received from the primary device 200. The sound played via the speaker may be a telephone conversation, a song, a voice recording, an alarm, etc. The display may include one or more display screens that display, e.g., under the control of the processor 506, the data processed by the processor 506. The data may include text, images, or other visual content. For example, the display may be provided on a side surface of the base station 102 as shown in
The primary device 200 may have a mobile application 202 installed thereon for configuring the personal wireless media station 100. For example, the mobile application may be configured to set and monitor the Bluetooth pairing with the personal wireless media station 100. The mobile application 202 may include a feature for finding a personal wireless media station within the communication range. The mobile application 202 may be used to monitor and control the various features of the personal wireless media station 100. The mobile application 202 may be configured to display (or cause the personal wireless media station 100 to display) a low battery warning based on the battery status of the personal wireless media station 100. The mobile phone may be configured to automatically transmit any audiovisual data that may otherwise be displayed on the mobile phone itself to the personal wireless media station 100 when the primary device 200 is paired with the personal wireless media station 100. The mobile application 202 may also receive audio data and image data captured by the personal wireless media station 100 and store the data in a memory (not shown) of the primary device 200.
The base station 102 and the wireless earbud 104 of the personal wireless media station 100 are not limited to the configuration illustrated in
Referring to
At block 802, the personal wireless media station 100 determines whether the earbud 104 is securely docked to the base station 102. In embodiments, determining docking of the earbud 104 occurs in response to the user action for turning on the personal wireless media station 100 from its turned-off state or in response to the user's command for playing a sound recording or streaming sound from its state where no sound is played. Alternatively, determining docking of the earbud 104 occurs repeatedly and/or periodically while the personal wireless media station 100 is turned on. For example, the base station 102 periodically and repeatedly performs a routine to detect that the earbud 104 is docked. Alternatively, the earbud 104 periodically and repeatedly performs a routine to detect that the earbud 104 is docked. In yet other embodiments, determining docking of the earbud 104 occurs in response to receiving a signal that indicates docking. For example, the base station 102 waits for a signal from the earbud 104 (or a component within the base station 102) that indicates the earbud 104 has been docked. Alternatively, the earbud 104 waits for a signal from the base station 102 (or a component within the earbud 104) that indicates the earbud 104 has been docked. Other known or similar alternative methods of detecting the docking can also be used.
In embodiments, the personal wireless media station 100 (e.g., base station 102 or earbud 104) may determine whether or not the earbud 104 has been docked based on whether the base station and earbud connectors have been electrically connected or not. For example, the base station 102 determines docking of the earbud 104 based on detecting that the earbud connector is in electrical contact with the base station connector, and determines undocking of the earbud 104 based on detecting that the earbud connector is not in electrical contact with the base station connector. In other embodiments, the base station 102 includes at least one electro-mechanical sensor integrated with the locking device 114 for sensing docking of the earbud 104.
At block 804, upon determining that the earbud 104 is docked to the base station 102, the personal wireless media station 100 plays sound through the speaker of the base station 102 while the earbud connector is connected to the base station connector. In embodiments, the base station 102 plays sound using audio data from the primary device 200 to which the personal wireless media station 100 is wirelessly connected. In some embodiments, the audio data come from the primary device 200 directly. In other embodiments, the audio data come from the primary device 200 via the earbud 104 which wirelessly communicates with the primary device 200 and communicates with the base station 102 via the connectors.
At block 806, the personal wireless media station 100 determines that the earbud 104 is undocked from the base station 102 while sound is being played on the base station 102. In embodiments, determining undocking of the earbud 104 is performed in the same or similar manner as for determining docking of the earbud 104. In embodiments, determining undocking of the earbud 104 occurs in response to the user action for turning on the personal wireless media station 100 from its turned-off state or in response to the user's command for playing a sound recording or streaming sound from its state where no sound is played. Alternatively, determining undocking of the earbud 104 occurs repeatedly and/or periodically while the personal wireless media station 100 is turned on. For example, the base station 102 periodically and repeatedly performs a routine to detect that the earbud 104 is undocked. Alternatively, the earbud 104 periodically and repeatedly performs a routine to detect that the earbud 104 is undocked. In yet other embodiments, determining undocking of the earbud 104 occurs in response to receiving a signal that indicates undocking. For example, the base station 102 waits for a signal from the earbud 104 (or a component within the base station 102) that indicates the earbud 104 has been undocked. Alternatively, the earbud 104 waits for a signal from the base station 102 (or a component within the earbud 104) that indicates the earbud 104 has been undocked. Other known or similar alternative methods of detecting the undocking can also be used.
In embodiments, the personal wireless media station 100 (e.g., base station 102 or earbud 104) may determine whether or not the earbud 104 has been undocked based on whether the base station and earbud connectors have been electrically disconnected or not. In other embodiments, the base station 102 includes at least one electro-mechanical sensor integrated with the locking device 114 for sensing undocking of the earbud 104.
At block 808, the personal wireless media station 100 ceases to play the sound it was playing through the speaker of the base station 102 in response to determining that the earbud 104 is undocked from its docked state.
At block 810, along with ceasing to play sound on the base station 102, the earbud 104 takes over the task of playing the sound that the base station 102 was playing. In some embodiments, the base station 102 wirelessly sends audio data for the sound to the wireless earbud 104 for playing through the wireless earbud 104. In other embodiments, the base station 102 wirelessly communicates to the primary device 200 to inform undocking of the earbud 104 and to request that the primary device 200 sends the audio data to the earbud 104 directly. In such embodiments, in response to the request, the primary device 200 wirelessly sends the audio data to the earbud 104 such that the earbud 104 plays the sound that the base station 102 has played and ceased to play.
No Action Other than Undocking for Redirecting to Earbud
As discussed above, there may be situations when the user may want to have a call or listen to the music privately using the wireless earbud 104. In such situations, the user can simply unplug the wireless earbud 104 from the base station 102 of the personal wireless media station 100, and the sound information received from the user device 206 automatically begins to be played back via the wireless earbud 104 without the user having to taking any actions (e.g., no actions to activate the wireless earbud 104 and wirelessly connect to the base station 102 or primary device 200) other than undocking the wireless earbud 104 from the base station 102.
At block 902, the personal wireless media station 100 receives a user request to initiate sound playback. In embodiments, the user request may be received in response to the user pressing a button (either mechanical or digital) on the personal wireless media station 100 or the primary device 200 to accept an incoming call, to play a song, to play a voice message or voicemail, or to perform any other action that may involve providing sound playback. At block 904, the personal wireless media station 100 determines whether the wireless earbud 104 is docked to the base station 102. If the personal wireless media station 100 determines that the wireless earbud 104 is not docked to the base station 102, the method 900 proceeds to block 906. Otherwise, the method 900 proceeds to 908.
In embodiments, determining whether the earbud 104 is docked or not is performed in the same or similar manner as discussed herein in connection with other embodiments. For example, the personal wireless media station 100 may determine whether or not the wireless earbud 104 is docked based on whether the base station and earbud connectors are electrically connected or not. In some embodiments, the determination of whether the base station and earbud connectors are electrically connected or not is made every time sound playback is initiated or requested. In other embodiments, the determination of whether the base station and earbud connectors are electrically connected or not is made periodically regardless of whether sound playback is initiated or requested. In other embodiments, the determination of whether the base station and earbud connectors are electrically connected or not is made in response to the docking or undocking of the wireless earbud 104. For example, when the wireless earbud 104 becomes docked or undocked, a signal or instruction may be sent to the processor 506 to make such a determination.
At block 906, the personal wireless media station 100 provides sound playback through the speaker on the wireless earbud 104. At block 908, the personal wireless media station 100 provides sound playback through the speaker on the base station 102. The sound played back via the speaker may be an incoming voice call, music stored on the primary device 200, a voicemail received on the primary device 200, or any other voice data stored on the primary device 200 or the personal wireless media station 100.
In the method 900, one or more of the blocks shown in
At block 1002, the primary device 200 receives a user request to initiate sound playback. For example, the user request may be received in response to the user pressing a button (either mechanical or digital) on the personal wireless media station 100 or the primary device 200 to accept an incoming call, to play a song, to play a voice message or voicemail, or to perform any other action that may involve providing sound playback.
At block 1004, in response to receiving the request to initiate sound playback, the primary device 200 wirelessly sends sound data to the wireless earbud 104. If needed, the primary device 200 established a wireless link with the earbud 104. In embodiments, on or before sending the sound data to the earbud 104, the primary device 200 does not make determination as to whether the earbud 104 is docked to or undocked from the base station 104.
At block 1006, in response to receiving the sound data, the earbud plays sound using the sound data from the primary device 200. The sound played back via the speaker may be an incoming voice call, music stored on the primary device 200, a voicemail received on the primary device 200, or any other voice data stored on the primary device 200 or the personal wireless media station 100.
Redirecting Sound Playback when Earbud Becomes Undocked
As discussed above, there may be situations when the user may want to have a voice call or listen to music privately using the wireless earbud 104. In such situations, the user can simply unplug the wireless earbud 104 from the base station 102, and the sound data received from the primary device 200 automatically begins to be played back via the speaker on the wireless earbud 104 without the user having to activate the wireless earbud 104 or press any button(s). Such an example is illustrated in
Flowchart for Redirecting Sound Playback when Earbud Becomes Undocked
At block 1102, the personal wireless media station 100 provides sound playback through the base station speaker. The sound played back via the speaker may be an incoming voice call, music stored on the primary device 200, a voicemail received on the primary device 200, or any other voice data stored on the primary device 200 or the personal wireless media station 100.
At block 1104, the personal wireless media station 100 determines whether the wireless earbud 104 has been undocked from the base station 102 while playing sound on the base station 102. If the personal wireless media station 100 determines that the wireless earbud 104 has been undocked from the base station 102, the method 1100 proceeds to block 1106. Otherwise, the method 1100 returns to block 1102, and the personal wireless media station 100 continues to provide sound playback through the base station speaker. The undocking determination may be performed using any of the techniques described herein (e.g., with reference to
At block 1106, the base station 102 ceases or stops playing the sound in response to the determination that the earbud 104 has been undocked. At block 1108, the personal wireless media station 100 begins providing sound playback through the earbud speaker immediately after or substantially simultaneously with stopping to play on the base station 102. Here, immediately after or substantially simultaneously means within 0.01, 0.01, 0.1, 0.5, 1.0, 2.0, 3.0, or 5.0 seconds (or any other value between such values) from stoppage of playing sound on the base station 102 or from determination that the earbud 104 has been undocked.
In the method 1100, one or more of the blocks shown in
Redirecting Sound Playback when Earbud Becomes Docked
As discussed above, there may be situations when the user may want to use the base station speaker to listen to music after conducting a private voice call using the wireless earbud 104. In such situations, the user can simply plug the wireless earbud 104 back into the base station 102, and the sound data received from the primary device 200 automatically begins to be played back via the speaker on the base station 102 without the user having to activate the base station 102 or press any button(s). Such an example is illustrated in
Flowchart for Redirecting Sound Playback when Earbud Becomes Docked
At block 1202, the personal wireless media station 100 provides sound playback through the speaker of the earbud 104. The sound played back via the speaker may be an incoming voice call, music stored on the primary device 200, a voicemail received on the primary device 200, or any other voice data stored on the primary device 200 or the personal wireless media station 100.
At block 1204, the personal wireless media station 100 determines whether the wireless earbud 104 has been docked to the base station 102 while the sound is being played. In embodiments, determining docking of the earbud 104 is performed in the same or similar manner as used for determining undocking of the earbud 104. If the personal wireless media station 100 determines that the wireless earbud 104 has been docked to the base station 102, the method 1200 proceeds to block 1206. Otherwise, the method 1200 returns to block 1202, and the personal wireless media station 100 continues to provide sound playback through the earbud speaker. The docking determination may be performed using any of the techniques described herein (e.g., with reference to
At block 1206, the personal wireless media station 100 ceases providing sound playback through the earbud speaker in response to the determination that the earbud 104 has been docked to the base station 102. At block 1208, the personal wireless media station 100 begins providing sound playback through the base station speaker immediately after or substantially simultaneously with stopping to play on the earbud 104. Here, immediately after or substantially simultaneously means within 0.01, 0.01, 0.1, 0.5, 1.0, 2.0, 3.0, or 5.0 seconds (or any other value between such values) from stoppage of playing sound on the earbud 104 or from determination that the earbud 104 has been docked.
In the method 1200, one or more of the blocks shown in
Pairing with Primary Device
In some embodiments, the base station 102 and the wireless earbud 104 are separately and individually paired with the primary device 200 for communication. In some other embodiments, the base station 102 is solely paired with the primary device 200 (e.g., the wireless earbud 104 is not paired with the primary device 200) and relays the data received from the primary device 200 to the wireless earbud 104. In some other embodiments, the wireless earbud 104 is solely paired with the primary device 200 (e.g., the base station 102 is not paired with the primary device 200) and relays the data received from the primary device 200 to the base station 102. In some of such embodiments, the relayed data is limited to audio data.
In some embodiments, the base station 102 is solely paired with the primary device 200, with no other device paired with the primary device 200. If the wireless earbud 104 (or any other device) was paired with the primary device 200 prior to the pairing of the base station 102 and the primary device 200, the pairing between the wireless earbud 104 and the primary device 200 (and any other pairings) would be terminated upon the pairing of the base station 102 and the primary device 200.
In some embodiments, the wireless earbud 104 is solely paired with the primary device 200, with no other device paired with the primary device 200. If the base station 102 (or any other device) was paired with the primary device 200 prior to the pairing of the wireless earbud 104 and the primary device 200, the pairing between the base station 102 and the primary device 200 (and any other pairings) would be terminated upon the pairing of the wireless earbud 104 and the primary device 200.
In some embodiments, the primary device 200 designates the wireless earbud 104 as the primary paired device and the base station 102 as the secondary paired device. In other embodiments, the primary device 200 designates the base station 102 as the primary paired device and the wireless earbud 104 as the secondary paired device
While playing sound on the personal media player 100, the volume control buttons adjust volume of playing sound on either of the base station 102 and earbud 104. When the earbud 104 is docked to the base station 102, and sound is being played on the base station 102, the personal media player 100 is programmed to adjust volume of the speaker of the base station 102 by pressing volume control buttons. On the other hand, when the earbud 104 is undocked from the base station 102, and sound is being played on the earbud 104, the personal media player 100 is programmed to adjust volume of the speaker of the earbud 104 by pressing volume control buttons.
If the volume control buttons are activated while content is being displayed on the display surface 106 in scrolling display mode, the scrolling speed is adjusted.
If the volume control buttons are activated while content is being displayed in page display mode, the next or previous page of the content (e.g., text or email) is displayed. For example, if the (+) button is pressed while an email is being displayed in page display mode, the next page/portion of the email is displayed, and if the (−) button is pressed while an email is being displayed in page display mode, the previous page/portion of the email is displayed.
For example, upon detecting that the (−) volume button is pressed for a threshold period of time (e.g., 1 second, 2 seconds, 3 seconds, or any other duration), silent mode may be activated, and upon detecting that the (+) volume button is pressed for a threshold period of time (e.g., 1 second, 2 seconds, 3 seconds, or any other duration), silent mode may be deactivated (i.e., normal mode is activated). In silent mode, the speaker of the base station 102 may be disabled. Alternatively, in silent mode, both the speaker of the base station 102 and the LED light indicator of the base station 102 may be disabled.
Upon detecting that the volume control button is pressed within a threshold time period after being pressed, the personal wireless media station 100 may cause the next text or email or the previous text or email to be displayed on the display surface 106. For example, upon detecting that the (−) volume button is pressed within a threshold time period (e.g., 0.5 seconds, 1 second, or any other duration) after being pressed, the personal wireless media station 100 may cause the previous text or email to be displayed on the display surface 106, and upon detecting that the (+) volume button is pressed within a threshold time period (e.g., 0.5 seconds, 1 second, or any other duration) after being pressed, the personal wireless media station 100 may cause the next text or email to be displayed on the display surface 106.
Voice commands or voice-controlled interface (e.g., Siri) may be activated when the function control button is pressed and held for a threshold period of time (e.g., 1 second, 2 seconds, 3 seconds, or any other duration). In some embodiments, if such voice commands or voice-controlled interface is disabled or not available, the most recent phone number in the call history may be dialed when the function control button is pressed and held for a threshold period of time (e.g., 1 second, 2 seconds, 3 seconds, or any other duration). In other embodiments, a user-defined task is performed instead of dialing the most recent phone number in the call history.
When there is an unread text or email, upon detecting that the function control button is pressed, the personal wireless media station 100 causes the unread text or email to be displayed on the display surface 106. After the text or email is displayed, if the function control button is pressed and there is no additional unread text or email, the personal wireless media station 100 may turn off the display surface 106. If there are additional unread texts and/or emails, upon detecting that the function control button is pressed again, the personal wireless media station 100 causes the next unread text or email to be displayed on the display surface 106.
When there is an incoming voice call, upon detecting that the function control button is pressed, the personal wireless media station 100 causes the call incoming call to be answered. When there is an active voice call, upon detecting that the function control button is pressed, the personal wireless media station 100 causes the active voice call to be terminated.
During an active voice call, if another incoming call is received, upon detecting that the function control button is pressed and held for a threshold period of time, the personal wireless media station 100 causes call waiting to be activated (e.g., the currently active voice call is placed on hold and the incoming voice call is answered). If the second call is terminated, the first call that was put on hold is automatically resumed. Upon detecting that the function control button is pressed and held for a threshold period of time while the second call is active and the first call is placed on hold, the personal wireless media station 100 causes the second call to be placed on hold and the first call to be resumed.
In some embodiments, the primary device 200 splits text/image data from audio data and sends text/images data to the base station 102 and the audio data to the wireless earbud 104 such that the base station 102 displays text and images and the wireless earbud 104 plays audio. In other embodiments, the primary device 200 sends text/image and audio data to the base station 102 and only audio data to the wireless earbud 104 such that the base station 102 displays text and images and the wireless earbud 104 plays audio, in which the base station 102 also has the ability to play the audio data.
In some embodiments, some or all components of the wireless earbud 104 are turned off or disabled when the wireless earbud 104 is docked to the base station 102. The battery of the wireless earbud 104 is charged when the wireless earbud 104 is docked to the base station 102.
Operation of Base Station Display when Earbud is Docked
When the wireless earbud 104 is docked to the base station 102, if an incoming call or an outgoing call is detected, the display surface 106 displays the caller/receiver data. When the wireless earbud 104 is docked to the base station 102, if a message (e.g., text, image, video, email message) is received, the display surface 106 displays the text/image associated with the received message. When the wireless earbud 104 is docked to the base station 102, when sound/music is being played, the display surface 106 displays data associated with the sound/music currently being played.
Operation of Base Station Microphone when Earbud is Docked
Upon detecting that the wireless earbud 104 is docked to the base station 102, the personal wireless media station 100 causes the microphone on the base station 102 to be automatically activated, if it has not been active or turned on.
Operation of Base Station Speaker when Earbud is Docked
Upon detecting that the wireless earbud 104 is docked to the base station 102, the personal wireless media station 100 causes the speaker on the base station 102 to be automatically activated if it has not been active or turned on.
Operation of Earbud Microphone when Earbud is Docked
Upon detecting that the wireless earbud 104 is docked to the base station 102, the personal wireless media station 100 causes the microphone on the wireless earbud 104 to be automatically disabled if it has been active or turned on. While the wireless earbud 104 is docked to the base station 102, the microphone on the wireless earbud 104 remains disabled. In some embodiments, the wireless earbud 104 does not have a microphone.
Operation of Earbud Speaker when Earbud is Docked
Upon detecting that the wireless earbud 104 is docked to the base station 102, the personal wireless media station 100 causes the speaker on the wireless earbud 104 to be automatically disabled if it has been active or turned on. While the wireless earbud 104 is docked to the base station 102, the speaker on the wireless earbud 104 remains disabled.
In some embodiments, some or all components of the wireless earbud 104 are turned on or enabled when the wireless earbud 104 is undocked to the base station 102.
Operation of Base Station Display when Earbud is Undocked
When the wireless earbud 104 is undocked from the base station 102, if an incoming call or an outgoing call is detected, the display surface 106 displays the caller/receiver data. When the wireless earbud 104 is undocked from the base station 102, if a message (e.g., text, image, video, email message) is received, the display surface 106 displays the text/image associated with the received message. When the wireless earbud 104 is undocked from the base station 102, when sound/music is being played, the display surface 106 displays data associated with the sound/music currently being played. In some embodiments, the operation of the base station display when and while the wireless earbud 104 is undocked from the base station 102 is identical to the operation of the operation of the base station display when and while the wireless earbud 104 is docked to the base station 102.
Operation of Base Station Microphone when Earbud is Undocked
Upon detecting that the wireless earbud 104 is undocked from the base station 102, the personal wireless media station 100 causes the microphone on the base station 102 to be automatically disabled. In some embodiments, if the wireless earbud 104 does not have a microphone, the microphone on the base station 102 remains activated or enabled even after the wireless earbud 104 is undocked from the base station 102.
Operation of Base Station Speaker when Earbud is Undocked
Upon detecting that the wireless earbud 104 is undocked from the base station 102, the personal wireless media station 100 causes the speaker on the base station 102 to be automatically disabled. In some embodiment, upon detecting a user request to enable the base station speaker, the personal wireless media station 100 causes the base station speaker causes to be enabled or remain enabled even when the wireless earbud 104 is undocked from the base station 102.
Operation of Earbud Microphone when Earbud is Undocked
Upon detecting that the wireless earbud 104 is undocked from the base station 102, the personal wireless media station 100 causes the microphone on the wireless earbud 104 to be automatically activated or enabled. In some embodiment, upon detecting a user request to disable the earbud microphone, the personal wireless media station 100 causes the earbud microphone to be disabled or remain disabled even when the wireless earbud 104 is undocked from the base station 102
Operation of Earbud Speaker when Earbud is Undocked
Upon detecting that the wireless earbud 104 is undocked from the base station 102, the personal wireless media station 100 causes the speaker on the wireless earbud 104 to be automatically activated or enabled.
In some embodiments in which the wireless earbud 104 does not have a microphone, upon detecting that a voice call is initiated, the personal wireless media station 100 automatically causes the microphone of the base station 102 to become active to pick up the user's voice even while the wireless earbud 104 is undocked from the base station 102.
In some embodiments in which the wireless earbud 104 includes a microphone, upon detecting that a voice call is initiated, the personal wireless media station 100 automatically causes the microphone of the wireless earbud 104 to become active to pick up the user's voice even while the earbud is undocked from the base station 102.
In one embodiment, the communications modules 502 and 514 each communicate with the primary device 200 but not with each other. In another embodiment, the communications modules 502 and 514 communicate with each other but only the communications module 502, and not the communications module 514, communicates with the primary device 200. In yet another embodiment, the communications modules 502 and 514 communicate with each other but only the communications module 514, and not the communications module 502, communicates with the primary device 200. In yet another embodiment, the communications modules 502 and 514 each communicate with the primary device 200 and also communicate with each other.
Only Base Station Communicates with Primary Device
In some embodiments, the communications modules 502 and 514 communicate with each other but only the communications module 502, and not the communications module 514, communicates with the primary device 200. In some of such embodiments, the communication between the communications modules 502 and 514 is one way (e.g., data is transmitted from the communications module 502 to the communications module 514). In other such embodiments, the communication between the communications modules 502 and 514 is two way (e.g., data is transmitted from the communications module 502 to the communications module 514 and also transmitted from the communications module 514 to the communications module 502).
Only Earbud Communicates with Primary Device
In some embodiments, the communications modules 502 and 514 communicate with each other but only the communications module 514, and not the communications module 502, communicates with the primary device 200. In some of such embodiments, the communication between the communications modules 502 and 514 is one way (e.g., data is transmitted from the communications module 514 to the communications module 502). In other such embodiments, the communication between the communications modules 502 and 514 is two way (e.g., data is transmitted from the communications module 502 to the communications module 514 and also transmitted from the communications module 514 to the communications module 502).
In some embodiments, the communications module 502 is a two-way wireless module. In such embodiments, the communications module 502 receives data from the primary device 200 as well as transmits data to the primary device 200. In some embodiments, the communications module 502 receives data from the wireless earbud 104 as well as transmits data to the wireless earbud 104. The communications module 502 may use the Bluetooth technology. However, the communications module 502 is not limited as such and may be implemented using any wireless communications standards currently available or developed in the future. For example, the data received from the primary device 200 and/or the wireless earbud 104 may include call data, caller data, sound data, text, voice, or video message data, and any other data that the user can directly (e.g., without the help of the personal wireless media station 100) access from the primary device 200. The data transmitted to the primary device 200 and/or the wireless earbud 104 may include user input data, recorded sound data, captured image data, and any other data that the user can directly (e.g., without the help of the personal wireless media station 100) provide to the primary device 200.
In some embodiments, the base station 102 includes one or more one-way wireless modules. In such embodiments, such wireless modules transmit data to the primary device 200 and/or the wireless earbud 104 (e.g., to the communications module 514) but does not receive any data from the primary device 200 and/or the wireless earbud 104 (e.g., from the communications module 514). Such wireless modules may use the Bluetooth technology. However, such wireless modules are not limited as such and may be implemented using any wireless communications standards currently available or developed in the future. For example, the data transmitted to the wireless earbud 104 may include sound data or any other data that the user can directly (e.g., without the help of the wireless earbud 104) access from the base station 102 of the personal wireless media station 100. In some embodiments, the communications module 502 is a one-way wireless module that is configured to only transmit data. In some embodiments, the communications module 502 is a one-way wireless module that is configured to only receive data.
In some embodiments, the communications module 514 is a two-way wireless module. In such embodiments, the communications module 514 receives data from the primary device 200 as well as transmits data to the primary device 200. In some embodiments, the communications module 514 receives data from the base station 102 as well as transmits data to the base station 102. The communications module 502 may use the Bluetooth technology. However, the communications module 514 is not limited as such and may be implemented using any wireless communications standards currently available or developed in the future. For example, the data received from the primary device 200 and/or the base station 102 may include call data, caller data, sound data, text, voice, or video message data, and any other data that the user can directly (e.g., without the help of the personal wireless media station 100) access from the primary device 200. In some embodiments, the received data is limited to audio data. The data transmitted to the primary device 200 and/or the base station 102 may include user input data, recorded sound data, captured image data, and any other data that the user can directly (e.g., without the help of the personal wireless media station 100) provide to the primary device 200. In some embodiments, the transmitted data is limited to audio data.
In some embodiments, the wireless earbud 104 includes one or more one-way wireless modules. In such embodiments, such wireless modules transmit data to the primary device 200 and/or the base station 102 (e.g., to the communications module 502) but does not receive any data from the primary device 200 and/or the base station 102 (e.g., from the communications module 502). Such wireless modules may use the Bluetooth technology. However, such wireless modules are not limited as such and may be implemented using any wireless communications standards currently available or developed in the future. For example, the data transmitted to the base station 102 may include sound data or any other data that the user can directly (e.g., without the help of the wireless earbud 104) access from the base station 102 of the personal wireless media station 100. In some embodiments, the communications module 514 is a one-way wireless module that is configured to only transmit data. In some embodiments, the communications module 514 is a one-way wireless module that is configured to only receive data.
The base station connector may include a switch that is used for detecting whether the wireless earbud 104 has been docked to the base station 102. For example, such a switch may be switched on when an electrical connection is established between the base station and earbud connectors. Alternatively or additionally, the base station connector may include circuitry that measures the impedance and/or other characteristics of the connector (e.g., the earbud connector) that plugs into the base station connector. The base station connector may provide any measured data to the processor included in the personal wireless media station 100. Based on the state of the switch and/or the measured data, the processor 506 may provide the sound playback to either the base station speaker or the earbud speaker. For example, if the processor 506 determines that the switch is in a first state (or the measured data exceeds a threshold level), the processor 506 may cause the sound playback to be provided via the base station speaker, and if the processor 506 determines that the switch is in a second state different from the first state (or the measured data does not exceed the threshold level), the processor 506 may cause the sound playback to be provided via the earbud speaker.
In some embodiments, the processor 506 may periodically determine whether the base station and earbud connectors are electrically connected. In some embodiments, upon docking or undocking of the wireless earbud 104, a signal or instruction is sent to the processor 506, causing the processor 506 to determine whether the base station and earbud connectors are electrically connected. In some embodiments, the processor 506 does not check at all whether the base station and earbud connectors are electrically connected, and the sound playback is automatically redirected, based on the circuitry of the personal wireless media station 100, upon docking and undocking of the wireless earbud 104.
In some embodiments, the base station pogo connectors and the earbud pogo connectors described herein may be replaced with other types of connectors. For example, the base station pogo connectors and the earbud pogo connectors may be replaced with a female 3.5 mm earphone socket and a male 3.5 mm earphone plug, respectively. As another example, any types of connectors that allow charging and detection of docked and undocked states of the wireless earbud 104 may be used.
The personal wireless media station 100 may allow the user to read texts and emails via the display surface 106, without having to maneuver the primary device 200. In some embodiments, when a new text or email arrives, data regarding the text or email is transmitted to the personal wireless media station 100 by the primary device 200. Based on the data received from the primary device 200, the personal wireless media station 100 may cause at least a portion of the content of the text or email on the display surface 106. For example, the display surface 106 may initially display a notification that a new text or email has arrived, and upon detecting a user input indicating that the user wishes to view the content of the text or email, display the beginning portion of the text or email.
Once the beginning portion of the text or email is displayed on the display surface 106, the personal wireless media station 100 may continue to display the remaining portion of the text or email by scrolling the content across the display surface 106 (e.g., move the text displayed on the display surface 106 to the left at a specified speed, with the displayed text disappearing to the left end of the display surface 106 and new text appearing from the right end of the display surface 106).
The personal wireless media station 100 may cause the next text or email to be displayed if additional unopened texts or emails exist. For example, while a text or email is being displayed on the display surface 106, if the user provides a user input indicating that the user wishes to view the next text or email, the personal wireless media station 100 causes the beginning portion of the next text or email to be displayed on the display surface 106.
The user may control the speed at which the text is scrolled across the display surface 106, for example, by using the volume up and volume down buttons. Other buttons may be used to control the scrolling speed. For example, if the user slides his finger across the touch-sensitive button in one direction, the personal wireless media station 100 increases the scrolling speed, and if the user slides his finger across the touch-sensitive button in the other direction, the personal wireless media station 100 decreases the scrolling speed.
In some embodiments, the personal wireless media station 100, after causing the beginning portion of the text or email on the display surface 106, awaits a user input indicating that the user wishes to view the next portion of the text or email. When the user provides such an input (e.g., by activating a button on the personal wireless media station 100), the personal wireless media station 100 causes the next portion of the text or email to be displayed on the display surface 106.
The user may control the size of the text displayed on the display surface 106, for example, by using the volume up and volume down buttons. Other buttons or combinations of buttons may be used to control the text size (e.g., function control button+volume up increases the text size and function control button+volume down decreases the text size).
In some embodiments, when a call is received on the primary device 200, the data regarding the call (e.g., data indicating who the caller is) is transmitted to the personal wireless media station 100, and based on the received data, the personal wireless media station 100 causes caller data to be displayed on the display surface 106. Additionally, the personal wireless media station 100 may provide an indication that a call is incoming via the base station speaker (or the earbud speaker if the wireless earbud 104 is undocked) by playing a sound, via the LED indicator by providing a blinking signal, or by vibrating the base station 102.
While a call is incoming, the user may provide a user input to the personal wireless media station 100 to take the call. For example, the user may press the function control button to indicate that he wishes to take the call, and in response, the base station 102 may transmit the indication to the primary device 200 and cause the primary device 200 to take the call. During the call, the sound data is transmitted from the primary device 200 to the personal wireless media station 100 and the voice data captured by the base station microphone (or the earbud microphone if the wireless earbud 104 is undocked) is transmitted to the primary device 200. In some embodiments, if the wireless earbud 104 is undocked from the base station 102, the personal wireless media station 100 may further relay the sound data to the wireless earbud 104 to be played via the wireless earbud 104, and relay the captured voice data from the wireless earbud 104 to the primary device 200. In other embodiments, the wireless earbud 104 exchanges sound data and captured voice data with the primary device 200 directly without going through the base station 102.
In embodiments, the personal wireless media station 100 includes a black box feature. For example, the personal wireless media station 100 may capture audio data or image data upon user activation of the black box feature. In some embodiments, the personal wireless media station 100 records audio data captured by the microphone in the background and/or records image or video data captured by a camera module (not shown) in the background. The recorded data may be transmitted to the primary device 200, and may be discarded after a specified period of time or after a specified amount of new data has been collected.
In embodiments, the base station 102 charges the wireless earbud 104 while the wireless earbud 104 is plugged into the base station 102. The base station 102 may be charged via a charge port (not shown in
In embodiments, the personal wireless media station 100 does not have any storage (e.g., nonvolatile memory), and any data output by the personal wireless media station 100 is stored on volatile memory. For example, the personal wireless media station 100 may only stream sound without permanently storing any audio data on the personal wireless media station 100. In some embodiments, the audio data transmitted from the primary device 200 to the base station 102 is further transmitted and played via the wireless earbud 104. In other embodiments, the audio data transmitted from the primary device 200 to the wireless earbud 104 is further be transmitted and played via the base station 102. In other embodiments, the audio data transmitted from the primary device 200 to the wireless earbud 104 is played directly by the wireless earbud 104.
In embodiments, as shown in
In embodiments, the personal wireless media station 100 includes a watch feature. For example, the display surface 106 may display the current time when the display surface 106 is idle, when the display surface 106 is not displaying data received from the primary device 200, or when the user presses one of the buttons of the personal wireless media station 100. The personal wireless media station 100 may further include an alarm function that plays an alarm indication at a specified time via a speaker, an LED indicator, and/or the display surface 106. In some embodiments, the user device 106 may transmit such an alarm indication to the personal wireless media station 100 at the specified time. In response to receiving the alarm indication, the personal wireless media station 100 causes the alarm indication to be output to the user via the speaker, the LED indicator, and/or the display surface 106.
In embodiments, the personal wireless media station 100 includes a camera feature. The personal wireless media station 100 may capture images via a camera module, and the personal wireless media station 100 may transmit the captured images to the primary device 200 and cause the captured images to be stored in the primary device 200.
In embodiments, the personal wireless media station 100 activates or deactivates the voice command feature of the primary device 200 based on a user input to the personal wireless media station 100. For example, the user may press a button provided on the personal wireless media station 100, and the button may be configured to generate a command to the primary device 200 wirelessly connected to the personal wireless media station 100 to turn on or turn off the voice command feature of the primary device 200. Other user inputs to the personal wireless media station 100 may be configured to activate or deactivate other features of the primary device 200.
Two-Way Communication with Wireless Earbud
In embodiments, the wireless earbud 104 is paired with the base station 102 of the personal wireless media station 100 using a two-way wired or wireless communication.
In embodiments, the personal wireless media station 100 records telephone calls. The recording may be initiated on the personal wireless media station 100 or the mobile application running on the primary device 200. The recording may be stored in cloud storage assigned to the registered user of the primary device 200 or the personal wireless media station 100. For example, the user may register his or her personal wireless media station 100 online (e.g., on the provider associated with the personal wireless media station 100 or any other provider of cloud storage services), and cloud storage may be provided to the user for use. The recording may have a file name including the name or the telephone number of the calling party initiating the telephone call.
In embodiments, the mobile application 202 provides a signal or instruction to the personal wireless media station 100 to turn off all functions except for the finder function that allows the user to locate the personal wireless media station 100. When the finder function is activated, the personal wireless media station 100 may beep and the LED light indicator may blink.
In embodiments, upon detecting that the function control button 110 is pressed, the personal wireless media station 100 displays the current date/time and/or the battery life of the personal wireless media station 100. In other embodiments, upon detecting that the function control button 110 is pressed, the personal wireless media station 100 displays the current date/time and/or the battery life of the personal wireless media station 100 only when there is no unread text and while no phone call/incoming phone ringing.
Automatically Turn Off Bluetooth while Charging
In embodiments, upon detecting that battery charging is initiated or active, the personal wireless media station 100 automatically turns off Bluetooth (or other wireless connection).
In embodiments, upon receiving a user request to pair a new earbud, the mobile application 202 initiates pairing with the new earbud using the user-provided serial number of the new earbud.
In embodiments, when multiple Bluetooth devices are available, the personal wireless media station 100 takes priority and connects to the primary device 200. For example, the mobile application 202 may configure the Bluetooth settings on the primary device 200 such that the personal wireless media station 100 has the highest priority.
In embodiments, the base station 102 and/or the wireless earbud 104 are water resistant. For example, one or both of the base station 102 and the wireless earbud 104 have a rating of IPX 4 or higher.
In embodiments, the base station 102 periodically takes pictures and store them in the base station 102 and/or transmit them to the primary device 200. In other embodiments, the base station 102 periodically takes pictures and store them in the base station 102 and/or transmit them to the primary device 200 only while the base station 102 is not being charged.
Controllable settings may include one or more of earbud volume, text scrolling speed, text auto display on/off, display surface brightness, microphone input volume, speaker output volume, Siri or voice command on/off, LED light indicator on/off, automatic Bluetooth on/off, automatic sound recording on/off, automatic photo taking on/off, voice call recording on/off, and automatic file name generation on/off.
The mobile application 202 may have multiple versions: a free version, and a paid version that includes all the functionalities of the free version plus cloud storage. The paid app may include auto-naming feature for recorded data, where the automatically generated names include the caller IDs, etc.
The wireless earbud 104 is capable of playing ringtones or ringtone-equivalents and media including music or any combination thereof. The base station 102 is capable of displaying text and images and playing ringtones or ringtone-equivalents and media including music and video or any combination thereof.
In addition to the examples described with reference to
In embodiments, the wireless earbud 104 includes a microphone. Additionally, in some of such embodiments, the base station 102 does not include a microphone.
In embodiments, the base station 102 does not include a speaker. In some of such embodiments, upon detecting the undocking of the wireless earbud 104, the personal wireless media station 100 causes an incoming voice call to be picked up, cause sound/music playback to be enabled, and/or cause other actions to be performed.
As illustrated in
Following are additional embodiments of the invention providing docking (engaging)/undocking (disengaging) between the base station 102 and the wireless earbud 104 in which the base station 102 and the wireless earbud 104 become mechanically and electrically coupled when the wireless earbud 104 is fully docked (engaged).
As illustrated in
As illustrated in
As illustrated in
As illustrated in
As illustrated in
Tables 1-5, which are individually discussed below, illustrate various examples of device operations triggered by a user action or other change in the environment (e.g., a connectable Bluetooth speaker becoming available or unavailable). Each row in Tables 1-5 illustrates an example scenario involving the base station 102 and the earbud 104. The columns illustrate the following: “#” identifies the example number assigned to the given example scenario; “Device connection status prior to action” specifies whether and how the devices are connected before the triggering action is performed; “Audio being played prior to action” specifies whether and what kind of audio is being played before the triggering action is performed; “Device operation prior to action” specifies which device is performing what kind of operation before the triggering action is performed; “Action” specifies the triggering action performed; and “Device operation triggered by action” specifies which device is triggered to perform what kind of action in response to the triggering action being performed.
In addition, in Tables 1-5, the following terms are, in example embodiments, defined as follows: “Undocked” refers to the state in which the earbud 104 is not connected (electrically and/or mechanically) to the base station 102; “Docked” refers to the state in which the earbud 104 is connected (electrically and/or mechanically) to the base station 102; “3P connected” refers to the state in which a third-party (i.e., other than the primary device 200 and the personal wireless media station 100) audio output device (such as a Bluetooth speaker, a Bluetooth office phone, a Bluetooth car stereo system, other stationary phones or speakers, etc.) is connected to the primary device 200 and/or the personal wireless media station 100 (e.g., the base station 102 and/or the earbud 104); and “3P not connected” refers to the state in which such a third-party audio output device is not connected to the primary device 200 and/or the personal wireless media station 100 (in one example, “3P not connected” refers to the state in which the only audio output device connected to the primary device 200 is the personal wireless media station 100 and no other third-party devices that can play audio playback are connected to the primary device 200).
Audio being Played Prior to Action
“Ringtone for incoming voice call” refers to a ringtone that is played to indicate that a voice call is incoming (e.g., another user is calling the phone number or user account associated with the primary device 200) that an incoming call has been accepted and the accepted call is being conducted by the user; “Call audio for current voice call” means that an incoming call has been accepted and the accepted call is being conducted by the user; “Non-call audio” means that sound is being played (e.g., via the earbud 104 or the base station 102) but the sound is not for a voice call (e.g., the sound may be a song, a music stream, a podcast, or other content with audio data); and “No audio” means that no sound is being played via the earbud 104 or the base station 102 (or that no sound is being received by the earbud 104 or the base station 102 from the primary device 200).
“Docking” refers to the earbud 104 becoming connected (electrically and/or mechanically) to the base station 102; “Undocking” refers to the earbud 104 becoming disconnected (electrically and/or mechanically) from the base station 102; “3P becomes discoverable” refers to a third-party audio output device becoming connectable or connected to the primary device 200 (or the personal wireless media station 100); “3P becomes undiscoverable” refers to such a third-party audio output device becoming disconnected from the primary device 200 (or the personal wireless media station 100); and “Button press” refers to a user input (e.g., via a mechanical or digital button) being received via the base station 102, the earbud 104, the primary device 200, or another third-party audio output device.
Table 1 illustrates the changes in the device operations upon the user undocking the earbud 104 from the base station 102 in a variety of different scenarios. For example, example #2 of Table 1 illustrates the scenario in which the user undocks the earbud 104 from the base station 102 while a voice call is incoming to cause the incoming call to be accepted and played via the earbud 104. In this example, the user is driving in her car, and her smartphone is wirelessly connected to both the car speaker and the personal wireless media station 100 using Bluetooth. She then receives a phone call on her smartphone, and a ringtone begins to play on the car speaker. To accept the incoming call and conduct the phone call via the earbud 104, the user simply undocks the earbud 104 from the base station 102. Upon detecting the undocking of the earbud 104, the personal wireless media station 100 sends instructions to her smartphone to accept the incoming phone call and to direct the audio playback for the accepted phone call to the earbud 104 and not to the car speaker. Although not described in detail, each example in Table 1 illustrates the different operations caused by the undocking of the earbud 104 depending on (i) whether a third-party audio output device is connected to the primary device 200 and (ii) what kind of audio is playing at the time the undocking occurs.
Table 2 illustrates the changes in the device operations upon the user docking the earbud 104 to the base station 102 in a variety of different scenarios. For example, example #14 of Table 2 illustrates the scenario in which the user docks the earbud 104 to the base station 102 while listening to music to cause the music to be played via her Bluetooth car speaker. The user may have gotten into her car while listening to a song stored on her smartphone via the earbud 104. Once she starts the car, her smartphone may automatically connect to the car speaker using Bluetooth. Even though her smartphone is now connected to the car speaker, the song continues to be played via the earbud 104 because the earbud 104 is her preferred audio output device whenever the earbud 104 is undocked. If she decides to listen to the song via the car speaker, she can simply dock the earbud 104 to the base station 102. According to example #14 of Table 2, when the user docks the earbud 104 to the base station 102 while the car speaker is connected to her smartphone (“3P connected”) and while she is listening to music (“non-call audio”), the personal wireless media station 100 sends instructions to her smartphone to direct the audio playback to the car speaker, and subsequently begin playing the song via the car speaker instead of the earbud 104. Although not described in detail, each example in Table 2 illustrates the different operations caused by the docking of the earbud 104 depending on (i) whether a third-party audio output device is connected to the primary device 200 and (ii) what kind of audio is playing at the time the docking occurs.
Table 3 illustrates the changes in the device operations upon a third-party audio output device becoming discoverable in a variety of different scenarios. For example, example #20 of Table 3 illustrates the scenario in which a Bluetooth car speaker becomes discoverable or connected to the primary device 200 while the user is conducting a voice call via the earbud 104. The user may have gotten into her car while having a phone call using the earbud 104. Once she starts the car, her smartphone may automatically connect to the car speaker using Bluetooth. Upon connecting to the car speaker, her smartphone continues to send audio data for the phone call to the earbud 104, rather than the car speaker. In some cases, her smartphone (i) sends audio data for the phone call to the earbud 104 if the user's preference setting indicates that she prefers to use the earbud 104 while the earbud 104 is undocked even when a car speaker is connected, and (ii) sends audio data for the phone call to the car speaker if the user's preference setting indicates that she prefers to use the car speaker even when the earbud 104 is undocked. According to example #20 of Table 3, when the car speaker becomes discoverable (e.g., turned on in a threshold wireless communication range or comes into the threshold wireless communication range), the user's smartphone connects to the car speaker and continues to provide the audio data for the phone call to the earbud 104. In some cases, the smartphone indicates to the personal wireless media station 100 that the car speaker is connected to the smartphone, and the personal wireless media station 100 sends instructions to the smartphone to provide the audio data for the phone call to the earbud 104 instead of the car speaker. Accordingly, the user can continue the phone call via the earbud 104 without any interruptions. Although not described in detail, each example in Table 3 illustrates the different operations caused by a third-party audio output device becoming discoverable, available, or connected depending on (i) whether the earbud 104 is docked to the base station 102 and (ii) what kind of audio is playing at the time the third-party audio output device becomes discoverable. In some cases, in the examples of Table 3, the primary device 200, upon detecting a third-party audio output device, queries the personal wireless media station 100 for its docking status, and if the earbud 104 is docked to the base station 102, the primary device 200 sends audio data to the earbud 104, and if the earbud 104 is not docked to the base station 102, the primary device 200 sends audio data to the third-party audio output device.
Table 4 illustrates the changes in the device operations upon a third-party audio output device becoming undiscoverable in a variety of different scenarios. For example, example #29 of Table 4 illustrates the scenario in which a Bluetooth car speaker connected to the user's smartphone becomes undiscoverable or turned off while the user is listening to music via the car speaker. The user may be driving and listening to a song streaming on her smartphone via the car speaker. Once she arrives at her destination, she may turn off the engine, which may cause the car speaker to also turn off. Upon detecting that the car speaker has disconnected, her smartphone begins sending audio data for the song streamlining on her smartphone to the personal wireless media station 100 instead of the car speaker. In some cases, her smartphone (i) sends audio data for the song to the personal wireless media station 100 if the user's preference setting indicates that she prefers to continue listening on the personal wireless media station 100 when the car speaker disconnects, and (ii) pauses the song if the user's preference setting indicates that she prefers not to continue listening to the audio playing via the car speaker when the car speaker disconnects. According to example #29 of Table 4, when the car speaker becomes undiscoverable (e.g., turns off or goes outside the threshold wireless communication range), the user's smartphone switches over to the personal wireless media station 100 that is already connected to the smartphone at the time the car speaker becomes undiscoverable and provides audio playback via the personal wireless media station 100. Alternatively, when the car speaker becomes undiscoverable, the smartphone may establish a wireless connection to the personal wireless media station 100 and begin providing, via the personal wireless media station 100, the audio that was previously being played via the car speaker. Accordingly, the user can continue listening to the music or conducting the phone call via the personal wireless media station 100 (e.g., the base station 102 or the earbud 104) without any interruptions when the car speaker disconnects. Although not described in detail, each example in Table 4 illustrates the different operations caused by a third-party audio output device becoming undiscoverable, unavailable, or disconnected depending on (i) whether the earbud 104 is docked to the base station 102 and (ii) what kind of audio is playing at the time the third-party audio output device becomes undiscoverable.
Table 5 illustrates the changes in the device operations upon detecting a user input (e.g., on the user's smartphone, the personal wireless media station 100, or a third-party audio output device) in a variety of different scenarios. For example, example #34 of Table 5 illustrates the scenario in which (i) the user's smartphone is connected to a Bluetooth car speaker and the personal wireless media station 100, (ii) the earbud 104 is docked to the base station 102, and (iii) a voice call is incoming at the user's smartphone. The user may have been listening to music via the car speaker while driving. Upon detecting an incoming phone call, the smartphone sends the audio data for the ringtone to the car speaker, alerting the user that a phone call is incoming. To accept the incoming phone call and conduct the phone call via the car speaker, the user presses a button on the personal wireless mediate station 100 clipped to her shirt. Upon detecting the button press, the personal wireless mediate station 100 sends instructions to the smartphone to accept the incoming phone call and to begin providing audio data for the accepted phone call to the car speaker instead of the personal wireless mediate station 100. Accordingly, the user can accept the incoming call using one audio output device (e.g., the personal wireless media station 100) and conduct the accepted call using another audio output device (e.g., the car speaker). Although not described in detail, each example in Table 5 illustrates the different operations caused by a user input being received at the personal wireless media station 100, the primary device 200, or a third-party audio output device depending on (i) whether the earbud 104 is docked to the base station 102, (ii) whether a third-party audio output device is connected to the primary device 200, and (ii) what kind of audio is playing at the time the user input is received.
As indicated by the dashed arrows 2302 and 2304 in
As indicated by the dashed arrows 2306 and 2308 in
As indicated by the solid arrows 2310 and 2312 in
In embodiments, the first wireless connection established between primary device 200 and base station 102 is different from the second wireless connection established between primary device 200 and earbud 104. For example, the first wireless connection may utilize Bluetooth Low Energy (BLE), and the second wireless connection may utilize Bluetooth Classic. The first wireless connection may be configured to consume less power than the second wireless connection. The first wireless connection may be configured to transfer data at a slower rate than the second wireless connection. For example, the maximum data transfer rate over the first wireless connection may be less than the maximum data transfer rate over the second wireless connection.
In some embodiments, the communications protocol governing the connection between the primary device 200 and the base station 102 allows only non-audio data (e.g., text data, caller ID, volume control data, etc.) to be transmitted from the primary device 200 to the base station 102 and does not allow any audio data (e.g., voice call, music, ringtone, or any other sound playable via the speaker on primary device 200) to be transmitted from the primary device 200 to the base station 102. In other embodiments, the communications protocol allows audio data to be sent from the primary device 200 to the base station 102, but the primary device 200 is configured to refrain from sending audio data to the base station 102. For example, the primary device 200 sends audio data only to earbud 104 and not to base station 102.
Alternatively, in some cases, primary device 200 sends audio data to the base station 102, but the base station 102 lacks the capacity to (e.g., does not have the circuitry or chip configured to) process audio data (e.g., encode or decode audio data and/or convert digital audio data to analog audio data, or otherwise convert the audio data into a format readily playable by a speaker). In some of such cases, the base station 102 ignores such audio data. In other cases, the base station 102 relays such audio data to the earbud 104. Alternatively, in some cases, the base station 102 has the capacity to process audio data, but is configured to refrain from doing so. In other cases, the base station 102 is capable of processing audio data, processes audio data received from the primary device 200, and plays the audio data via the base station speaker. In some of such cases, the base station 102 and the earbud 104 each have its own audio chip/circuitry for processing the audio data. Alternatively, only the base station 102 has an audio chip/circuitry for processing the audio data and the earbud 104 does not have an audio chip/circuitry for processing the audio data. In some other cases, only the earbud 104 has an audio chip/circuitry for processing the audio data and the base station 102 does not have an audio chip/circuitry for processing the audio data.
In some embodiments, base station 102 does not have a microphone. In such embodiments, regardless of whether earbud 104 is docked or undocked, the user's voice data may be captured by a microphone provided on earbud 104. In such a case, the earbud microphone may always be on. The earbud microphone may be on only during a voice call (or when voice input is expected from the user such as when iOS Siri is active). Alternatively, base station 102 includes a microphone. In such a case, the base station microphone may be activated while earbud 104 is docked and deactivated while earbud 102 is undocked, and the earbud microphone may be activated while earbud 104 is undocked and deactivated while earbud 104 is docked.
Redirecting Audio Playback when Earbud Becomes Undocked while in a Car
There may be situations when the user, while conducting a voice call using the car speaker, may want to begin conducting the voice call privately using the earbud 104. In such situations, the user can simply unplug the earbud 104 from the base station 102, and the voice call that was previously playing via the car speaker begins to be directed to the earbud 104 and automatically begin to be played via the earbud speaker without the user having to activate the earbud 104 or press any button(s) on the personal wireless media station 100 or the primary device 200. Such an example is illustrated in
At block 2402, sound is played via a car speaker wirelessly connected to the primary device 200. For example, the user has entered her car while the personal wireless media station 100 is paired with the primary device 200. When the car is started, the primary device 200 may detect the presence of the car speaker and connect to the car speaker while maintaining the connection to the personal wireless media station 100. Any sound played via the personal wireless media station 100 (e.g., via the base station speaker) may begin to be played via the car speaker while the primary device 200 is wirelessly connected to both the car speaker and the personal wireless media station 100 in a docked state. In some cases, prior to such playing, the primary device 200 may determine that the car speaker has priority over the personal wireless media station 100 for playing sound from the primary device 200. In some cases, the primary device 200 may terminate its connection to the earbud 104 but maintain its connection to the base station 102 upon connecting to the car speaker.
At block 2404, the personal wireless media station 100 determines whether the earbud 104 has been undocked from the base station 102 while the sound is being played via the car speaker. If the personal wireless media station 100 determines that the earbud 104 has been undocked from the base station 102, the method 2400 proceeds to block 2406. Otherwise, the method 2400 returns to block 2402, and the sound from the primary device 200 continues to be played via the car speaker. The undocking determination may be performed using any of the techniques described herein. Although the undocking determination is illustrated as being a routine that is repeatedly or periodically performed, in other cases, as described herein, block 2404 is an undocking determination made in response to receiving a signal from another component of the personal wireless media station 100 (e.g., base station 102, earbud 104, or a component thereof) and not based on repeated or periodic checks performed to determine whether the earbud 104 is still docked to the base station 102, and the method 2400 proceeds to block 2406 upon receipt of such a signal.
At block 2406, the personal wireless media station 100 (e.g., base station 102 or earbud 104) sends instructions to the primary device 200 to direct audio data to the earbud speaker instead of the car speaker. In some cases, the entity making the determination in block 2404 may also send the instructions to the primary device 200. For example, if the base station 102 determined in block 2404 that the earbud 104 has been undocked, the base station 102 may send the instructions to the primary device 200. Alternatively, if the earbud 104 determined in block 2404 that the earbud 104 has been undocked, the earbud 104 may send the instructions to the primary device 200. In some other cases, an entity other than the entity making the determination in block 2404 may send the instructions to the primary device 200. In some embodiments, the instructions to direct audio data to the earbud speaker instead of the car speaker comprise instructions to update audio output settings such that the earbud speaker has a higher priority level than the car speaker. In some cases, the instructions to direct audio data to the earbud speaker instead of the car speaker comprise instructions to set the earbud speaker as the most preferred audio output destination.
Audio Redirected from Car Speaker to Earbud
At block 2408, the sound ceases to be provided via the car speaker and begins to be played via the personal wireless media station 100. The sound may be played via the earbud 104 immediately after or substantially simultaneously with the stopping of the playing via the car speaker. Here, immediately after or substantially simultaneously means within 0.01, 0.01, 0.1, 0.5, 1.0, 2.0, 3.0, or 5.0 seconds (or any other value between such values) from stoppage of playing sound via the car speaker or from determination that the earbud 104 has been undocked. Alternatively, there may be an overlap period during which sound is played both via the car speaker and the earbud speaker. The overlap period may last for any of these enumerated time periods.
In some embodiments, block 2402 may be omitted, and upon detecting the undocking of the earbud 104, the base station 102 or the earbud 104 may send instructions to the primary device 200 to direct future audio data to the earbud 104 instead of the car speaker, effectively setting the earbud 104 as the primary audio output device (or changing the primary audio output device from the car speaker to the earbud 104). As another example, even though the method 2400 was described in the context of a car speaker, the techniques described herein may be extended to any other third-party speaker (e.g., Bluetooth speaker) that is connected to the primary device 200 over a wireless connection or a wired connection.
Redirecting Audio Playback when Earbud Becomes Docked while in a Car
There may be situations when the user, while listening to music using the earbud 104, may want to listen to music using the car speaker. In such situations, the user can simply plug the earbud 104 into the base station 102, and the audio that was previously playing via the earbud speaker begins to be directed to the car speaker and automatically begins to be played via the car speaker without the user having to press any button(s) on the personal wireless media station 100 or the primary device 200. Such an example is illustrated in
Flowchart Illustrating Redirection of Audio Playback Upon Docking while in a Car
At block 2502, sound is played via the earbud speaker on the earbud 104 that is wirelessly connected to the primary device 200. For example, the user has entered her car while the personal wireless media station 100 is paired with the primary device 200. When the user starts the car, the car speaker is turned on, and the primary device 200 detects the presence of the car speaker and connects to the car speaker while maintaining its connection to the personal wireless media station 100. Any audio content played via the personal wireless media station 100 (e.g., via the earbud speaker) prior to the connection with the car speaker may begin to be played via the car speaker while the primary device 200 is wirelessly connected to both the car speaker and the personal wireless media station 100 in an undocked state. In some cases, prior to such playing, the primary device 200 may determine that the earbud speaker has priority over the car speaker for playing sound from the primary device 200.
At block 2504, the personal wireless media station 100 determines whether the earbud 104 has been docked to the base station 102 while the sound is being played via the earbud speaker. If the personal wireless media station 100 determines that the earbud 104 has been docked to the base station 102, the method 2500 proceeds to block 2506. Otherwise, the method 2500 returns to block 2502, and the sound from the primary device 200 continues to be played via the earbud speaker. The docking determination may be performed using any of the techniques described herein. Although the docking determination is illustrated as being a routine that is repeatedly or periodically performed, in other cases, as described herein, block 2504 is a docking determination made in response to receiving a signal from another component of the personal wireless media station 100 (e.g., base station 102, earbud 104, or a component thereof) and not based on repeated or periodic checks performed to determine whether the earbud 104 is still not docked to the base station 102, and the method 2500 proceeds to block 2506 upon receipt of such a signal.
At block 2506, the personal wireless media station 100 (e.g., base station 102 or earbud 104) sends instructions to the primary device 200 to direct audio data to the car speaker instead of the earbud speaker. In some cases, the entity making the determination in block 2504 may also send the instructions to the primary device 200. For example, if the base station 102 determined in block 2504 that the earbud 104 has been docked, the base station 102 may send the instructions to the primary device 200. Alternatively, if the earbud 104 determined in block 2504 that the earbud 104 has been docked, the earbud 104 may send the instructions to the primary device 200. In some other cases, an entity other than the entity making the determination in block 2504 may send the instructions to the primary device 200. In some embodiments, the instructions to direct audio data to the car speaker instead of the earbud speaker comprise instructions to update audio output settings such that the car speaker has a higher priority level than the earbud speaker. In some cases, the instructions to direct audio data to the car speaker instead of the earbud speaker comprise instructions to set the car speaker as the most preferred audio output destination.
Audio Redirected from Earbud to Car Speaker
At block 2508, the sound ceases to be provided via the earbud speaker and begins to be played via the car speaker. The sound may be played via the car speaker immediately after or substantially simultaneously with the stopping of the playing via the earbud speaker. Here, immediately after or substantially simultaneously means within 0.01, 0.01, 0.1, 0.5, 1.0, 2.0, 3.0, or 5.0 seconds (or any other value between such values) from stoppage of playing sound via the earbud speaker or from determination that the earbud 104 has been docked. Alternatively, there may be an overlap period during which sound is played both via the earbud speaker and the car speaker. The overlap period may last for any of these enumerated time periods. In some cases, even though the sound is no longer provided via the earbud speaker in response to the docking, text data and other non-audio data continue to be provided via the base station 102.
In some embodiments, block 2502 may be omitted, and upon detecting the docking of the earbud 104, the base station 102 or the earbud 104 may send instructions to the primary device 200 to direct future audio data to the car speaker instead of the earbud speaker, effectively setting the car speaker as the primary audio output device (or changing the primary audio output device from the earbud 104 to the car speaker). As another example, even though the method 2500 was described in the context of a car speaker, the techniques described herein may be extended to any other third-party speaker (e.g., Bluetooth speaker) that is connected to the primary device 200 over a wireless connection or a wired connection.
Directing Audio Playback Based on Sound Content when Earbud Becomes Docked
After the user is done having with a voice call using the earbud 104, the user may simply dock the earbud 104 to the base station 102, and the call can be automatically terminated without the user having to press an end button on the base station 102, earbud 104, or primary device 200. Docking of the earbud 104 causes the call to be terminated. The personal wireless media station 100 may then automatically resume playing the music that the user was listening to prior to the voice call, without the user having to press a resume or play button on the base station 102, earbud 104, or primary device 200. Such an example is illustrated in
At block 2602, sound is played via the earbud speaker on the earbud 104 that is wirelessly connected to the primary device 200. For example, the sound may be received by the earbud 104 from the primary device 200 and played via the earbud speaker while the earbud 104 is in an undocked state. The sound may be music stored or streamed on the primary device 200. Alternatively, the sound may be a ringtone or an audio alert indicating that a voice call is incoming. In some cases, the sound may be voice data received from the primary device 200 for an active voice call.
At block 2604, the personal wireless media station 100 determines whether the earbud 104 has been docked to the base station 102 while the sound is being played via the earbud speaker. If the personal wireless media station 100 determines that the earbud 104 has been docked to the base station 102, the method 2600 proceeds to block 2606. Otherwise, the method 2600 returns to block 2602, and the sound from the primary device 200 continues to be played via the earbud speaker. The docking determination may be performed using any of the techniques described herein. Although the docking determination is illustrated as being a routine that is repeatedly or periodically performed, in other cases, as described herein, block 2604 is a docking determination made in response to receiving a signal from another component of the personal wireless media station 100 (e.g., base station 102, earbud 104, or a component thereof) and not based on repeated or periodic checks performed to determine whether the earbud 104 is still not docked to the base station 102, and the method 2600 proceeds to block 2606 upon receipt of such a signal.
At block 2606, the personal wireless media station 100 (e.g., base station 102 or earbud 104) determines whether a voice call is active (e.g., a communications channel for receiving and transmitting the respective parties' voice data to each other is established). For example, the personal wireless media station 100, based on information previously received from the primary device 200 such as incoming call information, caller information, and the like, may determine that there is an active voice call (e.g., currently ongoing). As another example, the personal wireless media station 100 may send a request to the primary device 200 to determine whether a voice call is active. In such an example, the personal wireless media station 100 may determine, based on information sent by the primary device 200 in response to the request from the personal wireless media station 100, whether there is an active voice call. In some cases, the entity making the determination in block 2604 may also determine whether a voice call is active. Alternatively, an entity other than the entity making the determination in block 2604 may determine whether a voice call is active. If the personal wireless media station 100 determines that a voice call is not active (e.g., a situation corresponding to example #13 of Table 2), the method 2600 proceeds to block 2608. Otherwise, the method 2600 proceeds to block 2610 (e.g., a situation corresponding to example #11 of Table 2).
At block 2608, the sound ceases to be provided via the earbud speaker and begins to be played via the base station speaker. The sound may be played via the base station speaker immediately after or substantially simultaneously with the stopping of the playing via the earbud speaker. Here, immediately after or substantially simultaneously means within 0.01, 0.01, 0.1, 0.5, 1.0, 2.0, 3.0, or 5.0 seconds (or any other value between such values) from stoppage of playing sound via the earbud speaker or from determination that the earbud 104 has been docked. Alternatively, there may be an overlap period during which sound is played both via the earbud speaker and the base station speaker. The overlap period may last for any of these enumerated time periods.
At block 2610, the personal wireless media station 100 (e.g., base station 102 or earbud 104) sends instructions to the primary device 200 to terminate the active voice call. In some cases, the base station speaker resumes playing the sound (e.g., music or other sound such as talk show, podcast, etc.) that was playing before the voice call was accepted or picked up. For example, the primary device 200, upon terminating the call, may resume sending the audio data for the music or other sound that was playing prior to the voice call to the personal wireless media station 100 (e.g., base station 102 or earbud 104). In some cases, as indicated in example #11 of Table 2, the personal wireless media station 100 causes the active call to continue to be conducted via the base station speaker by playing any voice data received for the call via the base station speaker.
Directing Audio Playback Based on Sound Content when Earbud Becomes Undocked
There may be situations in which the user, while listening to music via the base station speaker, receives an incoming voice call. In such situations, the user can simply undock the earbud 104 from the base station 102 and conduct the voice call using the earbud 104. The undocking of the earbud 104 causes the call to be picked up and causes the call to be provided to the earbud 104, without the user having to press a button on the base station 102, earbud 104, or primary device 200 to accept the incoming call. Such an example is illustrated in
At block 2702, sound is played via the base station speaker on the base station 102 that is wirelessly connected to the primary device 200. For example, the sound may be received by the earbud 104 from the primary device 200 and played via the base station speaker while the earbud 104 is in a docked state. The sound may be music stored or streamed on the primary device 200. Alternatively, the sound may be a ringtone or an audio alert indicating that a voice call is incoming. In some cases, the sound may be voice data received from the primary device 200 for an active voice call.
At block 2704, the personal wireless media station 100 determines whether the earbud 104 has been undocked from the base station 102 while the sound is being played via the base station speaker. If the personal wireless media station 100 determines that the earbud 104 has been undocked from the base station 102, the method 2700 proceeds to block 2706. Otherwise, the method 2700 returns to block 2702, and the sound from the primary device 200 continues to be played via the base station speaker. The undocking determination may be performed using any of the techniques described herein. Although the undocking determination is illustrated as being a routine that is repeatedly or periodically performed, in other cases, as described herein, block 2704 is an undocking determination made in response to receiving a signal from another component of the personal wireless media station 100 (e.g., base station 102, earbud 104, or a component thereof) and not based on repeated or periodic checks performed to determine whether the earbud 104 is still docked to the base station 102, and the method 2700 proceeds to block 2706 upon receipt of such a signal.
At block 2706, the personal wireless media station 100 (e.g., base station 102 or earbud 104) determines whether the undocking occurred while a voice call was incoming (e.g., a request to establish a communications channel for receiving and transmitting the respective parties' voice data to each other was being received at the primary device 200 at the time the earbud 104 was undocked from the base station 102). For example, the personal wireless media station 100, based on information received from the primary device 200 such as incoming call information, caller information, and the like, may determine that there is or was an incoming voice call. In some cases, the entity making the determination in block 2704 may also determine whether a voice call is or was incoming. Alternatively, an entity other than the entity making the determination in block 2704 may determine whether a voice call is or was incoming. If the personal wireless media station 100 determines that a voice call is not or was not incoming (e.g., a situation corresponding to example #5 of Table 1), the method 2700 proceeds to block 2708. Otherwise, the method 2700 proceeds to block 2710 (e.g., a situation corresponding to example #1 of Table 1).
At block 2708, the sound ceases to be provided via the base station speaker and begins to be played via the earbud speaker. The sound may be played via the earbud speaker immediately after or substantially simultaneously with the stopping of the playing via the base station speaker. Here, immediately after or substantially simultaneously means within 0.01, 0.01, 0.1, 0.5, 1.0, 2.0, 3.0, or 5.0 seconds (or any other value between such values) from stoppage of playing sound via the base station speaker or from determination that the earbud 104 has been undocked. Alternatively, there may be an overlap period during which sound is played both via the earbud speaker and the base station speaker. The overlap period may last for any of these enumerated time periods.
At block 2710, the personal wireless media station 100 (e.g., base station 102 or earbud 104) sends instructions to the primary device 200 to accept the incoming voice call. The accepted call is automatically conducted via the earbud 104, such that the voice data of the other party received by the primary device 200 is sent to the earbud 104, and voice data of the user captured by the earbud microphone is sent to the primary device 104 to be transmitted to the other party.
The personal wireless media station 100 includes two components each having its own functions and its own battery. The goal of the base station 102 is not to just charge the earbud 104, and the goal of the earbud 104 is not to just charge the earbud 104. The base station 102 also needs to keep some of the battery power to itself so that it can perform other functions such as display caller ID, play music, etc. Thus, the base station 102 is configured such that it provides charge to the earbud battery only if one or more charging conditions are satisfied (e.g., base station 102 is connected to a power source, earbud battery is below a threshold level, base station battery is above a threshold level, etc.). In some cases, the base station 102 does not communication with the primary device 200, and its primary purpose is to charge the earbud 102 and house the earbud 102 (e.g., as shown in the figures or otherwise).
At block 2802, the personal wireless media station 100 determines that the earbud 104 is or has been docked to the base station 102. For example, the personal wireless media station 100 may utilize any of the techniques described herein to determine whether the earbud 104 is or has been docked to the base station 102. Although not described in Table 2, each entry of Table 2 may include “Enter earbud charging mode” (e.g., performing the remaining steps of method 2800 described below) in the “Device operation triggered by action” column.
At block 2804, the personal wireless media station 100 determines whether the base station 102 is connected to a power source (e.g., via a charging cable). If the personal wireless media station 100 determines that the base station 102 is connected to a power source, the method 2800 proceeds to 2806, where the personal wireless media station 100 charges the earbud battery to a maximum capacity (e.g., 100%). Otherwise, the method 2800 proceeds to block 2808.
At block 2808, the personal wireless media station 100 determines whether one or more charging threshold conditions are satisfied. For example, the personal wireless media station 100 may determine whether the current charge level of the earbud battery is less than threshold #1. Alternatively, or additionally, the personal wireless media station 100 may determine whether the current charge level of the base station battery is greater than threshold #2. If the personal wireless media station 100 determines that the current charge level of the earbud battery is less than threshold #1 and/or the current charge level of the base station battery is greater than threshold #2, the method 2800 proceeds to block 2810, where the personal wireless media station 100 charges the earbud battery until the current charge level of the earbud battery is no longer less than threshold #1 and/or the current charge level of the base station battery is no longer greater than threshold #2. Otherwise, the method 2800 proceeds to block 2812.
Refraining from Charging Earbud Battery
At block 2812, the personal wireless media station 100 refrains from charging the earbud battery while the earbud battery is docked. In embodiments, the personal wireless media station 100 refrains from charging the battery until at least one of the determinations in block 2804 or block 2808 is a positive determination.
In some cases, the base station 102 charges the earbud battery to a threshold charge level even if a power source is not connected to the base station 102. In some cases, the base station 102 charges the earbud battery to the maximum battery capacity even if a power source is not connected to the base station 102 and/or even if the base station battery is below a threshold charge level. In some cases, the base station 102 charges the earbud battery while the earbud 104 is providing audio data to the base station 102. In some cases, the base station 102 charges the earbud battery while the earbud 104 is not providing audio data to the base station 102. In some cases, the base station 102 charges the earbud battery regardless of whether the earbud 104 is providing audio data to the base station 102. In some cases, the base station 102 charges the earbud battery while the earbud 104 is providing audio data to the base station 102 and does not charge the earbud battery while the earbud 104 is not providing audio data to the base station 102. In some cases, the base station 102 charges the earbud battery while the earbud 104 is not providing audio data to the base station 102 and does not charge the earbud battery while the earbud 104 is providing audio data to the base station 102.
In some cases, two buttons may be provided to accept a call, reject a call, and turn off the base station 102 and/or the earbud 104. In such cases, if the user holds down button #1 for a period of time less than T1, the personal wireless media station 100 picks up an incoming call (e.g., sends instructions to the primary device 200 to pick up the incoming call). If the user holds down button #1 for a period of time greater than T1, the personal wireless media station 100 rejects an incoming call (e.g., sends instructions to the primary device 200 to reject the incoming call). If the user holds down button #2 for a period of time less than T2, the personal wireless media station 100 activates the display provided on the personal wireless media station 100 (e.g., base station display screen). If the user holds down button #2 for a period of time greater than T2 but less than T3, the personal wireless media station 100 turns off the device (e.g., earbud 104, base station 102, or both).
In some cases, the one-button call/power control described above is disabled upon docking of the earbud 104 to the base station 102. Advantageously, such a disabling of the one-button control can prevent the user from (i) inadvertently picking up a call that the user intended to reject or (ii) inadvertently turning off the personal wireless media station 100 when the user wanted to reject an incoming call.
Incoming Call when Earbud is Undocked
In embodiments, when an incoming call is detected on the primary device 200, the primary device 200 sends text data corresponding to the incoming call to the base station 102 and sends audio data corresponding to the incoming call to the earbud 104. If the earbud 104 is docked to the base station 102 when such a call is received, the text data is displayed via the base station display screen and the audio data (e.g., ringtone) is played via the base station speaker, and nothing is played via the earbud speaker. For example, the earbud 104 may receive the audio data from the primary device 200, process the audio data (e.g., decode the audio data and/or convert the audio data into a digital format), and provides the processed audio data via the electrical connection established between the base station and earbud connectors. The provided audio data is played by the base station 102 via the base station speaker.
Incoming Call when Earbud is Docked
In embodiments, when an incoming call is detected on the primary device 200, the primary device 200 sends text data corresponding to the incoming call to the base station 102 and sends audio data corresponding to the incoming call to the earbud 104. If the earbud 104 is undocked from the base station 102 when such a call is received, the text data is displayed via the base station display screen and the audio data (e.g., ringtone) is played via the earbud speaker, and nothing is played via the base station speaker. For example, the earbud 104 may receive the audio data from the primary device 200, process the audio data (e.g., decode the audio data and/or convert the audio data into a digital format), and play the processed audio data via the earbud speaker.
Earbud Operation when Base Station is Turned Off while Earbud is Undocked
In embodiments, the earbud 104 remains on when the base station 102 is turned off while the earbud 104 is undocked. In embodiments, the earbud 104 remains off when the base station 102 is turned on while the earbud 104 is undocked.
Base Station Operation on when Earbud is Turned Off while Earbud is Undocked
In embodiments, the base station 102 remains on when the earbud 104 is turned off while the earbud 104 is undocked. In embodiments, the base station 102 remains off when the earbud 104 is turned on while the earbud 104 is undocked.
Earbud Operation when Base Station is Turned Off while Earbud is Docked
In embodiments, the earbud 104 also turns off when the base station 102 is turned off while the earbud 104 is docked. In embodiments, the earbud 104 also turns on when the base station 102 is turned on while the earbud 104 is docked.
Base Station Operation on when Earbud is Turned Off while Earbud is Docked
In embodiments, the base station 102 also turns off when the earbud 104 is turned off while the earbud 104 is docked. In embodiments, the base station 102 also turns on when the earbud 104 is turned on while the earbud 104 is docked.
As shown in
The base station 102 sends data to the primary device 200 and receives data from the primary device 200 using an antenna. In some cases, the base station 102 includes an on-chip antenna disposed inside the main body of the base station 102. In some cases, the base station 102 includes an antenna inside the clip hinge 116A.
In embodiments, as shown in
In embodiments, the display direction (e.g., display direction 3000B of
In the example of
In embodiments, the length of the earbud waist 104B is equal to or substantially equal to the height of the docking arm of the base station 102. In some cases, the length of the earbud waist 104B is defined as the distance between the head portion 104A shown in
In embodiments, the width 104K of the earbud waist 104B along the undocking direction 4600A (as shown in
As shown in
Although various embodiments are described with reference to a single primary device (e.g., smartphone), in embodiments, the personal wireless media station 100 is configured to communicate with multiple primary devices (e.g., a smartphone and an office phone belonging to the same user). For example, in some cases, the personal wireless media station 100 connects to only one primary device at a time. For example, if only one of multiple primary devices is within a threshold range, the personal wireless media station 100 connects to the primary device within the threshold range. If multiple primary devices are within the threshold range, the personal wireless media station 100 may connect to one of them depending on the context. For example, if the user is in her office, the personal wireless media station 100 connects to her office phone, and if the user is outside her office, the personal wireless media station 100 connects to her smartphone. In some cases, during work hours (or other threshold window), the personal wireless media station 100 connects to her office phone, and outside of the work hours (or other threshold window), the personal wireless media station 100 connects to her smartphone.
In some cases, the base station 102 does not have a speaker and does not wirelessly communicate with the primary device 200 or the earbud 102. In such cases, the base station 102 serves as a docking station for docking the earbud 104 and a battery pack for charging the earbud 104.
Although the embodiments of the inventions have been disclosed in the context of a certain preferred embodiments and examples, it will be understood by those skilled in the art that the present inventions extend beyond the specifically disclosed embodiments to other alternative embodiments and/or uses of the inventions and obvious modifications and equivalents thereof. In addition, while a number of variations of the inventions have been shown and described in detail, other modifications, which are within the scope of the inventions, will be readily apparent to those of skill in the art based upon this disclosure. It is also contemplated that various combinations or subcombinations of the specific features and aspects of the embodiments may be made and still fall within one or more of the inventions. Accordingly, it should be understood that various features and aspects of the disclosed embodiments can be combined with or substituted for one another in order to form varying modes of the disclosed inventions. Thus, it is intended that the scope of the present inventions herein disclosed should not be limited by the particular disclosed embodiments described above, and that various changes in form and details may be made without departing from the spirit and scope of the present disclosure as set forth in the following claims.
The present application is a continuation of U.S. patent application Ser. No. 17/011,098 (the “098 application”), filed Sep. 3, 2020, which is a continuation of U.S. patent application Ser. No. 15/788,652, filed Oct. 19, 2017. The '098 application is also a continuation-in-part application of U.S. patent application Ser. No. 16/930,246, filed Jul. 15, 2020, which is a continuation of U.S. patent application Ser. No. 16/687,480, filed Nov. 18, 2019, which is a continuation of U.S. patent application Ser. No. 15/694,736, filed Sep. 1, 2017, now U.S. Pat. No. 10,609,198, which is a continuation of U.S. patent application Ser. No. 15/625,935, filed Jun. 16, 2017, now U.S. Pat. No. 9,807,491, which is a continuation of PCT Application No. PCT/US16/25936, filed Apr. 4, 2016, which claims benefit to U.S. Provisional Patent Application Ser. No. 62/199,43, filed Jul. 31, 2015, and U.S. Provisional Patent Application Ser. No. 62/142,978, filed Apr. 3, 2015. The '098 application is also a continuation-in-part application of U.S. patent application Ser. No. 16/912,823, filed Jun. 26, 2020, which is continuation of U.S. patent application Ser. No. 16/455,558, filed Jun. 27, 2019, which is a continuation of U.S. patent application Ser. No. 15/563,937, filed Oct. 2, 2017, now U.S. Pat. No. 10,455,066, which is a national stage application of Application No. PCT/US16/25936, filed Apr. 4, 2016, which claims benefit to U.S. Provisional Patent Application Ser. No. 62/199,43, filed Jul. 31, 2015, and U.S. Provisional Patent Application Ser. No. 62/142,978, filed Apr. 3, 2015. Each of the above is incorporated herein by reference in their respective entireties.
Number | Date | Country | |
---|---|---|---|
62199943 | Jul 2015 | US | |
62142978 | Apr 2015 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 17011098 | Sep 2020 | US |
Child | 17647603 | US | |
Parent | 15788652 | Oct 2017 | US |
Child | 17011098 | US | |
Parent | 16687480 | Nov 2019 | US |
Child | 16930246 | US | |
Parent | 15694736 | Sep 2017 | US |
Child | 16687480 | US | |
Parent | 15625935 | Jun 2017 | US |
Child | 15694736 | US | |
Parent | PCT/US2016/025936 | Apr 2016 | US |
Child | 15625935 | US | |
Parent | 16455558 | Jun 2019 | US |
Child | 16912823 | US | |
Parent | 15563937 | Oct 2017 | US |
Child | 16455558 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 16930246 | Jul 2020 | US |
Child | 15788652 | US | |
Parent | 16912823 | Jun 2020 | US |
Child | 17011098 | US |