A smartphone holding assembly includes a bowl that is positionable on a support surface. A sphere is rotatably disposed in the bowl and the sphere extends upwardly from the bowl. A mating unit is coupled to the sphere and the mating unit is matable to a personal electronic device. A pair of speakers is each of the speakers is positioned within the bowl to emit audible sounds received from the personal electronic device. A communication unit is integrated into the bowl to be wirelessly paired to the personal electronic device for streaming data from the personal electronic device.

A sound system comprising: a body (4) with several substantially vertical panels; at least two sound emitting elements (10, 12) mounted on the body; and an electronic circuit providing drive signals to the sound emitting elements; wherein said at least two sound emitting elements (10, 12) are mounted on said substantially vertical panels and are oriented along two different directions (26).

A method includes wirelessly receiving audio content via a first transceiver included in a housing of a first device and producing a first audible signal from the audio content via a speaker included in the housing of the first device. The audio content is wirelessly transmitted via the first transceiver to a second transceiver integrated within a first remote speaker. A second audible signal is produced from the audio content via the first remote speaker. The method also includes wirelessly relaying the audio content via the second transceiver to a third transceiver integrated within a second remote speaker and producing a third audible signal from the audio content via the second remote speaker. The second remote speaker is located outside of the transmission range of the first transceiver.

The disclosure provides a personal media system including a base station and a wireless earbud. The personal media system interacts with a smartphone for wireless pairing. The base station has a connection hole to receive the wireless earbud. When the wireless earbud is plugged into the connection hole, the base station and wireless earbud form an integrated body.

An example implementation may involve a playback device detecting placement of the playback device onto a device base of a particular media playback system. The playback device may determine that it is configured to automatically join media playback systems. Based on such a determination, the playback device may send, to the particular media playback system, a request to join the particular media playback system. The playback device may receive, from the media playback system, one or more messages that enable the playback device to join the particular media playback system, which the playback device may use to join the particular media playback system.

A support device adapted to support an electronic device is provided. The electronic device has a display surface. The support device includes a base, a support frame, and at least one torque fixing assembly. The base includes a first arc surface portion. The support frame includes a second arc surface portion opposite to the first arc surface portion and an axis. The support frame rotates along the axis such that the second arc surface portion slides relative to the first arc surface portion and the electronic device switches between a first use state and a second use state. The torque fixing assembly is disposed at the first arc surface portion and the second arc surface portion. When the second arc surface portion slides relative to the first arc surface portion, the second arc surface portion rubs against the torque fixing assembly and torque is generated.

In general, disclosed is a device that includes one or more processors, coupled to the memory, configured to perform an energy analysis with respect to one or more audio objects, in the ambisonics domain, in the first time segment. The one or more processors are also configured to perform a similarity measure between the one or more audio objects, in the ambisonics domain, in the first time segment, and the one or more audio objects, in the ambisonics domain, in the second time segment. In addition, the one or more processors are configured to perform a reorder of the one or more audio objects, in the ambisonics domain, in the first time segment with the one or more audio objects, in the ambisonics domain, in the second time segment, to generate one or more reordered audio objects in the first time segment.

The disclosure herein provides a personal wireless media station including a base station and a wireless earbud. The personal wireless media station may detect that the wireless earbud is docked to the base station, play sound through a speaker of the base station while the wireless earbud is docked to the base station, detect that the wireless earbud is undocked from the base station, cease to play sound through the speaker of the base station in response to detecting that the wireless earbud is undocked from the base station, and cause sound to begin playing through the wireless earbud while the wireless earbud is undocked from the base station.

The disclosure herein provides a mobile system including a base station and a wireless earbud. The base station comprising a connection hole, a user input button, at least one processor, at least one memory, and circuitry. The wireless earbud is configured for plugging into the connection hole of the base station to form an integrated body with the base station. The system is capable of wirelessly pairing with a smartphone for the wireless earbud to receive audio data originated from the smartphone.

Example techniques relate to changing a playback device mode based on a device base. In an example implementation, a first playback device operates in a first mode where it is connected to a first network and plays back audio content while in the first mode. The playback device detects connection of the first playback device to a device base and while the first playback device is on the device base, detects connection to a second network. The first playback device switches from operating in the first mode to operating in a second mode. The first playback device forms a stereo pair configuration with a second playback device over the second network in the second mode. While in the second mode, the first playback device plays back a first channel of audio content in synchrony with the second playback device playing back a second channel of the audio content.