This application generally relates to peripheral speaker systems. In particular, the application relates to a peripheral speaker having electronic device connection capabilities for audio output.
Existing portable electronic devices, such as smartphones, have audio output capabilities in the form of built-in speakers. However, due to size limitations of the portable devices, the performance of the built-in speakers is subpar when compared to larger speaker components or systems. Accordingly, users of portable devices will frequently connect the portable devices to peripheral speaker systems for various applications such as music playback, whereby the peripheral speaker systems typically have a greater audio output capacity and better general audio quality than the built-in speakers of the portable devices.
However, existing peripheral speaker systems have limitations. In some cases, the speaker systems are large and bulky, and are therefore not very portable. Further, wireless speakers can prove difficult to pair or connect to the electronic devices, and any resulting wireless connection is not as fast and has a reduced audio quality when compared to a wired connection. Moreover, some speaker systems are not designed or constructed to adequately support the portable devices.
Accordingly, there is an opportunity for improved peripheral speaker systems.
The accompanying figures, where like reference numerals refer to identical or functionally similar elements throughout the separate views, together with the detailed description below, are incorporated in and form part of the specification, and serve to further illustrate embodiments of concepts that include the claimed embodiments, and explain various principles and advantages of those embodiments.
Embodiments as detailed herein describe an improved peripheral speaker system for audio output and playback, as well as general device interaction. A peripheral speaker is connectable to various portable electronic devices such as smartphones, MP3 players, and the like. The peripheral speaker includes a connector lead having an adapter configured to be inserted into or connected to a corresponding port of the electronic device. The electronic device can provide audio signals to the peripheral speaker via the connector lead, and the peripheral speaker can output corresponding audio. The peripheral speaker includes a cover extending therefrom, where the cover may be manipulated into various configurations depending on the desired use or application of the peripheral speaker system and/or the electronic device.
The peripheral speaker system has an improved design that affords many benefits and uses. Existing peripheral speakers lack adequate means for supporting corresponding electronic devices. For example, some existing peripheral speakers support electronic devices substantially via an adapter that plugs directly into the electronic devices. However, the support provided by the adapter is not able to withstand sudden movements of the peripheral speaker and/or the connected electronic device, which reduces the portability of the peripheral speaker. Additionally, some peripheral speakers support a wireless connection (e.g., a Bluetooth connection) with the electronic device. However, wireless connections are slow to connect and result in a loss of audio quality when compared to wired connections.
The improved design of the peripheral speaker system as described in the present embodiments includes a channel or groove formed in an exterior casing in which an electronic device may be removably secured. The channel is sized slightly larger than the electronic device such that the channel supports the electronic device when the electronic device is secured within the exterior casing. The peripheral speaker further includes a connector lead extending from the exterior casing and having an adapter that plugs into or connects to a corresponding port of the electronic device. Accordingly, the peripheral speaker of the present embodiments enables improved support while maintaining quality and delay-free audio output. Further, the peripheral speaker of the present embodiments includes a cover component that enables a variety of applications and use cases. Accordingly, because the peripheral speaker systems employ various hardware modules and connection components, the systems are necessarily rooted in computer technology in order to overcome the noted shortcomings that specifically arise in the realm of electronic devices.
The peripheral speaker 105 includes an exterior casing 104 that defines the exterior surface of the peripheral speaker 105. The exterior casing 104 may include a grill that is formed on a front surface of the exterior casing 104. The grill covers and protects any number of individual drivers of varying types (e.g., full-range, subwoofer, mid-range, tweeter, etc.). For example, the peripheral speaker 105 can include four (4) individual full-range drivers that are arranged side-by-side along a length (x-dimension) of the peripheral speaker 105. The individual drivers may produce sound in response to an electrical audio signal input from the electronic device 110, as understood in the art. It should be appreciated that the exterior casing 104 may be composed of one or more materials or combinations of materials such as, for example, plastic, metal, wood, rubber, and/or other materials. Further, different portions or sections of the exterior casing 104 may be composed of different materials or combinations of materials. For example, a bottom surface of the exterior casing 104 may be metal and the remainder of the exterior casing 104 may be plastic.
Referring to
According to embodiments, the length (x-dimension) of the peripheral speaker 105 is longer than the length (x-dimension) of the electronic device 110 to enable the electronic device 110 to fit within the channel 111. Similarly, the length (x-dimension) and width (y-dimension) of the channel 111 is sized to secure the electronic device 110 with minimal movement. Accordingly, the channel 111 may have a specific size and shape that depends on the type and/or model of the electronic device 110. Similarly, the bottom surface of the channel 111 may have different shapes (e.g., flat, curved, etc.) depending on the shape of the corresponding side of the electronic device 110.
Referring to
The connector lead 108 includes an adapter 113 that may be located at or near or connected to the end of the connector lead 108, where the adapter 113 may be configured to connect to a corresponding port of the electronic device 110. It should be appreciated that various types of the adapter 113 that are configured to connect to a corresponding port of the electronic device 110 are envisioned. For example, the adapter 113 can be a Lighting® connector, Thunderbolt connector, USB, mini USB, micro USB, HDMI, or the like. In some embodiments, the peripheral speaker 105 may include a power source (e.g., a battery) capable of charging a power source (e.g., a battery) of the electronic device 110 when the adapter 113 is connected to the electronic device 110. Similarly, the peripheral speaker 105 may be charged by an external power source via the connector lead 108 or via another port (not shown in figures).
The connector lead 108 (and the corresponding adapter 113) may be configured to facilitate audio-out functionality, whereby the driver(s) of the peripheral speaker 105 may output audio according to the electrical signal generated by the electronic device 110 and conducted by the connector lead 108 and the adapter 113. In certain embodiments, the connector lead 108 may have a length that is commensurate with the location of the corresponding port on the electronic device 110 (as illustrated in
The peripheral speaker system 100 further includes a cover 109 attached or secured to the peripheral speaker 105. It should be appreciated that the cover 109 may be permanently attached or secured to the peripheral speaker 105 or may be removably attached or secured to the peripheral speaker 105, as illustrated in more detail in
Various portions or sections of the cover 109 are configured to flex or fold, or otherwise be manipulated. For example, as shown in
As a benefit of the seams 120, 122, 124 as illustrated in
With the cover 209 in the configuration as illustrated in
It should be appreciated that the configurations for the peripheral speaker 205 as depicted in
The present application claims the benefit of U.S. Provisional Application No. 62/015,310, filed Jun. 20, 2014, the disclosure of which is incorporated herein by reference in its entirety.
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Number | Date | Country | |
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62015310 | Jun 2014 | US |