公开(公告)号：US20160337741A1

公开(公告)日：2016-11-17

申请号：US15145089

申请日：2016-05-03

Applicant: QUALCOMM Incorporated

Inventor： Lior Amarilio ,  Terrence Brian Remple

IPC: H04R1/10 ,  G06F3/16 ,  H04R3/12 ,  H04B1/3827 ,  H04R3/00

CPC classification number: H04R1/1033 ,  G06F3/162 ,  G06F13/4045 ,  H04B1/3833 ,  H04R3/005 ,  H04R3/12

Abstract: Low latency transmission systems and methods for long distances in SOUNDWIRE systems are disclosed. In an exemplary aspect, a SOUNDWIRE sub-system is coupled to a long cable through a bridge. The bridge converts SOUNDWIRE signals to signals for transmission over the long cable and converts the signals from the long cable to the SOUNDWIRE signals for transmission in the SOUNDWIRE sub-system. Conversion between signal types may include concatenating signals of a similar type into a group that is serially transmitted over the long cable. Concatenation of bit slots in this manner consumes minimal overhead in bus turnaround, thereby reducing latency. In further aspects, the functionality of the bridge may be incorporated into a headset or a mobile terminal.

Abstract translation: 公开了在SOUNDWIRE系统中用于长距离的低延迟传输系统和方法。 在示例性方面，SOUNDWIRE子系统通过桥耦合到长电缆。 桥将SOUNDWIRE信号转换成信号以通过长电缆传输，并将信号从长电缆转换为SOUNDWIRE信号，以在SOUNDWIRE子系统中传输。 信号类型之间的转换可以包括将类似类型的信号连接成通过长电缆串行传输的组。 以这种方式连接位插槽在总线周转中消耗最少的开销，从而减少延迟。 在另外的方面，桥接器的功能可以并入耳机或移动终端。

公开(公告)号：US20160142455A1

公开(公告)日：2016-05-19

申请号：US14541577

申请日：2014-11-14

Applicant: QUALCOMM Incorporated

Inventor： Magesh Hariharan ,  Lior Amarilio ,  Julio Arceo ,  Aris Balatsos ,  Hans Georg Gruber

IPC: H04L29/06 ,  H04R3/12

CPC classification number: H04L65/4069 ,  G06F3/162 ,  G06F13/4291 ,  H04R3/12 ,  H04R5/04 ,  H04R2420/09 ,  H04R2499/11

Abstract: Multi-channel audio alignment schemes are disclosed. One aspect of the present disclosure provides for accumulation of audio samples across multiple related audio channels at an audio source. Related audio channels indicate their interrelatedness, and when all the related audio channels have data to transmit, the source releases the data onto the time slots of the Serial Low-power Inter-chip Media Bus (SLIMbus), such that the related audio channels are within a given segment window of the time slot. This accumulation is repeated at the boundary of every segment window. Similarly, accumulation may be performed at the audio sink. Components within the audio sink may only read received data if status signals from all related sinks indicate that predefined thresholds have been reached. By providing such accumulation options, audio fidelity is maintained across multiple audio data channels.