Disclosed are systems and methods for automatic control of gain in audio and video conferencing applications to maintain a predetermined and stable audio level. In one embodiment, a first stage applies a first stage gain based on a long-term estimate of signal level, while a second stage gain, based on a short-term estimate of signal level assists the first stage gain to achieve a target level. Some embodiments of long-term level estimation utilize statistical analysis of a buffer to validate or arrive at a more accurate long-term signal level estimate.

In embodiments of an audio control module (318), audio data (310) is received from an audio data source (314) for output to an audio rendering device (316). An initialization input (326) can be received from a wireless audio headset (320) and, responsive to receiving the initialization input, the audio data (328) is communicated to the audio headset. The audio that would be generated from the audio data (322) at the audio rendering device (316) is also limited, such as by replacing the audio data (322) with null audio data, clearing audio data packets from the audio data (322), or by asserting a mute signal (336) to the audio rendering device.

Embodiments of the present disclosure provide a method for improving speaker performance and a terminal device, when a speaker is being driven, an algorithm parameter that matches the speaker is selected, to resolve a problem that adjustment and control performance is reduced because of a difference in speaker models, and can effectively improve performance of a speaker. The method includes obtaining an identity of a speaker, where the identity is used to identify the speaker; obtaining an algorithm parameter corresponding to the speaker from a preset algorithm parameter library according to the identity of the speaker, where the preset algorithm parameter library comprises algorithm parameters of speakers of at least two models; sending the algorithm parameter corresponding to the speaker to a smart speaker power amplifier module, so that the smart speaker power amplifier module drives the speaker according to the algorithm parameter corresponding to the speaker.

Disclosed is a wireless earphone linking method that includes the following: detecting a motion state of a wireless earphone; when the wireless earphone is moved, determining whether a working mode of the wireless earphone is a wearing mode; if so, determining whether the wireless earphone and a terminal are in a linked state; and if the wireless earphone and the terminal are not in a linked state, controlling the wireless earphone to send a linking request to the terminal.

The present invention includes: a connecting plug configured to be connected to the quadripolar input/output interface of a portable terminal, and to transmit or receive output or input signals; and a function unit configured to be supplied with operating power from the portable terminal via the connecting plug, and to perform an intrinsic function; wherein the connecting plug includes a first pole configured to come into contact with the first output terminal of the portable terminal; a second pole configured to come into contact with the second output terminal of the portable terminal; a third pole configured to come into contact with the microphone terminal of the portable terminal; and a fourth pole configured to come into contact with the ground terminal of the portable terminal; and wherein the function unit is supplied with operating power via any one of the first pole, the second pole, and the third pole.

A method, apparatus and computer program product are disclosed. The method includes acquiring an instruction, picking up an audio signal with an electronic device, determining whether an output apparatus is connected to the electronic device, outputting the audio signal via the output apparatus, and recording the audio signal. The apparatus includes a processor, an output apparatus, a microphone, and a storage apparatus, wherein the processor acquires an instruction, picks up an audio signal, determines whether the output apparatus is connected, outputs the audio signal via the output apparatus and records the audio signal to the storage medium. The computer program product includes executable code to perform acquisition of an instruction, pickup of an audio signal with an electronic device, a determination of whether an output apparatus is connected, output of the audio signal, and recording of the audio signal.

An electronic device is provided in the invention. The electronic device includes a first connection interface, a second connection interface, a processor and a storage device. The first connection interface is coupled to a third connection interface of a detection device by a headset connector to receive an oscillation signal and headset output signal corresponding to a detection-source signal from the detection device, and transmits the detection-source signal to the detection device. The second connection interface is coupled to a fourth interface to transmit a control signal to the detection device. The processor is coupled to the first connection interface and second connection interface, and obtains the microphone information according to the oscillation signal, and obtains the headset information according to measured headset signals and the microphone information. The storage device is coupled to the processor to store the microphone information and the headset information.

When an indication is received from a user input, a name of an audio source from an ordered list of audio sources to which a headset is currently connected is output. Whenever a successive indication is received within a predefined amount of time, the name of the next wireless audio source in the list is output. If the next wireless audio source in the list is the last wireless audio source in the list, and the successive indication from the user input is received before the elapsed time exceeds the predefined value, the name of the audio source to which the headset is currently connected is output as the next selected wireless audio source in the list. When an amount of time greater than the predefined value elapses without a successive indication from the user input, the last wireless audio source that had its name output is connected.

An electronic device may be configured to identify a load coupled to the device. The device may measure direct current (DC) and/or alternating current (AC) characteristics of the load to identify the load. The device may then take action based on the identification of the load. For example, a specific transducer may be identified as coupled to the electronic device and an appropriate equalization curve applied to an audio output of the device. The measurement of characteristics of the load may include controlling a reference generator according to a search algorithm, such as a step ramp or binary search, to identify the load. An analog-to-digital converter (ADC) may operate through the search algorithm to provide feedback to digital circuitry regarding how to proceed through the search algorithm to identify the load.

An electronic device may be configured to identify a load coupled to the device. The device may measure direct current (DC) and/or alternating current (AC) impedances of the load to identify the load. The device may then take action based on the identification of the load. For example, a specific transducer may be identified as coupled to the electronic device and an appropriate equalization curve applied to an audio output of the device. The measurement of load impedance may include controlling a reference generator according to a search algorithm to identify the load, including compensating the measured impedance for temperature changes. An analog-to-digital converter (ADC) may operate through the search algorithm to provide feedback to digital circuitry regarding how to proceed through the search algorithm to identify the load.