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Choosing audio amplifiers for portable devices

Posted: 04 Oct 2011 ?? ?Print Version ?Bookmark and Share

Keywords:audio? amplifier? Headphone?

The recent rapid growth in smartphone and tablet usage in consumer electronics has fueled a need for a much higher standard of audio performance than that of previous generations. This article aims to examine several areas of improving audio in mobile phone and portable audio systems, many of which use a processor with integrated analog audio outputs.

Ever increasing consumer demand for an exceptional listening experience every time a user picks up their mobile phone or plugs in their headphones presents a number of technical and system level challenges which the audio architect has to overcome. It begins by examining a range of problems which can degrade the systems audio performance, presenting the designer with a number of challenges. As these challenges are presented, a range of potential solutions will be discussed.

Let us examine the end user's listening experience from two common use cases: listening to audio through headphones and listening to audio via the loudspeaker. Consumers now demand crystal clear voice calls in noisy environments; hi-fi quality audio playback for watching mobile video content; the ability to use their device as a conference phone in hands-free mode; and, of course, exceptional playback time for digital audio playback.

Despite these demands, the playback time is still often too short when using headphones and speakers for all content types, and the speaker response is sub-standard when using loudspeakers in hands-free mode. There is also the relentless quest to minimize PCB height and area, reduce the hardware bill of materials, and reduce software development time to meet demands for sleek, low-profile gadgets which can hit the market as fast as possible and also make the manufacturer a profit.

Figure 1: VMID referenced headphone amplifier outputs.

Headphone amplifiers are not always ground-referenced, meaning that decoupling capacitors need to be charged to a reference level (VMID) on power up, and discharge to ground on power down (figure 1). This can result in audible pops and also reduces bass response due to the capacitor forming a high pass filter with the headphone load impedance (50Hz in the case below). The additional expense of AC coupling capacitors is to be avoided, if possible.

Figure 2: Ground referenced headphone output.

Listening to headphones over a prolonged period of time will undoubtedly drain the battery; the challenge is to reduce the headphone amplifier's active power consumption as much as possible to extend the battery life. Using a highly-efficient class G headphone amplifier with ground-referenced outputs will not only extend battery life, but also remove the need for AC coupling capacitors, improve headphone bass response and minimize troublesome power-on/off pops and clicks. DC-offset removal at the headphone outputs can be achieved by using a circuit such as a DC servo, which measures output DC offset and automatically zeroes DC voltage (achieving sub 1mV) during device initialization.

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