HomePod’s Frequency Response Is “Flat,” And That’s Not a A Bad Thing - Rickey J. White, Jr. | RJW™
19616
post-template-default,single,single-post,postid-19616,single-format-standard,ajax_fade,page_not_loaded,,qode-theme-ver-16.3,qode-theme-bridge,wpb-js-composer js-comp-ver-5.4.7,vc_responsive
 

HomePod’s Frequency Response Is “Flat,” And That’s Not a A Bad Thing

HomePod’s Frequency Response Is “Flat,” And That’s Not a A Bad Thing

The last of a three-part series of reviews of Apple’s new HomePod smart speaker, including a subjective analysis of the device and an analysis of its spacial analysis technology. 

Apple’s claim that the HomePod faithfully reproduces music recordings without so-called bias, or enhancement, is, for the most part, correct. That’s the result of the frequency response testing we did on the device earlier this week.

In speakers, frequency response refers to the amount of sound produced along the frequency spectrum from very bassy to very high-pitched sounds. Audiophiles might say the HomePod is relatively “flat”–that is, it neither adds nor subtracts decibels to the sound delivered across different frequencies.

Apple HomePod’s frequency response [Source: NTi]

From 70Hz in the low end to 6KHz in the high, the HomePod stays within 4db (decibels) of perfectly flat. That’s not as flat as expensive audiophile speakers or recording studio monitors, but, for a sub-$500 consumer device, pretty damn good.

Note that the HomePod’s output starts decreasing near the edges of its stated 40Hz to 20KHz frequency range. On the low-frequency (left) side of the above graph, the decrease is only 10 dB, but at the high end of the frequency range it’s considerably more. The HomePod’s output decreases by about 25 dB from flat zero at its high limit of 20Khz.

It’s possible this is the result of our testing method. We recorded the HomePod from one location a few inches away. It’s possible that the device’s sophisticated “spatial awareness” algorithms may have caused the speakers to send certain frequencies of sound in directions the microphone couldn’t pick up. 

Music producers rely on “flat” monitors because they create a brutally honest representation of what’s gone down on the tape (or disk), with no varnish to hide the flaws. It also gives the producer a benchmark for understanding what the music will sound like when reproduced on other systems.

For many years, recording studios had at least one pair of Yamaha NS10 monitors in front of the mixing board because they were famously flat. The NS10s, which debuted in 1978, have been replaced by the HS series, which carries on the tradition. Compare the HomePod’s frequency response chart with that of the HS7.

Frequency response for the Yamaha HS7 studio monitor. [Source: Yamaha]

For our testing, we turned to NTi Audio AG, the Liechtenstein-based company that makes all kinds of acoustics testing gear and software. The company was kind enough to loan us a testing device, software, and a special microphone so that we could test the HomePod in a real-life natural habitat—my living room.

We also tested the Total Harmonic Distortion of the HomePod and found more good news there. Total Harmonic Distortion, in very simple terms, measures the difference between the source audio signal and the sound created when the speaker tries to reproduce it.

Total Harmonic Distortion of the HomePod [Source: NTi]

“We found distortion of less than 10% from the 40 Hz to 10,000 Hz range, which is very good, and less than 2.5% from 150 Hz to 10,000 Hz, which is excellent,” writes NTi Audio AG’s Brian MacMillan in an analysis report.

Read a general review of the HomePod and an analysis of its spacial analysis technology. 


Source: Fast Company

Tags:
No Comments

Sorry, the comment form is closed at this time.