Works with all devices that have a Lightning connector and support iOS 10 or later, including iPod touch, iPad and iPhone. The EarPods with Lightning Connector also include a built-in remote that lets you adjust the volume, control the playback of music and video, and answer or end calls with a pinch of the cord. The speakers inside the EarPods have been engineered to maximise sound output and minimise sound loss, which means you get high-quality audio. Which makes them more comfortable for more people than any other earbud-style headphones. Imagine if they build a good quality DAC into a headphone that accepts digital audio (and not some proprietary connection), you wouldn't have to worry if a device has bad audio, instead you just have to worry if your headphones do.Unlike traditional, circular earbuds, the design of the EarPods is defined by the geometry of the ear. Apple EarPods with Lightning Connector (MMTN2ZM/A) Application: Notebook, Smartphone, Tablet Connection: Wired Connectors: 1 x Lightning Headset type. The headphones being proprietary is a major pain, but I do understand the 3.5mm connections being replaced (accompanied) by other digital ones.since the 3.5mm do carry analogue signals and rely on each devices DAC. It's almost completely irrelevant whether it's 48khz or 44.1khz and it has literally nothing to do with 3.5mm. We're talking playback on mobile devices here most likely with compressed lossy audio. My point between not hearing the the difference of 44.1khz vs 48khz was down to the fact I've already heard some Apple fanboys say stuff like we need to drop 3.5mm connections and move to 48khz "HD-Audio" which is clearly fucking ridiculous. I wasn't saying 44.1khz is all you'd ever need in any circumstance. Yeah dude, I agree which is why I said "The higher the sample rate the more accurately the waveform will be represented." For certain applications you need higher accuracy, there's no debate about that. One in the phone (which they can't replace since they need it for the speakers) and one in your headphones (and a lot of companies will probably cheap out on it). Instead of having 1 good DAC, you will now have to get two. Secondly, who wants to buy a pair of headphones which only works with their iPad and iPhone? Thirdly, it's a digital signal! Why put a DAC in the headphones instead of using the one in the phone? It seems so wasteful to me. First of all, who wants to use a lightning cable for their headphones? Great, now we got a bulkier connector for them, exactly what nobody has asked for. I think this is incredibly stupid by the way. It's not because we can hear over 24KHz, but because digital filters can easily create audible distortion if your sampling rate is just above what you need. That's not about headphones, but I just want to make sure we don't get more people going around saying "anything over 44.1KHz is useless". You can read about why you want above 48KHz here, in the "Oversampling" section. In headphones you don't need it, but it is useful for other things. This is all irrelevant though because higher sample rates have absolutely nothing to do with a 'lightning connector' that's just propriety, marketing, locking gullible people into a platform BS. Other factors affect what rate is chosen, such as whether it will be used with video. hence sample rates of 96khz, 192khz and higher. Case can be charged with a Lightning connector. The speakers inside the EarPods have been engineered to maximise sound output, which means you get high-quality audio. The higher the sample rate the more accurately the waveform will be represented. Apple AirPods (3rd Generation) Wireless Earbuds with Lightning Charging Case. Unlike traditional, circular earbuds, the design of the EarPods is defined by the geometry of the ear. you have to take 'a bit more' than double as a sample rate to accurately represent that 22khz Waveform, hence 48khz was chosen as a good standard. The absolute highest frequency humans can perceive is 22khz (although most can't). Personally I'd be amazed if anybody can tell the difference between 44.1khz (Audio CD sample rate) and 48khz. It's not the highest sample rate for audio.
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