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8000 Hz 8 kHz Sine Wave Sound Frequency Tone - YouTube

    https://www.youtube.com/watch?v=GexgBt_14IE
    ===PLEASE READ DESCRIPTION===Welcome, welcome, welcome to the home of the most comprehensive collection of beeps, rumbles, chirps and noise on teh Internets!...

Extended High Frequency Online Hearing Test | 8-22 kHz

    https://www.audiocheck.net/audiotests_frequencycheckhigh.php
    The Test File. 22 kHz → 8 kHz Sweep. + Voice Over. A -9 dbFS sweeping sine tone, from 22 kHz (supposedly inaudible) down to 8 kHz (if you can't hear this one, consider checking your hearing). On the top of the test tone, a voiceover tells you which frequency is currently playing. For this one, keep your computer's audio levels down!

8000 Hz || 8 kHz Sine Wave Sound Frequency Tone •♕• - …

    https://www.youtube.com/watch?v=gtwqT0EmXyg
    This is ten minutes of 8000 Hz test tone, sine wave, -3dBFS. If this video is useful for you, please comment, like and share. Thanks for watching.Check my ot...

sampling - Why is telephone audio sampled at 8 kHz ...

    https://dsp.stackexchange.com/questions/22107/why-is-telephone-audio-sampled-at-8-khz
    When that harmonic content is removed, the audio sounds less natural and pleasing. Higher (than 8Khz) resolution audio is both more intelligible and more pleasing to the ear. Third, Nyquist works within a fixed time domain. If you begin sampling at the exact moment of a peak or trough, then you only need 2x the sample rate to the frequency.

TLV320AIC3254: Noise After 8 kHz - Audio forum - Audio ...

    https://e2e.ti.com/support/audio-group/audio/f/audio-forum/964065/tlv320aic3254-noise-after-8-khz
    We use TI CC2642 + TI AIC3254 to design our project. Regarding AIC3254, the input a microphone, the output is a headphone-out and the sample rate is 8KHz. Currently, we have encountered some noise problems above 8KHz, you could refer to following figure in detail.

Comparison of audio coding formats - Wikipedia

    https://en.wikipedia.org/wiki/Comparison_of_audio_coding_formats
    8 kHz 16 kbit/s 13 bit 0.625 ms Yes No No No G.729: CS-ACELP, Lossy: 8 kHz 8 kbit/s 13 bit 15 ms Yes No No No G.729D CS-ACELP, Lossy: 8 kHz 6.4 kbit/s 13 bit Yes No No No G.729E CS-ACELP, Lossy: 8 kHz 11.8 kbit/s 13 bit 15 ms Yes No No No G.729.1: CELP, TDBWE, TDAC , Lossy: 8, 16 kHz 8 kbit/s, 12–32 kbit/s in 2 kbit/s steps 16 bit

What Does The Hz-KHz Range For Speakers And …

    https://www.howtogeek.com/364909/what-does-the-hz-khz-range-for-speakers-and-headphones-mean/
    The vibrations that create a sound at 20 hertz are very low—a bass rumble—and have a long wavelength. It’s vibrating the driver twenty times every second. Most music and audio plays in the range of about 80 hertz to 15,0000 hertz. At 15,000 hertz the pitch is a high whine due to its extremely short wavelength, like a smoke detector alarm.

Digital Audio Basics: Audio Sample Rate and Bit Depth

    https://www.izotope.com/en/learn/digital-audio-basics-sample-rate-and-bit-depth.html
    Other audio sample rates: 48 kHz, 88.2 kHz, 96 kHz, etc. While 44.1 kHz is an acceptable audio sample rate for consumer audio, there are instances in which higher sample rates are used. Some were introduced during the early days of digital audio when powerful anti-aliasing filters were expensive.

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