Everything you need to know about high resolution


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Everything you need to know about high resolution

Hi-Res Audio

High Definition Audio is the choice of the most dedicated digital music fans. What is it, where to get it, and what does it take to hear it?

HI RES AUDIO

If you’re a bit interested in digital music (whether it’s listening to CDs or streaming Spotify on your smartphone), you’ve probably come across the term “Hi-Res Audio” or “Hi-Res Audio.”

In recent years, the popularity of Hi-Res Audio is slowly but surely gaining momentum, fueled by the emergence of new components, streaming services, and even smartphones that support this standard. Until recently, it was a niche segment for a narrow circle of insiders, but today everyone wants to join it.

If you want to get the best possible music listening experience, or at least better sound quality, you should familiarize yourself with the concept of Hi-Res Audio.

This perspective is a bit overwhelming as it involves many factors. What is Hi-Res Audio? What do all these formats and numbers mean? Where can I get high-quality files and on what devices can I play them? Finally, where do you start?

Our guide to the world of Hi-Res Audio will help you understand the matter in depth. After reading this material to the end, you will be armed with all the necessary knowledge and take the first step on the way to the magical world of the best sound.

WHAT IS HI-RES-AUDIO?

Unlike HD video, there is still no universal standard for high definition audio. Digital Entertainment Group, Consumer Electronics Association and The Recording Academy, as well as the largest recording companies define it as follows: “An audio file in a lossless format that carries a soundtrack across the entire frequency range in which it was mastered using higher quality equipment than CD ”.

In simple terms, this term generally refers to recordings with a higher sample rate and / or bit depth than CDs (i.e. 16-bit / 44.1 kHz).

The sample rate indicates how many times per second a signal is sampled during its conversion from analog to digital. The higher the bit depth, the more accurate the signal measurement will be at the sampling point, so the 16-bit to 24-bit transition can significantly improve quality.

High-resolution audio formats typically have a sample rate of 96 or 192 kHz at 24 bits. Also, there are files with 44.1, 88.2 and 176.4 kHz.

A little loss

However, Hi-Res Audio has one major drawback: the size of the files. They are typically tens of megabytes in size, and a few songs can easily take up all of your device’s memory. Because of this, they are difficult to transfer over mobile networks and Wi-Fi.

And that’s not all: each of the Hi-Res Audio file formats has certain compatibility limitations. Examples include FLAC (Free Lossless Audio Codec) and ALAC (Apple Lossless Audio Codec); both theoretically provide lossless transmission of musical information. In addition, there are uncompressed formats: WAV and AIFF, DSD (the format used in Super Audio CD) and the recently developed MQA (Master Quality Authenticated).

You can discuss the relative advantages of each format, but first of all, you will have to consider their compatibility with audio system components and software solutions.

WHAT ARE GOOD HIGH-RESOLUTION AUDIO FORMATS?

The main advantage of high definition formats over tablets is the higher sound quality. Downloadable sites like Amazon and iTunes and streaming services like Spotify offer relatively low-bitrate compression formats like 256kbps AAC from Apple Music and Spotify’s 320kbps Ogg Vorbis.

During the compression encoding process, some information is lost; in other words, the signal resolution is reduced for convenience and file size reduction. This affects the sound quality: in these formats, your favorite songs will not be able to be fully revealed.


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What is Hi-Res sound and how it differs from normal audio

In recent times, many manufacturers of audio products have begun to add Hi-Res products to their catalogs, an acronym that comes from the English «High-Resolution», and indicates that the device is ready to play the audio with it quality that has been recorded, which is synonymous with maximum fidelity. But what features does Hi-Res sound have and why is it different from normal audio?

 

What is the Hi-Res sound?

The sound that is recorded in the studios – whether music, cinema, dubbing or whatever – is raw audio, without compression, and the recording is done in an analog way, because as you know the sound is formed by waves . Logically, for this audio to be heard on our televisions, smartphones, consoles and others, it is necessary to convert it to digital, and for that to be possible we must first be able to measure the waves so that they can then be recreated in the device that is going To emit the sound.

To measure these waves, a series of periodic samples are taken, and this is what is called the sampling rate. This sampling rate cannot be infinitely, logically, but the higher, the greater the fidelity of the audio we are converting to digital, and that is why we set some scales or minimums for each quality.

Thus, for example, the audio sampling frequency of a normal music CD is 44.1 Khz, which means 44,100 samples are taken from the waves per second. For Hi-Res sound, the standard is set at 96 Khz, or 96,000 wave samples per second, so you will be collecting many more nuances of the original sound, being much more faithful to it.

Hi-Res sampling rate comparison

 

As for the sound we reproduce in our equipment, there is another factor to consider: compression.

The normal sound, when recorded, is done in a pure format and without compressing anything. But this type of sound has the disadvantage that the size of the files is very large, so it becomes complicated to store them in multimedia playback devices. This is especially true if we think that most users use our mobile or tablet to play audio files.

To reduce the size of these files, sound file compressors were created, such as the MP3 format, which try to give a more or less authentic approximation to the original sound source, but with a considerably smaller file size. For example, if an MP3 file with a compression of 256 kbps has a size of about 3 megabytes, that same file, without compressing, can have more than 30 MB.

What does Hi-Res sound bring to normal audio?

When the sound is compressed, or as we have seen when it is converted from analog to digital, many audio frequencies are lost, among which are many subtle details of the sound, which give it much more body. As we explained before, Hi-Res sound tries to get closer to the original audio, setting its quality standard with a sampling frequency and bit depth much higher than normal audio.

Currently, the Hi-Res sound formats that exist are: WAV, FLAC, ALAC, DSD and MQA. Of all of them, probably the best known for PC are the WAV format and the FLAC. The WAV format is usually used to record the original audios, but their files take up a lot of space because it is still uncompressed audio. The FLAC format is a type of compression that also falls within the Hi-Res sound quality and sufficiently compresses the sound source so that the loss of quality is absolutely minimized.

What do we need to hear Hi-Res sound?

Since the audio we will have in hand has certain special characteristics in terms of frequencies and formats, we will need an audio player that is capable of dealing with these compression formats, since not all players are capable of doing so. However, virtually any modern PC sound card, including those integrated into the boards, as well as many smartphones on the market (not televisions), are already capable of handling Hi-Res sound. According to the Japanese Audio Society, who created the Hi-Res audio standard, the DAC (the analog-to-digital converter) must be able to process audio at 96 KHz and 24 bit.

What is the HI RES AUDIO

Everything you wanted to know about Hi-res and didn’t dare to ask.

With the Walkman’s return to our lives, we saw that a trend that had sounded since 2012 made another call to consumers: Hi-Res Audio. High-definition sound will be one of the striking themes that, like UHD on television, could change the demands that consumers want in their products.

However, many only know this type of audio by some yellow sticker attached to a device. But what is Hi-res Audio? Is it as good as they say? Here we tell you.

To clean your ears well

Since the arrival of digital formats, audio recordings have maintained a quality standard whose measurement point is an audio CD. The quality of this format is 16-bit / 44.1 kHz.

To understand these two measurements you have to understand how music is digitized from similar sources. The scanning programs convert the sound waves into bits, and for that they must take a limited number of audio samples and convert them into information. The second number (44.1 kHz) indicates the number of samples per second that are taken to make the conversion, and is called the sampling rate. The first number (16-bit) indicates how much information is captured from each sample. Simplifying a bit, the more bits an audio file has, the more information it receives, the more faithful it is to the original analogue and the better quality it has.

However, files of this quality are very heavy for a computer and other devices that served as audio players from past decades, so .MP3 was born as a format that compresses information and offers sufficient audio quality for most of consumers.

But with the advent of new technologies, and the revival of some old ones, consumers began to worry again about audio. Now we buy the soundbar because we want to hear our Spotify stream perfectly, or we look for the best home theater to feel like in a movie theater. And that we have created those needs are driving new formats (which have been around for a long time, but were recently popularized) But, to validate these new formats, a standard was needed, and thus the definition of Hi-res Audio was born:

“Audio without loss of quality that is capable of reproducing the total sound range of recordings that have been finalized from better quality music sources than a CD.”

As WhatHiFi reports, this definition was given by the Digital Entertainment Group (DEG) together with the Consumer Electronics Association (CEA) and the Recording Academy. This group was joined by companies such as Sony Music Entertainment and Universal Music Group. And by the way, they defined the formats of high resolution audio sources:

MQ-A: That comes from an analog source.

MQ-P: That comes from a PCM master source (48kHz / 20-bit or greater, such as 96/24 or 192/24)

MQ-D: That comes from a DSD / DSF master source, which are formats used in studio audio editing.

MQ-C: That comes from a CD.

And under a more popular definition, high-resolution audio is the one that can make you feel your hair bristling when the ‘Stairway to Heaven’ solo sounds, or the solo La rebellion ’piano solo by Joe Arroyo. A feeling that is not achieved when the format is not able to reproduce the entire sound spectrum that moves our guts.

So if you want to have songs of good quality, the first thing that should be fixed is that the store that sells them offers Hi-Res formats (the Sony music store, HD Tracks, PonoMusic, Gimell, etc …), and usually what they will download will be a file type .FLAC, .DSD, .AIFF, .WAV or .ALAC. In terms of image, they would be like the RAW of the audio. These types of files take up much (much) more space than a .MP3, so be prepared in case the flies.

Great sound requires great machinery

In order not to lose money or effort, it is necessary to have a good team that is capable of reproducing high quality audio. At home we must have a sound system with high quality speakers. Some cell phones such as the LG G3, the Sony Xperia Z3 and the Samsung Galaxy Note 4 have the power to play Hi-Res audio without buying headphone amplifiers. Other cell phones such as the iPhone 6 need an amplifier to give the headphones enough power to reproduce the high resolution audio. And, precisely, to be able to hear these files it is necessary that the player and the speakers that emit the sound are of high quality and can reproduce the entire spectrum.