High quality audio, what is it?


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High quality audio, what is it?

High Quality Audio

When it comes to high definition audio played from a Blu-ray player on a computer, many tend to think that having an HDMI interface on the motherboard or video card automatically allows high definition audio formats like Dolby to be played on TV and Home Theater.

High Quality Audio

Digital Plus, High Resolution DTS-HD, Dolby TrueHD and DTS-HD Master Audio. However, with the exception of some interesting possibilities, in most cases this is not the case at all. Even relatively new high-end HDMI-equipped motherboards, video cards, and sound cards may not be able to handle such large audio streams on their own. Ultimately it all comes down to what kind of input signal they can receive and what kind of signal they can output.

In this review, we’ll take a look at all HD audio formats, their bitrate (streaming), and delivery requirements to the playback medium. In Part 2, we will continue to explore how digital audio streams can (or cannot) be handled in typical PC components. After reading both articles, you will need to understand in depth why so many home theater users use a variety of analog cables (three for 5.1 channels and four for 7.1) instead of HDMI to carry multi-channel audio wherever you need to go. … We will also talk about some of the workarounds associated with converting a digital to analog signal on a computer, rather than a receiver or preamplifier, often this option is the most affordable option for HD sound quality optimal. And finally, perhaps you understand why it is worth waiting a little longer to buy a Blu-ray player for your home theater system; This will allow you to take advantage of some of the new benefits that should appear before the end of 2008, but are not ready yet (at least they are not ready at the time of writing this article).

The bitrate (or stream) associated with each format, as well as the number of channels, sample rates, and bit depths used to encode the formats.
Whether the SPDIF connector can provide the required stream for each format and what types of HDMI interfaces each format works with.
In Part Two, we’ll look at PC software codecs to find out what formats they work with, as well as the types of interfaces that HDMI-equipped motherboards, video cards, and sound cards can support. And since new chipsets and interfaces are recently available (or will be available relatively soon), we’ll also explain how new and future hardware can provide simpler solutions for currently messed-up PC HD audio.

Introduction

High Definition Audio Formats (HD Audio)
Blu-ray discs can contain movie soundtracks in one of the following formats.

PCM (linear PCM or LPCM);
Dolby Digital;
DTS;
Dolby Digital Plus;
High resolution DTS-HD;
Dolby TrueHD;
DTS-HD master audio.
Before moving on to a detailed consideration of the above formats, we note that Dolby technologies originated from Dolby Laboratories, a recognized provider of professional, semi-professional, and consumer multi-channel surround sound technology and noise cancellation. DTS (also called Digital Theater Systems) is derived from DTS, Inc. is also a well-known provider of digital audio technology that competes with Dolby Labs.

PCM (linear PCM or LPCM)
PCM stands for Pulse Code Modulation and provides a digital representation of an analog signal that is sampled (digitized) at regular intervals (with a specified frequency in Hertz) and represented in binary form (with a specified precision – bit width). In addition to using PCM for computer digital audio and audio CDs, it is also used in some digital phone systems and in various digital video formats. In PCM format, audio amplitude values ​​are represented using different numbers of bits (length); the soundtrack is usually digitized in 12 to 24 bit, but most of the time 16 bit is used in PCM studio encoding for Blu-ray discs.

A PCM audio track can be an exact copy of a studio original encoded on an uncompressed disc if its bit depth is the same as the original. If the bit depth is reduced (as is often the case to save space allocated for storing audio on disk), this can cause a downgrade – for example, using 16-bit instead of 24-bit. From a technical point of view, downsampling is not the same as compression, although the precision of the resulting sound is decreased.


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Professional quality audio over IP

Professional quality audio over IP

Audio-over-IP (AoIP)

The move from direct connections to networking solutions for professional AV equipment, which began two decades ago, is gaining momentum (especially in audio technology). The opportunities that are opening up, in particular the free movement of devices indoors, are attracting more and more followers.

Video/Audio over the Internet

Despite the certain popularity of solutions using specialized switches, the most widely used protocols for audio transmission based on IP (Audio over IP), as they can be implemented in the existing network infrastructure. Today, more than two dozen of these protocols are in use, both open and proprietary. The most popular of them is Dante, developed by the Australian company Audinate.

In the case of analog systems, audio equipment is usually directly connected by cables: one channel, one cable. Copper audio cables take up a lot of space, are heavy and bulky. Connecting them is an expensive and time-consuming procedure and, among other things, it is fraught with errors in large installations. In the case of AoIP, a twisted pair cable can transmit data simultaneously from tens and hundreds of audio channels.

In addition to reducing the amount of work and reducing the cost of the project as a whole, using AoIP also provides functional benefits, including the ability to route audio signals over long distances without degrading their quality. In this case, the signal transmission path can in fact be adjusted with a click of the mouse without making any changes to the wiring. In turn, the absence of signal degradation eliminates the need for amplifiers, which are necessary to compensate for signal attenuation due to electromagnetic interference, high-frequency attenuation, and voltage drop.

AUDIO VARIETIES ON THE NETWORK
AoIP systems allow the transmission of uncompressed digital audio over Ethernet / IP. Depending on the layer in which they operate, protocols are divided into three main classes: physical, data link and network layers.

Physical layer protocols allow the transmission of signals from one device to another over conventional Category 5e or better twisted pair cables. These include protocols such as Behringer’s AES50 or Roland’s Ethernet Audio Communication (REAC).

Link layer protocols allow you to create a channel between two devices on a network. The first protocol of this class was Cirrus Logic’s Cobra Net, which appeared in 1996. Another well-known representative is Ethersound.

The IEEE adopted the 802.1BA standard for Audio Video Bridging (AVB) (as well as several related standards). AVB has been designed to minimize the necessary changes to the network infrastructure. However, to transmit a professional quality video and audio network, all bridges (switches) in the signal path must support AVB.

Network layer protocols can connect multiple devices and exchange signals between them. In addition to Dante, these are Axia Audio’s proprietary Livewire protocol and ALC NetworX’s open Ravenna protocol. The first is widely used by broadcasters