EtherSound

Last updated
EtherSound
LogoEtherSound.png
Manufacturer Info
ManufacturerDigigram
Development date2002;19 years ago (2002) [1]
Network Compatibility
Switchable No [note 1]
Routable No
Ethernet data rates Fast Ethernet, Gigabit Ethernet
Audio Specifications
Minimum latency 125  μs [2]
Maximum channels per link512 (256 each direction) [1]
Maximum sampling rate 192  kHz [1]
Maximum bit depth 24 bits [1]
Left: Fostex NetCIRA ES6300 - active speaker receiver which receives audio data converted to EtherSound protocol; right: Fostex NetCIRA ES-2PRO - EtherSound to analog audio converter Fostex NetCIRA ES6300, ES-2PRO.jpg
Left: Fostex NetCIRA ES6300 – active speaker receiver which receives audio data converted to EtherSound protocol; right: Fostex NetCIRA ES-2PRO – EtherSound to analog audio converter

EtherSound is an audio-over-Ethernet technology for audio engineering and broadcast engineering applications. EtherSound is developed and licensed by Digigram. [3] EtherSound is intended by the developer to be compliant with IEEE 802.3 Ethernet standards. [4] Just as the IEEE defines rates such as 100 Megabit and Gigabit Ethernet standards, EtherSound has been developed as both ES-100 (for use on dedicated 100 Megabit Ethernet networks or within a Gigabit network as a VLAN) and ES-Giga (for use on dedicated Gigabit Ethernet networks). The two versions of EtherSound are not compatible.

Contents

Network technology

While Ethersound is compliant with the IEEE 802.3 physical layer standards, logically it uses a token passing scheme of transporting audio data which prevents all of its features from being used on a standard Ethernet network. On a standard network, it is only able to distribute audio and control data one way. It is not designed to share Ethernet LANs with typical office operations data or Internet traffic such as email. It supports two-way communications only when wired in a daisy chain topology. [5] For this reason Ethersound is best used in applications suitable to a daisy chain network topology or in live sound applications that benefit from its low point-to-point latency.

Low latency

Low latency is important for many users of audio over Ethernet technologies. [6] [note 2] EtherSound can deliver up to 64 channels of 48 kHz, 24-bit PCM audio data with a network latency of 125 microseconds. [2] If including A/D and D/A conversions, this latency is about 1.5 milliseconds, the major part of this latency being caused by the converters. Each device in a daisy-chain network adds 1.4 microseconds of latency. [1] EtherSound's network latency is stable and deterministic; The delay between any two devices on an EtherSound network can be calculated.

EtherSound Licensees

The following companies have licensed the EtherSound technology. [7]

Notes

  1. Audio may only be passed unidirectionally through a hub or switch.
  2. One of the most critical applications involves picking up sound from a vocalist's or instrumentalist's microphone on a live performance stage, mixing that signal with those received from other microphones (and performers) and delivering the mix to the performer via in-ear monitors. Latency in this application is particularly annoying to vocalists. This is because a singer hears his or her own voice through bone conduction as well as through the outer ear. If the sound from the in-ear monitor lags the bone-conduction sound by more than a few milliseconds, phase shifts and comb filtering will become audible.

Related Research Articles

Ethernet over twisted pair Ethernet physical layers using twisted-pair cables

Ethernet over twisted-pair technologies use twisted-pair cables for the physical layer of an Ethernet computer network. They are a subset of all Ethernet physical layers.

Microsecond One millionth of a second

A microsecond is an SI unit of time equal to one millionth of a second. Its symbol is μs, sometimes simplified to us when Unicode is not available.

Gigabit Ethernet

In computer networking, Gigabit Ethernet is the term applied to transmitting Ethernet frames at a rate of a gigabit per second. The most popular variant 1000BASE-T is defined by the IEEE 802.3ab standard. It came into use in 1999, and has replaced Fast Ethernet in wired local networks due to its considerable speed improvement over Fast Ethernet, as well as its use of cables and equipment that are widely available, economical, and similar to previous standards.

Network interface controller Hardware component that connects a computer to a network

A network interface controller is a computer hardware component that connects a computer to a computer network.

In computer networking, a minimal pause may be required between network packets or network frames. This time between packets is known as the interpacket gap (IPG), interframe spacing, or interframe gap (IFG). Depending on the physical layer protocol or encoding used, the pause may be necessary to allow for receiver clock recovery, permitting the receiver to prepare for another packet or another purpose.

EtherChannel Computer networking link aggregation technology

EtherChannel is a port link aggregation technology or port-channel architecture used primarily on Cisco switches. It allows grouping of several physical Ethernet links to create one logical Ethernet link for the purpose of providing fault-tolerance and high-speed links between switches, routers and servers. An EtherChannel can be created from between two and eight active Fast, Gigabit or 10-Gigabit Ethernet ports, with an additional one to eight inactive (failover) ports which become active as the other active ports fail. EtherChannel is primarily used in the backbone network, but can also be used to connect end user machines.

In computer networking, jumbo frames are Ethernet frames with more than 1500 bytes of payload, the limit set by the IEEE 802.3 standard. Commonly, jumbo frames can carry up to 9000 bytes of payload, but smaller and larger variations exist and some care must be taken using the term. Many Gigabit Ethernet switches and Gigabit Ethernet network interface controllers can support jumbo frames. Some Fast Ethernet switches and Fast Ethernet network interface cards can also support jumbo frames.

EtherCAT is an Ethernet-based fieldbus system. The protocol is standardized in IEC 61158 and is suitable for both hard and soft real-time computing requirements in automation technology.

In audio and broadcast engineering, Audio over Ethernet is the use of an Ethernet-based network to distribute real-time digital audio. AoE replaces bulky snake cables or audio-specific installed low-voltage wiring with standard network structured cabling in a facility. AoE provides a reliable backbone for any audio application, such as for large-scale sound reinforcement in stadiums, airports and convention centers, multiple studios or stages.

Ethernet physical layer physical network layer of the Ethernet communications technologies

The Ethernet physical layer is the physical layer functionality of the Ethernet family of computer network standards. The physical layer defines the electrical or optical properties and the transfer speed of the physical connection between a device and the network or between network devices. It is complemented by the MAC layer and the logical link layer.

40 Gigabit Ethernet (40GbE) and 100 Gigabit Ethernet (100GbE) are groups of computer networking technologies for transmitting Ethernet frames at rates of 40 and 100 gigabits per second (Gbit/s), respectively. These technologies offer significantly higher speeds than 10 Gigabit Ethernet. The technology was first defined by the IEEE 802.3ba-2010 standard and later by the 802.3bg-2011, 802.3bj-2014, 802.3bm-2015, and 802.3cd-2018 standards.

CobraNet is a combination of software, hardware, and network protocols designed to deliver uncompressed, multi-channel, low-latency digital audio over a standard Ethernet network. Developed in the 1990s, CobraNet is widely regarded as the first commercially successful audio-over-Ethernet implementation.

Carrier Ethernet is a marketing term for extensions to Ethernet for communications service providers that utilize Ethernet technology in their networks.

10 Gigabit Ethernet Standards for Ethernet at ten times the speed of Gigabit Ethernet

10 Gigabit Ethernet is a group of computer networking technologies for transmitting Ethernet frames at a rate of 10 gigabits per second. It was first defined by the IEEE 802.3ae-2002 standard. Unlike previous Ethernet standards, 10 Gigabit Ethernet defines only full-duplex point-to-point links which are generally connected by network switches; shared-medium CSMA/CD operation has not been carried over from the previous generations Ethernet standards so half-duplex operation and repeater hubs do not exist in 10GbE.

Dante is a combination of software, hardware, and network protocols that delivers uncompressed, multi-channel, low-latency digital audio over a standard Ethernet network using Layer 3 IP packets. Developed in 2006 by a Sydney-based company named Audinate, Dante builds on previous audio over Ethernet and audio over IP technologies.

IEEE 1394 Serial bus interface standard, also known as Firewire

IEEE 1394 is an interface standard for a serial bus for high-speed communications and isochronous real-time data transfer. It was developed in the late 1980s and early 1990s by Apple in cooperation with a number of companies, primarily Sony and Panasonic. Apple called the interface FireWire. It is also known by the brands i.LINK (Sony), and Lynx.

HDBaseT is a consumer electronic (CE) and commercial connectivity standard for transmission of uncompressed ultra-high-definition video, digital audio, DC power, Ethernet, USB 2.0, and other control communication over a single category cable up to 100 m in length, terminated using the same 8P8C modular connectors as used in Ethernet networks. HDBaseT technology is promoted and advanced by the HDBaseT Alliance.

AES67 is a technical standard for audio over IP and audio over Ethernet (AoE) interoperability. The standard was developed by the Audio Engineering Society and first published in September 2013. It is a layer 3 protocol suite based on existing standards and is designed to allow interoperability between various IP-based audio networking systems such as RAVENNA, Livewire, Q-LAN and Dante.

The following is a comparison of audio over Ethernet and audio over IP audio network protocols and systems.

Audio Video Bridging Specifications for synchronized, low-latency streaming through IEEE 802 networks

Audio Video Bridging (AVB) is a common name for the set of technical standards which provide improved synchronization, low-latency, and reliability for switched Ethernet networks. AVB embodies the following technologies and standards:

References

  1. 1 2 3 4 5 "Overview: An Introduction to the ES-100 Technology" (PDF), Digigram, 2006, archived from the original (PDF) on 2020-08-11
  2. 1 2 "Building EtherSound Networks" (PDF), Digigram, 2005, archived from the original (PDF) on 2020-08-11
  3. "The EtherSound Tested Programme". Archived from the original on 2016-08-18. Retrieved 2016-05-18.
  4. Dan Daley (May 5, 2016), "Tech Focus: Digital Audio Networks, Part 2 — The Major Players", SVG News
  5. "Best Practices in Network Audio" (PDF). Audio Engineering Society. 2009. Retrieved 2010-05-05.
  6. "Studer, Digigram partner for connectivity", Television Broadcast, 2007, archived from the original on 2016-09-10
  7. "EtherSound Partners List". ethersound.com. Digigram. Retrieved 2016-05-11.
  8. "Allen amp Heath Joins EtherSound Licensee Network" . Retrieved 2016-05-18.
  9. "Amadeus Launches New 'PMX D Series' Speakers". Mixonline. Retrieved 2016-05-18.
  10. 1 2 3 4 5 6 "EtherSound Adds DiGiCo And Whirlwind" . Retrieved 2016-05-18.
  11. 1 2 3 4 5 6 7 8 9 10 11 12 "MELPOMEN COMPLETES ITS FIRST EtherSound-BASED NEXO Installation". NEXO. Retrieved 2016-05-18.
  12. "CAMCO To Equip Entire Product Range With EtherSound" . Retrieved 2016-05-18.
  13. "Barix Up Date - Barix Relevance" . Retrieved 2016-05-18.
  14. 1 2 "Peavey And Crest Audio License EtherSound Technology" . Retrieved 2016-05-18.
  15. "Focusrite RedNet - Ethernet Audio Interface System" . Retrieved 2016-05-18.
  16. "Klein+Hummel licenses EtherSound". Archived from the original on 2016-08-18. Retrieved 2016-05-18.
  17. "LSI online - Digigram". Archived from the original on 2016-08-18. Retrieved 2016-05-18.
  18. "New OnAir Software V4.0" (PDF). Retrieved 2016-05-18.
  19. "Peavey, Crest Audio, & Yamaha License EtherSound" . Retrieved 2016-05-18.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.