Digital Enhanced Cordless Telecommunications Totally Explained

Everything about Dect totally explained

DECT or Digital Enhanced Cordless Telecommunications (formerly Digital European Cordless Telephone) is an ETSI standard for digital portable phones, commonly used for domestic or corporate purposes. DECT can also be used for wireless broadband data transfers. DECT is recognised by the ITU as fulfilling the IMT-2000 requirements and thus qualifies as a 3G system. Within the IMT-2000 group of technologies, DECT is referred to as IMT-FT (Frequency Time).
DECT was developed by ETSI but has since been adopted by many countries all over the world:

The original DECT frequency band (1880 MHz–1900 MHz) is used in all countries in Europe. Outside Europe, it's used in most of Asia, Australia and South America.
In the United States, the Federal Communications Commission in 2005 changed channelization and licensing costs in a nearby band (1920 MHz–1930 MHz, or 1.9 GHz), known as Unlicensed Personal Communications Services (UPCS), allowing DECT devices to be sold in the U.S. with only minimal changes. DECT devices made for use in the U.S. use the brand DECT 6.0 to distinguish them from both DECT devices used elsewhere and U.S. cordless equipment operating in the 900 MHz, 2.4 GHz and 5.8 GHz ISM bands. The "6.0" is a version number (as in software), not a spectrum band; the term "6.0 GHz" for DECT 6.0 phones is incorrect.

Application

The DECT standard fully specifies a means for a portable unit to access a fixed telecoms network via radio, but unlike the GSM standards doesn't specify any internal aspects of the fixed network itself. Connectivity to the fixed network (which may be of many different kinds) is done through a base station or "Radio Fixed Part" to terminate the radio link, and a gateway to connect calls to the fixed network. In most cases the base station connection is to the public switched telephone network, although connectivity with newer technologies such as Voice over IP has become available. There are also other devices such as some baby monitors utilising DECT, and in these devices there's no gateway functionality.
The DECT standard originally envisaged three major areas of application:

domestic cordless telephony, using a single base station to connect one of several handsets to the public telecoms network

enterprise premises cordless PABXs and wireless LANS, using many base stations for coverage. Calls continue as users move between different coverage cells, through a mechanism called handover. Traffic both within the system and to the public telecoms network

public access, using large numbers of base stations to provide building or urban area coverage as part of a public telecoms network. Of these, the domestic application has been extremely successful. The enterprise PABX market had some success, and all the major PABX vendors have offered DECT access options. The public access application hasn't succeeded, since public cellular networks have fulfilled the need better. The one major application of DECT for public access, the Telecom Italia's FIDO network covering major cities in Italy, lasted about a year and was shut in 1997.
DECT has also been used for Fixed Wireless Access as a substitute for copper pairs in the "last mile" in countries such as India and South Africa. By using directional antenna and sacrificing some traffic capacity, cell coverage could extend to over 10 km. In Europe, the power limit laid down for use of the DECT spectrum (250 mW peak) was expressed in ERP, rather than the more commonly-used EIRP, thus permitting the use of powerful directional antenna to produce much higher EIRP and hence long ranges.

Features

Typical abilities of a domestic DECT Generic Access Profile (GAP) system include:

Multiple handsets to one base station and one phone line socket. Additional handsets usually have a battery charger station instead of a base station. The additional handsets don't require additional telephone sockets nor additional transceivers.

Interference-free wireless operation to around 100 metres outdoors. Operates clearly in common congested domestic radio traffic situations. For instance, generally immune to interference from Wi-Fi or video senders.

Ability to make internal (intercom) calls between handsets. Many DECT systems also include additional features such as Caller ID or a shared phonebook, but these are not standardized and may not work across different handset types.

Technical details

Some DECT properties:

Audio codec: G.726

Net bit rate: 32 kbit/s

Frequency: 1880 MHz–1900 MHz in Europe, 1920 MHz–1930 MHz in the US

Carriers: 10 (1,728 kHz spacing) in Europe, 5 (1,728 kHz spacing) in the US

Time slots: 2 x 12 (up and down stream)

Channel allocation: dynamic

Average transmission power: 10 mW (250 mW peak) in Europe, 4 mW (100 mW peak) in the US The DECT physical layer uses:

Frequency division multiple access (FDMA),

Time division multiple access (TDMA) and

Time division duplex (TDD) This means that the radio spectrum is divided into physical channels in two dimensions: frequency and time.
   The maximum allowed power for portable equipment as well as base stations is 250 mW. A portable device radiates an average of about 10 mW during a call as it's only using one of 24 time slots to transmit.
   The DECT media access control layer is the layer which controls the physical layer and provides connection oriented, connectionless and broadcast services to the higher layers. It also provides encryption services with the DECT Standard Cipher (DSC). The encryption is fairly weak, using a 35-bit initialization vector and encrypting the voice stream with 64-bit encryption.
   The DECT data link layer uses LAPC (Link Access Protocol Control), a specially designed variant of the ISDN data link protocol called LAPD. They are based on HDLC.
   The DECT network layer always contains the following protocol entities:

Call Control (CC)

Mobility Management (MM) Optionally it may also contain others:

Call Independent Supplementary Services (CISS)

Connection Oriented Message Service (COMS)

Connectionless Message Service (CLMS) All these communicate through a Link Control Entity (LCE).
   The call control protocol is derived from ISDN DSS1, which is a Q.931 derived protocol. Many DECT-specific changes have been made. The mobility management protocol includes many elements similar to the GSM protocol, but also includes elements unique to DECT.
   Unlike the GSM protocol, the DECT network specifications don't define cross-linkages between the operation of the entities (eg Mobility Management and Call Control). The architecture presumes that such linkages will be designed into the interworking unit that connects the DECT access network to whatever mobility-enabled fixed network is involved. By keeping the entities separate, the handset is capable of responding to any combination of entity traffic, and this creates great flexibility in fixed nework design without breaking full interoperability.
   DECT GAP is an interoperability profile for DECT. The intent is that two different products from different manufacturers that both conform not only to the DECT standard, but also to the GAP profile defined within the DECT standard, are able to interoperate for basic calling. The DECT standard includes full testing suites for GAP, and GAP products on the market from different manufacturers are in practice interoperable for the basic functions.

DECT for Data Networks

Other interoperability profiles exist in the DECT suite of standards, and in particular the DPRS (DECT Packet Radio Services) bring together a number of prior interoperability profiles for the use of DECT as a wireless LAN and wireless internet access service. With good range (up to 200 m indoors and 6 km using directional antennae outdoors), dedicated spectrum, high interference immunity, open interoperability and data speeds of around 500 kb/s, DECT appeared at one time to be a superior alternative to Wi-Fi. The protocol capabilities built into the DECT networking protocol standards were particularly good at supporting fast roaming in the public space, between hotspots operated by competing but connected providers. The first DECT product to reach the market, Olivetti's Net³, was a wireless LAN, and German firms Dosch & Amand and Hoeft & Wessel built niche businesses on the supply of data transmission systems based on DECT.
However, the timing of the availability of DECT, in the mid 1990s, was too early to find wide application for wireless data outside niche industrial applications. Whilst contemporary providers of Wi-Fi struggled with the same issues, providers of DECT retreated to the more immediately lucrative market for cordless telephones. A key weakness was also the inaccessibility of the U.S. market, due to FCC spectrum restrictions at that time. By the time mass applications for wireless Internet had emerged, and the U.S. had opened up to DECT, well into the new century, the industry had moved far ahead in terms of performance and DECT's time as a wireless data transport was past.
Ironically, the failure of DECT as a data protocol became a strength when DECT 6.0 phones finally appeared in the U.S. in late 2000. By this time, the ISM bands had become crowded in the U.S., especially the 2.4 GHz band which is used by both the most common variants of Wi-Fi, 802.11b and 802.11g, and many cordless phones; thus interference between unlicensed devices has become common in these bands. However, because Wi-Fi doesn't operate in the UPCS band and DECT devices negotiate with each other for the available spectrum, DECT 6.0 phones are immune from this type of interference.

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