Class-4 telephone switch

Last updated

A class-4, or tandem, telephone switch is a U.S. telephone company central office telephone exchange used to interconnect local exchange carrier offices for long distance communications in the public switched telephone network.

Contents

A class-4 switch does not connect directly to telephones; instead, it connects to other class-4 switches and to class-5 telephone switches. The telephones of service subscribers are wired to class-5 switches. When a call is placed to a telephone that is not on the same class-5 switch as the originating subscriber, the call may be routed through one or more class-4 switches to reach its destination.

Etymology

Tandem derives from the Latin adverb tandem meaning at length, and is used in English to mean a group of two people or machines working together, usually in series. [1] A tandem switch is used to interconnect other switches via trunks. Thus, tandem switches are always part of a series of switches and lines that connect telephone callers to each other.

Sector and access tandems

A sector tandem switch connects local telephone exchanges (class-5 switches) and carries traffic within the local access and transport area (LATA).

An access tandem switch connects local telephone exchanges to long-distance telephone companies (or interexchange carriers , "IXCs"). The point at which an access tandem connects to the IXC's switch is called the point of presence , or POP.

Modern tandem switches are often located at the center of the areas they serve, and may act as both sector tandems and access tandems.

History

Before the Bell System divestiture, class-4 switches in a telephone office that had operators present were called "toll centers." If no operators were present, they were called "toll points." Either type of class-4 switch might be referred to as a "toll switch." These terms were used because long-distance, or "toll," calls had to pass through class-4 switches, where the billing for the calls would be handled.

Class-4 switches at that time often had an associated Traffic Service Position System (TSPS) to handle operator-assisted calls. TSPS automated many functions previously handled by the local operator with a "cordboard" telephone switch, such as certain aspects of coin-operated telephone calls. It also allowed the telephone company to route operator calls to remote locations, rather than requiring operators at each switch. [2]

After the divestiture, as human operators became less common, the terms changed. Today, a class-4 switch that connects class-5 switches to the long-distance network is called an "access tandem." A class-4 switch that connects class-5 switches to each other, but not to the long-distance network, is called a "local tandem."

The majority of class-4 switches in the Bell System during the 1950s and 1960s used crossbar switches, such as the Crossbar Tandem (XBT) variant of the Number One Crossbar Switching System, or 1XB switch. The Number 4 Crossbar ("4XB") tandem switch was used in the North American toll network from 1943 until the 1990s, when it was replaced by more modern digital switching equipment, such as the Lucent 4ESS switch or the Nortel DMS-200. [3] The last 4XB switch in the United States was installed in 1976. [4]

During the 1980s, class-4 tandem switches were converted to deal only with high-speed digital four-wire circuit connections: T1, T3, OC-3, etc. The two-wire local line connections to individual telephones were relegated to the class-5 switches. By the dawn of the 21st century, almost all other switches also supported four-wire connections.

Modern tandem switches, like other classes of telephone switch, are digital, and use time-division multiplexing (TDM) to carry circuit-switched telephone calls. Tandems were more quickly converted to TDM than the class-5 end-offices were. During the transition to digital switching in the 1980s and 1990s, when both TDM and traditional "space division" [nb 1] switches were in use, American phone company employees often referred tandems as "TDM switches" as a result.

In the past, most of the accounting, billing management, and call record-keeping was handled by the tandem switches. During the last third of the 20th century, these tasks were performed by the class-5 end-office switches.

Switching equipment

Other class-5 digital switches are often used as class-4 switches for smaller applications.

See also

Footnotes

  1. "Space division" is a retronym used to distinguish traditional telephone trunk lines—where a call would fully occupy a set of wires within a "trunk," or bundle of wires, between switches—from the new TDM trunks, where more than one call could be placed on a pair of wires by digitizing the call and sending the data for each call in pre-defined "timeslots" assigned to the call.

Related Research Articles

<span class="mw-page-title-main">Telephone switchboard</span> Device used to connect telephone circuits to establish calls between users

A telephone switchboard was a device used to connect circuits of telephones to establish telephone calls between users or other switchboards, throughout the 20th century. The switchboard was an essential component of a manual telephone exchange, and was operated by switchboard operators who used electrical cords or switches to establish the connections.

<span class="mw-page-title-main">5ESS Switching System</span>

The 5ESS Switching System is a Class 5 telephone electronic switching system developed by Western Electric for the American Telephone and Telegraph Company (AT&T) and the Bell System in the United States. It came into service in 1982 and the last unit was produced in 2003.

Direct distance dialing (DDD) is a telecommunication service feature in North America by which a caller may, without operator assistance, call any other user outside the local calling area. Direct dialing by subscribers typically requires extra digits to be dialed as prefixes to the directory telephone number of the destination. International Direct Distance Dialing (IDDD) extends the system beyond the geographic boundaries of the North American Numbering Plan (NANP).

<span class="mw-page-title-main">Blue box</span> Device for hacking telephone networks

A blue box is an electronic device that produces tones used to generate the in-band signaling tones formerly used within the North American long-distance telephone network to send line status and called number information over voice circuits. This allowed an illicit user, referred to as a "phreaker", to place long-distance calls, without using the network's user facilities, that would be billed to another number or dismissed entirely as an incomplete call. A number of similar "color boxes" were also created to control other aspects of the phone network.

Subscriber trunk dialling (STD), also known as subscriber toll dialing, is a telephone numbering plan feature and telecommunications technology in the United Kingdom and various Commonwealth countries for the dialling of trunk calls by telephone subscribers without the assistance of switchboard operators.

<span class="mw-page-title-main">Digital Multiplex System</span> Electronic telephone switch

Digital Multiplex System (DMS) is the name shared among several different telephony product lines from Nortel Networks for wireline and wireless operators. Among them are the DMS-1 Rural/Urban digital loop carrier, the DMS-10 telephone switch, the DMS SuperNode family of telephone switches, and the S/DMS optical transmission system.

<span class="mw-page-title-main">DMS-100</span> Nortel telecom switch

The DMS-100 is a member of the Digital Multiplex System (DMS) product line of telephone exchange switches manufactured by Northern Telecom. Designed during the 1970s and released in 1979, it can control 100,000 telephone lines.

The Traffic Service Position System (TSPS) was developed by Bell Labs in Columbus, Ohio to replace traditional cord switchboards. The first TSPS was deployed in Morristown, New Jersey in 1969 and used the Stored Program Control-1A CPU, "Piggyback" twistor memory and Insulated Gate Field Effect Transistor solid state memory devices similar to dynamic random access memory.

SP-1 was the name of a computerized telephone exchange manufactured by Northern Electric in Canada. It was introduced in 1971

A Class-5 telephone switch is a telephone exchange in the public switched telephone network (PSTN) that directly serves subscribers and manages subscriber calling features. Class-5 services include basic dial-tone, calling features, and additional digital and data services to subscribers connected to a local loop.

The Number Five Crossbar Switching System is a telephone switch for telephone exchanges designed by Bell Labs and manufactured by Western Electric starting in 1947. It was used in the Bell System principally as a Class 5 telephone switch in the public switched telephone network (PSTN) until the early 1990s, when it was replaced with electronic switching systems. Variants were used as combined Class 4 and Class 5 systems in rural areas, and as a TWX switch.

The Number One Crossbar Switching System (1XB), was the primary technology for urban telephone exchanges served by the Bell System in the mid-20th century. Its switch fabric used the electromechanical crossbar switch to implement the topology of the panel switching system of the 1920s. The first No. 1 Crossbar was installed in the PResident-2 central office at Troy Avenue in Brooklyn, New York which became operational in February 1938.

Via Net Loss (VNL) is a network architecture of telephone systems using circuit switching technologies deployed in the 1950s with Direct Distance Dialing and used until the late 1980s. The purpose of the VNL plan and a five-level long-distance switching hierarchy was to minimize the number of trunk circuits used during a call and maximize the voice quality achieved on each circuit. Excessive noise or loss meant that subscribers may have difficulty hearing each other. This was particularly important in the 1960s when dial-up data applications were developed using analog modems. The five levels of PSTN switching systems used with VNL were:

The No. 4 Electronic Switching System (4ESS) is a class 4 telephone electronic switching system that was the first digital electronic toll switch introduced by Western Electric for long-distance switching. It was introduced in Chicago in January 1976, to replace the 4A crossbar switch. The last of the 145 systems in the AT&T network was installed in 1999 in Atlanta. Approximately half of the switches were manufactured in Lisle, Illinois, and the other half in Oklahoma City, Oklahoma. At the time of the Bell System divestiture, most of the 4ESS switches became assets of AT&T as part of the long-distance network, while others remained in the RBOC networks. Over 140 4ESS switches remained in service in the United States in 2007.

A "Community Dial Office" (CDO) was a small Class 5 telephone exchange in a rural area.

<span class="mw-page-title-main">PSTN network topology</span>

PSTN network topology is the switching network topology of a telephone network connected to the public switched telephone network (PSTN).

<span class="mw-page-title-main">Telephone exchange</span> Interconnects telephones for calls

A telephone exchange, also known as a telephone switch or central office, is a crucial component in the public switched telephone network (PSTN) or large enterprise telecommunications systems. It facilitates the interconnection of telephone subscriber lines or digital system virtual circuits, enabling telephone calls between subscribers.

TOPS - Traffic Operator Position System is a computerized operator telephone switchboard designed by Bell-Northern Research Labs for the SP-1 4 Wire Switch in the early 1970s and still widely used today by toll and directory-assistance operators. The terminals known as 'TOPS Positions' are usually connected to Nortel DMS-100 and DMS-200 telephone switches.

Operator Toll Dialing was a telephone call routing and toll-switching system for the Bell System and the independent telephone companies in the United States and Canada that was developed in the 1940s. It automated the switching and billing of long-distance calls. The concept and technology evolved from the General Toll Switching Plan of 1929, and gained technical merits by the cutover of a new type of crossbar switching system in Philadelphia to commercial service in August 1943. This was the first system of its kind for automated forwarding of calls between toll switching centers, but it served customers only for regional toll traffic. It established initial experience with automatic toll switching for the design of a nationwide effort that was sometimes referred to as Nationwide Operator Toll Dialing.

References

  1. The New Oxford American Dictionary (Mac OS X 10.6 Dictionary ed.). tandem. ORIGIN late 18th cent.: humorously from Latin, literally 'at length.'
  2. Farley, Tom. "TSPS History". privateline.com. Archived from the original on June 9, 2011. Retrieved August 23, 2010.
  3. Cuccia, Mark (December 20, 2008). "History of the Number 4 Crossbar (#4XB) Tandem Switch & listing of former #4XB switches". Telephone World. Retrieved August 24, 2010.
  4. 1 2 "Telephone Switch Timeline". Telephone World. December 20, 2008. Retrieved August 24, 2010.
  5. "Nortel (Northern Telecom) Modern Telephone Systems". Telephone World. December 20, 2008. Retrieved August 24, 2010.

Further reading