Number One Crossbar Switching System

Number One Crossbar Switching System

The Number One Crossbar Switching System, or 1XB switch, was the primary urban local telephone exchange design used by the Bell System in the mid-20th century. Its switch fabric topology was based on the earlier urban panel switch system, which, in turn, was based on the turn of the century Divided Multiple Switchboard. Thus, it had separate incoming and outgoing sections. However, lines appeared only on the Line Link Frame (LLF), rather than requiring a multi-wire connection to two different sections as in a panel switch. The LLF uniting the telephone line circuit at its "column and switch" simplified administration. The first 1XB was the PR7 exchange at Troy Avenue in Brooklyn, New York in 1937.[1]

Contents

Subscriber sender

For outgoing calls, the Line Link Frame acted like the Line Finder of the panel switch, autonomously connecting the line to a junctor, which corresponded to the cord circuit of the old cord telephone switchboard. As in the panel switch, the Sender then found the chosen junctor and supplied dial tone. Like the panel switch, the 1XB common control was based on a complex, versatile Sender circuit. The Sender was able to accept Dial Pulses and (in later models) dual-tone multi-frequency signaling (DTMF). A large number of senders used a common translator circuit to detect a call going to a nearby area code to be stored in abbreviated form. It called in an auxiliary sender when necessary to implement Direct Distance Dialing. Like the panel switch, two or more offices with separate incoming sections could share an outgoing section for more efficient trunking. Unlike the panel switch, it was rare to combine more than two this way.

Marker

Unlike the motor driven, clutch controlled panel switch selectors, crossbar switches using the link principle required Incoming and Outgoing Markers to find an idle path and set up the switch train for each call. Earlier crossbar exchanges had used the crossbar switch according to the selector principle, with one input and typically 100 or 200 outputs, similar to a stepping switch. 1XB pioneered the link principle, with each switch able to handle as many phone calls as it had inputs or outputs, typically ten. This innovation diminished the cost of switches, at the expense of more complex controls. The complexity of the circuitry challenged the ability of drawings to make it clear, leading to the later development of Detached Contact drawings, which in turn led to the application of Boolean algebra and Karnaugh maps.

An Outgoing Marker, being a complex control instrument with a short holding time, had the additional job of decoding the first three digits of the seven digit telephone number to determine the routing to the distant exchange. A cross connect field had a terminal for each office code, which was cross connected to the coil of a Route Relay. When the office code point was grounded, it operated the Route Relay, whose contacts were wired in another cross connect or data field. This told the Outgoing Marker which two Office Frames to search for idle trunks to the destination, and provided pulsing information to the Sender. The Sender sent the phone number to the distant terminating office. When one office was constructed, retired or changed, staff in other offices received a Routing Letter, ordering the cross connect fields to be changed at a particular date and time (usually after midnight) to accommodate the change in the network. Translation cross connect fields such as these were among the first to be converted from soldered terminals to wire wrap.

If all trunks were busy, the Marker did a Route Advance to operate a different Route Relay to select an alternate route via a Tandem. This feature allowed trunk groups to be smaller and more heavily loaded with traffic, thus saving cost in outside plant.

Terminating sender

At the terminating office, a Terminating Sender Link circuit connected a terminating sender to the trunk, in order to receive the phone number, typically using Revertive Pulse as in the panel switch to receive only the last four digits. Multi-frequency Terminating Senders were introduced in the 1950s as part of Direct Distance Dialing, and also used for incoming traffic from some local crossbar exchanges. The Terminating Sender activated an Incoming Marker, which then used a Number Group Circuit to find the line, marked an idle path, and operated the crossbar switches to use the links to connect the incoming trunk to the line.

The Revertive Pulse system as used in 1XB had a "High Five" feature by which the Incoming Brush parameter could be incremented by five. Thus, the new IB numbers 6 through 10 designated a second ten thousand telephone numbers, known as a "B" office. This allowed each 1XB incoming section to handle twenty thousand lines.

Multifrequency Terminating Senders accepted a fifth digit to discriminate among office codes served by the same office. The originating marker told the sender to delete the first two of seven digits in these cases. Sometimes the two office codes had the same third digit, in which case the first three digits for the "B" office were deleted and replaced with a single digit, indicated as AR for Arbitrary, usually a zero. The potential for five incoming digits to address a 100,000 line office was not exploited.

Tandem

One version of 1XB omitted the incoming section and Line Link Frames and replaced the junctor circuits with incoming trunks, leaving only the ability to connect those incoming trunks to outgoing trunks. In many cases the resulting Crossbar Tandem switch (XBT) replaced a Panel Sender Tandem, because its multi-frequency senders were able to receive seven digits and some were modified to accept ten. Sometimes it replaced an Office Select Tandem as well, since its Revertive Pulse senders were able to accept Office Brush and Group parameters. In big cities, some XBT were strictly incoming Class 4 telephone switches, some outgoing, a few both-way, and some only for tandem traffic within the metropolitan area. Specialization was less marked in less dense areas. XBT served local telephone companies until the late 20th Century when they were replaced by 4ESS switches or other digital switches.

Successor

1XB inspired the later 5XB switch which intensified the trend towards greater efficiency and complexity. 5XB installations seldom replaced 1XB but were operated side by side with them, or in towns too small to pay for 1XB. Most 1XB were replaced in the 1970s by 1ESS switch or 1AESS Stored Program Control exchanges.

See also

References

  1. ^ Telecommunications Historical Group (UK) Peter Walker on history of Crossbar

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