Trs Female Jack
Telephone switchboard
Operation
U.S. Air Force operator works a switchboard in the underground command post at Strategic Air Command headquarters, Offutt Air Force Base, Nebraska in 1967.
The switchboard is usually designed to accommodate the operator to sit facing it. It has a high backpanel which consists of rows of female jacks, each jack designated and wired as a local extension of the switchboard (which serves an individual subscriber) or as an incoming or outgoing trunk line. The jack is also associated with a lamp.
On the table or desk area in front of the operator are columns of keys, lamps and cords. Each column consists of a front key and a rear key, a front lamp and a rear lamp, followed by a front cord and a rear cord, making up together a cord circuit. The front key is the "talk" key allowing the operator to speak with that particular cord pair. The rear key on older "manual" boards and PBXs is used to physically ring a telephone. On newer boards, the back key is used to collect (retrieve) money from coin telephones. Each of the keys has three positions: back, normal and forward. When a key is in the normal position an electrical talk path connects the front and rear cords. A key in the forward position (front key) connects the operator to the cord pair, and a key in the back position sends a ring signal out on the cord (on older manual exchanges). Each cord has a three-wire TRS connector: tip and ring for testing, ringing and voice; and a sleeve wire for busy signals.
When a call is received, a jack lamp lights up on the back panel and the operator responds by placing the rear cord into the jack and throwing the front key forward. The operator now converses with the caller and finds out where the caller would like to be connected to. If it is another extension, the operator places the front cord in the associated jack and pulls the front key backwards to ring the called party. After connecting, the operator leaves both cords "up" with the keys in the normal position so the parties can converse. The supervision lamps light to alert the operator when the parties finish their conversation and go on-hook. When the operator pulls down a cord, a pulley weight behind the switchboard pulls it down to prevent it from tangling.
On a trunk, on-hook and off-hook signals must pass in both directions. In a one-way trunk, the originating or A board sends a short for off-hook, and an open for on-hook, while the terminating or B board sends normal polarity or reverse polarity. This "reverse battery" signaling was carried over to later automatic exchanges.
History
Telephone Operator, circa 1900.
The first telephones in the 1870s were rented in pairs which could only talk to each other, but the example of a central exchange was soon found to be even more advantageous than in telegraphy. Small towns typically had the switchboard installed in the operator's home so that she could answer calls on a 24 hour basis. In 1894, New England Telephone and Telegraph installed the first battery-operated switchboard on January 9 in Lexington, Massachusetts.
Early switchboards in large cities usually were mounted floor to ceiling in order to allow the operators to reach all the lines in the exchange. The operators were boys who would scoot up a ladder to connect to the higher jacks. Late in the 1890s this measure failed to keep up with the increasing number of lines, and Milo G. Kellogg devised the Divided Multiple Switchboard for operators to work together, with a team on the "A board" and another on the "B." These operators were almost always women until the mid-1960s when men were once again hired. Early "cord" switchboards were often referred to as "cordboards" by telephone company personnel. Conversion to Panel switch and other automated operations in big cities first eliminated the "B" operator and then, usually years later, the "A". Rural and suburban switchboards for the most part remained small and simple. In many cases, customers came to know their operator by name.
As telephone exchanges converted to automatic, or direct dial, service, switchboards remained in use for specialized purposes. Before the advent of direct-dialed long distance calls, a subscriber would need to contact the long-distance operator in order to place a call. In large cities, there was often a special number, such as 1-1-2, which would ring the long-distance operator directly. Elsewhere, the subscriber would ask the local operator to ring the long-distance operator.
When calling long distance, the customer often would not have the phone number available, so would give the name and city of the person desired. The long-distance operator would plug into a trunk for the distant city, and the inward operator would answer. The inward operator would obtain the number from the local information operator, and ring the call. The calling party's long distance operator would time the call for billing purposes.
Later, with the advent of multi-frequency operator dialing, the operator would plug into a tandem trunk line and dial the area code and operator code for the information operator in the distant city. If the customer knew the number, and the point was direct-dialable, the operator could dial the call. If the distant city did not have dialable numbers, the operator would dial the code for the inward operator, and ask her to ring the number.
After most phone subscribers had direct long-distance dialing, one type of operator served both the local and long distance functions. A customer might call to request a collect call, or help getting through on a number that did not ring or might be out of order, for instance. For example, if a customer encountered a reorder tone (a fast busy signal), it could indicate "all circuits busy," or a problem in the destination exchange. The operator might be able to use a different routing to complete the call. If the operator could not get through, she could call the inward operator in the destination city, and ask her to try the number, or to test a line to see if it was busy or out of order. Cordboards for these purposes were replaced in the 1970s by TSPS and similar systems.
Virtual switchboard
A Virtual Switchboard is an automated system used to connect an incoming caller with an agent or staff member. The virtual switchboard user normally has the option of controlling how incoming calls are routed via a web interface. For example calls could be routed to different destinations according to certain criteria such as the time of day etc.
Interactive voice response (IVR) functionality is also a common feature with Virtual Switchboards. IVR enables incoming callers to a Virtual Switchboard to hear prerecorded announcements. Popular announcements instruct callers to press a number on their key pad to select which department they want to reach (for example, "press 1 for sales, 2 for accounts and 3 for support").
External links
UK telephone history
1911 Britannica article
Categories: Telecommunications history | Telephone exchangesHidden categories: Articles lacking sources from June 2007 | All articles lacking sources
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If I put in a mono jack (TS) in this circuit that requires a stereo jack for the input, will it still work?
http://fuzzcentral.ssguitar.com/rangemaster.php ------------------------> The schematic
If I were to use a tip-sleeve male portion (mono jack) and plug it into the tip-ring-sleeve (for stereo jack) female portion, will the circuit still work? The positive terminal of the battery will then connect to the ring portion of the female part, to the sleeve portion of the mono jack and to the ground and it becomes like this circuit (http://www.diystompboxes.com/pedals/DallasRM2.jpg), which I cannot verify whether it will work or not. Most of the schematics of effect pedals I see have a TRS female input although most guitar cables are TS male only. Why is that so?
Sorry the other website which I can't verify if it will work or not is http://www.diystompboxes.com/pedals/DallasRM2.jpg
They use TRS jacks as an ersatz power switch. The one battery terminal connects to the ring terminal of the input jack. A typical TS instrument plug has ground sleeve where the ring on a TRS plug is. Inserting the TS instrument plug "shorts" the R terminal to the S terminal, therfore colosing the battery supply to the circuit, and removing the intstrument plug opens the circuit.
You can use a regular TS jack for input, but need to have a separate power switch, unless you will be powering it from an external adapter.
Palm Discovery Review: Seidio's Audio Adapter (2.5mm male to 3.5mm female jack)
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