| ==Phrack Inc.== |
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| Volume Two, Issue Eleven, Phile #8 of 12 |
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| Telephone Signalling Methods |
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| Written by Doom Prophet |
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| This file explains the basic signalling methods in use by the telephone |
| system and is intended for general understanding. The text that follows is not |
| highly technical since this file is for basic understanding and aimed at less |
| experienced phreaks. Still, the more experienced readers may want to read it |
| as a review on the information. |
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| Analog--Analog signals are those that have continuously and smoothly |
| varying amplitude or frequency. Speech signals are of this type when you |
| consider tone, pitch and volume levels that vary according to the person |
| speaking. When a person speaks into the transmitter on a telephone, the voice |
| signals are made up of acoustical energy, which are then converted into |
| electrical energy for transmission along a transmission medium. |
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| Analog carrier facilities may operate over different media, such as wire |
| lines, multi-wire cable, coaxial cable, or fiber optic cable. Copper wire is |
| the most commonly used for subscriber loops. |
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| A technique that allows for many signals to be sent along the same |
| transmission path is called Multiplexing. Analog signals use Frequency |
| Division Multiplexing or FDM. |
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| Digital--Instead of the voice signal being processed as an analog signal, |
| it is converted into a digital signal and handled with digital circuits |
| throughout the transmission process. When it arrives at the CO that serves the |
| called telephone, it is converted back to analog to reproduce the original |
| voice transmission. |
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| Pulse Code Modulation or PCM is when the binary signal is transmitted in |
| serial form. Binary coding represents bits or binary digits at 0 and 1 levels. |
| These levels have a definite time relationship with one another. Time Division |
| Multiplexing or TDM is the type of multiplexing, sometimes abbreviated as MUX, |
| done for digital transmission. |
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| Metallic--Metallic facilities carry only one Voice Frequency (VF) channel. |
| Typically, a metallic facility is used to connect business or residential |
| lines to a CO. Coaxial cable can be used to transmit both Analog and Digital |
| signals as well as Metallic signals. |
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| VF channels have a 4000 Hz bandwidth, from 0 to 4000 Hz. However, the |
| in-band range of the voice frequency is between 200 and 3400 Hz. Signals that |
| are out of this frequency range but still within the VF channel are out of |
| band signals. A supervisory equivalent to 2600 for out of band is 3700 Hz. The |
| amount of VF channels vary according to the transmission facilities that are |
| being used. |
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| CCIS (Common Channel Interoffice Signalling) is where control or |
| supervisory signals are sent on a separate data link between switching |
| offices. CCIS links operate at 4800 bps, or baud. Signal Transfer Points in |
| the switch send the supervisory information over the dedicated link. This |
| prevents supervisory tones from subscriber stations to register with the |
| telephone network as a change in trunk status. |
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| Reverse Battery Signalling- When the called end answers, the polarity and |
| condition of the Ring and Tip leads is reversed to indicate the status of the |
| connection. Conditions for a call being placed, but not yet answered, is |
| ground on the Tip and battery (the CO battery current is flowing through) on |
| the Ring. When the called party answers, by the action of relays in the |
| switching equipment, current is reversed in the calling subscriber loop and |
| battery is placed on the Tip and ground on the Ring, which remains during the |
| talking. |
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| E and M- Leads connecting switching equipment to trunk circuits are termed |
| the E and M leads, for receive and transmit. The E lead reflects the far-end |
| or terminating end condition of the trunk. Ground on the E lead indicates that |
| a signal has been received from the other end. The E lead is open when the |
| trunk is idle. The M lead reflects the the near end condition of the trunk. It |
| is grounded when the trunk is idle, and goes to battery condition when the |
| called party goes off hook. Long interoffice and short haul toll trunks use |
| this signalling method. |
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| It should be noted that AC signalling is Alternating Current, and is used |
| on the intertoll network, and interoffice and short haul toll trunks. DC, or |
| direct current, is used on two wire or intraoffice connections, and local |
| interoffice trunks. |
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| Single Frequency (SF)- Single Frequency is an in-band 2600 Hz signalling |
| system. When a four wire trunk is idle, and is equipped for SF in band |
| signalling, a 2600 Hz tone is being transmitted in both directions. When the |
| trunk is seized at an originating position, the M lead is changed from ground |
| to battery state. This removes the 2600 Hz supervisory tone from the outgoing |
| trunk pair. The loss of the 2600 Hz will be detected at the far end by the SF |
| signalling unit, changing the far end E lead condition from open to ground, |
| causing switching equipment to function. When ground is restored to the M |
| lead, replacing 2600 on the near end trunk, the pulsing of address information |
| begins. |
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| Multi-Frequency (MF)- The MF pulsing method uses AC signals in the voice |
| frequency range, and transmits address information between COs by combinations |
| of only 2 of 5 frequencies. MF is used for the sending of address information, |
| as mentioned before. Other signalling methods are still required for trunk |
| control and supervision. There are six MFs comprising MF codes. These are 200 |
| Hz apart in the 700-1700 range. Two frequencies are sent at once, thus |
| explaining the term 'Multi frequency.' |
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| MF pulsing is initiated by manual keysets and the TSPS switchboard, or by |
| MF outpulsing senders in ESS and Xbar. MF pulsing is very rapid and only |
| occurs when a connection is being established. KPs, or Key Pulses, are used as |
| a signal to start MF pulsing. STs, or STart tones are used as a signal to |
| indicate the end of MF pulsing. |
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| As an example of MF signalling, take a toll switchboard trunk connected to |
| a Xbar Central Office. The operator selects an idle trunk, and presses the KP |
| button on the keyset to signal the distant sender or register link equipment |
| to connect to a MF receiver. The S lamp on the keyset will light when the far |
| end is ready to receive MF pulses. After keypulsing the digits of the called |
| number, the operator presses the ST button, which indicates the end of pulsing |
| and disconnects the keyset from the operator's cord circuit and extinguishes |
| the KP and S lamps. |
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| At the terminating CO, the two MF tones of each digit are amplified and |
| limited in the MF receiver unit associated with the incoming sender and |
| register circuit. The frequencies are selected by channel filters in the MF |
| receiver and then detected. The DC voltage that results will operate the |
| proper channel relays to continue with the process of placing the call. |
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