Talk:E and M signaling

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Anyone have comments? Its kinda late for me to be thinkin' clearly tonights. I'll check this tommorow. --Othtim Hi Im working on a NOKIA 4 wire E&M card it is different in how it uses the M end the M end on a Nokia card requires an earth (the nokia card actually has a negitive battery behind its sensor ) when it sees the earth is triggers the earth at the remote end in the normal manner. this is called (by Nokia ) "non-inverted e&m signalling" it might be worth adding somthing to this effect it would have saved me a bit of confusion cos I was trying to inject a -48v just like I always did

good luck

Derek

There are variants of E & M, at least 5 types. These make use of various versions of signal state for the E & M lines.

Depending on which side of the communication link you are on (Side A & Side B) the signal is referenced to GND & -48VDC

More info is available from manufacturers documentation (eg Harris who make Mux/Demux units with E & M interfaces) including pictures etc.

From the CISCO site that discusses E&M the best: E&M Type I—This is the most common interface in North America.

Type I uses two leads for supervisor signaling: E, and M.

During inactivity, the E-lead is open and the M-lead is connected to the ground.

The PBX (that acts as trunk circuit side) connects the M-lead to the battery in order to indicate the off-hook condition.

The Cisco router/gateway (signaling unit) connects the E-lead to the ground in order to indicate the off-hook condition.

E&M Type II—Two signaling nodes can be connected back-to-back.

Type II uses four leads for supervision signaling: E, M, SB, and SG.

During inactivity both the E-lead and M-lead are open.

The PBX (that acts as trunk circuit side) connects the M-lead to the signal battery (SB) lead connected to the battery of the signaling side in order to indicate the off-hook condition.

The Cisco router / gateway (signaling unit) connects the E-lead to the signal ground (SG) lead connected to the ground of the trunk circuit side in order to indicate the off-hook condition.

E&M Type III—This is not commonly used in modern systems.

Type III uses four leads for supervision signaling: E, M, SB, and SG.

During inactivity, the E-lead is open and the M-lead is set to the ground connected to the SG lead of the signaling side.

The PBX (that acts as trunk circuit side) disconnects the M-lead from the SG lead and connects it to the SB lead of the signaling side in order to indicate the off-hook condition.

The Cisco router / gateway (signaling unit) connects the E-lead to the ground in order to indicate the off-hook condition.

E&M Type IV—This is not supported by Cisco routers / gateways.

E&M Type V—Type V is symmetrical and allows two signaling nodes to be connected back-to-back. This is the most common interface type used outside of North America.

Type V uses two leads for supervisor signaling: E, and M.

During inactivity the E-lead and M-lead are open.

The PBX ( that acts as trunk circuit side) connects the M-lead to the ground in order to indicate the off-hook condition.

The Cisco router / gateway (signaling unit) connects the E-lead to the ground in order to indicate off-hook condition.

Audio Implementation (two-wire / four-wire) There are two distinct types of audio interface (two-wire or four-wire). These implementations describe the number of wires used in order to transmit audio signals.

With the two-wire implementation, full-duplex audio signals are transmitted over a single pair which consists of tip (T) and ring (R) leads.

The four-wire implementation provides separate paths to receive and send audio signals which consists of T, R and T1, R1 leads.

Note: Even though an E&M circuit can be called a four-wire E&M circuit, it is likely to have six to eight physical wires, based on the signaling type and audio implementation used.

This is a good discussion of the various types of E&M signalling. It should replace most of the E&M information in the article.

Ron 03:59, 15 December 2006 (UTC)