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signaling link – full duplex

Viewing 6 posts - 1 through 6 (of 6 total)
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  • #53754
    Ram
    Guest

    Hi all,
    How a signaling link can be known to operate as full-duplex. We define a single time slot and how it can work in full duplex mode. Pls clarify

    #53755
    pix
    Guest

    one timeslot = 1 timeslot in UL (using lower frequency band) + 1 TS in DL (using upper frequency band)

    when you say frequency ARFCN “1” is allocated to one TRX, actually it means that the TRX will transmit in a DL frequency 935.2 MHz and receive on a UL frequency 890.2 MHz .

    that’s why it’s full duplex.

    that’s the same for Abis links : one TS actually describes 2 TS in opposite directions.

    #53756
    Ram
    Guest

    Hi pix,
    Thanks for the reply. I am concerned with the ss7 signaling link. we define one time slot per link between the nodes. How that one TS can act in full-duplex mode. Pls clarify

    #53757
    pix
    Guest

    i just clarified !!
    what you call one timeslot is implicitely equivalent to 1 timeslot in DL and 1 timeslot in UL.

    this is physical.. just ready wikipedia about E1 for instance… you have 2 pairs of cables in one E1 : 1 pair for UL and 1 parir for DL.

    #53758
    Ram
    Guest

    Thanx pix,
    I am clear now with duplex communication. I also need to know the technique by which two exchanges interact with each other. For example, we speak that the 64kbps speech is carried by a device in E1. How it is carried. In electricity, the current will flow from higher potential to lower potential. Is there any similar technology in speech transfer also. I dont want to restrict it to speech. I want to be cleared with signaling link also.

    regards,
    ram

    #53759
    pix
    Guest

    as stated in wikipedia:

    “An E1 link operates over two separate sets of wires, usually twisted pair cable. A nominal 3 Volt peak signal is encoded with pulses using a method that avoids long periods without polarity changes. The line data rate is 2.048 Mbit/s (full duplex, i.e. 2.048 Mbit/s downstream and 2.048 Mbit/s upstream) which is split into 32 timeslots, each being allocated 8 bits in turn. Thus each timeslot sends and receives an 8-bit sample 8000 times per second (8 x 8000 x 32 = 2,048,000). This is ideal for voice telephone calls where the voice is sampled into an 8 bit number at that data rate and reconstructed at the other end. The timeslots are numbered from 0 to 31.”

    whether it’s speech, data or signalling it’s always the same principle. This is layer-1, it doesn’t care what is being transported…

Viewing 6 posts - 1 through 6 (of 6 total)
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