Multiplexing is a set of
techniques that allows the simultaneous transmission of multiple signals across
a single link. It is much more convenient to use a single
wire to carry several signals than to install a wire for every signal. Multiplexing
increases the channel utilization, which means that, if the bandwidth of the
channel that link two devices is grater than the bandwidth requirements, then some
portion of the channel is wasted. For multiplexing,
we use two components: multiplexer and demultiplexer. A multiplexer takes n-inputs and after
combining it produces one output (many-to-one). The demultiplexer separates the
combined signal into individual signals as they input to the multiplier (one-to-many).
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| Multiplexing |
Here
we discuss three types of multiplexing techniques: frequency-division
multiplexing (analog signal), wavelength-division multiplexing (analog signal),
and time-division multiplexing (digital signal).
Frequency Division Multiplexing
In Frequency
division multiplexing, modulate input signals that are generated by sending
devices into different carrier frequencies. These modulated signals are then
combined into a single composite signal. The composite signal is send over the
carrier link. Guard bands are used to separate
signals from overlapping.
Wavelength Division Multiplexing (WDM)
Wavelength
division multiplexing is used explore highest data rate of the optical fiber
cable. WDM is
an analog multiplexing technique. Here we combine the
signals with high frequency into a single composite signal at the sender and demultiplex
them at the receiving end. WDM is logically same as the FDM, the difference is
that WDM uses high frequency signals.
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| Wavelength division multiplexing |
Time Division Multiplexing
In
time division multiplexing, several connections share the high bandwidth of a
channel. The difference between FDM and TDM is that, Instead of sharing a portion of the bandwidth as in FDM, TDM share
the time.
TDM is a digital multiplexing technique.
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| Time division multiplexing |
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