Pertemuan 09 Perangkat Keras dalam Komunikasi Data

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Transcript presentasi:

Pertemuan 09 Perangkat Keras dalam Komunikasi Data Matakuliah : H0484/Jaringan Komputer Tahun : 2005 Versi : 1/0 Pertemuan 09 Perangkat Keras dalam Komunikasi Data

Learning Outcomes Pada akhir pertemuan ini, diharapkan mahasiswa akan mampu : Mengidentifikasikan Perangkat keras jaringan

Outline Materi DTE/DCE Terminal Modem FDM TDM

PERANGKAT KERAS DTE (DATA TERMINAL EQUIPMENT) PERALATAN TEMPAT INFORMASI BERAWAL ATAU BERAKHIR DCE (DATA CIRCUIT TERMINATING EQUIPMENT): PERALATAN TEMPAT SALURAN KOMUNIKASI TERSAMBUNG MODEM (MODULATOR-DEMODULATOR) MELAKUKAN KONVERSI SINYAL DIGITAL MENJADI SINYAL ANALOG YANG DIPAKAI DAN MENAMBAH JARAK JANGKAU INFORMASI

PERANGKAT KERAS SALURAN TELEPON MEMPUNYAI BANDWIDTH SEKITAR 2400 Hz UNTUK TRANSMISI DATA MULTIPLEXER PERALATAN YANG MEMUNGKINKAN PENGGUNAAN SATU SALURAN KOMUNIKASI SECARA BERSAMA OLEH BEBERAPA SISTEM SAMPAI SEBATAS KAPASITAS NYA CONCENTRATOR FUNGSI DASAR SAMA DENGAN MULTIPLEXER TETAPI MEMPUNYAI KECERDASAN SEHINGGA DAPAT MELAKUKAN BEBERAPA FUNGSI LAIN

APLIKASI MODEM

Telephone line bandwidth

V.90 and V.92 “56K” modems, the fastest possible on voice grade lines, use the V.90 and V.92 standards. Downstream transmissions (from phone switch to the user’s computer) use a technique based on recognizing PCM’s 8-bit digital symbols instead of carrier wave modulation. With the V.90 standard, upstream transmissions are still based on the V.34+ standard. The V.92 standard uses this PCM symbol recognition technique for both up and downstream channels. The technique is very sensitive to noise and both V.90 and V.92 modems often must use lower data rates. The max. V.92 upstream rate is 48 kbps.

Traditional modems

56K modems (V.90)

V.90 and V.92 C.O. digital/analog conversion analog/digital NO -or- local loop analog C.O. digital V.90 modem PSTN digital/analog conversion analog/digital NO -or- V.90 server ISDN/T-1

Data Compression Data compression works by encoding redundancies in the outgoing data stream in a simpler form, then decoding them at the receiving end of the transmission. The V.42bis and V.44 use Lempel-Ziv compression. Lempel-Ziv encoding compresses creates a dictionary of 2-4 byte patterns, then transmits short codes for those patterns. The usually results in from 4:1 to 6:1 compression. With modest errors and reasonable compression, a V.90 modem at 56 kbps can have an effective data rate between 200-300 kbps using V.42bis or V.44.

Multiplexing Multiplexing combining several lower speed circuits into a higher speed one. The advantage to is that multiplexing is cheaper since fewer network circuits are needed. Inverse Multiplexing, is works in the opposite way, and breaks up a higher speed circuit into two or more lower speed ones There are four categories of multiplexing: Frequency division multiplexing (FDM) Time division multiplexing (TDM) Statistical time division multiplexing (STDM) Wavelength division multiplexing (WDM)

Prinsip Multiplexing

Frequency Division Multiplexing FDM an analog multiplexing technique that combines signals Useful bandwidth of medium exceeds required bandwidth of channel Each signal is modulated to a different carrier frequency Carrier frequencies separated so signals do not overlap (guard bands) e.g. broadcast radio Channel allocated even if no data

FDM Diagram

Time Division Multiplexing TDM is a digital multiplexing technique to combine data TDM allows multiple channels to be used by allowing the channels to send data by taking turns. TDM is sometimes referred to as dividing the circuit “vertically.” With TDM, time on the circuit is shared equally with each channel getting a specified time slot, whether or not it has any data to send. TDM is more efficient than FDM, since TDM doesn’t use guardbands, so the entire capacity can be divided up between the data channels.

TDM Diagram