a0ec905ff391207d2274d5fcdc7a7aac.ppt
- Количество слайдов: 46
3. Data Communications 3. 1 Basic concepts of data communications and networking
Data Communications System Transmitter – transmit data to another medium. Receiver – receive data from a transmitter. Medium of transfer – the medium for transfer of data.
Data Communications System Transmitter Letter by post Sender Medium Post Office Receiver Recipient TV programme TV transmission station Microwave Antenna
Communications Model Source System Source Workstation Transmitter Modem Destination System Transmission system Public Telephone Network Receiver Modem Destination Server
Simplex Transmission Simplex communication means that communication can only flow in one direction and never flow back the other way. Data
Half-duplex Transmission Half-duplex data transmission means that data can be transmitted in both directions on a signal carrier, but not at the same time. Data
Full-duplex Transmission Full-duplex data transmission means that data can be transmitted in both directions on a signal carrier at the same time. Data
Real life examples Simplex transmission – Pager Half-duplex transmission – Telephone, facsimile Full-duplex transmission – Dual Carriageway
Data Transmission Rate Data transmission rate: bps, Kbps, Mbps – bits per second Kbps – kilo-bits per second Mbps – mega-bits per second Bps – bytes per second 1 Byte = 8 bits
Serial Transmission The transfer of discrete signals one after another. Bits travel sequentially along the same wire. Send information over a single line one bit at a time, as in modem-to-modem connections.
Parallel Transmission The simultaneous transmission of a group of bits over separate wires. The transmission of 1 byte (8 -bits) with computers.
Parallel Transmission Relatively fast Limited distance before data is lost As short as possible (no longer than 15 feet) As the length of cable increases so does the danger of cross-talk.
Serial Transmission Not as fast as parallel transmission Can transmit data for longer distances
Asynchronous Transmission In modem communication, a form of data transmission in which data is sent one character at a time. In addition, a parity bit is usually used for error checking. Avoid timing problem by not sending long, uninterrupted streams of bits. Data bits Parity bit Start bit Stop bit The coding of a typical character sent in asynchronous transmission
Asynchronous Transmission 0 Idle state of line Start bit Odd, even, or unused 5 to 8 data bits 1 – 2 bit times Stop 1 P bit Character format Remain idle or next start bit
Asynchronous Transmission Unpredictable time interval Between characters Start bit Stop bit 11 1 1 0 0 01 Start bit 00 1 0 11 0 0 8 -bit asynchronous character stream Stop bit
Asynchronous Transmission Start 0 100 200 300 400 500 600 700 800 1 0 2 3 4 5 6 7 8 Transmitter timing Stop 93 186 279 372 465 558 651 744 Receiver timing Effect of timing error Assumptions: data rate of 10 kbps 0. 1 ms each bit. The receiver is off by 7% or 0. 007 ms per bit-time The receiver samples the incoming character every 0. 093 ms (based on the transmitter’s clock).
Asynchronous Transmission Advantages: – simple – cheap Disadvantages: – requires an overhead of 2 – 3 bits per character (start and stop bits) (>=20%) – cannot send large blocks or bits between start and stop bits with great cumulative timing error
Synchronous Transmission Data transfer in which information transmitted in block (frames) of bits separated by equal time intervals A block of bits is transmitted in a steady stream without star and stop codes
Synchronous Transmission Method 1: – Provide a separate clock line between transmitter and receiver – The other side uses these regular pulses as a clock – This technique works well over short distances Method 2: – Embed the clocking information in the data signal
Synchronous Transmission Synchronous frame format preamble 8 -bit Control flag fields postamble Data fields Control 8 -bit fields flag
Synchronous Transmission Advantage: – For sizable/large blocks of data, synchronous transmission is far more efficient that asynchronous. – The control information, preamble, and postamble are typically less than 100 bits. – E. g. 48 bits of control, preamble, and postamble with 1000 -character block of data, each frame consists of 48 bits of overhead and 8000 bits of data, so % overhead = 48/8048 x 100% = 0. 6%
Data Transfer Directed from PC to PC Direct Cable Connection – A null modem cable allows you to connect your PC to another nearby PC or serial device using its modem protocol. – A null modem cable is limited to 30 feet in length. – A null modem cable is sometimes called crossover cable.
Crossover Cable A crossover cable is a cable that is used to interconnect two computers by "crossing over" (reversing) their respective pin contacts. Either an RS-232 C or an registered jack (e. g. RJ-45) connection is possible.
Diagrams on RJ-11 and RJ-45 Interfaces
RS-232 C Your computer modem uses one of your PC's serial connections or COM ports. Serial communication between your PC and the modem and other serial devices adheres to the RS-232 C (Recommended Standard-232 Current Version) standard.
RS-232 C Pin Settings for Plug (Reverse Order for Socket) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 25 pins
RS-232 C Pin Settings for Plug (Reverse Order for Socket) 1 2 3 4 5 14 15 16 17 9 pins
RS-232 C 1 – PG Protective ground 2 – TD Transmitted data (3 for 9 -pin) 3 – RD Received data (2 for 9 -pin) 4 – RTS Request to send (7 for 9 -pin) 5 – CTS Clear to send (8 for 9 -pin) 6 – DSR Data set ready (6 for 9 -pin) 7 – SG Signal ground (5 for 9 -pin) 8 – CD Carrier detect (1 for 9 -pin) 9 – + voltage (testing) 10 – - voltage (testing) 11 – 12 – SCD Secondary CD 13 – SCS Secondary CTS
RS-232 C 14 – STD Secondary TD 15 – TC Transmit clock 16 – SRD Secondary RD 17 – RC Receiver clock 18 – 19 – SRS Secondary RTS 20 – DTR Data terminal ready (4 for 9 -pin) 21 – SQD Signal quality detector 22 – RI Ring indicator (9 for 9 -pin) 23 – DRS Data rate select 24 – XTC External clock 25 –
Possible reasons to connect two computers directly to each other Playing a game competitively (one person at each computer) with fast response time Testing one computer by examining its behavior at the other computer Saving the cost of a hub when you want to interconnect two devices in the same home or office
Data Modem – Modulator and Demodulator Modulator – convert digital signal (data in PC) to analogue signal (data via telephone line) Demodulator – convert analogue signal to digital signal
Data Modem Digital signal Modulation Analogue signal PC Modem Public Telephone Network PC Digital signal Modem Analogue signal Demodulation
Data Modem Baud Rate – This refers to the number of signals per one second transmitted Bit Rate – The bit rate is multiplied by the bits per signal
Sources of errors during data transmission Attenuation – Signal grows weak over distance White noise – Caused by molecular movement Impulse noise – Caused by electrical interference Cross-talk – Caused by interference from adjacent lines
DCE and DTE – Data Terminal Equipment which is the ultimate source or final destination of data messages DCE – Data Circuit-Terminating Equipment which connects the DTE to the communication circuits
Abbreviations found in an External Modem HS – The High Speed light indicates that your modem is currently operating at its highest available transmission rate AA – The Auto Answer light indicates that your modem will automatically answer any incoming calls. This features allows access to your system while it is unattended CD – The Carrier Detect light goes on when your modem has successfully made a connection with a remote computer OH – The Off-Hook light goes on whenever your modem takes control of the phone line
Abbreviations found in an External Modem RD – The Terminal Ready light goes on when the modem detects a DTR (Data Terminal Ready) signal from your communications software. This signal informs your modem that a communications program is loaded and ready to run – The Receive Data light flickers each time the modem receives data from the remote computer SD – The Send Data light flashes whenever the modem sends data to the remote computer TR MR – The Modem Ready light lets you know that your modem is turned on and ready to operate
Bandwidth The capacity at which you can transfer data is called bandwidth Typical telephone line: 33, 600 kilobits per second (33. 6 Kbps) Cable TV: 10 megabits per second (10 Mbps) – almost 300 times the capacity of the normal phone connection
Bandwidth Frequency – Frequency is measured in the number of cycles of change per second, or hertz (Hz). Latency – In a network, latency, a synonym for delay, is an expression of how much time it takes for a packet of data to get from one designated point to another.
Bandwidth f=1/ (wave length)
Bandwidth High frequency Wide bandwidth
Bandwidth Low frequency Narrow bandwidth
Bandwidth is used to mean – How fast data flows on a given transmission path – The width of the range of frequencies that an electronic signal occupies on a given transmission medium Any digital and analog signal has a bandwidth
Bandwidth Voice-grade phone line – Range of freq. : 300 to 3000 Hz – Bandwidth = 3000 – 300 = 2700 Human voice – Range of freq. : 20 to 20000 Hz – Bandwidth = 19980
E. g. Video transmission times Pixels per screen (640*480) Bytes per pixel 307200 8 Total bits per screen Frames per second 2457600 30 Total bits per second 73728000
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