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et&t 5th sem. raipur Railwey op sahu

This document provides an overview of telecommunication systems used by Indian Railways. It includes block diagrams of the FOIS and Railnet connectivity in the Raipur division. The key network components like routers, switches, firewalls etc. are described. Methods of communication include optical fiber, microwave, radio and telephonic systems. The document also explains telecom technologies like DTMF signaling, cable route detection, telephone exchanges and UPS systems. Diagrams of network topologies, keypads and other systems are included for reference. Earthing systems are also summarized for electrical safety purposes.

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A VACATIONAL TRANINIG REPORT ON TELECOMMUNICATION NI INDIAN RIALWAYS RAIPUR Submitted to RAMKRISHNA RATHORE GOVERNMENT POLYTECHNIC JANJGIR GUIDED BY; SUBMITTED BY Mr. SITARAM SHARMA OMPRAKASH SAHU Mr. R.R. SAHU ET&T 3 Year 5sem
CONTENT  INTRODUCTION  BLOCK DIAGRAM  NETWORK COMPONENT  METHODS OF COMMUNICATION IN RAILWAY  D.T.M.F(DUAL TONE MULTI FREQUENCY)  TONES  CABLE ROOT DETECTOR  EXCHANGE  UPS(UNINTERRUPTIBAL POWER SUPPLY)  EARTHING  CABLES
INTRODUCTION     Railway communication is means of sending or receiving information such as telephon computer. Basically telephone runs in two pairs but in railway communication four pairs of telephone lines are used. Two pairs are used for transmis are used for receiving. Handset used in railway communication is known as omnivores circuit.
FOIS CONNECTIVITY DIAGRAM ,RAIPUR DIVISION FIG(1.1) BLOCK DIAGRAM OF FOIS CONNECTIVITY, RAIPUR DIVISION
RAILNET CONNECTIVITY DIAGRAM OF RAIPUR DIVISION FIG(1.2): BLOCK DIAGRAM OF RAILNET CONNECTIVITY OF RAIPUR DIVISION
NETWORK COMPONENT ROUTER SWITCH FIREWALL NETWORK INTERFACE CARD MODEM HUB SERVER FIG(1.3): ALL NETWORK COMPONENTS
ROUTER • A router translates information from one network to another. It is similar to a super intelligent bridge. • A router can direct signal traffic efficiently. • A router can route messages between any two protocol. • Route messages between linear bus, star and star wired ring topologies. • Route messages across fiber optics, coaxial and twisted pair cabling. Fig(1.4);ROUTER
SWITCH •The switch is used to incorrect the nodes. •But it is more complex, versatile and also there is no division of bandwidth among the nodes. FIREWALL It is security purpose software, which is used to secure the server content, so the outside user could not temper the information, the user can read the information but can not write any thing.
NETWORK INTERFACE CARD • It is a device having intelligence to control access to the network and enable communication across the network. • Through network interface card the nodes are connected functionally and physically to the network. • It is also called network adapter. Fig (1.5). NIC CARD
MODEM    Modems are used for data transfer from one computer network to another computer network through telephone line. The computer network works in digital modes, while analog technology is used for carrying messages across phone lines. Modulator converts information from digital mode to analog mode at the transmitting end And demodulator digital at receiving end.
HUB •It is active junction box, used to connect the nodes and all the server using any type of cable. •It contain division of network bandwidth. •It can have a capacity of 8,16 or 24 nodes and the maximum distance between hub and nodes is 100M. SERVER A shared machine together with the software program which handles request and distribute the network resources such as data files and printer time both the machine and its software are jointly referred the as the server.
METHODS OF COMMUNICATION IN RAILWAY OPTICAL FIBRE COMMUNICATION:- • Between major stations. • Multiple links possible in between. • Fastest and secure. • Largest bandwidth. • Can carry very large number of channels. MICROWAVE:- • Wireless method. • Prone to weather. • Max range up to 40kms. • Bandwidth of 300MHz-300GHz RADIO COMMUNICATION:- Between driver and station master Low distance communication with in a railway station
LAN:- • Wired communication between different computers at a stations. • Internet and intranet access may be there. • RJ-45 cable or coaxial cable is used. • Works with in a station. TELEPHONIC COMMUNICATION:- • Works via a telephone line. • Often single channel is used. • Separate railway telecom. Exchange is set up for this purpose.
DUAL TONE MULTI FREQUENC DTMF is a signaling system for identifying the keys or bettersay the number dialed on a push button or DTMF keypad. DTMF as the name suggestuses a combination of two sine wave tone to represent a key. These tones are called row and column frequencies as they correspond to the layout of a telephone keypad. It is a two digit dialing system. Fig(1.6)-dual tone multifrequenc
DTMF KEYPAD      A DTMF keypad generates a sinusoidal tone which is mixture of the row and column frequencies. The row frequency are low group frequency. The column frequency are high group frequency. DTMF tones are able to represent one of the 16 different states or symbols on the keypad. This is equivalent to 4 bits of data, also known as nibble. FIG(1.7): DTMF KEYPAD
TONES DAIL TONES:-  When handset is picked up from the cradle this tone heard. If a free line is available this tone is continuous burble sound of 400Hz modulated by 25Hz. RING TONE:- • This tone is a continuous burble sound of 400 Hz modulated by 25Hz BUSY TONE:- • Called subscriber engaged with other call. This tone is a continuous of 400 Hz,generally on for 0.75 second & of for 0.75 second. NUMBER UNOBTAINEDTONE:- Dialed number connection no present in exchange. FIG(1.8): TONES
CABLE ROUTE DETECTOR   It is use for route tracing of any under ground metallic cable in communication, power transmission, distribution and signal cable networks or cable fault location service provider. It is also use to identification of wanted cable from bunch of cable in communication network. FEATURES:- • Route tracing of under ground any metallic cable up to 10km max length. • Depth measurement up to 5M. • Output power 1,2,4&8 watt selectable. • Output frequency 480,1450,9820Hz selectable. FIG(1.9): CABLE ROUTE DETECTOR
EXCHANGE • Equipment which effects interconnect of telephones is known as switching equipment. The switching center, which houses the terminating and switching equipment is called telephone exchange. • A telephone exchange is a telecommunication system used in the public switched telephone network or in largeente rprises. FIG(1.10): EXHANGE/KRONE BOX
PRINCIPAL OF EXCHANGE • Switching • Signaling • Controlling
CABLE • Telecommunication cables area type of guided transmission mediums. • Cables are usually known to transmit electric energy (AC/DC). • Cables in telecommunication field are used to transmit electromagnetic waves, they are called electromagnetic wave guide. Fig(1.11)
TYPES OF CABLES • Paper Cable • Derivation Cable • Jelly Cable • PBC Cable • OFC Cable • Submarine Cable Now a days OFC,PBC, JELLY cables are mostly used in telecommunication
UPS (UNINTERRUPTIBLE POWER SUPPLY) • Uninterruptible power supply is a device that provide battery backup when the power fails or drop to an unacceptable voltage level. • The switchover time must be small (2 to 4 ms) enough to not cause break in the operation of the loads. FIG(1.12): UPS
TYPES OF UPS • ONLINE UPS • OFFLINE UPS • LINEINTERACTIVE UPS
ONLINE UPS • Double conversion (AC to DC, DC to AC). • IGBT PWM inverters . • Continuous rated static bypass. • Maintenance bypass. • 6 or 12 pulse SCR Rectifier. • Input harmonic filter. FIG(1.13): ONLINE UPS
OFFLINE UPS • Utility power is feeding the load. • Disconnect switch (solids state or electro-mechanical). • Charger is on, keeping the battery under charge. • Inverter is off. • No voltage or frequency regulation. • 4 to 10 msec transfer time. FIG(1.14): OFFLINE UPS
LINE-INTERACTIVE UPS • Utility power is feeding the load, through energy storage device. • Typical storage device motor generator. • Disconnect switch. • Charger is on, keeping the battery under charge. • Inverter is off. • Voltage regulation. • 4 to 10 msec transfer time. FIG(1.15):LINE-INTERACTINGUPS
EARTHING The main reason for doing earthing for electrical safety. When all metallic parts inelectrical equipment are grounded then if the insulation inside the equipment fails there are no dangerous voltage present in the equipment. If the live wire touches the grounded case then the circuit is effectively shorted and fuse will immediately blow. When the fuse is blown then the dangerous voltages are away. Fig(1.16).- Earthin
PURPOSE OF EARTHING   Safety for human life/building/equipment. Over voltage protection. Voltage stabilization.
et&t 5th sem. raipur Railwey op sahu

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et&t 5th sem. raipur Railwey op sahu

  • 1.
    A VACATIONAL TRANINIG REPORTON TELECOMMUNICATION NI INDIAN RIALWAYS RAIPUR Submitted to RAMKRISHNA RATHORE GOVERNMENT POLYTECHNIC JANJGIR GUIDED BY; SUBMITTED BY Mr. SITARAM SHARMA OMPRAKASH SAHU Mr. R.R. SAHU ET&T 3 Year 5sem
  • 2.
    CONTENT  INTRODUCTION  BLOCKDIAGRAM  NETWORK COMPONENT  METHODS OF COMMUNICATION IN RAILWAY  D.T.M.F(DUAL TONE MULTI FREQUENCY)  TONES  CABLE ROOT DETECTOR  EXCHANGE  UPS(UNINTERRUPTIBAL POWER SUPPLY)  EARTHING  CABLES
  • 3.
    INTRODUCTION     Railway communication ismeans of sending or receiving information such as telephon computer. Basically telephone runs in two pairs but in railway communication four pairs of telephone lines are used. Two pairs are used for transmis are used for receiving. Handset used in railway communication is known as omnivores circuit.
  • 4.
    FOIS CONNECTIVITY DIAGRAM ,RAIPURDIVISION FIG(1.1) BLOCK DIAGRAM OF FOIS CONNECTIVITY, RAIPUR DIVISION
  • 5.
    RAILNET CONNECTIVITY DIAGRAM OF RAIPURDIVISION FIG(1.2): BLOCK DIAGRAM OF RAILNET CONNECTIVITY OF RAIPUR DIVISION
  • 6.
    NETWORK COMPONENT ROUTER SWITCH FIREWALL NETWORK INTERFACECARD MODEM HUB SERVER FIG(1.3): ALL NETWORK COMPONENTS
  • 7.
    ROUTER • A routertranslates information from one network to another. It is similar to a super intelligent bridge. • A router can direct signal traffic efficiently. • A router can route messages between any two protocol. • Route messages between linear bus, star and star wired ring topologies. • Route messages across fiber optics, coaxial and twisted pair cabling. Fig(1.4);ROUTER
  • 8.
    SWITCH •The switch isused to incorrect the nodes. •But it is more complex, versatile and also there is no division of bandwidth among the nodes. FIREWALL It is security purpose software, which is used to secure the server content, so the outside user could not temper the information, the user can read the information but can not write any thing.
  • 9.
    NETWORK INTERFACE CARD •It is a device having intelligence to control access to the network and enable communication across the network. • Through network interface card the nodes are connected functionally and physically to the network. • It is also called network adapter. Fig (1.5). NIC CARD
  • 10.
    MODEM    Modems are usedfor data transfer from one computer network to another computer network through telephone line. The computer network works in digital modes, while analog technology is used for carrying messages across phone lines. Modulator converts information from digital mode to analog mode at the transmitting end And demodulator digital at receiving end.
  • 11.
    HUB •It is activejunction box, used to connect the nodes and all the server using any type of cable. •It contain division of network bandwidth. •It can have a capacity of 8,16 or 24 nodes and the maximum distance between hub and nodes is 100M. SERVER A shared machine together with the software program which handles request and distribute the network resources such as data files and printer time both the machine and its software are jointly referred the as the server.
  • 12.
    METHODS OF COMMUNICATION IN RAILWAY OPTICALFIBRE COMMUNICATION:- • Between major stations. • Multiple links possible in between. • Fastest and secure. • Largest bandwidth. • Can carry very large number of channels. MICROWAVE:- • Wireless method. • Prone to weather. • Max range up to 40kms. • Bandwidth of 300MHz-300GHz RADIO COMMUNICATION:- Between driver and station master Low distance communication with in a railway station
  • 13.
    LAN:- • Wired communicationbetween different computers at a stations. • Internet and intranet access may be there. • RJ-45 cable or coaxial cable is used. • Works with in a station. TELEPHONIC COMMUNICATION:- • Works via a telephone line. • Often single channel is used. • Separate railway telecom. Exchange is set up for this purpose.
  • 14.
    DUAL TONE MULTIFREQUENC DTMF is a signaling system for identifying the keys or bettersay the number dialed on a push button or DTMF keypad. DTMF as the name suggestuses a combination of two sine wave tone to represent a key. These tones are called row and column frequencies as they correspond to the layout of a telephone keypad. It is a two digit dialing system. Fig(1.6)-dual tone multifrequenc
  • 15.
    DTMF KEYPAD      A DTMFkeypad generates a sinusoidal tone which is mixture of the row and column frequencies. The row frequency are low group frequency. The column frequency are high group frequency. DTMF tones are able to represent one of the 16 different states or symbols on the keypad. This is equivalent to 4 bits of data, also known as nibble. FIG(1.7): DTMF KEYPAD
  • 16.
    TONES DAIL TONES:-  Whenhandset is picked up from the cradle this tone heard. If a free line is available this tone is continuous burble sound of 400Hz modulated by 25Hz. RING TONE:- • This tone is a continuous burble sound of 400 Hz modulated by 25Hz BUSY TONE:- • Called subscriber engaged with other call. This tone is a continuous of 400 Hz,generally on for 0.75 second & of for 0.75 second. NUMBER UNOBTAINEDTONE:- Dialed number connection no present in exchange. FIG(1.8): TONES
  • 17.
    CABLE ROUTE DETECTOR   Itis use for route tracing of any under ground metallic cable in communication, power transmission, distribution and signal cable networks or cable fault location service provider. It is also use to identification of wanted cable from bunch of cable in communication network. FEATURES:- • Route tracing of under ground any metallic cable up to 10km max length. • Depth measurement up to 5M. • Output power 1,2,4&8 watt selectable. • Output frequency 480,1450,9820Hz selectable. FIG(1.9): CABLE ROUTE DETECTOR
  • 18.
    EXCHANGE • Equipment whicheffects interconnect of telephones is known as switching equipment. The switching center, which houses the terminating and switching equipment is called telephone exchange. • A telephone exchange is a telecommunication system used in the public switched telephone network or in largeente rprises. FIG(1.10): EXHANGE/KRONE BOX
  • 19.
    PRINCIPAL OF EXCHANGE •Switching • Signaling • Controlling
  • 20.
    CABLE • Telecommunication cablesarea type of guided transmission mediums. • Cables are usually known to transmit electric energy (AC/DC). • Cables in telecommunication field are used to transmit electromagnetic waves, they are called electromagnetic wave guide. Fig(1.11)
  • 21.
    TYPES OF CABLES •Paper Cable • Derivation Cable • Jelly Cable • PBC Cable • OFC Cable • Submarine Cable Now a days OFC,PBC, JELLY cables are mostly used in telecommunication
  • 22.
    UPS (UNINTERRUPTIBLE POWER SUPPLY) •Uninterruptible power supply is a device that provide battery backup when the power fails or drop to an unacceptable voltage level. • The switchover time must be small (2 to 4 ms) enough to not cause break in the operation of the loads. FIG(1.12): UPS
  • 23.
    TYPES OF UPS •ONLINE UPS • OFFLINE UPS • LINEINTERACTIVE UPS
  • 24.
    ONLINE UPS • Doubleconversion (AC to DC, DC to AC). • IGBT PWM inverters . • Continuous rated static bypass. • Maintenance bypass. • 6 or 12 pulse SCR Rectifier. • Input harmonic filter. FIG(1.13): ONLINE UPS
  • 25.
    OFFLINE UPS • Utilitypower is feeding the load. • Disconnect switch (solids state or electro-mechanical). • Charger is on, keeping the battery under charge. • Inverter is off. • No voltage or frequency regulation. • 4 to 10 msec transfer time. FIG(1.14): OFFLINE UPS
  • 26.
    LINE-INTERACTIVE UPS • Utilitypower is feeding the load, through energy storage device. • Typical storage device motor generator. • Disconnect switch. • Charger is on, keeping the battery under charge. • Inverter is off. • Voltage regulation. • 4 to 10 msec transfer time. FIG(1.15):LINE-INTERACTINGUPS
  • 27.
    EARTHING The main reasonfor doing earthing for electrical safety. When all metallic parts inelectrical equipment are grounded then if the insulation inside the equipment fails there are no dangerous voltage present in the equipment. If the live wire touches the grounded case then the circuit is effectively shorted and fuse will immediately blow. When the fuse is blown then the dangerous voltages are away. Fig(1.16).- Earthin
  • 28.
    PURPOSE OF EARTHING   Safetyfor human life/building/equipment. Over voltage protection. Voltage stabilization.