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Grounding

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Grounding & Bonding ELCM 247 Module D * Equipment grounding (cont.): The grounding conductor should be bonded to the nearest accessible earth-ground The bonding ... – PowerPoint PPT presentation

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Title: Grounding


1
Grounding Bonding
  • ELCM 247 Module D

2
Grounding and Bonding
  • Two principles govern the need for robust
    grounding and bonding practices.
  • Safety (Personal, Public Property)
  • Network Performance (Noise)

3
A Closer Look atGrounding and Bonding
  • Standards from the following organizations are
    the four main sources for information about
    grounding and bonding codes and practices
  • Canadian Electrical Code (CEC Section 10)
  • ANSI/EIA/TIA-607 Commercial Building Grounding
    and Bonding for Telecommunications
  • Underwriters Laboratories UL-497 Protectors for
    Paired Conductor Communication Circuits
  • IEEE Standard 142-1991 Grounding of Industrial
    and Commercial Power Systems

4
A Closer Look atGrounding and Bonding
  • Grounding, Bonding, and Effective Ground
  • a) A ground is a conducting connection between an
    electrical circuit and the earth, or a conducting
    body

5
Grounding and Bonding
  • b)Bonding is the permanent joining of metallic
    parts to form a conductive path that ensures
    electrical continuity and safely conducts
    current.
  • c) An effective ground is an intentional
    connection to a low-resistance earth ground that
    permits current to discharge into the earth
    without buildup of hazardous voltages on the
    cable, equipment, or people

6
A Closer Look atGrounding and Bonding
  • Grounding and bonding network components
  • When designed and installed following the
    appropriate codes, specifications, and safety
    practices, the grounding and bonding network
    components create a system that effectively
    safeguards personnel, property, and equipment
  • The most common hazard in grounding and bonding
    networks is electric shock, which occurs from
    accidental contact with energized devices
  • The effects of electrical shock are determined by
    the magnitude of current and duration of the shock

7
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8
A Closer Look atGrounding and Bonding
  • Every building has a grounding electrode, a
    conductor that provides a direct, low-resistance
    connection to the earth
  • A grounding conductor connects the electrical
    equipment to the grounding electrode and the
    building's main grounding busbar
  • The main grounding busbar is a conductor that
    serves as a common connection point for two or
    more circuits the busbar is solid copper with
    insulated standoffs

9
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10
A Closer Look atGrounding and Bonding
  • Telecommunications circuit protectors are used to
    protect telecommunications facilities and
    equipment from abnormally high voltages and
    currents. This protection is in addition to the
    requirements and recommendations for grounding
    and bonding telecommunications systems
  • Underground trunking cables are not considered
    exposed but are considered protected from
    lightning and electrical distribution.

11
A Closer Look atGrounding and Bonding

Perhaps the greatest threat To OSP facilities
12
A Closer Look atGrounding and Bonding
  • The tremendous voltages inherent in lightening
    bolts give cause for great concern and fear.
  • Essentially the release of potential energy
    through living objects cause fluids within to
    boil and explode the body containing them.

13
A Closer Look atGrounding and Bonding
  • The greatest threat from lightening to
    communications systems in realized in Outside
    Plant components.
  • OSP proximity to Power Transmission exposes its
    components to similar damage potential.
  • Telecom Towers, Arial Cable and Building Masts
    are examples of high risk components.

14
A Closer Look atGrounding and Bonding
  • We know the devastating effect lightening can
    have on living objects, but what is the risk to
    communication equipment?
  • Where ever there lightening not far away in
    moisture in the air.
  • Precipitation is well known to cause fading in
    wireless path transmission.
  • Moisture in the form of water, ice and snow can
    also cause great damage to telecom
    infrastructure.

15
A Closer Look atGrounding and Bonding
  • Water entry to splice points and access
    terminals will cause corrosion to metallic parts.
  • The result is noise or unwanted signal
    interfering with a transmission.
  • Static or noise can become stronger in level
    completely masking an intelligent signal.
  • Noise basically attenuate signal strength.
  • We hear the result as a crackle sound (analog) or
    measure corrupt data (digital)

16
A Closer Look atGrounding and Bonding
  • The Canadian Electrical Code if the foremost
    authority on GB requirements in Canada.
  • Understanding Ohm law helps appreciate the risk
    associated with electrical shock.
  • High voltage and some resistance for short
    duration can be fatal.
  • Milliamps of current can cause critical muscle
    reactions

17
A Closer Look atGrounding and Bonding
  • Mitigating the effects of unwanted voltages from
    our transmission in of paramount importance.
  • All OSP work spaces should be tested prior to
    entry with approved and calibrated voltage
    detectors.
  • If foreign voltage in excess is measured the
    space should not be entered.
  • Further, the site should be identified and tagged
    ensuring are aware of the risk potential.

18
A Closer Look atGrounding and Bonding

Non Contact Voltage Detector
19
A Closer Look atGrounding and Bonding
  • Section 10 CEC
  • Interior wiring should not be exposed to AC
    voltages greater than 150 V
  • Two wire DC operating between 50 V and 300 V must
    be grounded
  • Circuits less than 50 V must be grounded if.
  • Run overhead outside of buildings.
  • Where supplied by greater than 150 V

20
A Closer Look atGrounding and Bonding
  • Grounding and bonding network components
  • Every building has a grounding electrode, a
    conductor that provides a direct, low-resistance
    connection to the earth
  • A grounding conductor connects the electrical
    equipment to the grounding electrode and the
    building's main grounding busbar
  • The main grounding busbar is a conductor that
    serves as a common connection point for two or
    more circuits the busbar is solid copper with
    insulated standoffs

21
A Closer Look atGrounding and Bonding
  • Grounding and bonding network components
  • Conductors used specifically for bonding are
    called bonding conductors the conductor that
    connects the buildings service equipment ground
    to the telecommunications grounding system is
    called the bonding conductor for
    telecommunications (BCT)
  • The BCT is a No. 6 AWG (American Wire Gauge) or
    larger insulated copper conductor that connects
    the equipment ground to the telecommunications
    main grounding busbar

22
A Closer Look atGrounding and Bonding
  • Grounding and bonding network components
  • The telecommunications main grounding busbar
    (TMGB) is the foundation of the grounding system
    and it serves as an interface to the buildings
    power
  • The TMGB also serves as a central connection
    point for the telecommunications bonding backbone
    (TBB) and equipment
  • Usually there is one TMGB per building it is
    typically in the entrance room (facility), the
    building entrance for both public and private
    network service cables, or in the main
    telecommunications room

23
A Closer Look atGrounding and Bonding
  • Grounding and bonding network components
  • In each telecommunications room the
    telecommunications grounding busbar (TGB)
    provides a common access point of connection for
    systems and equipment bonding to ground
  • The TGB is built in a similar fashion to the TMGB
    and it should be installed as close as possible
    to the panel board in the telecommunications room
  • If a backboard (a panel for mounting system
    hardware and equipment) is located in the same
    room as a TGB, it should be bonded to the TGB

24
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25
A Closer Look atGrounding and Bonding
  • Grounding and bonding network components
  • The TMGB and all TGBs are interconnected by a No.
    6 AWG or larger insulated conductor, the TBB
  • The TBBs primary function is to reduce or
    equalize differences in the telecommunications
    systems bonded to it it is considered part of
    the grounding and bonding infrastructure, but it
    is independent of all equipment and cable
  • The TBB begins at the TMGB and extends throughout
    the building, using the telecommunications
    backbone pathways

26
A Closer Look atGrounding and Bonding
  • When planning TBB installation, the following
    design considerations are important
  • Be consistent with the design of the
    telecommunications backbone cabling system
  • Use multiple TBBs if the building size permits
    it, but they must be bonded together at the top
    floor
  • Bonding conductors between a TBB and TGB must be
    continuous and routed as directly as possible
  • Dont use interior water pipe systems or metallic
    cable shields as a TBB

27
Grounding and BondingSystem vs. Equipment
  • A building has six types of grounding and bonding
    systems designed to provide overall protection
    for the building and its occupants
  • Lightning protection system
  • Grounding electrode system
  • Electrical bonding and grounding system
  • Electrical power protection system
  • Telecommunications bonding and grounding system
  • Telecommunications circuit protector system

28
Grounding and BondingSystem vs. Equipment
  • Grounding systems
  • Lightning protection systems provide a designed
    path for lightning current to travel
  • Lightning protection systems are made up of
    several components air terminals (lightning
    rods) conductors ground terminations (ground
    rods) surge arresters and surge protectors
  • The telecommunications ground must be bonded to
    the lightning protection system within 3.7 meters
    of the base of the building

29
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30
Grounding and BondingSystem vs. Equipment
  • Grounding systems (cont.)
  • Grounding electrode systems are the end product
    of bonding together all metal underground water
    pipes, the metal frame of the building, any
    electrode that is encased in concrete, any ground
    ring, and any made or other electrodes
  • Other electrodes include rod and pipe electrodes,
    plate electrodes, and metal underground systems
  • Grounding electrode system forms a single,
    reliable ground for a building

31
Grounding and BondingSystem vs. Equipment
  • Grounding systems (cont.)
  • Both the electrical bonding and grounding systems
    and the electrical power protection system refer
    to the requirements for all electrical
    installations, such as types, sizes, methods and
    locations of conductors and connections
  • Three scientific principles guide bonding
    conductors equalization, diversion, and coupling
  • The type of bonding conductors used in most
    commercial buildings depends on the application
    and the fault-current-carrying capacity needed

32
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33
Grounding and BondingSystem vs. Equipment
  • Equipment grounding
  • Each type of grounding equipment has its own set
    of grounding and bonding specifications
  • The primary purpose of equipment grounding is to
    remove potentially dangerous voltages it also
    protects against electrical shock and prevents
    heat building up in the equipment
  • Earth grounding is an intentional connection from
    a circuit conductor to a ground electrode placed
    in the earth and it provides a safe path for the
    dissipation of fault currents

34
Grounding and BondingSystem vs. Equipment
  • Equipment grounding (cont.)
  • The grounding conductor should be bonded to the
    nearest accessible earth-ground
  • The bonding jumper must be no smaller than AWG 6
    copper, it must be connected between the
    communications system grounding electrode and the
    buildings power grounding electrode system
  • Termination is the connection of a cable to
    connecting hardware the earth ground must
    terminate to the grounding electrode using either
    exothermic welding, listed lugs or clamps, or
    listed pressure connector

35
The process of exothermic welding is a method of
making electrical connections of copper to copper
or copper to steel in which no outside source of
heat or power is required.
(Outside Heating application)
36
Grounding and BondingSystem vs. Equipment
  • Equipment grounding (cont.)
  • An intrinsically safe system operates by
    preventing ignition of flammable or combustible
    material under normal or abnormal conditions
  • The primary advantage of intrinsically safe
    systems is that ordinary wiring is allowed
  • Intrinsically safe systems are composed of safe
    interconnecting cables, cable shields,
    enclosures, cable trays, and raceways all items
    must be grounded with an equipment grounding
    electrode, and bonded with an approved method
  • Intrinsically safe definition
  • http//en.wikipedia.org/wiki/Intrinsic_safety

37
Cable Protection and Equipment-Grounding Practices
  • Inside cable and wire is that which runs from
    communications equipment to the protector
  • All types of inside communication cables and
    wires must be rated for resistance to the spread
    of fire, be suitable for the installation site,
    and have a voltage rating of at least 300 volts
    the conductors in these cables, other than fiber,
    must be copper
  • Specific installation requirements include the
    separation of communications cables and
    electrical power cabling using approved fire
    stopping methods proper conduit use

38
Cable Protection and Equipment-Grounding Practices
  • Inside cable and wire (cont.)
  • When using an unshielded backbone cable, a TBB
    conductor should be used with it the TBB must be
    bonded to the grounding using the grounding
    busbar nearest the termination point of the cable
  • The shields of shielded cable are usually
    grounded at one end to a connector panel, which
    must be bonded to the closest approved ground
  • In smaller equipment rooms, equipment is usually
    grounded via the closest ground larger buildings
    with multiple equipment rooms require multiple
    TGBs

39
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40
Telecommunications Circuit Protectors
  • A telecommunications circuit protector is a
    device that protects telecommunications
    facilities and equipment from abnormally high
    voltages and current
  • High voltage and currents are usually caused by
    exposure to lightning, accidental contact with
    electrical light, or power conductors operating
    at over 300 volts to ground
  • There are three types of telecommunications
    circuit protectors primary secondary and data
    and fire alarm

41
Telecommunications Circuit Protectors
  • Primary protectors are most typically made from
    carbon blocks, gas tubes, or solid state
  • When ready to install, follow these installation
    practices they should be installed immediately
    adjacent to the exposed cables point of
    entrance for long-term reliability, ensure that
    the installation is in a noncorrosive atmosphere
    adequate lighting is very important when
    installed in a metal box, bond the box with a
    grounding conductor directly to the protectors
    ground when installed outside, use cabinets,
    boxes and mounting hardware

42
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43
Telecommunications Circuit Protectors
  • Secondary protectors are typically made from heat
    coil, sneak-current fuse, or PTC resistors
  • Secondary protectors must coordinate with the
    lightning transient and power-fault requirements
    of primary protection
  • For this reason, secondary protectors often
    include primary protection device materials, and
    secondary protection is usually available as an
    option on primary protectors
  • Secondary protectors must handle sneak current
  • Sneak current protection The application of a
    protective device that is intended to limit
    currents too small to operate fuse links, stub
    cables, or the fuse of a fused primary protector.

44
How Documentation Helps You and Your Network
  • The advantages of keeping documentation
  • It serves as a comprehensive reference
  • It allows for easier additions, moves, and
    changes to equipment and workstations
  • It can be a valuable source when troubleshooting
  • It can provide the necessary justification for
    adding staff or equipment
  • It provides proof that the installation meets a
    manufacturers hardware or software requirements
  • It makes security management more effective

45
A Spark Gap
  • A spark gap consists of an arrangement of two
    conducting electrodes separated by a gap usually
    filled with a gas such as air. When a suitable
    voltage is supplied, a spark forms, ionizing the
    gas and drastically reducing its electrical
    resistance. An electric current then flows until
    the path of ionized gas is broken or the current
    reduces below a minimum value called the holding
    current.
  • Protected cabling installations may utilize a
    spark gap to provide a path bypass or shunt to
    ground.

46
Chapter Summary
  • All telecommunications systems require grounding
    and bonding systems. Several associations provide
    codes, standards, and minimum requirements for
    installing these systems. ANSI/EIA/TIA-607,
    Commercial Building Grounding and Bonding
    Requirements for Telecommunications, is the
    primary source of installation information. The
    second most important source is the Canadian
    Electrical Code

47
Chapter Summary
  • A grounding and bonding network is made up of
    insulated copper conductors. These conductors are
    run in parallel with the telecommunications
    cables, and link rooms containing
    telecommunications equipment to a common ground.
    The recommended size for these conductors range
    from No. 6 to No. 3 /0 AWG insulated copper

48
Chapter Summary
  • These conductors are bonded to solid copper
    grounding bus bars, which are installed in the
    entrance facility, the main telecommunications
    room, and all other telecommunications rooms. In
    addition to the conductors that run throughout
    the building, telecommunications equipment,
    frames, cabinets, raceways, and protectors are
    grounded to the bus bars
  • Central office and cellular sites should not
    exceed 5 ohm of resistance as measured between
    the TMGB and the Grounding Electrode.

49
Chapter Summary
  • The bus bars throughout the building are bonded
    together with a backbone cable of at least No. 6
    AWG insulated copper. This backbone cable is also
    connected to the main grounding busbar, which is
    bonded to the electrical service (power) ground
    and an earth ground

50
Chapter Summary
  • Telecommunications circuit protectors are used to
    protect telecommunications facilities and
    equipment from abnormally high voltages and
    currents. This protection is in addition to the
    requirements and recommendations for grounding
    and bonding telecommunications systems
  • Underground trunking cables are not considered
    exposed but are considered protected from
    lightning and electrical distribution.

51
Review Questions
  • Name two suitable grounding electrodes at
    customer premises?
  • Describe the purpose of a spark gap?
  • Which principle of electronics describes the
    objective of central office bonding and
    grounding?
  • Name six grounding and bonding system for a
    typical building?
  • Describe the problem static causes to
    communication systems?
  • In reference to the above question list steps
    technicians can take to mitigate this problem?
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