Bonding,
Grounding and Earthing
In Fire detection system or CCTV / Access
Control System this 3 terms are very important during doing the errection,
testing & commissioning activity.
- Bonding is more clear word compare to Grounding
and Earthing but there is a micro
difference between Grounding and Earhing.
- Earthing and Grounding are
actually different terms for expressing the same concept. Ground or earth in a mains electrical wiring system
is a conductor that provides a low impedance path to the earth to prevent
hazardous voltages from appearing on equipment.
Earthing is more commonly used in Britain, European and most of the
commonwealth countries standards (IEC, IS), while Grounding is the word used in
North American standards (NEC, IEEE, ANSI, UL).
- We understand that Earthing and Grounding are
necessary. We need to understand that there are really two separate things we
are doing for same purpose that we call Grounding or Earthing.
- The Earthing is to reference our electrical
source to earth (usually via connection to some kind of rod driven into the
earth or some other metal that has direct contact with the earth).
- The grounded circuits of machines need to have
an effective return path from the machines to the power source in order to
function properly (Here by Neutral Circuit).
- In addition, non-current-carrying metallic
components in a System, such as equipment cabinets, enclosures, and structural
steel, need to be electrically interconnected and earthed properly so voltage
potential cannot exist between them. However, troubles can arise when terms
like “bonding,” “grounding,” and “earthing” are interchanged or confused in
certain situations.
- In TN Type Power Distribution System, in US NEC
(and possibly other) usage: Equipment is earthed to pass fault Current and to
trip the protective device without electrifying the device enclosure. Neutral
is the current return path for phase. These Earthing conductor and Neutral
conductor are connected together and earthed at the distribution panel and also
at the street, but the intent is that no current flow on earthed ground, except
during momentary fault conditions. Here we may say that Earthing and grounding
are nearly same by practice.
- But In the TT Type Power Distribution System (In
India) Neutral is only earthed (here it is actually called Grounding) at
distribution source (at distribution transformer) and Four wires (Neutral and
Three Phase) are distributed to consumer. While at consumer side all electrical
equipments body are connected and earthed at consumer premises (here it is
called Earthing). Consumer has no any permission to mix Neutral with earth at
his premises here Earthing and grounding is the different by practice.
But in both above case Earthing and Grounding
are used for the same Purpose. Let’s try to understand this terminology one by
one.
Bonding:
§ Bonding is simply the act of joining two
electrical conductors together. These may be two wires, a wire and a pipe, or
these may be two Equipment’s.
§ Bonding has to be done by connecting of
all the metal parts that are not supposed to be carrying current during normal
operations to bringing them to the same electrical potential.
§ Bonding ensures that these two things which are
bonded will be at the same electrical potential. That means we would not get
electricity building up in one equipment or between two different equipment. No
current flow can take place between two bonded bodies because they have the
same potential.
§ Bonding, itself, does not protect
anything. However, if one of those boxes is earthed there can be no
electrical energy build-up. If the grounded box is bonded to the other box, the
other box is also at zero electrical potential.
§ It protects equipment & Person by reducing
current flow between pieces of equipment at different potentials.
§ The primary reason for bonding is personnel
safety, so someone touching two pieces of equipment at the same time does not
receive a shock by becoming the path of equalization if they happen to be at
different potentials.
§ The Second reason has to do with what happens if
Phase conductor may be touched an external metal part. The bonding helps to
create a low impedance path back to the source. This will force a large current
to flow, which in turn will cause the breaker to trip. In other words, bonding
is there to allow a breaker to trip and thereby to terminate a fault.
§ Bonding to electrical earth is
used extensively to ensure that all conductors (person, surface and
product) are at the same electrical potential. When all
conductors are at the same potential no discharge can occur.
Earthing:
§ Earthing means connecting the dead part (it
means the part which does not carries current under normal condition) to the
earth for example electrical equipment’s frames, enclosures, supports etc.
§ The purpose of earthing is to minimize risk of
receiving an electric shock if touching metal parts when a fault is present.
Generally green wire is used for this as a nomenclature.
§ Under fault conditions the non-current carrying
metal parts of an electrical installation such as frames, enclosures, supports,
fencing etc. may attain high potential with respect to ground so that any
person or stray animal touching these or approaching these will be subjected to
potential difference which may result in the flow of a current through the body
of the person or the animal of such a value as may prove fatal.
§ To avoid this non-current carrying metal parts
of the electrical system are connected to the general mass of earth by means of
an earthing system comprising of earth conductors to conduct the fault currents
safely to the ground.
§ Earthing has been accomplished through bonding
of a metallic system to earth. It is normally achieved by inserting ground rods
or other electrodes deep inside earth.
§ Earthing is to ensure safety or
Protection of electrical equipment and Human by discharging the
electrical energy to the earth.
Grounding:
§ Grounding means connecting the live part (it
means the part which carries current under normal condition) to the earth for
example neutral of power transformer.
§ Grounding is done for the protections of power
system equipment and to provide an effective return path from the machine to
the power source. For example grounding of neutral point of a star connected
transformer.
§ Grounding refers the current carrying part of
the system such as neutral (of the transformer or generator).
§ Because of lightening, line surges or
unintentional contact with other high voltage lines, dangerously high voltages
can develop in the electrical distribution system wires. Grounding provides a
safe, alternate path around the electrical system of your house thus minimizing
damage from such occurrences.
§ Generally Black wire is used for this as a
nomenclature.
§ All electrical/electronic circuits (AC & DC)
need a reference potential (zero volts) which is called ground in order to make
possible the current flow from generator to load. Ground is May or May not
be earthed. In Electrical Power distribution it is either earthed at
distribution Point or at Consumer end but it is not earthed in Automobile( for
instance all vehicles’ electrical circuits have ground connected to the chassis
and metallic body that are insulated from earth through tires). There may exist
a neutral to ground voltage due to voltage drop in the wiring,
thus neutral does not necessarily have to be at ground potential.
§ In a properly balanced system, the phase
currents balance each other, so that the total neutral current is also zero.
For individual systems, this is not completely possible, but we strive to come
close in aggregate. This balancing allows maximum efficiency of the distribution
transformer’s secondary winding
Difference between Earthing & Grounding:
There is no major difference between earthing
and Grounding, both means “Connecting an electrical circuit or device to
the Earth”. This serves various purposes like to drain away unwanted
currents, to provide a reference voltage for circuits needing one, to lead
lightning away from delicate equipment. Even though there is a micro difference
between grounding & earthing.
(1) Difference in
Terminology:
§ In USA term Grounding is used but in UK term
Earthing is used.
(2) Balancing the Load Vs
Safety:
§ Ground is a source for unwanted currents and
also as a return path for main current some times. While earthing is done not
for return path but only for protection of delicate equipment’s. It is an
alternate low resistance path for current.
§ When we take out the neutral for a three phase
unbalanced connection and send it to ground, it is called grounding. Grounding
is done to balance unbalanced load. While earthing is used between the equipment
and earth pit so as to avoid electrical shock and equipment damage.
(3) Equipment Protection
Vs Human Safety:
§ Earthing is to protect the circuit elements
whenever high voltage is passed by thunders or by any other sources while
Grounding is the common point in the circuit to maintain the voltage levels.
§ Earth is used for the safety of the human body
in fault conditions while Grounding (As neutral earth) is used for the
protection of equipment’s.
§ Earthing is a preventive measure while Grounding
is just a return path
§ The ground conductor provides a return path for
fault current when a phase conductor accidentally comes in contact with a
grounded object. This is a safety feature of the wiring system and we would
never expect to see grounding conductor current flow during normal operation.
§ Do not Ground the Neutral Second time When It is
grounded either at Distribution Transformer or at Main service Panel of
Consumer end.
§ Grounding act as neutral. But neutral cannot act
as ground.
(4) System Zero Potential
Vs Circuit Zero Potential:
§ Earthing and Grounding both is refer to zero
potential but the system connected to zero potential is differ than
Equipment connected to zero potential .If a neutral point of a generator or
transformer is connected to zero potential then it is known as grounding.
At the same time if the body of the transformer or generator is connected to
zero potential then it is known as earthing.
§ The term “Earthing means that the circuit is
physically connected to the ground and it is Zero Volt Potential to the Ground
(Earth) but in case of “Grounding” the circuit is not physically connected to
ground, but its potential is zero(where the currents are algebraically
zero) with respect to other point, which is also known as “Virtual Grounding.”
§ Earth having zero potential
whereas neutral may have some potential. That means neutral does not
always have zero potential with respect to ground. In earthing we have Zero
Volt potential references to the earth while in grounding we have local
Zero Volt potential reference to circuit. When we connect two different Power
circuits in power distribution system, we want to have the same Zero Volt
reference so we connect them and grounds together. This common reference might
be different from the earth potential.
Illegal Practice of interchange Purpose of Grounding & Earthing
wire
§ Neutral wire in grid connections is mandatory
for safety. Imagine a person from 4th floor in a building uses Earth wire
(which is earthed in the basement at Basement) as neutral to power
his lights. Another Person from 2nd floor has a normal setup and uses neutral
for the same purpose. Neutral wire is also earthed at the ground level (as per
USA practice Neutral is Grounded (earthed) at Building and as per Indian
Practice it is Grounded (earthed) at Distribution Transformer).
However, ground wire (Neutral wire) has a much lower electrical
resistance than Earth Wire (Earthing) which results in a difference
of electrical potential (i.e. voltage) between them. This voltage is quite a
hazard for anyone touching a Earth wire (Metal Body of Equipment) as it may
have several tens of volts.
§ The
second issue is
legality. Using ground wire instead of neutral makes you an energy thief as the
meter uses only the Phase and neutral for recording your energy consumption.
Many Consumers make energy theft by using Earthing wire as a Neutral wire in an
Energy meter.
How to Apply to Fire Safety Systems and Installations
The NFPA
70, or NEC, sets the foundation for electrical safety in residential,
commercial, and industrial occupancies in the United States. Updated every
three years, it's a living document that evolves alongside the ever-advancing
field of electrical technology. Let's go through a fast summary of NFPA 70
(also expressed as NFPA70 and NFPA-70). This will allow you, as a fire safety
professional, to navigate and use its provisions more effectively.
Application of NEC to Electrical installation Directly
The NEC is divided into 9
chapters, with each chapter further divided into parts, articles, and sections.
The chapters cover specific aspects of electrical installations, ranging from
wiring methods, equipment for general use, special occupancies, special
equipment, to special conditions.
·
Article
210: This covers
branch circuits, the smallest units of an electrical system that directly
supply power to electrical equipment. It includes standards for circuit
ratings, protection, and load calculations.
- Article 215: It focuses on feeder
circuits, which transport electricity from service equipment to branch
circuits. Understanding this section is essential for ensuring proper
feeder size and load.
- Article 230: This provides guidelines
for service installations, the point where a building or system receives
power from the utility source. It covers service conductors, equipment,
and overcurrent protection.
- Article 240: Overcurrent protection is a
crucial safety element of any electrical system. This section provides
guidance for the selection and installation of overcurrent protective
devices.
- Article 250: This focuses on grounding
and bonding, two critical aspects of electrical safety. It defines how to
properly ground electrical systems and equipment, ensuring safety and
reducing the risk of electrical shock and fires. Digitize equipment is
thoroughly grounded to protect itself from surge damage, and this
obviously depends on the earth ground available in the building.
- Article 760: This section is of
particular interest to you, as it pertains specifically to fire alarm
systems. NEC Article 760 covers fire alarm system power sources, circuit
identification, installation, and more.
Application of NFPA 70 to Fire Alarm Installations Directly
One of the
most direct overlaps between the NEC and fire safety is found in NFPA 70
Article 760, "Fire Alarm Systems," within the NEC. This article deals
specifically with the installation of wiring for fire alarm systems.
NFPA 70
Article 760 outlines the specific wiring methods for both non-power-limited and
power-limited fire alarm circuits. This distinction is critical as
power-limited circuits are designed to limit electrical energy to a level that
does not ignite a fire in normal or fault conditions. Non-power-limited
circuits, on the other hand, may have enough energy to ignite a fire. That's
why they require more robust safety measures.
Power-limited
fire alarm circuits are generally easier to install due to fewer restrictions,
as they don't pose as much of a fire hazard. They can often be installed using
similar techniques to those used for regular low-voltage wiring.
Non-power-limited
circuits, however, must adhere to stricter standards. They need to be installed
in such a way that reduces the potential for faults and ensures a higher degree
of safety. Specific types of cable or conduit may be required, and separation
from other electrical cables may be mandated.
Additionally,
the NEC dictates how fire alarm circuits should be protected from accidental
damage or disconnection. The use of dedicated circuit breakers or disconnecting
means, identifiable and accessible control equipment, and appropriately labeled
circuits are all examples of NEC provisions related to fire alarm
installations.
Other Overlaps between Fire Safety and NFPA 70
Beyond fire
alarm systems, several other aspects of the NEC directly influence fire safety.
For example:
- Grounding (Article 250): Proper grounding of
electrical systems is crucial for preventing electrical fires. By
providing a path for electric current to follow in the event of a fault,
grounding reduces the risk of electrical shock and fire.
- Overcurrent Protection (Article
240): Overcurrent
protection devices, such as circuit breakers and fuses, are designed to
cut off electrical power when the current exceeds a certain level. This
prevents overheating of wires and potential electrical fires.
- Wiring Methods and Materials
(Articles 300-399): These
articles provide guidelines for the proper installation of wiring and
related equipment to ensure safety and prevent electrical fires. This
includes specifications for conductors, cables, raceways, and boxes, among
other components.
Understanding
and applying these codes is crucial in minimizing fire risks and ensuring
optimal safety in all types of buildings and facilities.
How to Stay Up to Date with NFPA 70 / NEC
Given the
rapid evolution of electrical technology, it's important to stay updated with
the latest NEC revisions. The NFPA offers numerous resources for ongoing
education, including online training, webinars, and certifications.
Regularly
reviewing and understanding changes in the NEC can enhance your ability to
install, maintain, and use fire safety systems in compliance with the highest
safety standards.
Conclusion:
Ground is
a source for unwanted currents and also as a return path for main current.
While earthing is done not for return path but only for protection of delicate
equipment’s. It is an alternate low resistance path for current. Earth is used
for the safety of the human body in fault conditions while Grounding (As
neutral earth) is used for the protection of equipment’s.
