unit 2 electrical circuit diagrams - دانشگاه حکیم سبزواری 2 electrical circuit...
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Unit2ElectricalCircuitDiagrams
2.1. ElectricalCircuitDefinition
In general terms, a circuit can be described as any group of electrical or electronic devices
connected together by conductors. Conductors are most often metallic, and copper wires are used
commonly. In the today’s electrical circuits, it's more common to find metallic pathways, often
called traces, on a board constructed of a mixture of fiberglass and epoxy. An electrical circuit is
assembled normally on a printed circuit board, PCB, and the terms of board and card are often
interchangeable. In addition to PCBs, wires and cables are used to make connection between parts
of a power electrical circuit.
To read an electrical or electronic circuit diagram, you need to get familiar with electrical and
electronic symbols that are used for drawing a schematic diagram. The symbols are ranged from a
simple form of a ground, GND, to a complex module of an IC. Electric circuits, whether simple or
complex, are commonly described with minimum words. Saying something like "The anode of
diode D1 is connected to upper tap of transformer T1" is a sufficient amount of words to describe
a simple link between two devices.
Fig.1.Electroniccircuitofanac‐dcconverter
2.2. HowtoreadanElectricalDiagram
A schematic allows a user or a service technician to understand how the circuit is functioning and
become familiar with how the expected outputs of the electrical circuit are achieved. Reading an
Technical English for Electrical Engineering Unit 2: Circuit Diagrams Dr. Shahrokh Abadi
FacultyofElectrical&ComputerEngineering,HakimSabzevariUniversity Page12
electrical diagram can be pretty simple or very complex. The electrical diagrams have a language
of their own to be read. Normally, we talk and use words as, for instance, the word of “resistor”
which brings something like this into your mind, an image of the written word. Well, in
the electrical diagram there is no words, instead, they use symbols to say the same thing so we
have to understand the language of symbols. The language of diagrams always includes symbols,
words, numbers, and lines. All this stuff is on there and it's all for the purpose of helping us follow
the map. When you're looking at an electrical diagram remember that it is not a street map but a
map of electrical circuit where the electrical current trying to find its path from positive to
negative.
Fig. 2 shows a map of Tehran and I happened to live there in the Jey District near the Ostad
Moien St. and I had a friend who lived in the Tarasht Dorm of Sharif University. If we both
wanted to meet in Azadi Tower, I should take the dashed line and he would take the straight line
so we could meet in the Azadi Sq. Now if this were an electrical map, my path would be the
ground side, my friend’s path would be the power rail, and the Azadi Sq. would be the load.
Fig.2.PartofTehranMap
Technical English for Electrical Engineering Unit 2: Circuit Diagrams Dr. Shahrokh Abadi
FacultyofElectrical&ComputerEngineering,HakimSabzevariUniversity Page13
It’s always true on the map to find the destination and that's true also on our electrical diagrams
the first thing to do is locate the load, a device that consumes the power, like a light bulb, blower
motor, or a simple coil. The second thing on a map is to locate your location and to estimate how
to reach the destination. This is also the same for an electrical diagram, in which where the power
sources and ground are originated and how are fed into the load.
The first thing to understanding the wide diagrams is to know what the symbols mean on it, so it's
best if you get a page with all the symbols on it so you know what is going on and what about
common ones you'll see on a wiring diagram. The symbols are as same as alphabets when you
want to read a book. You need to put certain symbols together to translate a part of diagram into
an electrical description. Some of the most common electrical schematic symbols have been given
in Fig. 3, on next page. Here is the steps to read an electrical diagram.
Step 1: Understand the electrical language. There will be a variety of schematic symbols on the
schematic that represent real world devices and wires. A basic understanding of these symbols is
required to read a schematic.
Step 2: Read schematics in the pattern that you would read a text. With rare exceptions,
schematics should be read left to right and top to bottom. The signal being generated or used by
the circuit will flow in this direction. The user can follow the same path that the signal uses to
understand what the signal does or how it is being modified.
Step 3: Understand ground. Ground is represented by either a triangle pointing down or a set of
parallel lines that become shorter as they appear below each other, in effect representing the inner
area of the triangle pointing down. Ground is a common reference point that schematics use to
show the overall unity of the various functions of the circuit.
Step 4: Learn that a line represents a wire. Wires are used to connect the devices together. All
points along the wire are identical and connected. Wires may cross each other on a schematic, but
that does not necessarily mean that they connect. If they do not connect, one will be shown
looping around the other in a semicircle. If they do connect, they will cross and a dot will be seen
at the point where the lines cross.
Technical English for Electrical Engineering Unit 2: Circuit Diagrams Dr. Shahrokh Abadi
FacultyofElectrical&ComputerEngineering,HakimSabzevariUniversity Page14
Fig.3.Electricalschematicsymbols
Technical English for Electrical Engineering Unit 2: Circuit Diagrams Dr. Shahrokh Abadi
FacultyofElectrical&ComputerEngineering,HakimSabzevariUniversity Page15
Step 5: The most confusing devices and their tasks for an electrical engineer are active devices.
Determine the diagram tasks performed by the active devices. To determine the tasks, acquire and
read the manufacturer's data sheet for each individual device.
Step 6: Evaluate what the diagram does. Based on the schematic, decide what parts of the diagram
are performing what functions. This will help you determine the performance function of the
entire circuit. If the circuit has a “block diagram”, it would be also better to use the “system
approach” to understand the whole concept of the diagram first.
Task1:StudytheFig.3andwriteashortnoteondifferentcomponents.Seetheexamplegiveninbelowandcompletethetextinyourownwords:
Relays are switches that open and close circuits electromechanically or electronically. Relays
control one electrical circuit by opening and closing contacts in another circuit. In an electrical
diagram three different contacts of relays may be used: SPST, SPDT, and DPDT which are stand
for ________________________________________________________________________ .
Furthermore, bobbins of different relays are presented differently in the diagram. For instance,
bobbin of a thermal relay, that is used as a safety relay in 3-phase electromotor wiring circuits, is
shown uniquely. Relays can be found in different _________, _____________, ___________ .
Moreover, a relay ________________________________________________________________
_____________________________________________________________________________ .
Task2:Thedifferencebetweenaschematic,ablockdiagram,andawiringdiagramhasbeengiveninthefollowingtextwithsomejumbledwordsboldedinthepassage.Writethecorrectformofeachwordandthenanswertothequestionsastheyfollowed:
A schematic shows connection in a cutciri ________ in a way that is clear and standardized. It is
a way of communicating to other engineers exactly what openstocmn ________ are involved in a
circuit as well as how they are connected. A good schematic will show component names and
uselav ________, and provide labels for sections or components to help cutemonicam ________
the intended purpose. Note how connections on wires are shown using dots and non-connections
are shown without a dot. A block diagram shows a higher level or organizational youtal _______
Technical English for Electrical Engineering Unit 2: Circuit Diagrams Dr. Shahrokh Abadi
FacultyofElectrical&ComputerEngineering,HakimSabzevariUniversity Page16
of functional units in a circuit or a device, cinemah ________, or collection of these. It shows
data flow or organization between separate units of function. A block diagram gives you an
reviewov ________ of the interconnected nature of circuit assemblies or components. A wiring
diagram is sometimes helpful to illustrate how a mathsicec _________ can be realized in a
prototype or production environment. A proper wiring diagram will be labeled and show
connections in a way that prevents confusion about how connections are made. Typically, they are
designed for end-users or installers. They focus on connections rather than components.
1. What would a perfect wiring diagram be like?
2. What is an organization layout?
3. What information are provided by a good schematic?
4. How does a schematic communicate with an engineer?
Task3:Studythefollowingblockdiagramsanddescribetheminapropermanner.FindthemeaningofallabbreviationsusedinFig.5accordingtotheirfunctions.
Fig.4:Blockdiagramofafeedbackcontrolsystem
Technical English for Electrical Engineering Unit 2: Circuit Diagrams Dr. Shahrokh Abadi
FacultyofElectrical&ComputerEngineering,HakimSabzevariUniversity Page17
Fig.5:BlockdiagramofaFrequency‐ModulatedContinuousWave(FMCW)
2.3. ElectricalLadderDiagram
Electrical ladder drawings are one of the common and reliable tools used to describe an electrical
process and to troubleshoot equipment when it fails. As with any good troubleshooting tool, one
must be familiar with its basic features to make the most of the diagram in the field. In other
words, possessing a basic understanding of how the drawing is laid out — as well as the meaning
of numbers and symbols found on the schematic — will make you that much more seasoned as a
maintenance professional.
There are typically two distinct parts of a ladder drawing: the power component and the control
component. The power portion consists of items such as the motor, motor starter contacts and
overloads, disconnect(s), and protective devices (fuses and circuit breakers). The control part
encompasses items that make the power components do their work. In the following passage, we'll
focus on the control portion of the drawing. Fig. 6 shows the most common components used in
the ladder diagrams.
Technical English for Electrical Engineering Unit 2: Circuit Diagrams Dr. Shahrokh Abadi
FacultyofElectrical&ComputerEngineering,HakimSabzevariUniversity Page18
Fig.6:Asamplingofcommonsymbolscanbefoundonthemajorityofladderdrawings.
Many times, the input devices are said to be either normally open (NO) or normally closed (NC).
The normally open or closed status refers to the shelf state of the device. If a device is normally
open, a resistance check of the device with a digital multimeter will give a reading of O.L. If the
device is normally closed, a resistance check will give a reading of 0.0.
The normally open and normally closed state of the devices is not labeled on the ladder drawing.
Rather, you must recognize the symbol. A helpful hint in trying to determine whether the contacts
are open or closed is to think of them in terms of gravity. If gravity is acting on the device, its
normal state is as shown in the drawing. An exception to this concept is found in devices that
contain springs. For instance, in the drawing of a normally open pushbutton, it appears that the
pushbutton should be falling down and closing. However, there is a spring in the pushbutton that
holds the contacts in the open (up) position.
The control voltage (AC or DC) for the system may come from a control transformer that is fed
from the power portion of the drawing or a different source. For safety reasons, it's important to
determine the source of the control voltage prior to working on the system because the power
disconnect switch may not turn off the control voltage. Therefore, an electrically safe condition
would not be established. The ladder drawing should clearly show the source of the control
voltage, but always check for the absence/presence of voltage before making any off-line
resistance checks.
Technical English for Electrical Engineering Unit 2: Circuit Diagrams Dr. Shahrokh Abadi
FacultyofElectrical&ComputerEngineering,HakimSabzevariUniversity Page19
The drawing is called a ladder drawing because it resembles a ladder in the way it is constructed
and presented on the paper. The two vertical lines (wires) that serve as a boundary for the control
system and deliver the control voltage to the devices are called the rails. The rails may have
overcurrent devices in them (fuses and/or circuit breakers) and may have contacts from control
devices. These control lines may be thicker than the others to help better identify them. Like a real
ladder, the rails are the supports for the rungs.
If the ladder drawing runs across several pages, the control voltage is carried from one page to the
next along the rails. There are a number of ways that this may be represented on the drawing. One
way this is done is with the use of continuation arrows at the bottom of the first page, which
indicates that the rails continue on to another page. The page number on which the rails continue
should be noted. On the page where the rails continue, there are also continuation arrows with the
page number notation from which the control voltage lines originated.
The rungs of the ladder are made up of wires and input devices that either allow current flow or
interrupt current flow to the output devices. These lines may be thin lines when compared to the
lines of the rails. From the placement of the input and output devices, you can determine the
sequence of events that either energize or de-energize the outputs. The key to good
troubleshooting is determining this sequence of events. Input devices are typically placed on the
left side of the rungs, while the output devices are placed on the right (Fig. 7).
Placement of input devices. The input devices are placed on the rungs in a way that indicates the
current flow through the rung when there is a complete path to the outputs. There are several ways
in which these input devices can be placed on the rungs, although as stated earlier, they are
typically placed on the left side.
The STOP input devices are typically normally closed and are placed in series on the rung. This
means that they are placed end to end in the drawing. In order for the current to flow through
them, they must be in the closed position. Typical STOP input devices include components such
as normally closed pushbuttons and mushroom head buttons, limit switches, and contacts for light
curtains, photocells, and proximity switches.
Technical English for Electrical Engineering Unit 2: Circuit Diagrams Dr. Shahrokh Abadi
FacultyofElectrical&ComputerEngineering,HakimSabzevariUniversity Page20
The START input devices are typically normally open and are usually placed in series with and
after the STOP devices. If there is more than one START device, it is usually placed in parallel
with the others.
When the STOP and START devices are placed in order on the rung, the flow of current to the
output devices can be seen. Understanding this flow is a great aide in troubleshooting. A key
question to always ask yourself is: “What does it take to energize the output?”
Fig.7:Acircuitarrangementofswitchesandoutput.
Here's a simple example to analyze. In Fig. 7, what does it take to energize the output CR1? When
either start pushbutton is depressed, the path is complete, and the coil of CR1 is energized. In
following the path for the current, you can see the logic of the placement of the input devices.
This logic determines the decision making process of the input devices and the path for current as
it travels to energize the outputs.
There are several logic statements that can be used in placing the input devices in the rungs. The
most common of these are the AND, the OR, and the combination AND/OR function. In Fig. 7,
all three are present.
The end-to-end placement of the stop and start pushbuttons makes an AND logic
statement. In other words, both the stop AND the start buttons must be used to energize
the coil.
The parallel placements of the start buttons make an OR logic statement. Either start
pushbutton will complete the path and energize the coil.
Placing the stop pushbutton in series with the parallel start pushbuttons supports the
AND/OR logic statement.
Technical English for Electrical Engineering Unit 2: Circuit Diagrams Dr. Shahrokh Abadi
FacultyofElectrical&ComputerEngineering,HakimSabzevariUniversity Page21
As noted earlier, the output devices are placed on the right side of the ladder drawing. Unlike
input devices, it's important that the output devices only be placed in parallel. If they are placed in
series, electrical theory says that the voltage will drop across the resistance of each output. If this
happens, they will not operate properly. Outputs include items such as lights, coils, solenoids, and
heating elements. In addition to the commonly accepted symbols shown in Fig. 6, letters and
numbers also help to identify the output devices.
Coils will typically have contacts associated with them. These contacts will change state when the
coil is energized. The changing contacts will either complete or open the path for current. When
the pushbutton is pressed down, the path is completed, and current will flow to energize the coil.
When the coil is energized, the contacts associated with the coil will change state. The red light
will go on, and the green light will go off.
In the ladder drawing, the contacts associated with the coil can be located using a cross-reference
system. The rungs are usually numbered on the left side of the rail. A number on the right side of
the rail references the contacts associated with the coil. These numbers are the rungs in which the
contacts can be found. A number without a line under it references an open contact. Drawing a
line under the number on the right rail references a closed contact.
Task4:Studythefollowingladderdiagramsandwriteashortonhoweachdiagramworks,thentranslateeachfunctionintoalogicexpression
Technical English for Electrical Engineering Unit 2: Circuit Diagrams Dr. Shahrokh Abadi
FacultyofElectrical&ComputerEngineering,HakimSabzevariUniversity Page22
WordStudy
Nouns that are formed from verbs can name a person or a device through the suffixes –or and –er.
They can also name the activity taking place, often by taking the suffix –tion. Recognizing these
noun endings can help with differentiating the two noun types and identifying them from the root
verb. See the following table and complete the missing parts.
Verb Noun Actor/Device
Noun Activity/Concept
amplify amplifier amplification attenuate attenuation communicate communication compress compressor conduct conduction/conductivity convert conversion detector detection generate generator identify identifier induct induction interrupt interrupter manipulate mediate modulate operate oscillate receive reflect regulate resist respond simulate subscribe transform transmit
WritingSkill:AnatomyofaScientificPaper
Title, author, and contact information: Typically, research articles begin with a title. Next, the
authors are identified along with their affiliation (i.e., who they work for, such as a university or
Technical English for Electrical Engineering Unit 2: Circuit Diagrams Dr. Shahrokh Abadi
FacultyofElectrical&ComputerEngineering,HakimSabzevariUniversity Page23
agency). Usually, one author - who can be contacted for further information or permission to use
the article - is listed at the bottom of the first page of the research article.
Abstract and keywords: This is a summary of the research article followed by keywords
(sometimes also called Index Terms). It provides an overview of the research, which is useful to
determine if the article is relevant to the reader’s work. Abstracts typically follow a standard
format. The authors briefly state why the research is important, the methodology used, the results,
and a concluding statement based on the findings.
Introduction or literature review: In this section, the authors describe the rationale for the study
by outlining what research has already been done in this area. The literature review provides the
reader with a summary of other research related to the topic. It also addresses questions that
remain unanswered or require additional research. In general, this is also the section where the
authors’ research question is introduced, and hypotheses or anticipated results are stated.
Methods or methodology or Experimental: In this section, the authors outline how the research
was conducted.
Results: The authors present the research findings in this section. Any statistical analyses that the
authors conducted are described as well. The results are often displayed using tables, charts, or
figures along with a written explanation.
Discussion: In this section, the authors interpret the results. The authors may provide possible
explanations for what they found, including an interpretation of unexpected results.
Conclusion and summary: In this section, the authors summarize what they found and link it
back to the current literature in the area. Often, any limitations of the study are described in this
section. For example, if the researchers used a convenience sample to recruit participants, the
results may not apply to people that are different in some way from the study participants. The
authors may also suggest directions for future research in this section.
Acknowledgment, References or sources: The references section lists the publications that the
authors cited in the article. The references may help the reader judge the quality of the article and
can be used to learn more about the topic area.
Technical English for Electrical Engineering Unit 2: Circuit Diagrams Dr. Shahrokh Abadi
FacultyofElectrical&ComputerEngineering,HakimSabzevariUniversity Page24
Biography of Author(s) or Bio: Bio of authors is the part that explains the academic progress and
achievements of the authors, their interesting research area, etc.
Task 5: Browse the internet and find a related article to your field ofstudy. Highlight the different parts of the article using differentwatermarkcolors.