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TRAINING REPORT
MADE BY: ANUPRIYA GUPTA
0712231018
EC-FINAL YEAR
2011HAL
HindustanAeronauticsLimited
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ON
Prepared ! "
A#$pr%!a G$p&a E'e(&r)#%(* + C),,$#%(a&%)# E#.
/RMCEM L$(#)
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CERTIFICATE
Certified that A#$pr%!a G$p&a has done a training in I#*&r$,e#& a(&)r! (ALHdepartment) of 4ALand has presented in this report for the award of Bachelor ofTechnology from Gautam Buddh Technical Uniersity(GBTU)!Luc"now# The trainingreport em$odies the original wor" and studies carried out $y the student himself and thecontent do not form the $asis for the award of any degree to the candidate or to any$odyelse#
M* PU/4PAN5ALI /ING4 Pr) /. C . TE6ARI%aculty (Training incharge) Head of &lectronics 'ingept of &lectronics Communication ept of &lectronics Communication&ngg &ngg
ate* ate*
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'ith deep sense of gratitude! first and foremost e,press my profound
than"s to Mr.Ra#%* 9$,ar A#%)&r% chief -anager ALH for giingme this opportunity to do my summer training in .nstrument department ofHindustan Aeronautics Limited! Luc"now during the summer session 2/0/#
Being renowned company of .ndia a$road! it gae me theopportunity to learn the wor" carried out here! got a glimpse of new
enironment hard wor" of industrial unit#
Mr. A. 9. /ar,a Chief &ngineer#of ALH . was posted under his
guidance# He was ery helpful during my training#
. also wish to ac"nowledge my inde$tedness to the staff of HALwithout whose cooperation1 this training would not hae $een successful#
Anupriya Gupta
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PrefacePreface
Training has misinterpreted $y most of us as a platform for
pro3ect performation# .ndustrial training in true sense has $een included in
curriculum to ma"e the student well ersed with the technical procedure of
arious industries! the $asic criteria for management of arious resources in
a company or industry#
The educational institution sole aim $y industrial training is toimproe the technical "nowledge and to hae a hand on e,perienced to ma"e
them realistic in thin"ing! to understand the procedure for manufacturing
"eeping mind the minute detail which will $enefit the customer li"e no
learning is proper without implementation#
octors! Lawyers! hotel management student surely hold a upper
hand# .ts $ecause right from the second year of their graduation the are made
to face the world and their pro$lems with a tender mind# .n due course of
time slowly $ut steadily they! deelop a competitie attitude and hae a
definite plan and aim as they complete their graduation#
Unli"e the pitia$le engineers li"e us who are completely isolated
from industry# Therefore their should $e industry institutions made
compulsory for eery engineering institutes#
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BRIEF 4I/TORYINTRODUCTION OF INDU/TRYORGANI;ATION
ORGANI/ATIONAL C4ART
/Y/TEM/PLANT LAY OUT
PRODUCT/ +/PECIFICATION/ACTI
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=4AL FOUNDER>
Hindustan Aeronautics Limited has $lossomed into a ma3or player in theglo$al aiation arena! and today is among the elite 6aratna companies# Thehistory of .ndian aircraft industry can $e traced to the foundation ofHindustan Aircraft Limited at Bangalore in ecem$er 09/ in associationwith the erstwhile princely state of -ysore and late /r% /e& 6a'(a#d4%ra(a#d! an industrialist of e,tra:ordinary ision# Got# of .ndia $ecameone of its shareholders in -arch 090 and too" oer the management in092# Hindustan Aircraft Limited was merged with Aeronautics .ndiaLimited and Aircraft -anufacturing epartment ;anpur to form HAL on0:octo$er:098#
Today HAL has got 0< production diisions 9 research designcenters spread out in = different locations in .ndia# .ts product trac" recordconsists of 02 types of aircraft from in house 5 and 0+ types $y license
production# HAL has so far produced a$out ++42 aircraft (which include 00type of indigenous design)! +4
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military and ciil upgrades# The delieries of hru were affected to .ndianArmy! 6ay! Air force Cost Guards in -arch 2//2! in its first year of
production which is a uni@ue achieement#
The Goernment of .ndia decided to set up a factory L$(#)D%?%*%)# %# 1@@ to underta"e License manufacture of accessories andinstrument for Hindustan %ighter H%:2 and Hindustan 3et trainers H?T:08!aircrafts# The factory $uilding is ready $y cto$er 09=+ and full fledgedmanufacturing of the accessories to coer A3eet!-.G:B.7 Aircrafts! aeroengines and Helicopters#
HAL Accessories iision Luc"now was esta$lished in 09=/ withprimary o$3ectie of manufacturing systems and accessories for ariesaircrafts and engines# At present it is turning out oer 00// different types of
accessories# The diision manufactures arious systems i# Hydraulics1engine %uel systems! Air:conditioning ressuriation! Gyro and Barometric.nstruments! &lectrical system items Undercarriage! &lectronic items allunder one roof to meet the re@uirements of the aircrafts! helicopters andengines $eing produced $y HAL#
HAL has played a significant role for .ndiaDs space program in themanufacturing of satellite launch ehicle li"e 7LE (olar 7atellite Eehicle)!G7LE (Geo 7tationary Launch Eehicle)! .57 (.ndian 5emote 7atellite)
.67AT (.ndian 6ational 7atellite)#
HAL has 3oint entures companies BA&HAL! 7oftware Limited .ndo:5ussian Aiation Limited (.5AL)!7necma:HAL Aerospace t Ltd# Apartfrom these! other ma3or diersification pro3ect industrial marine gastur$ine airport serices# 7eeral co:production 3oint entures withinternational participation are under consideration#
HALDs supplies F serices are mainly to .ndian efense serices! CoastGuard Border 7ecurity %orce# Transport Aircraft Helicopters hae also
$een supplied to Airlines as well as 7tate Goernment of .ndia# Thecompany has also achieed a foothold in e,port in more than +/ countries!haing demonstrated its @uality price competitieness#
D%?%*%)#*Summer training
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MI//ION-To become a global player in the aerospace industry
4AL LUC9NO6 =ACCE//ORIE/ DI
The manufacturing range of this diision can $e grouped under threecategories*
0#) -echanical and hydro:mechanical accessories!2#) &ngine Accessories
+#) .nstrument accessories#
.n addition! the diision also manufactures the wide ariety of groundsupport e@uipment li"e Ground ower Unit! hydraulic trolley! weaponloading trolley !Test e@uipment etc#
The Aerospace e@uipment research design Centre is inoled inthe design and deelopment of hydraulic pumps! actuators! wheels and
$ra"es etc#
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rganiational chart
Chairman
-anaging irector
General -anager
AG-(%uel) AG-(esign) AG-(.nstrument) AG-(-echanical)
G- G- G- G-
Chief -anager Chief -anager Chief -anager Chief -anager
7enior -anager 7enior -anager 7enior -anager 7enior -anager
-anager -anager -anager -anager
eputy -anager eputy -anager eputy -anager eputy -anager
&ngineer &ngineer &ngineer &ngineer
&mployees &mployees &mployees &mployees
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/Y/TEM LAYOUT
Head of HAL Luc"now diision is General -anager# The factory is diidedinto fie su$ iisions*
.nstrument factory
-echanical factory
%uel factory
esign and eelopment
7u"hoi:+/
.67T5U-&6T %ACT5
This is further diided into two shops
0# Assem$ly shop2# -anufacturing shop
A**e,'! *)p is diided into* :0# 7H 02# 7H 2+# 7H +
# 7H 4# ALH
Ma#$a(&$r%# *)p is diided into* :
0# 6GL 7hop2# 7miths shop+# Gyro shop
# ress 7hop
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%ollowing systems or instruments are manufactured in .nstrument factory#
0# Barometric instrument2# Gyroscopic instruments+# &lectrical and &lectronics e@uipments# %uel gauging systems4# Ground leel naigation systems
All the a$oe products are manufactured in specially designed rooms calledclean rooms# %ollowing conditions are essential for the clean rooms for
production#
7TA6A5 CL&A6 5-7 C6.T.67
TEMPERTURE: - 04 to 24 oC
HU-..T* : 4 T 44
U7T CU6T* : Less than 0//!/// for class C shop(unmonitored) Less than 0//!/// for class B shop Less than 0/!/// for class A shop
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PRODUCT/
.nitially production of accessories was planned for -arut and ;iran aircraftsin 09=2 which later e,panded to include accessories for -.G:20 series andhelicopters during the late 09=/!s in Luc"now iision#
The current products of HAL are: :220 system >2 through main $us >0 ofsystem >0# The e,ternal power control card inside AC master $o, >0
controls the energiation of e,ternal power contactor to allow correct@uality of e,ternal AC power! as to $e transmitted to the electricalsystem#
AC master $o, >2 is similar in construction and function to AC-BM >0# This $o, dose not includes e,ternal power contactor control cards# Howeer it has non:essential $us along with its
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contactor! this $us is powered from the main $us >2 only when thealternators are running# All the power F of different $uses is protected with thermalcircuit $rea"ers! which are proided in $oth master $o,es#
AC master Bo, used in ALH distri$utes AC electrical power to differentthree phase loads as per re@uirement# .t is used in con3unction with twoalternators! two ACU and static inerters#
L&A.6G A5A-&T&57 >
Na,e> AC -aster Bo, >0
6e%&> 4#4 "g ma,#
D%,e#*%)#> LengthN 2884#/ mm
'idth N 2/4#/ mm
Height N 02/4#/ mm
I#p$& DC p)er *$pp'!> 2< E dc (nominal) 22 E dc to 29 E dc (normal) 2/ E dc to +0 E dc (a$normal)
I#p$& AC p)er *$pp'!> 004 E ac (nominal) 0/< E ac to 00< E ac (normal) 0// E ac to 024 E ac (a$normal)
P)er ()#*$,p&%)#> 4 ;EA
FUNCTION "
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Under normal operation AC-BM > 0 distri$ute ac power# But in the
case when alternator >0 fails then ac power is distri$uted to differentloads through AC-BM >2 from alternator >2#
uring normal operation ($oth alternator running) complete system ispowered from alternator >0 and AC-BM >0 distri$ute ac power todifferent electrical system of ALH#
&,ternal power control card (&C) inside AC -aster Bo, controls the
energiation of e,ternal power contactor to allow correct @uantity ofe,ternal AC power to $e transmitted to electrical system#
AC -aster Bo, >2 (AC -BM > 2) used in Adanced Light Helicopteristri$ute ac electric power to different three phase loads as per re@uirementwhen alternator >0 is failed# .t is used in con3unction with two alternators!two ACUDs and static inerter#
LEADING PARAMETER/ "
Na,e> AC -aster Bo, >2
6e%&> 4#/ "g ma,#D%,e#*%)#*>LengthN2884#/ mm
'idth N2/4#/ mm
Height N02/4#/ mm
I#p$& DC p)er *$pp'!> 2< E dc (nominal) 22 E dc to 29 E dc (normal) 2/ E dc to +0#4 E dc (a$normal)
I#p$& AC p)er *$pp'!> 004 E ac (nominal) 0/< E ac to 00< E ac (normal)
0// E ac to 024 E ac (a$normal)P)er ()#*$,p&%)#> 4 ;EA
%U6CT.6 >
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Under normal operation AC-BM >0 distri$ute ac power# .n thecase when alternator >0 failed then ac power is distri$uted to different loadsthrough AC-BM >2 from alternator >2#
6o e,ternal power card is used AC -BM > 2 as used in AC -BM#
T&7T7 >
0# er oltage protection test (in normal enironmentalcondition)
2# Under oltage protection test (in normal enironmentalcondition)
+# erFUnder fre@uency
# Ei$ration test4# %unctional test#
INTRODUTION"
C -aster Bo, is a part of dc power generation and distri$ution system for
re:engine Cheetah Helicopter# .t is designed for use with an independentstarterFgenerator mounted on the engine accessories gear$o,! and isinterfaced with GCU! $attery! and e,ternal power source and control panelof C power generator to the loads through its main $us# .n the eent offailure of starterFgenerator! the dc master $o, will actiated the $atterycontactor! through which the on:$oard single $attery (6i:Cd / Ah) will getconnected to the main $us supply power to the emergency loads# C&,ternal ower 5eceptacles (&5) is proided at the port side of theHelicopter with &C in C master $o, to supply the dc power from Groundower Unit (GU)#
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FUNCTIONAL DE/CRIPTION
C -aster Bo, distri$utes the complete dc power generation# .t contains themain $us through which dc power is directed to the oerhead panel
through circuit $rea"ers for dc power distri$ution#
uring normal operation! the total dc power from starterFgenerator is$rought to the main $us through 6ormally pen (6##) contactor! which iscontrolled $y GCU#
.n case of failure of starterFgenerator! the dc power will $e aaila$lefrom a single on:$oard internal $attery through a normally closed $atterycontactor# roision has $een made for receiing the dc e,ternal powerduring ground operation through an e,ternal power receptacle# The e,ternal
dc power supply is transferred to main $us through 6## contactor! which isswitched on $y &,ternal ower Card (&C)# The &C switches the e,ternal
power contactor 6 only if the applied oltage is with in specified limit of correct polarity and therefore protects the dc system from oer:oltageconditions# As long as e,ternal power is connected to the Helicopter(&,ternal ower Contactor is closed)! $attery should remain disconnected#
FUNCTIONAL REUIREMENT/ "
0# .nput sources for C -aster Bo,*7tarterFgenerator along with GCU* 8 ;'
Battery (6i:Cd)* / Ah
&,ternal power source on ground* 8 ;'
2# Types of F Buses*-ain Bus > 2// A at 2< E C through
0// A circuit $rea"er* 0 no#
4/ A circuit $rea"er* 2 no#
+ A circuit $rea"er* 2 no#
+# Capacity* Capacity of unit (-ain Bus)* 2// A at 2< E C
erloading* 04/ (+// A) for 2 min 2// (// A) for 4 sec
# rotection %unction >
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&,ternal ower control*
&,ternal ower Control (&C) card housed inside the C -asterBo, proides the following functions when e,ternal power is
selected to the Helicopter#
a) er oltage protection* At +/#40 E with a fi,ed time
delay of /#/#0 sec#
$) 5eerse polarity protection* &,ternal ower fails toconnect itself to the system if the polarity of thee,ternal power is reersed#
%A.LU5& -&7 >
There may $e multiple failure modes for each functioning# esign has $eenfound to meet the $asic criterion for e,ternal system* :
a) 7ingle fault at a time should not affect the normal flight# Thishas $een designed as -.65 failure# This may also $ecalled as C6T5LL& %AULT! which may $e corrected
$y appropriate design safety deice or specialautomaticFmanual procedure# Hence! one fault at a timeshould only lead to -.65 failure#
$) ou$le fault occurring simultaneously should not lead to anemergency situation and may $e counteracted $y emergencyaction# Hence! two faults simultaneously should only lead to-A?5 failure#
c) Triple faults occurring simultaneously may lead to anemergency situation# This may also re@uire .LT7immediate action for emergency condition# This type of faulthas $een called as C5.T.CAL failure#
PRECAUTION/ FOR EMIEMC CONTROL "
The following precautions hae $een ta"en during design and deelopmentstage of C -aster Bo, to control &-.F&-C
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All the groundingFreference lines used in the unit are connected to a
common negatie point used inside the unit and then $eing $roughtout through connector pins of 08 A'G#
The chassis of the unit is "ept isolated from the grounding points toaoid the return currents to flow through the Helicopter structure#
The $onding points are proided on the unit at the mounting points#
All contactors are used with coil haing surge suppressors# Transient
suppressors and free wheeling diodes are also used in CB circuitdesign#
The length of the leadsFwires is "ept as short as possi$le and multi:
strand wires are used to reduce eddy current effects#
.6T5UCT.6* :
Alternator Control rotection Unit regulates the alternator F oltagewithin specified limit under arious rated load speed conditions# The unitis haing $uilt in protections against oerFunder oltage! oerFunder
fre@uency! oer load feeder fault conditions# Under these faultyconditions! the unit disconnects the alternator from AC electrical system $yde > energiing the contractor field#
The unit will $e interfaced with the alternator haing characteristics* :
Type* : + > phase star connection#F ower* : 4 "EA#Eoltage* : 004F2// E! // H#
erloading* : 04/ for 4 min! 2// for 4 sec#6ominal 7peed* : 02// 5-#-a,imum 7peed for 5egulation* : 028// 5-#-inimum 7peed for 5egulation* : 00// 5-#er 7peed* : 04/// 5-#%re@uency at 02/// 5-* : // H#
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.6T5UCT.6
The %ilter Transformer Unit (%TU : /0) is for ?aguar aircraft which giessingle phase 28 E! // H low distortion F! synchronied with phase ABof the three > phase 2// ECC F! // H aircraft power source# The unit is
$eing operated from three phase 2// ECC! // H aircraft power source#There are two no# of %TUDs in one AFC# in case of failure of one unit (%TU)!the entire AFC load will $e automatically transferred to another healthy unit(%TU)#
%unctional escription* :
The %TU is enclosed in an aluminum $o, haing natural cooling# Theheat sin" fins made on two side walls are capa$le to proide the sufficientheat conduction generated from four power transistors# The $asic electronicsof this unit utilies the conentional sine wae oscillator push pull poweramplification principle# The unit proides single phase 28 E 5-7! // HF synchronied with phase AB of AC power# The unit is capa$le of 0+/ of %LU%%# The unit is haing $uilt in protection against F oer oltage!F under oltage# The unit also proides a single under a$oe faultycondition#
The total circuit is spited into + main functional parts* : ower supply#
F oltage control its phase synchroniation#
rotection#
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ower 7upply* :Three phase power 2// ELL! // H aaila$le from AFC is $eing fed to stepdown .F transformer# The three phase $ridge rectifier rectifies the F ofthe .F transformers# The rectifier F is filtered through capacitor a dc
oltage of amplitude of appro,# 28 E is aaila$le# This dc oltage is used to$ias the circuit within the unit also to proide the F power# A newreference i#e# / E is generated within the unit w#r#t#/ E# The ECC :ECC are generated to proide the $iasing to the circuit#
F Eoltage hase 7ynchroniation* :A three phase oscillator consisting of .CDs associated resistors capacitors produce + > phase sine wae! 02/ degrees apart to each other# Thesine wae aaila$le is in phase with the sine wae signal receied at control
card# The phase AB of AFC ac supply is fed to .F of synchroniation TF%#The F of TF% is step down is fed to the control card! so the sine waeaaila$le is always in phase with AB of AFC ac power#
The sine wae F is followed $y pre > amplifier is followed $y the driertransistor mounted on chassis# The TF% dries the class > B push pullamplifier# The F aaila$le at the F TF% is filtered through a filterconsisting L C# After filtration a low distortion 28 E 5-7! // H F isaaila$le at the connector#
The F TF% has oltage feed$ac" winding# A sine wae proportional tomain F is $eing rectified filtered through capacitor in the control card#
As unit F oltage decreases! the amplitude of the s@uare wae increases!hence the amplitude of the sine wae increases! hence the amplitude of thesine wae increases! which in turn increases the F oltage ice > ersa!so a regulated oltage within permissi$le range is aaila$le at the F of theunit#
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The F sine wae .F phase AB aaila$le at the secondary of the phasesynchroniing TF% are conerted into s@uare wae fed to LL# The F ofthe LL is a pulse whose width aries with phase difference $Fw two s@uare
waes# The F of LL is followed $y L%# A smooth C is at the F ofL% whose amplitude is directly proportional to the width of the pulse# TheC oltage aaila$le at the F of the L% is compared with a fi,edreference oltage $y the comparator# The comparator F is low as long asthe phase error $Fw F of the unit .F phase AB is less than the specifiedalue# 'hen the phase error e,ceeds the specified limit! the comparator ofthe F $ecomes high# The high signal is fed to the latching cum time delaycircuit F $ecomes high after a specified time delay thus unit F fallsto ero the aircraft load gets transferred to the second %TU#
The d#c# oltage proportional to the F a#c# oltage is fed to the
comparator which compares this d#c# oltage to find a reference oltage# .fthe F oltage $ecomes lower than the F under oltage threshold leel!then the F of the comparator $ecomes high! which in turn ma"es F ofthe latching cum time delay circuit to high! after fi,ed time delay! the unittripped off the aircraft load is transferred to another %TU#
The a#c# oltage induced across the feed$ac" winding of the F
transformer is rectified $y $ridge rectifier filtered to o$tain the d#c#oltage is fed to the comparator which compares the fi,ed reference oltage#.f the F oltage e,ceeds the threshold limit of F oer oltage! the F ofthe comparators $ecomes high! which in turn males the F of the latching
cum time delay circuit to high! after fi,ed time delay the unit is tripped off the aircraft load is transferred to the another %TU#
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The a#c# oltage is proportional to the F current is achieed $y the currenttransformer# The oltage is rectified filtered to o$tain the d#c# oltage
proportional to the F current# The d#c# oltage is compared $y acomparator with a fi,ed reference oltage# .f the F $ecomes higher than
the specified limit! the F of the comparator $ecomes high! which in turnsma"es the F of the latching cum delay circuit to high after a fi,ed timedelay the unit is tripped off the aircraft load is transferred to another%TU#
%light data reorder system is fitted in aircraft for recording of flight
parameters on aero photo film and presering it in normal as well as in crashcondition#This $o, is dar" orange in color to gie $right contrast for easy searchduring any mishappening# Though it is called Blac" Bo,! as data are $eingrecorded on film and cannot $e seen easily $y eeryone#.t mainly consist of:
0: .nformation storage system2: -atching mechanism+: Cassette: Transducers for arious parameters#
P$rp)*e +)r%#
%light data recorder system records automatically 8 continuouslychanging parameters (altitude! engine speed! aircraft speed! erticalacceleration! and horiontal acceleration and turn angle of sta$ilier)imposed on + continuously aria$le parameters! and timer line to indicatethe time on $lac" and white aero photo film and presere it in normal andcrash condition for study and analysis of flight conditions#
.nner structure consists of a light $eam source and plane mirrors# There aresi, sets of galanometer is a plane mirror# These galanometers are placed inmagnetic field# 'hen the signals are send to galanometers the coils moes due tomagnetic effect! ma"ing the mirror moe in different directions# 6ow! whenlight $eam passes the $eam! it is reflected $y plane mirror and when this
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falls on galanometers mirrors! and get light gets reflected in si, parts andfalls on film forming different wae shapes#
0# Aircraft 7U:+/-;. is a multipurpose twin seated supersonicfighter designed to destroy air target in free space and against theearth $ac"ground $oth $y day and at night under isual andaderse weather conditions and to engage ground and surfacetargets within tactical and operational depths under heay noise
conditions as well#
2# To destroy aerial targets! a proision is made for employment of allangle medium:range missiles (actie! semi:actie radar and infra:red guided missiles) and short:range missiles (infra:red guidedmissiles) capa$le of high target hit pro$a$ility#
+# To destroy ground targets! use is made of unguided $om$s! guided$om$s and missiles# The aircraft is also e@uipped with a rapid:firegun mount with cali$er of +/mm#
# The aircraft is also intended for training! ac@uisition (perfection) ofs"ills in flying techni@ues! air naigation and com$at employmentincluding participation in group com$at actions#
Ma%# Fea&$re*
F$*e'ae* The fuselage of 7U:+/-;. aircraft is an integrated
aerofoil $ody that proides / of aircraftDs total lift# The fuselage is$uilt up of three sections1 6ose sections! tall section and wing centersection#
F$*e'ae N)*e /e(&%)#* .t is an all:metal semi monologue
construction# .t includes nose cone! two ca$ins! nose LG well ande@uipment compartment# %or planes or canards and attached to thelast frame of this section#
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6%# Ce#&er /e(&%)#* .t is the main load carrying structure of the
aircraft# .t proides attachment points for landing gears! outer wings!fuselage nose section! and fuselage tail section and air inta"es#
F$*e'ae Ta'' /e(&%)# * .t comprises of air ducts! air .nta"es and
two engine compartments interconnected $y an intermediatecompartment# Horiontal sta$iliers and ertical fins are attached tothe rear part of fuselage tail section
O$&er 6%#** uter wings are an integrated part of the fuselage!
trapeoidal in shape and swept $ac" $y 2/# The flaperons areattached at the trailing edge! which operate as ailerons and flaps# Theleading edge flaps are located all along outer wingspan to improethe aerodynamic characteristics#
A%r %#&ae** The engine air inta"es are under slung and proided
with ramp panels the air inta"es are closed $y protectie screen topreent the ingress of foreign o$3ects#
La#d%# Gear* The aircraft has tricycle type landing gear operated
$y first hydraulic system# nly the main wheels are proided with$ra"es! and the $ra"es are operated $y hydraulic pressure# The noselanding gear is proided with wheel steering system#
F'%& C)#&r)'** The aircraft longitudinal control is achieed $y
synchronous deflection of sta$iliers! lateral control $y differential
deflection of sta$iliers and flaperons and directional control $yrudders# %ly $y wire system operates all the control surfaces# %ore
plane or canard is introduced for proiding larger sta$ility and
-aneuera$ility at higher angle of attac" and su$sonic speeds# 'ing
leading flaps also act as lift augmenting deice at greater angle ofattac"# The fly $y wire system operates canards and leading edgeflaps automatically# All control surfaces are operated $y $oth thehydraulic systems#
4!dra$'%( *!*&e,* The hydraulic system comprises of two
independent systems i#e#* %irst or Left hydraulic system and 7econdor 5ight hydraulic system#
(a) Hydraulic oil used*A-G:0/F-:04
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($) Hydraulic tan" capacity* 04#< liters (each system)
(c) Left hydraulic system capacity* / liters
(d) 5ight hydraulic system capacity*/ liters
(e) 7ystem operating pressure* 2
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-ar"eting is the relation $etween costumer and organiation# 'henthe costumer contacts the organiation then it is seen that the re@uest is ofour capa$ility or not# .f not then regret order is send# &lse re@uest is 3udged
under arious points of cost! terms and conditions! time duration etc# and thedecided conditions are send to the customer now if the customer agree thenorder is placed for further process#
%irstly HAL had only defense sector as the only customer! $ut now ithas decided to e,pand it capa$ilities to earn more and more profit#
-ar"eting mainly includes two units of mar"eting# They are Ciil and&,port# .t mainly deals with the defense re@uirements! $ut $esides this thereare many other costumers in .ndia and outside .ndia#
-ar"eting
Ciil e,port
(.75! 7ahara Airlines! "ingfisher (man! UA! &ngland!"ingfisher! ?&T airways! etc#) 5omania! Oim$a$we!
7rilan"a! etc#)
CI
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These can $e descri$ed in chart asP
CU7T-&5
5%QF5%
-A5;&T.6G
&6QU.5 5&E.&'
reparation (e,port eolution!pricing committee! etc#)
Eetting (finance)
Approal (competent authority)
FLOW CHART FOR MARKETING PROCESS
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TechnoFcommercial proposal
Approedproposal
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Hindustan Aeronautics Limited (HAL) has cruised past the 5s#=!4//:croremar" for the first time with a sales turnoer of 5s#=!=
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/UGGE/TION/
.t is matter of great prestige to $e a part of well highlyorganied 6aaratna organiation! H.6U7TA6A&56AUT.C7 L.-.T After $eing a part of suchorganiation one has the chance to learn a lot a$out a successfulorganiation# Besides this it also imparts the opportunities tostrengthen the particularDs professional s"ills#
Atmosphere of organiation teaches one the characters of%ocusing! lanning! ecision ma"ing! Co:ordination etc# Thesegolden e,periences help the student to sharpen hisFher professionalas well personal s"ills# After $eing the training student of HAL a
particular department is assigned to study#
This department helps in all possi$le ways to guide thefunctions! wor"ing process! units prepared of the organiation# necan learn a lot if he ta"es the proper interest#
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C)#('$*%)#
The 3oy of flying has fascinated the human race for centuries#efense aionics ma3or 6aratana 7U Hindustan AeronauticsLimited (HAL) is in the $usiness of $uilding a whole range ofaircraft helicopters and 3et trainers# Besides! the companymanufactures aircraft components! oerhauls fighter planes andtrains future pilotDs #its success in the design and deelopment oflight com$at aircraft Te3as and adanced light helicopter hru haswon admiration# HAL is the $ac"$one of .ndiaDs air defense and
continues to occupy the strategic importance reflecting a new paceof growth#
Today the faster growing sector is the aiation sector isli"ely to $e a $oon for the entire 3o$ mar"et# .t deals with themanufacture! design deelopment of aircrafts#
The pro3ect is $ased on the instruments that are used in the
manufacture of the arious aircrafts# A deep "nowledge of theseinstruments is crucial in the perfect design manufacture of theaircrafts# The pro3ect will $enefit those who hae interest in theinstrument will proide the reader with the deeper "nowledge ofthe topic#
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Reere#(e
Maa%#e* ) 4AL
Ma#$a'* ) depar&,e#&*:
LAB -A6UAL 0* : AEA6C& L.GHT H&L.CT&5#
LAB -A6UAL 2* : C -A7T&5 BM '5;.6G#
LAB -A6UAL +* : AC -A7T&5 BM '5;.6G#
LAB -A6UAL * : ACU '5;.6G#
LAB -A6UAL 4* : %TU '5;.6G#
I#&er#e&
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