Embed Size (px)
Citation preview
-F : :,
-
-!
t:t-L--.
t--.It--
t_-L.:
l.-L---
I =:t-..t_Ll-i
Lj-t--L.
L:-LrLlLi.trtitrt{.trl{.l:LL*lLt---l--^
LlrL
;!
, Shri \/aishnai \''itl'''alieefhVishri,:ividr':ilir.1.ir, ilrdore
Il.l'ircli (liccira ir-onics )
i i '' i lEecrirrrG & Lv+i.ri{l ri)N s.HFr\iF.:i_
-
i i i i- rHrriR\, -j-- ".tr-*.-.-l- l---i-l-
;ci;ui...ri i i-----T-+i "'-'-,":,1-_- ; i 1,.I iC!-\tl ir-aiig,,,:,:i-CL;R::Ei-l.iivlr g _- je i,"F
= j, ',nZ i i i : :
; ; , i3 liaEiqE H'E=l:= i*i-:ipiE:iY-r I r e.i.Ii"ifi3'6-.ri;-=i* j i i i41r;F;{I.-*iXIi''---":ii'-"+ilil7i i ; z.i,=, i;rll# ?Ei,ii i !it'-i'l=a r tTr--- it-Ti-L- l-#-----=:-----1---]--f ,i--!l^..-..-. i ic.,,,ii"aiir,i,'!ics I I -,- i : i I : iiBi'rr:l'srii ; lojfi::oH-rureulics i or, i zt i ,n i .,,,, r 2ii is ii iz r ,q !
I-egends: L-i.cctttre:T-Tutoiial/TeacherGuiciedS'iudenrActivity: P- Practical. C'-( r-c,iit:iTeacher Assesslnerrt shall be based follorv:nE ccrnDone;its: QuizAssignmenV pi-o.jeclpanicipaticn in Class, given that noaoiiir(,tlcrti siraiicxceed more ihan ir,, marks.
Course Educational Objectives (CEOs):
i. Tc impart knowledge about Appiie<i Fiycirauiics & pne,lmatics.
Course 0utcomes (COs):
Upon completion of the course, students will be able:l. To know the advantages and appiications of Fluid Power Engineering and PowerTransmission System.2. To learn the Applications of Fluid Power System in automation of Machine Tools and
SyllabusUNITi 8hr.
introciuction to fluid power, Advantages of fluid power, Application of fluid power system. Typesof fluiid power systems, Properties of hydraulic fluids - General t-vpes of fluids - Fluid powersymbols. Basics of Hy,jrauiics-Appiications of fascai's Law- Laminar and 'furbulent flow -Reynolds's number - Darcy's equation - Losses in pipe, valves and fittings
UNIT II 12hr.
Sources of Hydraulic Power: Pumping theory - Pur.,p classification - Gear pump, Vane pump,piston pump, construction and working of pumps - pump performance - VariabG displacementpumps. Fluid Power Actuators: Linear hydraulic actuators - Types of hydraulic cylinderi - Singleacting, Double acting special cy{inders like tanden, Rodless, Telescopic, Cushioning mechanism,Construction of double acting cylinder, Rotary actuators - Fluid motors, Gear, Vane and PiStonmotors.
-( I i r i u.: i:; h i', a v V i o ya p eet h Vi s h w a v i ci';: i a ya
lrrdore
/ l-ll
ilr\ ivt. ,ala ',r, I dO'
-
-T:
-'
-:--
-
;
L-
:-E---
*-l-L-.t--l-L-
l-'l-rli'l-rI -'Li,tilr-L-.
l,:--.1.t---
L;rrl-t:l:
r \l'I- Iil
1.
2.3.
4.5.
6.
S h ri Va i s [t n ir v Vi cl.';a p eethVi sh il' a i'i d i' a I a]' a' I n d o re
Design and testing of Pressure Conlr-o-l l,dlt'::lircuit'ffif;;; *,i"? "rrlow controt yvdi":tl:.-t*llj;
,;;l.ffi ;;;;d*ui.f qgm"ti;nlrt:*:l1*:i":,:iT,"nffiffiil;t;;]nj;;;;iG of p."rr*. control pneumatic circuit.
I ulr r.
l
itJilr.i;)iiT I\,i
111g,1i:1:iiic Conponerits: i,r..lDCi-ttCs ci.air - COil]ilt.eSSC]'S i:illcl . l-.i.eglilatt;i, Lr.:orica.or Unii Arr
r:trnirr-rI vaiVes, Quick exiiaust vai"'es. pneuinaiic aciuaicl's' FluiC Porvcr Circuit Dcsign' Spccri
controi circuits, syncruonizing "ir"rii, penumo hydraulic circuit, Sequentiai circurt ilesrgrr
lo. ,;mpt. appiica'tions using cascade rnethod'
17hr'
UI\! I Y
Servc systems Hyclrc N4ech-anicai servo systems, trlectro hyclraulic s-ervo systems and
proportionai uutu"r. riui<iics - inrrocir-icritin io ii,,;ai" .iuviecs, sii'pie circuits' lntrcJuctiori ir;
Eiectro tiyciraulic pn*rnuti. logic circuits, rad,r.er.diagrams, pl-c apprications in fluid pov"er
controi. Fiuid power circttiis; iailure and troubieshooiing'
Text Bookst "ith
Applications"' Pearson Education 2005 '
" f,tl}Jf'Ji::',:b ;i iili:ff:: Systems - princip les and M aintenance", iuo v"c,au' - I{ il,
2001.
1. Srinivasan.R, "Hydraulic and Pneumatic controls", vrjay Nicola 20991 ^
Z. Shanmugas"ira*'".. K, "Hydrairlit-*a Pneurnatic contiols"' Chand &Co'2046'
3.Majurndars.R.."Pneumaticryr*r-Principlesandmaintenance"'TataMcGrawHill'l9g5
4. Anthony Lal, ..oil hydraulics in the service of inclustry,', Allied publishers, i982.
5. Harry I-. stl.rart D.B, "p.u",t""I ;;t;i; fft plwer", Titaoeala sons and Port Ltd'
BroadeY, 1976.
6.M.ichaelJ,PrinchesandAshbyJ.G,..PowerHydraulics,,,PrenflceHall,l9S9'7 . Dudel1,t, e. p"ur. and John r. pipp*g"., "Buri" Fluid Power", Prentice Hall' 1987-'
List of ExPeriments:
#*;; i"tirrg "trloi control pneumatic circuit'r,--:^ ^rr\:--^+i^-al Cnntrol nnerrmatio CifCuit.
r<rrI-,.r,rk{,rl,r .vi, ,aia r. i Co
:\-
t
t
'v
't
t
t
v
-U
Shri Vaishnav ViclyallcctirVishwavidvalava. Intlore
7. Dcvelupr6it and anaiysis of circuits with Logic Llor:trol'r: !-,-i.-,rr :-1:.i;^., ,-, r .ri-,, .. '7-;-.,.:t- ,, iil. 'ri'-r..-,.J. in)ptiilt-it;-iii{iii iiiu i:}iiir.'1 i;: ( ii!uir\ t'r('' I rr!rrrr-:'
\). I-.rcsigr-r cl cir,.r-riis -."vill: piggral,-.r:reii i.cgic seqLitncc '-rsir-rS rrrt c;,iii'ti.:!
ii'.,Jrri'i it lrelrer.- -r ^/ i\'i ^ i t-/l: !-
Ii;. LrUillu.i':i;rii()ti i); f i .i;i,\j :,':- r-i.'!i\r-r.!:r -
II
.\ .t,, 71.I.,' ( "\.'
j,/
la
,-f
f?
;
a--
l--
rtEI-
EI'e-
L-,
L.
YiiiYl-h.-
L-
i\rr
:\r
h.r
-{;
bf...i
L--l-Lil*Lrl<Lt,lrt{-li-lj.lvt.\tTtil=Lr
lil=-l.f-IEtLtLl*Irfr-f&h.t.-t=k
j.r.
ShriVaishnavVidyalreetlrVisirrvavidvala]-a'Intlrtt.c
B.Tech ( i\lec ha troft ics)
l't.l ^.a ai ! N (; &
i ;t-:I
<-_.._-I
II
r
,i
Ei-'!i'i
I
II
Iii
I!.-_.<
'i'*t)
CO:lR:;it r )Dl.
SyllabusUnit-I
Caicgi-r' 1'
.-=q-.;;ir-3ilNF.tii.
F
zzeQ.; Eh*,&^--s.u t;za;=
ocE.2 t-c-f
!oa)
!'-'
L
tJ
i t.^
component shall exceed more than l0 marks'
Cotirse Educational {-ibjectives (CEOs):
l. Student w,l be able to understand the structurar anci functionai pri.crples of sensors and
transducers "r"a io. various physical and nonelectric quantities'
2. Explain the principles of operation of the sensor'
3. Interpretation of the measurement resuits by using transducers'
4. Development of measurement schemes for different non electrical quantities
5.Assimilatingknowledgeabouttr,"i-pr"*entationofsensorsandtransducersintbacontrolsYstem structure'
Course Outcomes (COs):
Aftercompletionofthiscoursethestudentsareexpectedtobeabietocienronstratefollowingkrcw.ledge, skills and attitudes
The students will be able to
i. To apply knowledge of sensors and transducer'
Z. f,, iaerriify, formiate, and solve engirreeiing problems
3. Demonstrat;;;; types of force iransCucer and their analysis'
4. Demonstrat; ";ri;; typ"r of pressure transducer and their analysis'
10hr.
Motional and Dimensional measurement:
Introduction, Aim of measurement, Roll of sensors in engineering, classification of transducers'
Fundamental Standards, units , Resistive Potentiometers, stain gauge, LVDT, Hall E,ffect SenSorS,
magnetostricitive, magnetoresisitive, optical displacement sensor fiber optic sensor' ultraSonic
distancesensor,Piezoresistive,Linearencoder,ProximitysensorsRVDT'DCtachometer'Ac..r:--ldalfoiiftter;'6iidFbufitnffffig;,cuiffypd:tachorne'br;rr@iqgyrffiioperS'=:'€ '""?i;;?:4i='*"' -
i.li:r,iil'Pet:;*riBoard of Stur:lies
Slrri v.:ishnar Jidyapeeth Vishwavidyalaya
lr:d 're
i t'ii,iti _ -.'.
-3- i+=lao !i:')
=, ta
Sensors and
Transductrs
: P-Practlcai: C - Creolt;
*Teacher Assessment shall be based folrow..ing compon.nts, Qui/Assignmenv pro-iect/r'articipati';n in (-'lass' siven ihat no
-
-
-
-th-
La-
t--.L-t-..L-*L-.t"L5t:tj_t.'t_-t:u*l_'-t:t:l--L_-u.l*-r-f--
shri \raishnar Yitlr alle etllvishH alidl aliil a, Intlt;rc
I2hr.
1r,iilc.ipal. gaugu i:cioi. liPe'r irl- -t;l:i;-' S;'ii:T'
i CC:ir penSatiCn t tl.--: rll i i tl ii C tl'i; j' ! ;'.i.'-(iil ii''l U i-ai i (i Il
'=' : .rT ii:- 5CC,;J].-iri\ j'jl] -i',!
c f :,iCi'if*OS,jUCi:r. Ll v n 3 I i:'t.: j nitti':
I ?hr.r-';i-r' -Iii
:, --i srI fc l;iezsurSr:]eD t
1t=']..a= and caiibration Units an<l reiations' Posiiive Pressule -Qeil-'t;is\'.iiiJ4'--
nd rneasurement: Moderatc pressure Bour.Jon tube, Belit-rvs &diaphragms,pi-esture and sound rneasuremt":t ',"1"":,:l:,'^ ..:^,*^:-";^.- ^*"",,." rner.rrrenrent- i'.4cle.rc-,.,i- ni-eSSUrC mcasuicment, Piezo electric. Electric resistance, i-o-;; pressure msasurement' Mcleoi1r::rr r'- -i --^-.i,,^+,,,.r, i^nrzatirrn oltrof, !)eaal \Vel[nl-,.,-. Knr_rdsen g?,l).ge' r./iscosrtj', gauge, Therrnai ccniuctivit',,' ionization gauge: Deac werght
ji'1u=-' differerlt fypes of rnicrophone
,tuge. sound levei measurement uslng
.^rr -lV lohr'
i tr '
Florv rneasurement: obstruction meter: orifice, Nozzle, venturi, Pitot tube,t^*;;-
tubes, Target, rotauleiel', Turbine, Electromagnetic' Voitex' Positive displacement'
. -^anrTl9ters, weirs & flumes, Laser Doppler, Anemometer, Ultrasonic flow meter' fluidic-{Ils t"- -
,]r"lii"r.., Mass flow meter, Frow visualization, Lever measuremenr: visuar level indicators,
ofiinarY float type, Purge method, Buoyancy m-ethod, resistance, Capacitance and inductive
ir*r,'Ultrasonic, Laser, Optical fiber' Thermal' Radar radiation'
08hrL'NIT -V
fsalperature measurement: Bimetallic thermometers, Liquid in glass' Pressure
j"-"*.,er, thermocouples, RTD, TLrermistors, Serniconductor sensors' Digital thermometers'
Irr"*"r".t, lv{iscellaneous iv{easurernent: Humiditv. Dew poini' Viscosit-v' Thermal and niiclear
radiation measurements' 4
Text Books:
H. N. Norton " Handbook of trans ducers"'
E.O. Doebelin "Measurement systems applications and design"
Reference Books:
DV S Murthy "Transducers and instrumentation"'
NakraandChaudhry..Instrumentationmeasurementandanalysis&Co
i-r1r.1,! Of StutliesV..ri..tr,', rv Vt gyrDeeth Visirwavidyalaya
lndore
l
1.
)
ll-I*u[-
*gvr:-Ct''I;rperson
Shrr
lr
titi
1.
1
,i. '(l
Shri Vaishnar Vitit aylceihYis;h"r avitivlIavlt, i tttlo;'t
i. l.t ,rl c\[)r'rinrellts
. clllbiation cl.piersurc E.1rlga L,*ing rjea<l rleigitl pressLirc tr:sler alci iricnaratiirn iti'i-ep,tr1 for
- ( lar;ri:ri:aiic,t cistrain gd,.;le ir:Jic:ricr lj.iiC ".aiShi ili'-l'l:rL::r il]al:l li\;ric ig111i 1-1:i''
,' l'lr-lilr.:feirl-rl r-:idisiii';l:meai l;strg i VD] .
j {lLl'ji' oi 1!ne,.ll :nl rotarl' clrco:ie : as disulactmtnr^i'.i.';llLi:etne;-lt'-:i'Pr::ssttre ir:iiig Rcil,;i'.'1, Bi'uiCoi:
' r- aii'orarton cilia,iuun-l gauge usiiltz "ilf il'Jni gauge- (-. ra i-rrc rc'i-r -zari cn o i I i rernl(] J.i'-lirl c: r J,''iriJR-iS )
' il;aia,;iei-izatictt cf R--l'D.
Tu siui11' charactcristics or" thci-clis1cr.
. . .iirbraiion of Rotamcter.lli"'trl---,-i ^nhLr /1 r_\i.rV.i/i,-__-
\ rli-i .--. '
I
rj -
-r -,r. r,l j. ' '(
>- ' :1'l ':' r/ rr'{ "/ I
II d 'ir'
se nsa!'.gau'Je. i )ir ph;"agi:,.
iesitt' art,-i l;rcpar-r:i:iiti ol iiit rcl"lft.
\,/t/t\/i\z-rZ'4 l' vr-t. ,| 0-sr
.,r1, ,, - \/,qyaoee.
rr., ,wr. ,dro .' JO
:-:
ts,
[.
Er-:.l|
F
-,l'
D
th,
>h,
)lrjL,'*7;\JIhr>D:\>D\;\;\
Ib
E
I
,
I
IE
t(-
(*
5 h ri V rris [nar. \-itl h1 3 peeth Vishn'ar-id h1'ala1'a, I ndo re
-
-
(Session 2018-19)
SLBJECTCODE
Category SUtsJECT NANIE
TEACHING & EVALUATION SCHEME
THEORYPRAC-TICAL
Th T P
aF
re&U
0
p
0)a-
t*t4 14
x
()F
Fr
-).
(a)a)o0A)
o)()
Ie)t-r
(n
q)
5Hi)6l-_4c)
U)
f-l
-x
o
ac)00404)
Odq)
Fr
3 . EE502 Power Electronics 60 20 20 30 20 J 1 2 5:
:
:
-
-
-
-
-
-
-
-
t--L*l-L
t--tjl-.l-t-.l:t-.Ll*-t
_.:.:.js: L - I ecture; T-Tutorial/TeacherGuided studentActivity; P-Practical; c - Credit; :
. :. - Quiz/Assignmeniz'artenciance, MST Mid Sem Test'
* -::cher Assessment shall be based on following componenls: eui/Assignment/ project/Participation
-:- :lass (Given that no component shall be exceed 10 Marks)
Cc,urse Educationat Objectives (CEOs): t a-..-
.-rs course aims to equip the students *i/1, u basic understanding of modern-power semiconductor devices'
."::-.us important topologies of porver converter circuits for spec"ific types of applications. The course also
=;;ips students witt, an-auility to understand and analyze non-lineai circuits-involving po\iler electronic
: -:.\ erters.
Course Outcomes (Cos): Upon completion of the coursg, the student wi|l be able to
L'nderstand the principll oi op".ution of commonly employed power electronic converters'
i .inallze non-linear ciicuits wlth severai power eiectronic switches'
: Equipped to take up advanced courses in Power Electronics and its application areas'
Sl llabus Il0 Hrsl
1,".:ll;-".-iconductor diodes and rransistors: Types of power diodes-General purpose dioles-Fast
;.".;;;;;"a"r--iir.i. characteristics anJ applicaiions, Bipolar junction transistors, Power MoSFETS
?-Channel, N-Channol, IGBTs- Basic ^Siru.t*" utd *oikit'g, Steady state and switching
;:aracteristics-comparison of BJT, MosFET and IGBT-Their applications. SCRs, Static and dynamic
craracteristics_Two;;;i;;";;uiogy cro, DIAC, TRIAC, UJT,IGCT Characteristics.
[8 Hrs]I- \IT-IITurn on and turn offmechanism of BJT. Power MOSFET, IGBTs SCR trigger circuits-R' RC and UJT
triggering circuits. Triggering circuits ro, ,irrgle phase bri-d-g9 rectifier and choppers' Driver circuits of
\losFET IGBT & BJT- Various commutatioi *.ti,oot of SCRs- Protection of SCRs'
T\IT-III
G'rygChairPerson
Board of StudiesShrl Valshnav Vidyapeeth Vishwavidyalaya
lndore
xn/-F- RegiS'rfar
5i, r i V;.i:hnav Vidyape eth Vi s hwav i d'r; I r":r
1NpQft[ (H.P)
[7 Hrs]
T:
:
:
-
-:
:
T-
-
-
-
-
-
-
L-LL*l._L-*L-L]j1-.Ll-.
, Shri \ aishnav Vidhyapeeth Vishrvaviclh-valala, Indore
. :,:;..lled and full controlled bridge rcctifiers witli R, RL, RLE loads Effect of source inductances'
- .--:- Crrnr.erters-circulating current mode and Non-circulating current rnode, Control Strategics
i
L \IT-IVlr:-DC Converter: Classihcation of Choppers: A. B. C. D &
[8 Hrs]E- Switching mode regr;lators - Str:dy of
r-.:k. Boost and Buck-Boost regulators.
-rl--\C Converter: principle of operation of Single Phase Bridge type cyclo-converters and their
-::lications. Single phase and Three phase aC \bitage oontrollers with R & RL load'
I \IT-\ IS HT..I
I r- --{C Converter: principle of operation of Single Phase Inverters-Three phase bridge inverters (180
,_J 110 Degree rnodes)-voltage ciontrol of invertors-single Pulse \vidth N{odulation-N{ultiple pulse
,.:jrh \fodulation-sinusoidal pulse width Modulation .comparison of voltage Source Inverter and
_ -.-enr Source Inverters- Introduction to Multilevel inverters.
Tert Books:1 . Rashid, IvI.H, 'Power Elec.tronics - Circuits, Devices and Applications" Prentice Hall
Publications, 3 rd Edition; 2003.
l. N4.D.Singh and K.B.Kanchandhani, 'Power Electronics',TataMcGraw-Hill Publishing
Company Limited, 2nd Edition, 2006.
Reference Books:1. Ned Mohan, Tore M. Undeland, William P. Robbins, 'Power Electronics', John Wiley &
Sons Publications, 3rd Edition, 2006'2. Vedam Subramaniam, 'Power Electronics', New Age International (P) Ltd Publishers, 2001'
3. philip T. Krein, 'Elements of Power Electronics', Oxford University Press, lst Edition,
2012.1. V. R. Moorthi, .power Electronics- Devices, Circuits and Industrial Applications', Oxford
University press, 1st Edition,2A05.4. P.S. Bimbhra. 'Power Electronics', Khanna
Publishers, 3rd Edition, 13th Reprint, 2004
LIST OF EXPERIMENTS:.. Shor.v Static and dynamic characteristics of an SCR'
-. Examine Static anci dynamic characteristics of TRAIC'
-1. Examine Static and dynamic characteristics of DAIC'tr. Determine Characteristics of MOSFET and IGBT'
-<. Analyze Singie phase SCR Half controlled converter with R and RL load'
:. \nalyze Single pnur" fully controlled (bridge) converter.with R and RL load'-. Design 3-phase SCR Half Controlled ConvIrte. (using simuiation platform like MATLAB/Simulink)
S. Desiln of 3-phur" SCR Fully Controlled Converter (using simulation platform like MATLAB
Simulink)9. Recall of classes of comrhutation A, B, C, D, E, F'
10. Simulation of Chopper circuit using SCR'
l--l_l*-I
Shrl Vaishnav Vidyapeeth VishwavidYalaya' lndore
L_-tJut-*Ll-.ul-*L.l-..l-*ul--.r--l-..l-..l-..L*l--.t-.r,-..t_L.LL.L.L.L.L.I-.:-.L.L.L
ShriVaishnavVitihyapeeth Vishvaviclhyalaya, lndore
(Session 2018-i9)
Legends: L - Lecture; T - Tutorial/Teacher Guided StudentActivity; P-Practical; C - Credit; Q/AQuiz/AssignmentlAttendance, MST Mid Sem Test.
': Credit IIrs 40
Course Educational Objectives (CEOs):The course will provide understanding of iontrol sy.stem and mathematical modeling of the
s-v-stem
Course Outcomes (COs):After the successful completion of this course students will be able to
1. Demonstrate the understanding of basic element and modeling of the control system.
2. Analyze the stability in time domain and frequency domain3. Design the controller and compensators for the system
Syllabus
Unit I . 8HrsIntroduction: Basic Elements of Control System, Open loop and Closed loop systems, Differentialequation, Transfer function, Modeling of Electric systems, Translational and rotational mechanical '
sr:stems, Block diagram reduction Techniques, Signal flow graph, Constructional and workingconcept of ac servomotor.
unit 2 8 HrsTime Domain Analysis: Standard test signals ,Time response of first order systems ,CharacteristicEquation of Feedback control systems, Transient response of second orcler systems ,Time domain
specifications , Steady state response, Steady state errors and error constants , P, PI, PD and PIDCompensation
LTnit 3 8 HrsStabilify Analysis and Root locus: The concept of stability - Routh's stability criterion -qualitative stability and conditional stability - limitations of Routh's stability.The root locus
concept - construction of root loci-effects of adding poles and zeros to G(s) H(s) on the root loci.
8 Hrs:j=.i!:":]-l=::::---:'a -:-.>".--
GhairpersonBoard of Studies
Shrl Vaishnav Vidyapeeth Vishwavidyalayalndore
-:I i ri Vaishnav ViCyapeeth Vishwavidya lxy.a
TNDCRE (M:p)
SUBJECTCODE
Catefiory SUBJECT NAME
TEACHING &EVALUATION SCHEN,IE
THEORY PRACTICAL
T.h T P
(o
riU
EndSentUniversityExxm
TwoTermExam
TeachersAssessment
''End
SemUniversity
Teachers
Assessment*
BTEE503 Control SystemEngineering
60 20 20 30 2A J I 2 5
Linit 4
-
ShriVaishnavVidhyapeeth Vishvavidhyalaya, Indore
F,requenci, comain Anal;,sis: Freq,"lency, coniain spccifications-Bo,ic diagranrs-Detei.iiiiiiaiiol olr..qu"n"y domain specifications and phase margin and Gain margin-Stability Analysis from Bode
plots. polar plots, Nyquist Plots,Stability analysis. Compensation techniques - Lag, Lead, Lead-
Lag Controiiers design in frequency Domain
Systems: Concepts of state, state variables and uu,"*##"',diagrams, Diagonalization- Solving the Time invariant state
u.rd it's Properties - Concepts of Controllability and
1. I.J.Nagrath and M.Gopal," Control System Engineering",
International Publishers, 5th Edition, 2008.
New Age
2. Richard C Dorf; Robert H Bishop, "Modern control system", Pearson Education, 13th
E,iition, 20i 7.
REFERENCES
1. M F Golnrraghi and Benjamin C Kuo,"Automatic control systems", New York
McGraw-Hill Education, 9th Editipn,2017 '
2. M.Gopal, Digital Control and State Variable Methods, Tata McGraw- Hill 4th Edition,
2014.
3. Joseph J DiStefano, Ailen R Stubberuci and Ivan J Williams , Schaum's Outline Series;
"Feedback and Control Systems", Tata McGraw- Hill,2nd Edition 2014.
4. JohnJ.D'azzo & Constantine H.Houpis,'Linear control system analysis and design',Tata
McGraw-Hi11., 4th Edition 2000 .
List of ExperimentsI . Perform step response of a transfer function2. Perform impulse response of a transfer function3. Perform ramp response of a transfer function1. Arralyze torque speed characieristics and <ietermine the transier function of a DC
servomotor5. Analiyze characteristics of a small.AC servomotor and determine its transfer
, function.6. Perform the transient and frequency response of a second order network'
7. perform the performance of various types of controllers used to control the
temperature of an oven.
8. Draw nyquist plot from a transfer function9. Draw root locus from a transfer function
10. Draw bode plot from a transfer function
I
tN. t..
--
t--t_L.L-.t_L.l-..utjt-..l_t_l-l_l-tjl-.l-.LL
Unit 5State Space Analysis of Continuousderivation of state models from blockEquations- State Transition MatrixObservability.
TEXTBOOK
r'rjL. l
r-jL.
ShriVaishnayVidVaReethVishwavidyataya
Lsrvoyapeeth Vishwavidy: r-.-INDORE (M:pr
l_;i,urffi*tE#f&#l-t*l_&*I.jfureltrfelTErGrtrrcr"Fr.ErrE1{ffrfrsIEIEl[fr:rj:rIE:rE=rfliu
'.c
"".,:- ",.::,,
ti.r 3"
Choice Based Creclit. System (CBC$-
Legends:L-Lecture;T-Tutorial/TeacherGuidedstudentActivity;p_practicar;c_credit;
'xreacher Assessment shall be based foiiow'irg "o*po,i.rr.r itrirya*igrrr"lv project/participation inClass, given that no component shall exceeC morc than i 0 marks.
COURSE OBJECTIVES1' To teach efficient storage mechanisms of data for an easy access.2' To design and implementation of various uusic anJ a,ir"'.,".a data structures.3' To introduce various techniques for representation of the data in the real world.1 To develop application using data structures.5. To teach the concept of protectio, *a _unugement of data.
COURSE OUTCOMESUpon completion of the subject, students wilr be abre to:] Get a good understanding of apprications of Data Structures.? Develop application rsing aata structures.3'
Iffjl1""r:"rations like siarching, insertion, deletion, traversing mechanism etc. on various data
J De.cide the appropriate data type and data structure for a given probrem.5' :r::H',:ff1t3ffi:i?,ll*m p.our"m uv "",.i;*rig ,u.io,, probrem characteristics, such as
r -.-.-.:..v, vtv.
SYLLABUS
Ufllff-lIntroduction, overview of Data structures, Types of data structures, primitive and Non primitive datastructures and operations, Algorithms. chaiacteristrl gr-n*"y, one Dimensional Array, operationrvith Array' Two Dimensional Arrays, Three or Multi-D-iirensional Arrays. Strings, Array of:[:]:fi"3i:ri:f,;.:iffffiffii i'oint.. u; ;;;;',"ilinters and r*o-oin,"nsronur a*uy,,
Category COURSE NAME
TEACHING & EVALUATION SCHEME
PRACTICAL
>i.(,bie .a.5Z tr-f-I P
E}*loC(,bHo.> .rZ E=HP
Data Structure &
1ls.-*n"vt-
COURSECODE
Bachelol' of Technologr' (Computer Science and IneerlnChoice Based Credit Svstem (CBCS)
UNIT-IIThe Stack as an ADT, Stack operation, Array Representation of .Stack, Link Representa{ion of Stack,Application of stack -Recursion, polish Notation .
The Queue as an ADT, Queue operation, Array Representation of eueue, Linked Representation ofQueue, circular Queue, priority eueue, & Dequeue, Apprication of eueues.I]NIT_IIILinked List as an ADT, Linked List Vs. Arrays, Memory Allocation & De-allocation fbr a Linked List,Linked List operations, Types of Linked List, Implementation of Linked t-irt, afpti.ation of LinkedList polynomial.
UNIT_IVDefinitions and Concepts, Binary trees,algorithms, operations on binary trees,traversal (DFS & BFS).
UNIT-VSoft Concept, Shell Sort, Radix sort, Insertion Sort, Quick Sort, Merge Sort,Heap Sort, List Search,Linear Index Search, Index Sequential search uashecl List Search,-rr*rring rrrethods , collisionResolution.
TEXT BOOKS:I' Asttok N. Kanrthanq "lntroduction to Dda$ructured', ftarsn Educdion lndiaI Trenbl4r &sorenson, " lntrodudion to Dat+ structurewith applications, iJr-l\ao Graw Hill.3 Phrua Sngh $_Tho1a Napq " lntrodudion to Datastructure', Tda Mc- Graw Hill.4. Robert Kruse, "Ddasructuresand progran Design,,, pHl.5. Aaron M. Tenenbzum& MosrreJ. Augen$e'n, "DiaStrudureusing pASCAL", FHr.
REFERENCES:L Data Structures Using C & C++, Rajesh K. Shukla, Wiley_ india.2- Data Structures Using c, ISRD Group, Second Edition, iata McGraw_Hill. \.j3. Data Structure Using C, Balagur,;samy.4. c &Data structures, prof. p.S. Deshpande, prof. o.G.I(akde, Dreamtech press.5. Data $rudureq Adapted by: GAV pA I , Schzum, s Outtines
LIST OF'EXPERIMENTS:
1 To develop a program to find an average of an array using AVG firnction.2' To implement a program that can insert, delete and edit ai element in array.3' To develop an algorithm that implements push and pop stack operations and implement the sameusing array. r r
4' To perform an algorithm that can inseft and delete elemehts in queue and implement the same usingarray.
\,,L'g:Y'I-*'::- I i--
- J*i5'ffi," *,-{?.i'aDqora, ?;aft+ s I q,6es,6r.n:,valtro^'?6h^orra, a ConoLr.. 4se,,.Frifr5t
. '== ti==::E:
operations on binary trees, Binary tree and tree traversalList, representation of Tree. Graph Representation, Graph
rsr{r{fc
[-&*1&l&tftrrulftItrtkItrlefsl.GlGrGu+tffIIrl{l"ftflfItrrtrttrItrr[IIfi:.
Bachelor of Technologv (Computer Science and Engineering)Choice Based Credit System (CBCS)
5' To implement an algorithm for insert and delete operaiions of circular queue and implement thesame using array.
6_ To develop an algorithm fbr binary tree operations and implement the same.
7 To design an algorithin for scquentiar search, implement and test it.8 To develop an algorithm for binary search and perform the same.9. To implement an algorithm for Insertion sort method10. To develop an algorithm that sorts number of elements using bubble sort method.'I l. To design an algorithm for Merge sort method and implement the same.
-kBuols#. *
a&Brtskrd€&di6f
r(*q!.r{ *rrn.Q * t4tn6siBa.initz.ftRlrin i*ih4{r*r t te.rcil!r{ .rt ! rnaii)s.r!';h! ya.rn',*i 9i tr,rs4qin. !BEFa.rgvrr..t:s
h-_
t_[LELELreLELELELELEtHtelfirEUE1..!E
Ir-l.i-]&fErrrf,rfrr:LLLLL.rLLL
Sh.i'"'aish.av Vidy,apeeth Vishlvavid-yalaya, [ndore
Legends: L - Lecture; T - Tutorial/Teacher Guided StudentActivity; P-Practical; C - C..diL*Teacher Assessment shall be based fbllowing components: Qui/Assignment/ ProjectiParticipation inClass, given that no component shall exceed more than 10 marks.
Course Objectives:The purpose of this srrbject 'is to co.-rer the underiying concepis anci techniques used in DataCommunication. In this subject we discuss various principles, itandards for communication overdifferent type of Communication Media
Course Outcomes:After completion of this course the students are expected to be able to demonstrate followingknowledge, skills and attitudes. The student will be able to:
1. List and describe various data communication protocols.2. List and describe various networking standards.3. Describe alternative networking approaches and topologies.4. Describe various important hardware devices used in networking.
SyIIabus
Unit IIntroduction to data communication: Components, bit rate, baud rate, Oata iinsmission- paraiiei anciseriai transmission, Synchronous and Asynchronous transmission, line configuration - point to pointand point to multipoint configuration, topology, transmission modes.
Unit IIOSI reference model, TCP/IP reference model, DTE-DCE interface, interface standards,'rnoclems,cable modem,X.2l Modem, FDDI, IPV4 and IPV6.
Unit IIICongestion control, CSMA/CD, . Ethernet, digital subscriber line ADSL, SDSL, VDSL.Pleisochronous digital hierarchy (PDH), Synchronous digital hierarchy (SDH), Terminal handling &polling, Handshakin g, X.25.
Shri Vaisnnav vidYapeeth Vishwavid valava
lndore
I
SUBJECTCODE
Category SUBJECT NAME
TEACHING & EVALUATION SCHE]IIE
THEORY PRACTICAL
Th T P
F
U
2t'(,b;Z E-I-l
=
L--ots
'P
a:
?=3
E.E(,)b;ZE-!i>
=o
F<BTEC5Is EC Data Communication 60 20 20 30 20 I .)
5
,NDORE (M.Pl
-.&i.
ssf,IrIt"wLtrL&L[tftftftftftr:Ti:tl]ftl1I:lI:tlul_Ll.-
.L S h ri "'ais
lii-r a v lid.l, apeeth Vishrvaviciyalaya, In d o re
I:nit IYSrvitching techniques- Circuit, Packet and Message switching, Types of error- single bit error, burstelror, Error detection- Vertical redundancy check, Longitudinal redundancy check, Cyciicredundancy check, error correction- Hamming code, Integrated services digital network (ISDN),ISDN services, digital signals, digital to digital encodings.
Unit VP.J-45, BNC Connector, i.ietwork interface car<i, ARQ, Sliding Window protocol, Connecting
Devices: Active and Passive Hubs, Repeaters, Bridges, Two & Three layer switches & Gateway.
Asynchronous transfer mode (ATM).
Text Books
1. Forouzan, Data Communications and Networking, Il-Edition, (TMH).
Rcferences Books:
1. Tomasi, Advanced Electronic Communication Systems, Sixth edition, 2009, PHI Leaming.2. Tomasi, Introduction to Data Communication Systems, Fourth edition, 2AA5, Pearson Education.3. William Stallings, Data and Computer Communications, Eighth edition, Pearson Education.4. Brijendra Singh, Data Communications and Netlvorks, Third edition, 2011, PHI Learning.5. A. S. Tanenbum, ComputerNetwork, Fifth edition, 2011, Pearson Education.o. C. Prakash Gupta, Data communication and Computer Networks, Second edition, 20|4,PHI
Leaming7. Miller, "DataNetwork and Communication", First edition,1999, Cengage Delmar Learning
List of Experiments:
1. To perform data transmission using RS-2 32lnterface2. To perform Synchronous and Asynchronous transmission. - -.j3. To perfonn Parallel and Serial tiansmission.
4. To perform data transmission using Fiber optics.
5. To demonstrate Protocols in data communication.
6. To demonstrate Wireless communication.
7. To Implementation of Ring topology using DB-9.
8. To perform data transmission using Network Interface Card.
9. To implement cross cable connection and straight cable connection.
10. To demonstrate digital subscriber line-ADSL for broadband connection.
C**n'--Yrrr\rp"rso;
r_-L.fr---I
^!] Shri Vaishnav \iid'r'a lreet [r Vis hu a yidyala,\'A, I ntlo rc
B.Tecir (iiecirati'onics)
-
Il t..r-{'iiiN{: & l\.1 i-;. ,\Tia',J S{ ilFli:'
10hr
I
-t
t-t-L-J --t_E
l->t_L_
t-:L ---I --=
lj"ti:lj,l-:.l;3k;E[nrL=lsrj
rrr!-:
_l
_,iiiLegcnds: L- i-ecture; T - futcrri'llleacherGtrided StrrCentActi','ity: P-Prectical: C'- Crcdit;*Teacher Assessrnent shal! be based fulicrving coi.nponents: Quiz:/Assignment/ Pro.ircl/Participatiorr in C'iass, given thai no
component shali exceeri more than I0 marks.
Ccurse Gbiertivc:
Provides the knowledge of the industrial automation, systems design, PLC, DCS
instailation, modificaticn. maintenance. and repair.
Course C)utcomes:
Student will be able to:
I . Demonstrate the General function of Industrial Automation2. Implement Programmable Logic Controller in various application .
3- Insure Safety in Industrial Automation.4. Use various types of Industrial Sensors.
SYLLABUS ,I]MT-I
t
\T
Introduction to Industrial Automation, fype of autcmation system, Benefits of automation.
Automation pyramid, automation tools like PAC, PLC, SCADA, DCS, Hybrid DCS .*rth reference
to automation pyramid, Comparison of PLC, PAC, $nd SCADA on the basis of Performance criteria
Control system audit.
UNIT-II 10hr
Definition of protocol, OSI model. Modbus (ASCI I/RTU), third parry interface, concept of OPC ,
HART Protocol: Introduction, frame structure, programming, implementation examples, benefits,
advantages and limitation. Foundation Fieldbus H1: Introduction, frame structure, programming,
implementation examples, benefits, advantages and Iimitation. Comparison of HART, Foundation
Fieldbus.
UNIT-III
Ctr rtii:ersonBoarci '.;l Studies
Shri Vaisirrrar; Vidyapeeth Vishwaviclyalaya
lndore
SUIJ,'ET'T i
,:. =
', - : ' :: .: - i =l=!_-;.!trlEiij=icil Y .i i-= i i',',' i .". 7 i J'l.
= E i> : ! a I i -
: ?i'5 la li F: iti i i; F E la * ! a t i: I q :
! r'-' i> li b: :I I, | !!=.J lF l< .i_, l< Iil---iiri--ii-i_-,--:-'ulr,lisir i i,tut,rniuiir.r: i ui i zr' i =u i .t i rt, i ,
riiiri,-i -1.-l-i
'-L-
!
'i'lI [.(iia', Pir-A( l
DL;-t^ir!
:
11 i
L
8hr
Lj1-L.I -.
t_I :.I :'[ _'
[-_-
l_-tjlj]jldl-el-l..t-t{t€-t{l{li.E=TIElgl--,IIIIL.kL-
S h r i \,'a i :; h n a t. \,'i d -r,ii !) ec t h Vis h.,ya v i ri y,a I a l,:t, I n rl <l re
I
ui'[-]scr iiequirernent 5pecilrcatrons, Iunctionai [)esiglr specilrcatronsI.DA
[ \. Il'-i" thr
i'r,-r.sia.flrnabie i cgic ctcltre:iiers: iirtr-ccir_ictir_rn oi' Arj.;anced pt,c Fr<:.qrarrnrin;i _si!lqiiii1; 3fi:i;-'e:-::c! - it,:''.lli';ul::ut :::r-)c:;;i'. l:,i--rflr. ,+g cf inp;.:i,'c,-ri;-,u.'r .ir., iccs- {-}f;:ji-ii.:ir ;i,lc:-i.i.;e. Uir.... .itiiv,'f -i:1.1-[-]4 s,:l!=:r-r--. !-i:r:ar;:rg :;t ?iC,,.,itlr SllAl_/A soiiw.aic
I \iT-i l0hr
L-)(-S: iiitroducti',n t':l arcititcctrii'e r>i'diffsre:lt inal:cs, DCS Speciilcations. ccnfigur-aticn ci DcS''ir;cii:: i-t-'i dif iercnt irppltcaiions. Intci'facing of rrrotticoi basect iensr:rS, e-cirr3i..r arr,J pl-C s],sie!rrs,Piarri rride,jatabasc Inanagement, Securiry anci user access management, MES, ERp Interface.
Tert Bcolrs:
S.K.Singh, Computer aided process control- pHI. 2004.webb & Reis, Prcgrammable logic controilers',(prentice Hali of India).2002Madhuchhanda Mitra and Samarjit Sen Gupta, "Programmable Logic Conrrollers(pLC)andinciustriai Automation", Penram International publishing (lndia) pvt. Ltd. 2007
Reference Books:
l. N.E. Bhttiha,The management of control system: Justification and Technical Auditing,2. ISA, New print3. Gary Dunning, 'Introduction to Programmable logic Qontrollers'.(Delmar publisher),20114. Krishna Kant,Computer Based process control, pHI, 201 l.5- 4. Samuel Herb,
_Understanding Distributed Process Systems For Control, ISA, New print.6- Ppovik Bhatkar, Distributed computer control for industrial automation, Dekkar pub.l990.
\_/I-ist of Experiments:
A -_-_ -, -4:..\urunrarton LaO; +
1. Design and implementation of ladder Logic with pLC.
2. Design a ladder logic for sequential batch process control system using pLC.
3. Study hardware and softu,are platforms for DCS
4. Simulate analog and digital function blocks
t-' .{-::.:,:-:.1
Bo. ; i-. .. ; ..- lui!iesSrri Va i:;hrrcv Vidyapeet h Vishrr;avirl,;tiaya
lndore
i,2J.
I r:2 i/:I
ipee'Jo
':- j'::ttr:li '1 'J Fcri(\:r1r cr;tcritllents on timers and coutlters
z'
. :'-:lai'ilanir'itic,rr ior r13iii' (-rrniltll Anpiicniion
- , .:'ririarlenlatiJi^r ir.,r Bcitl': ijtiir:lg ApDlliatlon
- .--.i i ._rritgir a,r:riilg-irLoirhic rctrr-,g ciliilceriea! '"'aiv'" usilg Pi C
. .rl \.'r i',-;siticn tlhir- :l'.ou:,lh l-'i i p:ograillniiig.
I'^l ___--/
r-\ it i)tt---rr \ \4._:-/,II
Cnairpers''rnBsarcl cf Studies
: .:i:r':ia'J VidyapeethVish"vavidyaiayalnCore
Sh ri V'a is h nav Vidya peethVishrva';itiyal ay a, I n do rc
\l^
(N U', -.\ sr
a, r r),qy^re..rt.\ .vr. .ala I ' ]L
J^
)^
-{
Lr- -
.
l-r"l-
t-- -l;L-- "
l--L--'L:L:"t -'t -."
[ -"
l-."L -'L-'L,"l-,'rit-3*lil€*f.:-_rEfr.E
E
IJIjI ..
utj1r-litjtiut=tjiL{LgI=L--
l>ll-
lgJrD
Ir
<
=:
..
aI
' Slri-i \.aishnar
ts.Tech ( \Iechatronics)
Vidvapeeth'r'ishw ar idt tla1,:r, I nilore
'I:. .i r-
'tiiL\L N.,LL
: i. t-'ili
3TE I5
c:i tego i_1, si ii.;acl' i\Ar,!E
i ':::xr.::T" 60 l20i S,;stenr DesignI
-L.leL
G
-
iiFiet!at,n
lzI irj
,
Ir;v
I!
30
I
:
? j.j!. :,qt;
I
I
ilIII
Lesends: L - Lecture; T - Tutorial/Teacher Guided
'Teacher Assessment shall he based follorving.-;poncnt shall exceed more than l0 irrarks.
StudentActivity; P- Practical; C - Credir;
components: Qui/Assignmen.,/ projectiparticipation in Class, gr'en that no
Course Educational Objectives (CBOs):
1. To introduce the basic functional elements of instrumentationl' To introduce the fundamenials of electrical and electronic instrumentsi' To educate on the comparison between various measurement techniques.i. To introduce various types of control panel and its dglign.5 To introduce various transducers and :signar conditioniig methods.
Course Outcomes (COs):
-rer completion of this course the students are able to-l:
i
1. To apply knowledge of measurement2.. To identifo, formulate, and solve thei. Demonstrate various types of control
system.fundamentals of designingpanel and its design.
S\'LLABUS
L'\IT -I
irtroduction to Chemical instrumental analysis, advantages over classical methods,photometry(Beer and Lambert's larv), Basic Components of
12hr
Laws ofanalytical
:r{r
--.-r!'
rrL,
-:ttill]=2$chf'liil$S*J:*classification, Gas chromatography: principle, construcrito
Soart) of StudiesShri Vaislrnav Vidyapeeth Vishwavidvalay4
lndore
., I
3l ir i.rvlr, .taie' Co:
I details,
/'l,.t;l .P-iS;'3Il
r-.
IJrj-lj'l:'IJl--L"rkrj-lj,liI*-tjEfrIJl{Ij.l{fil*l{I{l*-l*-I*-l:-- =t-l*-l_-I-I
..'\hr-i \.aisltnar \,,irl1 apeeth\.ishtr :r'idr,:rla'a, Indorc
uL Jcicit''rs- Estinlation of ox\gen. hydrogen, methanc. carbon dioxide-, CO. etc. in binarv orc,,rnrpie). ges mixtureS. Zirccnra_orobc oxrvgen analyser,.
L'\IT -ii !t] i;r
'f3'lr-'Jl5p;',o'' ;:pff!ir-';;11'-;1+i.lti.-ris '.i 1".'-Vi:ibi;i, rlloii.-rchirliiaLcis. iiil,:;-S- graiijig. ,.riisrrr. ,jr_iai\"li iiei-i{!il ::iiJ tji;uirie mc:t{-1chr(.',iratur si'siens. rap:.rl sc:u,liiig spc,.,:ionhoiurncier..:. i}ls f' ca irni.)itir t c ill rl iers,
r .\l r -tl!i0 hr
Fianre PhotcnTetry: Plncip!e. const:uctional iietails, flue sases, rlir_.l1ni2E1. bumer- opticat sirstem.recorciing system' Aiomic absorption spectrophotometers: Theoretical ccncepts, instrumentatio,:hollow cathode lamps, burners and flames, plaima excitation sources, optical and electronic system
UNIT -IV
I'{easurement of pH, conductivitv-- particre counting, detection on theNephalometer, Laboratory Instr.imeats: centrifuge, oven, waterbath,Densitometer.
TINIT -V
Kh-
basis cf scattering-Incubaiors, stirrers,
8hrMass Spectrometer (MS): Principle, ionization methods,..mass analyzer types - magnetic deflection -type, time cf flight, quadrupre, doubre focusing, detectors for MS, appu#ion. i;;,;;";;;;;;,Instrumentation for X-ray spectrometry x-ray diffractometer.
Text Books:
i' Handbook ofAnalytical Instruments, R. S. Khandpur, Tata McGraw.-Hill publications, -?rd
eciition (2010). !2' Instrumental Methods of Analysis, Willard, Merritt, Dean, Settle, CBS publishers &
Distributors, New Delhi, Seventh edition.(2005)
Reference Books :
1' Instrumental Methods of Chemical Analysis, Galen w Ewing, McGraw-Hill BookCornpany, Fifth edition.(20ttZ)
2' Introduction to Instrumental Analysis, Robert D. Braun, McGraw-Hill BookCompany(2008)
3. Patranabis D-Princi
-Biarr.i of Studies
Shri Vaishnav Vidyapeeth Vishwavidyalayalndore
t".-tjl-.tjl-.tjt-t*k-tj.tiLi.titiL:-LJ-L:.lrIt_ItL^
L--t_
L--t-[r
sir.i \,ishnar \-idr apceilr\ ish*ar-idr al;lyA, lntlore
''l:.;rii i\ Ii\\.DeanLLandSettieJA-Insrnrrnentar N4ethodsofAnarysis.(201j)\,. -,J i){ an,j 1\lest D\f - principles of lnstrumental Anal,,:sis. Hand book ot Analytical"'' l:l-rt-"t lc':i-'rlrri'l.t-r. \i,il- ll. Ana!','si: inslr':lnren,.:1. $,-,1raa '.r,cr-tnsSirentiflc Irublication,
..-'.'.,-t'ii,
Ir -- r-);r F l,.irt_Fli.;iF.\T
:' : -.to rnr & 5luil;, r.ri' Cas,_ l r ;-onratOgrap h.
- , - :nai., sis & Stud;,,of X-Ral,Spectrometer.
- l- ,,i,de r-siand & Stu,jy Ulira.zit-riet & visibie Spectroph,--,iorneier.
- T-- .{naiysis & Study of Mass spectrometer.
' I - tn,Ce r-:tanC arC anal;,srs Viscosif rneasuienent.
r T.r perforrn & study Turbidity measurement.
- Tc understand and si;dl,conductivity rneter.
: T,:, anall'sis pH of the given solution using pH meter.
: Srud), of Differactometer,
- StuC;, of Densitometer.
soard of StudiesS - : I ira i:,r ;.i a v Vidyapeeth Vishwavidyalaya
lnda,o
\"/.- "r,\-,t_]s1.:51.-;''
r " r'sitr'a? \/rd)rapeetii. 5'!r.'?yr,_YaLr ;i. i.-co,i_
rl
JJ
L)-
![Untitled-2 [svvv.edu.in]](https://img.dokumen.tips/doc/110x75/61f8462e925c4059bf1e279a/untitled-2-svvveduin.jpg)
![Untitled-1 [svvv.edu.in]](https://img.dokumen.tips/doc/110x75/6263b5179e02b843d0149b32/untitled-1-svvveduin.jpg)
