PIMPRI CHINCHWAD EDUCATION TRUST'S

PIMPRI CHINCHWAD COLLEGE OF ENGINEERING & RESEARCH

An ISO 9001:2015 Certified Institute

(APPROVED BY GOVT. OF MAHARASHTRA, AFFILIATED TO SPPU, APPROVED BY AICTE, DTE CODE - 6822)

Spotlight
PCET Brochure              2021 Asian Conference on Innovation in Technology (ASIANCON '2021) IEEE Conference, 28th & 29th August 2021              ASIAN CONFERENCE ON INNOVATION IN TECHNOLOGY Technically Co-sponsored by IEEE Bombay Section AUGUST 28 & 29 ,2021 (HOSTED BY-PCCOER ,PUNE India)              Industry Requirement Form (to be filled by Industry professionals only)              PCET Brochure              Principal Sir's Interview         Promethean, the Literary Club under that add attached file        

CO's

CO's

Cos of 06 courses, one per semester are listed in the following tables.

Table 3.1.1a: C202-Electronic Devices and Circuits: Year of study 2015-16

C202.1

Students will be able to design, build and analyze bipolar junction transistor CE amplifier to determine V BE, VCE, IC and stability.

C202.2

Students will be able to design, build and test CE amplifier at low and high frequencies using multisim and compare it with CB and CC amplifiers.

C202.3

Students will be able to design, build and test voltage-series and current-shunt BJT amplifiers & oscillators for given specifications using multisim.

C202.4

Students will be able to design, build and test large signal low frequency amplifiers such as class A, class B and class AB using multisim.

C202.5

Students will be able to analyze a small signal model of E-MOSFET to determine voltage gain, input resistance, output resistance and bandwidth.


Table B.3.1.1b: C210-Analog Communication: Year of study 2015-16

C210.1

Students will be able to compare amplitude modulation techniques like DSBFC, DSBSC, SSB, VSB and ISB and simulate the DSBFC system using MATLAB.

C210.2

Students will be able to analyze the generation of FM signal using direct and indirect methods and compare angle modulation schemes such as FM and PM using MATLAB.

C210.3

Students will be able to analyze AM receiver to find performance characteristics such as sensitivity, selectivity, fidelity, image frequency rejection and IFRR and detect FM using PLL.

C210.4

Students will be able to analyze the performance of analog modulation systems such as DSBSC, SSBSC, FM and PM in the presence of noise.

C210.5

Students will be able to differentiate between pulse analog modulations techniques like PAM, PWM & PPM.


Table B.3.1.1c: C303-Microcontrollers and Applications: Year of study 2016-17

C303.1

Students will be able to compare microcontrollers such as 8051 and PIC and learn their importance in designing an embedded application.

C303.2

Students will be able to use the microcontroller hardware and software tools such as assembler, compiler, IDE, emulators, debugger, programmer, development board and DSO for IO interfacing.

C303.3

Students will be able to design and develop interfacing with real-world devices such as ADC, I2C, SPI, etc.


Table B.3.1.1d: C313-Power Electronics: Year of study 2016-17

C313.1

Students will be able to design and implement a triggering/gate drive circuit for power devices like SCR, IGBT and MOSFET.

C313.2

Students will be able to analyze different controlled converters such as a semi, full converters, chopper, inverter and cycloconverter.

C313.3

Students will be able to design over voltage and over current protection circuits.

C313.4

Students will be able to design a charger for given battery specifications.


Table B.3.1.1e: C403-Microwave Engineering: Year of study 2017-18

C403.1

Students will be able to analyze TEM, TE and TM waves to find parameters such as cut-off frequency, cut-off wavelength and guide wavelength for rectangular, circular waveguides and resonators.

C403.2

Students will be able to evaluate a system consisting of microwave components such as E-plane, H-plane, magic tee, isolator, circulator, directional coupler and striplines using S-parameters for network analysis.

C403.3

Students will be able to analyze microwave tubes such as two-cavity klystron amplifier, reflex klystron, magnetron and TWT to find the efficiency.

C403.4

Students will be able to analyze solid-state active devices such as microwave bipolar transistor, FET, MOSFET, varactor diode, PIN diode, schottky barrier diode, tunnel diode, TEDs, gunn diodes, IMPATT diode and TRAPATT diode along with their applications.

C403.5

Students will be able to select suitable microwave systems to measure S-parameters, frequency, power, attenuation, phase shift, VSWR and impedance.


Table B.3.1.1f: C410-Broadband Communication Systems: Year of study 2017-18

C410.1

Students will be able to apply the concept of lightwave systems to establish the optical fiber communication link.

C410.2

Students will be able to analyze the lightwave system to carry out the link power budget and rise time budget by proper selection of components to check its viability.

C410.3

Students will be able to analyze WDM, optical amplifiers, isolators and circulators to verify power distribution in advanced lightwave systems.

C410.4

Students will be able to analyze the satellite communication system to determine the parameters such as look angle, orbital perturbations and orbital determination of orbital mechanics.

C410.5

Students will be able to select components such as satellite antenna and power subsystem for telemetry, tracking, command monitoring, attitude and control systems in satellite subsystem design.

C410.6

Students will be able to design satellite link for Up Link and Down Link communication.