Transcript
DIGITAL ELECTRONICS 1. N10 – 4 Bit Binary Universal shift register. 2. N22- Random Access Memory (16*4). 3. N23- Read Only Memory. 4. N4-R-S/D-T Flip flop, characteristic and comparison. 5. Master Slave J-K Flip flop using NAND Gates. 6. N15- Characteristic of CMOS Integrated kit. 7. N17-Integrated CMOS to TTL and CMOS IC’s to TTL IC’s. 8. N19- Four bit binary full Adder and Subtraction. 9. N26- Modulo-n-counter. 10. N32 -Analog to Digital converter. 11. N33- Digital to Analog converter. 12. N2- NAND, NOR Inverter Gates (IC BASE) 13. Verification of De Morgan Theorem and Boolean expressions. 14. CMOS T-17 The 4018 B Prestable Divide by N-counter. 15. Digital IC applications experiment at setup with patch card and write up model DIC 103, 104, 105. 16. X-6 Bread board system. 17. CMOS Static Random Access Memory (RAM extra). 18. N12- Decade counter and Seven segment display. 19. N13- 16-1 Multiplexer. 20. N14- 4*16 De Multiplexer. 21. N24- Comparison of JK Flip flop. 22. N25- Tri state buffer. 23. 40192 CMOS Prestable up - down counter.
ANALOG ELECTRONICS 1. G2- Colpitt Oscillator. 2. G5- (RC) Phase Shift Oscillator. 3. H2- Multivibrator using OP-AMP. 4. H5- Schmitt Trigger. 5. DIAC and TRIAC characteristics with power supply. 6. Network Theorems. 7. MOSFET characteristics and testing method. 8. Operational Amplifier experimental (Instead of LDR as optical sensor). 9. X-T Thyristor application trainer. 10. P4- Voltage to frequency converter. 11. P5- Frequency to Voltage converter.
12. CP-6, V -_I and I_- V converter Instead operational amplifier kit experiment (double). 13. P13- Active band pass filter. 14. P12- Clipping circuit. 15. P20- Clamper circuit. 16. Memory programming kit- RAM. 17. Speed control of DC motor using SCR. 18. UJT controlled SCR time delay kit. 19. Analog lab with digital multimeter ST 2612 (Mother unit) a) Two port Network [AB-90] b) I-V and V-I Converter [AB-22] c) Tchebyshew Filter (HPF+LPF) [AB-54] d) Transistor characteristics common emitter NPN [AB-04] e) FET characteristics [AB-08] f) Class B push-pull Emitter Follower [Ab-22] g) Schmitt Trigger and comparator [AB-45] h) Active Filter (LPF+HPL) [AB-51] i) Notch Filter (Active and passive) [AB-53] j) ST- 4064 10 MHz Microcontroller based modulation function. k) F-V and V-F converter [AB-29]
BASIC ANALOG ELECTRONICS I 1. Adder, Subtraction, Differentiator, Integrator using IC’s 2. 555 timers. 3. Wein Bridge oscillator. 4. SCR characteristics. 5. Differential amplifier. 6. Active filter using op-amp. 7. FET characteristics. 8. Study of amplifier as a function generator. 9. UJT characteristics. 10. Emitter follower amplifier. 11. Negative feedback amplifier using IC-741. 12. Basic operational amplifier using IC-741. 13.TRAIC characteristics. 14. Wein-Bridge oscillator. 15. Maximum power transfer theorem with power supply. 16. RLC circuit and time constant. 17. Semiconductor energy gap experiment setup, model no. 925EG101 Spacem fuse 200mA. 18. Daic characteristics.
BASIC ANALOG ELECTRONICS II 1. Energy band gap for Semiconductor diode. 2. LCR bridge circuit. 3. Series and parallel resonance. 4. Semiconductor diode characteristics. 5. Transistor characteristics in CE mode. 6. Transistor characteristics in CB mode. 7. Transistor characteristics in CC mode. 8. FET characteristics. 9. MOSFET characteristics. 10. BJT Basing trainer (All types). 11. Single stage CC amplifier (Emitter Follower). 12. SCR characteristics. 13. TRAIC characteristics. 14. Zener diode as Shunt voltage regulator. 15. Diode with and without Basied Clipper (All types). 16. Diode with and without Basied Clamper circuit (All types). 17. Single stage CE amplifier. 18. Collpitts Oscillator. 19. Wein-Bridge Oscillator. 20. Single/Double Ended BJT differential amplifier. 21. IC-741 as Astable Multivibrator. 22. IC-741 as Bistable Multivibrator. 23. IC-741 as Monostable Multivibrator. 24. IC-741 as Schmitt Trigger. 25. IC-741 as Phase Shift Oscillator. 26. IC-741 as Wein-Bridge Oscillator. 27. IC-741 as Quadrature Oscillator. 28. IC-741 as Square Wave Generator. 29. IC-741 as Sawtooth Wave Generator. 30. IC-741 as Triangular Wave Generator. 31. Study of Op-Amp 741 characteristics. 32. To study Negative feedback in CE amplifier. 33. IC-555 as Astable Multivibrator. 34. IC-555 as Bistable Multivibrator. 35. IC-555 as Monostable Multivibrator. 36. IC-741 as Voltage to Frequency converter. 37. IC-741 as Frequency to Voltage converter.
38. Thevenin’s Theorem. 39. Norton’s Theorem. 40. Superposition Theorem 41. RL and LC circuit.
ANALOG AND DIGITAL COMMUNICATION LAB 1.
Sampling and reconstruction trainer. (ST – 2101)
2.
TDM – PAM Demodulator Trainer. (ST – 2102)
3.
Delta signal Modulation/Demodulation trainer. (ST – 2105)
4.
Optical Transducer trainer. (ST – 2802)
5.
TDM PCM Modulation/Demodulation trainer. (ST - 2103)
6.
TDM Pulse Code Modulation receiver trainer. (ST – 2104)
7.
PAM / PWM / PPM Modulation/Demodulation trainer. (ST – 2110)
8.
Phase Modulation.
9.
Balanced Modulator (Double side and Single side band Modulator).
10. Amplitude Modulation and Demodulation with power supply. 11. Π Attenuator characteristic and testing method. 12. CMOS-25 Frequency Modulation and Demodulation. 13. Phase Lock Loop frequency (PLL) Multiplier and Synthesizer. 14. Q-2 VCO using PLL. 15. Q-3 PLL frequency Multiplier and Synthesizer. 16. Coding of serial transmission (part 1). 17. Coding of serial transmission (part 2). 18. Full Duplex Communication system
MICROWAVE TEST BENCH(KLYSTRON BASED 1.
Study of Reflex klystron.
2.
Frequency Guide Wavelength Measurement.
3.
Standing Wave Ratio Measurement.
4.
Reflection Co-efficient Measurement.
FIBER OPTICS COMMUNICATION 1. Model No. - Fiber Link-B low cast Fiber Communication Optic trainer. 2. Model DL-20 Fiber Optic Digital Link. 3. D-020 Transmitter Fiber Optic Digital Link.
INSTRUMENTATION AND OPTO-ELECTRONICS LAB 1. Fiber Optic LEDs with one kit of Infrared led. 2. Phototransistor characteristics and testing methods with power supply. 3. Opto Coupler with power supply. 4. He-Ne Laser source 2mw. 5. Laser Optic lab (Metro logic). 6. X-8, Lab control system trainer (Transducer and Thermocouple, 3 wires RTD). 7. H-11 Temperature control using 555 and Thermistor 8. V-7 Schmitt Detector vs. Phototransistor. 9. CRO (scientech) Demonstrator ST-2001 S No. - 6506. 10. Transducer control system trainer, Thermocouple 3 wire RTD (With Digital Panel Meter in built). 11. Model – Robotics – RLS6 Universal Robotics training kit with necessary mechanical hardware. 12. X-T Thyristor application trainer.
MICROPROCESSOR LAB Dyna 8085 microprocessor kit . Study cards of 8085 microprocessor– i)
8255
ii)
8253
iii)
8251
iv)
LBDR
v)
8259
vi)
8237
Stepper Motor. ADC. DAC. STP – PIO. DSP Starter kit. Dyna 8086 microprocessor kit. Study card – 8253 Study card – 8255 Study card – 8251 Study card – 8259 Study card – 8255 Study card – LBDR Study card – DCM
Study card – T.W. Study card – RT - TC Study card – LCI Study card – KBD – SIM Study card– dig/Ref. Study card – ILCV2 conv. 2. Study card – Star-86 Converter
MICROCONTROLLER LAB 1.
Interfacing of LCD with Microcontroller 8051.
2.
Seven Segments LED with Microcontroller 8051.
3.
LED Matrix with Microcontroller 8051.
4.
Keyboard with Microcontroller 8051.
5.
DAC with Microcontroller 8051.
6.
ADC with Microcontroller 8051.
7.
DC Motor Control with Microcontroller 8051.
8.
Stepper Motor Control with Microcontroller 8051.
9.
VLSI Trainer kit.
10. Embedded Trainer, Universal Embedded board with RD2 (Microcontroller 8051).
VIRTUAL LAB 1.
Simulator of Microprocessor 8085.
2.
Simulator of Microcontroller 8051.
MATLAB Software 1.
Signal Processing Tool Box.
2.
Neural Network Tool Box.
3.
Image Processing Tool Box.
4.
Image Acquisition Tool Box.
5. LabView (National Instrumentation,USA)
