Supply & Installation Of Machines And Equipments For Electronics Engineering Lab-1 8051 Microcontroller Trainer kit. 2 LCD 16X4 Alphanumeric Display. 3 4x4 Matrix Keypad 4 DAC0808 8-Bit Digital to Analog D/A Converter IC Package DIP-16 5 IC 741 6 ADC0808/0809 7 Stepper motor 8 DC motor 9 AT89S52-24PI / AT89S52 IC ATMEL 8051 Microcontroller 40 Pin DIP Mount Chip 8 Bit Microprocessor 8Kb ISP (in System Programming) Flash Memory Up to 33MHz Clock Frequency Speed -- 1 Basic Digital Communication Training System 2 Advanced Digital Communication Training System 1 a)      Verify the open loop transfer characteristics of Op-Amp using IC-741. Also determine gain of b) Inverting, c) Non-inverting and d) Buffer amplifier using IC-741 on bread board and Trainer kit IC-741 Op-Amp Trainer kit and bread board 2 Design an Astable Multivibrator using IC-555 Timer and calculate the duty cycle and pulse width of the generated waveform. Astable Multivibrator Multivibrator using IC-555 Timer 3 Design an Monostable Multivibrator using IC-555 Timer and calculate the duty cycle and pulse width of the generated waveform. Monostable Multivibrator using IC-555 Timer 4 Calculate the lock range and capture range of PLL using IC-565. IC – 565 PLL 5 GL-12 840 Points Solderless Breadboard 6 Soldering Iron Kit 1 ANTENNA MEASUREMENT SYSTEM with S-Parameter Measurement Module– 1 Set 2 Motorised Transmission Line Trainer 3 Doppler Radar Trainer 4 Microwave Integrated Circuits 5 9KHz to 3.6 GHz Spectrum Analyser with Tracking Generator 6 X Band Gunn Based Microwave Test Bench- 1 Set 1 Construct the circuit and plot the VI characteristics of the PN Junction Diode, find the cut in voltage Nos. 3 Objective: To study Forward & Reverse Characteristics of PN Junction Diode. D.S.O 40 MHz: 2 Construct the circuit and plot the characteristics of a Zener Diode. Find the breakdown voltage Nos. 3 Objective: To study Forward & Reverse V-I Characteristics of Zener diode. Oscilloscope CRO 30 MHZ: 3 Construct a Half Wave Rectifier and obtain regulation characteristics– Without Filters and with Filters. Compare the results Nos. 5 Objective: To study Efficiency & Ripple factor of Half wave rectifier on application of load & filters. Digital Multimeter: 4 Construct a Full Wave Rectifier and obtain regulation characteristics – Without Filters and with Filters. Compare the results Nos. 5 Objective: To study Efficiency & Ripple factor of Full wave & Bridge rectifier on application of load & filters. Analog multimeter: 5 Construct a Bridge Rectifier and obtain regulation characteristics – Without Filters and with Filters Nos. 4 30V 5A SMPS Based DC regulated power supply 6 Obtain the characteristics of DIAC and TRIAC Nos. 4 Digital Function Generator 8 1N4007 Diode Nos. 5 9 Fixed Resistor Nos. 5 10 Capacitor Nos. 4 11 1N4735 Zener Diode Nos. 5 12 Breadboard Jumper Wires Ribbon Cables Kit, Multi-colored (120 Pieces) Nos. 5 13 ElectronicSpices Transformers Nos. 10 Electronic Spices pack of 2 10K ohm potentiometer, single variable resistor (Round) Nos. 100 PCB Breadboard: Nos. 20 BJT Nos. 50 FET Nos. 50 DIAC Nos. 25 TRIAC Nos. 25 Principle of Electronic Communication Lab Sl. No. Name of the Equipment/ Experiment UoM Quantity (A) Rate (B) GST (C) Total Amount (D=B+C) 1 Analog communication Training System Nos. 5 2 10 Khz to 3 GHz Spectrum Analyser with Tracking Generator Nos. 3 3 100 MHz Dual Channel Digital Storage Oscilloscope Nos. 5 Electronic Measurement and Instrumentation Lab Sl.No. Name of the Equipment/ Experiment UoM Quantity (A) Rate (B) GST (C) Total Amount (D=B+C) 1 Measure unknown inductance using following bridges Nos. 3 1.       Anderson Bridge Kit with digital null detector. 2.       Maxwell Bridge Kit with digital null detector. 2 Measure Low resistance by Kelvins Double Bridge. Nos. 3 Kelvins Double bridge kit with digital null detector. 3 DC slide wire potentiometer kit Nos. 3 4 Crompton potentiometer kit Nos. 3 5 Measurement of strain/force with the help of strain gauge load cell Nos. 3 Strain gauge kit. 6 Single-phase energy meter kit by phantom loading. Nos. 3 7 Q-meter kit. Nos. 3 8 Draw the characteristics of the following temperature transducers Nos. 3 (a) RTD(Pt-100) (b) Thermistor 9 Measurement of displacement with the help of LVDT Nos. 3 Digital Electronics Lab Sl .No. Name of Experiment UoM Quantity (A) Rate (B) GST (C) Total Amount (D=B+C) 1 To verify the truth tables for all logic gates – NOT OR AND NAND NOR XOR XNOR using CMOS Logic gates and TTL Logic Gates. Nos. 3 Digital TTL logic gate Kit. Digital CMOS logic gate Kit. 2 Implement and realize Boolean Expressions with Logic Gates. Nos. 3 Basic Logic gate Kit. 3 Implement Half Adder, Full Adder, Half Subtractor, Full Subtractor using ICs. Nos. 3 Digital Half and Full Adder/ Subtractor Kit using ICs. 4 Design and development of Multiplexer and De-multiplexer using multiplexer IC. Nos. 3 Multiplexer and De-multiplexer Kit using IC. 5 Verification of the function of SR, D, JK and T Flip Flops. Nos. 3 Digital RS, D, JK and T Flip Flops trainer kit. 6 Design controlled shift registers kit. Nos. 3 7 Construct a Single digit Decade Counter (0-9) with 7 segment display. Nos. 3 1 GL-12 840 Points Solderless Breadboard 2 Soldering Iron Kit 3 Hot Air Gun 4 Arduino UNO ATmega328P

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Supply & Installation Of Machines And Equipments For Electronics Engineering Lab-1 8051 Microcontroller Trainer kit. 2 LCD 16X4 Alphanumeric Display. 3 4x4 Matrix Keypad 4 DAC0808 8-Bit Digital to Analog D/A Converter IC Package DIP-16 5 IC 741 6 ADC0808/0809 7 Stepper motor 8 DC motor 9 AT89S52-24PI / AT89S52 IC ATMEL 8051 Microcontroller 40 Pin DIP Mount Chip 8 Bit Microprocessor 8Kb ISP (in System Programming) Flash Memory Up to 33MHz Clock Frequency Speed -- 1 Basic Digital Communication Training System 2 Advanced Digital Communication Training System 1 a)      Verify the open loop transfer characteristics of Op-Amp using IC-741. Also determine gain of b) Inverting, c) Non-inverting and d) Buffer amplifier using IC-741 on bread board and Trainer kit IC-741 Op-Amp Trainer kit and bread board 2 Design an Astable Multivibrator using IC-555 Timer and calculate the duty cycle and pulse width of the generated waveform. Astable Multivibrator Multivibrator using IC-555 Timer 3 Design an Monostable Multivibrator using IC-555 Timer and calculate the duty cycle and pulse width of the generated waveform. Monostable Multivibrator using IC-555 Timer 4 Calculate the lock range and capture range of PLL using IC-565. IC – 565 PLL 5 GL-12 840 Points Solderless Breadboard 6 Soldering Iron Kit 1 ANTENNA MEASUREMENT SYSTEM with S-Parameter Measurement Module– 1 Set 2 Motorised Transmission Line Trainer 3 Doppler Radar Trainer 4 Microwave Integrated Circuits 5 9KHz to 3.6 GHz Spectrum Analyser with Tracking Generator 6 X Band Gunn Based Microwave Test Bench- 1 Set 1 Construct the circuit and plot the VI characteristics of the PN Junction Diode, find the cut in voltage Nos. 3 Objective: To study Forward & Reverse Characteristics of PN Junction Diode. D.S.O 40 MHz: 2 Construct the circuit and plot the characteristics of a Zener Diode. Find the breakdown voltage Nos. 3 Objective: To study Forward & Reverse V-I Characteristics of Zener diode. Oscilloscope CRO 30 MHZ: 3 Construct a Half Wave Rectifier and obtain regulation characteristics– Without Filters and with Filters. Compare the results Nos. 5 Objective: To study Efficiency & Ripple factor of Half wave rectifier on application of load & filters. Digital Multimeter: 4 Construct a Full Wave Rectifier and obtain regulation characteristics – Without Filters and with Filters. Compare the results Nos. 5 Objective: To study Efficiency & Ripple factor of Full wave & Bridge rectifier on application of load & filters. Analog multimeter: 5 Construct a Bridge Rectifier and obtain regulation characteristics – Without Filters and with Filters Nos. 4 30V 5A SMPS Based DC regulated power supply 6 Obtain the characteristics of DIAC and TRIAC Nos. 4 Digital Function Generator 8 1N4007 Diode Nos. 5 9 Fixed Resistor Nos. 5 10 Capacitor Nos. 4 11 1N4735 Zener Diode Nos. 5 12 Breadboard Jumper Wires Ribbon Cables Kit, Multi-colored (120 Pieces) Nos. 5 13 ElectronicSpices Transformers Nos. 10 Electronic Spices pack of 2 10K ohm potentiometer, single variable resistor (Round) Nos. 100 PCB Breadboard: Nos. 20 BJT Nos. 50 FET Nos. 50 DIAC Nos. 25 TRIAC Nos. 25 Principle of Electronic Communication Lab Sl. No. Name of the Equipment/ Experiment UoM Quantity (A) Rate (B) GST (C) Total Amount (D=B+C) 1 Analog communication Training System Nos. 5 2 10 Khz to 3 GHz Spectrum Analyser with Tracking Generator Nos. 3 3 100 MHz Dual Channel Digital Storage Oscilloscope Nos. 5 Electronic Measurement and Instrumentation Lab Sl.No. Name of the Equipment/ Experiment UoM Quantity (A) Rate (B) GST (C) Total Amount (D=B+C) 1 Measure unknown inductance using following bridges Nos. 3 1.       Anderson Bridge Kit with digital null detector. 2.       Maxwell Bridge Kit with digital null detector. 2 Measure Low resistance by Kelvins Double Bridge. Nos. 3 Kelvins Double bridge kit with digital null detector. 3 DC slide wire potentiometer kit Nos. 3 4 Crompton potentiometer kit Nos. 3 5 Measurement of strain/force with the help of strain gauge load cell Nos. 3 Strain gauge kit. 6 Single-phase energy meter kit by phantom loading. Nos. 3 7 Q-meter kit. Nos. 3 8 Draw the characteristics of the following temperature transducers Nos. 3 (a) RTD(Pt-100) (b) Thermistor 9 Measurement of displacement with the help of LVDT Nos. 3 Digital Electronics Lab Sl .No. Name of Experiment UoM Quantity (A) Rate (B) GST (C) Total Amount (D=B+C) 1 To verify the truth tables for all logic gates – NOT OR AND NAND NOR XOR XNOR using CMOS Logic gates and TTL Logic Gates. Nos. 3 Digital TTL logic gate Kit. Digital CMOS logic gate Kit. 2 Implement and realize Boolean Expressions with Logic Gates. Nos. 3 Basic Logic gate Kit. 3 Implement Half Adder, Full Adder, Half Subtractor, Full Subtractor using ICs. Nos. 3 Digital Half and Full Adder/ Subtractor Kit using ICs. 4 Design and development of Multiplexer and De-multiplexer using multiplexer IC. Nos. 3 Multiplexer and De-multiplexer Kit using IC. 5 Verification of the function of SR, D, JK and T Flip Flops. Nos. 3 Digital RS, D, JK and T Flip Flops trainer kit. 6 Design controlled shift registers kit. Nos. 3 7 Construct a Single digit Decade Counter (0-9) with 7 segment display. Nos. 3 1 GL-12 840 Points Solderless Breadboard 2 Soldering Iron Kit 3 Hot Air Gun 4 Arduino UNO ATmega328P