BM-108: Electronic Components & Devices Laboratory syllabus for BM 1st Year C20 regulation APSBTET

Electronic Components & Devices Laboratory detailed syllabus for Diploma in Bio-Medical Engineering (BM) for C20 regulation curriculum has been taken from the APSBTET official website and presented for the BM students. For course code, course name, number of credits for a course and other scheme related information, do visit full semester subjects post given below.

For Diploma in Bio-Medical Engineering 1st Year scheme and its subjects, do visit BM 1st Year C20 regulation scheme. The detailed syllabus of electronic components & devices laboratory is as follows.

Course Objectives

1. To have hands on practice on Soldering, de-soldering of circuits and preparation of PCB for given circuits
2. To get acquainted with the usage of electronic equipment
3. To test electronic devices and obtain their characteristics
4. To have hands on practice on construct simple electronic circuits

Course Outcomes:

1. Work with electronic equipment to test electronic components.
2. Perform soldering and desolderingof electronic components.
3. Verify the working of semiconductor diodes (PN-junction diode and Zener diode) and its applications (rectifiers).
4. Demonstrate the transistor as a switch and Obtain the characteristics of BJT (CB, CE) and designing its applications
5. Demonstrate the characteristics of FET, LED and LDR.

1.To Study and Use of Electronic Equipment and Testing of Electronic Components & Characteristics

1. Voltmeter, Ammeter, DMM, Analog Multi meter and Regulated Power Supply, CRO.
2. Measurement of DC Voltage and DC current,
3. Measure the value of Resistor and verify the value with colour coding.
4. Measurement of resistance for three band resistors.
5. Measurement of capacitance of electrolyte capacitors.
6. Measurement of inductance.

2.Soldering Practice and Desoldering Practice

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3.Characteristics of Pn Diode, Zener Diode and Rectifiers

1. Determine Knee voltage,
2. Identify Cutoff, and Linear regions
3. Connect a 6V lamp in series with diode and test it on DC power supply
4. Heat the diode with a soldering Iron and observe the effect on reverse current
5. To draw the forward& reverse characteristics of Zener diode and determine Breakdown Voltage.
6. Connect resistance ladder circuit (3 resistors) and measure the voltages at the
7. output by varying input voltage while Zener is reverse biased.
8. Implementing Half wave rectifier with and without filter
9. Implementing Full wave rectifier with and without filter
10. Implementing Bridge rectifier with and without filter
11. Implementing Voltage Doubler circuit
12. Connect a diode IN4007 in series with a 230V, 60W Lamp and test it. (Record the observations)

4.Identification of Transistors, Characteristics of Cb/Ce Configuration; Applications

1. Identify the transistor and its leads,
2. Test PNP and NPN transistor with Multimeter
3. Obtain the input and output characteristics of CB configuration and Calculate the dynamic resistance and current gain of NPN / PNP transistors
4. Obtain the input and output characteristics of CE configuration and Calculate the dynamic resistance and current gain of NPN / PNP transistors Show Transistor as a switch

5.Obtaining the Characteristics of Fet, Led and Ldr.

1. Identification of leads of FET & Obtain the FET drain characteristics and calculate the drain resistance, and the trans-conductance.
2. Obtain the LED Characteristics
3. Obtain the LDR Characteristics.

Note:

1. Design of 5V/12V DC power Supply
2. Design of switch using transistor.
3. Simple application of LDR.
4. Simple application of LED.

For detailed syllabus of all other subjects of Diploma in Bio-Medical Engineering, C20 regulation curriculum do visit BM 1st Year subject syllabuses for C20 regulation.

For all Diploma in Bio-Medical Engineering exam timetable, visit APSBTET BM all semester exam timetable direct link.