Basic Electronics

Item Code: SJ262

Principle and Working:

Ohm's Law: The opposition to current flow is called resistance and is measured in ohms, (Ω).
Resistance is defined as follows. Resistance = Voltage / current = V/I
The resistance will be measured in ohms when the voltage is in volts and the current is in amps.
Kirchoff’s current law (KCL or Point law): In any electrical network, the algebraic sum of currents at any junction (or node) is always zero. i.e Σ I = 0, - at a node.
I1− I2 – I3 = 0
... Kirchoff’s voltage law (KVL or Mesh law): In any closed path, the algebraic sum of all the emf’s in that path and voltage drops in all resistances in the same path is zero. i.e Σ emf + Σ IR =0, - around a closed path
For (Loop1) V − I1R2 –I2R2 = 0
For (Loop2) I2R2 – I3R3 = 0
Sign conventions: • All currents carrying (or flowing) towards a junction are assumed positive while all currents leaving a junction are assumed negative.
• The rise in voltage is considered as positive and fall in potential is considered as negative.
Series effect of resistances: When several resistors, eg. R1, R2, and R3 are connected in series, the same current, I, passes through each resistor, the applied voltage, V, is equal to the sum of the voltages across the separate resistors :
Parallel effect of resistances: When two resistors, eg. R1 and R2, are connected in parallel, as in above figure, the voltage across each resistor is the same, V, the total current, I, is equal to the sum of the currents in the separate resistors.
Voltage Dividers: Two fixed resistors can be used to obtain a lower voltage from a fixed voltage supply. The voltage across each resistor is in the same ratio as their resistances.
Thermistors: This is a resistor whose resistance decreases considerably when its temperature rises. It can therefore convert changes in temperature into changes in electric current.
Light Dependent Resistor (LDR): The resistance of a light dependent resistor decreases as the illumination on it increases. It can therefore convert changes in light intensity into changes in electric current.




  • To Study Ohm’s Law
  • To Study Kirchoff’s Law
  • To Study Series & Parallel Effect Of Resistances
  • To Study Resistances As A Voltage Divider
  • To Study LDR Characteristics
  • To Study Thermistor Characteristics
  • Students use plug-in modules for circuit design.
  • Component mounted on PCB and these PCB fix in a transparent housing for the visibility of the components.
  • The symbol's name and the value of the components are printed on top of the transparent housing.
  • Convenient & Easy to make circuit diagram using plug-in modules.
  • Do it yourself approach provodeds better learning.
  • Economical & Flexible method of performing all experiments on one circuit board.

      Power Supply

    • REGULATED POWER SUPPLY : Output Voltage 0 -16V, 1 Amp, 5V. 1 Amp. DC Fixed
    • Ripple Less than 25mV
    • Display 3 1/2 Digit LED for 0-16V DC
    • Input voltage 230V AC, 50 Hz

      • Plug-in Modules

    • 2/ 4 pin modules, 4mm plug-in pins, transperent cover, Symbol/Circuit printed on cover.

      • Digital Multimeter

    • Resistance :200W, 2000W, 20k, 200k & 2000k W.
    • D.C.Voltage : 200 & 2000 mV 20V, 200V & 600 V
    • A.C.Voltage : 200 & 600 V
    • D.C.Current : 200 & 2000 micro A, 20mA & 200 mA, 10A
    • Testing : Diode & transistor
    • Battery : 9V

      • Plug-in Board

    • Plug-in board has 4mm sockets, arranged in 2 x 2 matrix. Total matrix 24nos.

  • 1 Circuit Board
  • 3 Digital Multimeter
  • 2 Flexible Lead Set (25cm)
  • 6 Flexible Lead Set (50cm)
  • 2 Flexible lead Set (100cm)
  • 1 Resistor Module 1kΩ
  • 1 Resistor Module 3.3kΩ
  • 1 Resistor Module 4.7kΩ
  • 1 Resistor Module 1kΩ, 1W
  • 1 LAMP Source
  • 1 Thermistor Module
  • 1 LDR Module
  • 1 Variable Power Supply