Projects

Sweep Generator

Download Sweep Generator.epb

Aim

To simulate a transistor sweep generator circuit.

Components

Name

EDWin Components Used

Description

Number of components required

TRANSISTOR BC107A NPN Transistor 1
RES RC05 Resistor 2
CAPACITOR CAP Capacitor 1
VGEN VGEN Voltage Generator 1
VDC VDC Voltage source 1
GND SPL0 Ground 1

        Theory


                                                                            

    The circuit diagram of a transistor sweep generator is shown in the figure. The performance of the circuit can be explained as follows.

    During the positive half cycle of the input signal the base-emitter junction of the transistor becomes forward biased. The transistor

    conducts and is driven into saturation. Then the output voltage will be low. During the negative half cycle the base-emitter junction

    becomes reverse biased and the transistor is driven into cut-off. During this interval the collector of the transistor will be at a

    voltage slightly less than VCC. The capacitor now charges towards this high voltage. During the next positive half cycle the transistor

    turns ON and provides the discharge path for the capacitor. The capacitor discharges during the short time interval.

    Thus during the positive half cycle the output of the circuit will be low and during the next half cycle we obtain the sweep wave in

    the output. Hence the name sweep generator for the circuit.

   Procedure

    EDWin 2000 -> Schematic Editor: The circuit diagram is drawn by loading components from the library. Wiring and proper net assignment

    has been made. Values are assigned for relevant components


                                                            

    EDWin 2000 -> Mixed Mode Simulator: The circuit is preprocessed. The waveform markers are placed at the input and output

    of the   circuit. 

    GND net is set as the reference net. The Transient Analysis parameters are also set and the Transient Analysis is executed. The output

    waveform is observed in the Waveform Viewer.

   Result

    The output waveform is observed in the waveform viewer.