Objectives of this experiment:To demonstrate the operation of circuit, which can produce linear ramps. Linear ramp is produced by charging a capacitor from a constant voltage source. The linearity is limited to a small charge curve portion which is produced by charging a capacitor from a constant current source. The Ramp has better linearity. This experiment demonstrates both methods of forming a ramp.
Built in regulated Power supply: + 15V/300mAInput Supply: 230 VAC/50Hz mains operated.Dimension: 27cms x 17cms x 10cms.Weight: 500gms
Objectives of this experiment:
To construct (2Hz - 20 KHz) square wave generator -using 741. The frequency range can be selected by a set of resistors & capacitors. You can vary the frequency and amplitude linearly by using potentiometers.
Built in regulated Power Supply: +9V/300mA; -9V/300mAInput Supply: 230 VAC/50Hz mains operated.Dimension: 27cms x 17cms x 10cms.Weight: 500gms
Objectives of this experiment:To construct pulse generator using CMOS NAND gates and test the true output and complementary outputs. The frequency can be selected by using decade capacitors provided on the trainer. The width of the pulse can be varied.
Built in regulated Power Supply: + 9V/300mAInput Supply: 230 VAC/50Hz mains operated.Dimension: 27cms x 17cms x 10cms.Weight: 500gms
Objectives of this experiment: This circuit generates a symmetrical triangle waveform, since its main timing capacitor charges in both positive and negative direction via the same resistance network, The frequency and amplitude can be varied by 100K and 10K potentiometer. The frequency of the triangle wave is varied from 800 Hz-8KHz.
Built in regulated Power supply: +9V/300mA; -9V/300mA Input Supply: 230 VAC/50Hz mains operated. Dimension: 27cms x 17cms x 10cms. Weight: 500gms
To construct 1 KHz ramp generator using op-amp. The amplitude varies from (0-10) VP-P.
Built in regulated Power supply: +15V/300mA, 15V/mA. Input Supply: 230 VAC/50Hz mains operated. Dimension: 27cms x 17cms x 10cms. Weight: 500gms
Objectives of this experiment:To construct (15Hz - 15KHz) sine/square wave generator using op-amps. The frequency can be varied by varying different sets of resistors and capacitors. The output amplitude level can also be adjusted for both sine and square waves.
Built in regulated Power supply: +9V/300mA, -9V/300mA.Input Supply: 230 VAC/50Hz mains operated.Dimension: 27cms x 17cms x 10cms.Weight: 500gms
Objective of this experiment:To construct sine/triangle/square waveform 10HZ-100KHz, using XR2206. The frequency can be varied from 10Hz-100Hz; 100Hz - 1KHz; 1KHz -10KHZ; 10KHz - 100KHz by connecting different capacitors provided on the trainer. The amplitude can be adjusted by potentiometer.
Built in regulated Power supply: +9V/300mAInput Supply: 230 VAC/50Hz mains operated.Dimension: 27cms x 17cms x 10cms.Weight: 500gms
To construct simple fixed amplitude stair case generator using op-amp in CLOSED LOOP & OPEN LOOP modes.
Built in regulated Power supply: +15V/300mAInput Supply: 230 VAC/50Hz mains operated.Dimension: 27cms x 17cms x 10cms.Weight: 500gms
OP-AMP FUNCTION GENERATOR This trainer uses quad OP-AMP IC and passive components generate 6Hz to 6KHz. The function generated is square, triangle, and sine waves. It is operated on 9V DC
