Practical Electronics Circuits, Model No.: PEC-17235

Curriculum Outlines

*Design and implementation of the diode, Zener diode, rectifier circuits.

*Design and implementation of voltage doubler and quadrupler, clamper, and clipper circuits.

*Design and implementation of CE/ CB/ CC amplifiers and multistage amplifiers.

*Design and implementation of power amplifiers and timer circuits.

*Design and implementation of RLC resonance and filter circuits, LC tuned amplifier.

*Design and implementation of monostable/ bistable/ astable multivibrators.

* Design and implementation of triangular/ sawtooth/ sinusoidal waveform oscillators.

Module One: PEC-17235-01

Chapter 1: Diode, Zener Diode, Rectifier, and Filter Circuits

Experiment 1: Diode Characteristic Curve Circuit (V_in=12V)

Experiment 2: Zener Diode Characteristic Curve Circuit (V_in=12V, V_out=5V)

Experiment 3: Zener Diode Regulator with a Variable Load(V_in=12V)

Experiment 4: Half-wave Rectifier without Filter Circuit (f_in=50/60Hz, V_in=8~10Vpp)

Experiment 5: Full-wave Rectifier without Filter Circuit (f_in=50/60Hz, V_in=8~10Vpp)

Experiment 6: Bridge Full-wave Rectifier without Filter Circuit (f_in=50/60Hz, V_in=8~10Vpp)

Experiment 7: Half-wave Rectifier with Filter Circuit (f_in=50/60Hz, V_in=8~20Vpp)

Experiment 8: Full-wave Rectifier with Filter Circuit (f_in=50/60Hz, V_in=8~10Vpp)

Experiment 9: Bridge Full-wave Rectifier with Filter Circuit (f_in=50/60Hz, V_in=8~10Vpp)

Module Two: PEC-17235-02

Chapter 2: Voltage Doubler and Quadrupler, Clamper and Clipper Circuits

Experiment 1: Half-wave Voltage Doubler (f_in=50/60Hz, V_in=8~10V_pp, V_out=2V_in)

Experiment 2: Full-wave Voltage Doubler (f_in=50/60Hz, V_in=8~10V_pp, V_out=2V_in)

Experiment 3: Half-wave Voltage Quadrupler (f_in=50/60Hz, V_in=8~10V_pp, V_out=4V_in)

Experiment 4: Clamper Circuit (f_in=50/60Hz, V_in=8~10V_pp)

Experiment 5: Clipper Circuit (f_in=50/60Hz, V_in=8~10Vpp, V_out=-3V~3V)

Module Three: PEC-17235-03

Chapter 3: BJT Bias, CE/CB/CC Amplifiers

Experiment 1: BJT Bias Circuit (self-bias and fixed-bias)

Experiment 2: Self-bias CE Amplifier (f_in=1~2 KHz, V_in=50~200 mV_pp, V_out=1~3V_in)

Experiment 3: Self-bias CE Amplifier with a Resistor (f_in=1~2 KHz, V_in=50~200 mV_pp, V_out=1~3V_in)

Experiment 4: Fixed-bias CE Amplifier (f_in=1~2 KHz, V_in=50~200 mV_pp)

Experiment 5: Dual-Power CB Amplifier (f_in=1~2 KHz, V_in=50~200 mV_pp, V_out=6V_in)

Experiment 6: Self-bias CC Amplifier (f_in=1~2 KHz, V_in=50~200 mV_pp, V_out=V_in)

Module Four: PEC-17235-04

Chapter 4: Multistage Amplifiers and Darlington Circuit

Experiment 1: RC Coupling Multistage Amplifier (f_in=1~2 KHz, V_in=50~200 mV_pp, V_out=7~14V_in)

Experiment 2: Direct Coupling Multistage Amplifier (f_in=1~2 KHz, Vin=50~200 mV_pp, Vout=5~15V_in)

Experiment 3: Transformer Coupling Multistage Amplifier (f_in=1~1.2 KHz, Vin=50~200 mV_pp, Vout=2~10V_in)

Experiment 4: Darlington Circuit(f_in=1~2 KHz, V_in=50~200 mV_pp, Vout=V_in, DC Current Gain=40000)

Module Five: PEC-17235-05

Chapter 5: Class A/ B/ AB/ C/ D Power Amplifiers

Experiment 1: Class A Power Amplifier (fin=1~2 KHz, Vin=100~600 mV_pp, Vout without load=5.6V_pp, Vout with 100Ω load=2.4V_pp, η≈2~4%)

Experiment 2: Class B Push-pull Power Amplifier (f_in=1~2 KHz, V_in=1~6 V_pp, Vout without load=4.8V_pp, Vout with 10Ω load=3.2V_pp, η≈4.3~17.6%)

Experiment 3: Class AB Push-pull Power Amplifier (f_in=1~2 KHz, V_in=1~6 V_pp, Vout without load=5.7V_pp, Vout with 10Ω load=4V_pp, η≈2.1~8.8%)

Experiment 4: Class C Power Amplifier (f_in=1~2 KHz, Vin=1~16 V_pp, Vout without load=26V_pp, Vout with 50Ω load=9.8V_pp, η≈15.1~48.4%)

Experiment 5: Class D Power Amplifier (f_in=1~2 KHz, Load=8Ω, Output Voltage Form: PWM)

Module Six: PEC-17235-06

Chapter 6: Differential Amplifiers, BJT Switch Circuit, Timer Circuit

Experiment 1: BJT Differential Amplifier (f_in=1kHz@Vin=200 mV_pp, A_cm=0, A_d=16.7)

Experiment 2: OPA Differential Amplifier(f_in=1kHz@Vin=200 mV_pp, A_cm=0.05, A_d=2)

Experiment 3: BJT Switch Circuit (User controlled BJT Switch, Switch State: LED Indication)

Experiment 4: 555 Timer Circuit (f_out=1.86 kHz ~ 2.32 kHz)

Experiment 5: 555 LED Pulsing Breathing Circuit (f_out=0.1 Hz)

Module Seven: PEC-17235-07

Chapter 7: RLC Resonance and Filter Circuits, LC Tuned Amplifier

Experiment 1: RLC Resonance Circuit (f_in=11 kHz to 20 kHz)

Experiment 2: Bandpass Filter and Bandstop Filter by RLC Series Resonance Circuit (f_in=5 kHz to 100 kHz)

Experiment 3: Bandpass Filter and Bandstop Filter by RLC Parallel Resonance Circuit (f_in=5 kHz to 27 kHz, V_in=100 mVpp)

Experiment 4: LC Tuned Amplifier (f_in=3 kHz to 27 kHz, V_in=100 mVpp)

Module Eight: PEC-17235-08

Chapter 8: Monostable/Bistable/Astable Multivibrators

Experiment 1: BJT Monostable Multivibrator (Output Frequency: User-Controlled)

Experiment 2: BJT Bistable Multivibrator (Output Frequency: User-Controlled)

Experiment 3: BJT Astable Multivibrator (Output Frequency: 115 kHz)

Experiment 4: 555 Monostable Multivibrator (Output Frequency: User-Controlled)

Experiment 5: 555 Bistable Multivibrator (Output Frequency: User-Controlled)

Experiment 6: 555 Astable Multivibrator (Output Frequency: 300 Hz ~ 1 kHz)

Module Nine: PEC-17235-09

Chapter 9: Triangular/ Sawtooth/ Sinusoidal Waveform Oscillators

Experiment 1: Triangle Waveform Oscillator (f_out=21.2 kHz)

Experiment 2: Sawtooth Waveform Oscillator (f_out=10 kHz)

Experiment 3: Wien-bridge Oscillator (f_out=126 kHz)

Experiment 4: RC Phase Shift Oscillator (Phase-shafting leading oscillation circuit: f_out=5.78 kHz. Phase-shafting delay oscillator circuit: f_out=35 kHz)

Experiment 5: Hartley Oscillator and Colpitts Oscillator (Colpitts Oscillator: f_out=1.04 MHz, Hartley Oscillator: f_out=80.3 kHz)

Experiment 6: Voltage Controlled Oscillator and Crystal Oscillator (Voltage Controlled Oscillator: V_t=3~12V, f_out=3.48~4.03 MHz, Crystal Oscillator: f_out=6 MHz)