Description

SPECIFICATIONS:


1. DC Power Supply:
Fixed DC power supply
a. Voltage range: ±5V, ±12V
b. With output overload protection


Dual DC power supply
a. Voltage range : ±3V~±18V, continuously
adjustable .
b. With output overload protection


2. AC power supply:
a. Voltage range : 9V~0V~9V
b. With output overload protection

3. Function Generator
Output waveform : Sine, square and triangle
Output frequency : 10Hz~100KHz,
4 settings,
continuously adjustable Accuracy : ±5% of full
scale value
Output impedance : 50Ω
Output voltage : 18Vp-p (open loop) 9Vp-p (with
50Ω load)


4. 3 1/2-Digit Digital Voltmeter/ Ammeter
DC voltage range : 2V, 200V DC
voltage accuracy : ±0.3% of reading + 1 digit
DC current range : 200μA, 2000mA DC
current accuracy : ±0.5% of reading + 1 digit

5. Analog Meters
AC current : 0 ~ 100mA ~ 1A
AC voltage : 0 ~ 15V
DC current : 0 ~ 100mA ~ 1A
DC voltage : 0 ~20V
6. Speaker:
one 8Ω, 0.25W speaker with driver circuit

7. Variable Resistors
1KΩ, 0.25W variable resistor with 3 terminals (A,B,C)
10KΩ, 0.25W variable resistor with 3 terminals
(A,B,C)
100KΩ, 0.25W variable resistor with 3 terminals
(A,B,C)
1MΩ, 0.25W variable resistor with 3 terminals
(A,B,C)

8. Breadboard:
1680 tie-point breadboard on top panel can be
easily put into and taken off

List of Modules with Experiment List:
1. Characteristics of Diodes
1.1. Silicon diode
1.2. Germanium diode
1.3. Zener diode
1.4. Light emitting diode
1.5. Optical diode

2. Clipping & Clamping Circuits
2.1. Clipping circuit
2.2. Clamping circuit

3. Rectifier Circuits
3.1. Half wave rectifier circuit
3.2. Full wave rectifier circuit
3.3. Bridge rectifier circuit
3.4. Dual power supply rectifier circuit
3.5. Voltage magnified rectifier circuit

4. Differential and Integrator Circuits
4.1. RC direct current charge/discharge circuit
4.2. Differential circuit : Square wave input
4.3. Differential circuit : Sine wave input
4.4. Integrator circuit : Square wave input)
4.5. Integrator circuit : Sine wave input
4.6. RL circuit

5. Transistors
5.1. PNP transistor
5.2. NPN transistor

6. Transistor Amplification Circuits
6.1. Common emitter transistor amplification
circuit
6.2. Common base transistor amplification
circuit
6.3. Common collector transistor amplification
circuit
6.4. Switching type transistor circuit
6.5. Darlington's circuit

7. Field Effect Transistors (FET)
7.1. Junction type FET (JFET)
7.2. Metal-Oxide-Semiconductor FET (MOSFET)

8. FET Amplification Circuits
8.1. JFET common source amplification circuit :
Self-bias
8.2. JFET common source amplification circuit :
Divide-bias
8.3. JFET common drain amplification circuit :
Self-bias
8.4. JFET common drain amplification circuit :
Divide-bias
8.5. MOSFET amplification circuit : Biased

9. Multi - Stage Amplification Circuits
9.1. RC coupled amplification circuit
9.2. Direct coupled amplification circuit
9.3. Transformer coupled amplification circuit
9.4. Push-pull amplification circuit
9.5. OTL amplification circuit
9.6. OCL amplification circuit
9.7. IC amplification circuit

10. Transistor Negative Feedback Circuits
10.1. Serial voltage negative feedback circuit
10.2. Parallel voltage negative feedback circuit
10.3. Serial current negative feedback circuit
10.4. Parallel current negative feedback circuit

11. Transistor Positive Feedback Circuits

11.1. Low-frequency sine wave oscillating circuit
a) RC phase-shifting oscillating circuit
b) Wien bridge oscillating circuit

11.2. High-frequency sine wave oscillating circuit
a) Hartley's oscillating circuit
b) b. Colpitts oscillating circuit

11.3. Crystal oscillating circuit
11.4. Astable oscillating circuit
11.5. Monostable oscillating circuit
11.6. Bistable oscillating circuit
11.7. Intermittent oscillating circuit
11.8. Schmitt's oscillating circuit
11.9. Sawtooth oscillating circuit

12. Regulated Voltage/Constant Current Circuits
12.1. Regulated voltage circuit with Zener diode
12.2. Regulated voltage circuit with Zener
diode/transistor
12.3. Regulated adjustable voltage circuit
12.4. Current-limiting regulated voltage circuit
12.5. Regulated voltage circuit with IC
12.6. Constant current circuit

13. Modulation and Demodulation
13.1. Amplitude Modulation circuit (AM)
13.2. Frequency Modulation circuit (FM)
13.3. Amplitude modulation detecting circuit
13.4. Amplitude demodulation circuit

14. OP Amplifiers
14.1. Transistor differential amplification circuit

14.2. Characteristics of OP amplifiers
a. Input impedance measurement
b. Output impedance measurement
c. Bandwidth measurement
d. Slew rate measurement
e. Offset voltage measurement

15. Basic Characteristics of OP Amplifier
15.1. Inverse amplification
15.2. Non-Inverse amplification
15.3. Voltage-follower circuit
15.4. Difference amplification
15.5. Sum amplification (Adder)
15.6. Clipping circuit
15.7. Constant voltage circuit
15.8. Constant current circuit
15.9. Differentiator circuit

Accessories
connection plugs
breadboard
Experiment manual
connection plugs

Others:
Brand : Labinnova
Country Of Orgine: China
Manufacturing : Assemble In Bangladesh
Training 3 Days
Warranty: One Year