Modular Electronics System Trainers
MEST-1700
Downloadable Data Sheet
THE MODULAR ELECTRONIC SYSTEM TRAINER - Electronic Circuits Training Experiments is a comprehensive and self-contained system suitable for anyone engaged in electronic circuit experiments. All necessary equipments for electronic circuit experiments such as power supply, function generator, analog and digital meters are installed on the main unit. The 17 modules covers a wide variety of essential topics in the field of electronics circuit. It is a time and cost saving device for both students and researchers interested in developing and testing circuit prototypes.
o Ideal for electronic circuit experiments and designing exercises.
o Integrated experimental circuit and trainer, with complete electronic circuit experiment curriculum.
o Complete supply and testing units for easy and efficient experiments.
o With universal breadboard for circuit designing and prototypes.
o All modules equipped with an 8-bit DIP switch for fault simulations.
o Individual storage case for all modules for easy carrying and storing.
LIST OF EXPERIMENTS
1. Characteristics of Diodes
2. Clipping and Clamping Circuits with Diodes
3. Rectifier Circuits
4. Differential and Integrator Circuits
5. Transistors
6. Transistor Amplification Circuits
7. Field Effect Transistors (FET)
8. FET Amplification Circuits
9. Multi - Stage Amplification Circuits
10. Transistor Negative Feedback Circuits
11. Transistor Positive Feedback Circuits
12. Regulated Voltage/Constant Current Circuits
13. Modulation and Demodulation
14. OP Amplifiers
15. Basic Characteristics of OP Amplifier
16. Basic Characteristics of OP Amplifier (1) - Negative Feedback
17. Basic Characteristics of OP Amplifier (2) ¨C Negative Feedback
18. Basic Characteristics of OP Amplifier ¨C Positive Feedback
SPECIFICATIONS
MAIN UNIT
1. DC POWER SUPPLY
A. Fixed DC Power Supply
1. Voltage Range : ± 5V ~ ±12V
2. Maximum Current Output : 0.3 A
3. With output overload protection.
B. Dual DC Power Supply
1. Voltage Range : ± 3V ~ ±18V, continuously adjustable
2. Maximum Current Output : 1 A
3. With output overload protection.
2. AC POWER SUPPLY
1. Voltage Range : 15v ~ 9V ~ 0V ~ 9V ~ 15v
2. Maximum Current Output : 500 mA
3. With output overload protection.
3. SIGNAL GENERATOR
A. Function Generator
1. Output Waveform : Sine, Square and Triangle
2. Output Frequency : 10Hz ~ 100 KHz, 4 settings, continuously adjustable
3. Accuracy : ± 5% of full scale value.
4. Output Impedance : 50 W
5. Output Voltage : >=18Vp-p {open loop}; >=9Vp-p {with 50W load)
4. 3 ½ - DIGIT DIGITAL VOLTMETER/AMPMETER
A. DC Voltage Range : 2V, 200V
B. DC Voltage Accuracy : ±0.3% of reading + 1 digit
C. DC Current Range : 200µA, 2000mA
D. DC Current Accuracy : ±0.5% of reading + 1 digit
5. ANALOG METERS
A. AC Current : 0 ~ 100mA ~ 1A
B. AC Voltage : 0 ~ 15A
C. DC Current : 0 ~ 100mA ~ 1A
D. DC Voltage : 0 ~ 20V
6. SPEAKER
One 8Ώ 0.25W speaker with driver circuit.
7. VARIABLE RESISTORS
A. 1K, 0.25W variable resistor with 3 terminals (A, B, C).
B. 10K, 0.25W variable resistor with 3 terminals (A, B, C).
C. 100K, 0.25W variable resistor with 3 terminals (A, B, C).
D. 1MW, 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.
9. ACCESSORIES
A. Connect Lead : 2mm ~ 0.65mm, 300mmL, 6pcs.
B. Users' Manual
C. Fuse
D. AC Cord
E. Anti-Dust Cover
EXPERIMENT MODULES
1. 17 modules each secured on to a solid-body plastic housing.
2. Each module is equipped with an 8-bit DIP switch for fault simulations. Students can practice trouble shooting by setting the DIP switch to different positions.
3. Detailed solutions for the simulated faults are included in the Instructor's manual.
4. All terminals on the modules accept 2mm plugs
5. Comprehensive experiment and instructor's manual
6. Module dimension: 255 x 165 x 30 mm.
MODULES AND THE EXPERIMENTS THEY PERFORM
MEST-1700-01: Clipping & Clamping Circuit
MEST-1700-02: Rectifier, Differential & Integrator Circuits
MEST-1700-03: Transistor Amplification Circuits
MEST-1700-04: Field Effect Transistor (FET) Circuits
MEST-1700-05: Multistage Amplification Circuits
MEST-1700-06: OTL Amplifier Circuit
MEST-1700-07: OCL Amplifier Circuit
MEST-1700-08: Oscillator Circuits (1)
MEST-1700-09: Oscillator Circuits (2)
MEST-1700-10: Voltage Regulator Circuits
MEST-1700-11: Voltage Regulator & Amplitude Modulation (AM) Circuits
MEST-1700-12: Frequency Modulation (FM) & OP Amplifier Circuits
MEST-1700-13: OP Amplifier Circuits (1)
MEST-1700-14: OP Amplifier Circuits (2)
MEST-1700-15: OP Amplifier Circuits (3)
MEST-1700-16: OP Amplifier Circuits (4)
MEST-1700-17: OP Amplifier Circuits (5)
LIST OF EXPERIMENTS
1. Diode Characteristics Experiments
1.1 Silicon Diode
1.2 Germanium Diode
1.3 Zener Diode
1.4 Light Emitting Diode (LED)
1.5 Photo Diode
2. Diode Clipping & Clamping Circuit Experiments
2.1 Clipping Circuit (1)
2.2 Clipping Circuit (2)
2.3 Clamping Circuit (1)
2.4 Clamping Circuit (2)
3. Rectifier Circuit Experiments
3.1 Half Wave Rectifier Circuit
3.2 Full Wave Rectifier Circuit
3.3 Bridge Rectifier Circuit
3.4 Dual Power Rectifier Circuit
3.5 Voltage Magnifying Rectifier Circuit
4. Differential and Integrator Circuit Experiments
4.1 RC Direct Current Charge/Discharge Circuit
4.2 Differentiator Circuit : Square Wave Input
4.3 Differentiator Circuit : Sine Wave Input
4.4 Integrator Circuit : Square Wave Input
4.5 Integrator Circuit : Sine Wave Input
4.6 RL Circuit
5. Transistor Characteristics Experiments
5.1 PNP Transistor
5.2 NPN Transistor
6. Transistor Amplification Circuit Experiments
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 Transistor (FET) Experiments
7.1 Junction Type FET (JFET)
7.2 Metal-Oxide-Semiconductor FET (MOSFET)
8. FET Amplification Circuit Experiments
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 (1)
8.6 MOSFET Amplification Circuit : Biased (2)
9. Multi-Stage Amplification Circuit Experiments
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 Circuit Experiments
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 Circuit Experiments
11.1 Low-Frequency Sine Wave Oscillating Circuit
a. RC Phase-Shifting Oscillating Circuit
b. Wien Bridge Oscillator Circuit
11.2 High Frequency Sine Wave Oscillating Circuit
a. Hartley Oscillator Circuit
b. Colpitts Oscillator 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 Trigger Circuit
11.9 Sawtooth Wave Oscillating Circuit
12. Regulated Voltage/Constant Current Circuit Experiments
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 Experiments
13.1 Amplitude Modulation Circuit (AM)
13.2 Frequency Modulation Circuit (FM)
13.3 Amplitude Modulation Detection Circuit
13.4 Amplitude Demodulation Circuit
14. OP Amplifier Characteristics Experiments
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 (1)
f. Offset Voltage Measurement (2)
15. OP Amplifier Amplification Characteristics Experiments
15.1 Inverse Amplification
15.2 Non-Inverse Amplification
15.3 Voltage-Follower Circuit
15.4 Difference Amplification (Subtractor)
15.5 Sum Amplification (Adder)
15.6 Clipping Circuit
15.7 Constant Voltage Circuit
15.8 Constant Current Circuit
15.9 Differential Circuit
15.10 Integrator Circuit
16. OP Amplifier Application Circuits Experiments (1) – Negative Feedback
16.1 Logarithm Amplification Circuit
16.2 Exponential Amplification Circuit
16.3 Peak Value Detection Circuit
16.4 Precision Clipping Circuit
16.5 Voltage Regulator Circuit
16.6 Sampling/Hold Circuit
16.7 Instrument Amplification Circuit
17. OP Amplifier Application Circuits Experiments (2) – Negative Feedback
17.1 High Pass Amplification Circuit
17.2 Low Pass Amplification Circuit
17.3 Band Pass Amplification Circuit
17.4 RIAA Amplifier Circuit
17.5 Tone Controller Circuit
17.6 Single Power Inverse Amplification Circuit
18. OP Amplifier Oscillating Circuit – Positive Feedback
18.1 Comparator
18.2 Schmitt Trigger
18.3 Window-type Comparator
18.4 Monostable Multivibrator
18.5 Astable Multivibrator
18.6 Sine Wave Oscillation Circuit
a. RC Oscillator
b. Wien Oscillator
19. Circuit Application Experiments
19.1 Current/Voltage Converter
19.2 Voltage/Current Converter
19.3 Analog/Digital Converter
19.4 Digital/Analog Converter
19.5 Frequency/Voltage Converter
19.6 Voltage/Frequency Converter
19.7 Capacitance/Voltage Converter
19.8 Serial Amplifying Circuit with OP Amplifier
19.9 Thermometer
19.10 Level Alarm
19.11 Temperature Controller
19.12 Pulse Width Modulation Type Temperature Controller
19.13 Phase Latching Loop
19.14 Coin Detector
19.15 Function Generation
ACCESSORIES
A. Connect Leads: 2mm-2mm, 300mmL, 25pcs
B. Connect Plugs: Ø2.0mm, 10mmL, 10pcs
C. Experiment manual, and Instructor's manual
D. Key: 1 pc
GENERAL CHARACTERISTICS
A. Individual storage case for each module (205 x 295 x 65mm)
B. Power Source : 240V ± 10%, 50/60Hz
C. Operating Temperature : 0° C ~ 50° C
D. Humidity : < 90% relative humidity
E. Dimension : 400 x 300 x 130 mm
F. Weight : Approx. 5.8 Kg
System &
Solution at Affordable Price 
