Modern communication principle training kit
GTCT-008
Main function:
1. Provide DC regulated power supply ±15V/0.5A; ±6V/0.5A; ±12V/0.5A, six channels.
2. CPU microprocessor and circuit interface compose the total controller of the system.
3. 8-digit digital tube is used to display the experimental status and results of the system.
4. 16-button membrane keyboard for setting signals and experiment mode.
1. Provide DC regulated power supply ±15V/0.5A; ±6V/0.5A; ±12V/0.5A, six channels.
2. CPU microprocessor and circuit interface compose the total controller of the system.
3. 8-digit digital tube is used to display the experimental status and results of the system.
4. 16-button membrane keyboard for setting signals and experiment mode.
Delivery
EXW
minimum order
10 sets
Supply Ability
30sets / Month
Country of Origin
Guangzhou,China
Stock Time
45Day
Quantity
The educational equipment communication training kit is a new experimental platform developed by our company to meet the development of electronic technology. The experimental educational equipment communication training kit is rich in hardware resources, The communication training kit can meet the requirements of students major in electronic communication to complete the modern communication principle design course experiment, innovation and development experiment, and the engineering actual commnucation training needs. The educational training platform is equipped with an extensible interface to customize industry specific modules. And the platform performance is stable and cost-effective.The educational equipment is also suitable for the teaching and skills training of related majors in higher vocational colleges and secondary vocational colleges.
Product components:
No. | Item name | Specification |
1 | Modern communication principle training box | Model: LH-CM2 |
2 | Experimental manual | 1pcs |
3 | Power cord, length 1.5m | 1pcs |
4 | Clip line, length 40cm | 2×red clip lines, 2×black clip lines |
5 | 20MHz Dual oscilloscope | Must be matched (the price is calculated separately) |
6 | Telephone stand-alone | Must be matched (the price is calculated separately) |
Main function:
1. Provide DC regulated power supply ±15V/0.5A; ±6V/0.5A; ±12V/0.5A, six channels.
2. CPU microprocessor and circuit interface compose the total controller of the system.
3. 8-digit digital tube is used to display the experimental status and results of the system.
4. 16-button membrane keyboard for setting signals and experiment mode.
5. A variety of digital signal generation circuits designed with CPLD.
6. Frame synchronization signal recognition extraction circuit.
7. Pseudo random code, special code generation circuit.
8. Low frequency sine wave signal generator.
9. CPU microprocessor and circuit interface.
10. Sampling theorem and pulse amplitude modulation (PAM) circuit module.
11. Pulse code modulation (PCM) circuit module.
12. Incremental modulation (M) codec circuit module.
13. Phase shift keying PSK demodulation receiving and modulation transmitting circuit module
14. HDB3 code transform circuit module, which has three parts: clock, code and decode.
15. FSK power line carrier communication circuit module.
16. Digital communication system ADPCM clock, ADPCM input and output, ADPCM reception, ADPCM transmission circuit module.
Basic experiments:
1. A variety of digital signal generation and formation experiment
2. Frame synchronization signal recognition, extraction and analysis experiment
3. Pseudo-random code, special code observation measurement analysis experiment
4. Synchronous sine wave signal generation and application experiment
5. CPU microprocessor and circuit interface experiment
6. Communication system principle circuit module operation experiment
7. Communication channel terminal transmission amplification experiment
8. Communication channel terminal receiving filter experiment
9. Sampling theorem experiment
10. Pulse amplitude modulation (PAM) and system experiment
11. Experiment with A-law PCM octet encoding with sync source signal
12. Pulse code modulation (PCM) and system experiment
13. PCM coded time division multiplexing timing analysis experiment
14. Incremental modulation CVSD (ΔM) coding experiment
15. Clock comparison state (ΔM) coding comparison experiment
16. Continuous variable slope incremental modulation (ΔM) decoding experiment
17. Incremental modulation (ΔM) system characteristics, index test experiment
18. Comparison of (PCM and ΔM) system performance under the same conditions
19. Frequency keying (FSK) modulation and demodulation experiment
20. Two-phase BPSK modulation and demodulation experiment
21. Two-phase DPSK modulation and demodulation experiment
22. PSK carrier extraction experiment
23. Code regeneration experiment
24. Bit synchronization, bit timing extraction experiment
25. Eye pattern observation and analysis experiment
26. CPU simulation eye pattern observation measurement experiment
27. Basic phase-locked loop experiment
28. Bandwidth measurement experiment for synchronization and capture bands
29. Trivial phase digital frequency synthesizer experiment
30. HDB3 pattern conversion coding and decoding observation experiment
31. Comprehensive experiment of voice signal and communication system principle
32. Single experiment box to realize simplex communication system experiment
33. Two experimental boxes to realize duplex communication system experiment
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