Piezo-Electric Measurement Trainer Module

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Piezo-Electric Measurement Trainer Module Specification

Accuracy
2%

Shape
Rectangular

Temperature Resistance
Up to 60C

Power Supply
230V AC mains

Control Type
Manual controls

Features
Plug-in modules, on-board power supply, piezo transducer included, in-built signal generator

Display Type
Digital voltmeter & digital ammeter

Type
Piezo-Electric Measurement Trainer Module

Dimension (L*W*H)
340 mm x 220 mm x 80 mm

Equipment Type
Educational Laboratory Trainer

Equipment Materials
High grade ABS plastic panel with powder coated mild steel enclosure

Power
3 W (max)

Voltage
230V AC 10%, 50 Hz

Material
ABS panel and mild steel case

Application
Laboratory/Engineering College instrumentation experiments

Piezo Training Experiment
Includes studies on direct and inverse piezo effect, force vs. output characteristics, calibration methods

Output Measurement
Voltage generated by mechanical stress on the piezo element

Connection Interface
4 mm safety sockets

Safety Features
Overload and fuse protection

Weight
Approx. 2.5 kg

Test Points
Comprehensive test point system for study & waveform analysis

Instructions Manual
Supplied with comprehensive experimental manual

Signal Generator Frequency
1 kHz (on-board generator)

Module Configuration
On-board pre-wired circuitry with detailed circuit diagram

Piezo Transducer Type
Disc type ceramic crystal

About Piezo-Electric Measurement Trainer Module

Piezo-Electric Measurement Trainer Module

Display	3 1/2 digit to read +-1999 counts.
Brand	Micro Technologies
Piezo Sensor	Donut type 1000 pf piezo-crystal.
Vibration Force	Force excerted manually by taping the sensor top at various intervals.
Power Supply	230V +-10% @ 50 Hz
Accessories	Necessary cables provide

Explore Piezoelectric Phenomena Hands-On

Dive into the fundamental principles and applications of piezoelectricity with this versatile trainer module. Designed specifically for educational settings, the system allows users to examine and visualize voltage generation due to mechanical stresses, offering practical insight into piezo transducer behavior. Supported by an included experimental manual and onboard circuitry, it serves as a dependable instrument for comprehensive piezoelectric analysis.

User-Friendly Configuration and Safety

This trainer module comes pre-wired for simplicity and features 4 mm safety sockets for reliable connections. The system integrates overload and fuse protection to safeguard users and equipment, with control and monitoring made intuitive through digital displays and manual operation. Every unit comes with clear circuit diagrams and a robust enclosure, promoting secure and error-free experimentation.

Comprehensive Study Capabilities

Advance your understanding of piezoelectric effects with an extensive array of experiments-from direct and inverse effects to force-output characterization and calibration techniques. The module is equipped with numerous test points, enabling thorough waveform analysis and an expansive view of piezoelectric properties relevant to lab and classroom environments.

FAQ's of Piezo-Electric Measurement Trainer Module:

Q: How does the Piezo-Electric Measurement Trainer Module measure piezoelectric effects?

A: The module uses a disc type ceramic crystal piezo transducer to detect voltage generated when mechanical stress is applied. The output voltage, which directly reflects the piezoelectric effect, is displayed through an onboard digital voltmeter and can be analyzed at several test points.

Q: What experiments can be conducted with this trainer module?

A: Users can perform studies on the direct and inverse piezoelectric effects, assess force versus output characteristics, practice calibration methods, and analyze waveforms using comprehensive test points. The included manual details step-by-step experimental procedures for each study.

Q: When should I use this trainer module in my course or laboratory?

A: This equipment is ideal for instrumentation, materials science, and electronics courses at engineering colleges or research labs, particularly when exploring real-world piezoelectric applications or conducting foundational educational experiments.

Q: Where can waveform measurements be taken on the trainer module?

A: Waveform measurements can be accessed at the various, clearly labeled test points distributed across the module's panel. These enable convenient observation and analysis of electrical signals correlating to mechanical inputs on the piezo element.

Q: What safety features are built into the module?

A: To ensure operator and equipment safety, the module includes overload and fuse protection as well as manual controls and insulated 4 mm safety sockets, all within a durable ABS and powder-coated steel housing.

Q: How do I benefit from the on-board signal generator?

A: The integrated 1 kHz signal generator allows users to apply consistent, controlled excitation to the piezo element, essential for standardized and repeatable experimental results in classroom or lab settings.

Q: What process should be followed for accurate calibration?

A: Follow the guided instructions in the supplied manual, which outline procedures for applying known forces, adjusting settings with manual controls, and recording outputs via the digital readouts and test points-ensuring results with up to 2% accuracy.

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