FOURIER SYNTHESIS SYSTEM TRAINER

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Product Details:

Power 15 W
Voltage 230 V AC, 50 Hz
Usage Educational, laboratory demonstration of Fourier synthesis
Display Analog Oscilloscope Output (External connection required)
Product Type Trainer Kit
Material Powder coated metal enclosure
Design Tabletop, modular trainer system
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FOURIER SYNTHESIS SYSTEM TRAINER Price And Quantity

Minimum Order Quantity 1 Unit

Number of Harmonic Generators 4, selectable (Sine wave generators)
Application Circuit demonstration, waveform analysis, experiment execution
Waveform Output Composite Fourier waveform output terminal
Accessories Patch cords, manual included
Frequency Range 100 Hz to 1 kHz (approx.)
Main Function Demonstrates Fourier synthesis of complex waveforms from sinusoidal signals
Input/Output Connectors 2 mm banana sockets
Safety Overload and short circuit protection on outputs
Amplitude Control Independent level control for each sine wave
Operating Temperature 0°C to 40°C

FOURIER SYNTHESIS SYSTEM TRAINER Product Specifications

Charging Time Not required (operates on AC mains)
Usage Educational, laboratory demonstration of Fourier synthesis
Weight Approx. 2.5 kg
Power Source AC Mains
Material Powder coated metal enclosure
Display Analog Oscilloscope Output (External connection required)
Accuracy 2% of signal amplitude
Dimension (L*W*H) 430 mm x 230 mm x 100 mm
Product Type Trainer Kit
Voltage 230 V AC, 50 Hz
Design Tabletop, modular trainer system
Power 15 W

Number of Harmonic Generators 4, selectable (Sine wave generators)
Application Circuit demonstration, waveform analysis, experiment execution
Waveform Output Composite Fourier waveform output terminal
Accessories Patch cords, manual included
Frequency Range 100 Hz to 1 kHz (approx.)
Main Function Demonstrates Fourier synthesis of complex waveforms from sinusoidal signals
Input/Output Connectors 2 mm banana sockets
Safety Overload and short circuit protection on outputs
Amplitude Control Independent level control for each sine wave
Operating Temperature 0°C to 40°C

FOURIER SYNTHESIS SYSTEM TRAINER Trade Information

Supply Ability 5 Unit Per Week
Delivery Time 4-5 Days

Product Description

FOURIER SYNTHESIS SYSTEM TRAINER

Harmonic Generation Technique : Direct Digital Synthesis
Eleven Input Summing Amplifier : 1 No.
Fundamental Frequency : 1 KHz

FEATURES

VLSI Based Training System
On board digitally synthesized fundamental frequency & harmonics
On board DC Generators
Digitally controlled select switch for Harmonic
On board Summing Amplifier
Individual Gain Control
On board sine, Cosine selection
On board Phase Reversal provision
Built in Power Supply
Functional Blocks indicated on Mimic Board

TECHNICAL SPECIFICATIONS

Harmonic Generation Technique : Direct Digital Synthesis
Eleven Input Summing Amplifier : 1 No.
Fundamental Frequency : 1 KHz
Harmonics Generation : 9 Harmonics, ranges from 2 KHz to 10 KHz
Controllable gain : For individual frequency component domain
Digital Phase control : Of relative phases between fundamental and harmonics
On Board Wave forms : 0°(sine), 90°(cosine), 180°(-sine), 270°(-cosine)
Waveform level (max) : 5Vpp (Approximately)
DC constant generation : -5V to +5V (approximately)
Cabinet : Enclosed in ABS plastic cabinet with detachable cover
Power : 220V AC ±10%, 50/60Hz mains operated
Accessories : Set of Patch Cords, Users manual

LIST OF EXPERIMENTS

To construct a triangular wave with the help of fundamental frequency and its harmonic component
To construct a rectangular sawtooth wave with the help of fundamental frequency and its harmonics component
To construct a square wave with the help of fundamental frequency and its harmonic component
To construct an absolute value sine wave with the help of fundamental frequency and its harmonic component
To construct Half sine wave with the help of fundamental frequency and its harmonic component
To construct AM wave with the help of 3 frequency components

Versatile Harmonic Generation

With four selectable sine wave generators, users can adjust frequency and amplitude independently to produce complex waveforms. This modular design enables a wide variety of circuit demonstrations and waveform analyses, making it suitable for both classroom and laboratory setups.

Safe and Reliable Operation

Equipped with overload and short-circuit protection, the Fourier Synthesis System Trainer ensures safe usage during experiments. Its powder-coated metal enclosure is both sturdy and durable, and it operates efficiently on standard AC mains without the need for charging.

Comprehensive Educational Tool

Supplied with patch cords and a user manual, the trainer supports hands-on learning. The composite Fourier waveform output terminal allows real-time observation on an analog oscilloscope, helping students and professionals to clearly understand waveform synthesis theory.

FAQs of FOURIER SYNTHESIS SYSTEM TRAINER:

Q: How does the Fourier Synthesis System Trainer demonstrate complex waveform creation?

A: It uses four independent sine wave generators to produce harmonics, allowing users to adjust each generators frequency and amplitude. These signals are combined at the output terminal to create composite waveforms, which can be visualized on an external analog oscilloscope.

Q: What is the frequency range supported by each harmonic generator?

A: Each harmonic generator can be adjusted from approximately 100 Hz to 1 kHz, providing flexibility for various waveform synthesis experiments.

Q: When is this trainer commonly used in academic or laboratory settings?

A: It is typically employed during circuit demonstrations, waveform analysis sessions, and experimental exercises where the principles of Fourier synthesis are being taught or explored.

Q: Where can the output waveform be observed, and what equipment is needed?

A: The composite waveform output is available via dedicated terminals and can be viewed in real time on an externally connected analog oscilloscope.

Q: What process is followed to assemble different waveforms using this system?

A: Users select and adjust the desired frequencies and amplitudes for each sine generator, connect outputs using patch cords, and monitor the resulting composite waveform through the oscilloscope.

Q: How does independent amplitude control for each sine wave benefit experiments?

A: Independent amplitude control enables precise shaping of the final waveform, allowing detailed study of how different harmonics contribute to overall signal composition.

Q: What safety features are included in the Fourier Synthesis System Trainer?

A: The system offers overload and short-circuit protection on outputs, ensuring safe operation and safeguarding both users and equipment during experiments.

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