Study Of Second Order Network

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Product Details:

Usage Educational, Laboratory Experiments, Second Order Network Study
Voltage 230 V
Power 230 V AC, 50 Hz
Product Type Educational Trainer Kit
Material High-grade ABS + Electronic Components
Design Modular, Table Top Design
Power Source AC Mains
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Study Of Second Order Network Price And Quantity

Minimum Order Quantity 1 Unit

Output AC Signal Outputs for oscilloscope and waveform analyzer compatibility
Model Name/Number SO-201
Application Study and analysis of second order RC/RL/RLC circuits
Input Type Sine and square wave generator built-in
Accessories Included Patch cords, detailed manual
Indicators LED power ON indicator
Frequency Range Up to 10 kHz
Operating Temperature 0°C to 50°C
Test Points Multiple gold-plated test points for measurement
Mounting Type Bench-top
Circuitry Internally protected with fuse

Study Of Second Order Network Product Specifications

Power Source AC Mains
Design Modular, Table Top Design
Voltage 230 V
Product Type Educational Trainer Kit
Dimension (L*W*H) 340 mm x 210 mm x 90 mm
Accuracy High measurement accuracy suitable for laboratory experiments
Power 230 V AC, 50 Hz
Usage Educational, Laboratory Experiments, Second Order Network Study
Material High-grade ABS + Electronic Components
Weight Approx. 2.2 kg

Output AC Signal Outputs for oscilloscope and waveform analyzer compatibility
Model Name/Number SO-201
Application Study and analysis of second order RC/RL/RLC circuits
Input Type Sine and square wave generator built-in
Accessories Included Patch cords, detailed manual
Indicators LED power ON indicator
Frequency Range Up to 10 kHz
Operating Temperature 0°C to 50°C
Test Points Multiple gold-plated test points for measurement
Mounting Type Bench-top
Circuitry Internally protected with fuse

Study Of Second Order Network Trade Information

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

Product Description

DESCRIPTION

A second order network is a network that I defined by a second order differential equation. A network comprising of a resistance, R, an inductance, L, and a capacitance, C, all in series is the simplest second order network. Other configurations of the above three elements may also lead to second order differential equations, however the present experiment is designed to study the series RLC network

TECHNICAL SPECIFICATIONS

Active RLC network using OPAMPS
Damping 1.1-0.1 (approx)
Inbuilt Square wave 35-700Hz, 0-1V (typical)
Inbuilt Sine wave 35-700Hz, 0-1V (typical)
220V ±10%, 50Hz mains operated.
User's Manual with patch cords.

Comprehensive Network Analysis

The SO-201 is engineered for detailed study of RC, RL, and RLC networks, enabling students and professionals to observe responses across a frequency range up to 10 kHz. Its built-in waveform generator and AC signal outputs facilitate real-time analysis using standard laboratory equipment. Clear measurement points and structured layout empower precise learning and experimental outcomes.

User-Friendly and Durable Design

Constructed from sturdy ABS and finished with modular bench-top architecture, the SO-201 ensures lasting reliability. Multiple gold-plated test points, an easily accessible fuse, and a clear manual simplify operation. The table-top design, weighing 2.2 kg, is portable and ideal for academic and research settings, providing safe and intuitive usage.

FAQs of Study Of Second Order Network:

Q: How can the SO-201 be used for second order network studies?

A: The SO-201 kit allows users to investigate and analyze the behavior of second order RC, RL, and RLC circuits by providing test points for direct measurement of voltage and response under various input signals. Both sine and square waveforms can be applied through the built-in generator, making it ideal for experimentation and learning in laboratory settings.

Q: What types of input signals are supported by the built-in generator?

A: The instrument features a built-in generator capable of providing both sine and square waveforms, covering frequencies up to 10 kHz. This flexibility supports thorough experimental analysis across different second order network configurations.

Q: When is it necessary to use the multiple gold-plated test points?

A: The multiple gold-plated test points are essential when measuring circuit responses at different nodes during experiments. They ensure precise connection points for oscilloscopes or analyzers, enhancing measurement accuracy and minimizing signal loss during laboratory exercises.

Q: Where can the SO-201 Second Order Network Kit be mounted or used effectively?

A: Designed with a modular, table-top layout, the SO-201 is best suited for bench-mounted laboratory environments, including educational institutions, research centers, and industrial training labs. Its portable design allows easy relocation between different workstations.

Q: What is the process for measuring output waveforms using the kit?

A: To measure output waveforms, connect your oscilloscope or waveform analyzer to the designated AC signal outputs or test points. Select the desired waveform (sine or square) and frequency using the built-in generator, then observe and analyze the circuits response on your measurement device.

Q: What are the key benefits of using the SO-201 in laboratory experiments?

A: The SO-201 offers several advantages, including accurate and reliable measurement, comprehensive circuit analysis, built-in protection, and user-friendly operation. These features make it an ideal choice for students, educators, and professionals seeking to understand and demonstrate second order network principles.

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