Description
Specifications Table
Product Material – High-grade metal and electronic components
Grade – Laboratory/Research Grade
Application – Inductance measurement, AC bridge circuits, impedance analysis
Product Overview
The Maxwell Inductance Bridge is a sophisticated laboratory instrument designed for precise measurement of inductance in electrical circuits. This advanced bridge incorporates a built-in oscillator that generates stable AC signals and a sensitive null detector for accurate balance detection. The device operates on the principle of comparing an unknown inductance with a known standard, allowing for highly accurate measurements. Its robust construction ensures durability while maintaining measurement integrity. The integrated oscillator eliminates the need for external signal sources, making it a self-contained solution for inductance measurement applications. The null detector provides clear indication of balance point, enabling precise adjustments. This bridge is particularly valuable in educational and research settings where accurate inductance measurements are crucial for circuit analysis and design verification.
FAQs
1. What is the operating frequency range of this Maxwell Inductance Bridge?
The bridge typically operates in the audio frequency range, usually between 50Hz to 1kHz, depending on the specific model and circuit configuration.
2. Can this bridge measure both mutual and self-inductance?
Yes, the Maxwell Inductance Bridge is capable of measuring both self-inductance of coils and mutual inductance between coupled coils when properly configured.
3. What power supply is required for this instrument?
Most laboratory-grade Maxwell Inductance Bridges operate on standard 220-240V AC power supply, though some models may include options for battery operation.
4. How does the built-in null detector improve measurement accuracy?
The integrated null detector provides higher sensitivity compared to external meters, allowing for more precise balance detection which directly translates to more accurate inductance measurements.
5. What maintenance is required for long-term reliable operation?
Regular cleaning of contacts, periodic calibration checks, and proper storage in a dry environment are recommended to maintain measurement accuracy and extend the instrument’s lifespan.
