The Principle of Periodic Signal Measurement |
Typically, a lock-in amplifier is designed to measure the amplitude and phase of a modulated sine wave. Since any periodic signal can be mathematically decomposed into a fundamental sine wave and its corresponding harmonics, a lock-in amplifier can capture these individual components’ amplitudes and phases to reconstruct the original periodic signal.
The Challenge: The Efficiency Bottleneck of Traditional Methods |
In advanced research and material analysis, measuring harmonics one by one is time-consuming. Traditional lock-in amplifiers require sequential tuning to different frequencies to capture each harmonic component, which significantly slows down the testing workflow and increases the risk of time-dependent measurement errors.
The Solution: Simultaneous Multi-Harmonic Detection with SE1022 |
The SE1022 Lock-in Amplifier eliminates this bottleneck by allowing users to simultaneously measure the fundamental wave and up to 2 harmonic signals.
Streamlined Workflow: Effortlessly detect and analyze distinct harmonic components at the same time.
Accelerated Testing: Significantly speed up the entire measurement and periodic signal synthesis process, improving laboratory throughput.
Related products: |
Lock-In Amplifiers: Principle, Applications & Products | Saluki Technology
♦ Need technical support or a custom solution? Contact our application engineers: saluki@salukitec.com.
♦ To request a quotation, please contact sales@salukitec.com or click “Contact Us“ to leave a message.

