LI-575 (0.5Hz to 200kHz, 100nV Full-scale Synchrotrack Lock-in Amplifier with Completely Free from Harmonic Influences)


Brand: NF
Model Series: LI-575 Series

About Product

Lock-in Amplifier is used for detecting and measuring AC signal’s amplitude or phase buried in noise as high sensitive AC Voltmeter with noise immunity. For the DSP lock-in amplifier, NF has taken full advantage of the sophisticated computation capacities of digital signal processors, while significantly improving the speed for setting and response during measurement, the stability of output and the compatibility of data with computers, at the same time as pursuing operability and lower cost. NF has full confidence in its experience and know-how in lock-in amplifiers. The NF LI-575 Synchrotrack Lock-in Amplifier is thus designed and used by many customers like in the fields of physics and science including spectroscopic analysis.

Product Features

  • Completely free from harmonic influences
  • Wide frequency range: 5Hz to 200kHz
  • Sensitivity: 100nV to 500mV
  • Dynamic reserve:60dB
  • Time constant: 25ms to 125s, 6dB/Oct or 12dB/Oct
  • Input mode: Ground line may be switch-floated
  • DC output: Acosφ, Asinφ, A, φ, NOISE
  • Phase measurements easily performed
  • Built-in noise measuring mode, equivalent of 0.1Hz to 100Hz

Product Functions

  • Phase measurement can easily be done without phase adjustment
  • Built-in noise measuring mode from 0.1Hz to 100Hz

Product Application

  • Phase measurement
  • Detecting and measuring AC signal’s amplitude or phase buried in noise
  • Spectroscopic analysis

Standard Accessories

  1. Operation Manual
  2. Power Cable

Product Options

  • None

Related Catalog

Specification-of-LI-575-Series

Our Company

Miko, established in 1980, is a leading instrumentation distributor in Hong Kong and China.

Over the years, we have been fully engaged in the sales and marketing of electronic T&M instruments in the territory. Our market sector coverage includes telecommunication, power, data communication, audio, broadcasting and education.