Operating Frequency Range:DC to 20 MHz
Input Impedance:50 Ω
Sensitivity @ 1 Hz, 50 Ω Load:0.1 μV RMS
Dynamic Range:Up to 120 dB
Resolution Bandwidth:1 kHz
Sampling Rate:10 MS/s
Temperature Coefficient:-3 ppm/°C
The Stanford Research SR570 Lock-in Amplifier is a high-performance instrument specifically engineered for advanced signal processing tasks. It boasts an exceptionally wide operating frequency range from DC to 20 MHz, making it suitable for a broad spectrum of scientific research applications. The device is equipped with a robust input impedance of 50 Ω, ensuring stable operation across various measurement setups.
With a sensitivity of just 0.1 μV RMS at 1 Hz and a 50 Ω load, the SR570 excels in detecting subtle signals in noisy environments. Its impressive dynamic range extends up to 120 dB, allowing it to handle both weak and strong signals with equal precision. The resolution bandwidth of 1 kHz ensures accurate measurements even at lower frequencies, while the sampling rate of 10 MS/s enables rapid data acquisition.
The amplifier’s temperature coefficient of -3 ppm/°C indicates its exceptional stability over varying environmental conditions, crucial for maintaining consistent performance in real-world applications. This feature, combined with its compact size and user-friendly interface, makes the SR570 a versatile tool for researchers and engineers alike.
Crafted from high-quality materials, the SR570 is built to withstand rigorous use and demanding environments, ensuring reliability and longevity. Its modular design facilitates easy maintenance and upgrades, enhancing its value for long-term projects.
For users seeking precise, sensitive, and versatile signal processing capabilities, the Stanford Research SR570 Lock-in Amplifier stands as an industry-leading solution. Whether in academic research, industrial testing, or experimental development, this amplifier delivers superior performance and accuracy, setting new benchmarks in the field of signal processing.
There are no reviews yet.