Operating Frequency Range:DC to 5 MHz
Input Voltage Range:0.1 mV to 10 V peak-to-peak
Output Voltage Range:-10 V to +10 V
Sensitivity:1 μV at 1 Hz
Noise Performance:1 nV/√Hz @ 1 Hz
Maximum Phase Noise:-130 dBc/Hz @ 1 kHz
Temperature Stability:+/- 0.01% per °C
The Stanford Research SR570 Lock-In Amplifier is engineered for unparalleled performance in signal processing tasks, offering unmatched precision and reliability.
With an operating frequency range from 1 Hz to 1 MHz, it is suitable for a wide array of applications requiring high-frequency analysis, such as quantum physics, spectroscopy, and electronic circuit testing.
Featuring a robust 1 MΩ input impedance, the SR570 ensures minimal signal distortion and high stability, making it ideal for sensitive measurements where noise reduction is critical.
Equipped with exceptional sensitivity of ≤ 1 nV/√Hz and phase noise of ≤ 10°/√Hz at 1 Hz, this amplifier excels in extracting precise signals from noisy environments, enhancing the accuracy of scientific experiments and industrial quality control.
Designed for efficient operation, the SR570 consumes a maximum of 2 W, making it energy-efficient and suitable for continuous use without overheating concerns, even under varying environmental conditions.
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