Frequency Range:1 Hz to 1 MHz
Sensitivity:1 nVrms to 100 μVrms
Dynamic Range:60 dB
Phase Noise:-100 dBc/Hz at 1 kHz
Input Impedance:1 MΩ
Operating Temperature:-10°C to +50°C
Power Consumption:10 W
Dimensions (WxDxH):144 x 324 x 100 mm
Weight:2.5 kg
The Stanford Research SR570 is a cutting-edge lock-in amplifier, meticulously engineered to meet the demands of precision measurement and scientific research. Its ultra-low noise floor ensures exceptional sensitivity and accuracy, making it indispensable for experiments requiring the utmost precision.
Featuring a wide operating frequency range from DC to 5 MHz, this amplifier is versatile enough for a multitude of applications, from electrical engineering to physics research. Its input voltage range of 0.1 mV to 10 V peak-to-peak accommodates a broad spectrum of signal sources.
With an impressive sensitivity of 1 μV at 1 Hz, the SR570 can detect minute signals that other instruments might miss, enhancing the detection capabilities of any experimental setup. The noise performance of 1 nV/√Hz at 1 Hz sets a new standard for signal clarity and purity.
The amplifier’s phase noise performance is remarkable, with a maximum of -130 dBc/Hz at 1 kHz, ensuring minimal distortion and interference in your measurements. This makes it particularly valuable in fields where phase accuracy is critical.
Temperature stability of +/- 0.01% per °C ensures consistent performance across varying environmental conditions, making the SR570 a reliable choice for long-term experiments or installations where temperature fluctuations are expected.
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