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
Introducing the Stanford Research SR570, the premier choice for researchers and engineers seeking unparalleled precision in their signal processing tasks. This high-performance DC offset nullifier boasts an impressive frequency range from DC to 50 MHz, enabling versatile use across various applications.
Equipped with a maximum input voltage capability of ±100 V, the SR570 ensures robust handling of strong signals without compromising on accuracy. Its output voltage accuracy of ≤ 0.001% + 0.01 ppm sets new standards for reliability, making it indispensable in critical measurement scenarios.
Featuring an input impedance of 1 MΩ, the SR570 minimizes loading effects, preserving the integrity of input signals. Coupled with a Common Mode Rejection Ratio of ≥ 100 dB, it effectively suppresses unwanted noise, enhancing signal clarity and fidelity.
Designed with precision in mind, the SR570’s temperature coefficient ≤ 1 ppm/°C ensures consistent performance under varying environmental conditions. This feature is crucial for maintaining accuracy in real-world applications where temperature fluctuations are common.
Efficient power consumption of ≤ 5 W further enhances the SR570’s appeal by reducing operational costs without sacrificing performance. This eco-friendly aspect makes it an ideal choice for sustainability-conscious professionals in the industry.
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