Current amplifier SR865A
voltagelock-inbenchtop

Current amplifier - SR865A - Stanford Research Systems - voltage / lock-in / benchtop
Current amplifier - SR865A - Stanford Research Systems - voltage / lock-in / benchtop
Current amplifier - SR865A - Stanford Research Systems - voltage / lock-in / benchtop - image - 2
Current amplifier - SR865A - Stanford Research Systems - voltage / lock-in / benchtop - image - 3
Current amplifier - SR865A - Stanford Research Systems - voltage / lock-in / benchtop - image - 4
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Characteristics

Type
current, voltage
Other characteristics
lock-in, benchtop
Voltage

Min.: 10 mV

Max.: 10,000 mV

Power

60 W

Frequency

Min.: 0 Hz

Max.: 10,000,000 Hz

Description

The SR865A Lock-In Amplifier offers superb performance and outstanding value. With 4 MHz frequency range, time constants from 1 µs to 30 ks, very low noise front-end amplifiers, and a modern, intuitive user interface, the SR865A is the ideal choice for any synchronous detection application. The SR865A Lock-In Amplifier offers superb performance and outstanding value. It's what you've come to expect from a Stanford Research Systems lock-in amplifier. With 4 MHz frequency range, time constants from 1 µs to 30 ks, very low noise front-end amplifiers, and a modern, intuitive user interface, the SR865A is the ideal choice for any synchronous detection application. With over 30 years of lock-in design experience SRS has made every effort to optimize each detail of the SR865A. From a hefty toroidal transformer that eliminates switch-mode noise to iOS connectivity that brings the lock-in to your cell phone to advanced DSP filters that eliminate more noise while speeding up your experiment, the SR865A is truly the ultimate lock-in amplifier. Trend Graph Lock-in performance starts at the front end. The SR865A front end offers both state-of-the art voltage and current input amplifiers. The voltage input is a switchable single-ended/differential JFET-pair amplifier with 2.5 nV/√Hz of noise at 1 kHz and under 10 nV/√Hz of noise at 10 Hz. The voltage input has a 10 MΩ input impedance and can be AC or DC coupled. Input connector shields can be connected to the instrument ground through a user selectable 10 Ω (Ground) or 10 kΩ (Float) resistor.
*Prices are pre-tax. They exclude delivery charges and customs duties and do not include additional charges for installation or activation options. Prices are indicative only and may vary by country, with changes to the cost of raw materials and exchange rates.