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Stanford Research SR2124 Dual Phase Lock-in Amplifier

SKU: SR2124Categories: Laboratory Measurement Instruments

Brand: Stanford Research Systems

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The Stanford Research SR2124 is a dual-phase lock-in amplifier designed for precision measurement of AC signals. It offers high sensitivity and excellent noise rejection, making it suitable for a wide range of scientific and engineering applications. Features include dual-phase operation, digital signal processing, and versatile interfacing options.

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Description
Additional information

The Stanford Research SR2124 Dual Phase Lock-in Amplifier is a precision instrument for measuring small AC signals embedded in noise using all-analog design to eliminate digital interference. Operating across 0.2 Hz to 200 kHz, it achieves input sensitivity down to 100 nV full-scale with dynamic reserve to 80 dB—extendable to 100 dB with optional band-pass filtering. The instrument functions as either a lock-in amplifier or frequency-selective AC voltmeter, accepting both voltage and current inputs with selectable coupling modes.

Technical Specifications

• Frequency range: 0.2 Hz to 200 kHz
• Input sensitivity: 100 nV minimum full-scale
• Dynamic reserve: 80 dB (60 dB typical); up to 100 dB with optional input filtering
• Voltage input: Single-ended/differential FET preamplifier, 2.5 nV/√Hz noise floor, 10 MΩ input impedance
• Current input: Preamplifier with gains of 10⁶ V/A and 10⁸ V/A
• Reference output: Sine and square waveforms, amplitude 100 nV to 10 V
• Quadrant outputs: Four 1 Vrms sine waves at 0°, 90°, 180°, 270°
• Signal outputs: 1 µV to 20 Vpp into 10 kΩ load, 50 Ω output impedance
• Output time constants: 1 ms to 300 s, selectable –6 dB or –12 dB/octave rolloff
• Input filters: Flat, band-pass, high-pass, low-pass, notch with Q-factor 1–100
• AC/DC coupling: Both modes supported
• Grounding: Ground and Float modes

– Key Features

• All-analog architecture eliminating digital noise sources
• Internal reference with ±0.1% accuracy
• External reference locking at f, 2f, or 3f with 100 mVpp minimum input
• Tunable narrow-band amplifier providing additional 60 dB rejection of out-of-band signals
• Two-stage output low-pass filtering with minimum time constant bypass
• Rear voltage-controlled oscillator (VCO) reference option
• Front and rear panel reference outputs

– Typical Applications

• Low-temperature research requiring ultra-low noise performance
• Precision small-signal measurement in noisy environments
• Lock-in detection for phase-sensitive measurements
• AC signal characterization and frequency-selective analysis

– Compatibility & Integration

The SR2124 provides voltage and current input paths with independent coupling selection, front-panel reference output control, and multiple reference modes for flexible integration into measurement systems. Quadrant outputs enable external phase-shift applications.

MPN	SR2124
Frequency Range	0.2 Hz to 200 kHz
Voltage / Current Range	100 nV to 10 V (reference output); 1 µV to 20 Vpp (signal output); current gains 10⁶ V/A and 10⁸ V/A
Brand Name	Stanford Research Systems