SRS DG535
Digital Delay Generator
Stanford Research Systems
*Four independent delay channels
*Two fully-defined pulse channels
*5 ps delay resolution
*<100 ps rms jitter
*Adjustable amplitude and offset
*Delays up to 1000 seconds
*Standard GPIB interface
*Optional ±32 V output
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SRS PERF10-10 MHz rubidium atomic audio clock
10 MHz Rubidium Atomic Audio Clock
Stanford Research Systems
*Atomic stability and accuracy
*Eight 10 MHz, 75 Ω outputs
*±0.05 ppb accuracy
10 year aging less than 5 ppb
*Ultra-low phase noise (<-155 dBc/Hz @ 10 kHz)
*Compatible with any device that accepts a 10 MHz input (including Antelope™ and dCS™ equipment
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SRS 380 Series
DC to 2 Ghz, 4 Ghz and 6 GHz analog signal ge
Stanford Research Systems
*DC to 2 GHz, 4 GHz or 6 Ghz
*1 µHz resolution
*AM, FM, ØM, PM and sweeps
*OCXO timebase (std.)
*-116 dBc/Hz SSB phase noise (20 kHz offset, f = 1 GHz)
*Rubidium timebase (opt.)
*Square wave clock outputs (opt.)
*Analog I/Q inputs (opt.)
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SRS CTC100
Cryogenic temperature controller
Stanford Research Systems
*4 temperature sensor inputs
*2 powered & 4 analog voltage outputs
*Up to 6 feedback control loops
*4 analog & 8 digital I/O channels
*Graphical touchscreen display
*Data logging on removable flash media
*User programs (macros)
*USB, Ethernet, RS232
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SRS LDC500 Series
Laser diode drivers with integrated temperatu
Stanford Research Systems
Laser Diode Driver
*100 mA, 500 mA or 2 A source
*Ultra-low drift (<10 ppm/°C)
*<0.3 µA current noise (LDC500)
*CC & CP mode dynamic switching
*GPIB, RS-232 and Ethernet
TEC Controller
*36 W output power
*Ultra-high stability (0.0005 °C/°C)
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SRS-RGA100, RGA200 and RGA300
Residual Gas Analyzer
Stanford Research Systems
*100, 200 and 300 amu systems
*Better than 1 amu resolution
*6 orders of magnitude dynamic range in a single scan
*5 x 10-14 Torr detection limit
*RGA Windows and LabVIEW software
*Field-replaceable electron multiplier and filament
*RS-232 (std.)
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SRS-SR844
200 MHz RF lock-in amplifier
Stanford Research Systems
*25 kHz to 200 MHz frequency range
*80 dB dynamic reserve
*Time constants from 100 µs to 30 ks (6, 12, 18 or 24 dB/oct rolloff)
*"No Time Constant" mode (10 to 20 µs update rate)
*Auto-gain, -phase, -reserve and -offset
*Internal or external reference
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SRS-DS360
Low Distortion Function Generator DS360 — Ult
Stanford Research Systems
*10 mHz to 200 kHz frequency range<-100 dBc distortion (to 20 kHz) *Sine, square, white and pink noise *20 µVpp to 40 Vpp output range *Linear and log frequency sweeps *25 ppm frequency accuracy *10 MHz reference input (opt.) *Balanced and unbalanced
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SRS-SR620
Frequency Counter Time interval and frequency
Stanford Research Systems
*25 ps single-shot time resolution
*1.3 GHz frequency range
*11-digit frequency resolution (1 s)
*Statistical analysis & Allan variance
*Graphical output to XY scopes
*Hardcopy to printers and plotters
*GPIB and RS-232 interfaces
*Optional ovenized
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SRS-FS735 series
10 MHz Distribution Amplifier
Stanford Research Systems
*Sine wave outputs (+13 dbm)
*Amplitude leveling
*Low additive phase noise
*High channel-to-channel isolation
*High return loss
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SRS-SR760 and SR770
FFT Spectrum analyzers
Stanford Research Systems
*DC to 100 kHz bandwidth
*90 dB dynamic range
*Low-distortion synthesized source (SR770)
*Harmonic, band and sideband analysis
*100 kHz real-time bandwidth
*Hardcopy output to printers and plotters
*GPIB and RS-232 interface
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