Manufacturers
Manufacturers
Testimonials
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★★★★★
"Fantastic deal. The oscilloscope is in very good condition. Packed for shipment to survive anything"Jeff
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★★★★★
"Premium equipment. Excellent communication. Fast. Best value!"Avi
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★★★★★
"Practically in new condition"Darcy
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★★★★★
"There was a small issue; The people at BRL Test were 100% responsive and issue resolved. Thanks!"Mike
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★★★★★
"Best packing ever! I would let you ship one of my children!"Todd
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★★★★★
"Unit received in great shape. Passed Agilent calibration. Good job!!"Lee
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★★★★★
"In every aspect these guys are great!"Sarah
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Stanford Research Systems
SR552 - Stanford Research Systems Preamplifiers
100.0kHz | High end frequency limit
The SR552 Voltage Preamplifier is designed to work with SRS lock-in amplifiers, providing gain where it is needed most—right at the experiment....
SR620 - Stanford Research Systems Frequency Counters
1.3GHz | Max. Freq.
The SR620 Time Interval Counter performs virtually all of the time and frequency measurements required in a laboratory or ATE environment. The...
SR554 - Stanford Research Systems Preamplifiers
40.0kHz | High end frequency limit
The SR554 is a low-noise, transformer-coupled preamplifier optimized for source impedances between 0.05 W and 1 kW. With an input noise of only 0.1...
SR760 - Stanford Research Systems Spectrum Analyzers
100.00kHz | High end frequency limit
476 uHz to 100 KHz frequency range 90 dB dynamic range (16 bit A/D) 100 KHz real-time bandwidth Direct plotting and printing 3.5 inch MS-DOS...
SIM910 - Stanford Research Systems Preamplifiers
1.0MHz | High end frequency limit
The SIM910 and SIM911 are low-noise, programmable preamplifiers which are ideal for a wide range of small signal applications. The primary...
SR770 - Stanford Research Systems Spectrum Analyzers
100.00kHz | High end frequency limit
476 uHz to 100 KHz frequency range 90 dB dynamic range (16 bit A/D) 100 KHz real-time bandwidth Synthesized source - sine, two -tone,white and...
SIM911 - Stanford Research Systems Preamplifiers
1.0MHz | High end frequency limit
The SIM910 and SIM911 are low-noise, programmable preamplifiers which are ideal for a wide range of small signal applications. The primary...
SR510 - Stanford Research Systems Lock-in Amplifiers
100.00kHz | High end frequency limit
0.5 Hz to 100 kHz frequency range Current and voltage inputsUp to 80 dB dynamic reserveTracking band-pass and line filtersInternal reference...
DS360 - Stanford Research Systems Function Generators
200.0kHz | Frequency Range Max.
1 mHz to 200 kHz frequency range
SR530 - Stanford Research Systems Lock-in Amplifiers
100.00kHz | High end frequency limit
0.5 Hz to 100 kHz frequency rangeCurrent and voltage inputsUp to 80 dB dynamic reserveTracking band-pass and line filtersInternal reference...
SR560 - Stanford Research Systems Preamplifiers
1.0MHz | High end frequency limit
The SR560 is a high-performance, low-noise preamplifier that is ideal for a wide variety of applications including low-temperature measurements,...
SR810 - Stanford Research Systems Lock-in Amplifiers
102.40kHz | High end frequency limit
1 mHz to 102.4 kHz frequency range >100 dB dynamic reserve 5 ppm/_C stability 0.01 degree phase resolution Time constants from 10 µs to 30 ks(up to...
SR830 - Stanford Research Systems Lock-in Amplifiers
102.40kHz | High end frequency limit
1 mHz to 102.4 kHz frequency range >100 dB dynamic reserve 5 ppm/°C stability 0.01 degree phase resolution Time constants from 10 µs to...
SR570 - Stanford Research Systems Current Amplifiers
1.00MHz | Bandwidth
The SR570 is a low-noise current preamplifier capable of current gains as large as 1 pA/V. High gain and bandwidth, low noise, and many convenient...
SR850 - Stanford Research Systems Lock-in Amplifiers
102.40kHz | High end frequency limit
The SR850 is a digital lock-in amplifier based on an innovative DSP (Digital Signal Processing) architecture. The SR850 boasts a number of...
SIM918 - Stanford Research Systems Current Amplifiers
22.00kHz | Bandwidth
The SIM918 Current Preamplifier is ideal in applications in which the input offset voltage must be kept to a minimum. The DC voltage difference...
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