Showing results: 646 - 660 of 2094 items found.
-
ATS330 -
AlazarTech
ATS330 provides the best value in the mid-range PCI Digitizer market. With its high performance, low noise 50 MS/s ADCs, fully programmable analog front-end and numerous other features, it is an ideal digitizer for many applications
-
X4M300 -
Novelda AS
The XeThru X4M300 is Novelda’s presence and occupancy sensor powered by the XeThru X4 ultra wide band radar chip. Ultra sensitive and with excellent signal to noise performance, the sensor detects even the smallest human movement in a room.
-
Saluki Technology Inc.
The SE4002 is a low-noise, ultra-high input impedance preamplifier with excellent common-mode rejection. It is designed to work with any Saluki digital lock-in amplifier. The preamplifier minimizes noise and pickup in the connecting lines and reduces measurement time in noise-limited experiments.
-
S-13/GS-13 -
Geotech Instruments, llc
The Geotech Model S-13 is a high resolution, premium seismometer capable of meeting the noise and stability requirements of the most demanding seismic studies. It features adjustable natural frequency from 0.75 to 1.1 Hz (typical 1.0 Hz).
-
KS-54000/KS-1 -
Geotech Instruments, llc
Geotech's Model KS-54000 is a borehole, Model KS-1 a vault, three-component seismometer, designed for ultra low-noise monitoring for frequencies from 0.003 to 5 Hz, being below the Low Noise Model for frequencies up to 5 Hz.
-
UEP6021 -
W-IE-NE-R, Plein & Baus GmbH
The UEP 6021 Power Supply is a very high density, high sophisticated microprocessor controlled modular power unit. It is designed in WIENER "Low-Noise-Cavity-VHF-switching technology" which features extremely low ripple and noise (PARD).
-
FEMTO Messtechnik GmbH
Switchable gain up to 100 dB (x 100,000)Bandwidth DC to 100 kHzDC-drift 0.6 µV/°CInput noise down to 0.4 nV/√HzSwitchable AC/DC-couplingLocal and remote controlInput impedance up to 1 TΩ
-
F900 -
ASL
The Model F900 is designed specifically for resistance thermometry to provide you with the best possible accuracy. The 25Hz or 75Hz operating frequency provides fast, continuous measurement with high immunity to thermal emfs and supply frequency noise sources.
-
National Technical Systems
Motorized products must pass a series of tests to ensure readiness for mass production. The parts that comprise an automobile, for example, are submitted to dynamics test labs to endure varying degrees of pressure, noise, vibrations and other challenging forces.
-
NUL-217 -
Neulog
The Galvanic Skin Response (GSR) logger sensor measures the conductivity of our skin, especially of our fingers. The conductivity of our skin changes according to unconscious emotion effects such as sudden noise, smell, touch, pain or view.
-
Vogelsang & Benning
*2 high-precision servo axes for linear load simulation*Communication via CAN / Flexray*Function and noise measurements (NVH)*Supply and discharge of the test specimens via WTs on double belt conveyors*Connection to the production control
-
DAQ-2000 -
ADLINK Technology Inc.
ADLINIK DAQ-2010, DAQ-2005 and DAQ-2006 are simultaneous-sampling multifunction DAQ cards to meet a wide range of application requirements. The devices can simultaneously sample 4 AI channels with differential input configuration in order to achieve maximum noise elimination.
-
N1092B -
Keysight Technologies
High accuracy, low cost solution for optical waveform analysis including solutions for 8.4 through 64 GBaud, very low noise and jitter, fast sampling rates for high throughput, and integrated clock recovery available.
-
N1092A -
Keysight Technologies
High accuracy, low cost solution for optical waveform analysis including solutions for 8.4 through 64 GBaud, very low noise and jitter, fast sampling rates for high throughput, and integrated clock recovery available.
-
Analog Devices Inc.
Analog Devices high speed, differential receivers and CAT-5 cable equalizers compensate for the transmission losses of UTP and coaxial cables up to 300 meters in length. Our design techniques for products such as the AD8123 optimize performance for low noise, short-to-medium range applications, while also providing the high gain bandwidth required for long cable equalizations. Various gain stages are summed together to best approximate the inverse frequency response of the cable. Logic circuitry controls the gain functions of the individual stages so that the lowest noise can be achieved at short-to-medium cable lengths.