Showing results: 856 - 870 of 1157 items found.
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S95083B -
Keysight Technologies
The Keysight S95083B measurement software includes the scalar mixer / converter plus phase (SMC+Phase) measurement class. It provides fully calibrated conversion gain / loss, relative phase, and absolute group delay measurements of mixers and converters without the need for reference or calibration mixers. Eliminating the calibration mixer requires a U9391C / F / G comb generator and an external DC power supply. A vector mixer characterization (VMC) is also included for measuring group delay of frequency-converting devices. VMC can be used to characterize a user-supplied calibration mixer.
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787251-01 -
NI
PXIe, 9 GHz PXI Vector Network Analyzer - The PXIe-S5090 is a 2-port Vector Network Analyzer (VNA) that helps you measure amplitude, phase, and impedance. You also can use the PXIe-S5090 to perform time-domain analysis and to calculate the S-parameters of 2-port RF devices. It features a 300 kHz to 9 GHz frequency range, a wide dynamic range, and high sweep speeds for automated design validation and production test. Additionally, the PXIe-S5090 supports automatic precision calibration, full vector analysis, and reference plane extensions.
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M3201A -
Keysight Technologies
The M3201A PXIe arbitrary waveform generator is ideal for general purpose AWG automated test requirements. It offers high channel density with high-quality output with low phase noise. The optional real-time sequencing, intermodulation synchronization, and graphical FPGA programming software tools expand its capability to enable a number of solutions including envelope tracking (ET) and DPD (part of PA/FEM reference solution), MIMO, baseband electronics design, wireless device manufacturing, ATE, beamforming and other multi-channel coherent signal generation and multi-channel signal generation.
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NI
The PXI Vector Signal Transceiver (VST) combines the flexibility of a software defined radio architecture and RF instrument class performance. You can use the VST to test a variety of cellular and wireless standards, and you can easily expand the VST's three-slot, 3U PXI Express form factor to support multiple input, multiple output (MIMO) configurations. The VST software is built on LabVIEW FPGA, and features several starting points for your application including application IP, reference designs, examples, and LabVIEW sample projects.
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NI
PXI Vector Network Analyzers feature two ports, so you can choose between T/R test sets or full S-parameter capabilities. The PXI Vector Network Analyzer supports automatic precision calibration, full vector analysis, and reference plane extensions, so it is an ideal vector network analysis solution for your validation and production operations without the high cost and large footprint associated with a traditional benchtop VNA. These models seamlessly integrate into test systems for highly accurate, fast RF measurements.
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iWave Systems Technologies
iWave’s QSFP28/QSFP+ 2×1 Stacked FMC+ HSPC Module is designed to meet VITA 57.4 FMC+ Standard. This FMC+ Module is supported by two stacked QSFP28/QSFP+ ports(Upto400G) with 4-Bit Silicon Labs programmable clock synthesizer (default = 156.25Mhz). A flexible reference clock for on the QSFP28/QSFP+ 2×1 Stacked FMC+ Module is fully programmable over the 0.16 to 710 MHz range through I2C. Each QSFP28/QSFP+ ports are directly connected to four multi-gigabit serial transceivers banks of Vita 57.4 compliant carrier Board.
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Keysight Technologies
Built on Keysight's digital communication analyzer (DCA) technology, the DCA-M family is recognized as the industry standard for verifying optical transmitter compliance to communications standards. With single to quad optical AND electrical channels in a compact form factor, the DCA-M is ideal for both manufacturing and RND applications. Analyze both multi-mode and single-mode signals with the low-noise, high-sensitivity calibrated reference receivers. The variety of models along with the supporting software and compliance applications ensure you can measure with high precision, whether you analyze electrical or optical devices.
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742 Family -
CAEN S.p.A.
The 742 is the Switched Capacitor Digitizer family, based on the DRS4 chip by PSI, with the highest sampling frequency (5GS/s) and channel density. It can record very fast signals from scintillators coupled to PMTs, Silicon Photomultipliers, APD, Diamond detectors and others, and save them with high efficiency and precision for advanced timing analysis. The 742 family has an additional channel (two channels in case of VME boards) which can be used as time reference for time of fight measurements. The resolution of this kind of measurements can reach up to 50 ps.
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LXinstruments GmbH
The multi-channel optical fibre test system is used in the development and qualification of single mode optical fibres. The fibres are exposed to environmental influences in a climatic chamber in order to analyse the data on insertion loss and reflection. In addition, the current temperature in the climatic chamber is documented. Insertion loss measurement is performed with the help of an optical power meter, laser sources and optical switches. An Optical Time Domain Reflectometer (OTDR) from Exfo is used for the reflection measurements. The system was designed for the simultaneous characterization of 15 sample fibres and one reference fibre.
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Model T802 -
Teledyne Advanced Pollution Instrumentation
The Model T802 O2 uses the proven paramagnetic measurement principle, coupled with state of the art microprocessor technology, to provide accurate and dependable measurements of Percent-Level O2.Paramagnetic technology is non-depleting, which means that there are no consumable parts, and ensures a consistent performance over time. The selectivity of the paramagnetic measurement for oxygen means that there is little or no interference from other common background gases. The T802 offers a stable and inherently linear measurement of oxygen, making it possible to calibrate the analyzer by checking only two points. There is no requirement for a reference gas during operation.
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780063-01 -
NI
PXIe, TCXO PXI Synchronization Module—The PXIe‑6672 is a system timing controller module. It can drive the PXI star trigger lines, import and export PXI backplane clocks and triggers, generate a high-resolution direct digital synthesis (DDS) clock, and generate a high-stability temperature-compensated crystal oscillator (TCXO) 10 MHz Reference Clock for instrumentation. The PXIe‑6672 allows you to synchronize multiple PXI Express systems, synchronize a PXI Express system with external instruments and equipment, and increase the accuracy of instruments within a PXI Express system.
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Vitrek Corporation
Precision High Voltage Meter offers the highest level of measurement accuracy, yet with its color touch screen – is surprisingly easy to use. Vitrek leverages DSP technology to provide outstanding AC &DC voltage measurement accuracy, stability, repeatability and resolution. The 4700 High Voltage Meter offers performance that rivals traditional high voltage reference dividers – yet unlike the tedious divider, the 4700 provides instant, direct, high voltage measurements in a highly portable, compact and rugged bench top enclosure.
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SSP -
Computer Conversions Corporation
The SSP Series are Compact, Reference Powered and Isolated Synchro Power Amplifiers, and AC Sine/Cosine ( Resolver ) to synchro converters; designed for moderate wattage, and re-transmission requirements; providing ultra high efficiency, and ultra high reliability in service, and ease of use. They are ideally suited for demanding Naval/Maritime, Aircraft, and Radar/Antenna related, applications. They are commonly used on synchro based data transmission, retransmission, simulation, and active control systems. They are suitable to drive both CT and CDX type passive loads, and virtually any synchro input instrumentation, or control.
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Precise Time and Frequency, Inc.
To complement the range of high quality frequency and timing references, Precise Time and Frequency, Inc. has now introduced a new version of the ptf 1226A Auto Switch that includes an additional switch channel (now 3 channels total) of RF, and/or Digital, and/or Time Code, Auto Switching, and a full Ethernet/RS232 remote monitoring/control interface.In addition to the auto switching capability, the new ptf 1226 delivers up to thirty six channels of RF, Digital or Time Code frequency and/or timing references to critical applications such as Satellite Communications, Broadcasting, WiMax and others.Analog channels include a unique output level monitoring feature to provide remote indication of rms voltage output level.The unit can accept up to three pairs of inputs (usually from separate primary and backup sources), and provides monitoring of both the inputs and outputs for signal integrity. In addition RF channels include analog level monitoring. If the primary input on any auto switch channel fails, the unit will automatically switch to the backup input and indicate a primary signal fault.Full remote monitoring and control via RS232 and Ethernet interfaces includes telnet, http (web browser), and SNMP protocols.
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Schwarzbeck Mess Elektronik
Tuned half-wave dipoles have been among the most important antennas from thebeginning of rf-technique. The characteristics of half-wave dipoles havebeen calculable very early using the Maxwell and Hertz equations. Therefore the halfwave dipole became a reference antenna. The ideal (lossless) half-wave dipole has anisotropic gain of 2.15 dBi and an impedance of 73 Ohm. The directional pattern is circular inthe H-plane, "8-shaped" in the E-plane with the maxima perpendicular on the dipole axis.The half-power beamwidth (-3 dB) is approx. 78°. The impedance of real dipoles isdepending on the thickness/length ratio of its elements, typical values are 60-70 Ohm.Dipoles for industrial applications are available in the frequency range from 30MHz to up to approx. 4 GHz. The dipole elements are length variable (telescopic) orwith fixed length, the latter especially above 1 GHz. The most important applications aretest site evaluations (NSA, normalized site attenuation) and the determination of ERP(Effective Radiated Power) respectively EIRP (Effective Isotropic Radiated Power).
