Showing results: 286 - 300 of 317 items found.
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T3AWG Series -
Teledyne LeCroy
T3AWG3K Series consists of six high definition high performance Arbitrary Waveform Generators (HD AWG) consisting of 2, 4 and 8 channels, 16 bit vertical resolution, 12 Vpp max output voltage (50Ω into 50Ω), 128 Mpts/ch memory (optional 1 Gpts/ch), a maximum sampling rate of 1.2 GS/s and a max sinewave frequency of 250 MHz and 350 MHz respectively. The baseline HW voltage offset capability provide the unmatched ability to generate ±24 V or 48V output voltage window (50Ω into High Impedance).
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Model 645 -
Berkeley Nucleonics Corporation
The BNC Model 645 50MHz Function/Arbitrary Waveform Generator delivers many advanced features and user modes than our previous models, with a price that is designed to meet tough economic constraints. New DDS+ technology embraces advancements in the semiconductor industry and leverages state-of-the-art components for both standard and complex functions. The resulting design is a box for every bench, far more capable than the ARBs and Function Generators of the past. We have even incorporated IP support, so a web browser can control the instrument over LAN.
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TGR205x Series -
Aim-TTi
150kHz to 3GHz (TGR2053) and 150kHz to 1.5GHz (TGR2051) frequency rangeHigh signal purity, phase noise <-117dBc/Hz (typical) at 1GHz output and 10kHz offsetAmplitude range of -127dBm to +13dBm0.1dBm amplitude setting resolutionInternal or external analogue modulations (AM, FM, PM)Amplitude can be set in dBm, dBμV or in linear Volts.Internal or external digital modulations - ASK, OOK, FSK, 3FSK, 4FSK, GFSK, MSK, GMSK, HMSK & PSK with U01 optionModulation SynchronisationFast amplitude and/or frequency sweeps with comprehensive triggering5ms sweep settling time1ppm frequency accuracy, <1ppm drift in first yearModulation waveform output on the rear panelInternal waveforms include: Sine, Square, Ramp, Triangle, PRBS (various lengths) and user-defined patternSimple operation with the colour touch screenProgrammable via USB, LAN (LXI) and GPIB (optional), SCPI compatibleCompatible with previous Aim-TTi RF generators
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Data Patterns Pvt. Ltd.
The Generic RF ATE is developed to test the Radar and Radar Subsystems. The ATE is primarily built using an instrumentation control, precision RF routing systems and rack mounted test instruments. Generic RF ATE system enables measurement of parameters of Radar equipment such as Local Oscillators, Waveform Generators, Up and Down Converters, Analog Receivers, Array Group Receiver Units, TR Modules. The ATE is configured to test the Radars upto 18GHz frequency range.
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NI
The Analog Output Device helps you create applications such as stimulus-response, power supply control, deterministic control, and sensor/signal simulation. The Analog Output Device supports various output resolutions, channel counts, and other onboard features, so you can replace several kinds of instruments in your system, including stand-alone proportional integral derivative (PID) controllers, low-speed arbitrary waveform generators, and function generators.The Analog Output Device includes the NI-DAQmx driver and configuration utility that simplify configuration and measurements. NI-DAQmx supports NI programming environments as well as Python, ANSI C, C#.NET, and MathWorks MATLAB® software.
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M8085A -
Keysight Technologies
The M8085A is a software plug-in for M8070A Bit Error Ratio Test system software within the M8000 series of BER test solutions. The M8085A software plug-in controls either the M8190A or the M8195A Arbitrary Waveform Generators to create C-PHY or D-PHY standard compliant test signals. In addition it provides routines for calibration of all signal parameters and for all tests specified in the applicable Conformance Test Suite. Together with the additional available DUT control interface it is possible to read the BER of the receiver under test from the M8070A software and display the BER dependency from test parameters within the M8070A user interface.
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Techsquare -
Techimp HQ S.r.L
New IEC standards, IEC 60034-18-41 and IEC 60034-18-42, have been issued to define the procedures for testing partial discharge inception voltage and the long-term performance (endurance) of Type I and Type II insulation systems used in rotating machines fed from voltage converters. Voltage impulse generators are required at least to test turn insulation, but they would be recommended for any testing under power electronics supply because of their capability to simulate the real electrical stress conditions. More generally, any type of electrical insulation system when subject to impulsive voltage waveform during life should be carefully evaluated in terms of partial discharge and endurance behaviour. This is why voltage impulse generators able to provide impulses with controlled amplitude and frequency are needed to face this new testing challenge.
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Tektronix, Inc.
Tektronix signal generators cover a wide range of applications, from replicating sensor signals to creating RF and the fastest high speed serial data signals. Each versatile signal generator can create a virtually unlimited number of signals - analog or digital, ideal or distorted, standard or custom. From the world's only direct synthesis of high-speed serial data waveforms for simplified receiver testing, to the world's most versatile arbitrary function generator for common stimulus signals, Tektronix has a signal generator to meet your debug challenge.
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CV30P650 -
Frothingham Electronics Corporation
The CV30 P650 test station is currently the highest voltage pulser in a series of exponential pulse generators that can be connected to our FEC200E tester. This gives you all the versatility of the proven FEC200 with the addition of high power exponential pulses. The CV30 P650 pulse adapter can produce a maximum current of 100A at up to 600V using exponential pulses up the 10/1000 waveform. The pulser is rated at 30KW from 300V to 650V. Voltage compliance at 100A is 600V. The station can also include all of the usual FEC200 tests in the same test program.
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Tabor Electronics Ltd.
The Pulse Master is a Series of Single and Dual Channel Pulse/Waveform Generators that offers a complete array of pulse, standard, arbitrary, sequenced and modulated waveforms with unmatched performance, even compared to instruments designed to generate fewer types of signals. This signal pulse generator’s smart, compact, 2U 1/2 rack-width footprint allows designers and manufacturers to conserve substantial benchtop or rack space, while benefiting from high-performance, bandwidth, signal integrity, and reliability with the flexibility to adapt to a full spectrum of applications making the Pulse Master an important laboratory tool.
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NI RFSG Soft Front Panel -
NI
The NI RFSG Soft Front Panel helps you quickly generate RF continuous wave (CW) or modulated signals. It works with the NI PXIe-5644R/5645R/5646R vector signal transceivers (VSTs) and NI 567x vector signal generators (VSGs). You can open multiple instances for multiple instruments in a system. In addition, you can load I/Q waveforms, save and recall setups, preview data that is loaded onto the VSG, and sweep levels or frequencies using RF list mode. The soft front panel also features built-in modulation schemes such as AM, FM, and PM.
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781420-16 -
NI
8x46, 0.3 A, Reed Matrix Module for SwitchBlock - The SWB‑2816 is a reed relay matrix module for SwitchBlock systems. Designed for high power, it can operate as an individual relay card or expand in a single carrier or single PXI chassis. You can connect any input to any output, … individually or in combination. You can use matrix switches to route signals from oscilloscopes, DMMs, arbitrary waveform generators, and power supplies to various test points on a unit under test (UUT). The primary benefit of matrix switches is simplified wiring—the overall test system can easily and dynamically change the internal connection path without any external manual intervention.
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781420-14 -
NI
8x9, 1 A, 2-Wire Reed Matrix Module for SwitchBlock - The SWB‑2814 is a reed relay matrix module for SwitchBlock systems. Designed for high power, it can operate as an individual relay card or expand in a single carrier or single PXI chassis. You can connect any input to any output, individually or in combination. You can use matrix switches to route signals from oscilloscopes, DMMs, arbitrary waveform generators, and power supplies to various test points on a unit under test (UUT). The primary benefit of matrix switches is simplified wiring—the overall test system can easily and dynamically change the internal connection path without any external manual intervention.
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781421-14 -
NI
8x9, 1 A, 2-Wire Reed Matrix Module for SwitchBlock - The SWB‑2814 is a reed relay matrix module for SwitchBlock systems. Designed for high power, it can operate as an individual relay card or expand in a single carrier or single PXI chassis. You can connect any input to any output, individually or in combination. You can use matrix switches to route signals from oscilloscopes, DMMs, arbitrary waveform generators, and power supplies to various test points on a unit under test (UUT). The primary benefit of matrix switches is simplified wiring—the overall test system can easily and dynamically change the internal connection path without any external manual intervention.
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781421-17 -
NI
16x22, 0.3 A, Reed Matrix Module for SwitchBlock - The SWB‑2817 is a reed relay matrix module for SwitchBlock systems. Designed for high power, it can operate as an individual relay card or expand in a single carrier or single PXI chassis. You can connect any input to any output, individually or in combination. You can use matrix switches to route signals from oscilloscopes, DMMs, arbitrary waveform generators, and power supplies to various test points on a unit under test (UUT). The primary benefit of matrix switches is simplified wiring—the overall test system can easily and dynamically change the internal connection path without any external manual intervention.
