Showing results: 76 - 90 of 96 items found.
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NI
PXI Analog Output Modules support both static and software-timed voltage output applications. Modules also include 5 V TTL/CMOS digital I/O lines. Some PXI Analog Output Modules can deliver simultaneous, multichannel updates for control and waveform output applications, such as stimulus-response, power supply control, high-speed, deterministic control, and sensor/signal simulation. These advanced features enable you to use the PXI Analog Output Module to replace several kinds of instruments, including stand-alone proportional integral derivative (PID) controllers, low-speed arbitrary waveform generators, and function generators.
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IT8900 Series -
I-TECH Electronic Co., Ltd
IT8900 series of high performance high power dc electronic loads provide three voltage ranges 150V/600V/1200V. The power expands to 600kW by master-slave paralleling, and maintains stand-alone functions. 50kHz high speed measurement, six working modes, transient over-power loading capability, CV loop speed adjustment, Measurement function, 25kHz dynamic test and other multiple accurate testing functions make IT8900 series well-suited for types of high power applications. Built-in LAN/USB/RS232/GPIB interfaces are designed formany fields such as power supply, power battery, DC charging station, generators, military and aerospace etc.
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GAO Tek Inc.
GAOTek provides a wide range of high performance and inexpensive QAM/PCM analyzers. Quadrature amplitude modulation (QAM) and pulse code modulation (PCM) analyzers are convenient instruments with top to bottom estimations and adaptable setups. Additionally, these devices have integrated functions of analog signal generators/receivers, BERT, signaling generators/receivers, selective level meters, ring generators/ identifications, dialers, DC loop circuits (ICT, OGT), balanced bridges and reflecting bridges into solitary instruments. These analyzers are ideal for installing and maintaining digital and analog networks.
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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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MU-2200 -
HORIBA, Ltd.
The mixed gas generator MU Series integrates with high-performance mass flow controllers to generate a homogenous gas mixture of two or more types of gases. Using the control unit’s touch panel you can control both flow rate, and the concentration of the mixed gas.The gas generators can be used for industrial purposes, such as generating combustion gases supplied to burners, as well as laboratory use in the biotechnology and food markets. HORIBA produces gas mixers tailored to customers’ intended uses, such as models with a purge function capable of mixing reactive gases.
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PXA(e)72xx -
VX Instruments GmbH
High speed, high resolution arbitrary waveform generatorThe PXA(e)72xx ArbGen family features up to two simultaneously working channels with up to 200MS/s, 16Bit resolution and an output voltage up to +30V or ±15V. Every channel is equipped with up to 16MB memory. The whole amount of up to 8 million samples can be partitioned into one or more waveform segments. Depending on the number of channels and the floating option, the Arbitrary Function Generators are built into a compact 3U PXI(e) device for 1 or 2 slots.
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PXA(e)73xx -
VX Instruments GmbH
The PXA(e)73xx ArbGen family features up to two simultaneously working channels with 100MS/s, 16Bit resolution and an output current up to 30mA in sink mode (at up to 30V) or ±20mA in combined source/sink mode (at up to ±10V).Every channel is equipped with 2MB memory. The whole amount of 1 million samples can be partitioned into one ore more waveform segments. Depending on the number of channels and the floating option, the Arbitrary Function Generators are built into a compact 3U PXI(e) device for 1 or 2 slots.
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780587-41 -
NI
PXIe, 300 MHz, 8x12 PXI RF Matrix Switch Module—The PXIe‑2541 is an RF signal switching matrix. With its non-blocking design, you can simultaneously connect any row or column within the switching matrix and maximize the flexibility of your test system. Isolation relays on the module disconnect unused parts of the switching matrix to maintain RF performance and high isolation. The density and bandwidth of the PXIe‑2541 is ideal for routing signals between digitizers, function generators, and other RF generators and analyzers. For higher channel count applications, you can connect multiple PXIe‑2541 modules together to create switching matrices of 8x24, 8x36, and larger.
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778572-41 -
NI
300 MHz, 8x12 PXI RF Matrix Switch Module—The PXI‑2541 is an RF signal switching matrix. With its non-blocking design, you can simultaneously connect any row or column within the switching matrix and maximize the flexibility of your test system. Isolation relays on the module disconnect unused parts of the switching matrix to maintain RF performance and high isolation. The density and bandwidth of the PXI‑2541 is ideal for routing signals between digitizers, function generators, and other RF generators and analyzers. For higher channel count applications, you can connect multiple PXI‑2541 modules together to create switching matrices of 8x24, 8x36, and larger.
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SSG5000X Series -
SIGLENT Technologies
SIGLENT’S SSG5000X series of signal generators can generate analog and vector signals, and have a frequency range of 9 kHz to 4 GHz/6 GHz. They feature the industry-leading performance in phase noise, spectral purity, bandwidth, EVM, output power. The internal IQ modulation generator and waveform playback function make it easy to create even the most complex signal types. They also cover the most important RF band for digital wireless communications and include standard waveform files. The SIGLENT SSG5000X are powerful and cost effective sources that are ideal for R&D, education, and manufacturing.
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778998-01 -
NI
13-Bit, 32-Channel, 800 kS/s PXI Analog Output Module—The PXI‑6723 delivers low-cost, high-density analog outputs to meet a wide range of applications, such as stimulus-response, signal simulation, waveform generation, and actuator stimulation. In addition, the device provides eight 5 V TTL/CMOS digital I/O lines; two 24‑bit, 20 MHz counter/timers; and digital triggering and external clocking capabilities. The PXI‑6723 can replace several kinds of instruments, including stand-alone proportional integral derivative (PID) controllers, low-speed arbitrary waveform generators, and function generators. You can control each data point for each channel to define common waveforms, such as square, sine, or sawtooth, as well as complex waveforms.
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778512-01 -
NI
16-Bit, 8-Channel, 1 MS/s PXI Analog Output Module—The PXI‑6733 is a high-speed analog output device designed to deliver simultaneous, multichannel updates for control and waveform output applications, such as stimulus-response tests (including acoustic distortion testing) and simulation (such as three-phase power simulation). In addition, the device provides eight 5 V TTL/CMOS digital I/O lines; two 24‑bit, 20 MHz counter/timers; and digital triggering and external clocking capabilities. The PXI‑6733 can replace several kinds of instruments, including stand-alone proportional integral derivative (PID) controllers, low-speed arbitrary waveform generators, and function generators. You can control each data point for each channel to define common waveforms, such as square, sine, or sawtooth, as well as complex waveforms.
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778999-01 -
NI
13-Bit, 8-Channel, 800 kS/s PXI Analog Output Module—The PXI‑6722 is a high-speed analog output device designed to deliver simultaneous, multichannel updates for control and waveform output applications, such as stimulus-response, power supply control, high-speed, deterministic control, and sensor/signal simulation. In addition, the device provides eight 5 V TTL/CMOS digital I/O lines; two 24‑bit, 20 MHz counter/timers; and digital triggering and external clocking capabilities. The PXI‑6722 can replace several kinds of instruments, including stand-alone proportional integral derivative (PID) controllers, low-speed arbitrary waveform generators, and function generators. You can control each data point for each channel to define common waveforms, such as square, sine, or sawtooth, as well as complex waveforms.
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777794-01 -
NI
12-Bit, 4-Channel, 1 MS/s PXI Analog Output Module—The PXI‑6711 is a high-speed analog output device designed to deliver simultaneous, multichannel updates for control and waveform output applications, such as stimulus-response, power supply control, high-speed, deterministic control, and sensor/signal simulation. In addition, the device provides eight 5 V TTL/CMOS digital I/O lines; two 24‑bit, 20 MHz counter/timers; and digital triggering and external clocking capabilities. The PXI‑6711 can replace several kinds of instruments, including stand-alone proportional integral derivative (PID) controllers, low-speed arbitrary waveform generators, and function generators. You can control each data point for each channel to define common waveforms, such as square, sine, or sawtooth, as well as complex waveforms.
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777795-01 -
NI
12-Bit, 8-Channel, 1 MS/s PXI Analog Output Module—The PXI‑6713 is a high-speed analog output device designed to deliver simultaneous, multichannel updates for control and waveform output applications, such as stimulus-response, power supply control, high-speed, deterministic control, and sensor/signal simulation. In addition, the device provides eight 5 V TTL/CMOS digital I/O lines; two 24‑bit, 20 MHz counter/timers; and digital triggering and external clocking capabilities. The PXI‑6713 can replace several kinds of instruments, including stand-alone proportional integral derivative (PID) controllers, low-speed arbitrary waveform generators, and function generators. You can control each data point for each channel to define common waveforms, such as square, sine, or sawtooth, as well as complex waveforms.
