Showing results: 5596 - 5610 of 8105 items found.
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53220A -
Keysight Technologies
Two 350 MHz input channels, plus optional third channel (6 GHz or 15 GHz)12 digits/second resolution, 100 p sec time interval resolution LXI-C/LAN, USB, GPIB Built-in math analysis and color, graphical display (trend and histogram)Optional: Lithium Ion Battery Bench Vue software enabled: Do more with your PC and instrument together, no programming required. Easily control your counters, quickly build automated tests and log data for faster analysis and save precious time.
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M9019A -
Keysight Technologies
The Keysight M9019A PXIe 18-slot Gen 3 chassis delivers the flexibility, compatibility, and performance required for demanding applications. With 16 PXIe hybrid slots, it gives the system designer more flexibility to mix and match the number and location of PXIe and hybrid-compatible modules. The ultra-high performance, PCIe switch fabric can operate up to Gen 3 providing up to 24 GB/s of system data bandwidth. Combine the M9019A with the M9022A/23A/24A PXIe System Modules and M9048B/49A PCIe Desktop Adapters to achieve up to a Gen 3 x16 PCIe link to an external PC.
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Rotronic Measurement Solutions
A temperature transmitter is an electrical instrument that interfaces a temperature sensor (e.g. thermocouple, RTD, or thermistor) to a measurement or control device (e.g. PLC, DCS, PC, loop controller, data logger, display, recorder, etc.). Typically, temperature transmitters isolate, amplify, filter noise, linearize, and convert the input signal from the sensor then send (transmit) a standardized output signal to the control device. Common electrical output signals used in manufacturing plants are 4-20mA or 0-10V DC ranges. For example, 4mA could represent 0°C and 20mA means 100°C.
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Keysight Technologies
Special recommended calibration options: The N7800A software calculates point-to-point ISO GUM measurement uncertainty. The special “H-series” calibration options in the link below provide lower measurement uncertainties through use of direct comparison to devices directly characterized by NPL or NIST (or another NMI), along with data on a CD for easy import into the N7800A (avoids manual entry). The overall resulting N7800A measurement uncertainty then incorporates this lower device uncertainty in the overall calculated uncertainty. For more information on the special options please view this spreadsheet N7800A Special Calibration Matrix.
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780109-02 -
NI
PXIe, 43 MHz Bandwidth, 16-Bit Onboard Signal Processing, 256 MB, PXI Waveform Generator—The PXIe‑5442 is a 43 MHz arbitrary waveform generator capable of generating user-defined, arbitrary waveforms, standard functions including sine, square, triangle, and ramp, as well as signals that require onboard signal processing. Some of these signal processing operations include FIR and CIC interpolation filters, digtal prefilter gain, numerically-controlled oscillator, and I/Q mixing for quadrature digital upcoversion. The PXIe‑5442 also features advanced synchronization and data streaming capabilities.
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780109-01 -
NI
PXIe, 43 MHz Bandwidth, 16-Bit Onboard Signal Processing, 32 MB, PXI Waveform Generator—The PXIe‑5442 is a 43 MHz arbitrary waveform generator capable of generating user-defined, arbitrary waveforms, standard functions including sine, square, triangle, and ramp, as well as signals that require onboard signal processing. Some of these signal processing operations include FIR and CIC interpolation filters, digtal prefilter gain, numerically-controlled oscillator, and I/Q mixing for quadrature digital upcoversion. The PXIe‑5442 also features advanced synchronization and data streaming capabilities.
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780109-03 -
NI
PXIe, 43 MHz Bandwidth, 16-Bit Onboard Signal Processing, 512 MB, PXI Waveform Generator—The PXIe‑5442 is a 43 MHz arbitrary waveform generator capable of generating user-defined, arbitrary waveforms, standard functions including sine, square, triangle, and ramp, as well as signals that require onboard signal processing. Some of these signal processing operations include FIR and CIC interpolation filters, digtal prefilter gain, numerically-controlled oscillator, and I/Q mixing for quadrature digital upcoversion. The PXIe‑5442 also features advanced synchronization and data streaming capabilities.
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778758-03 -
NI
100 MHz Bandwidth, 100 MS/s, 14-Bit PCI Oscilloscope Device—The PCI‑5122 high-resolution oscilloscope device has two channels with greater than 75 dBc spurious‑free dynamic range (SFDR) and flexible settings for coupling, impedance, voltage range, and filtering. Oscilloscope devices also feature a number of triggering modes, deep onboard memory, and an instrument driver that includes data streaming and analysis functions. This device is ideal for both time-domain and frequency-domain applications that require high-resolution, low-noise measurements with up to 100 MS/s and 100 MHz of analog bandwidth.
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778758-01 -
NI
100 MHz Bandwidth, 100 MS/s, 14-Bit PCI Oscilloscope Device—The PCI‑5122 high-resolution oscilloscope device has two channels with greater than 75 dBc spurious‑free dynamic range (SFDR) and flexible settings for coupling, impedance, voltage range, and filtering. Oscilloscope devices also feature a number of triggering modes, deep onboard memory, and an instrument driver that includes data streaming and analysis functions. This device is ideal for both time-domain and frequency-domain applications that require high-resolution, low-noise measurements with up to 100 MS/s and 100 MHz of analog bandwidth.
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778758-02 -
NI
100 MHz Bandwidth, 100 MS/s, 14-Bit PCI Oscilloscope Device—The PCI‑5122 high-resolution oscilloscope device has two channels with greater than 75 dBc spurious‑free dynamic range (SFDR) and flexible settings for coupling, impedance, voltage range, and filtering. Oscilloscope devices also feature a number of triggering modes, deep onboard memory, and an instrument driver that includes data streaming and analysis functions. This device is ideal for both time-domain and frequency-domain applications that require high-resolution, low-noise measurements with up to 100 MS/s and 100 MHz of analog bandwidth.
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785259-01 -
NI
8-Channel, 95 S/s/ch Simultaneous, ±78 mV C Series Temperature Input Module - The NI‑9212 offers channel‑to‑channel, isolated thermocouple input channels. The NI‑9212 channel‑to‑channel isolation protects channels from continuous voltages up to 250 Vrms and transient (withstand) voltages up to 1500 Vrms. You can use the NI‑9212 in a variety of applications that are not conducive for bank-isolated channels such as white goods testing, in-vehicle data logging, battery stack testing, as well as in various other noisy industrial environments.
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782975-01 -
NI
8-Channel, 95 S/s/ch Simultaneous, ±78 mV C Series Temperature Input Module - The NI‑9212 offers channel‑to‑channel, isolated thermocouple input channels. The NI‑9212 channel‑to‑channel isolation protects channels from continuous voltages up to 250 Vrms and transient (withstand) voltages up to 1500 Vrms. You can use the NI‑9212 in a variety of applications that are not conducive for bank-isolated channels such as white goods testing, in-vehicle data logging, battery stack testing, as well as in various other noisy industrial environments.
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783766-01 -
NI
The NI‑7935 features a programmable FPGA and embedded processor optimized for deployment in the field for reliable, extended operation for applications requiring advanced I/O capability with embedded signal processing. It includes a Xilinx Kintex‑7 K410T FPGA, 2 GB of onboard DDR3 DRAM, a dual‐core ARM Cortex‑A9 processor running NI Linux Real‑Time, and 2 SFP+ ports for data streaming. The registered trademark Linux® is used pursuant to a sublicense from LMI, the exclusive licensee of Linus Torvalds, owner of the mark on a worldwide basis.
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WS5-220XM-W5 -
TEAM SOLUTIONS, INC.
TiePie engineering has introduced the WiFiScope series oscilloscopes. The new range WiFi oscilloscopes can be used via an ethernet connection (LAN, WiFi or WAN) but also still with a USB 2.0 / 3.0 connection. The built-in battery gives the WiFiScope the possibility to perform fully wireless measurements. Measurements can then be performed completely galvanically isolated, and over long distances. This wireless PC-based data acquisition instrument offers the user more possibilities for measurement applications.With a WAN connection, worldwide measurements can be performed. Specific knowledge on networks is not required. The Multi Channel software gives an overview of the available USB instruments and network instruments. Simply tick the instrument and measuring can start. The WiFi oscilloscope has the following advantages: fully wireless measurements via WiFi are performed (galvanically isolated) because of the built-in battery mobile measurements are possible, e.g. on transport systems and moving installations LAN and WAN data acquisition is available for long distance measurements continuous realtime highspeed data acquisition over both WiFi and LAN/WAN are available USB measurements for stand-alone applications and highspeed data acquisition up to 200MSa/s.
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Data Patterns Pvt. Ltd.
Built in strict adherence to open architecture standards, Data Patterns designs COTS module products which are used in today's rugged applications and automatic test equipment platforms. Open standard form factors include cPCI, FMC & XMC, IP, MM, PCI, PCMCIA, PMC, VME, VPX and VXI.A portfolio of 'Off the Shelf ' products for testing and on-board applications have been developed by Data Patterns. COTS boards developed have been sold to many customers, in India as well as Europe and North America. They are used for system level products such as Automatic Test Equipment, Rugged Military Electronics, etc.Data Patterns focus on building COTS product is to provide the technological capability to develop system level products with very fast run around times. Use of Data Patterns' COTS module in system level products ensures Data Patterns ability to maintain the products for a significantly longer life cycle. The proximity to the system level engineering team with the COTS development team ensures that end applications are delivered faster, enabling a shorter time to market for the customers
