Showing results: 571 - 585 of 700 items found.
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777530-01 -
NI
2 AI (12-Bit, 5 MS/s/ch), 2 AO, 8 DIO, PCI Multifunction I/O Device - The PCI‑6111 is a simultaneous-sampling, multifunction DAQ device. It offers analog I/O, digital I/O, two 24‑bit counters, and digital triggering. The PCI‑6111 is ideal for a variety of applications, such as … stimulus/response applications that require synchronization among analog input (AI), analog output (AO), and digital I/O. It is also ideal for 42 V automotive applications, radar, sonar, and ultrasound. The included NI‑DAQmx driver and configuration utility simplify configuration and measurements. The PCI‑6111 dimensions require chassis slots that can accommodate full-length PCI modules.
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782052-01 -
NI
1‑Slot, Ethernet CompactDAQ Chassis - The cDAQ‑9181 is a CompactDAQ Ethernet chassis designed for small, distributed sensor measurement systems. The chassis controls the timing, synchronization, and data transfer between C Series I/O modules and an external host. You can use this chassis with a combination of C Series I/O modules to create a mix of analog I/O, digital I/O, and counter/timer measurements. The chassis also has four 32‑bit general‑purpose counters/timers. You can access these counters through an installed, hardware‑timed digital C Series module for applications that involve quadrature encoders, PWM, event counting, pulse train generation, and period or frequency measurement.
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781496-01 -
NI
1‑Slot, Ethernet CompactDAQ Chassis - The cDAQ‑9181 is a CompactDAQ Ethernet chassis designed for small, distributed sensor measurement systems. The chassis controls the timing, synchronization, and data transfer between C Series I/O modules and an external host. You can use this chassis with a combination of C Series I/O modules to create a mix of analog I/O, digital I/O, and counter/timer measurements. The chassis also has four 32‑bit general‑purpose counters/timers. You can access these counters through an installed, hardware‑timed digital C Series module for applications that involve quadrature encoders, PWM, event counting, pulse train generation, and period or frequency measurement.
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783801-01 -
NI
16-Bit, 64-Channel, 1 MS/s PXI Analog Output Module—The PXIe‑6739 is a high-density analog output module. The device is ideal for applications such as stimulus-response tests and open-loop simulations at high densities. You can achieve the maximum sample rate if using up to 16 channels, where each channel is on a separate bank. The PXIe‑6739 also includes 20 digital I/O lines, four counter/timers, digital triggering, and advanced timing to meet a wide range of application requirements. Its digital triggering and PXI Express synchronization capabilities allow it to be coupled with additional data acquisition, motion, and vision products to create highly custom measurement solutions to test innovative designs.
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781337-01 -
NI
16-Bit, 8-Channel, 250 kS/s, 300 V, Ch-Ch Isolated PXI Analog Input Module—The PXIe‑4300 provides integrated data acquisition and signal conditioning for high-voltage measurements. It provides increased accuracy, simultaneous sampling, and synchronization features for scalable measurement systems. The PXIe‑4300 includes 300 Vrms channel‑to‑channel CAT II isolation and 3,300 Vrms channel‑to‑earth 5 second withstand isolation to protect users and equipment from hazardous voltages. This module offers programmable lowpass filtering, DC input coupling, and two PFI lines for digital input triggering. The included NI‑DAQmx driver simplifies hardware and configuration and measurement.
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783800-01 -
NI
16-Bit, 32-Channel, 1 MS/s PXIe Analog Output Module—The PXIe‑6738 is a high-density analog output module. The device is ideal for applications such as stimulus-response tests and open-loop simulations at high densities. You can achieve the maximum sample rate if using up to eight channels, where each channel is on a separate bank. The PXIe‑6738 also includes 10 digital I/O lines, four counter/timers, digital triggering, and advanced timing to meet a wide range of application requirements. Its digital triggering and PXI Express synchronization capabilities allow it to be coupled with additional data acquisition, motion, and vision products to create highly custom measurement solutions to test innovative designs.
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784226-01 -
NI
PXIe, 100 MHz, 4- or 8-Channel, 14-Bit, Kintex-7 325T or 410T FPGA Reconfigurable PXI Oscilloscope—The PXIe 5172 high-density PXI oscilloscope has eight simultaneously-sampled channels with flexible settings for coupling and voltage range. PXI oscilloscopes 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 applications with many channels that require up to 250 MS/s or 100 MHz of analog bandwidth and advanced PXI synchronization. The PXIe 5172 also features a programmable Kintex-7 325T or 410T FPGA that can be used for custom acquisition, triggering, signal processing, and data streaming.
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784225-01 -
NI
PXIe, 100 MHz, 4- or 8-Channel, 14-Bit, Kintex-7 325T or 410T FPGA Reconfigurable PXI Oscilloscope—The PXIe 5172 high-density PXI oscilloscope has eight simultaneously-sampled channels with flexible settings for coupling and voltage range. PXI oscilloscopes 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 applications with many channels that require up to 250 MS/s or 100 MHz of analog bandwidth and advanced PXI synchronization. The PXIe 5172 also features a programmable Kintex-7 325T or 410T FPGA that can be used for custom acquisition, triggering, signal processing, and data streaming.
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779967-02 -
NI
PXIe, 100 MHz, 100 MS/s, 14-Bit PXI Oscilloscope—The PXIe‑5122 high-resolution PXI oscilloscope has two channels with greater than 75 dBc spurious‑free dynamic range (SFDR) and flexible settings for coupling, impedance, voltage range, and filtering. PXI oscilloscopes 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. The PXIe‑5122 also features advanced PXI synchronization and data streaming capabilities.
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779967-03 -
NI
PXIe, 100 MHz, 100 MS/s, 14-Bit PXI Oscilloscope—The PXIe‑5122 high-resolution PXI oscilloscope has two channels with greater than 75 dBc spurious‑free dynamic range (SFDR) and flexible settings for coupling, impedance, voltage range, and filtering. PXI oscilloscopes 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. The PXIe‑5122 also features advanced PXI synchronization and data streaming capabilities.
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781204-01 -
NI
PXIe, 145 MHz, 16-Bit, 128 MB, PXI Waveform Generator—The PXIe‑5451 is a 145 MHz, dual‐channel arbitrary waveform generator capable of generating user-definied waveforms, standard functions, and I/Q communications signals. It is an ideal instrument for including in systems for testing devices with I/Q inputs, or as the baseband component of an RF vector signal generator as wells as time-domain signals like envelope tracking. The PXIe‑5451 also features onboard signal processing (OSP) functions that include pulse shaping and interpolation filters, gain and offset control, and a numerically controlled oscillator (NCO) for frequency shifting. The PXIe‑5451 also features advanced synchronization and data streaming capabilities.
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781204-02 -
NI
PXIe, 145 MHz, 16-Bit, 512 MB, PXI Waveform Generator—The PXIe‑5451 is a 145 MHz, dual‐channel arbitrary waveform generator capable of generating user-definied waveforms, standard functions, and I/Q communications signals. It is an ideal instrument for including in systems for testing devices with I/Q inputs, or as the baseband component of an RF vector signal generator as wells as time-domain signals like envelope tracking. The PXIe‑5451 also features onboard signal processing (OSP) functions that include pulse shaping and interpolation filters, gain and offset control, and a numerically controlled oscillator (NCO) for frequency shifting. The PXIe‑5451 also features advanced synchronization and data streaming capabilities.
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781204-03 -
NI
PXIe, 145 MHz, 16-Bit, 2 GB PXI Waveform Generator—The PXIe‑5451 is a 145 MHz, dual‐channel arbitrary waveform generator capable of generating user-definied waveforms, standard functions, and I/Q communications signals. It is an ideal instrument for including in systems for testing devices with I/Q inputs, or as the baseband component of an RF vector signal generator as wells as time-domain signals like envelope tracking. The PXIe‑5451 also features onboard signal processing (OSP) functions that include pulse shaping and interpolation filters, gain and offset control, and a numerically controlled oscillator (NCO) for frequency shifting. The PXIe‑5451 also features advanced synchronization and data streaming capabilities.
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PX2000-514A (TE1014) -
TEAM SOLUTIONS, INC.
Team Solutions' TE1014 (PX2000-514A) is a 14 slot, 19î rack-mountable chassis, which fully compies with the PXI and Compact PCI standards. All slots have full PXI functionality. Separate forced-air cooling is provided for the power supply and PXI slots. Fan noise is minimized by varying fan speed according to system temperature. Standard features include temperature and PSU monitoring with full software support. The expanded slot capability of the unit provides system integrators with a single-box solution, thus avoiding synchronization, integration and cost issues associated with multi-platform solutions. With a compact case size of 4U / 19î, the TE1014 (PX2000-514A) provides the small footprint required for today's ATE and Data Acquisition applications.
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NX5000 Series -
Marvin Test Solutions, Inc.
ROM emulation is a powerful and versatile method of microprocessor testing. ROM emulation has emerged as the technique of choice for microprocessor test and diagnostic applications. A microprocessor-based board is tested by replacing the boot ROMs on the Unit Under Test (UUT) with memory emulation pods. Each pod handles eight bits of the data bus. Processors from 8 to 32 bits can be controlled with one to four pods (even the most advanced CPUs such as the Intel Pentium generally use only an eight-bit boot path). The emulator takes control of the UUT by resetting the processor and, under the test program’s control (monitor program), exercises all functions on the board. Synchronization with the UUT is automatic and requires no additional hardware or connections.
