Showing results: 1081 - 1095 of 1170 items found.
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HORIBA, Ltd.
HORIBA offers a wide variety of optical accessories. We have optical choppers which pulse continuous light sources. Explore our order sorting filter wheels for spectrographs and monochromators. Choose from our optical fibers and light guides, with flexible light delivery, single fibers, fiber bundles, and liquid light guides. And select from our lens and mirror-based sample compartments.All of these accessories are compatible with our various optical components. Our optical accessories allow us to complete a custom solution for your unique configuration requirements and a variety of spectroscopy applications. HORIBA offers more choices to ensure you can select the best optics for your needs.
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Curtiss-Wright Defense Solutions
FPGAs have revolutionized the way digital signal processing (DSP) subsystems are configured. With a large number of gates, hardware multipliers, and high-speed serial interfaces, FPGAs enable sophisticated applications, including radar, signal intelligence, and image processing, which rely on repetitive processing that can be expressed in highly parallel form. FPGAs perform exceptionally well in FFTs, pulse compression, filters, and digital up/down converters. In deployed systems, an FPGA's technical advantage translates to smaller, lower power, and lower cost systems. Our commercial off-the-shelf (COTS) 3U VPX FPGA cards include a wide complement of I/O functionality and are engineered to succeed in the most demanding rugged applications.
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CP-5110B Detector/CA-6000B Amplifier -
Ono Sokki
CP / CA series are systems that detect the rotation angle of the engine crankshaft composed of CP-5110B Fiber Optic Crank Angle Detector, CA-6000B Crank Angle Amplifier and CP-5120 / 5130 Slit disk.CP-5110B Fiber Optic Crank Angle Detector makes it possible to detect the crank angle required for various engine performance tests such as combustion analysis with high accuracy and high response. As it has a light projecting and receiving method with an optical fiber, it provides outstanding vibration and noise resistance without a built-in electric circuit in the detector.CA-6000B Crank Angle Amplifier inputs a signal of crank angle detector and outputs a TTL level angle signal and a 1P / R pulse signal.
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MT-8006B -
Prokit's Industries Co., Ltd.
LCD display for dialing number, Caller ID, Clock and other informationIndicator for determining the Line service and speedHigh impedance monitor for data safe operation without disrupting existing traffic.Smart power saving enables battery life up to 6 months12 phone number memory for speed dialing16 dialing number memoriesTone (DTMF) and pulse operationUp to 32 digits phone number memory for speed dialing keyPre-dialing and last number redial functionPBX pause key, insert a PBX pause in stored numbersTelephone line polarity indicatorsLow battery indicationBacklight functionRJ-11 port for easy test leads changeRinger and voltage LED indicationAngled bed of nails and RJ-11 plug
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4012 -
Barth Electronics, Inc
The Model 4012 VFTLP+™ test system was developed in early 2000 to add high speed measurements to the usual I-V plot, to measure and record the real TDDB waveform which causes oxide failure.*Accurate measurements of this waveform have finally been identified by Barth Electronics Inc. and CDM protection can now be based on known dimensional design parameters. We identify the response of your CDM protection circuits with 100ps risetime pulses which simulate the real CDM test. This is the only way with which to provide the total gate oxide threat voltage data.*Convenient, precise, repeatable operation*Computer controlled for automated testing
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782400-01 -
NI
Non-Enclosed, 5 V/TTL, 8 Bidirectional Channels, 100 ns C Series Digital Module - The sbRIO‑9401 is a configurable digital I/O interface for input or output in 4-bit increments. Therefore, the sbRIO‑9401 can create three configurations: 8 digital inputs, 8 digital outputs, or four digital inputs and four digital outputs. With reconfigurable I/O (RIO) technology (CompactRIO only), you can use the LabVIEW FPGA Module to program the sbRIO‑9401 for implementing custom, high-speed counter/timers; digital communication protocols; pulse generation; or other applications. Each channel features transient isolation between the I/O channels and the backplane. Non-enclosed modules are designed for OEM applications.
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782824-01 -
NI
8‑Slot, Ethernet CompactDAQ Chassis - The cDAQ‑9188 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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781424-01 -
NI
8‑Slot, Ethernet CompactDAQ Chassis - The cDAQ‑9188 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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783407-02 -
NI
32-Bit, 8-Channel C Series Counter Input Module - The NI‑9361 is a differential or single-ended input module. With this module, you can expand beyond the four counters in CompactDAQ to reach up to 64 counters per 8‑slot chassis. You can configure each channel to read a single pulse train or combine them to read up to four incremental encoders. You can also directly connect sensors with open-collector or push-pull outputs by using an internal switchable 1 kΩ pull‑up resistor. The NI‑9361 counters can perform encoder position and velocity measurements. You can synchronize the counters with other analog, digital, and counter measurements in your chassis.
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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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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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724 Family -
CAEN S.p.A.
The 724 is a family of CAEN Waveform Digitizer able to perform basic waveform recording and run online advanced algorithms (DPP) of pulse height analysis and dynamic acquisition window. Data is read by a Flash ADC, 14-bit resolution and 100 MS/s sampling rate, which is well suited for high resolution detectors as Silicon, HPGe or inorganic scintillators like NaI or CsI coupled with Charge Sensitive Preamplifers. In the waveform recording mode, algorithms of zero suppression are also implemented to reduce the data throughput. The acquisition can be channel independent and it is possible to make coincidence/anticoincidence logic among diferent channels and external veto/gating. Multiple boards can be synchronized to build up complex systems.
